Grizzly Lathe 60773 User Manual

MODEL G0773

12" X 27" COMBO LATHE/MILL

OWNER'S MANUAL

(For models manufactured since 12/14)

WARNING: NO PORTION OF THIS MANUAL MAY BE REPRODUCED IN ANY SHAPE

OR FORM WITHOUT THE WRITTEN APPROVAL OF GRIZZLY INDUSTRIAL, INC.

# WKBB17019 PRINTED IN CHINA

V1.03.15

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Table of Contents

INTRODUCTION............................................... 2

SECTION 5: MILL OPERATIONS.................. 51

Operation Overview..................................... 51

Removing Compound Rest.......................... 52

Headstock Movement.................................. 52

Table Travel................................................. 53

Installing/Removing Tooling......................... 54

Spindle Speed.............................................. 56

Machine Description ...................................... 2

Contact Info.................................................... 2

Manual Accuracy ........................................... 2

Identification................................................... 3

Controls & Components................................. 4

G0773 Data Sheet......................................... 7

SECTION 1: SAFETY..................................... 10

Safety Instructions for Machinery ................ 10

Additional Safety for Metal Lathes............... 12

Additional Safety for Mills ............................ 13

Additional Lathe Chuck Safety..................... 14

SECTION 6: ACCESSORIES......................... 57

SECTION 7: MAINTENANCE......................... 61

Schedule...................................................... 61

Cleaning/Protecting...................................... 61

Lubrication ................................................... 62

Machine Storage.......................................... 66

SECTION 2: POWER SUPPLY...................... 15

SECTION 3: SETUP ....................................... 17

Setup Overview............................................ 17

Unpacking.................................................... 17

Needed for Setup......................................... 17

Inventory ...................................................... 18

Cleanup........................................................ 19

Site Considerations...................................... 20

Lifting & Placing........................................... 21

Mounting & Leveling .................................... 22

Assembly ..................................................... 23

Test Run ...................................................... 24

Spindle Break-In .......................................... 26

Recommended Adjustments........................ 26

SECTION 8: SERVICE ................................... 67

Troubleshooting ........................................... 67

Tensioning & Replacing V-Belts.................. 70

Adjusting Backlash....................................... 71

Adjusting Leadscrew End Play.................... 71

Adjusting Gibs.............................................. 72

Adjusting Half Nut........................................ 73

SECTION 8: WIRING...................................... 74

Wiring Safety Instructions............................ 74

Wiring Overview........................................... 75

Wiring Diagram............................................ 76

Wiring Photos............................................... 77

SECTION 10: PARTS..................................... 78

Accessories.................................................. 78

Lathe Bed..................................................... 79

Tailstock....................................................... 82

Tool Post...................................................... 83

Cross Slide................................................... 84

Apron ........................................................... 86

Apron Parts List ........................................... 87

Gearbox ....................................................... 88

Change Gears.............................................. 90

Motor & Drive............................................... 92

Mill................................................................ 94

Labels & Cosmetics..................................... 97

SECTION 4: LATHE OPERATIONS .............. 27

Operation Overview..................................... 27

Chuck Mounting........................................... 28

Installation & Removal Device..................... 28

Chuck Installation......................................... 28

Chuck Removal............................................ 30

Scroll Chuck Clamping ................................ 30

Changing Jaw Set........................................ 31

Tailstock....................................................... 32

Dead Centers............................................... 36

Compound Rest........................................... 38

Four-Way Tool Post..................................... 38

Manual Feed................................................ 40

Spindle Speed.............................................. 41

Understanding Gear Charts......................... 42

Power Feed.................................................. 44

End Gears.................................................... 46

Threading..................................................... 49

SECTION 11: APPENDIX............................... 98

Threading & Feeding Chart ......................... 98

Thread Dial Chart ........................................ 98

WARRANTY & RETURNS ........................... 101

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INTRODUCTION

Machine Description

Manual Accuracy

We are proud to provide a high-quality owner’s

manual with your new machine!

The Model G0773 12" x 27" Combo Lathe/Mill

features a lathe with 735 Watt (1 HP) 110V motor,

6-speed variable-speed controls, 6" 3-jaw chuck,

a 4-way turret toolpost, and a full length splash

guard.

We made every effort to be exact with the instruc-

tions, specifications, drawings, and photographs

contained inside. Sometimes we make mistakes,

but our policy of continuous improvement also

means that sometimes the machine you receive

will be slightly different than what is shown in

the manual.

The mill section features a 14¹⁄2" swing, electronic

variable speed control, fine and course spindle

downfeed with adjustable depth stop, R8 taper,

and a drilling capacity of ¹⁄2" in cast-iron and steel.

If you find this to be the case, and the difference

between the manual and machine leaves you

confused about a procedure, check our website

for an updated version. We post current manuals

and manual updates for free on our website at

www.grizzly.com.

Both section are equipped with emergency stops,

chuck guards, and eye shields for safety.

Contact Info

Alternatively, you can call our Technical Support

for help. Before calling, please write down the

Manufacture Date and Serial Number stamped

into the machine ID label (see below). This infor-

mation helps us determine if updated documenta-

tion is available for your machine.

We stand behind our machines. If you have

any questions or need help, use the information

below to contact us. Before contacting, please get

the serial number and manufacture date of your

machine. This will help us help you faster.

Grizzly Technical Support

1203 Lycoming Mall Circle

Muncy, PA 17756

Phone: (570) 546-9663

Email: [email protected]

Manufacture Date

Serial Number

We want your feedback on this manual. What did

you like about it? Where could it be improved?

Please take a few minutes to give us feedback.

Grizzly Documentation Manager

P.O. Box 2069

Bellingham, WA 98227-2069

Email: [email protected]

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Identification

Study the names and locations of the controls and components shown below to familiarize yourself with the

machine and better understand the terms used throughout this manual.

Variable-

Speed

Dial

Fine Downfeed

Handwheel

3-Jaw

Chuck

Lathe Power

Light

Coarse

Downfeed

Handwheel

Lathe/Mill

Selector

Switch

Spindle

Direction

Switch

Vertical Travel

Lock Lever

4-Way Tool

Post

Gearbox

Dials

On/Off Switch w/

Emergency Stop

Button

Feed

Selection

Lever

Cross Slide

Handwheel

Tailstock

Carriage

Handwheel

Compound Rest

Handwheel

Half Nut

Lever

To reduce your risk of

serious injury, read this

entire manual BEFORE

using machine.

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Carriage

Controls &

Components

To reduce your risk of

serious injury, read this

entire manual BEFORE

using machine.

Refer to Figures 1–5 and the following descrip-

tions to become familiar with the basic controls of

this machine.

Headstock

Figure 2. Carriage controls.

F. Thread Dial: Indicates when to engage half

nut during threading operations.

G. 4-Way Tool Post: Holds up to four cutting

tools at once that can be individually indexed

to workpiece and quickly moved into position

when needed.

H. Compound Rest Handwheel: Moves tool

toward and away from workpiece at preset

compound angle.

Figure 1. Headstock controls.

A. Lathe/Mill Selector Switch: Used to select

I. Cross Slide Table: Supports compound

between lathe mode (1) or mill mode (2).

rest for lathe operations, and workpieces for

milling operations. Includes (2) ⁄8" T-slots

B. Spindle Direction Switch: Selects spindle

spaced 3.55" (90mm) on center, for mounting

milling vises or other fixtures.

rotation direction.

C. Lathe Power Indicator Light: Illuminates

when Lathe/Mill Selector Switch is set to

lathe mode.

J. Feed Selection Lever: Selects carriage or

cross slide for power feed.

K. Half Nut Lever: Engages/disengages half

D. ON/OFF Switch w/Emergency Stop Button:

When pressed, cuts power to motor and con-

trol panel. To reset, press front tab, lift switch

cover, and press green ON button. Cover

must be unlatched for machine to run.

nut for threading operations.

L. Cross Slide Handwheel: Moves cross slide

toward and away from workpiece.

M. Carriage Handwheel: Manually moves car-

E. Gearbox Dials: Control rate of carriage

power feed, as indicated in threading and

feeding charts.

riage left or right along bedway.

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Tailstock

End Gears, Pulleys, V-Belts

Figure 3. Tailstock controls.

Figure 4. End gears, V-belts, and pulleys.

N. Tailstock Quill: Equipped with an MT#2

taper to hold centers or other tooling; features

a scale on the side for use as a depth guide.

T. Timing Belt: Used for controlling spindle

speed, power feed speeds, and threading.

U. V-Belt: Transfers power from motor to idler

and spindle pulleys. The position of the V-belt

on idler and spindle pulleys controls spindle

speed.

O. Tailstock Quill Lock Lever: Secures quill

position so it doesn't shift during operations.

P. Tailstock Lock Lever: Secures tailstock

position along bedway.

V. End Gears: The configuration of the end

gears controls the leadscrew speed for power

feeding, and inch and metric threading.

Q. Graduated Dial: Indicates quill movement in

increments of 0.001", with one full handwheel

revolution equaling 0.04" of quill travel.

R. Quill Handwheel: Moves quill toward or

Serious personal injury could occur if

you connect the machine to power before

completing the setup process. DO NOT

connect power until instructed to do so later

in this manual.

away from spindle.

S. Tailstock Offset Screws: Adjust tailstock

offset left or right from spindle centerline

(1 of 2).

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W. ON/OFF Switch w/Emergency Stop Button:

When pressed, cuts power to motor and con-

trol panel. To reset, press front tab, lift switch

cover, and press green ON button. Cover

must be unlatched for machine to run.

Milling Headstock

X. Mill Fault Light: Illuminates if mill motor is

overloaded.

Y. Fine Vertical Handwheel: Provides preci-

sion control of vertical headstock travel dur-

ing setups.

Z. Coarse Vertical Handwheel: Raises and

lowers headstock for Z-axis spindle position-

ing during setups.

AA. Vertical Travel Lock Lever: Locks head-

stock position along column.

AB. Mill Depth Stop: Limits downward move-

Figure 5. Milling headstock controls.

ment of mill headstock.

AC. Drill Chuck: Holds drill bit during milling

operations.

AD. Variable-Speed Spindle Control Dial:

Provides variable control of spindle speed

between 100–2500 RPM.

AE. Mill Power Indicator Light: Illuminates when

Lathe/Mill Selector Switch (see Page 4) is set

to milling mode.

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MACHINE DATA

SHEET

Customer Service #: (570) 546-9663 · To Order Call: (800) 523-4777 · Fax #: (800) 438-5901

MODEL G0773 12" X 27" COMBO LATHE/MILL

Product Dimensions:

Weight.............................................................................................................................................................. 546 lbs.

Width (side-to-side) x Depth (front-to-back) x Height........................................................................... 59 x 30 x 33 in.

Footprint (Length x Width)............................................................................................................................ 59 x 30 in.

Shipping Dimensions:

Type.......................................................................................................................................................... Wood Crate

Content........................................................................................................................................................... Machine

Weight.............................................................................................................................................................. 656 lbs.

Length x Width x Height....................................................................................................................... 61 x 27 x 38 in.

Must Ship Upright................................................................................................................................................... Yes

Electrical:

Power Requirement........................................................................................................... 110V, Single-Phase, 60 Hz

Full-Load Current Rating..................................................................................................................................... 11.6A

Minimum Circuit Size.............................................................................................................................................. 15A

Connection Type....................................................................................................................................... Cord & Plug

Power Cord Included.............................................................................................................................................. Yes

Power Cord Length................................................................................................................................................. 6 ft.

Power Cord Gauge......................................................................................................................................... 16 AWG

Plug Included.......................................................................................................................................................... Yes

Included Plug Type.................................................................................................................................... NEMA 5-15

Switch Type....................................................................................................... ON/OFF Push Button w/Safety Cover

Motors:

Mill Spindle

Type.............................................................................................................................................. Brushless DC

Horsepower................................................................................................................................ 5/8 HP (500W)

Phase............................................................................................................................................ Single-Phase

Amps........................................................................................................................................................... 2.8A

Speed................................................................................................................................................ 5000 RPM

Power Transfer ................................................................................................................................. Gear Drive

Bearings........................................................................................................... Shielded & Permanently Sealed

Lathe Spindle

Type................................................................................................................. TEFC Capacitor-Start Induction

Horsepower................................................................................................................................... 1 HP (735W)

Phase............................................................................................................................................ Single-Phase

Amps......................................................................................................................................................... 11.6A

Speed................................................................................................................................................ 1700 RPM

Power Transfer .................................................................................................................................. Belt Drive

Bearings........................................................................................................... Shielded & Permanently Sealed

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Main Specifications:

Lathe Info

Swing Over Bed......................................................................................................................................... 12 in.

Distance Between Centers.................................................................................................................. 27-1/2 in.

Swing Over Cross Slide......................................................................................................................... 7-3/8 in.

Swing Over Saddle................................................................................................................................ 4-1/2 in.

Maximum Tool Bit Size............................................................................................................................. 1/2 in.

Compound Travel........................................................................................................................................ 3 in.

Carriage Travel.................................................................................................................................... 23-5/8 in.

Cross Slide Travel....................................................................................................................................... 6 in.

Spindle Bore............................................................................................................................. 1-1/2 in. (38mm)

Spindle Taper............................................................................................................................................ MT#5

Number Of Spindle Speeds.............................................................................................................................. 6

Spindle Speeds....................................................................................... 150, 240, 470, 720, 1130, 2100 RPM

Spindle Type............................................................................................................................................... D1-4

Tailstock Quill Travel............................................................................................................................. 3-1/8 in.

Tailstock Taper.......................................................................................................................................... MT#3

Number of Longitudinal Feeds....................................................................................................................... 15

Range of Longitudinal Feeds................................................................................................. 0.0016 – 0.015 in.

Number of Cross Feeds................................................................................................................................. 15

Range of Cross Feeds......................................................................................................... 0.0008 – 0.0061 in.

Number of Inch Threads................................................................................................................................. 21

Range of Inch Threads...................................................................................................................... 5 – 72 TPI

Number of Metric Threads.............................................................................................................................. 12

Range of Metric Threads.................................................................................................................. 0.5 – 4 mm

Mill Info

Mill Taper...................................................................................................................................................... R-8

Mill Spindle Travel................................................................................................................................. 7-1/8 in.

Mill Swing............................................................................................................................................ 14-1/2 in.

Distance Spindle To Work Table............................................................................................................... 10 in.

Distance Spindle To Bed........................................................................................................................... 12 in.

Distance Spindle To Center Line........................................................................................................... 6-1/2 in.

Mill Head Vertical Travel...................................................................................................................... 7-1/16 in.

Maximum Tool Bit Size............................................................................................................................. 5/8 in.

Drilling Capacity For Steel........................................................................................................................ 1/2 in.

Drilling Capacity For Cast Iron.................................................................................................................. 1/2 in.

Table Size Length.................................................................................................................................. 9-1/2 in.

Table Size Width................................................................................................................................... 4-1/2 in.

Table Size Thickness............................................................................................................................ 1-3/8 in.

Drawbar Diameter................................................................................................................................... 7/16 in.

Drawbar TPI............................................................................................................................................. 20 TPI

Drawbar Length..................................................................................................................................... 6-3/4 in.

Number of Mill Drill Speeds................................................................................................................... Variable

Mill Speed Range.................................................................................................................... 100 – 2500 RPM

Construction

Bed...................................................................................................................... Induction-Hardened Cast Iron

Headstock............................................................................................................................................ Cast Iron

Body..................................................................................................................................................... Cast Iron

End Gears.................................................................................................................................................. Steel

Paint Type/Finish...................................................................................................................................... Epoxy

Other

Bed Width.............................................................................................................................................. 6-1/8 in.

Carriage Leadscrew Diameter.................................................................................................................. 3/4 in.

Carriage Leadscrew TPI............................................................................................................................ 8 TPI

Carriage Leadscrew Length.............................................................................................................. 42-1/16 in.

Cross Slide Leadscrew Diameter........................................................................................................... 9/16 in.

Cross Slide Leadscrew TPI...................................................................................................................... 14 TPI

Cross Slide Leadscrew Length............................................................................................................ 13-1/2 in.

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Other Specifications:

Country of Origin ................................................................................................................................................ China

Warranty ........................................................................................................................................................... 1 Year

Approximate Assembly & Setup Time .............................................................................................................. 1 Hour

Serial Number Location .................................................................................................................................. ID Label

Features:

Full-length splash guard

Emergency stop on lathe and mill

Headstock and mill eyeshields

Thread dial indicator

T-slots in cross slide

Handwheel dials graduated in inches

Electronic variable-speed control on mill

Fine and coarse mill spindle downfeed with adjustable depth stop

Column tilts 45 degrees left and right

Chuck guard with safety switch on lathe and mill

Accessories Included:

6" 3-jaw scroll chuck

4-way turret tool post

MT#3 and MT#5 dead centers

Bottle for oil

Accessories Recommended:

T10255 Mini Lathe Tool Kit

T25250 58 pc Clamping Kit 5/16"-18, 3/8" T-Slot

G1070 Live Center Set - Taper: MT3

H7661 Quick Vise

T10253 2" Mini Self Centering Vise with Swivel Base

T10254 2" Mini Self Centering Vise

H5931 4 pc. Center Drill Set 82°

H5930 4 pc. Center Drill Set 60°

T23962 Moly-D Machine and Way Oil - ISO 68, 5 Gallon

T23963 Moly-D Multi-Function Machine Oil-ISO 32, 5 Gallon

SB1365 Way Oil for Lathes

T23964 Armor Plate with Moly-D Multi-purpose Grease, 14.5 oz.

H7616 High Pressure Oil Can, 5 Oz. With Plastic Nozzle

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SECTION 1: SAFETY

For Your Own Safety, Read Instruction

Manual Before Operating This Machine

The purpose of safety symbols is to attract your attention to possible hazardous conditions.

This manual uses a series of symbols and signal words intended to convey the level of impor-

tance of the safety messages. The progression of symbols is described below. Remember that

safety messages by themselves do not eliminate danger and are not a substitute for proper

accident prevention measures. Always use common sense and good judgment.

Indicates an imminently hazardous situation which, if not avoided,

WILL result in death or serious injury.

Indicates a potentially hazardous situation which, if not avoided,

COULD result in death or serious injury.

Indicates a potentially hazardous situation which, if not avoided,

MAY result in minor or moderate injury. It may also be used to alert

against unsafe practices.

This symbol is used to alert the user to useful information about

proper operation of the machine.

NOTICE

Safety Instructions for Machinery

OWNER’S MANUAL. Read and understand this ELECTRICAL EQUIPMENT INJURY RISKS. You

owner’s manual BEFORE using machine.

can be shocked, burned, or killed by touching live

electrical components or improperly grounded

machinery. To reduce this risk, only allow qualified

service personnel to do electrical installation or

repair work, and always disconnect power before

accessing or exposing electrical equipment.

TRAINED OPERATORS ONLY. Untrained oper-

ators have a higher risk of being hurt or killed.

Only allow trained/supervised people to use this

machine. When machine is not being used, dis-

connect power, remove switch keys, or lock-out

machine to prevent unauthorized use—especially

around children. Make workshop kid proof!

DISCONNECT POWER FIRST. Always discon-

nect machine from power supply BEFORE making

adjustments, changingtooling, orservicingmachine.

This prevents an injury risk from unintended startup

or contact with live electrical components.

DANGEROUS ENVIRONMENTS. Do not use

machinery in areas that are wet, cluttered, or have

poor lighting. Operating machinery in these areas

greatly increases the risk of accidents and injury.

EYE PROTECTION. Always wear ANSI-approved

safety glasses or a face shield when operating or

observing machinery to reduce the risk of eye

injury or blindness from flying particles. Everyday

eyeglasses are NOT approved safety glasses.

MENTAL ALERTNESS REQUIRED. Full mental

alertness is required for safe operation of machin-

ery. Never operate under the influence of drugs or

alcohol, when tired, or when distracted.

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WEARING PROPER APPAREL. Do not wear FORCING MACHINERY. Do not force machine.

clothing, apparel or jewelry that can become

entangled in moving parts. Always tie back or

cover long hair. Wear non-slip footwear to avoid

accidental slips, which could cause loss of work-

piece control.

It will do the job safer and better at the rate for

which it was designed.

NEVER STAND ON MACHINE. Serious injury

may occur if machine is tipped or if the cutting

tool is unintentionally contacted.

HAZARDOUS DUST. Dust created while using

machinery may cause cancer, birth defects, or

long-term respiratory damage. Be aware of dust

hazards associated with each workpiece material,

and always wear a NIOSH-approved respirator to

reduce your risk.

STABLE MACHINE. Unexpected movement dur-

ing operation greatly increases risk of injury or

loss of control. Before starting, verify machine is

stable and mobile base (if used) is locked.

USE RECOMMENDED ACCESSORIES. Consult

this owner’s manual or the manufacturer for rec-

ommended accessories. Using improper acces-

sories will increase the risk of serious injury.

HEARING PROTECTION. Always wear hear-

ing protection when operating or observing loud

machinery. Extended exposure to this noise

without hearing protection can cause permanent

hearing loss.

UNATTENDED OPERATION. To reduce the

risk of accidental injury, turn machine OFF and

ensure all moving parts completely stop before

walking away. Never leave machine running

while unattended.

REMOVE ADJUSTING TOOLS. Tools left on

machinery can become dangerous projectiles

upon startup. Never leave chuck keys, wrenches,

or any other tools on machine. Always verify

removal before starting!

MAINTAIN WITH CARE. Follow all maintenance

instructions and lubrication schedules to keep

machine in good working condition. A machine

that is improperly maintained could malfunction,

leading to serious personal injury or death.

USE CORRECT TOOL FOR THE JOB. Only use

this tool for its intended purpose—do not force

it or an attachment to do a job for which it was

not designed. Never make unapproved modifica-

tions—modifying tool or using it differently than

intended may result in malfunction or mechanical

failure that can lead to personal injury or death!

CHECK DAMAGED PARTS. Regularly inspect

machine for any condition that may affect safe

operation. Immediately repair or replace damaged

or mis-adjusted parts before operating machine.

AWKWARD POSITIONS. Keep proper footing

and balance at all times when operating machine.

Do not overreach! Avoid awkward hand positions

that make workpiece control difficult or increase

the risk of accidental injury.

MAINTAIN POWER CORDS. When disconnect-

ing cord-connected machines from power, grab

and pull the plug—NOT the cord. Pulling the cord

may damage the wires inside. Do not handle

cord/plug with wet hands. Avoid cord damage by

keeping it away from heated surfaces, high traffic

areas, harsh chemicals, and wet/damp locations.

CHILDREN & BYSTANDERS. Keep children and

bystanders at a safe distance from the work area.

