Sterling Home Theater Server 8820072200 User Manual

GH-M Rate Monitor  
Allen-Bradley Controller  
Part Number: 882.00722.00  
Bulletin Number: BF2-610  
Effective: 2/08/2007  
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Shipping Info  
Unpacking and Inspection  
You should inspect your equipment for possible shipping damage.  
Thoroughly check the equipment for any damage that might have occurred in transit, such as  
broken or loose wiring and components, loose hardware and mounting screws, etc.  
In the Event of Shipping Damage  
According to the contract terms and conditions of the Carrier, the responsibility of the  
Shipper ends at the time and place of shipment.  
Notify the transportation company’s local agent if you discover damage.  
Hold the damaged goods and packing material for the examining agent’s inspection. Do not  
return any goods before the transportation company’s inspection and authorization.  
File a claim with the transportation company. Substantiate the claim by referring to the  
agent’s report. A certified copy of our invoice is available upon request. The original Bill of  
Lading is attached to our original invoice. If the shipment was prepaid, write us for a  
receipted transportation bill.  
Advise customer service regarding your wish for assistance and to obtain an RMA (return  
material authorization) number.  
If the Shipment is Not Complete  
Check the packing list as back-ordered items are noted on the packing list. You should have:  
; GH Frame  
; Display Enclosure w/ connecting cable (cable in PLC enclosure on frame)  
; Calibration Weight  
; Weigh Hopper (May be mounted on the frame)  
; Bill of lading  
; Packing list  
; Operating and Installation packet  
; Electrical schematic and panel layout drawings  
; Component instruction manuals (if applicable)  
Re-inspect the container and packing material to see if you missed any smaller items during  
unpacking.  
If the Shipment is Not Correct  
If the shipment is not what you ordered, contact parts and service department  
immediately at (810) 720-7300. Have the order number and item number available.  
Hold the items until you receive shipping instructions.  
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Returns  
Do not return any damaged or incorrect items until you receive shipping instructions from the  
shipping department.  
Credit Returns  
Prior to the return of any material, the manufacturer must give authorization. A RMA  
number will be assigned for the equipment to be returned.  
Reason for requesting the return must be given.  
ALL returned material purchased from the manufacturer returned is subject to 15% ($75.00  
minimum) restocking charge.  
ALL returns are to be shipped prepaid.  
The invoice number and date or purchase order number and date must be supplied.  
No credit will be issued for material that is not within the manufacturer’s warranty period  
and/or in new and unused condition, suitable for resale.  
Warranty Returns  
Prior to the return of any material, the manufacturer must give authorization. A RMA  
number will be assigned for the equipment to be returned.  
Reason for requesting the return must be given.  
All returns are to be shipped prepaid.  
The invoice number and date or purchase order number and date must be supplied.  
After inspecting the material, a replacement or credit will be given at the manufacturer’s  
discretion. If the item is found to be defective in materials or workmanship, and it was  
manufactured by our company, purchased components are covered under their specific  
warranty terms.  
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Table of Contents  
CHAPTER 1: SAFETY................................................................7  
1-1  
How to Use This Manual .............................................................................................7  
Safety Symbols Used in this Manual.....................................................................7  
Warnings and Precautions ..........................................................................................9  
Responsibility ............................................................................................................10  
General Responsibility ........................................................................................10  
Operator Responsibility.......................................................................................10  
Maintenance Responsibility.................................................................................12  
Reporting a Safety Defect ...................................................................................12  
1-2  
1-3  
CHAPTER 2: FUNCTIONAL DESCRIPTION...........................13  
2-1  
2-2  
Models Covered in This Manual................................................................................13  
General Description...................................................................................................13  
Accessories.........................................................................................................13  
Customer Service................................................................................................14  
Typical Features and Components ...........................................................................15  
Mechanical Features...........................................................................................15  
Controller Features..............................................................................................15  
System Component Description..........................................................................16  
Extruder Inductive Proximity Switch ..................................................................16  
Surge Hopper.......................................................................................................16  
Weigh Hopper......................................................................................................17  
Operator Control Panel Display (optional on GH-M units, 1 required per facility  
2-3  
for setup and Maintenance)..................................................................................17  
Optional Components................................................................................................22  
Ethernet Module..................................................................................................22  
Pneumatic Slide Gate below surge hopper .........................................................23  
Low Level Proximity Sensors ..............................................................................23  
Safety Features.........................................................................................................23  
2-4  
2-5  
CHAPTER 3: INSTALLATION..................................................24  
3-1  
3-2  
Uncrating the Equipment...........................................................................................24  
Mechanical Installation..............................................................................................24  
Site Requirements...............................................................................................24  
Mounting Configurations .....................................................................................24  
Machine Mount....................................................................................................25  
Electrical Connections...............................................................................................25  
Pneumatic Connections ............................................................................................26  
Initial Set-up ..............................................................................................................27  
Mechanical Set-up...............................................................................................27  
Weigh Hopper Installation...................................................................................27  
Extruder RPM connection ...................................................................................27  
Final Connections ................................................................................................28  
Controller Set-up .................................................................................................29  
GH Controller Menu Structure ............................................................................30  
GH Calibration.....................................................................................................30  
3-3  
3-4  
3-5  
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GH Calibration.....................................................................................................31  
WTP/RPM Calibration Page................................................................................33  
This page is used to monitor the lbs/hr per RPM analyzer and is used as a tool for  
tuning the WTP Algorithm Options mentioned later in this book.......................33  
Hopper Size Setup ...............................................................................................33  
Extruder Setup .....................................................................................................34  
Hauloff Setup and Encoder Calibration Page (GH Full Control ONLY)............34  
Alarm Setup.........................................................................................................35  
Network Setup .....................................................................................................35  
Setting Date and Time .........................................................................................36  
CHAPTER 4: OPERATION.......................................................37  
4-1  
4-2  
4-3  
4-4  
GH-M Operation Procedures.....................................................................................37  
Operator Displays................................................................................................37  
GH Full Control Operation Procedures .....................................................................38  
Operator Displays................................................................................................38  
GH-F Gravimetric Feeder Operation Procedures......................................................39  
Operator Displays................................................................................................39  
Common Screens......................................................................................................40  
Alarm Flags .........................................................................................................41  
CHAPTER 5: MAINTENANCE .................................................42  
5-1  
5-2  
5-3  
Preventative Maintenance Schedule.........................................................................42  
Preventative Maintenance.........................................................................................43  
Corrective Maintenance ............................................................................................43  
CHAPTER 6: TROUBLESHOOTING .......................................45  
6-1  
Introduction................................................................................................................45  
CHAPTER 7: APPENDIX..........................................................47  
7-1  
Warranty and Spare Parts.........................................................................................47  
Warranty Specifications.......................................................................................47  
Warranty Restrictions..........................................................................................47  
Warranty Liabilities..............................................................................................47  
Customer Responsibilities...................................................................................48  
Annex B Information............................................................................................48  
Addendum (Service Supervisor Information) ............................................................50  
Programmable Settings.......................................................................................50  
Customer Setup Menu ........................................................................................55  
Allen-Bradley Communications Manual ....................................................................56  
Parts Department ................................................................................................60  
Service Department.............................................................................................60  
Sales Department................................................................................................60  
Contract Department...........................................................................................60  
7-2  
7-3  
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Chapter 1: Safety  
1-1 How to Use This Manual  
Use this manual as a guide and reference for installing, operating, and maintaining your rate  
monitor. The purpose is to assist you in applying efficient, proven techniques that enhance  
equipment productivity.  
This manual covers only light corrective maintenance. No other maintenance should be  
undertaken without first contacting a service engineer.  
The Functional Description section outlines models covered, standard features, and safety  
features. Additional sections within the manual provide instructions for installation, pre-  
operational procedures, operation, preventive maintenance, and corrective maintenance.  
The Installation chapter includes required data for receiving, unpacking, inspecting, and setup  
of the GH hopper. We can also provide the assistance of a factory-trained technician to help  
train your operator(s) for a nominal charge. This section includes instructions, checks, and  
adjustments that should be followed before commencing with operation of the GH Hopper.  
These instructions are intended to supplement standard shop procedures performed at shift,  
daily, and weekly intervals.  
The Operation chapter includes a description of electrical and mechanical controls, in  
addition to information for operating the GH Hopper safely and efficiently.  
The Maintenance chapter is intended to serve as a source of detailed assembly and  
disassembly instructions for those areas of the equipment requiring service. Preventive  
maintenance sections are included to ensure that your GH hopper provides excellent, long  
service.  