Stop using machine if they become a distraction.

EXPERIENCING DIFFICULTIES. If at any time

you experience difficulties performing the intend-

ed operation, stop using the machine! Contact our

Technical Support at (570) 546-9663.

GUARDS & COVERS. Guards and covers reduce

accidental contact with moving parts or flying

debris. Make sure they are properly installed,

undamaged, and working correctly.

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Additional Safety for Metal Lathes

Serious injury or death can occur from getting entangled in, crushed between, or struck by

rotating parts on a lathe! Unsecured tools or workpieces that fly loose from rotating objects

can also strike nearby operators with deadly force. To minimize the risk of getting hurt or killed,

anyone operating this machine MUST completely heed the hazards and warnings below.

CLOTHING, JEWELRY & LONG HAIR. Tie back SECURE WORKPIECE. An improperly secured

long hair, remove jewelry, and do not wear loose workpiece can fly off spindle with deadly force.

clothing or gloves. These can easily get caught on Make sure workpiece is properly secured before

rotating parts and pull you into lathe.

starting the lathe.

ROTATING PARTS. Always keep hands and body CHUCKS. Chucks can be heavy and difficult to

at a safe distance from rotating parts—especially hold. During installation and removal, protect your

those with projecting surfaces. Never hold any- hands and precision bed ways by using a chuck

thing against rotating workpiece, such as emery cradle or piece of plywood over the bed ways. Use

cloth, that can pull you into lathe.

lifting equipment, as necessary, for large chucks.

GUARDING. Guards and covers protect against STOPPING SPINDLE. Always allow spindle to

entanglement or flying objects. Always ensure they completely stop on its own, or use a brake, if

are properly installed while machine is running.

provided. Never put hands or another object on a

spinning workpiece to make it stop faster.

ADJUSTMENT TOOLS. Remove all chuck keys,

wrenches, and adjustment tools before turning CRASHING. A serious explosion of metal parts

lathe ON. A tool left on the lathe can become a can occur if cutting tool or other lathe component

deadly projectile when spindle is started.

hits rotating chuck or a projecting part of work-

piece. Resulting metal fragments can strike nearby

SAFE CLEARANCES. Before starting spindle, people and lathe will be seriously damaged. To

verify workpiece has adequate clearance by hand- reduce risk of crashing, ALWAYS release automat-

rotating it through its entire range of motion.

ic feeds after use, NEVER leave lathe unattended,

and CHECK all clearances before starting lathe.

NEW SETUPS. Test each new setup by starting

spindle rotation at the lowest speed and standing COOLANT SAFETY. Coolant can become very

to the side of the lathe until workpiece reaches full toxic through prolonged use and aging. To mini-

speed and you can verify safe rotation.

mize toxicity, change coolant regularly. When

using, position nozzle properly to avoid splashing

SPINDLE SPEEDS. Using spindle speeds that are operator or causing a slipping hazard on floor.

too fast for the workpiece or clamping equipment

can cause rotating parts to come loose and strike TOOL SELECTION. Cutting with incorrect or dull

nearby people with deadly force. Always use slow tooling increases risk of injury from broken or dis-

spindle speeds with large or non-concentric work- lodged components, or as a result of extra force

pieces. Never exceed rated RPM of the chuck.

required for operation. Always use sharp tooling

that is right for the job.

LONG STOCK SAFETY. Long stock can whip

violently if not properly supported. Always support SANDING/POLISHING. To reduce risk of entan-

any stock that extends from the chuck/headstock glement, never wrap emery cloth around rotating

more than three times its own diameter.

workpiece. Instead, use emery cloth with the aid

of a tool or backing board.

CLEARING CHIPS. Metal chips can be razor

sharp. Avoid clearing them by hand or with a rag. MEASURING WORKPIECE. To reduce risk of

Use a brush or vacuum instead.

entanglement, never measure rotating workpieces.

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Additional Safety for Mills

The primary risks of operating a Mill are as follows: You can be seriously injured or killed by

getting clothing, jewelry, or long hair entangled with rotating cutter. You can be severely cut

or have fingers amputated from contact with the rotating cutter. You can be blinded or struck

by broken cutting tools, metal chips, workpieces, or adjustment tools thrown from the rotating

spindle with great force. To reduce your risk of serious injury when operating this machine,

completely heed and understand the following:

UNDERSTAND ALL CONTROLS. Make sure you SECURE WORKPIECE TO TABLE. Clamp

understand the function and proper use of all con- workpiece to table or secure in a vise mounted to

trols before starting. This will help you avoid mak- table, so workpiece cannot unexpectedly shift or

ing mistakes that result in serious injury.

spin during operation. NEVER hold workpiece by

hand during operation.

WEAR FACE SHIELD. Always wear a face shield

in addition to safety glasses. This provides more CLEAN MACHINE SAFELY. Metal chips or shav -

complete protection for your face than safety ings can be razor sharp. DO NOT clear chips

glasses alone.

by hand or compressed air that can force chips

farther into machine—use a brush or vacuum

REMOVE CHUCK KEY & SPINDLE TOOLS. instead. Never clear chips while spindle is turning.

Always remove chuck key, drawbar wrench, and

other tools used on the spindle immediately after PROPERLY MAINTAIN MACHINE. Keep machine

use. This will prevent them from being thrown by in proper working condition to help ensure that it

the spindle upon startup.

functions safely and all guards and other compo-

nents work as intended. Perform routine inspec-

PROPERLY SECURE CUTTER. Firmly secure tions and all necessary maintenance. Never oper-

cutting tool or drill bit so it does not fly out of spin- ate machine with damaged or worn parts that can

dle during operation.

break or result in unexpected movement during

operation.

USE CORRECT SPINDLE SPEED. Follow rec-

ommended speeds and feeds for each size and DISCONNECT POWER FIRST. To reduce risk of

type of cutting tool. This helps avoid tool breakage electrocution or injury from unexpected startup,

during operation and ensures best cutting results. make sure mill/drill is turned OFF, disconnected

from power, and all moving parts have come to

INSPECT CUTTING TOOL. Inspect cutting tools a complete stop before changing cutting tools or

for sharpness, chips, or cracks before each use. starting any inspection, adjustment, or mainte-

Replace dull, chipped, or cracked cutting tools nance procedure.

immediately.

POWER DISRUPTION. In the event of a local

ALLOW SPINDLE TO STOP. To minimize your power outage during operation, turn spindle switch

risk of entanglement, always allow spindle to stop OFF to avoid a possible sudden startup once

on its own. DO NOT stop spindle using your hand power is restored.

or any other object.

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Additional Lathe Chuck Safety

ENTANGLEMENT. Entanglement with a rotat- CHUCK CAPACITY. Avoid exceeding the capacity

ing chuck can lead to death, amputation, broken of the chuck by clamping an oversized workpiece.

bones, or other serious injury. Never attempt to If the workpiece is too large to safely clamp with

slow or stop the lathe chuck by hand, and always the chuck, use a faceplate or a larger chuck if pos-

roll up long sleeves, tie back long hair, and remove sible. Otherwise, the workpiece could be thrown

any jewelry or loose apparel BEFORE operating.

from the lathe during operation, resulting in serious

impact injury or death.

CHUCK SPEED RATING. Excessive spindle

speeds greatly increase the risk of the workpiece CLAMPING FORCE. Inadequate clamping force

or chuck being thrown from the machine with can lead to the workpiece being thrown from the

deadly force. Never use spindle speeds faster than chuck and striking the operator or bystanders.

the chuck RPM rating or the safe limits of your Maximum clamping force is achieved when the

workpiece.

chuck is properly maintained and lubricated, all

jaws are fully engaged with the workpiece, and

USING CORRECT EQUIPMENT. Many workpiec- the maximum chuck clamping diameter is not

es can only be safely turned in a lathe if additional exceeded.

support equipment, such as a tailstock or steady/

follow rest, is used. If the operation is too hazard- PROPER MAINTENANCE. All chucks must be

ous to be completed with the lathe or existing properly maintained and lubricated to achieve

equipment, the operator must have enough experi- maximum clamping force and withstand the rigors

ence to know when to use a different machine or of centrifugal force. To reduce the risk of a thrown

find a safer way.

workpiece, follow all maintenance intervals and

instructions in this document.

TRAINED OPERATORS ONLY. Using a chuck

incorrectly can result in workpieces coming loose DISCONNECT POWER. Serious entanglement or

at high speeds and striking the operator or bystand- impact injuries could occur if the lathe is started

ers with deadly force. To reduce the risk of this haz- while you are adjusting, servicing, or installing the

ard, read and understand this document and seek chuck. Always disconnect the lathe from power

additional training from an experienced chuck user before performing these procedures.

before using a chuck.

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SECTION 2: POWER SUPPLY

Availability

Before installing the machine, consider the avail-

ability and proximity of the required power supply

circuit. If an existing circuit does not meet the

requirements for this machine, a new circuit must

be installed. To minimize the risk of electrocution,

fire, or equipment damage, installation work and

electrical wiring must be done by an electrician or

qualified service personnel in accordance with all

applicable codes and standards.

Serious injury could occur if you connect

the machine to power before completing the

setup process. DO NOT connect to power

until instructed later in this manual.

110V Circuit Requirements

This machine is prewired to operate on a power

supply circuit that has a verified ground and meets

the following requirements:

Nominal Voltage .................... 110V, 115V, 120V

Cycle..........................................................60 Hz

Phase........................................... Single-Phase

Power Supply Circuit ......................... 15 Amps

Electrocution, fire, or

equipment damage may

occur if machine is not

correctly grounded and

connected to the power

supply.

A power supply circuit includes all electrical

equipment between the breaker box or fuse panel

in the building and the machine. The power sup-

ply circuit used for this machine must be sized to

safely handle the full-load current drawn from the

machine for an extended period of time. (If this

machine is connected to a circuit protected by

fuses, use a time delay fuse marked D.)

Full-Load Current Rating

The full-load current rating is the amperage a

machine draws at 100% of the rated output power.

On machines with multiple motors, this is the

amperage drawn by the largest motor or sum of all

motors and electrical devices that might operate

at one time during normal operations.

For your own safety and protection of

property, consult an electrician if you are

unsure about wiring practices or electrical

codes in your area.

Full-Load Rating.......................................11.6A

The full-load current is not the maximum amount

of amps that the machine will draw. If the machine

is overloaded, it will draw additional amps beyond

the full-load rating.

Note: Circuit requirements in this manual apply to

a dedicated circuit—where only one machine will

be running on the circuit at a time. If machine will

be connected to a shared circuit where multiple

machines may be running at the same time, con-

sult an electrician or qualified service personnel to

ensure circuit is properly sized for safe operation.

If the machine is overloaded for a sufficient length

of time, damage, overheating, or fire may result—

especially if connected to an undersized circuit.

To reduce the risk of these hazards, avoid over-

loading the machine during operation and make

sure it is connected to a power supply circuit that

meets the specified circuit requirements.

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Improper connection of the equipment-grounding

wire can result in a risk of electric shock. The

wire with green insulation (with or without yellow

stripes) is the equipment-grounding wire. If repair

or replacement of the power cord or plug is nec-

essary, do not connect the equipment-grounding

wire to a live (current carrying) terminal.

Grounding & Plug Requirements

This machine MUST be grounded. In the event

of certain malfunctions or breakdowns, grounding

reduces the risk of electric shock by providing a

path of least resistance for electric current.

This machine is equipped with a power cord that

has an equipment-grounding wire and a grounding

plug. Only insert plug into a matching receptacle

(outlet) that is properly installed and grounded in

accordance with all local codes and ordinances.

DO NOT modify the provided plug!

Check with a qualified electrician or service per-

sonnel if you do not understand these grounding

requirements, or if you are in doubt about whether

the tool is properly grounded. If you ever notice

that a cord or plug is damaged or worn, discon-

nect it from power, and immediately replace it with

a new one.

GROUNDED

5-15 RECEPTACLE

Extension Cords

Grounding Prong

We do not recommend using an extension cord

with this machine. If you must use an extension

cord, only use it if absolutely necessary and only

on a temporary basis.

5-15 PLUG

Extension cords cause voltage drop, which can

damage electrical components and shorten motor

life. Voltage drop increases as the extension cord

size gets longer and the gauge size gets smaller

(higher gauge numbers indicate smaller sizes).

Neutral Hot

Figure 6. Typical 5-15 plug and receptacle.

Any extension cord used with this machine must

be in good condition and contain a ground wire

and matching plug/receptacle. Additionally, it must

meet the following size requirements:

Minimum Gauge Size...........................14 AWG

Maximum Length (Shorter is Better).......50 ft.

SHOCK HAZARD!

Two-prong outlets do not meet the grounding

requirements for this machine. Do not modify

or use an adapter on the plug provided—if

it will not fit the outlet, have a qualified

electrician install the proper outlet with a

verified ground.

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SECTION 3: SETUP

Setup Overview

Unpacking

Your machine was carefully packaged for safe

transportation. Remove the packaging materials

from around your machine and inspect it. If you

discover any damage, please call us immediately

at (570) 546-9663 for advice.

The list below outlines the basic process of setting

up the machine for first-time operation. Specific

steps are covered later in this section.

The typical setup process is as follows:

Save the containers and all packing materials for

possible inspection by the carrier or its agent.

Otherwise, filing a freight claim can be difficult.

1. Unpack machine and inventory contents of

box/crate.

2. Clean machine and its components.

When you are completely satisfied with the condi-

tion of your shipment, inventory the contents.

3. Move machine to an acceptable location,

level bedways, and secure in place.

4. Assemble machine and make sure it is ready

for operation.

SUFFOCATION HAZARD!

Keep children and pets away

from plastic bags or packing

materials shipped with this

machine. Discard immediately.

5. Connect machine to power source.

6. Test run machine and various safety compo-

nents to ensure they function properly.

7. Perform spindle break-in procedure to pre-

pare spindle bearings for operational loads.

Needed for Setup

The following are needed to complete the setup

process, but are not included with your machine.

Description

•

Another Person for Moving Machine

Safety Glasses

Cleaner/Degreaser (Page 19)

Quality Metal Protectant

Disposable Shop Rags

Forklift

Lifting Slings (rated for at least 700 lbs.)

Mounting Hardware (Page 22)

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Loose Components (Figure 8)

I. Open-End Wrench Set

Qty.

Inventory

(8/10, 12/14, 17/19, 36mm)................... 1 Ea.

J. Dead Center MT#5..................................... 1

K. Dead Center MT#3..................................... 1

L. Lathe Chuck Key........................................ 1

M. Square Socket T-Wrench ........................... 1

N. Spanner Wrench 63mm Pin-Type .............. 1

O. Spanner Wrench 45–52mm Hook-Type..... 1

P. Hardware Bag ............................................ 1

—Cap Screw M10-1.5 x 35 ........................ 4

—Cap Screw M10-1.5 x 30 ........................ 3

—Cap Screw M8-1.25 x 25 ........................ 4

—Flat Washer 10mm ................................. 7

—Lock Washer 10mm................................ 3

Q. Spindle Locking Pin.................................... 1

R. Handwheel Handle (Cross Slide) ............... 1

S. Handwheel Handle (Carriage).................... 1

T. Timing Belt ................................................. 1

U. V-Belt.......................................................... 1

V. Mill Chuck Key ⁵⁄16" AH 11T SD-⁵⁄8"............ 1

W. Hex Wrench Set (3, 4, 5, 6, 8mm)........1 Ea.

X. Change Gear Set (35, 50, 60T)............1 Ea.

Y. 3-Jaw Chuck External Jaw Set .................. 1

The following is a list of items shipped with your

machine. Before beginning setup, lay these items

out and inventory them.

If any non-proprietary parts are missing (e.g. a

nut or a washer), we will gladly replace them; or

for the sake of expediency, replacements can be

obtained at your local hardware store.

Installed Components (Figure 7)

Qty.

A. Lathe Chuck Guard.................................... 1

B. 3-Jaw Chuck .............................................. 1

C. 4-Way Tool Post ......................................... 1

D. Milling Headstock ....................................... 1

E. Mill Safety Shield........................................ 1

F. Backsplash................................................. 1

G. Tailstock...................................................... 1

H. Drill Chuck ¹⁄2" ............................................ 1

Figure 7. Components installed when shipped.

Figure 8. Components loose when shipped.

NOTICE

If you cannot find an item on this list, care-

fully check around/inside the machine and

packaging materials. Often, these items get

lost in packaging materials while unpack-

ing or they are pre-installed at the factory.

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Cleanup

Gasoline and petroleum

products have low flash

points and can explode

or cause fire if used to

clean machinery. Avoid

using these products

to clean machinery.

The unpainted surfaces of your machine are

coated with a heavy-duty rust preventative that

prevents corrosion during shipment and storage.

This rust preventative works extremely well, but it

will take a little time to clean.

Be patient and do a thorough job cleaning your

machine. The time you spend doing this now will

give you a better appreciation for the proper care

of your machine's unpainted surfaces.

Many cleaning solvents

are toxic if inhaled. Only

work in a well-ventilated

area.

There are many ways to remove this rust preven-

tative, but the following steps work well in a wide

variety of situations. Always follow the manufac-

turer’s instructions with any cleaning product you

use and make sure you work in a well-ventilated

area to minimize exposure to toxic fumes.

NOTICE

Avoid chlorine-based solvents, such as

acetone or brake parts cleaner, that may

damage painted surfaces.

Before cleaning, gather the following:

•

Disposable rags

Cleaner/degreaser (WD•40 works well)

Safety glasses & disposable gloves

Plastic paint scraper (optional)

T23692—Orange Power Degreaser

A great product for removing the waxy shipping

grease from your machine during clean up.

Basic steps for removing rust preventative:

1. Put on safety glasses.

2. Coat the rust preventative with a liberal

amount of cleaner/degreaser, then let it soak

for 5–10 minutes.

3. Wipe off the surfaces. If your cleaner/degreas-

er is effective, the rust preventative will wipe

off easily. If you have a plastic paint scraper,

scrape off as much as you can first, then wipe

off the rest with the rag.

Figure 9. T23692 Orange Power Degreaser.

4. Repeat Steps 2–3 as necessary until clean,

then coat all unpainted surfaces with a quality

metal protectant to prevent rust.

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Site Considerations

Weight Load

Physical Environment

Refer to the Machine Data Sheet for the weight

of your machine. Make sure that the surface upon

which the machine is placed will bear the weight

of the machine, additional equipment that may be

installed on the machine, and the heaviest work-

piece that will be used. Additionally, consider the

weight of the operator and any dynamic loading

that may occur when operating the machine.

The physical environment where the machine is

operated is important for safe operation and lon-

gevity of machine components. For best results,

operate this machine in a dry environment that is

free from excessive moisture, hazardous chemi-

cals, airborne abrasives, or extreme conditions.

Extreme conditions for this type of machinery are

generally those where the ambient temperature

range exceeds 41°–104°F; the relative humidity

range exceeds 20%–95% (non-condensing); or

the environment is subject to vibration, shocks,

or bumps.

Space Allocation

Consider the largest size of workpiece that will

be processed through this machine and provide

enough space around the machine for adequate

operator material handling or the installation of

auxiliary equipment. With permanent installations,

leave enough space around the machine to open

or remove doors/covers as required by the main-

tenance and service described in this manual.

See below for required space allocation.

Electrical Installation

Place this machine near an existing power source.

Make sure all power cords are protected from

traffic, material handling, moisture, chemicals, or

other hazards. Make sure to leave enough space

around machine to disconnect power supply or

apply a lockout/tagout device, if required.

Lighting

Children or untrained people

may be seriously injured by

this machine. Only install in an

access restricted location.

Lighting around the machine must be adequate

enough that operations can be performed safely.

Shadows, glare, or strobe effects that may distract

or impede the operator must be eliminated.

Wall

Min. 30" For

Maintenance

59"

Keep

Workpiece

Area

Unobstructed

30"

Figure 10. Minimum working clearances.

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4. To balance load for lifting, move tailstock and

carriage to right end of bedway, then lock

them in place.

Lifting & Placing

Note: Before trying to move carriage, make

sure carriage lock is loose and half nut is

disengaged.

HEAVY LIFT!

Straining or crushing injury

may occur from improperly

lifting machine or some of

its parts. To reduce this risk,

get help from other people

and use a forklift (or other

lifting equipment) rated for

weight of this machine.

5. Wrap lifting slings around bed and between

leadscrew and bedway, as shown in Figure

11, to help prevent bending leadscrew during

lifting.

Do not attempt to lift or move the machine with-

out using the proper lifting equipment (such as

a forklift or crane) or the necessary assistance

from other people. Refer to Needed for Setup on

Page 17 for details.

Lifting

Sling

To lift and place machine:

1. Remove shipping crate top and sides, then

remove chip pan, 4-jaw chuck, faceplate, and

toolbox from shipping pallet.

Figure 11. Example of lifting slings positioned

correctly on a similar machine.

2. Position chip pan on workbench or other

selected mounting surface to use it for mark-

ing hole locations for mounting hardware

(refer to Mounting on Page 22).

6. Attach lifting slings to forklift forks (or other

power lifting equipment).

3. Unbolt machine from shipping pallet.

To balance load when lifting, lifting strap

closest to headstock must be slightly short-

er than lifting strap on tailstock side. If you

are using lifting straps of equal length, this

can be achieved by wrapping lifting strap on

headstock side one or more times around

forklift fork, or by placing a block of wood

on fork to raise ends of lifting strap.

Only use lifting slings and power lifting

equipment rated for at least 300 lbs. and in

good working condition. If machine falls or

tips over while moving it, serious personal

injury and property damage could result.

7. Have an assistant hold mill headstock to

steady load, then lift machine just enough to

clear any obstacles and move it to the work-

bench or other selected mounting location.

8. Properly secure machine in place as instruct-

ed in Mounting subsection on Page 22.

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Mounting & Leveling

For accurate turning results and to prevent

warping the cast iron bed and ways, the

lathe bedways MUST be leveled from side-

to-side and from front-to-back on both ends.

Number of Mounting Holes ............................ 4

Diameter of Mounting Hardware................. ¹⁄2

Follow these guidelines when mounting your

machine to ensure safe and accurate cutting

results:

Recheck the bedways 24 hours after

installation, two weeks after that, and then

annually to make sure they remain level.

•

Make sure stand or workbench can ade-

quately support weight of machine and mate-

rials, and that it will not move or vibrate dur-

ing operation.

Leveling machinery helps precision components,

such as bedways, remain straight and ﬂat dur-

ing the lifespan of the machine. The bed on a

lathe that is not level may slowly twist due to the

dynamic loads placed on the machine during

operation.