The Troubleshooting chapter serves as a guide for identification of most common problems.  
Potential problems are listed, along with possible causes and related solutions.  
The Appendix contains technical specifications, drawings, schematics, parts lists, and  
available options. Refer to this section for a listing of spare parts for purchase. Have your  
serial number and model number ready when ordering.  
Safety Symbols Used in this Manual  
The following safety alert symbols are used to alert you to potential personal injury hazards.  
Obey all safety messages that follow these symbols to avoid possible injury or death.  
DANGER! DANGER indicates an imminently hazardous situation that, if not avoided,  
will result in death or serious injury.  
WARNING! WARNING indicates a potentially hazardous situation or practice that, if  
not avoided, could result in death or serious injury.  
Caution!  
CAUTION indicates a potentially hazardous situation or practice that, if  
not avoided, may result in minor or moderate injury or in property damage.  
Chapter 1: Safety  
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Figure 1: Safety Tags and Warning Labels  
Description Tag Description  
Tag  
Read Operation &  
Installation Manual  
Pinch Point Slide Gate  
Shear Point Rotating  
Mixer  
Earth Ground  
High Voltage Inside  
Enclosure  
Protected Earth Ground  
Lifting Point  
PE  
Shear Hazard Rotating  
Auger  
Chapter 1: Safety  
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1-2 Warnings and Precautions  
Our equipment is designed to provide safe and reliable operation when installed and operated  
within design specifications, following national and local safety codes. This may include, but  
is not limited to OSHA, NEC, CSA, SPI, and any other local, national and international  
regulations.  
To avoid possible personal injury or equipment damage when installing, operating, or  
maintaining this equipment, use good judgment and follow these safe practices:  
; Read and follow these operation and installation instructions when installing,  
operating, and maintaining this equipment. If these instructions become  
damaged or unreadable, additional copies are available from the manufacturer.  
; Follow all SAFETY CODES.  
; Keep fingers away from slide gates, augers, clean-outs, and calibration hatches.  
Automatic operation may start unexpectedly, A PINCH HAZARD CAPABLE OF  
CAUSING BODILY INJURY EXISTS ANY TIME THE POWER IS ON.  
; Wear SAFETY GLASSES and WORK GLOVES.  
; Work only with approved tools and devices.  
; Disconnect and/or lock out power and compressed air before servicing or maintaining  
the equipment.  
; Use care when LOADING, UNLOADING, RIGGING, or MOVING this  
equipment.  
; Operate this equipment within design specifications.  
; OPEN, TAG, and LOCK ALL DISCONNECTS before working on equipment.  
You should remove the fuses and carry them with you.  
; NEVER PUT FINGERS OR TOOLS IN AN AUGER OR SLIDE GATE AREA.  
; Make sure the equipment and components are properly GROUNDED before you  
switch on power.  
; Do not restore power until you remove all tools, test equipment, etc., and the  
equipment and related components are fully reassembled.  
; Only PROPERLY TRAINED personnel familiar with the information in this  
manual should work on this equipment.  
We have long recognized the importance of safety and have designed and manufactured our  
equipment with operator safety as a prime consideration. We expect you, as a user, to abide  
by the foregoing recommendations in order to make operator safety a reality.  
Chapter 1: Safety  
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1-3 Responsibility  
These machines are constructed for maximum operator safety when used under standard  
operating conditions and when recommended instructions are followed in the maintenance  
and operation of the machine.  
All personnel engaged in the use of the machine should become familiar with its operation as  
described in this manual.  
Proper operation of the machine promotes safety for the operator and all workers in its  
vicinity.  
Becoming familiar with materials, inspection, speed limitations, screens, and guard  
maintenance and total user responsibility will assist you in learning potential areas in need of  
observation for danger.  
Each individual must take responsibility for observing the prescribed safety rules as outlined.  
All caution, warning and danger signs must be observed and obeyed. All actual or potential  
danger areas must be reported to your immediate supervisor.  
General Responsibility  
No matter whom you are, safety is important. Owners, operators and maintenance personnel  
must realize that every day, safety is a vital part of their jobs.  
If your main concern is loss of productivity, remember that production is always affected in a  
negative way following an accident. The following are some of the ways that accidents can  
affect your production:  
Loss of a skilled operator (temporarily or permanently)  
Breakdown of shop morale  
Costly damage to equipment  
Downtime  
An effective safety program is responsible and economically sound.  
Organize a safety committee or group, and hold regular meetings. Promote this group from  
the management level. Through this group, the safety program can be continually reviewed,  
maintained, and improved. Keep minutes or a record of the meetings.  
Hold daily equipment inspections in addition to regular maintenance checks. You will keep  
your equipment safe for production and exhibit your commitment to safety.  
Please read and use this manual as a guide to equipment safety. This manual contains safety  
warnings throughout, specific to each function and point of operation.  
Operator Responsibility  
The operator’s responsibility does not end with efficient production. The operator usually has  
the most daily contact with the equipment and intimately knows its capabilities and  
limitations.  
Plant and personnel safety is sometimes forgotten in the desire to meet incentive rates, or  
through a casual attitude toward machinery formed over a period of months or years. Your  
employer probably has established a set of safety rules in your workplace. Those rules, this  
manual, or any other safety information will not keep you from being injured while operating  
your equipment.  
Chapter 1: Safety  
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Learn and always use safe operation. Cooperate with co-workers to promote safe practices.  
Immediately report any potentially dangerous situation to your supervisor or appropriate  
person.  
REMEMBER:  
NEVER place your hands or any part of your body in any dangerous location.  
NEVER operate, service, or adjust the rate monitor without appropriate training and  
first reading and understanding this manual.  
NEVER try to pull material out of the rate monitor with your hands while it is  
running!  
Before you start the GH Hopper check the following:  
Remove all tools from the unit;  
Be sure no objects (tools, nuts, bolts, clamps, bars) are laying in the feeding area.  
Note: If your rate monitor has been inoperative or unattended, check all  
settings before starting the unit.  
Note: At the beginning of your shift and after breaks, verify that the controls  
and other auxiliary equipment are functioning properly.  
Note: Keep all safety guards in place and in good repair. NEVER attempt to  
bypass, modify, or remove safety guards. Such alteration is not only  
unsafe, but will void the warranty on your equipment.  
Note: When changing control settings to perform a different mode of  
operation, be sure selector switches are correctly positioned. Locking  
selector switches should only be adjusted by authorized personnel and  
the keys removed after setting.  
Report the following occurrences IMMEDIATELY:  
Unsafe operation or condition  
Unusual action  
Leakage  
Improper maintenance  
Note: NEVER stand or sit where you could slip or stumble into the rate  
monitor while working on it.  
Note: DO NOT wear loose clothing or jewelry, which can be caught while  
working on a rate monitor. In addition, cover or tie back long hair.  
Note: Clean the rate monitor and surrounding area DAILY, and inspect the  
machine for loose, missing or broken parts.  
Note: Shut off power to the GH Hopper when it is not in use. Turn the switch  
to the OFF position, or unplug it from the power source.  
Chapter 1: Safety  
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Maintenance Responsibility  
Proper maintenance is essential to safety. If you are a maintenance worker, you must make  
safety a priority to effectively repair and maintain equipment.  
Before removing, adjusting, or replacing parts on a machine, remember to turn off all electric  
supplies and all accessory equipment at the machine, and disconnect and lockout electrical  
power. Attach warning tags to the disconnect switch.  
When you need to perform maintenance or repair work on a rate monitor above floor level,  
use a solid platform or a hydraulic elevator. If there is a permanently installed catwalk  
around your rate monitor, use it. The work platform should have secure footing and a place  
for tools and parts. DO NOT climb on unit, machines, or work from ladders.  
If you need to repair a large component, use appropriate handling equipment. Before you use  
handling equipment (portable “A” frames, electric boom trucks, fork trucks, overhead cranes)  
be sure the load does not exceed the capacity of the handling equipment or cause it to become  
unstable.  
Carefully test the condition of lifting cables, chains, ropes, slings, and hooks before using  
them to lift a load.  
Be sure that all non-current carrying parts are correctly connected to earth ground with an  
electrical conductor that complies with current codes. Install in accordance with national and  
local codes.  
When you have completed the repair or maintenance procedure, check your work and remove  
your tools, rigging, and handling equipment.  
Do not restore power to the rate monitor until all persons are clear of the area. DO NOT start  
and run the unit until you are sure all parts are functioning correctly.  
BEFORE you turn the rate monitor over to the operator for production, verify all enclosure  
panels, guards and safety devices are in place and functioning properly.  
Reporting a Safety Defect  
If you believe that your equipment has a defect that could cause injury, you should  
immediately discontinue its use and inform the manufacturer.  
The principle factors that can result in injury are failure to follow proper operating procedures  
(i.e. lockout/tagout), or failure to maintain a clean and safe working environment.  
Chapter 1: Safety  
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Chapter 2: Functional Description  
2-1 Models Covered in This Manual  
This manual provides operation, installation, and maintenance instructions for rate monitors  
of various extrusion rates and specifications. See below for a list of available models.  
GH-M Rate Monitor Units  
GH Full Control Units with or without Line Speed Control  
GH-F Gravimetric Feeder Units  
Model numbers are listed on the serial tag. Make sure you know the model and serial number  
of your equipment before contacting the manufacturer for parts or service.  
GH systems are as varied as the applications they service. All gravimetric rate monitors are  
sized to meet the specific requirements stated by the Customer at the time of purchase.  
2-2 General Description  
GH-M Rate Monitor Systems are designed to measure the extrusion rate of plastic pellets and  
regrind. This measurement can be read at a local display or monitored through the  
communications using the Ethernet module.  
GH Full Control Systems are designed to measure the extrusion rate of plastic pellets and  
regrind. This system can then control the output of the extruder and hauloff (if using the line  
speed option) to a desired target value that is entered by the operator. This system can be  
used for monitoring as well as full control. Some of the configurable methods of operator  
input are lbs/hr, kgs/hr, feet/min, meters/min, weight/length, and weight/area.  
GH-F Gravimetric Feeders are designed to gravimetrically control the feed rate of an additive  
feeder using a loss-in-weight hopper that is mounted directly on the feeder. This feeder then  
flows into the extruder. The operator enters in a desired percent. The system continuously  
measures the speed of the extruder through a proximity switch mounted at the back of the  
screw (this can also be wrote through communications) and then calculates the extruders  
throughput based on a volumetric approximation. Based on the entered percent and the  
current calculated extruder throughput the system then calculates a target lbs/hr or kgs/hr for  
the feeder. Then based on the measured rate of the additive the GH-F continuously adjust the  
motor speed of the feeder to achieve accurate results.  
Standard equipment is not designed to measure powder or any other materials. Optional  
equipment may be purchased to measure the extrusion rate of powders.  
Accessories  
The manufacturer offers a variety of standard options for GH Systems including knife gates,  
low-level proximity switches, Ethernet communication modules, and hoppers specifically  
designed to measure the extrusion rate of powders. All accessories are designed and  
manufactured to ensure proper results for your application.  
Chapter 2: Functional Description  
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Customer Service  
The intent of this manual is to familiarize the operator and maintenance personnel with these  
rate monitors and help your organization get the maximum service from your equipment. If  
you have any questions regarding installation, service, repair, custom equipment, or  
applications, please do not hesitate to contact us for the information required. Prices for  
additional equipment, accessories, or repair parts will be furnished promptly upon request.  
Note: If you desire to use a rate monitor for an application other than that for  
which it was purchased, please contact your sales representative or our  
factory to verify compatibility of the equipment with the new process.  
Misapplication of the equipment could result in injury to the operator or  
damage to the equipment.  
Chapter 2: Functional Description  
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Figure 2: Equipment Specifications  
Model  
10  
20  
40  
Maximum Extrusion Rate, lbs/hr (kg/hr)  
Weigh Hopper Capacity, cu.ft. (Liters)  
Typical Weigh Hopper Size, lbs.  
Load Cell Capacity, kgs  
600 (272) 1200 (680) 2500 (1134)  
0.35 (10)  
10  
0.7 (20)  
20  
1.41 (40)  
40  
1 @ 10 kg 1 @ 20 kg  
1 @ 30 kg  
Approximate Dimensions, in. (mm)  
Height (5)  
Width (5)  
Depth (5)  
34.5 (875) 51.5 (1308) 56.5 (1435)  
26.0 (650) 37.5 (952)  
22.0 (560) 37.0 (940)  
37.0 (940)  
40.0 (1016)  
2-3 Typical Features and Components  
Mechanical Features  
Removable stainless steel weigh hoppers.  
Stainless steel surge (supper supply) hopper with integral air cylinder and urethane  
dump cone.  
Precision 1/10% span accurate cantilever load cell weighing system  
Inductive extruder tracking proximity switch (not necessary if writing extruder speed  
through communications)  
Rugged industrial mild steel painted frame.  
Cast aluminum spool with drain and purge ports.  
Figure 4: Typical GH Allen-Bradley PLC Enclosure  
Controller Features  
LCD touch-screen interface display operator control panel with 8’ cable (optional on  
GH-M units, system requires 1 per facility for setup and maintenance)  
Allen Bradley Micrologix 1500 PLC  
Thermocouple Input card for loadcell  
Analog Output module for GH Full Control units and GH-F Gravimetric Feeder  
Systems.  
Manual key switch control function for reload  
Visual Alarm  
Alarm log  
Full control diagnostics  
Serial printer Output  
Chapter 2: Functional Description  
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Optional Ethernet communications  
System Component Description  
This section describes the various components of the rate monitor system.  
Extruder Inductive Proximity Switch  
The extruders RPM must be reported to all GH, GH-M, and GH-F Systems for them to  
function. To accomplish this, an inductive proximity switch is provided to let the controller  
know the RPM of the extruder. This switch should be field mounted in an appropriate way to  
read the extruder’s true RPM. It is important this switch is reading the actual RPM of the  
Extruder, and not an RPM before a gearbox, for example. Chapter 3 will detail the  
installation and wiring of this component. Because it is field mounted, wiring of the  
proximity switch will NOT be done at the factory and we do not provide any custom  
mounting brackets for your application as these vary depending on the equipment.  
This measurement can also be achieved by writing the extruder’s rpm through  
communications (see document at the end of this manual for details, NOT AVAILABLE  
FOR GH-F FEEER UNITS). If this is done through communications then it eliminates the  
need to install the extruder proximity switch.  
Surge Hopper  
The surge hopper is located on top of the GH frame. These hoppers store a supply of material  
to fill the weigh hopper. The surge hopper is sized based on the total throughput of the  
extrusion rate monitoring system. Each surge hopper contains a 24V DC solenoid that is  
used to open and close the internal dump cone. The internal urethane dump cone is  
mechanically opened and closed with a compressed air cylinder.  
The GH’s surge hopper does not include any level indication devices as standard equipment.  
Optional surge hopper low-level sensors are available. The GH controller will alarm if it runs  
out of material while trying to fill the weigh hopper, but low-level sensors will alert floor  
personnel to the problem sooner. If an optional low-level sensor is purchased, it will activate  
a visual alarm. This optional proximity switch can be mounted anywhere the customer  
desires and is not mounted unless specifically requested.  
The refill system is equipped with a manual key switch to open and close the surge hopper.  
This three position key switch is located on the front of the PLC enclosure.  
Figure 5: Typical Surge Hopper  
Figure 6 Refill Switch Positions  
Position  
AUTO  
Description  
The rate monitor controller automatically controls surge hopper  
functions.  
Chapter 2: Functional Description  
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OPEN  
Dump cone gate open all the time  
Dump cone closed all the time  
CLOSE  
Each surge hopper is supplied with a lid. Standard lids contain a cutout to accept a vacuum  
receiver. A blank lid may also be provided if specified.  
If the rate monitor is being refilled from a mezzanine-mounted GH Hopper, the surge hopper  
lid will have a tube stub on it.  
The surge hopper will be mounted on the frame at the factory. The 24V dc solenoid will also  
be factory wired. In some rare cases, it may be necessary to remove the surge hopper for  
shipping purposes  
Weigh Hopper  
The weigh hopper is located within the GH frame. The hopper size is set within the controls.  
Default for refilling to occur is 50% of the weigh hopper size.  
The weigh hopper on the rate monitor is used to weigh the material entering the extrusion  
process. Once the weigh hopper goes below 50% of its set weight capacity the solenoid valve  
on the surge hopper will open, allowing material to fall from the surge hopper to the weigh  
hopper. The surge hopper solenoid will close once the weigh hopper reaches its set weight  
capacity.  
Details for installing and removing the weigh hopper are included in the next section. The  
weigh hopper will need to be installed before operation can begin. It is necessary to remove  
the weigh hopper for shipment, so the loadcell is not damaged.  