•

Use a silicon sealant between the machine

base and chip pan to prevent coolant or other

fluids from leaking through onto the stand,

workbench, or floor.

For best results, use a precision level that is at

least 12" long and sensitive enough to show a

distinct movement when a 0.003" shim (approxi-

mately the thickness of one sheet of standard

newspaper) is placed under one end of the level.

—If mounting machine to a stand (not includ-

ed), follow the instructions included with it.

Ensure stand is anchored to floor.

See Figure 13 for an example of a high-precision

level.

—If mounting machine to a workbench, drill

holes all the way through workbench, and

use hex bolts, washers, and hex nuts to

secure machine in place (see example

below).

Hex Nut

Lock Washer

Flat Washer

Lathe

Silicon

Figure 13. Grizzly Model H2683 12" Master

Chip Pan

Machinist's Level.

Workbench

Flat Washer

Hex Bolt

Figure 12. Example of a "Through Mount" setup.

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3. Place timing belt behind motor pulley

and around motor timing-belt pulley (see

Figure 15).

Assembly

With the exception of the handwheel handles and

belts, the Model G0773 is shipped fully assem-

bled.

4. Install free end of timing belt on timing-belt

pulley (see Figure 15), making sure teeth of

belt mesh with notches in pulley.

To assemble machine:

5. Pull timing-belt up, creating tension in timing

belt, then tighten (2) hex nuts from Step 1.

1. Use a flat head screwdriver to attach

handwheel handles shown in Figure 14.

6. LoosenM8-1.25x25hexboltthatsecuresten-

sioner to timing gear bracket (see Figure 16).

Cross Slide

Handle

Spindle Pulley

Carriage

Handle

V-Belt

Tensioner

Idler

Figure 14. Handwheel handles installed.

Pulley

2. Loosen (2) M12-1.75 hex nuts that secure

timing-belt pulley to idler bracket (see Figure

15), allowing timing-belt pulley to slide in its

mounting slot.

Figure 16. V-belt controls and components.

7. Install V-belt onto largest spindle pulley

groove and smallest idler pulley groove, as

shown in Figure 16.

Idler

Bracket

8. Pivot tensioner against V-belt to create ten-

sion (see Figure 16) and re-tighten hex bolt

from Step 1.

Note: The V-belt/pulley configuration of

Model G0773 varies depending on spindle

speed. The steps above illustrate V-belt

installation for 150 RPM, which is the starting

speed in the Lathe Spindle Break-In proce-

dure on Page 26. For more detailed instruc-

tions on selecting proper configurations for

specific spindle speeds, see Setting Spindle

Speed on Page 41.

Motor

Timing-Belt

Pulley

Timing

Belt

Timing-Belt

Pulley

Motor Pulleys

Figure 15. Timing belt installation components.

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3. Set spindle direction switch to OFF position.

4. Set lathe/mill selector switch to "1".

Test Run

Once assembly is complete, test run the machine

to ensure it is properly connected to power and

safety components are functioning properly.

5. Make sure chuck and jaws, if installed, are

secure (see Chuck Installation on Page 28).

Note: If a chuck is not installed on the lathe,

you do not need to install one for this test run.

If you find an unusual problem during the test run,

immediately stop the machine, disconnect it from

power, and fix the problem BEFORE operating the

machine again. The Troubleshooting table in the

SERVICE section of this manual can help.

6. Disengage half nut with lever by positioning

lever as shown in Figure 18.

Serious injury or death can result from

using this machine BEFORE understanding

its controls and related safety information.

DO NOT operate, or allow others to operate,

machine until the information is understood.

Half Nut

Lever

DO NOT start machine until all preceding

setup instructions have been performed.

Operating an improperly set up machine

may result in malfunction or unexpect-

ed results that can lead to serious injury,

death, or machine/property damage.

Engaged

Disengaged

Figure 18. Half nut lever positioned to disengage

half nut.

To test run machine:

7. Connect machine to power. Lathe power light

(Figure 17) should illuminate if machine is

correctly connected to power supply and all

electrical controls are positioned correctly for

startup.

1. Make sure all tools and objects used during

setup are cleared away from machine.

2. Press Emergency Stop button cover (see

Figure 17) to prevent unexpected start up.

Spindle Direction

Switch

Lathe Power Light

Emergency

Stop Button

Cover

Lathe/Mill

Selector Switch

Figure 17. Headstock controls.

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8. Press tab on side of Emergency Stop button

to open switch cover (see Figure 19), and

reset switch by pressing green ON button (be

sure to leave switch cover open; otherwise,

closing it will prevent operation).

12. Turn variable-speed dial (Figure 20) com-

pletely counterclockwise to lowest possible

setting.

Variable-

Speed Dial

Spindle

Direction Switch

Emergency

Stop Button

Switch Cover

OFF Button

ON Button

Figure 20. Location of mill head Emergency

Stop button and variable-speed dial.

Figure 19. Emergency Stop button lathe.

13. Open Emergency Stop button switch cover

(Figure 20) and reset switch in the same

manner as you did in Step 8. The mill power

light should illuminate if machine is correctly

connected to power supply and all electrical

controls are positioned correctly for startup.

9. Turn spindle direction switch shown in Figure

19 to "FOR" (forward) position. The spindle

should rotate counterclockwise—down and

toward front of lathe.

The machine should run smoothly with little to

no vibration or rubbing noises.

14. Turn mill ON by rotating variable-speed dial

clockwise, then rotate dial all the way clock-

wise to achieve maximum spindle speed.

—Strange or unusual noises should be

investigated and corrected before operat-

ing machine further. Always disconnect

machine from power when investigating or

correcting potential problems.

15. Press Emergency Stop button to turn mill

OFF. Then, without resetting Emergency

Stop button, try to restart spindle rotation by

rotating variable-speed dial all the way coun-

terclockwise and then clockwise. The spindle

should not start.

10. Press Emergency Stop button to turn lathe

OFF and stop spindle rotation. Then, with-

out resetting Emergency Stop button, try to

restart spindle rotation by rotating spindle

direction switch all the way clockwise and

then counterclockwise. The spindle should

not start if the Emergency Stop button is

working correctly.

—If spindle does start with Emergency Stop

button pressed in, the button is not oper-

ating correctly. This safety feature must

operate properly before further using the

machine. Turn spindle direction switch

OFF to stop mill, disconnect machine from

power, and call Tech Support for help.

—If spindle does start with Emergency Stop

button pressed in, the button is not operat-

ing correctly. To reduce the risk of injury,

this safety feature must operate prop-

erly before further using the machine. Turn

spindle direction switch OFF to stop lathe,

disconnect lathe from power, and call Tech

Support for help.

Congratulations! The Test Run is complete!

Now perform the Spindle Break-In proce-

dure beginning on Page 26.

11. Set lathe/mill selector switch to "2" for mill

mode (see Figure 17 on Page 24).

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4. DISCONNECT MACHINE FROM POWER!

Spindle Break-In

5. Set spindle speed to 1130 RPM and repeat

the same process of running spindle for 5

minutes in each direction.

The spindle break-in procedure distributes lubri-

cation throughout the bearings to reduce the risk

of early bearing failure if there are any "dry" spots

or areas where lubrication has settled in the bear-

ings. You must complete this procedure before

placing operational loads on the spindle for the

first time when the machine is new or if it has

been sitting idle for longer than 6 months.

Note: If necessary, refer to Setting Spindle

Speed on Page 41 for detailed instructions.

6. Set spindle speed to 2100 RPM and repeat

the process once again.

Congratulations! The lathe spindle break-in is

complete.

Always start the spindle break-in at the lowest

speed to minimize wear if there are dry spots.

Allow the spindle to run long enough to warm up

and distribute the bearing grease, then incremen-

tally increase spindle speeds, allowing the spindle

to run the same amount of time at each speed, until

reaching the maximum spindle speed. Following

the break-in procedure in this progressive man-

ner helps minimize any potential wear that could

occur until lubrication is fully distributed.

Mill Spindle Break-In

1. Successfully complete Lathe Spindle

Break-In.

2. Run mill spindle at lowest speed (100 RPM)

for a minimum of 10 minutes.

3. Run mill spindle at highest speed (2500

RPM) for 10 minutes.

4. Rotate spindle speed dial all the way counter-

clockwise to "0", then press Emergency Stop

button.

You must complete this procedure to main-

tain the warranty. Failure to do this could

cause rapid wear-and-tear of spindle bear-

ings once they are placed under load.

Congratulations! The mill spindle break-in is

complete.

Lathe Spindle Break-In

1. Successfully complete Test Run procedure

beginning on Page 24.

Recommended

Adjustments

2. Run lathe spindle at 150 RPM for minimum

of 5 minutes in the forward ("FOR") direction,

and then another 5 minutes in the reverse

("REV") direction.

The following adjustments have been made at the

factory. However, because of the many variables

involved with shipping, we recommend you verify

these adjustments to ensure the best results:

Note: During Installing V-Belt in the

Assembly section on Page 23, spindle speed

was set at 150 RPM.

Factory adjustments that should be verified:

3. Press Emergency Stop Button to turn lathe

OFF.

•

Tailstock alignment ........................ Page 34

Cross slide backlash adjustment.....Page 71

Leadscrew backlash........................Page 71

Gib adjustments ..............................Page 72

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SECTION 4: LATHE OPERATIONS

To complete a typical lathe operation, the

operator does the following:

Operation Overview

1. Securely mounts workpiece in lathe.

The purpose of this overview is to provide the nov-

ice machine operator with a basic understanding

of how the machine is used during operation, so

2. Puts on safety glasses and a face shield, rolls

up sleeves, removes jewelry, and secures

the machine controls/components discussed later

any clothing, jewelry, or hair that could get

in this manual are easier to understand.

entangled in moving parts.

Due to the generic nature of this overview, it is

not intended to be an instructional guide. To learn

more about specific operations, read this entire

3. Installs tooling on toolpost, then backs it

away to establish a safe startup clearance.

manual and seek additional training from expe-

rienced machine operators, and do additional

4. Removes all setup tools from lathe.

research outside of this manual by reading "how-

to" books, trade magazines, or websites.

5. Checks for safe clearances by rotating

workpiece by hand at least one full revolution.

6. Moves slides to where they will be used dur-

ing operation.

To reduce your risk of

7. If using power feed, selects appropriate feed

serious injury, read this

entire manual BEFORE

using machine.

rate and direction.

8. Sets spindle speed according to workpiece

size and material.

9. Starts spindle rotation and uses carriage

handwheels or power feed options to move

tooling into workpiece for operations.

To reduce risk of eye or face injury from

flying chips, always wear approved safety

glasses and face shield when operating this

machine.

10. When finished turning, rotates spindle direc-

tion switch to OFF, presses Emergency Stop

button, then removes workpiece.

If you are not experienced with this type

of machine, WE STRONGLY RECOMMEND

that you seek additional training outside of

this manual. Read books/magazines or get

formal training before beginning any proj-

ects. Regardless of the content in this sec-

tion, Grizzly Industrial will not be held liable

for accidents caused by lack of training.

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Chuck Mounting

Chuck Installation

This lathe is equipped with a D1-type spindle

nose. This type of spindle uses camlocks that are

adjusted with a chuck key to securely mount a

chuck or faceplate with repeatable precision and

ease.

To ensure accurate work, it is extremely important

to make sure the spindle nose and chuck mating

surfaces/tapers are clean. Even a small amount of

lint or debris can affect accuracy.

The chuck is properly installed when all camlocks

are tight, the spindle and chuck tapers firmly

lock together, and the back of the chuck is firmly

seated against the face of the spindle all the way

around—without any gaps.

Never use spindle speeds faster than chuck

RPM rating or safe limits of your workpiece.

Excessive spindle speeds greatly increase

risk of workpiece or chuck being thrown

from machine with deadly force!

To install chuck:

1. DISCONNECT LATHE FROM POWER!

This lathe ships with the 3-jaw chuck installed.

This is a scroll-type chuck where all three jaws

move in unison when the chuck key is used.

2. Use appropriate lifting, support, or protec-

tive device to protect ways and support

chuck during installation process (refer to

Installation & Removal Devices section on

previous page).

Installation &

Removal Device

3. Clean and lightly oil camlock studs, then thor-

oughly clean mating surfaces of spindle and

chuck.

4. Install chuck by inserting camlock studs

Place a piece of plywood over the bedways to pro-

tect them from damage if a chuck or other tooling

is dropped (see below).

straight into spindle cam holes.

Important: Avoid inserting the studs by piv-

oting them in from an angle or rotating the

spindle. This can damage studs or spindle

cam holes.

Plywood Protection

Plate for Chucks

Installed by Hand

CORRECT

INCORRECT

Figure 21. Example of common device used

during chuck installation and removal.

Figure 22. Inserting camlock studs into spindle

cam holes.

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5. Incrementally tighten camlocks in criss-cross

or star pattern to ensure that chuck seats

evenly against spindle.

7. Verify that chuck fits spindle properly by

checking for any gaps between mating sur-

faces.

6. When chuck is fully seated and all camlocks

are tight, verify that cam line is between the

two “V” marks on spindle nose, as shown in

following figure.

—If there is not a gap, proceed to Step 8.

—If there is a gap, remove chuck, re-clean

mating surfaces carefully, and re-install. If

problem persists, contact our Tech Support.

8. Verify that chuck/spindle tapers are seat-

ed firmly together by removing chuck, per

Chuck Removal instructions, and pay close

attention to how easily tapers release.

—If it was necessary to bump chuck or use

a mallet to release tapers, then they are

seating together properly.

Cam line between “V”s

—If tapers released easily with little interven-

tion, they are not seated together firmly as

required. Remove chuck, re-clean mating

surfaces carefully, and re-install. If problem

persists, contact our Tech Support.

Figure 23. Cam line positioned between the "V"

marks after the camlocks are fully tightened.

—If cam line is NOT between "V" marks when

camlock is tight, stud may be installed at

incorrect height. To fix this, adjust stud

height as shown in following figure. Make

sure to re-install stud cap screw afterward.

Registration Marks

Lightly stamp registration marks across the mating

seams of chuck components. These marks will

help you re-install the chuck in the same position

after removal, which ensures consistent chuck

balance and turning results, and allows the

same camlocks and studs to operate together for

consistent locking and unlocking.

—If adjusting stud height does not correct

problem, try swapping stud positions on

chuck.

Spindle & Chuck

Registration Marks

Camlock

Spindle

INCORRECT

Stud Too High:

Turn In

Stud Too Low:

Turn Out

One-Turn

Figure 25. Registration mark locations.

Figure 24. Correcting an improperly installed

stud.

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Chuck Removal

Scroll Chuck

Clamping

To remove chuck:

This 3-jaw, scroll-type chuck has an internal scroll-

gear that moves all jaws in unison when adjusted

with the chuck key. This chuck holds cylindrical

parts on-center with the axis of spindle rotation

and can be rotated at high speeds if the workpiece

is properly clamped and balanced.

1. DISCONNECT LATHE FROM POWER!

2. Use appropriate lifting, support, or protective

device to protect ways and support chuck

(refer to Installation & Removal Devices

section for more details).

Never mix jaw types or positions to

accommodate an odd-shaped workpiece. The

chuck will spin out of balance and may throw the

workpiece! Instead, use an independent jaw chuck

or a faceplate.

3. Loosen camlocks by turning key counter-

clockwise until each cam line is aligned with

its corresponding spindle mark, as shown

below.

Insufficient

Jaw Clamping

Safer Inside

Jaw Use

Cam line and spindle mark aligned

Unstable

Workpiece

Bar Stock

CORRECT

INCORRECT

Unsafe Jaw Position and

Poor Scroll Gear Engagement

Safer Outside

Jaw Use

Poor Grip

Figure 26. Camlock is fully loosened when the

cam line is aligned with the spindle mark.

Shallow

Bar Stock

Unstable

Workpiece

Tip: Camlocks can become very tight. A

cheater pipe may be used as a last resort to

add leverage when loosening. After loosen-

ing, you may need to wiggle the chuck key in

the camlock to fully disengage the stud.

CORRECT

INCORRECT

Unsafe Inside

Safer Outside

Jaw Use

Poor Scroll

Gear

Engagement

4. Using dead blow hammer or other soft mal-

let, lightly tap around outer circumference of

chuck body to loosen it from spindle.

Shallow

Bar Stock

Unsafe Jaw

Position

5. Remove chuck from spindle, using light rock-

ing motion to carefully slide studs out of cam

holes.

CORRECT

INCORRECT

Unsafe Jaw Position

Safer Inside

Jaw Use

—If chuck does not immediately come off,

rotate it approximately 60° and tap it again.

Make sure all marks on cams and spindle

are properly aligned for removal.

Cylinder

Poor Scroll

CORRECT

INCORRECT

Gear Engagement

Figure 27. Jaw selection and workpiece holding.

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To change jaw set:

Changing Jaw Set

1. DISCONNECT MACHINE FROM POWER!

The 3-jaw scroll chuck included with the lathe

features inside and outside hardened steel jaw

sets (see Figure below), which move in unison to

center a concentric workpiece.

2. Use appropriate device to protect ways (refer

to Installation & Removal Device subsec-

tion).

3. Insert chuck key and turn it counterclockwise

to back jaws out and remove them individu-

ally in descending order (i.e., 3, 2, 1).

When installing the jaws, it is important to make

sure they are installed correctly. Incorrect installa-

tion will result in jaws that do not converge evenly

and are unable to securely clamp a workpiece.

4. Use mineral spirits to clean debris and grime

from jaws and chuck jaw guides.

5. Apply thin coat of NLGI #2 grease to surfaces

of removed jaw set. Store in safe place free

from moisture and abrasives.

6. Rotate chuck key clockwise until you see tip

of outer scroll-gear lead thread about to enter

a jaw guide (see below).

Outside Set

Inside Set

Figure 28. Chuck and jaw selection.

Jaws are numbered from 1–3 (see Figure below).

The number is typically stamped on the side or

bottom. Jaws are designed to be installed coun-

terclockwise in numerical order in the matching

numbered jaw guides, so they will hold a concen-

tric workpiece evenly.

Lead Thread

Figure 30. Lead thread on scroll gear.

7. Insert jaw #1 into jaw guide #1 and hold jaw

Jaw Guides

against scroll-gear.

Jaw Numbers

8. Rotate chuck key clockwise one turn to

engage tip of scroll-gear lead thread into jaw.

Pull jaw; it should be locked into jaw guide.

9. Install remaining jaws in numerical order, in

the same manner. The jaws should converge

evenly at center of chuck.

—If jaws do not converge evenly, remove

them. Check that jaw numbers and jaw

guides match. Re-install jaws sequentially

1–3, making sure each one engages with

scroll-gear lead thread during its first rota-

tion.

Figure 29. Jaw guide and jaw numbers.

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Tailstock Quill Specs

Tailstock

Graduated Dial on Handwheel

Increments................................................. 0.001"

One Full Revolution..................................... 0.04"

The tailstock is typically used to support long

workpieces at the side opposite the spindle, using

a live or dead center. It can also hold a tapered

drill bit (or a drill chuck with a regular drill bit) for

boring holes. Unlike boring done with a drill press

where the workpiece is fixed and the drill bit

rotates, the drill bit in a tailstock remains station-

ary while the workpiece is rotated by the spindle.

Increments on Quill Scale

Inch .............................0"–2" in 0.10" Increments

Metric .................... 0–50mm in 1mm Increments

Positioning Tailstock

1. Rotate tailstock lock lever clockwise (facing

machine) to unlock tailstock from bedways.

The entire tailstock can be repositioned and

locked in place along the length of the bed. An

independently controlled offset adjustment allows

the upper part of the tailstock to move perpen-

dicular to the bedways so it can be aligned with

the spindle center (for concentric turning) or offset

from the spindle center (for tapered turning).

2. Slide tailstock to desired position by pushing

it along the bedways.

3. Rotate tailstock lock lever counterclockwise

to lock tailstock against bedways.

Using Quill

The tailstock quill also features independent

adjustment controls that allow it to be advanced

toward the spindle or locked firmly in position.

1. Rotate quill lock lever counterclockwise to

loosen quill.

2. Turn quill handwheel clockwise to move quill

toward spindle or counterclockwise to move it

away from spindle.

Tailstock

Quill

Lock Lever

Handwheel

3. Rotate quill lock lever clockwise to secure

quill.

Quill Lock

Lever

Quill

Offset Adjustment

Screw (1 of 2)

Figure 31. Tailstock controls and features.

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To install tooling in the tailstock:

Installing Tooling

The tailstock quill accepts MT#3 tapered arbors

1. With tailstock locked in place, unlock quill,

then use handwheel to extend it approxi-

mately 1".

(see the Figures below for examples).

2. Thoroughly clean and dry tapered mating

surfaces of quill and center, making sure no

lint or oil remains on tapers.

Tang

Screw

End

Solid

End

Open

End

Solid

End

3. With a firm and quick motion, insert tool into

quill. Check to see if it is firmly seated by

attempting to twist it—a firmly seated tool will

not twist.

4. Unlock tailstock and move it until tip of tool

is close to, but not touching, workpiece, then

lock tailstock.

Figure 32. Types of tapered arbors and tooling.

5. Start spindle rotation, unlock quill lock lever,

then turn quill handwheel clockwise to feed

tool into workpiece.

Removing Tooling

1. Use shop rag to hold tool.

2. Rotate quill handwheel counterclockwise to

fully retract quill into tailstock until tool is

forced out of quill.

Figure 33. Example photos of inserting tools into

the tailstock.

Note: If the tooling has an open hole in the end,

then a screw can be threaded into the end of the

tool to provide a solid surface for the quill pin to

push against when the quill is retracted for tool

removal. Otherwise, removal of such tooling may

be difficult.

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Offsetting Tailstock

Aligning Tailstock to Spindle

Centerline

The tailstock quill can be offset from the spin-

dle centerline for turning tapers. Offsetting quill

toward the front of the lathe results in a taper

at the tailstock end. Conversely, offsetting quill

toward the back of the lathe results in a taper at

the spindle end.

This is an essential adjustment that should be ver-

ified or performed each time the tailstock is used

to turn concentric workpieces between centers

or immediately after offsetting the tailstock when

turning a taper. If the tailstock is not aligned with

the spindle centerline when it is supposed to be,

turning results will be inaccurate along the length

of the workpiece.

Note: The marks on the offset indicator are arbi-

trary. For a precise offset, use a dial indicator to

check quill movement while adjusting the screws.

Items Needed

Qty

Hex Wrench 4mm.............................................. 1

Round Stock 2" x 6".......................................... 2

Adjustment

Set Screws

(1 of 2)

To align tailstock to spindle centerline:

1. Use precision level to make sure bedway is

level from side to side and from front to back.