When the weigh hopper is installed use care not to damage the load cell. Position the hopper  
Note: Use care when replacing the weigh hopper, since the load cells are  
delicate weighing instruments and can be easily damaged. Do not use  
force to push in the weigh hopper.  
Note: Load cells, if damaged, will have to be sent back to the manufacturer for  
testing and evaluation.  
Note: Make sure no part of the load cell bracket is touching the plastic housing  
on the load cell. This could result in inaccurate weight readings. If  
necessary the plastic on the loadcell can be trimmed back  
tube stub as close to the center of the hole in the bottom of the frame as possible.  
Operator Control Panel Display (optional on GH-M units, 1 required per facility for  
setup and Maintenance)  
The operator control panel includes an 8-foot (2.4 m) cable and can be remote mounted (not  
recommended) adjacent to the GH Hopper. The panel can be unplugged and removed if  
necessary. The cable provides 24VDC power to the display, as well as communications to  
the PLC.  
A programmable logic controller (PLC) controls the GH operation. This design provides  
excellent performance along with an easily replaceable control panel in the unlikely failure of  
any computer or electronic part.  
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After installation and setup, the GH-M will begin monitoring the system process once the rate  
monitor detects an extruder speed.  
The following figures show some typical screens of the GH-M rate monitor.  
Figure 8: Typical GH Series Controller Touch Screen Display  
Figure 9: Controller Pushbuttons & Touchscreen Tags  
Button  
Function  
Turns power on to the GH Hopper controller.  
(Found on the back of the controller.)  
(Power On)  
(Power Off)  
Turns power off to the GH Hopper controller.  
(Found on the back of the controller.)  
Stops GH Hopper & restarts controller.  
Press to move back one screen level in  
controller function.  
Move forward one screen level in controller  
function.  
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Figure 10a: Typical GH-M Operator Screen  
Figure 10b: Typical GH Full Control Operator Screen  
Figure 10c: Typical GH-F Gravimetric Feeder Operator Screen  
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Figure 10d: Operator Screens Common to all GH Systems  
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Figure 11: Typical Setup Screens  
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2-4 Optional Components  
The following is a list of options, which your rate monitor may have been equipped with:  
Ethernet Module  
In lieu of an inductive proximity switch, the extruder’s RPM may be written through  
communications. To accomplish this, an Ethernet module and connecting cable (to PLC) is  
offered as an option.  
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Pneumatic Slide Gate below surge hopper  
The surge hopper can be equipped with a pneumatic slide gate in lieu of the air cylinder and  
urethane dump cone. The knife gate is opened and closed by the PLC. A 24 VDC solenoid is  
used to open and close the knife gate.  
WARNING! Slide gates create a pinch-point hazard  
Low Level Proximity Sensors  
Detects material supply problems before rate monitor hoppers are empty. A 24VDC  
capacitive proximity switch is utilized for this option. The proximity switch is wired directly  
into the PLC enclosure. If there is a material supply problem, a visual alarm is activated.  
2-5 Safety Features  
This section includes information on safety devices and procedures that are inherent to the  
rate monitor system. This manual is not intended to supersede or alter safety standards  
established by the user of this equipment. Instead, the material contained in this section is  
recommended to supplement these procedures in order to provide a safer working  
environment.  
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Chapter 3: Installation  
3-1 Uncrating the Equipment  
Rate monitors are shipped mounted on a skid, enclosed in a plastic wrapper, and contained in  
a crate.  
1. Remove crate from around the rate monitor.  
2. Secure strap of proper lifting capacity.  
Caution!  
Use approved safety straps or chains to lift the rate monitor.  
3. Lift the rate monitor until strap is taut.  
4. Remove bolts attaching bottom of the rate monitor to shipping skid.  
3-2 Mechanical Installation  
It is the intent of this section to familiarize the reader with the proper site requirements and  
installation procedures of the GH-M rate monitoring system. The information in this section  
is NOT meant to replace or supersede an established local or company implemented  
procedures. It is meant to enhance them.  
The installation procedure should be used as a general guideline for the proper installation  
steps required to install a rate monitoring system.  
1. Lift the rate monitor and position over machine throat.  
2. Set in position and secure by tightening four bolts.  
3. Remove lifting strap.  
4. Mount the material conveying system receivers on the top of the rate monitor’s surge  
hopper. If a mezzanine mounted GH Hopper is being used to supply material to the  
rate monitor, attach the flex hose to the top of the surge hopper.  
5. Install the weigh hopper onto the load cell bracket. Tighten the two supplied thumb  
screws to the flange on the weigh hopper.  
Note: Use extreme care when tightening bolts on top of the load cells so you do  
not spring the load cells. The load cells are extremely delicate and should  
be treated with care!  
6. Check to see that the weigh hopper is completely unrestricted. The load cell bracket  
should not touch any part of the plastic housing on the load cell. The tube stub on the  
bottom of the weigh hopper should not touch any part of the cast spool. If either of  
these conditions are not met, inaccurate weight readings may result.  
Site Requirements  
This section describes site requirements in detail. These requirements are broken down into  
mechanical mounting, electrical connections and pneumatic connections.  
Mounting Configurations  
The rate monitoring system must be machine mounted.  
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Machine Mount  
The GH Hopper must be machine mounted. There are a few items to review before  
placement and mounting of the rate monitor system begins.  
First, verify the machine flange dimensions match the cast spool-mounting flange.  
Verify that the machine throat is physically capable of supporting the rate monitoring system  
with a full load of material and vacuum loading equipment installed.  
Note: While in operation, the GH system applies horizontal and vertical  
pressures to the mounting flange. If there is a question as to the  
mechanical stability of a mounting flange, contact the manufacturer’s  
engineering department.  
Verify all clearances on the top and beside the processing machine. This is to insure that all  
motors, hoppers, control panels, etc. have adequate room for proper operation and servicing.  
Refer to the assembly drawing with the unit for actual height and width dimensions.  
Note: Allow at least 36” clearance around the GH System to provide adequate  
room for cleaning, servicing, etc.  
Using proper lifting equipment, lift the rate monitor. Affix the rate monitor to the processing  
machine.  
Note: Larger rate monitors may need to be braced as part of the installation.  
Take care to insure proper orientation with adequate access to operator controls, mix  
chamber, and metering units.  
Note: Never weld on the GH Hopper, support stand, machine or mezzanine  
without first removing the control panel and verifying that the hopper is  
properly grounded.  
3-3 Electrical Connections  
The standard rate monitor system is designed to operate on 120/1/60 supply voltage. For  
exact current requirements, check the GH Hopper serial number tag, located on the right side  
of the PLC enclosure.  
If a step down transformer was provided, it should never be used to power anything other  
than the rate monitor. Loading equipment, etc. must be powered by another power source. As  
well as possibly overloading the transformer, the additional equipment may induce power line  
noise that may affect the operation of the rate monitor  
The transformer will be mounted and wired by the customer or your installer. If company or  
local codes require fusing or disconnects, these items must be supplied, wired, and mounted  
by the customer.  
Note: Each GH System MUST be connected to a separate source of power. Do  
not connect other electrical equipment, especially self-contained hopper  
loaders, on the same line as the rate monitor.  
Ensure that the power entrance location on the rate monitor panel remains unchanged. Make  
sure that the proper size wire and proper wire routing techniques are used when installing the  
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supply wiring to the control panel. Care must be taken to ensure that the supply wiring does  
not interfere with the low voltage DC wiring.  
The GH is supplied with a plug that functions as the disconnect device. The mating  
receptacle must be installed no higher than 5’ feet (1.6 m) above the floor. Make sure your  
installation conforms to your regional electrical standards.  
Please refer to the supplied electrical schematics for detailed connection points for the supply  
power.  
3-4 Pneumatic Connections  
The GH system uses plant-supplied compressed air to operate the surge hopper.  
CLEAN AND DRY air must be supplied to the GH System. The air supply should be filtered  
through a 5 micron air filter with a water separator. Oil should not be used unless air dryers  
are installed on the compressed air supply. In this situation, an oiler may be required on the  
rate monitor to keep the air cylinder seals lubricated.  
Usage is about 5 cu. inches per refill.  
A single 1/8” NPT standard pipe thread fitting is provide on the surge hopper solenoid to  
supply air.  
Caution!  
Caution!  
To prevent damage to the equipment, do not exceed 60 psi (4.14 bar) air  
pressure.  
Always disconnect the compressed air supply when working on any part of  
the rate monitor.  
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3-5 Initial Set-up  
This section will discuss the mechanical setup and control system setup of the rate monitor  
system. After reading this section, you should be familiar with the mechanical setup and the  
electronic control setup of the rate monitor.  
Mechanical Set-up  
Weigh Hopper Installation  
It is necessary to install the weigh hopper. Remove the weigh hopper from the shipping box  
and install it onto the load cell bracket. Two provided thumbscrews are used to secure the  
weigh hopper to the load cell bracket.  
Figure 12: Picture of Weigh Hopper  
Note: THE WEIGH HOPPER ASSEMBLY MUST HANG FREELY AND BE  
FREE FROM FRICTION, WITH NO MECHANICAL  
OBSTRUCTIONS OTHER THAN THE LOAD CELL ITSELF.  
It is very important the tube stub of the weigh hopper does not touch the supplied dust ring.  
It is also important the flange of the weigh hopper be completely flush with the load cell  
bracket.  
Extruder RPM connection  
The supplied inductive proximity switch must be mounted to accurately read the Extruder’s  
RPM. If the optional Ethernet module was purchased, the extruder’s speed may be reported  
to the controller via communications (see communications section at the end of this manual,  
NOT AVAILABLE FOR GH-F UNITS).  
The proximity switch must be mounted securely, and read the actual RPM of the extruder.  
Supplementary documentation on this proximity switch is provided from its manufacturer.  
To wire the supplied inductive proximity switch the PLC enclosure, please refer to the  
supplied wiring schematics.  
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If an Ethernet module was purchased with the system, the proper setting has to be changed to  
measure the extruder’s RPM with communications. For details on changing the settings for  
measuring the extruder’s RPM, please refer to the Addendum 7-4.  
The controller will be factory set to use the Ethernet module if it has been supplied.  
Final Connections  
Connect the rate monitor to the appropriate power source.  
Connect the compressed air piping, ensuring that a 5-micron air filter is installed, along with  
the proper water trap. Verify that 60-psi of clean, dry compressed air is supplied to the GH  
Hopper.  
After powering up the rate monitor, the following screen will be shown:  
Figure 13: Display Startup Screen  
Touch here to skip  
quickly to the Recipe  
Screen (Next Screen  
in sequence).  
Note: It may take 45-50 seconds for the screen to appear.  
This screen displays the software version of both the PLC and the Panel View. The  
Controller will stay on this screen for about 10 seconds or you can touch the ACS icon to  
quickly skip to the Recipe Screen (Next Screen in sequence). The software versions are also  
available on the Panel View Configuration Screen.  
Figure 14: GH-M Display Main (Recipe) Screen  
To access the Setup Menu to change the controller features, refer to the following pages of  
this manual.  
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Controller Set-up  
This section describes the proper setup of the GH system control parameters. These  
parameters are operator changeable; however, these items should only require setup during  
the initial installation. Only authorized personnel should change them. For security reasons,  
the menu that is used to access these parameters is password protected.  
Many of the variables and setup parameters have been preset at the factory and do not need to  
be changed. However, this section of the manual will address all of the rate monitor setup  
parameters that were available at the time of printing. The purpose of this is to familiarize the  
reader with all the setup parameters and their usage.  
A complete listing of all default values is provided at the end of this manual.  
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GH Controller Menu Structure  
“Inventory” page  
“Recipe” Page  
(Start)  
Recipe Format (for GH Full  
Control Only)  
¾
¾
¾
Clear Inventory  
Manual Control  
“Next” returns to “Recipe” page  
¾
¾
¾
Extruder RPM is displayed  
¾
¾
¾
System Rate & Line Speed  
Weigh Per Length Mode  
Weight Per Area Mode  
Extruder throughput is displayed  
Line Speed is displayed (GH Full  
Control with Line speed option  
Only)  
¾
Weight Per Length, Weight Per  
Area, or simple throughput is  
displayed on GH Full Control  
versions depending on setup  
parameters  
GH-F Target throughput and  
percent is displayed (GH-F Only)  
Access “Inventory” Page  
Access “Setup” Page  
Hopper Setup  
¾
Hopper size  
¾
Reload Percentage  
“Manual Control” Page  
¾
¾
Reload ON/OFF  
Extruder Setup  
¾
Return to the “Inventory” Page  
¾
Maximum Extruder RPM  
¾
¾
¾
¾
GHF Extruder Max. Throughput  
(GH-F Only)  
“Next” to access “Inventory” page.  
Hauloff Setup (for GH Full  
Control Only)  
¾
¾
Hauloff enable/disable  
Read/ Do Not read speed from  
COEX Master  
¾
¾
Hauloff Max Speed  
Calibrate Encoder  
Calibration  
¾
¾
¾
Scale Calibration  
Direct Scale Readout  
Weight/RPM Calibration  
Panel View Config  
¾
¾
Panel view GH version  
PLC GH version  
Units  
¾
Lbs. vs Kgs.  
Password  
¾
¾
New Password  
Verify Password  
Alarm Log  
View, print, and clear the alarm  
log  
¾
“Setup” Page  
Touch the ACS icon and enter in  
the “user password”  
Alarm Setup  
¾
¾
¾
¾
¾
¾
¾
¾
Min System Speed %  
Max System Speed %  
System Unstable Alarm Time  
Maximum allowed reload time  
Hopper % for low level alarm  
Hopper % for no material alarm  
Out of material alarm silence  
delay  
Network Setup  
¾
¾
¾
¾
¾
IP Address  
Subnet Mask  
Send Config to ENI Module  
Enable Ethernet Configurator  
Enable or disable coexpert com  
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GH Calibration  
The load cell on a GH Hopper is FACTORY CALIBRATED. Since the load cell can be  
subject to shock loading during shipping, moving, etc., we recommend that they be  
recalibrated.  
The heart of the rate monitor system is the load cell and the supplied calibration weight.  
Since the load cell is weighing the amount of material entering the process, proper  
calibration of the load cell is essential for the correct and accurate operation of the rate  
monitor. This calibration must be performed upon initial installation and startup. The  
calibration should also be checked once a month with a calibration weight and if  
necessary recalibrated to ensure that it has not been damaged in the normal routine of  
removing and replacing the weigh hopper for cleaning.  
The calibration of the load cell is accomplished by using two reference points on the output  
of the load cell scale. The first of these points is known as the “Tare Weight”. This is the  
weight of the empty weigh hopper assembly on the load cell. This is also known as the zero  
weight point (starting point) of the scale. This zero or starting point must be initialized with  
an empty weigh hopper. There must be no binding or leverage put on the load cell.  
The second weight point used in the load cell calibration procedure is a known amount of  
weight for the weigh hopper. A calibration weight is provided with all rate monitors. The  
calibration weight is stamped with its actual weight on top. If this is not available, any object  
with a known weight accurate to the nearest 1/1000th of a pound, in the 2 - 10 lb. range,  
proportional to your size rate monitor, will suffice. (The weight should be as close as possible  
to the weigh hopper’s capacity.) The weight will be in pounds, unless the rate monitor is  
provided for metric operation. In the case of a metric display, the weight to be used is  
calibrated in kilograms.  
Given the two weight points on the load cell scale, the controller should determine any other  
weight on the load cell span. This is limited to the maximum capacity of the load cell. The  
standard load cell used on rate monitors has a span accuracy of 1/10%.  
The maximum capacity of each load cell is clearly marked on top of the load cell. This value  
will be indicated in kilograms (1 kg = 2.2 lbs.).  
Weigh Hopper (Load Cell) Calibration  
1. From the “Recipe” Page, touch the Manufacturer’s icon and enter “5413”, then press  
the “Enter˝ key.  
2. Touch “Calibration” and then “Scale Calibration”.  
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Figure 15: Display Calibration Menu Screen  
Go back to the  
Setup  
Directory  
3. Once in “Scale Calibration”, enter in the scale calibration weight value stamped on  
the side of the weight.  
4. The controller will prompt you to empty the weigh hopper and press “OK”.  
5. After touching OK, the controller will display “PLEASE WAIT...”  
6. Next, the controller will ask you to hang the calibration weight on the weight hopper  
and press OK.  
7. Finally, the controller will ask you to remove the calibration weight and press “OK”  
to complete the calibration.  
8. The controller will verify that the calibration was done correctly by showing  
“Calibration Successful.”  
9. Press “Done” until you have reached the Recipe screen.  
Figure 16: Display Calibration Screen  
Enter in the Calibration  
Weight  
Current Loadcell  
Bits  
Press here to perform  
the calibration  
Follow  
Instructions  
Go Back to the  
Calibration Directory  
Verifying Calibration (Recommended on a periodic basis to ensure accuracy)  
1. From the “Recipe” Page, touch the Manufacturer’s icon and enter “5413”, then press  
the “Enter” key.  