—If bedway is not level, correct this condition

before continuing with this procedure (refer

to Leveling section in this manual).

Offset

Indicator

Figure 34. Tailstock offset adjustment.

2. Center drill both ends of a piece of round

stock, then set it aside for use in Step 5.

Tool Needed

Qty

Hex Wrench 4mm.............................................. 1

3. Use another piece of round stock to make a

dead center. Turn it to a 60° point, as illus-

trated in below.

To offset the tailstock:

1. Loosen tailstock lock to release clamping

pressure on top and bottom castings.

2. Rotate adjustment set screws in opposite

directions for desired offset (see below).

Turn

CCW

Turn

CCW

Turn

Figure 36. Turning a dead center.

Note: As long as this dead center remains

unmoved in the chuck, its point will remain

true to the spindle centerline. However, if the

center is removed and later returned to the

chuck, the point must be re-turned to once

again be true with the spindle centerline.

Figure 35. Example of set screw adjustment in

relation to tailstock movement.

3. Tighten tailstock lock to secure the offset.

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4. Install center in tailstock.

8. Use calipers to measure both ends of work-

piece.

5. Attach lathe dog to test stock from Step 2,

then mount it between centers, as shown

below.

—If test stock is thicker at tailstock end, move

tailstock toward front of lathe ⁄₂the dis-

tance of taper amount, as shown below.

Move tailstock toward

front of lathe ¹/₂the

amount of taper.

Looking down from above.

Figure 37. Example of stock mounted between

Figure 38. Adjust tailstock toward the operator.

—If test stock is thinner at tailstock end,

the centers.

6. Turn 0.010" off stock diameter.

move tailstock toward back of lathe ⁄₂the

distance of the amount of taper, as shown

below.

7. Mount test or dial indicator so that plunger is

on tailstock quill.

Note: If necessary in the following step, refer

to the Offsetting Tailstock subsection for

detailed instructions.

Looking down from above.

Move tailstock toward

back of lathe ¹/₂the

amount of taper.

Figure 39. Adjust tailstock away from operator.

9. Repeat Steps 6–8 until desired accuracy is

achieved.

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Mounting Dead Center in Spindle

1. DISCONNECT LATHE FROM POWER!

Dead Centers

2. Thoroughly clean and dry all threads and

mating surfaces of spindle bore and center,

making sure that no lint or oil remains on

these surfaces.

A dead center is a one-piece center that, when

mounted in the tailstock, does not rotate with the

workpiece and is used to support long, slender

workpieces.

Note: This will prevent the tapered surfaces

from seizing due to operational pressures,

which could make it very difficult to remove

the center.

Use the dead center in the spindle for operations

where the workpiece rotates with the center and

does not generate friction.

Figure 40 shows the MT#3 and MT#5 dead cen-

ters included with the lathe.

3. Mount chuck or faceplate onto spindle, which-

ever is correct for your operation.

4. Insert center into spindle bore through chuck

MT#3 Dead

Center

or faceplate.

The Figure below shows an example photo

of a dead center installed in spindle, using a

lathe dog and faceplate for turning between

centers.

MT#5 Dead

Center

MT#5 Dead

Center

Figure 40. Dead centers.

Lathe

Dog

Figure 41. Example of using a dead center with

a faceplate and lathe dog.

Removing Center from Spindle

To remove the sleeve and center from the spindle,

insert a piece of round bar stock (or similar)

through the outside end of the spindle. Have

another person hold onto the sleeve and center

with a gloved hand or shop rag, then tap the bar

stock to knock the sleeve loose.

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Mounting Center in Tailstock

Removing Center from Tailstock

Either a carbide-tipped dead center or live center

can be used in the tailstock. Mounting instructions

are the same for both. The Figure below shows

an example photo of a dead center mounted in a

tailstock.

To remove the center from the quill, hold onto it

with a gloved hand or shop rag, then rotate the

quill handwheel counterclockwise to draw the quill

back into the casting until the center releases.

Mounting Workpiece Between

Centers

1. DISCONNECT LATHE FROM POWER!

Dead Center

2. Drill center holes in both ends of workpiece.

3. Install dead center in spindle with lathe dog

and chuck, faceplate or drive plate, then

install live center or carbide-tipped dead cen-

ter in tailstock.

4. Lubricate dead center point and workpiece

center holes, then mount workpiece between

centers and hold it in place with light pressure

from tailstock center.

Figure 42. Example of using dead center

installed in the tailstock.

To mount center in tailstock:

5. Seat center firmly into quill by rotating quill

handwheel clockwise to apply pressure

against workpiece (see example below).

1. DISCONNECT MACHINE FROM POWER!

2. Thoroughly clean and dry tapered mating

surfaces of tailstock quill bore and center,

making sure no lint or oil remains on tapers.

3. Use quill handwheel to feed quill out from

casting approximately 1".

Note: The maximum quill travel is 3.2", but

we do not recommend extending the quill

more than 1" or stability and accuracy will be

reduced.

Figure 43. Example photo of a workpiece

mounted between two centers.

4. Insert center into tailstock quill.

5. Seat center firmly into quill during workpiece

installation by rotating quill handwheel clock-

wise to apply pressure with center engaged

in center hole of workpiece.

Note: Only apply enough pressure to securely

mount the workpiece between centers. Avoid

over-tightening the center against the workpiece,

or it may become difficult to remove later. Also,

over-tightening will result in excessive friction and

heat, which may damage the workpiece or center.

Note: Only apply enough pressure with

tailstock quill to securely mount workpiece

between centers. Avoid overtightening cen-

ter against workpiece, or it may become

difficult to remove later, and it will result in

excessive friction and heat, which may dam-

age workpiece and center.

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Compound Rest

Four-Way Tool Post

The four-way tool post is mounted on top of the

compound rest and allows a maximum of four

tools to be loaded simultaneously.

The compound rest handwheel has an indirect-

read graduated scale. This means that the dis-

tance shown on the scale represents the actual

distance the cutting tool moves. The base of the

compound rest has another graduated scale used

for setting the cutting tool to a specific angle.

Each tool can be quickly indexed to the workpiece

by loosening the top handle, rotating the tool

post to the desired position, then retightening the

handle to lock the tool into position.

Graduated Dial

Increments............................... 0.001" (0.025mm)

One Full Revolution.....................0.08" (2.03mm)

Installing Tool

Tool Needed

Qty

Tool Needed

Qty

Tool Post T-Wrench........................................... 1

Hex Wrench 6mm.............................................. 1

To install a tool in tool post:

To set compound rest angle:

1. Adjust tool post bolts so cutting tool can fit

1. Loosen cap screws shown in Figure 44.

underneath them (see below).

Tool Post

Bolt

Cutting

Tool ½"

x 2

Figure 45. Example of tool mounted in tool post.

Figure 44. Compound rest angle adjustments.

2. Rotate rest to desired angle, as indicated by

scale at base, then retighten cap screws.

Over-extending a cutting tool from the post

will increase risk of tool chatter, breakage,

or tool loosening during operation, which

could cause metal pieces to be thrown at

the operator or bystanders with great force.

DO NOT extend a cutting tool more than 2.5

times the width of its cross-section (e.g.,

2.5 x 0.5" = 1.25").

Tip: The first time you set the compound rest

angle for cutting threads, mark the location

on the cross slide as a quick reference point.

This will allow you to quickly return the com-

pound rest to that exact angle the next time

you need to cut threads.

2. Firmly secure cutting tool with at least two

tool post bolts.

3. Check and adjust cutting tool to spindle cen-

terline, as instructed in next subsection.

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Tools Needed

Qty

Aligning Cutting Tool with Spindle

Centerline

For most operations, the cutting tool tip should be

aligned with the spindle centerline, as illustrated

below.

Tool Post T-Wrench........................................... 1

Steel Shims ....................................... As Needed

Cutting Tool ....................................................... 1

Tailstock Center................................................. 1

To align cutting tool with tailstock center:

Cutting

Spindle

1. Mount cutting tool in tool post, then secure

Tool

post so tool faces tailstock.

Center

Line

2. Install center in tailstock, and position center

tip near cutting tool tip.

3. Lock tailstock and quill in place.

4. Adjust height of cutting tool so tool tip is

aligned vertically with center tip, as illustrated

below.

Figure 46. Cutting tool aligned with spindle

centerline (viewed from tailstock).

There are a number of ways to check and align

the cutting tool to the spindle centerline. If nec-

essary, you can raise the cutting tool by placing

steel shims underneath it. The shims should be

as long and as wide as the cutting tool to properly

support it.

(Top View)

Tailstock

Center

Below are two common methods:

Cutting

Tool

•

Move the tailstock center over the cross slide

and use a fine ruler to measure the distance

from the surface of the cross slide to the tip

of the center. Adjust the cutting tool height so

it is the same distance above the cross slide

as the tailstock center.

Cutting

Tool

Tailstock

Center

•

Align the tip of the cutting tool with a tailstock

center, as instructed in the following pro-

cedure. For this to work, the tailstock must

be aligned to the spindle centerline (refer to

Aligning Tailstock To Spindle Centerline

in this manual for detailed instructions).

(Side View)

Figure 47. Cutting tool aligned to the tailstock

center.

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Carriage Handwheel

Graduated Dial

Increments...................................0.08" (2.03mm)

Manual Feed

One Full Revolution........................1.5" (38.1mm)

The cutting tool can be manually fed into the

workpiece using the carriage, cross slide, and

compound rest handwheels shown below.

Use the carriage handwheel to move the carriage

left or right along the bed. Adjust the position of

the graduated scale by holding the handwheel

with one hand and turning the dial with the other.

Carriage

Compound

Handwheel

Rest

Cross Slide Handwheel

Graduated Dial

Handwheel

Increments............................... 0.001" (0.025mm)

One Full Revolution.....................0.08" (2.03mm)

Cross Slide

Handwheel

Use this handwheel to move the tool toward and

away from the work. The cross slide handwheel

has an indirect-read graduated dial, which shows

the actual distance the table moves.

Figure 48. Manual feeding controls.

Compound Rest Handwheel

Graduated Dial

Increments .............................. 0.001" (0.025mm)

One Full Revolution.....................0.08" (2.03mm)

Use this handwheel to move the cutting tool lin-

early along the set angle of the compound rest.

Set the compound rest angle by hand-rotating

it and securing it with the two cap screws (see

Figure 44 on Page 38). The compound rest has

an indirect-read graduated dial, which shows the

actual distance the tool moves.

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Setting Spindle Speed

Spindle Speed

Spindle speed is selected by positioning the

V-belt either between the spindle and motor pul-

leys (see Figure 50), or between the spindle and

idler pulleys. Select the motor pulleys for high

(720-2100 RPM) or idler pulleys for low (150 –470

RPM) speed ranges. The V-belt diagram below is

also found on the headstock.

Using the correct spindle speed is important for

getting safe and satisfactory results, as well as

maximizing tool life.

To set the spindle speed for your operation, you

will need to: 1) Determine the best spindle speed

for the cutting task, and 2) Configure the lathe

controls to produce the required spindle speed.

Refer to Tensioning & Replacing V-Belts on

Page 70 for instructions on removing and re-

installing V-belts.

Determining Spindle Speed

Tool Needed

Hex Wrench 4mm.............................................. 1

Qty

Many variables affect the optimum spindle speed

to use for any given operation, but the two most

important are the recommended cutting speed for

the workpiece material and the diameter of the

workpiece, as noted in the formula shown below.

Idler

Pulleys

V-Belt

*Recommended

Spindle

Cutting Speed (FPM) x 12

Speed

(RPM)

Spindle

Pulleys

Dia. of Cut (in inches) x 3.14

*Double if using carbide cutting tool

Motor

Pulleys

Figure 49. Spindle speed formula for lathes.

Figure 50. Belt positioned for 720 RPM.

Cutting speed, typically defined in feet per minute

(FPM), is the speed at which the edge of a tool

moves across the material surface.

A recommended cutting speed is an ideal speed

for cutting a type of material in order to produce

the desired finish and optimize tool life.

The books Machinery’s Handbook or Machine

Shop Practice, and some internet sites, pro-

vide excellent recommendations for which cutting

speeds to use when calculating the spindle speed.

These sources also provide a wealth of additional

information about the variables that affect cutting

speed and they are a good educational resource.

Also, there are a large number of easy-to-use

spindle speed calculators that can be found on

the internet. These sources will help you take into

account the applicable variables in order to deter-

mine the best spindle speed for the operation.

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Thread Charts—Display headstock end gear

positions used for cutting various metric or inch

threads (see Figure 53).

Understanding Gear

Charts

This subsection explains how to understand the

feed and thread charts on the headstock. If you do

not understand lathe gear charts, or need a quick

refresher, read this before configuring the end

gears for power feeding or threading operations.

Feed & Thread Charts Label

The feed and thread charts label (see Figure 51)

provides information for setting up end gears for

threading or non-threading operations. The top

displays metric and inch thread charts, the bottom

displays a feed chart.

Feed & Thread

Charts Label

Gearbox

Dials

Figure 51. Feed and thread charts label.

Feed Chart—Displays gearbox dial positions for

different speeds of automatic feed (power feed)

used with turning operations (see Figure 52).

Figure 53. Threading charts.

Figure 52. Feed chart.

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How to Read the Thread Charts

Figure 57 identifies the charts to use when set-

ting carriage feed movement for metric or inch

threading.

How to Read the Feed Chart

Figure 54 identifies the fifteen available feed

rates each for longitudinal and transverse carriage

movement.

Indicates Threads

Per Inch (TPI)

Indicates Metric

Thread Pitch

Figure 57. Headings indicate inch or metric

Figure 54. G0773 feed rate chart.

threads.

Figure 55 indicates that for a longitudinal feed

rate of 0.0016 in/rev., the G position gear must be

30T, the numeric feed dial set to 1, and the alpha

feed dial set to A (see Figure 56).

Figure 58 shows the threads per inch (TPI) on the

applicable chart.

Threads

Per Inch

(TPI)

Longitudinal

Feed Icon

30T Gear in

G Position

Numeric Feed

Dial Set to 1

Figure 58. Numbers in dotted line indicate the

Feed Rate

.0016 in/rev.

TPI or threads per inch.

Figure 59 identifies the end gears on the upper,

middle, and lower shafts. The gears are repre-

sented by letters.

Alpha Feed

Dial Set to A

Figure 55. Reading feed chart.

Upper Shaft Gears

Middle Shaft Gears

Lower Shaft Gears

Numeric

Feed Dial

Alpha

Feed

Dial

G Position

Gear 30T

Figure 59. Identification of gears on shafts.

Figure 56. Feed dial and gear settings for

0.0016 in/rev.

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Figure 60 shows how the gearing illustration in

the thread chart relates to the end gears.

Power Feed

The carriage has power feed (or automatic feed)

options for threading or non-threading operations.

This section describes how to use the power feed

option for non-threading operations. To learn how

to power the carriage for threading operations,

refer to Threading on Page 49.

To avoid damaging lathe, NEVER allow

cutting tool to run into chuck! ALWAYS

make sure spindle is completely stopped

BEFORE using headstock controls to make

changes.

Figure 60. Power feed gearing setup.

Power Feed Controls

Use the following descriptions and figures to

understand the power feed controls.

Before using power feed, you may have to recon-

figure the end gears, depending on how they are

set up (refer to Power Feed Configuration on

Page 45). The lathe comes from the factory with

the end gears set up in the power feed configura-

tion.

A. Spindle Direction Switch: Enables forward

or reverse carriage travel when feed direction

dial and half nut lever are engaged. The car-

riage will not move when the switch is in the

"0" position.

Figure 61. Spindle switch and feed rate chart.

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B. Feed Rate Chart: Displays dial settings for

selected feed rate (see Figure 62).

Setting Power Feed Rate

Follow the example below to better understand

how to set the lathe power feed.

Tools Needed

Qty

Hex Wrench 5mm.............................................. 1

Hex Wrench 8mm.............................................. 1

To set a feed rate of 0.0016 in/rev.:

1. DISCONNECT MACHINE FROM POWER!

2. Install 30T change gear in "G" position (see

Figure 64).

30T Change

Gear

Figure 62. Feed chart.

C. Half Nut Lever: Engages/disengages half

nut for power feed operations.

0.0016 in/rev.

Figure 64. Reading feed chart for .0016 in/rev.

3. Set gearbox dials to positions "A" and "1", as

shown in Figure 65.

Figure 63. Half nut lever.

To avoid potential carriage/chuck crash,

disengage half nut lever immediately after

completing power feed operations.

Figure 65. Gearbox dial settings for .0016 in/rev.

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Secondary Threading Configuration

End Gears

This configuration is used for metric and 19TPI

threading. Mesh the "G" position gear with the

91T change gear, and mesh the 86T change gear

with the 90T gear on the lower shaft, as shown in

Figure 68.

This section explains how to configure end gears

for feeding and threading operations.

Power Feed Configuration

The end gears are preset by the factory for power

feeding (see Figure 66).

"G" Position

Gear 30T

(Upper Shaft)

Gear 91T

(Middle Shaft)

Gear 90T

(Lower Shaft)

Figure 66. Gearing configuration for power

feeding.

Primary Threading Configuration

This configuration is used for all inch threading

except for 19TPI. Mesh the "G" position gear with

the 91T change gear, and mesh the 91T change

gear with the 90T gear on the lower shaft, as

shown in Figure 67.

Figure 68. End gear configuration for metric and

19TPI threading.

Figure 67. End gear configuration for inch

threading.

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5. Loosen 86T/91T gear support shaft and slide

middle gear away from lower position gear

(see Figure 71).

End-Gear Configuration Example

Follow the example below to better understand

how to configure the end gears for inch threading.

Tools Needed

Qty

Hex Wrench 5mm.............................................. 1

Hex Wrench 6mm.............................................. 1

Hex Wrench 8mm.............................................. 1

Open-End Wrench 19mm.................................. 1

30T Gear

91T Gear

Gear-Support

Shaft

To configure end gears for threading 72 TPI:

86T Gear

1. Locate 72 on the metric thread chart, then

locate the 30 "G" position gear (see Figure

69), which corresponds to 1.5 metric thread

pitch.

Arm-Support

Cap Screw

90T Gear

Figure 71. End gear placement.

30T Gear

72 TPI

6. Remove cap screw and flat washer from "G"

position, position gear, then slide gears off of

shaft.

7. Slide 30T gear onto "G" position shaft, mak-

ing sure to align the key and keyway.

Note: Position the flat, non-stepped face of

the gear away from the headstock so it will

mesh with the 91T gear in Step 11.

Figure 69. Locating change gears for 72 TPI.

2. DISCONNECT LATHE FROM POWER!

3. Open headstock end gear cover.

8. Secure 30T gear with flat washers and cap

screws removed earlier.

9. Slide 91T gear against lower 90T gear (see

Figure 72) until they mesh with 0.002" to

0.004" backlash, then tighten gear support

shaft

4. While holding 86T/91T gears, loosen arm

support cap screw shown in Figure 70, and

slowly let gears pivot down and away from

"G" position gear.

"G" Position

Gear

30T Gear

91T Gear

Gear-Support

Shaft

86T/91T

Gears

86T Gear

Arm

Support

Arm-Support

Cap Screw

Lower

Position

Gear 90T

90T Gear

Arm Support

Cap Screw

Figure 70. Arm support and end gears.

Figure 72. 30T gear installed.

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10. Rotate the 91T gear up against the 30T gear

until they mesh with 0.002" to 0.004" back-

lash and re-tighten arm support cap screw

(see Figure 73).

To configure end gears for reverse feed/

reverse threading operations:

1. DISCONNECT LATHE FROM POWER!

2. Open headstock end gear cover.

3. Loosen upper arm support cap screw shown

in Figure 74.

30T Gear

Gear-Support

Shaft

4. Pivot upper arm-support up so 2nd upper

arm gear and spindle gear mesh with 0.002"

to 0.004" backlash, then tighten upper arm-

support cap screw (see Figure 75).

91T Gear

86T Gear

Arm-Support

Cap Screw

90T Gear

Upper

Arm-Support

Spindle Gear

(Behind Spindle

Pulley)

Upper

Arm-Support

Cap Screw

Figure 73. Inch threading gear configuration.

11. Re-install end-gear cover.

2nd Upper

End Gear

Reverse Feed & Threading

Configuration

For reverse feeding operations, the upper end-

gear arm support (see Figure 74) must be repo-

sitioned so the 2nd upper end-gear meshes with

the spindle gear.

1st Upper

End Gear

Upper

Arm-Support

Handle

Tools Needed

Qty

Hex Wrench 6mm.............................................. 1

Figure 75. Reverse threading gearing

configuration.

Spindle Gear

2nd Upper

5. Re-install end gear cover.

End Gear

1st Upper

End Gear

Upper Arm

Support Cap

Screw

Upper Arm

Support

Upper Arm

Support

Handle

Figure 74. Reverse threading end gear

components.

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3. Locate A above 72 TPI and find 1 to the left

Threading

of it.

Note: In the next step, use the chuck key to

rock the spindle back-and-forth to help mesh

the gears as you make adjustments.

When threading, use slowest speed pos-

sible and avoid deep cuts, so you are able to

disengage half nut when required to prevent

a carriage crash!

4. Position gearbox dials, as shown in Figure

77.

The following subsections will describe how to

use the threading controls and charts to set up the

lathe for a threading operation. If you are unfamil-

iar with the process of cutting threads on a lathe,

we strongly recommend that you read books,

review industry trade magazines, or get formal

training before attempting any threading projects.

Headstock Threading Controls

The threading charts on the headstock face dis-

play the settings for inch and metric threading.

Figure 77. Gearbox dial settings for 72 TPI.

The lathe is now setup to cut 72 TPI threads.

Using the controls on the lathe, follow the exam-

ple below to understand how to set up the lathe

for the desired threading operation.

Apron Threading Controls

The half nut lever engages the carriage with the

leadscrew, which moves the carriage and cutting

tool along the length of the workpiece for thread-

ing operations (see Figure 78).

To set dials for 72 TPI:

1. Arrange gears in Primary Threading

Configuration, with 30T gear in "G" position,

as explained on Page 46.

2. Locate 72 TPI on the inch threading chart

below.

Half Nut

Lever

Thread Dial

Alpha Dial

Numeric Dial 72 TPI

Engaged

Disengaged

Figure 76. 72 TPI and corresponding dial

Figure 78. Apron threading controls.

positions.

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To change thread dial gears:

Thread Dial

When the number "0" on the thread dial (Figure

79) aligns with the scale mark, this indicates when

to engage the half nut during inch threading.