2. Touch “Calibration” and then “Direct Scale Readout”  
3. Ensure the weigh hopper is empty.  
4. Locate the weight display for the load cell directly below “Current Bits.” Write  
down the displayed value.  
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5. Add the calibration weight to the weigh hopper and write down the value displayed  
in “weight”, as in step 4.  
6. Subtract the values recorded in step 4 from step 5. This is the measured weight. If  
the measured weight is within a 0.003 pounds of the weight stamped on the  
calibration weight, then you are within spec. If not, follow the steps above to  
calibrate the rate monitor. (If your rate monitor is frequently out of calibration,  
verify the operator is being cautious removing the weigh hopper.)  
7. Press “Done” until you have reached the Recipe screen.  
8. ***Anything in the Diagnostics Menu that is not covered here is in the Detailed  
Controller Setup Section***  
WTP/RPM Calibration Page  
This page is used to monitor the lbs/hr per RPM analyzer and is used as a tool for tuning the  
WTP Algorithm Options mentioned later in this book.  
Hopper Size Setup  
The weigh hopper size is factory set. In may be necessary, however, to change this value due  
to varying bulk densities of material.  
1. Enter the Setup Menu.  
2. Select “Hopper Setup”  
3. Enter the required size for the weigh hopper (should be close to full)  
4. Set the refill percentage to 50%.  
5. Press done to return the setup menu.  
Figure 17: Hopper Setup  
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Extruder Setup  
Use this page to setup the Maximum Extruder RPM. This is critical for GH Monitor  
units and GHF feeder units. This value is automatically calculated with GH Full Control  
units.  
Also for GHF Feeder units you will need to program in the maximum LBS/HR of the  
extruder for the feeder’s target LBS/HR calculation.  
Figure 17: Extruder RPM Setup  
Hauloff Setup and Encoder Calibration Page (GH Full Control ONLY)  
Use this page to enable the hauloff option of the GH Full Control Unit. The unit should  
be set to “Do not read speed from COEX Master” if a COEX AB does not exist. If it  
does then this setting is automatically setup by the COEX Master. The Hauloff max  
speed must be entered if you are not using an encoder (see mechanical options to turn this  
feature on/off). If you are using an encoder then you must calibrate the encoder by  
running the line at a known speed, hand measuring the line speed with a tachometer,  
entering the speed into the ft/min box, and then clicking the “click here” box. You can  
also manually modify this calibration by adjusting the “Distance per revolution of  
encoder”.  
Figure 17: Hauloff Setup and Encoder Calibration Page  
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Alarm Setup  
This screen allows the operator to configure the alarm settings for the rate monitor. To  
configure the alarms do the following:  
6. Enter the Setup Menu.  
7. Once in the Setup menu, press “Alarm Setup.” This will take you to the “Alarm  
Setup” screen.  
Figure 18: Alarm Setup Screen  
Changes weigh hopper  
weight for no material  
alarm.  
Change the Alarm  
Silence Display  
8. Press the “Done” key at the bottom to exit this screen. Min/Max Speed Limits restrict  
the usable gravimetric range that the GH will permit in order to continue gravimetric  
measurement. If the system becomes unstable for more than the “System unstable  
alarm time” then an alarm will notify the operator. The Hopper% for low level  
should always be set below the reload percentage (hopper setup page) and the  
Hopper% for no material alarm should always be set below the low level %.  
Network Setup  
The rate monitor’s IP is the address of this rate monitor on a network. The rate monitor is  
factory set up with an IP of 192.168.0.150 with a default subnet mask of 255.255.255.0.  
In order to change the values, enter the Setup menu, press the “Network Setup” button and  
change the values accordingly. Then the “send Ethernet config to module” button must be  
pressed when changes are complete.  
The “COEXPERT COM DISABLED” button is not used on a GH-M rate monitor. This  
parameter is automatically configured if a COEXPERT AB system exist. Otherwise it should  
always remain disabled!  
Disable for GH-M,  
GH-F, or GH without  
Coexpert AB  
Figure 31: Ethernet Setup Screen  
Enable or Disable  
the Ethernet  
Module  
Change monitor’s IP  
Address and Subnet  
Mask  
Configurator  
Go back to Setup  
Directory  
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Setting Date and Time  
The Set Date & Time feature is located in the “Panel View Config” menu of the Setup  
Screen. This feature allows the operator to set the rate monitor’s internal time clock and date.  
The clock data must be entered in the traditional Hours, Minutes, and seconds. The date must  
be entered in Years, Months, and Days. All values in this screen can be entered by pressing  
on the related button and choosing the correct number.  
Figure 32: PanelView Configuration Screen  
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Chapter 4: Operation  
4-1 GH-M Operation Procedures  
The system will begin monitoring the process rate once an RPM reading from the Extruder is  
detected. Again, this RPM must be communicated to the PLC through the supplied inductive  
proximity switch, or through the optional Ethernet module. The extruder icon on the recipe  
page will become animated, indicating the extruder is running and the measured Extruder  
RPM will be displayed. If the system does not automatically start loading upon starting of  
the extruders then check this value for trouble shooting.  
At this point, the controller will refill the weigh hopper to its set weight capacity.  
The GH-M rate monitor will start tracking the extruder as soon as it is started.  
The displayed value may be far from the actual value the first time the system is ran. The  
GH-M goes through a learning process with each material. This is indicated by a “Steady  
Process” indicator on the main recipe page. Upon starting the line you should always give  
the hopper time to analyze the flow and give you a “Steady Process” before making  
adjustments based on the displayed throughput.  
The initial learning process will be complete when the “Steady Process” indicator is  
displayed on the recipe screen. You are now ready to run the unit as normal. The “Steady”  
flag indicates that the measured throughput in reliable and can be used for control.  
The system will automatically stop loading the hopper upon stopping the extruder. There is  
no need to manually start/stop a GH-M unit.  
Operator Displays  
Figure 33a: Typical Operator Screen for GH-M system  
It is not necessary to perform any special routine in order to start-up a GH-M Rate Monitor  
System. Use these easy steps:  
1. Start up your extruder  
2. Wait until you see the “Steady Process” indication on the screen (or through  
communications)  
3. Observe the “Lbs/hr” or “Kgs/hr” to adjust your extruder to the desired throughput.  
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4-2 GH Full Control Operation Procedures  
The system will begin monitoring the process rate once the GH System is placed into “RPM  
Mode” and a target RPM is entered into the controller. If started in “RPM Mode” then the  
GH should automatically load the hopper when necessary.  
The system can also be started in “Monitor Mode” by placing the GH into “Monitor Mode”  
and then running your extruder using the existing control equipment such as the original  
speed pot. Once the extruder RPM reading from the Extruder is detected in “Monitor Mode’  
the system will begin to load the hopper when necessary. Again, this RPM must be  
communicated to the PLC through the supplied inductive proximity switch, or through the  
optional Ethernet module. The extruder icon on the recipe page will become animated,  
indicating the extruder is running and the measured Extruder RPM will be displayed.  
The displayed value may be far from the actual value the first time the system is ran. The GH  
goes through a learning process with each material. This is indicated by a “Steady Process”  
indicator on the main recipe page. Upon starting the line you should always give the hopper  
time to analyze the flow and give you a “Steady Process” before making adjustments based  
on the displayed throughput.  
The initial learning process will be complete when the “Steady Process” indicator is  
displayed on the recipe screen. You are now ready to run the unit as normal. The “Steady”  
flag indicates that the measured throughput in reliable and can be used for control.  
The system will automatically stop loading the hopper once the GH is put into “Stop Mode”.  
Operator Displays  
Figure 33b: Typical Operator Screen for GH Full Control system  
Follow these steps to run the line:  
1. Place the GH in “RPM Mode” by touching the “RPM Mode” button from the recipe  
page  
2. Enter a target extruder RPM and hauloff speed  
3. Wait until you see the “Steady Process” indication before using “lbs/hr” data  
4. If you stay in RPM Mode then the extruder RPM and hauloff speed will remain  
constant. However, the function of the system is weight control. By placing the  
system in “Weight Mode” you can then adjust the system to a target “Lbs/hr” and  
“Feet/Min”. There are 2 other modes that can be used. “Weight Per Length” and  
“Weight Per Area”. In each of these modes the system can be custom configured for  
your recipe format (see setup). The benefit of placing the system in “Weight Mode”  
Chapter 4: Operation  
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is that the extruder speed will be slowly adjusted as the output of the extruder drops  
over time due to the screen pack becoming clogged.  