1. Loosen both cap screws shown in Figure 79

and remove thread dial.

2. Remove Phillips head screw shown in Figure

80, remove existing gear from thread dial,

and replace with correct gear for threading

operation.

Scale Mark

3. Replace Phillips head screw and re-install

thread dial, making sure teeth of thread dial

gear mesh with lead screw.

Thread Dial Chart

Gear

To cut standard threads, only use the 28T gear.

To cut metric threads, consult the thread dial chart

in Figure 81 to determine which gear to use and

when to engage half nut.

Figure 79. Thread dial details.

Note: The thread dial is not used for metric

threading. For that type of operation, you must

leave the half nut engaged from the beginning

until turning is complete.

Thread Pitch

0.25

0.5

Gear

Z28 or Z30

Z30

Dial Mark

Any

When the first cutting pass is complete, the opera-

tor disengages the carriage from the leadscrew

using the half nut lever. The operator returns the

carriage for the next pass and re-engages the half

nut using the same thread dial setting to resume

the cut in the previous pass.

1.0

1.25

2.5

Z30

0.3

Z28 or Z30

Z28

Any

0.6

1.5

Thread Dial Gears

The G0773 thread dial comes with a 28T gear

installed on the thread dial for cutting standard

threads. A 30T gear is also included for cutting

some metric threads, but it must be installed in

place of the 28T thread dial gear before it can be

used (see Figure 80).

0.35

0.7

Z28

1.75

0.4

Z28

Z28 or Z30

0.8

2.0

Z28

Z28 or Z30

Gear 30T

For Metric

Threads

Thread Dial

Figure 81. Thread dial chart.

Gear 28T For

Inch Threads

Figure 80. Thread-dial change gears can be

exchanged for cutting either inch or metric

threads.

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SECTION 5: MILL OPERATIONS

Operation Overview

To reduce risk of injury and increase

longevity of machine, always start spindle

rotation with spindle speed dial set to low-

est setting.

The purpose of this overview is to provide the nov-

ice machine operator with a basic understanding

of how the machine is used during operation, so

the machine controls/components discussed later

in this manual are easier to understand.

To complete a typical milling operation, the

operator does the following:

Due to the generic nature of this overview, it is

not intended to be an instructional guide. To learn

1. Puts on personal protective equipment.

more about specific operations, read this entire

manual and seek additional training from expe-

2. Securely clamps workpiece to cross slide

rienced machine operators, and do additional

table.

research outside of this manual by reading "how-

to" books, trade magazines, or websites.

3. With machine disconnected from power,

installs correct tooling.

4. Adjusts mill headstock height.

To reduce your risk of

5. Connects machine to power.

serious injury, read this

entire manual BEFORE

using machine.

6. Rotates spindle speed dial to lowest setting,

and resets Emergency Stop button.

7. Presses ON button and rotates spindle speed

dial to correct spindle speed.

To reduce risk of eye or face injury from

flying chips, always wear approved safety

glasses and face shield when operating this

machine.

8. Uses carriage and cross slide controls to per-

form operation.

9. Presses Emergency Stop button and waits

for spindle to completely stop before remov-

ing workpiece, changing tooling, or changing

spindle speeds.

If you are not experienced with this type

of machine, WE STRONGLY RECOMMEND

that you seek additional training outside of

this manual. Read books/magazines or get

formal training before beginning any proj-

ects. Regardless of the content in this sec-

tion, Grizzly Industrial will not be held liable

for accidents caused by lack of training.

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Headstock

Movement

Removing

Compound Rest

The milling headstock moves in the following

ways:

The compound rest and tool post must be removed

before milling operations so the cross-slide table

can be used as the milling table.

•

Travels up and down the column (Z-axis).

Tilts 45° left or right relative to the table.

Tools Needed

Qty

Hex Wrench 3mm.............................................. 1

Hex Wrench 4mm.............................................. 1

Raising/Lowering Headstock

1. Loosen Z-axis lock lever shown in Figure 84.

Removing Compound Rest

Remove both cap screws shown in Figure 82,

then remove compound rest.

Z-Axis

Lock

Lever

Figure 84. Location of Z-axis lock lever.

2. Use the coarse vertical handwheel shown

in Figure 85 to adjust headstock height and

relative position of cutting tool before cutting.

x 2

Figure 82. Location of compound rest cap

screws.

Vertical

Handwheel

Re-installing Compound Rest

Align compound rest with swivel base mounting

post and M8-1.25 T-nuts (see Figure 83), then

secure with cap screws previously removed.

Mounting Post

Fine Vertical

Handwheel

Figure 85. Location of mill headstock vertical

controls.

3. Use the fine vertical handwheel shown in

Figure 85 for precision vertical adjustment

during milling operations.

Figure 83. Swivel base components.

4. Retighten lock lever.

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These movements are controlled by the car-

riage handwheel and cross slide handwheel (see

Figure 88).

Tilting Headstock

Tool Needed

Wrench 36mm................................................... 1

Qty

To tilt headstock:

1. DISCONNECT MACHINE FROM POWER!

Cross Slide

Table

2. Support headstock with one hand, then loos-

en headstock center bolt and angle lock nut

(see Figure 86).

Cross Slide

Handwheel

(Y-Axis)

Carriage

Handwheel

(X-Axis)

Figure 88. Table travel controls.

Carriage Handwheel (X-Axis)

Graduated Dial

Increments................................... 0.01" (0.25mm)

Angle Lock

Nut

One Full Revolution..........................1" (25.4mm)

Figure 86. Headstock tilt controls.

Use the carriage handwheel to move the carriage

left or right along the bed. Adjust the position of

the graduated scale by holding the handwheel

with one hand and turning the dial with the other.

3. While viewing tilt scale, rotate headstock to

required angle, then retighten center bolt and

angle lock nut to secure headstock.

Cross Slide Handwheel (Y-Axis)

Graduated Dial

Increments............................... 0.001" (0.025mm)

Table Travel

One Full Revolution.....................0.08" (2.03mm)

The cross slide table travels in two directions, as

illustrated in Figure 87:

Use this handwheel to move the cross slide table

toward or away from the tooling. The cross slide

handwheel has an indirect-read graduated dial,

which shows the actual distance the table moves.

•

X-axis (longitudinal)

Y-axis (cross)

X-Axis or Longitudinal Travel (Left & Right)

Y-Axis or

Cross Travel

(In & Out)

Figure 87. Possible directions of cross slide

travel.

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3. Insert tooling (not included) into spindle until

Installing/Removing

Tooling

in contacts drawbar.

4. Working from the top, thread drawbar by

hand into tooling until snug (see Figure 90).

Cutting tools are sharp and

can easily cause cutting

injuries. Always protect

your hands with leather

gloves or shop rags when

handling cutting tools.

Installing Tooling

Tools Needed

Qty

Wrench 17mm.................................................... 1

Spindle Locking Pin........................................... 1

Figure 90. Threading drawbar into tooling.

5. Insert spindle locking pin into hole in spindle,

and tighten drawbar, as shown in Figure 91.

To install tooling:

1. DISCONNECT MACHINE FROM POWER!

2. Remove drawbar cap (see Figure 89).

Note: Do not overtighten drawbar.

Overtightening makes tool removal difficult

and may damage arbor and threads.

Drawbar Cap

Figure 89. Location of drawbar cap.

Spindle

Locking Pin

Figure 91. Tightening drawbar lock nut.

6. Re-install drawbar cap.

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5. Tap top of drawbar with hammer to unseat

taper (see Figure 92).

Removing Tooling

Tools Needed

Qty

Wrench 17mm.................................................... 1

Spindle Locking Pin........................................... 1

Brass Hammer .................................................. 1

To remove tooling:

1. DISCONNECT MACHINE FROM POWER!

2. Remove drawbar cap.

3. Insert spindle locking pin into spindle, and

loosen drawbar (see Figure 91 on Page 54).

4. Unthread drawbar from tooling one full rota-

Figure 92. Example of tapping drawbar to

tion.

unseat tool taper.

Note: Do not fully unthread tooling from

drawbar or the drawbar and tool threads

could be damaged in the next step.

6. Hold onto tooling with one hand and fully

unthread drawbar with the other hand.

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Setting Spindle Speed

1. Set Lathe/Mill selector switch to 2 for milling

operations (see Figure 94).

Spindle Speed

Using the correct spindle speed is important for

safe and satisfactory results, as well as maximiz-

ing tool life.

Lathe/Mill

Selector Switch

To set the mill spindle speed for operation, you

will need to: 1) Determine the best spindle speed

for the cutting/drilling task, and 2) use the spindle

speed dial to obtain the spindle speed.

Determining Spindle Speed

Many variables affect the optimum spindle speed

to use for any given operation, but the two most

important are the recommended cutting speed

for the workpiece material and the diameter of

the cutting tool, as noted in the formula shown in

Figure 93.

Figure 94. Location of lathe/mill selector switch.

2. Rotate variable-speed dial (see Figure 95)

clockwise to select mill speed from 100–

2500 RPM. Rotate dial further clockwise

to increase speed or counterclockwise to

decrease speed.

*Recommended

Spindle

Speed

(RPM)

Cutting Speed (FPM) x 12

Tool Dia. (in inches) x 3.14

*Double if using carbide cutting tool

Figure 93. Spindle speed formula for mill/drills.

Cutting speed, typically defined in feet per minute

(FPM), is the speed at which the edge of a tool

moves across the material surface.

A recommended cutting speed is an ideal speed

for cutting a type of material in order to produce

the desired finish and optimize tool life.

Variable-Speed Dial

Figure 95. Location of milling head variable-

The books Machinery’s Handbook or Machine

Shop Practice, and some internet sites, pro-

vide excellent recommendations for which cutting

speeds to use when calculating the spindle speed.

These sources also provide a wealth of additional

information about the variables that affect cutting

speed and they are a good educational resource.

speed dial.

Also, there are a large number of easy-to-use

spindle speed calculators that can be found on

the internet. These sources will help you take into

account the applicable variables in order to deter-

mine the best spindle speed for the operation.

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ACCESSORIES

SECTION 6: ACCESSORIES

H2987—½" Bent Lathe Dog

H2988—1" Bent Lathe Dog

H2989—1½" Bent Lathe Dog

H2990—2" Bent Lathe Dog

H2991—3" Bent Lathe Dog

Installing unapproved accessories may

cause machine to malfunction, resulting in

serious personal injury or machine damage.

To reduce this risk, only install accessories

recommended for this machine by Grizzly.

NOTICE

Refer to our website or latest catalog for

additional recommended accessories.

T10294—11 Pc. Carbide Bit Set ¹⁄2

This ⁄2" shank, 7-piece turning tool set is ideal

for a wide variety of projects. Supplied with right

hand and left hand turning/facing tool holders, the

set is complimented with one threading and one

cut-off tool, too. Indexable inserts ensure cutting

surfaces stay sharp.

Figure 97. Model H2990 ¹⁄2" Bent Lathe Dog.

SB1365—South Bend Lathe Way Oil, 12 oz.

T23962—ISO 68 Moly-D Way Oil, 5 gal.

T23963—ISO 32 Moly-D Machine Oil, 5 gal.

T23964—Moly-D NLGI#2 Grease.

Moly-D oils are some of the best we've found for

maintaining the critical components of machinery

because they tend to resist run-off and maintain

their lubricity under a variety of conditions—as

well as reduce chatter or slip. Buy in bulk and

save with 5-gallon quantities.

Figure 96. Model T10294 7-Pc. carbide-tipped

tool set.

SB1235

T23963

T23964

Figure 98. 12 oz. way oil & 5 gallon machine oil.

order online at www.grizzly.com or call 1-800-523-4777

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G1070—MT3 Live Center Set

H6202—1/2" x JT3 High-Precision Drill Chuck

H6204—5/8" x JT3 High-Precision Drill Chuck

G1675—Drill Chuck Arbor - R-8/JT3

A super blend of quality and convenience, this

live center set offers seven interchangeable tips.

High-quality needle bearings prolong tool life

and special tool steel body and tips are precision

ground. Supplied in wooden box.

G1677—Drill Chuck Arbor - MT3/JT3

Unlike most keyed drill chucks, Models H6202

and H6204 are made to very tight tolerances on

CNC equipment and are some of the finest drill

chucks on the market today. They have very high

gripping strength and are suitable for heavy-duty,

high speed drilling. Each chuck includes a high

visibility chuck key. Drill chuck arbors are used to

adapt drill chucks to your milling machine or lathe.

Figure 99. G1070 Live Center Set.

G1677

H6204

H5930—4-Pc. Center Drill Set 60°

H5931—4-Pc. Center Drill Set 82°

Double-ended HSS Center Drills are precision

Figure 101. High-precision drill chuck and drill

chuck arbor.

ground. Each set includes sizes 1–4.

G9788—4-Pc. Measuring Tool Set

BODY

DIA.

DRILL OVERALL

This is the set you need for accurate measure-

ments. Includes a stainless steel 6" dial caliper, a

6" scale with inch scale on one side and a metric

scale on the other, a 1" carbide-tipped microm-

eter with vernier scale, and a 4" precision square

with beveled edge. Comes with molded case and

micrometer adjustment wrench.

SIZE

DIA.

³⁄64"

⁵⁄64"

LENGTH

⁄8"

1¹⁄4

1⁷⁄8

³⁄16"

⁷⁄64"

⁄4"

⁵⁄16"

⁄8"

2¹⁄8

Figure 102. Model G9788 4-Pc. Measuring Tool

Figure 100. HSS ground center-drill sets.

Set.

order online at www.grizzly.com or call 1-800-523-4777

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T10253—2" Mini Self-Centering Swivel Vise

T10254—2" Mini Self-Centering Vise

H6195—3" Rotary Table w/ Clamps

For horizontal or vertical use. 3" diameter table

rotates 360°. Low profile—only 1.670" tall. 4⁵⁄16"

T-slots. 1:36 ratio or 10° per handwheel revolution.

Scale reads to 15 minutes. Has brass lock knob.

Table height in horizontal position: 1⁵⁄8";

in vertical position: 3¹⁄4".

Ideal for holding small parts and model making.

Both models feature self-centering jaws, adjust-

able gib on a dovetailed way, 2¹⁄16" jaw opening,

and 2" jaw width. T10253 base swivels 360°, and

overall size is 6³⁄4" L x 4" W x 3³⁄8" H with handle

removed. T10254 overall size is 6¹⁄2" L x 3¹⁄2" W x

2³⁄8" H with handle removed.

T10253

T10254

Figure 105. Model H6195 3" Rotary Table w/

Clamps.

Figure 103. Mini Self-Centering Vises.

R-8 End Mill Holders

4-Flute C-2 Grade Carbide End Mills

Hold your end mills in the Model G0773 spindle

with these quality end mill holders. Sized for vari-

ous end mill shanks.

These American-made 4-flute Carbide End Mills

feature standard cutting lengths and nominal

minus diameter tolerances. Recommended for

profiling and finishing non-ferrous materials.

Model

T25697

T25698

T25699

T25700

T25701

Taper

R-8

Size

³⁄16"

Cutting

Diameter

Flute

Length

R-8

⁄

Model

OA Length

R-8

H3649

H3650

H3651

H3652

H3653

H3654

H3655

H3656

H3657

H3658

H3659

H3660

¹⁄16"

³⁄32"

³⁄16"

1 ⁄2

R-8

⁄

1 ⁄2

R-8

⁄4"

⁄

1 ⁄2

⁵⁄32"

³⁄16"

⁷⁄32"

⁹⁄16"

⁄

T25697

2¹⁄2

2³⁄4

⁄4"

⁄

⁹⁄32"

⁵⁄16"

⁄

¹³⁄16"

⁄

T25700

⁷⁄16"

⁄

Figure 106. R-8 end mill holders.

Figure 104. 4-Flute C-2 grade carbide end mills.

order online at www.grizzly.com or call 1-800-523-4777

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G9274—6" Stainless Steel Outside Calipers

G9275—8” Stainless Steel Outside Calipers

G9276—10” Stainless Steel Outside Calipers

G9277—12” Stainless Steel Outside Calipers

G9278—16” Stainless Steel Outside Calipers

Spring Calipers with quick adjustment nut provide

fast determination of external measurements.

Ideal for physically transferring dimensions from

originals. Five different sizes allow you to match

the best caliper for your shop needs.

H7616—Oil Can w/Plastic Nozzle

This high-pressure oil can is perfect for lubricating

the ball oilers found on your machine. Each can

holds 5 ounces of oil.

Figure 109. High-pressure oil can for ball oilers.

H6879—Lathe Operation & Maintenance Book

This detailed metal lathe book provides extensive

coverage of a wide variety of metalworking opera-

tions. Special emphasis is placed on lathe com-

ponents, accessories, and operating procedures,

including basic machine setup and routine main-

tenance. A "must have" reference for all metal

lathe owners. 260 pages.

Figure 107. G9274 16" Stainless Steel Calipers.

T10255—Mini Lathe Tool Kit

Includes right, left, and straight turning tool hold-

ers with ⁄8" HSS tool bits, boring bar with holder

and ⁄8" HSS tool bit, cut off tool holder with ⁄32"

HSS blade and ³⁄8" shank, mini cut off tool holder

with ⁄16" HSS blade and ⁄16" shank, knurling tool

holder with pivoting head, single horizontal/verti-

cal knurling tool holder and assorted hex wrench-

es. Maximum shank size is ¹⁄2".

Figure 110. H6879 Lathe Operation &

Maintenance Book.

Figure 108. T10255 Mini Lathe Tool Kit.

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SECTION 7: MAINTENANCE

Daily, After Operations

•

Press the Emergency Stop button (to prevent

accidental startup).

Vacuum/clean all chips and swarf from bed,

slides.

Wipe down all unpainted or machined sur-

faces with an oiled rag.

Always disconnect power

to the machine before

performing maintenance.

Failure to do this may

result in serious person-

al injury.

Annually

•

Lubricate end gears (Page 65).

Schedule

Cleaning/Protecting

Ongoing

To maintain a low risk of injury and proper

machine operation, if you ever observe any of the

items below, shut down the machine immediately

and fix the problem before continuing operations:

Because of its importance, we recommend that

the cleaning routine be planned into the workflow

schedule.

•

Loose mounting bolts or fasteners.

Worn, frayed, cracked, or damaged wires.

Guards or covers removed.

Emergency Stop button not working correctly

or not requiring you to reset it before starting

the machine again.

Typically, the easiest way to clean swarf from the

machine is to use a brush and wet/dry shop vacu-

um that are dedicated for this purpose. The small

chips left over after vacuuming can be wiped up

with a slightly oiled rag. Avoid using compressed

air to blow off chips, as this may drive them deep-

er into the moving surfaces or cause sharp chips

to fly into your face or hands.

•

Damaged or malfunctioning components.

Daily, Before Operations

•

Add oil to the ball oilers (Page 62).

Lubricate the leadscrew and carriage rack

(Page 63).

Lubricate the bedways (Page 63).

Clean/lubricate the cross slide and com-

pound slide (Page 63).

All unpainted and machined surfaces should be

wiped down daily to keep them rust free and in top

condition. This includes any surface that is vulner-

able to rust if left unprotected. Use a quality ISO

68 way oil (see Page 57 for offerings from Grizzly)

to prevent corrosion.

•

Disengage the half nut on the carriage (to

prevent crashes upon startup).

Lubricate column ways (Page 66).

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Items Needed

Qty

Lubrication

Clean Rags........................................ As Needed

Mineral Spirits.................................... As Needed

Stiff Brush.......................................................... 1

Pump-Type Oil Can w/Plastic Cone Tip ............ 1

The lathe has metal-to-metal sliding surfaces that

require regular lubrication to maintain smooth

movement and ensure long-lasting precision.

Ball Oilers

Lube Type...............................ISO 32 Equivalent

Lube Amount............................1 or 2 Squirts/Fill

Lubrication Frequency................................. Daily

Other than the lubrication points covered in this

section, all other bearings are internally lubricated

and sealed at the factory. Simply leave them

alone unless they need to be replaced.

This lathe has four ball oilers that should be oiled

on a daily basis before beginning operation.

Before performing any lubrication task,

DISCONNECT MACHINE FROM POWER!

Proper lubrication of ball oilers is done with a

pump-type oil can that has a plastic or rubber-

ized cone tip. We do not recommend using metal

needle or lance tips, as they can push the ball too

far into the oiler, break the spring seat, and lodge

the ball in the oil galley.

We recommend using Model SB1365 Way Oil,

T23963 Machine Oil, and T23964 Multi-Purpose

Grease or equivalents (see Page 57) for most

lubrication tasks.

Lubrication Frequency

Lubricate the ball oilers before and after machine

use, and more frequently under heavy use. When

lubricating ball oilers, first clean the outside sur-

face to remove any dust or grime. Push the tip of

the oil can nozzle against the ball oiler to create

a hydraulic seal, then pump the oil can once or

twice. If you see sludge and contaminants coming

out of the lubrication area, keep pumping the oil

can until the oil runs clear. When finished, wipe

away any excess oil.

Lubrication Task

Frequency Page

This

Daily

Ball Oilers

Page

Leadscrew & Carriage

Rack

Daily

Bedways

Daily

Feed Gearbox

Annually

Cross Slide & Compound

Slide

Daily

End Gears

Annually

Daily

Mill Column Ways

NOTICE

The recommended lubrication is based on

light-to-medium usage. Since lubrication

helps to protect value and operation of

machine, these lubrication tasks may need

to be performed more frequently than rec-

ommended, depending on usage.

Failure to follow reasonable lubrication

practices as instructed in this manual could

lead to premature failure of machine com-

ponents and will void the warranty.

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Refer to Figures 111–113 to find the location of

each ball oiler.

Leadscrew & Carriage Rack

Lube Type. . Model SB1365 or ISO 68 Equivalent

Lube Amount..................................... As Needed

Lubrication Frequency................................. Daily

Before lubricating the leadscrew and carriage

rack (see Figure 114), clean them first with min-

eral spirits. Use a stiff brush to help remove any

debris or grime. Apply a thin coat of oil along the

entire length of the carriage rack. Use a stiff brush

to make sure oil is applied into the leadscrew

threads.

Note: In some environments, abrasive material

can become caught in the leadscrew lubricant and

drawn into the half nut. In this case, lubricate the

leadscrew with a quality dry lubricant.

Figure 111. Apron ball oilers.

Bedways

Leadscrew

Rack

Figure 112. Tailstock and leadscrew end ball

Figure 114. Identification of leadscrew, rack, and

oilers.

bedways for lubrication.

Bedways

Lube Type. . Model SB1365 or ISO 68 Equivalent

Lube Amount..................................... As Needed

Lubrication Frequency................................. Daily

Before lubricating the bedways (see Figure 114),

clean them with mineral spirits. Apply a thin coat

of oil along the length of the bedways. Move the

steady rest, carriage, and tailstock to access the

entire length of the bedways.

Figure 113. End gear ball oilers.

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Feed Gearbox

Cross Slide & Compound Slide

Lube Type. . Model SB1365 or ISO 68 Equivalent

Lube Amount........................................Thin Coat

Lubrication Frequency................................. Daily

Oil Type.... Grizzly T23963 or ISO 32 Equivalent

Oil Amount............................................... 1 Quart

Check/Add Frequency................................. Daily

Change Frequency................................ Annually

Use the handwheels to separately move the

cross slide and compound rest as far forward as

possible (see Figure 116). Clean the slides with

mineral spirits and wipe down with a rag. Apply

lubricant and move the slides back and forth to

distribute the oil.

Checking Oil Level

The gearbox reservoir has the proper amount of

oil when the oil level in the sight glass is approxi-

mately halfway. The oil sight glass is located on

the front of the gearbox, as shown in Figure 115.

Compound

Bottom Slide

Fill Plug

Drain Plug

Gearbox Oil

Sight Glass

Figure 115. Location of quick-change oil sight

glass and fill plug.

Cross Slide

Bottom Slide

Changing Oil

Place a catch pan under the quick-change gear-

box drain plug (see Figure 115). Use an 8mm

hex wrench to remove the gearbox fill plug, then

remove the drain plug and allow the gearbox res-

ervoir to empty. Re-install the drain plug and add

oil until the level is approximately halfway in the

gearbox oil sight glass, then re-install the fill plug.

Figure 116. Example of bottom slides.

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Lubricating

1. DISCONNECT MACHINE FROM POWER!

End Gears

Lube Type. . Model T23964 or NLGI#2 Equivalent

Frequency............... Annually or When Changing

2. Remove end gear cover and all end gears

shown in Figure 117.

The end gears, shown in Figure 117, should

always have a thin coat of heavy grease to

minimize corrosion, noise, and wear. Wipe away

excess grease that could be thrown onto the

V-belts and reduce optimal power transmission

from the motor.

3. Clean end gears thoroughly with mineral spir-

its to remove old grease. Use a small brush if

necessary to clean between teeth.

4. Clean shafts, and wipe away any grease

splatters in vicinity and on inside of end

cover.

5. Using a clean brush, apply a thin layer of

white lithium grease on the gears. Make sure

to get grease between gear teeth, but do not

fill teeth valleys.

6. Apply a small dab of grease to each gear

shaft.

7. Install end gears and mesh them together

with an approximate 0.002"–0.004" backlash.

Once gears are meshed together, apply a

small dab of grease between them where

they mesh together—this grease will be dis-

tributed when gears rotate and re-coat any

areas scraped off during installation.

Figure 117. End gears.

Handling & Care

Make sure to clean and lubricate any gears you

install or change. Be very careful during handling

and storage—the grease coating on the gears will

easily pickup dirt or debris, which can then spread

to the other gears and increase the rate of wear.

8. Re-install end cover before re-connecting

machine to power.

Make sure the end cover remains installed when-

ever possible to keep the gears free of dust or

debris from the outside environment.

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Column Rack

Lube Type. . Model SB1365 or ISO 68 Equivalent

Lube Amount........................................Thin Coat

Lubrication Frequency................................. Daily

Machine Storage

To prevent the development of rust and corrosion,

the lathe must be properly prepared if it will be

stored for a long period of time. Doing this will

ensure the lathe remains in good condition for

later use.

Regular lubrication will ensure your milling head-

stock performs at its highest potential. Regularly

wipe table and column rack with recommended

lubrication, then move components back and

forth several times to ensure smooth movements

(see Figure 118).

Preparing Machine for Storage

1. DISCONNECT MACHINE FROM POWER!

2. Thoroughly clean all unpainted, bare metal

surfaces, then apply a liberal coat of way

oil, heavy grease, or rust preventative. Take

care to ensure these surfaces are completely

covered and that rust preventative or grease

is kept off of painted surfaces.

3. Lubricate machine as outlined in lubrication

section. Be sure to use an oil can to purge all

ball oilers and oil passages with fresh oil.

4. Place a few moisture absorbing desiccant

packs inside electrical box.

Figure 118. Column Rack lubrication location.

5. Cover machine and place it in a dry area that

is out of direct sunlight and away from haz-

ardous fumes, paint, solvents, or gas. Fumes

and sunlight can bleach or discolor paint.

6. Every few months, rotate by hand all gear-

driven components a few times in several

gear selections. This will keep bearings,

bushings, gears, and shafts well lubricated

and protected from corrosion—especially

during winter months.

Slide carriage, tailstock, and steady rest

down lathe bed to make sure that way spot-

ting is not beginning to occur. Move mill

headstock up and down column.

Bringing Machine Out of Storage

1. Remove moisture-absorbing desiccant packs

from electrical box.

2. Repeat Test Run and Spindle Break-In pro-

cedures, beginning on Page 24.

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SECTION 8: SERVICE

Review the troubleshooting and procedures in this section if a problem develops with your machine. If you

need replacement parts or additional help with a procedure, call our Technical Support at (570) 546-9663.

Note: Please gather the serial number and manufacture date of your machine before calling.

Troubleshooting

Motor & Electrical

Symptom

Possible Cause

Possible Solution

Machine does not

start or a circuit

breaker trips.

1. Improper switch position at startup.

1. DISCONNECT MACHINE FROM POWER; follow

proper procedure for startup (see Page 24).

2. Ensure correct power supply voltage.

2. Incorrect power supply voltage.

3. Power supply circuit breaker tripped or fuse 3. Ensure circuit is sized correctly and free of shorts.

blown.

Reset circuit breaker or replace fuse.

4. Check/ﬁx broken, disconnected, or corroded wires.

5. Test/replace switch.

4. Wiring open/has high resistance.

5. On/Off switch at fault.

6. Emergency stop button engaged or at fault. 6. Test/replace Emergency Stop button.

7. Spindle speed dial at fault.

8. Spindle direction switch at fault.

9. Lathe/mill selector switch at fault.

10. Spindle rotation switch at fault.

11. Motor at fault.

7. Test/replace dial.

8. Test/replace switch.

9. Test/replace switch.

10. Test/replace switch.

11. Test/repair/replace.

Machine stalls or is 1. Machine undersized for task.

underpowered.

1. Use sharp bits/chisels at correct angle; reduce feed

rate/depth of cut; use coolant if possible.

2. Tension/replace belts; ensure belts and pulleys are

clean and dry.

2. Belts slipping or contaminated with oil or

grease.

3. Wrong workpiece material.

4. Feed rate/cutting speed too fast.

5. Motor overheated.

3. Use correct type/size of metal.

4. Decrease feed rate/cutting speed.

5. Use sharp bits; reduce feed rate/depth of cut.

6. Clean motor, let cool, and reduce workload.

7. Test and replace if at fault.

6. Computer board at fault.

7. Motor speed dial at fault.

8. Pulley/sprocket slipping on shaft.

9. Motor bearings at fault.

8. Replace loose pulley/shaft.

9. Test by rotating shaft; rotational grinding/loose shaft

requires bearing replacement.

10. Motor at fault.

10. Test/repair/replace.

Machine has

vibration or noisy

operation.

1. Motor or component loose.

1. Inspect/replace damaged bolts/nuts, and retighten

with thread locking ﬂuid.

2. Bit chattering.

2. Replace/sharpen bit; index bit to workpiece; use

correct feed rate and cutting RPM; retract tool

holder and position workpiece closer.

3. V-belt(s) worn or loose.

3. Inspect/replace belts with a new matched set.

4. Fix/replace fan cover; replace loose/damaged fan.

5. Tighten/replace.

4. Motor fan rubbing on fan cover.

5. Motor mount loose/broken.

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Lathe Operation

Symptom

Possible Cause

Possible Solution

Bad surface ﬁnish.

1. Wrong spindle speed or feed rate.

2. Dull tooling or poor tool selection.

1. Adjust for appropriate spindle speed and feed rate.

2. Sharpen tooling or select a better tool for the

intended operation.

3. Tool height not at spindle centerline.

3. Adjust tool height to spindle centerline (see Page

39).

4. Too much play in gibs.

4. Tighten gibs (see Page 72).

Tapered tool difﬁcult 1. Quill not fully retracted into tailstock.

to remove from

1. Turn quill handwheel until tapered tool is forced out

of quill.

tailstock quill.

2. Contaminants not removed from taper

before inserting into quill.

2. Clean taper and bore, then re-install tool.

Cross slide,

1. Ways loaded with shavings, dust, or grime. 1. Clean ways and relubricate.

compound rest, or

carriage feed has

sloppy operation.

2. Gibs are out of adjustment.

2. Adjust gibs (see Page 72).

3. Handwheel loose or excessive backlash.

3. Tighten handwheel fasteners, adjust handwheel

backlash to a minimum (see Page 71).

4. Adjust leadscrew to remove end play (see Page

71).

4. Leadscrew mechanism worn or out of

adjustment.

Cross slide,

compound,

or carriage

1. Ways loaded with chips, dust, or grime.

2. Gibs are too tight.

1. Clean ways and lubricate.

2. Loosen gibs slightly (see Page 72).

3. Slightly loosen backlash setting (see Page 71).

4. Lubricate bedways.

3. Backlash setting too tight.

handwheels hard to 4. Bedways are dry.

move.

5. Half nut lever engaged.

5. Disengage half nut lever for manual feeding.

Cutting tool

1. Tool holder not tight enough.

2. Cutting tool sticks too far out of tool holder; 2. Re-install cutting tool so no more than ¹⁄3 of the total

1. Check for debris, clean, and retighten.

or machine

components vibrate

excessively during

cutting.

lack of support.

length is sticking out of tool holder.

3. Gibs are out of adjustment.

4. Dull cutting tool.

3. Adjust gibs at affected component (see Page 72).

4. Replace or resharpen cutting tool.

5. Incorrect spindle speed or feed rate.

5. Use the recommended spindle speed and feed rate.

Workpiece is

tapered.

1. Headstock and tailstock not properly

aligned.

1. Re-align tailstock to headstock spindle centerline

(see Page 34).

Chuck jaws will

not move or do not

move easily.

1. Chips lodged in jaws or scroll plate.

1. Remove jaws, clean and lubricate scroll plate, then

replace jaws.

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Mill Operation

Symptom

Possible Cause

Possible Solution

Tool slips in spindle. 1. Tool is not fully drawn up into spindle taper. 1. Tighten drawbar (Do not overtighten).

2. Debris on tool or in spindle taper.

3. Taking too big of cut.

2. Clean collet and spindle taper.

3. Lessen depth of cut and allow chips to clear.

Breaking tools or

cutters.

1. Spindle speed/feed rate is too fast.

1. Set spindle speed correctly (Page 56) or use slower

feed rate.

2. Cutting tool too small.

2. Use larger cutting tool and slower feed rate.

3. Use coolant ﬂuid or oil for appropriate application if

possible.

3. Cutting tool getting too hot.

4. Taking too big of a cut.

4. Lessen depth of cut and allow chips to clear.

5. Fully retract spindle and lower headstock. This

increases rigidity.

5. Spindle extended too far down.

Workpiece vibrates 1. Workpiece not secure.

1. Properly clamp workpiece on table or in vise.

2. Set spindle speed correctly (Page 56) or use slower

feed rate.

or chatters during

operation.

2. Spindle speed/feed rate is too fast.

3. Spindle extended too far down.

3. Fully retract spindle and lower headstock. This

increases rigidity.

Cross slide table is

hard to move.

1. Chips have loaded up on ways.

1. Frequently clean away chips that load up during

milling operations.

2. Ways are dry and need lubrication.

3. Gibs are too tight.

2. Lubricate ways (Page 64).

3. Adjust gibs (see Page 72).

Bad surface ﬁnish.

1. Spindle speed/feed rate is too fast.

1. Set spindle speed correctly (Page 56) or use a

slower feed rate.

2. Using dull or incorrect cutting tool.

2. Sharpen cutting tool or select one that better suits

operation.

3. Wrong rotation of cutting tool.

4. Workpiece not secure.

3. Check for proper cutting rotation for cutting tool.

4. Properly clamp workpiece on table or in vise.

5. Fully retract spindle and lower headstock. This

increases rigidity.

5. Spindle extended too far down.

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The V-belt is correctly tensioned when there

is approximately ⁄8" deflection when pushed

with moderate pressure between the pulleys,

as shown in Figure 120.

Tensioning &

Replacing V-Belts

V-belts stretch and wear with use, so it is impor-

tant that tension is routinely checked and adjusted

as needed. Improperly tensioned V-belts will slip

or poorly transmit power from the motor. We rec-

ommend checking the tension on a monthly basis

to ensure optimal power transmission. Replace

the V-belt if it becomes cracked, frayed, or glazed.

Keep belts and pulleys clear of exposure to oil,

grease, or cutting fluids that will cause them to

slip.

Pulley

Deflection

⁄8

Pulley

Figure 120. Correct V-belt deflection.

Tool Needed

Qty

Hex Wrench 4mm.............................................. 1

—If there is more than ⁄8" deflection, adjust

tension until it is correct.

Tensioning V-Belts

1. DISCONNECT MACHINE FROM POWER!

5. Close end cover.

2. Open end cover.

Replacing V-Belts

1. DISCONNECT MACHINE FROM POWER!

3. Loosen tensioner hex bolt (see Figure 119).

2. Open end cover.

3. Loosen tensioner bolt (see Figure 119) to

relieve tension on V-belt.

4. Carefully roll V-belt off of pulleys.

V-Belt

5. Install new V-belt, then tension as described

in Tensioning V-Belts.

Tensioner

Figure 119. Tensioner bolt and V-belt.

4. Pivot tensioner (see Figure 119) against

V-belt to increase belt tension, then re-tighten

tensioner hex bolt.

-70-

Model G0773 (Mfd. Since 12/14)

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Adjusting Backlash Adjusting Leadscrew

End Play

Backlash is the amount of free play felt while

changing rotation directions with the handwheel.

A small amount of end play is normal, however

after a long period of time, you may find that the

leadscrew develops excessive end play. This can

be removed with a simple adjustment of the nuts

at the end of the leadscrew.

This can be adjusted on the cross slide leadscrew.

Before beginning any adjustment, make sure all

associated components are cleaned and lubri-

cated and locks are loose.

When adjusting backlash, tighten the components

enough to remove backlash, but not so much that

the components bind the leadscrew, making it

hard to turn. Overtightening will cause excessive

wear to the nut and leadscrew.

Tools Needed

Hex Wrench 6mm.............................................. 1

Open-End Wrench 19mm.................................. 1

Qty

To remove leadscrew end play:

1. DISCONNECT MACHINE FROM POWER!

2. Loosen jam nut shown in Figure 122.

Reducing backlash to less than 0.002" is

impractical and can lead to accelerated

wear in leadscrew and other components.

Avoid temptation to overtighten leadscrew

nut or set screw while adjusting.

Leadscrew

Retaining Nut

Cross Slide

Tool Needed:

Qty

Hex Wrench 4mm ............................................. 1

Jam Nut

End Bracket

The cross slide backlash is adjusted by tightening

and loosening the set screw shown in Figure 121.

Flat Washer

Figure 122. Leadscrew end play adjustments.

Set Screw

3. Using your fingers, tighten retaining nut until

it firmly pushes flat washer against end

bracket, then back retaining nut off ¹⁄8 turn.

4. Hold retaining nut in position and tighten jam

nut against it until snug.

Figure 121. Example of cross slide backlash

adjustment.

Move the cross slide handwheel back and forth

while adjusting set screw until backlash is approx-

imately 0.002"–0.003", as indicated on the gradu-

ated dial.

-71-

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Adjusting Cross Slide & Compound

Slide Gibs

1. DISCONNECT MACHINE FROM POWER!

Adjusting Gibs

The goal of adjusting the gib screws is to remove

sloppiness or "play" from the ways without over-

adjusting them to the point where they become

stiff and difficult to move.

2. Loosen hex nuts on side of cross slide or

compound slide (see Figures 123).

In general, loose gibs cause poor finishes and

tool chatter; however, over-tightened gibs cause

premature wear and make it difficult to turn the

handwheels.

The cross-slide and compound slide both use a

straight gib, which is adjusted with cap screws

and hex nuts along its length. The screws push

the gib in to create more contact with the slid-

ing surfaces. The Z-axis ways use a tapered gib,

which is adjusted with screws on each end.

Figure 123. Gib adjustment hex nuts and cap

The gib adjustment process usually requires some

trial-and-error. Repeat the process as necessary

until you find the best balance between loose and

stiff movement. Most machinists find that the ideal

gib adjustment is one where a small amount of

drag or resistance is present, yet the handwheels

are still somewhat easy to move.

screws.

3. Adjust all corresponding cap screws in small

and equal increments while testing move-

ment of slide by rotating handwheel.

Note: Turn cap screws clockwise to tighten

the gib, or counterclockwise to loosen the gib.

Clean and lubricate the ways before beginning

any adjustments. Refer to Lubrication on Page

62 for instructions and lubricant specifications.

4. When satisfied with gib adjustment, use hex

wrench to prevent set screws from moving,

then retighten hex nuts to secure settings.

Tools Needed

Qty

Open-End Wrench 10mm.................................. 1

Hex Wrench 3mm.............................................. 1

Flat Head Screwdriver #2.................................. 1

5. Re-check movement of slide and, if neces-

sary, repeat Steps 2–4.

-72-

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3. Loosen gib nuts and adjust screws in small,

even increments so one end of the gib

does not become tighter than the other (see

Figure 124).

Adjusting Half Nut

The rigidity of the half nut engagement is adjusted

by tightening or loosening the half nut gib screws.

Adjust the half nut if it feels too loose or too tight

when being engaged. Movement that is too stiff

will accelerate wear. Movement that is too slop-

py will produce inaccurate turning or threading

results.

Gib Nuts &

Screws

Tools Needed

Qty

Open-End Wrench 7mm.................................... 1

Hex Wrench 3mm.............................................. 1

To adjust half nut:

Figure 124. Half nut gib adjustment set screws.

1. DISCONNECT MACHINE FROM POWER!

2. Disengage half nut.

4. Engage/disengage half nut several times and

notice how it feels. The adjustment is cor-

rect when half nut firmly and easily engages

leadscrew while opening and closing.

5. Repeat Steps 3–4, if necessary, until satis-

fied with feel of half nut engagement.

6. Re-tighten gib nuts to secure position of

adjustment screws.

-73-

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machine

SECTION 9: WIRING

These pages are current at the time of printing. However, in the spirit of improvement, we may make chang-

es to the electrical systems of future machines. Compare the manufacture date of your machine to the one

stated in this manual, and study this section carefully.

If there are differences between your machine and what is shown in this section, call Technical Support at

(570) 546-9663 for assistance BEFORE making any changes to the wiring on your machine. An updated

wiring diagram may be available. Note: Please gather the serial number and manufacture date of your

machine before calling. This information can be found on the main machine label.

Wiring Safety Instructions

SHOCK HAZARD. Working on wiring that is con- WIRE/COMPONENT DAMAGE. Damaged wires

nected to a power source is extremely dangerous. or components increase the risk of serious per-

Touching electrified parts will result in personal sonal injury, fire, or machine damage. If you notice

injury including but not limited to severe burns, that any wires or components are damaged while

electrocution, or death. Disconnect the power performing a wiring task, replace those wires or

from the machine before servicing electrical com- components.

ponents!

MOTOR WIRING. The motor wiring shown in

MODIFICATIONS. Modifying the wiring beyond these diagrams is current at the time of printing

what is shown in the diagram may lead to unpre- but may not match your machine. If you find this

dictable results, including serious injury or fire. to be the case, use the wiring diagram inside the

This includes the installation of unapproved after- motor junction box.

market parts.

CAPACITORS/INVERTERS. Some capacitors

WIRE CONNECTIONS. All connections must and power inverters store an electrical charge for

be tight to prevent wires from loosening during up to 10 minutes after being disconnected from

machine operation. Double-check all wires dis- the power source. To reduce the risk of being

connected or connected during any wiring task to shocked, wait at least this long before working on

ensure tight connections.

capacitors.

CIRCUIT REQUIREMENTS. You MUST follow EXPERIENCING DIFFICULTIES. If you are expe-

the requirements at the beginning of this manual

riencing difficulties understanding the information

when connecting your machine to a power source. included in this section, contact our Technical

Support at (570) 546-9663.

The photos and diagrams

included in this section are

best viewed in color. You

can view these pages in

color at www.grizzly.com.

-74-

Model G0773 (Mfd. Since 12/14)

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Wiring Overview

BLDC Mill Motor

230V 2.8A

Mill Rear

Electrical Box

Emergency Stop

⁄

HP 5000 RPM

Mill

Safety Guard

Limit Switch

LED Fault

Indicator

Halogen Power

Indicator

Circuit Breaker

(Back Panel)

Chint NB1-63 D16

400V 16A

Variable-Speed Dial

Limit Switches

(Inside)

Lathe/Mill

Selector Switch

Halogen Power

Indicator

Emergency Stop

Spindle Direction

Switch

Lathe Motor

(Inside)

110V 11.6A

Single-Phase

1 HP 1700 RPM

READ ELECTRICAL SAFETY

ON PAGE 74!

-75-

Model G0773 (Mfd. Since 12/14)

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Wiring Diagram

Mill Speed

Control

Circuit Board

Halogen

PoHwaelorgInednicator

Fault Indicator

LED (Yellow)

Lamp

Power Indicator

BLDC

Mill/Drill

Motor

Lamp (Green)

230V 2.8A

5/8 HP

5000 RPM

KEDU

KJD17B

120V

15AL

250V

Fuse

F10al250V

ZM 3405

Rd Tq Pk

Mill Switch Box

(Viewed from Front)

Br Or

DRO

Connector

KEDU QKS7

AC-15 250VAC

Mill Shield

Limit Switch

GND

KEDU QKS7

AC-15 250VAC

Lathe Chuck Guard

Limit Switch

Mill Electrical Box

(Viewed from Rear)

KEDU QKS7

AC-15 250VAC

Change Gear Cabinet

Limit Switch

Neutral

Hot

110 VAC

5-15 Plug

Ground

Motor Cabinet

(Viewed from Rear)

Circuit Breaker

Chint NB1-63 D16

400V 16A

GND

OFF

Halogen

Power Indicator

Lamp (Green)

C C

110V

MOTOR

KEDU

GND

KEDU ZH-B

5E4

(Top)

ZHHCZA

EN609471

(Top)

KEDU ZH-B

5E4

(Bottom)

ZHHCZA

EN609471

(Bottom)

Start

Capacitor

300MFD

125VAC

Run

Headstock Casting

(Viewed from Front)

KEDU

KJD17B

120V

Capacitor

25MFD

450VAC

READ ELECTRICAL SAFETY

ON _DP_oA_wG_nloE_ad7_fr4_om! _{Www.Somanuals.com. All Manuals Search And Download.}

-76-

Model G0773 (Mfd. Since 12/14)

Wiring Photos

Figure 125. Control panel.