NOTE: The GH System can be started using your older speed pots by first placing the  
system into “Monitor Mode”. After you receive a “Steady Process” in “Monitor Mode”  
you can then transfer to “Step 1” mentioned above. Starting the system in “Monitor  
Mode” takes longer and requires a double stabilization step.  
NOTE: You can always go from any mode to “Stop Mode”  
NOTE: You can always go from “Weight Mode” to “RPM Mode”  
NOTE: You cannot go from “RPM Mode” back to “Monitor Mode” because the GH  
does not know where the speed pots are set at. This is a safety and can be bypassed only  
by placing consulting the factory for details.  
4-3 GH-F Gravimetric Feeder Operation Procedures  
The system will automatically start loading the hopper after the operator has first placed the  
GH-F feeder in either “RPM Mode” and enters in a target RPM for the feeder or “Weight  
Mode” and the system observes an extruder RPM measured by the extruder tracking  
proximity switch that is mounted on the rear of the extruder. It is important to note that you  
cannot write the extruder RPM measurement through communications on a GH-F feeding  
system. You must mount the extruder proximity switch that is shipped with the unit.  
Operator Displays  
Figure 33c: Typical Operator Screen for GH Full Control system  
Follow these steps to run the line:  
1. Place the Feeder into either “RPM Mode” (no extruder tracking) or “Weight Mode”  
(extruder tracking, start extruder first)  
2. If in RPM MODE enter in a target RPM for the feeder and the feeder will run at that  
RPM regardless of the extruder. This is useful for feeder calibration the first time  
you run the system with a new auger size.  
3. If in WEIGHT MODE enter in a desired % and let the system track the extruder  
RPM. You should not consider you are making good product until you see the  
“STEADY PROCESS” flag.  
4. If in WEIGHT MODE the system will automatically stop once the extruder stops.  
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4-4 Common Screens  
Figure 34: Typical Manual Control Operator Screen  
While the rate monitor system is in operation, there are a couple of displays available to the  
operator. These displays are selected simply by pressing the “NEXT” key when the unit is  
running. The default display shown when the rate monitor is in run mode is the Recipe  
Screen.  
.
Figure 35: Typical Inventory Display Operator Screen  
Chapter 4: Operation  
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Alarm Flags  
An alarm message will be shown if any alarm condition occurs. A message will pop up on  
the screen until the alarm condition is resolved. The operator can press “OK” on this pop-up  
to hide the screen temporarily, but if the alarm condition is still unresolved, then the message  
will reappear after a short delay. During an alarm condition, a visual alarm will be activated.  
The following is a list of all alarm names and descriptions:  
Alarms with Descriptions  
Hopper low level alarm: Hopper is about out of material  
Hopper out of material: Hopper is out of material  
Inventory cleared: Operator has cleared the inventory (only logged)  
Extruder no rpm detected_alarm: ONLY ON GH FULL CONTROL  
Extruder no flow detected_alarm: ONLY ON GH FULL CONTROL  
Hauloff drive failure alarm: ONLY ON GH FULL CONTROL  
Loadcell over max alarm: check loadcell circuit  
Reload too long alarm: First indication that you are about to run out of material  
System not stable alarm: System has been unstable for too long.  
hopper flow over allowed max: System rate is above allowed maximum setting  
extruder overspeed: Extruder is out of allowed linear range  
extruder underspeed: Extruder is out of allowed linear range  
hauloff overspeed: Hauloff is out of allowed linear range (ONLY ON FULL CONTROL)  
hauloff underspeed: Hauloff is out of allowed linear range (ONLY ON FULL CONTROL)  
feeder overspeed (GHF only): GHF Feeder is running too fast  
feeder underspeed (GHF only): GHF Feeder is running too slow  
surge hopper empty alarm (OPTIONAL): Prox is uncovered in Surge bin  
plc battery low: replace battery with power on as soon as possible  
plc memory module loaded: Indicates you have upgraded the software.  
Figure 48: Typical Manual Control Operator Screen  
The dump valve opens as soon as you touch the “Reload Off” button. The button then  
changes to show “Reload On”.  
Note: The system will stop if you attempt to turn the manual reload on. This  
could be devastating if you are running the extruder.  
Print Inventory  
The print inventory menu item is used to produce on demand, inventory printouts. Before  
selecting this item, be sure that the printer is properly connected and ready. This function will  
generate an inventory.  
Chapter 4: Operation  
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Chapter 5: Maintenance  
5-1 Preventative Maintenance Schedule  
The mechanical design of the GH Hopper is very simple and very little maintenance is  
required. The only moving parts are the metering gates, weigh hopper dump valve, and  
mixer agitator. The checklist below contains a list of items which should be inspected and/or  
replaced to keep your GH Hopper operating at peak efficiency. Perform each inspection at  
the regular intervals listed below.  
Figure 52: Sample Preventative Maintenance Schedule  
System model #  
Serial #  
Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/  
Daily  
By  
By  
By  
By  
By  
By  
By  
By  
By  
By  
By  
By  
By  
Inspect hopper for  
any loose parts-  
tighten them  
immediately.  
Verify quality of  
compressed air  
supply.  
Inspect weigh  
hopper for  
obstructions.  
Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/ Date/  
By By By By By By By By By By By By By  
Every week  
Verify the rate  
monitor is properly  
calibrated.  
Check to make  
sure that all hose  
connections are air  
tight.  
Every month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec  
Inspect air regulator  
and air safety  
circuits, if equipped.  
Recalibrate rate  
monitor If necessary.  
Photocopy this page for your maintenance records  
Chapter 5: Maintenance  
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5-2 Preventative Maintenance  
Our GH Hoppers need periodic maintenance to provide long dependable service. Check these  
elements regularly:  
Check functionality of safety circuit daily.  
Maintain proper air pressure and drain water from trap assembly on regulator – as  
required.  
WARNING! Always remove plug and disconnect power before servicing hopper.  
WARNING! Always read operating manual before operating or servicing hopper.  
5-3 Corrective Maintenance  
Electrical  
This section is designed to give the operator an overview of the electrical system that controls  
the GH Hopper system. Since the hopper’s control panel is a self-contained pluggable item,  
seldom will a maintenance person be required to enter the control panel. For purposes of  
understanding the system, it is advisable that the maintenance personnel be familiar with not  
only the internal workings of the control panel, but also with the input and output signals to  
the GH Hopper.  
This section includes the following:  
Internal components of the control panel  
Input signal to the control panel  
Output signals from the control panel  
Internal Components of the Control Panel  
Note: See Installation Packet supplied with unit for complete electrical  
schematics.  
This section describes the internal components of the GH Hopper system control panel. It is  
not the intent of this section to completely familiarize the reader with the details on industrial  
control panel construction or standards, but simply to familiarize the reader with the major  
components inside the control panel.  
The customer must supply 120/1/50 or 60 (or 220/1/50 or 60) via wires L1 & L2 (N). Please  
insure that the earth ground connection is properly connected to an established earth ground.  
“Power on” is indicated by a lighted on/off switch.  
“Reload” switch controls the vertical reload gate above the hopper.  
“Safety Active” light displays status of safety interlock circuit. Audible alarm horn  
alerts operator to GH Hopper fault.  
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Input Signals to Programmable Controller  
The rate monitor system has two main input signals that it uses from the extrusion process:  
the weigh hopper load cell, and the extruder speed reference. This, of course, does not include  
the operator touch-screen input.  
The extruder speed reference is generated from the supplied inductive proximity switch, or is  
wrote to the PLC through the optional Ethernet module.  
Load cells require +12 volts DC to operate. This is known as the load cell’s excitation  
voltage.  
Output Signals from Programmable Controller  
The rate monitoring system uses several output control signals to control the process. All of  
these are very similar in nature.  
The surge hopper refill solenoid is controlled by a PLC output.  
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Chapter 6: Troubleshooting  
6-1 Introduction  
The utmost in safety precautions should be observed at all times when working on or around  
the machine and the electrical components. All normal trouble-shooting must be  
accomplished with the power off, line fuses removed, and with the machine tagged as out of  
service.  
The use of good quality test equipment cannot be over-emphasized when troubleshooting is  
indicated. Use a good ammeter that can measure at least twice the AC and DC current that  
can be encountered for the machine. Be sure that the voltmeter has at least minimum  
impedance of 5,000 OHMS-per-volt on AC and 20,000 OHMS-per-volt on DC scales.  