Figure 128. Headstock casting.

Figure 126. Mill rear electrical box and switch

box.

Figure 129. Back panel.

Figure 127. Mill/drill motor.

Figure 130. Start and run capacitors.

READ ELECTRICAL SAFETY

ON PAGE 74!

-77-

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SECTION 10: PARTS

Accessories

23-2

23-1

24-1

23-3

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

P07730002

P07730003

P07730004

P07730005

P07730006

P07730007

P07730008

P07730009

P07730010

P07730011

P07730012

P07730013

P07730015

HEX WRENCH 3MM

P07730016

P07730017

P07730018

P07730020

P07730022

P07730023

CHANGE GEAR 50T

CHANGE GEAR 35T

CHANGE GEAR 60T

HEX WRENCH 4MM

HEX WRENCH 5MM

HEX WRENCH 6MM

WRENCH 36MM OPEN-END

CAP SCREW M6-1 X 10

3-JAW CHUCK 6"

HEX WRENCH 8MM

WRENCH 8 X 10MM OPEN-ENDS

WRENCH 12 X 14MM OPEN-ENDS

WRENCH 17 X 19MM OPEN-ENDS

DEAD CENTER MT#3

23-1 P07730023-1 CHUCK 6" D1-5

23-2 P07730023-2 EXTERNAL JAW SET

23-3 P07730023-3 LATHE CHUCK KEY

DEAD CENTER MT#5

24-1 P07730025

26 P07730026

P07730024

DRILL CHUCK B-16 1-13MM

BOTTLE FOR OIL

DRILL CHUCK KEY 5/16" AH 11T SD-5/8

CAMLOCK STUD D1-5

SPANNER WRENCH 45-52MM HOOK-TYPE

SPANNER WRENCH 63MM PIN-TYPE

Please Note: We do our best to stock replacement parts whenever possible, but we cannot guarantee that all parts shown here

are available for purchase. Call (800) 523-4777 or visit our online parts store at www.grizzly.com to check for availability.

-78-

Model G0773 (Mfd. Since 12/14)

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Lathe Bed

101

122

119

122

125

119

122

124

125

102

103

104

106

120

121

119

108

107

109

108

110

111

117

113

124

105

116

115

114

113

112

118

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

101

102

103

104

105

106

107

108

109

110

111

112

P07730101

P07730102

P07730103

P07730104

P07730105

P07730106

P07730107

P07730108

P07730109

P07730110

P07730111

P07730112

SPLASH GUARD

113

114

115

116

117

118

119

120

121

122

124

125

P07730113

FLAT WASHER 10MM

DOWEL PIN 8 X 30

BALL OILER 6MM PRESS-IN

CAP SCREW M8-1.25 X 45

HEX NUT M10-1.25 THIN

KEY 4 X 4 X 28

CAP SCREW M8-1.25 X 12

FLAT WASHER 8MM

LATHE BED

P07730114

P07730115

P07730116

P07730117

P07730118

P07730119

P07730120

P07730121

P07730122

P07730124

P07730125

LEADSCREW SHIELD

LEADSCREW

HEX NUT M12-1.5 THIN

FLAT WASHER 12MM

LEADSCREW BRACKET

PROTECTIVE SUPPORT

CAP SCREW M4-.7 X 8

FEED ROD

CAP SCREW M6-1 X 12

DOWEL PIN 8 X 16

BED RACK

FLAT WASHER 6MM

LOCK WASHER 6MM

HEX NUT M6-1

-79-

Model G0773 (Mfd. Since 12/14)

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Headstock

203

204

202

205

201

207

206

229

228 227

220

219

209

221

208

226

225

224

223

222

230

231

216 217

218

204

233

215

242

226

279

237

238

278

204

209

240

226

280

299

298

249

243

297

296

248

236

295

265

230

245

247

229

228

227

294

226

293

292

291

290

289

288

245

287

286

285

284

282

283

281

251

-80-

Model G0773 (Mfd. Since 12/14)

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Headstock Parts List

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

201 P07730201 HEADSTOCK COVER

242 P07730242 ROTARY SWITCH KEDU ZH-HC-2 1/0/2

243 P07730243 TERMINAL BLOCK 12P

245 P07730245 CAP SCREW M10-1.5 X 35

247 P07730247 HEADSTOCK SWITCH PANEL

248 P07730248 SWITCH PANEL FACEPLATE

249 P07730249 TAP SCREW M4 X 16

251 P07730251 FLAT HD SCR M5-.8 X 20

265 P07730265 PHLP HD SCR M2.5-.45 X 14

278 P07730278 ON/OFF SWITCH MOUNTING PLATE

279 P07730279 ON/OFF SWITCH KEDU KJD17B 120V

280 P07730280 FLAT HD SCR M4-.7 X 12

281 P07730281 SPINDLE LOCK NUT

282 P07730282 SPINDLE PULLEY

202 P07730202 CAP SCREW M5-.8 X 12

203 P07730203 FLAT HD SCR M5-.8 X 30

204 P07730204 FLAT WASHER 4MM

205 P07730205 FLAT HD SCR M4-.7 X 8

206 P07730206 LATHE CHUCK GUARD

207 P07730207 LATHE CHUCK GUARD WINDOW

208 P07730208 CAP SCREW M4-.7 X 16

209 P07730209 HEX NUT M4-.7

215 P07730215 HEX NUT M5-.8

216 P07730216 COMPRESSION SPRING

217 P07730217 CAP SCREW M5-.8 X 50

218 P07730218 LATHE CHUCK GUARD MOUNTING BRACKET

219 P07730219 LATHE CHUCK GUARD HARD STOP

220 P07730220 LATHE CHUCK GUARD SHIM

221 P07730221 LATHE CHUCK GUARD BRACE

222 P07730222 EXT TOOTH WASHER 4MM

223 P07730223 FLAT WASHER 4MM

283 P07730283 SPINDLE SPACER

284 P07730284 SPINDLE GEAR

285 P07730285 SPINDLE SPACER

286 P07730286 OIL SEAL

287 P07730287 BALL BEARING 6010ZZ

288 P07730288 INT RETAINING RING 80MM

289 P07730289 OIL SEAL

224 P07730224 LOCK WASHER 4MM

225 P07730225 GROUND LUG

226 P07730226 PHLP HD SCR M4-.7 X 12

227 P07730227 PIN SHAFT

290 P07730290 TAPERED ROLLER BEARING 32011

291 P07730291 OIL SEAL

228 P07730228 EXT RETAINING RING 8MM

229 P07730229 CAP SCREW M4-.7 X 30

230 P07730230 LIMIT SWITCH KEDU QKS7 AC15 250V

231 P07730231 CAP SCREW M4-.7 X 20

233 P07730233 MICRO SWITCH MOUNTING PLATE

236 P07730236 HEADSTOCK CASTING

237 P07730237 FLAT HD CAP SCR M5-.8 X 12

238 P07730238 ROTARY SWITCH KEDU ZH-B FOR/OFF/REV

240 P07730240 POWER INDICATOR LIGHT ZD10

292 P07730292 KEY 6 X 6 X 12

293 P07730293 KEY 6 X 6 X 8

294 P07730294 SPINDLE

295 P07730295 SPINDLE CAM

296 P07730296 REGISTER PIN

297 P07730297 COMPRESSION SPRING

298 P07730298 LOCK WASHER 8MM

299 P07730299 CAP SCREW M8-1.25 X 14

-81-

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Tailstock

301

304

303

306

305

310

344

343

332

311

341

310

333

334

336

342

338

346

337

309

326

317

318

325

321

339

319

320

340

345

325

323

REF PART #

301 P07730301 QUILL LOCK HANDLE M8-1.25 X 10

303 P07730303 TAILSTOCK LOCK HANDLE M10-1.5 X 14

DESCRIPTION

REF PART #

DESCRIPTION

326 P07730326 TAILSTOCK T-NUT 30 X 16 X 32 M8-1.25

332 P07730332 ROLL PIN 5 X 26

304 P07730304 TAILSTOCK LOCK HANDLE KNOB M10-1.5

305 P07730305 QUILL LOCK HANDLE BASE M8-1.25 X 30

306 P07730306 TAILSTOCK HANDLE BASE M12-1.75

309 P07730309 T-TAP FLAT KEY 12 X 12 X 7

310 P07730310 BALL OILER 6MM PRESS-IN

333 P07730333 FLAT WASHER 5MM

334 P07730334 TUBULAR CLAMP M8-1.25

336 P07730336 TAILSTOCK QUILL

337 P07730337 TAILSTOCK BODY

338 P07730338 SET SCREW M8-1.25 X 16 DOG-PT

339 P07730339 SQ HD BOLT M12-1.75 X 230

340 P07730340 TAILSTOCK BASE

311 P07730311 FLAT WASHER 12MM

317 P07730317 QUILL HANDWHEEL HANDLE

318 P07730318 SHOULDER SCREW M6-1 X 10, 10 X 45

319 P07730319 HANDWHEEL 100MM DIA DISHED W/HANDLE

320 P07730320 HANDWHEEL CURVED PLATE SPRING

321 P07730321 GRADUATED COLLAR

341 P07730341 THRUST BEARING 51102

342 P07730342 TAILSTOCK END COVER

343 P07730343 CAP SCREW M8-1.25 X 16

344 P07730344 TAILSTOCK LEADSCREW

345 P07730345 CAP SCREW M6-1 X 25

346 P07730346 HARD STOP

323 P07730323 TAILSTOCK CLAMP PLATE

325 P07730325 CAP SCREW M8-1.25 X 35

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Model G0773 (Mfd. Since 12/14)

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Tool Post

411

401

402

403

404

405

427

406

416

408

415

407

414

428

413

412

424

410

430

409

429

426

425

418

419

420

421

423

422

REF PART #

DESCRIPTION

TOOL POST LEVER M10-1.5

REF PART #

DESCRIPTION

401

402

403

404

405

406

407

408

409

410

411

412

413

414

415

P07730401

416

418

419

420

421

422

423

424

425

426

427

428

429

430

P07730416

P07730418

P07730419

P07730420

P07730421

P07730422

P07730423

P07730424

P07730425

P07730426

P07730427

P07730428

P07730429

P07730430

HANDWHEEL HANDLE M6-1 X 8

CAP SCREW M8-1.25 X 16

COMPOUND REST GIB

P07730402

P07730403

P07730404

P07730405

P07730406

P07730407

P07730408

P07730409

P07730410

P07730411

P07730412

P07730413

P07730414

P07730415

TOOL POST LEVER BASE M12-1.75

TOOL POST LEVER SPACER

SQ HD BOLT M8-1.25 X 30

TURRET TOOL HOLDER

SET SCREW M6-1 X 16 DOG-PT

COMPOUND REST BASE

SET SCREW M6-1 X 20 CONE-PT

HEX NUT M6-1 THIN

BALL OILER 6MM PRESS-IN

COMPOUND REST

SET SCREW M6-1 X 10 CONE-PT

LEADSCREW COLLAR 6MM

TOOL POST SHAFT M12-1.75

COMPRESSION SPRING

SET SCREW M4-.7 X 16 LONG DOG-PT

HEX NUT M4-.7 THIN

COMPOUND REST LEADSCREW NUT

COMPOUND REST LEADSCREW

TOOL POST LEVER KNOB M10-1.5

LEADSCREW SUPPORT

CAP SCREW M6-1 X 16

LOCKING PIN

GRADUATED COLLAR

HEX NUT M8-1.25

HANDWHEEL 68MM DIA FLAT W/HANDLE

-83-

Model G0773 (Mfd. Since 12/14)

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Cross Slide

531

530

501

549

503

543

505

504

544

506

510

507

532

519

508

509

507

533

511

512

534

529

513

527

535

527

526

517

537

514

515

518

519

516

536

528

519

517

520

518

537

519

518

522

523

518

539

540

524

538

525

547

548

541

542

543

546

544

545

-84-

Model G0773 (Mfd. Since 12/14)

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Cross Slide Parts List

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

501 P07730501 CAP SCREW M8-1.25 X 20

503 P07730503 T-SLOT NUT 10MM, M8-1.25

504 P07730504 CROSS SLIDE CASTING

505 P07730505 ROLL PIN 3 X 18

527 P07730527 CAP SCREW M8-1.25 X 40

528 P07730528 FLAT WASHER 8MM

529 P07730529 CAP SCREW M8-1.25 X 35

530 P07730530 T-SLOT NUT M8-1.25, ROUNDED

531 P07730531 COMPOUND REST MOUNTING POST

532 P07730532 CROSS SLIDE GIB

506 P07730506 GEAR 22T

507 P07730507 THRUST BEARING 51100

508 P07730508 LEADSCREW HUB

533 P07730533 HEX NUT M5-.8

509 P07730509 CAP SCREW M6-1 X 35

510 P07730510 SET SCREW M8-1.25 X 16 CONE-PT

511 P07730511 GRADUATED COLLAR

512 P07730512 HANDWHEEL CURVED PLATE SPRING

513 P07730513 HANDWHEEL 68MM DIA FLAT W/HANDLE

514 P07730514 HEX NUT M10-1.5

534 P07730534 CAP SCREW M6-1 X 18

535 P07730535 SET SCREW M5-.8 X 30 CONE-PT

536 P07730536 SET SCREW M8-1.25 X 8

537 P07730537 STRAIGHT WAY WIPER COVER

538 P07730538 SADDLE CASTING

539 P07730539 V-WAY WIPER COVER, LONG

540 P07730540 V-WAY WIPER, LONG

515 P07730515 HANDWHEEL HANDLE 50MM

516 P07730516 SHOULDER SCREW M6-1 X 8, 8 X 45

517 P07730517 STRAIGHT WAY WIPER

518 P07730518 PHLP HD SCR M4-.7 X 12

519 P07730519 BALL OILER 6MM PRESS-IN

520 P07730520 V-WAY WIPER COVER

522 P07730522 V-WAY WIPER

541 P07730541 SADDLE GIB

542 P07730542 SADDLE CLAMP SLIDE

543 P07730543 FLAT WASHER 6MM

544 P07730544 CAP SCREW M6-1 X 20

545 P07730545 SET SCREW M4-.7 X 16 LONG DOG-PT

546 P07730546 HEX NUT M4-.7 THIN

523 P07730523 CROSS SLIDE CLAMP, LARGE

524 P07730524 CROSS SLIDE CLAMP, SMALL

525 P07730525 CROSS SLIDE LEADSCREW

526 P07730526 CAP SCREW M8-1.25 X 45

547 P07730547 CROSS SLIDE CLAMP, MEDIUM

548 P07730548 SADDLE LEADSCREW NUT

549 P07730549 COMPOUND REST MOUNTING PLATE

-85-

Model G0773 (Mfd. Since 12/14)

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Apron

601

602

603

604

634

635

636

612

613

605

603

641

610

637

611

604

640

638

608

607

658

659

660

614

641

642

643

661

662

620

615

621

644

663

664

619

618

617

645

641

629

657

656

629

658

666

613

630

631

632

625

626

616

622

646

669

670

647

648

623

671

649

647

651

652

653

654

627

628

672

673

674

667

668

639

606

633

650

624

655

609

-86-

Model G0773 (Mfd. Since 12/14)

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Apron Parts List

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

601 P07730601 CAP SCREW M5-.8 X 35

602 P07730602 HEX NUT M5-.8 THIN

603 P07730603 HALF NUT

638 P07730638 SHAFT

639 P07730639 HANDWHEEL 122MM DIA DISHED

640 P07730640 SET SCREW M6-1 X 6

641 P07730641 SET SCREW M6-1 X 6 CONE-PT

642 P07730642 GEARED SHAFT

604 P07730604 SET SCREW M8-1.25 X 10

605 P07730605 CARRIAGE CLAMP

606 P07730606 FENDER WASHER 6MM

607 P07730607 HEX NUT M5-.8

643 P07730643 GEAR 67T

644 P07730644 CARRIAGE SUPPORT, LEFT

645 P07730645 SET SCREW M6-1 X 8 CONE-PT

646 P07730646 CARRIAGE CASTING

647 P07730647 EXT RETAINING RING 14MM

648 P07730648 GEAR 60T

608 P07730608 CAP SCREW M5-.8 X 16

609 P07730609 ACORN NUT M6-1

610 P07730610 RETAINING COLLAR

611 P07730611 WORM GEAR

612 P07730612 CARRIAGE SUPPORT, RIGHT

613 P07730613 CAP SCREW M5-.8 X 10

614 P07730614 SET SCREW M6-1 X 12 DOG-PT

615 P07730615 SET SCREW M6-1 X 8

616 P07730616 ROCKER ARM

649 P07730649 KEY 5 X 5 X 16

650 P07730650 HANDWHEEL HANDLE 75MM

651 P07730651 KEY 4 X 4 X 16

652 P07730652 HANDWHEEL SHAFT

653 P07730653 GRADUATED COLLAR

654 P07730654 HANDWHEEL CURVED PLATE SPRING

655 P07730655 SHOULDER SCREW M8-1.25 X 10, 9 X 70

656 P07730656 SET SCREW M6-1 X 12

657 P07730657 COMPRESSION SPRING

658 P07730658 PHLP HD SCR M4-.7 X 8

659 P07730659 FLAT WASHER 4MM

660 P07730660 DIAL PIN

617 P07730617 ROCKER SHAFT

618 P07730618 EXT RETAINING RING 35MM

619 P07730619 FEED SELECTOR CAM SHAFT

620 P07730620 FEED SELECTOR SHAFT MOUNT

621 P07730621 CAP SCREW M6-1 X 30

622 P07730622 EXT RETAINING RING 15MM

623 P07730623 BUSHING

624 P07730624 GEARED SHAFT

661 P07730661 THREAD DIAL

625 P07730625 DOWEL PIN 5 X 12

626 P07730626 DOWEL PIN 5 X 16

627 P07730627 HALF NUT CAM

662 P07730662 COMPRESSION SPRING

663 P07730663 E-CLIP 9MM

664 P07730664 THREAD DIAL SHAFT

666 P07730666 THREAD DIAL GUARD

667 P07730667 CAP SCREW M5-.8 X 45

668 P07730668 FLAT WASHER 5MM

669 P07730669 THREAD DIAL CASTING

670 P07730670 KEY 4 X 4 X 8

628 P07730628 HALF NUT LEVER M8-1.25 X 8

629 P07730629 STEEL BALL 6MM

630 P07730630 COMPRESSION SPRING

631 P07730631 FEED CONTROL SHAFT M12-1.75 X 18

632 P07730632 COMPRESSION SPRING

633 P07730633 FEED CONTROL SHAFT KNOB M12-1.75

634 P07730634 CAP SCREW M6-1 X 16

635 P07730635 GEAR 81T

671 P07730671 GEAR 28T

672 P07730672 LOCK WASHER 4MM

673 P07730673 FENDER WASHER 4MM

674 P07730674 PHLP HD SCR M4-.7 X 10

636 P07730636 FLAT WASHER 6MM

637 P07730637 GEAR 22T

-87-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Gearbox

714

715

712

711

716

710

709

711

708

707

733

731

732

705

706

720

734

729

701

728

741

703

702

701

726

727

728

723

724

722

721

770

719

760

761

755

717

759

740

738

758

739

735

757

752

701

756

751

750

754

730

748

741

742

741

736

749

741

768

735

765

746

743

745

744

767

773

701

766

761

725

764

768

718

762

753

763

769

770

704

771

747

737

762

772

-88-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Gearbox Parts List

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

701

702

703

704

705

706

707

708

709

710

711

712

714

715

716

717

718

719

720

721

722

723

724

725

726

727

728

729

730

731

732

733

734

735

736

737

P07730701 CAP SCREW M5-.8 X 12

P07730702 OIL SEAL 22 X 35 X 7

P07730703 GASKET HOUSING

P07730704 INDICATOR PLATE

P07730705 KEY 4 X 4 X 16

P07730706 SHAFT

738

739

740

741

742

743

744

745

746

747

748

749

750

751

752

753

754

755

756

757

758

759

760

761

762

763

764

765

766

767

768

769

770

771

772

773

P07730738 COMBO GEAR 13T/40T

P07730739 O-RING 12.5 X 1.8

P07730740 SHAFT

P07730741 SET SCREW M5-.8 X 8 CONE-PT

P07730742 SIGHT GLASS M16-2 X 1.5

P07730743 SHAFT END CAP

P07730744 SPACER, SMALL

P07730707 KEY 5 X 5 X 80

P07730708 SPACER

P07730745 COMBO GEAR 24T/16T/38T/35T/24T

P07730746 SHAFT

P07730709 GEAR 30T

P07730710 GEAR 28T

P07730747 STEEL BALL 5MM

P07730748 COMBO GEAR 24T/16T/38T

P07730749 GEAR 42T

P07730711 SPACER

P07730712 GEAR 25T

P07730714 GEAR 24T

P07730750 SPACER, LARGE

P07730751 OIL SEAL 25 X 32 X 4

P07730752 GASKET HOUSING

P07730753 SELECTOR KNOB

P07730754 CLUTCH COUPLER

P07730755 O-RING 15 X 1.8

P07730715 GEAR 28T

P07730716 EXT RETAINING RING 16MM

P07730717 GEARBOX CASTING

P07730718 KEY 5 X 5 X 12

P07730719 SPACER

P07730720 SHAFT

P07730756 CLUTCH, DRIVE SIDE

P07730757 CLUTCH, FOLLOW SIDE

P07730758 CLUTCH HOUSING

P07730759 COMPRESSION SPRING

P07730760 FEED ROD COUPLING

P07730761 O-RING 8.75 X 1

P07730721 KEY 5 X 5 X 60

P07730722 GEAR 30T

P07730723 SPACER

P07730724 GEAR 19T

P07730725 SELECTOR KNOB SHAFT

P07730726 GEAR 40T

P07730762 SET SCREW M6-1 X 12 CONE-PT

P07730763 RETAINING PIN

P07730727 GEAR 14T

P07730728 O-RING 30 X 2.65

P07730729 SHAFT HUB

P07730764 CAP SCREW M8-1.25 X 80

P07730765 KEY 5 X 5 X 50

P07730730 EXT RETAINING RING 10MM

P07730731 OIL SEAL 18 X 30 X 7

P07730732 LEADSCREW SUPPORT

P07730733 CAP SCREW M4-.7 X 8

P07730734 CONNECTING COLLAR

P07730735 OIL PLUG M16-2 X 1.5

P07730736 O-RING 16 X 2.65

P07730737 COMPRESSION SPRING 0.7 X 4 X 25

P07730766 KEY 5 X 5 X 32

P07730767 ROLL PIN 4 X 24

P07730768 FLT HD SCR M3-.5 X 6

P07730769 DRIVING LEVER

P07730770 ROLL PIN 4 X 18

P07730771 GEARBOX COVER

P07730772 CAP SCREW M5-.8 X 30

P07730773 GEARBOX FACEPLATE

-89-

Model G0773 (Mfd. Since 12/14)

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Change Gears

801

802

803

811

804

854

813

812

856

807

808

810

805

845

851

859

806

808

807

846

825

810

845

851

856

824

820

819

855

818

816

832

834

823

831

821

827

833

835

829

828

826

830

817

849

851

845

836

811

837

848

850

847

812

843

844

853

840

841

857

841

838

839

842

-90-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Change Gears Parts List

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

801 P07730801 PHLP HD SCR M4-.7 X 10

802 P07730802 FLAT WASHER 4MM

803 P07730803 HEX NUT M4-.7

832 P07730832 GEAR 91T

833 P07730833 END GEAR SUPPORT SHAFT M30-1.5

834 P07730834 FENDER WASHER 10MM

835 P07730835 SQUARE NUT M10-1.5

836 P07730836 BALL OILER 6MM PRESS-IN

837 P07730837 COMPRESSION SPRING

838 P07730838 E-CLIP 12MM

804 P07730804 CHANGE GEAR ENCLOSURE HINGE

805 P07730805 CHANGE GEAR ENCLOSURE MOUNT

806 P07730806 GREASE FITTING 1/8PT 65-DEG

807 P07730807 SHAFT

808 P07730808 BUSHING

839 P07730839 HEX NUT M12-1.75 THIN

840 P07730840 LOCKING PIN

810 P07730810 SPACER

811 P07730811 CAP SCREW M8-1.25 X 25

812 P07730812 FLAT WASHER 8MM

813 P07730813 SET SCREW M5-.8 X 10 CONE-PT

816 P07730816 PHLP HD SCR M5-.8 X 10

817 P07730817 ACCESS PORT COVER

818 P07730818 CAP SCREW M6-1 X 14

819 P07730819 FENDER WASHER 6MM

820 P07730820 KEY 4 X 4 X 22

841 P07730841 FLAT WASHER 12MM

842 P07730842 BUSHING

843 P07730843 ROLL PIN 3 X 30

844 P07730844 CHANGE GEAR CABINET KNOB

845 P07730845 FLAT WASHER 6MM

846 P07730846 SUPPORT ARM HANDLE M5-.8 X 8

847 P07730847 FENDER WASHER 8MM

848 P07730848 SPACER

821 P07730821 GEAR 30T

849 P07730849 GEAR 90T

823 P07730823 SPACER

850 P07730850 CAP SCREW M12-1.75 X 45

851 P07730851 CAP SCREW M6-1 X 12

853 P07730853 SPACER

824 P07730824 UPPER GEAR SUPPORT SHAFT

825 P07730825 UPPER GEAR AXLE

826 P07730826 HEX NUT M6-1

854 P07730854 UPPER SUPPORT ARM

855 P07730855 GEAR 65T

827 P07730827 HEX BOLT M6-1 X 35

828 P07730828 END GEAR AXLE M10-1.5 X 19

829 P07730829 KEY 8 X 7 X 14

856 P07730856 GEAR 48T

857 P07730857 END GEAR SUPPORT ARM

859 P07730859 CHANGE GEAR CABINET DOOR

830 P07730830 SPANNER NUT M30-1.5

831 P07730831 GEAR 86T

-91-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Motor & Drive

901

914

903

902

915

916

904

917

910

909

920

918

912

911

905

908

906

919

907

913

927

928

926

925

924

940

939

923

922

921

941

927

938

943

931 936

925

944

937

935

929

969

932

933

934

932

970

930

929

950

945

946

945

935-1

935-5

935-9

935-3

935-8

935-4

947

949

948

935-2

935-6

935-7

-92-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Motor & Drive Parts List

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

901

902

903

904

905

906

907

908

909

910

911

912

913

914

915

916

917

918

919

920

921

922

923

924

925

926

927

928

929

930

P07730901

P07730902

P07730903

P07730904

P07730905

P07730906

P07730907

P07730908

P07730909

P07730910

P07730911

P07730912

P07730913

P07730914

P07730915

P07730916

P07730917

P07730918

P07730919

P07730920

P07730921

P07730922

P07730923

P07730924

P07730925

P07730926

P07730927

P07730928

P07730929

P07730930

POWER CORD 16G 3W 72" 5-15P

STRAIN RELIEF M12-1.75 TYPE-3

PHLP HD SCR M4-.7 X 8

MOTOR ENCLOSURE COVER, BACK

CIRCUIT BREAKER CHINT NB1-63 D16 400V

FLAT HD SCR M4-.7 X 8

DIN RAIL

931

932

933

934

935

P07730931

P07730932

P07730933

P07730934

P07730935

TENSIONER PULLEY MANDREL

BALL BEARING 6001-2RS

SPACER

INT RETAINING RING 28MM

MOTOR 1HP 110V 1-PH

935-1 P07730935-1 MOTOR FAN COVER

935-2 P07730935-2 MOTOR FAN

BALL OILER 6MM PRESS-IN

EXT RETAINING RING 13MM

TIMING BELT PULLEY

935-3 P07730935-3 S CAPACITOR 150M 250V 1-5/8 X 3-1/8

935-4 P07730935-4 R CAPACITOR 20M 450V 1-1/2 X 2-3/4

935-5 P07730935-5 MOTOR JUNCTION BOX

935-6 P07730935-6 CONTACT PLATE

TIMING BELT PULLEY SHAFT M12-1.5 X 30

FENDER WASHER 12MM

TIMING BELT 1.5 X 15 X 124

CAP SCREW M5-.8 X 12

MOTOR ENCLOSURE COVER, TOP

FLAT HD SCR M3-.5 X 10

SOCKET IEC 320 C14 110V

HEX NUT M3-.5

935-7 P07730935-7 CENTRIFUGAL SWITCH

935-8 P07730935-8 BALL BEARING 6204-2RS

935-9 P07730935-9 BALL BEARING 6204-2RS

936

937

938

939

940

941

943

944

945

946

947

948

949

950

969

970

P07730936

P07730937

P07730938

P07730939

P07730940

P07730941

P07730943

P07730944

P07730945

P07730946

P07730947

P07730948

P07730949

P07730950

P07730969

P07730970

TENSIONER SUPPORT ARM SHAFT

SPACER

FLAT WASHER 10MM

HEX NUT M10-1.5

MOUNTING BRACKET

FENDER WASHER 12MM

CIRCUIT BREAKER MOUNTING PLATE

CAP SCREW M8-1.25 X 20

FENDER WASHER 8MM

SPACER

CAP SCREW M4-.7 X 8

CAP SCREW M8-1.25 X 25

FLAT WASHER 8MM

TENSIONER SUPPORT ARM

SPACER

MOTOR TIMING BELT PULLEY

CAP SCREW M6-1 X 16

FENDER WASHER 6MM

MOTOR V-BELT PULLEY

KEY 5 X 5 X 50

CAP SCREW M10-1.5 X 40

TIMING BELT SUPPORT ARM

SPACER

HEX NUT M12-1.75 THIN

EXT RETAINING RING 12MM

TENSIONER PULLEY

MOTOR ENCLOSURE

V-BELT 10X838

-93-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Mill

1094

1095

1093

1091

1010

1160

1092

1090

1081

1096

1097

1098

1100

1010

1082

1083

1101

1105

1102

1099

1107

1145

1150

1015

1140

1088

1089

1157

1108

1014

1104

1185

1151

1148

1149

1018

1147

1146

1106

1015

1130

1114

1145-1

1115

1123

1103

1083

1156

1164

1165

1117

1129

1130

1133

1116

1118

1166

1167

1168

1169

1170

1120

1119

1121

1149

1082

1136

1009

1177

1113

1131

1132

1134

1135

1178

1179

1081

1126

1127

1171

1124

1125

1122

1180

1138

1172

1085

1182

1183

1181

1137

1084

1128

1162

1174

1175

1143

1080

1075

1052

1004

1065

1176

1141

1176

1158

1173

1064

1063

1062

1057

1158

1142-1

1053

1054

1142

1051

1066

1056

1046

1050

1071

1061

1159

1184

1058

1028

1058

1055

1060

1078

1077

1073

1078

1059

1028

1046

1048

1028

1031

1045

1044

1043

1072

1184

1076

1067

1070

1049

1079

1039

1014

1074

1068

1069

1047

1042

1041

1040

1018

1153

1154

1045

1044

1043

1155

1152

-94-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Mill Parts List

REF PART #

DESCRIPTION

REF PART #

DESCRIPTION

1004 P07731004 FLAT WASHER 8MM

1009 P07731009 HANDWHEEL CURVED PLATE SPRING

1010 P07731010 CAP SCREW M6-1 X 12

1014 P07731014 SET SCREW M6-1 X 20 DOG-PT

1015 P07731015 HEX NUT M6-1 THIN

1018 P07731018 LOCKING HANDLE

1028 P07731028 RIVET 2 X 3 FLUTED

1031 P07731031 POSITION MARKER

1039 P07731039 MILL TILT CLAMP

1040 P07731040 KEY 8 X 8 X 12

1084 P07731084 SPINDLE R-8

1085 P07731085 KEY 6 X 6 X 18

1088 P07731088 MILL SWITCH BOX

1089 P07731089 PHLP HD SCR M5-.8 X 8

1090 P07731090 SPINDLE PULLEY

1091 P07731091 RETAINING COLLAR

1092 P07731092 SPANNER NUT

1093 P07731093 DRAWBAR 7/16-20 X 6-3/4

1094 P07731094 DRAWBAR CAP

1095 P07731095 MOTOR BLDC 230V W80-500WC

1096 P07731096 KEY 5 X 5 X 20

1041 P07731041 TILT SHAFT M24-3.0

1042 P07731042 MILL MOUNTING BRACKET

1043 P07731043 FLAT WASHER 10MM

1044 P07731044 LOCK WASHER 10MM

1045 P07731045 CAP SCREW M10-1.5 X 30

1046 P07731046 CAP SCREW M6-1 X 16

1047 P07731047 TILT HUB

1097 P07731097 MOTOR PULLEY

1098 P07731098 FENDER WASHER 6MM

1099 P07731099 TIMING BELT HTD 350-SM

1100 P07731100 FLAT HD SCR M6-1 X 18

1101 P07731101 MOTOR MOUNTING PLATE

1102 P07731102 GEARBOX

1048 P07731048 GRADUATED PLATE

1049 P07731049 FLAT HD SCR M6-1 X 12

1050 P07731050 COLUMN RACK

1103 P07731103 SPINDLE BOX

1104 P07731104 SET SCREW M6-1 X 25 CONE-PT

1105 P07731105 GROUND INDICATOR PLATE

1106 P07731106 MILL BODY

1051 P07731051 HARD STOP

1052 P07731052 FLAT HD SCR M3-.5 X 8

1053 P07731053 COLUMN RACK BRACKET

1054 P07731054 GRADUATED DEPTH GAUGE

1055 P07731055 SHAFT

1107 P07731107 MILL GIB

1108 P07731108 CAP SCREW M8-1.25 X 80

1113 P07731113 WORM GEAR

1114 P07731114 KEY 4 X 4 X 20

1056 P07731056 KEY 4 X 4 X 8

1115 P07731115 GEARED SHAFT 14T

1116 P07731116 GEAR 29T

1057 P07731057 TORSION SPRING

1058 P07731058 SPACER

1117 P07731117 WORM SUPPORT

1059 P07731059 SPRING HOUSING

1060 P07731060 FLAT HD SCR M5-.8 X 8

1061 P07731061 SPRING SHROUD

1062 P07731062 SUPPORT BRACE

1063 P07731063 FLAT WASHER 12MM

1064 P07731064 END CAP

1118 P07731118 DOWEL PIN 4 X 16

1119 P07731119 COMPRESSION SPRING

1120 P07731120 SET SCREW M6-1 X 8

1121 P07731121 STEEL BALL 5MM

1122 P07731122 HANDLE LEVER M8-1.25 X 10

1123 P07731123 HANDLE KNOB M8-1.25

1124 P07731124 EXT RETAINING RING 12MM

1125 P07731125 DOWN-FEED HANDLE HUB M8-1.25

1126 P07731126 CAP SCREW M5-.8 X 20

1127 P07731127 FINE DOWN-FEED CONTROL COVER

1128 P07731128 PHLP HD SCR M4-.7 X 6

1129 P07731129 FINE DOWN-FEED LINKAGE (WORMGEAR)

1130 P07731130 TAPER PIN 3 X 12

1065 P07731065 ACORN NUT M8-1.25

1066 P07731066 SHOULDER SCREW M8-1.25 X 12, 10 X 12

1067 P07731067 HEX NUT M24-3

1068 P07731068 DEPTH STOP

1069 P07731069 DEPTH STOP GIB

1070 P07731070 COLUMN TILT WASHER 24MM

1071 P07731071 STANDOFF M10-1.5 X 8

1072 P07731072 SET SCREW M5-.8 X 6 CONE-PT

1073 P07731073 RETAINING COLLAR

1074 P07731074 MILL COLUMN

1131 P07731131 DOWEL PIN 3 X 12

1132 P07731132 FINE DOWN-FEED LINKAGE (MIDDLE)

1133 P07731133 FINE DOWN FEED LINKAGE (KNOB)

1134 P07731134 CAP SCREW M5-.8 X 25

1135 P07731135 FINE DOWN-FEED CONTROL BRACKET

1136 P07731136 GRADUATED COLLAR

1137 P07731137 SET SCREW M4-.7 X 12 DOG-PT

1138 P07731138 FINE DOWN-FEED KNOB

1140 P07731140 CAP SCREW M6-1 X 35

1141 P07731141 TAP SCREW M4 X 10

1142 P07731142 MILL CIRCUIT BOARD ZM3405

1075 P07731075 COLUMN CAP

1076 P07731076 POWER CORD 18G 3W 72"

1077 P07731077 MILL ELECTRICAL BOX

1078 P07731078 PHLP HD SCR M4-.7 X 8

1079 P07731079 PLUG IEC 320 C14

1080 P07731080 ARBOR R-8 X B-16

1081 P07731081 CAP SCREW M5-.8 X 10

1082 P07731082 BEARING RETAINER

1083 P07731083 BALL BEARING 6206ZZ

-95-

Model G0773 (Mfd. Since 12/14)

Download from Www.Somanuals.com. All Manuals Search And Download.

Mill Parts Cont.

REF

PART #

DESCRIPTION

REF PART #

DESCRIPTION

1142-1 P07731142-1 MILL CIRCUIT BOARD XMT-COM

1165 P07731165 CAP SCREW M4-.7 X 20

1166 P07731166 HEX NUT M6-1

1143

1145

P07731143

P07731145

ELECTRICAL BOX COVER

VARIABLE-SPEED CIRCUIT BOARD X-1

1167 P07731167 FLAT WASHER 6MM

1168 P07731168 LIMIT SWITCH MOUNTING PLATE

1169 P07731169 CAP SCREW M4-.7 X 12

1170 P07731170 MILL SAFETY SHIELD CAM

1171 P07731171 SET SCREW M4-.7 X 6

1172 P07731172 SAFETY SHIELD MOUNT

1173 P07731173 FLAT WASHER 5MM

1174 P07731174 THUMB SCREW M5-.8 X 20

1175 P07731175 MILL SAFETY SHIELD

1176 P07731176 MILL SAFETY SHIELD EXTENSION

1177 P07731177 BRACKET

1145-1 P07731145-1 VARIABLE-SPEED DIAL

1146

1147

1148

1149

1150

1151

1152

1153

1154

1155

1156

1157

1158

1159

1160

1162

1164

P07731146

P07731147

P07731148

P07731149

P07731150

P07731151

P07731152

P07731153

P07731154

P07731155

P07731156

P07731157

P07731158

P07731159

P07731160

P07731162

P07731164

POWER INDICATOR LIGHT

FAULT INDICATOR LIGHT

SWITCH BOX COVER

TAP SCREW M6 X 10

POWER SWITCH KEDU KJD17B 120V

FUSE ENCLOSURE

MILL MOUNTING BRACKET

CONNECTING ROD M14-2 X 20

HEX NUT M14-2

ADJUSTABLE FOOT M14-2

SWITCHBOX FACEPLATE

FLAT HD SCR M4-.7 X 16

STRAIN RELIEF TYPE-5

CONDUIT

1178 P07731178 LIMIT SWITCH KEDU QKS7 AC15 250V

1179 P07731179 CAP SCREW M4-.7 X 30

1180 P07731180 FLAT HD SCR M4-.7 X 10

1181 P07731181 MAGNET

1182 P07731182 SAFETY WINDOW LATCH

1183 P07731183 CAP SCREW M4-.7 X 16

1184 P07731184 STRAIN RELIEF M12-1.75 TYPE-3

1185 P07731185 DRO CONNECTOR

SET SCREW M6-1 X 8 CONE-PT

COLUMN COVER

SAFETY SHIELD MOUNTING BRACKET

-96-

Model G0773 (Mfd. Since 12/14)

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Labels & Cosmetics

1204

1203

1202

1205

1206

1201

1209

1207

1208

REF

PART #

DESCRIPTION

REF

PART #

DESCRIPTION

1201

1202

1203

1204

1205

P07731201

P07731202

P07731203

P07731204

P07731205

PINCH/ENTANGLEMENT LABEL

ELECTRICITY LABEL

1206

1207

1208

1209

P07731206

P07731207

P07731208

P07731209

ENTANGLEMENT HAZARD LABEL

SPINDLE SPEED WARNING LABEL

MACHINE ID LABEL

DISCONNECT 110V LABEL

READ MANUAL LABEL

GRIZZLY GREEN TOUCH-UP PAINT

FACE SHIELD & SAFETY GLASSES LABEL

Safety labels help reduce the risk of serious injury caused by machine hazards. If any label comes

off or becomes unreadable, the owner of this machine MUST replace it in the original location

before resuming operations. For replacements, contact (800) 523-4777 or www.grizzly.com.

-97-

Model G0773 (Mfd. Since 12/14)

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SECTION 11: APPENDIX

Threading & Feeding

Chart

Thread Dial Chart

-98-

Model G0773 (Mfd. Since 12/14)

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WARRANTY CARD

Name_____________________________________________________________________________

Street_____________________________________________________________________________

City _______________________ State_________________________ Zip _____________________

Phone #____________________ Email _________________________________________________

Model # ____________________ Order #_______________________ Serial #__________________

The following information is given on a voluntary basis. It will be used for marketing purposes to help us develop

better products and services. Of course, all information is strictly confidential.

1. How did you learn about us?

____ Advertisement

____ Card Deck

____ Friend

____ Website

____ Catalog

____ Other:

2. Which of the following magazines do you subscribe to?

____ Cabinetmaker & FDM

____ Family Handyman

____ Hand Loader

____ Popular Science

____ Popular Woodworking

____ Precision Shooter

____ Projects in Metal

____ RC Modeler

____ Riﬂe

____ Shop Notes

____ Wooden Boat

____ Woodshop News

____ Woodsmith

____ Handy

____ Woodwork

____ Home Shop Machinist

____ Journal of Light Cont.

____ Live Steam

____ Woodworker West

____ Woodworker’s Journal

____ Other:

____ Model Airplane News

____ Old House Journal

____ Popular Mechanics

____ Shotgun News

____ Today’s Homeowner

____ Wood

3. What is your annual household income?

____ $20,000-$29,000

____ $30,000-$39,000

____ $40,000-$49,000

____ $70,000+

____ $50,000-$59,000

____ $60,000-$69,000

4. What is your age group?

____ 20-29

____ 30-39

____ 60-69

____ 40-49

____ 70+

____ 50-59

5. How long have you been a woodworker/metalworker?

____ 0-2 Years ____ 2-8 Years

____ 8-20 Years

____20+ Years

____10+

6. How many of your machines or tools are Grizzly?

____ 0-2 ____ 3-5

____ 6-9

7. Do you think your machine represents a good value?

8. Would you recommend Grizzly Industrial to a friend?

_____Yes

_____No

9. Would you allow us to use your name as a reference for Grizzly customers in your area?

Note: We never use names more than 3 times. _____Yes _____No

10. Comments:_____________________________________________________________________

_________________________________________________________________________________

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FOLD ALONG DOTTED LINE

Place

Stamp

Here

GRIZZLY INDUSTRIAL, INC.

P.O. BOX 2069

BELLINGHAM, WA 98227-2069

FOLD ALONG DOTTED LINE

Send a Grizzly Catalog to a friend:

Name_______________________________

Street_______________________________

City______________State______Zip______

TAPE ALONG EDGES--PLEASE DO NOT STAPLE

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WARRANTY & RETURNS

Grizzly Industrial, Inc. warrants every product it sells for a period of 1 year to the original purchaser from

the date of purchase. This warranty does not apply to defects due directly or indirectly to misuse, abuse,

negligence, accidents, repairs or alterations or lack of maintenance. This is Grizzly’s sole written warranty

and any and all warranties that may be implied by law, including any merchantability or fitness, for any par-

ticular purpose, are hereby limited to the duration of this written warranty. We do not warrant or represent

that the merchandise complies with the provisions of any law or acts unless the manufacturer so warrants.

In no event shall Grizzly’s liability under this warranty exceed the purchase price paid for the product and

any legal actions brought against Grizzly shall be tried in the State of Washington, County of Whatcom.

We shall in no event be liable for death, injuries to persons or property or for incidental, contingent, special,

or consequential damages arising from the use of our products.

To take advantage of this warranty, contact us by mail or phone and give us all the details. We will then issue

you a “Return Number,’’ which must be clearly posted on the outside as well as the inside of the carton. We

will not accept any item back without this number. Proof of purchase must accompany the merchandise.

The manufacturers reserve the right to change specifications at any time because they constantly strive to

achieve better quality equipment. We make every effort to ensure that our products meet high quality and

durability standards and we hope you never need to use this warranty.

Please feel free to write or call us if you have any questions about the machine or the manual.

Thank you again for your business and continued support. We hope to serve you again soon.

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