Popular combination meters, VOM and VTVM can be selected to provide the necessary  
functions.  
Before making haphazard substitutions and repairs when defective electrical components are  
malfunctioning, we recommend that you check the associated circuitry and assemblies for  
other defective devices. It is common to replace the obviously damaged component without  
actually locating the real cause of the trouble. Such hasty substitutions will only destroy the  
new component. Refer to wiring diagrams and schematics.  
Locating mechanical problems, should they occur, is relatively straightforward. When  
necessary, refer to the parts catalog section.  
Figure 53: Typical Troubleshooting Problems and Suggested Corrective Actions  
Problem  
Corrective action  
Check to make sure that air is hooked up and the regulator gauge  
reads at precisely 60 PSI.  
Nothing happens when I start  
the extruder  
Look on the Recipe Screen. If you don’t see a displayed Extruder  
RPM then check the inductive proximity switch. If you do see a  
displayed RPM then check the hopper’s calibration  
“Interface has been Locked” is  
shown  
Click “Unlock” and enter in your User Password.  
Contact the Service Department.  
I’ve forgotten my User  
Password  
Change out the PLC with your spare and reprogram new unit.  
Send old PLC back to Manufacturer for repair.  
PLC Battery Low  
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Problem  
Corrective action  
Normal after a software upgrade. Follow on-screen instructions.  
PLC Module Loaded  
Weigh hopper occasionally  
overfills.  
Lower the hopper size under “Hopper Setup”  
Problem  
Corrective action  
Check the hopper’s scale calibration and verify that the hopper is  
not overfilling. If the hopper is overfilling, adjust your hopper  
size. If this is correct, then you are probably not accounting for  
material scrap or other items in your process.  
Recorded Inventory Totals  
don’t match what I’ve actually  
used  
Check that the printer is a SERIAL printer. If not, then you will  
need to either get a SERIAL printer or purchase a SERIAL to  
PARALLEL converter.  
Printer did not print  
Problem  
Corrective action  
Check to ensure that the weigh hopper is not touching any part of  
the frame and that the loadcell bracket is not touching the plastic  
cover of the loadcell. If these have been verified then check  
loadcell and replace if necessary.  
The feeder calibration values  
are moving too much.  
Problem  
Corrective action  
This Is caused by the difference in bits not being large enough.  
Using the Direct Scale Readout, examine current loadcell bits with  
and without the calibration weight. If the bits do not change  
significantly, then check for pellets jamming the loadcells and  
check the loadcell circuit. You might have a bad loadcell.  
I can’t calibrate the Scale  
without an error message.  
Note: Other service problems or questions can be answered by contacting the  
Service Department.  
Chapter 6: Troubleshooting  
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Chapter 7: Appendix  
7-1 Warranty and Spare Parts  
Unless otherwise specified, this product includes a Standard ONE YEAR PARTS  
WARRANTY.  
Warranty Specifications  
The manufacturer hereby expressly warrants all equipment manufactured by it to be free from  
defects in workmanship and material when used under recommended conditions, as set forth  
in the operating manuals for such equipment. THE FOREGOING EXPRESS WARRANTY  
IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES, GUARANTEES,  
AGREEMENTS, AND SIMILAR OBLIGATIONS OF THE COMPANY AND/OR  
MANUFACTURER (UNLESS OTHERWISE SPECIFIED IN THE SPECIFIC PRICE  
PAGE OR LIMITED BY THE MANUFACTURERS’ WARRANTY FOR PARTS). The  
Company’s obligation is limited to repair or replace FOB the factory any parts that are  
returned, prepaid, within one year of equipment shipment to the original purchaser, and  
which in the Company’s opinion, are defective. Any replacement part assumes the unused  
portion of this warranty.  
Warranty Restrictions  
This parts warranty does not cover any labor charges for replacement of parts, adjustment  
repairs, or any other work. This warranty does not apply to any equipment which, in the  
Company’s opinion, has been subjected to misuse, negligence, or operation in excess of  
recommended limits, including freezing or which has been repaired or altered without the  
Company’s express authorization. If the serial number has been defaced or removed from the  
component, the warranty on that component is void. Defective parts become the property of  
the warrantor and are to be returned immediately, without any further use or handling.  
Warranty Liabilities  
THE COMPANY EXPRESSLY DISCLAIMS ANY AND ALL LIABILITY FOR ANY  
SPECIAL, CONSEQUENTIAL OR INCIDENTAL DAMAGES OR EXPENSES THAT  
RESULT FROM THE USE OF THIS PRODUCT. Some states do not allow the exclusion or  
limitation of special, consequential or incidental damages, so the above limitation may not  
apply to you. The Company’s obligation for parts not furnished as components of its  
manufactured equipment is limited to the warranty of the manufacturers of said parts. The  
company neither assumes nor authorizes any other persons to assume for it any liability in  
connection with the sale of its equipment not expressed in this warranty. No person, agent,  
manufacturer, distributor, dealer, installer or company is authorized to change, modify or  
extend the terms of this warranty in any manner whatsoever.  
The time within which an action must be commenced to enforce any obligation of the  
Company’s arising under this warranty, or under any statute or law of the United States or  
any state thereof, is hereby limited to the duration of this warranty. Some states do not permit  
this limitation, so the above may not apply to you. This warranty gives you specific legal  
rights and you may also have other rights which vary from state to state. For transactions  
involving the potential applicability of international law or that of a foreign country,  
this warranty policy and the procedures hereunder shall be governed by  
applicable federal and state law, but not by the United Nations Convention on Contracts for  
the Sale of Goods.  
Chapter 7: Appendix  
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Customer Responsibilities  
Any sales, use, or other tax incident to the replacement of parts under this warranty is the  
responsibility of the purchaser.  
Annex B Information  
The following design information is provided for your reference:  
1. No modifications are allowed to this equipment that could alter the CE compliance  
2. Ambient temperature:  
Fahrenheit)  
40 degrees Celsius – Maximum (104 degrees  
3. Humidity range:  
4. Altitude:  
50% relative humidity  
Sea level  
5. Environment:  
6. Radiation:  
Clean, dust-free and non-explosive  
None  
7. Vibration:  
Minimal, i.e. machine mounting  
8. Special installation requirements: Clean, dry compressed air 1 cfm @ 60 psi (1.7  
m³/hr @ 4.14 bar)  
9. Allowable voltage fluctuation:  
10. Allowable frequency fluctuation: Continuous  
Intermittent  
+/- 10%  
+/- 1%  
+/- 2%  
11. Nominal supply voltage:  
12. Earth ground type:  
120/1/60 or 220/1/50/60 (Verify on serial number tag)  
TN (system has one point directly earthed through a  
protective conductor)  
13. Power supply should include a neutral power connection.  
14. Over-current protection is supplied in the GH Hopper, but additional protection  
should be supplied by the user.  
15. The plug on the power cord serves as the electrical disconnect device.  
16. Unit is not equipped with three-phase motors.  
17. Functional identification  
18. Cable support may be required for power cord, depending on final installation.  
19. No one is required to be in the interior of the electrical enclosure during the normal  
operation of the unit. Only skilled electricians should be inside the enclosure for  
maintenance.  
20. Doors can be opened with a screwdriver, but no keys are required.  
21. Two-hand control is not required or provided.  
22. All hoppers should be moved around and set in a place with a lift truck or equivalent.  
23. There are no frequent repetitive cycles that require manual controlrepetitive  
functions are automatic while the GH Hopper is operating.  
24. An inspection report detailing the functional test is included with the GH Hopper.  
25. The machine is not equipped with cableless controls.  
26. Color-coded (harmonized) power cord is sufficient for proper installation.  
Chapter 7: Appendix  
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Figure 57: Typical Surge Hopper Assembly Parts List  
#
DESCRIPTION  
010  
08223-1  
NA  
020  
872.00769.00  
872.00783.00  
-
35085K, 35086K  
35154, 35155  
35146  
040  
872.00830.00  
Lid (Smaller vacuum receivers)  
Lid (Larger vacuum receivers)  
Lid (Tube Stub for Mezz. Mounted GH Hopper)  
1/8” NPT fitting  
1/4” NPT fitting  
Bulkhead  
1
-
-
08223-2  
2
3
4
5
Brass elbow  
35118  
24V DC Solenoid  
33128  
33073  
6
Dump cone  
Air cylinder  
15370  
33126  
15237  
7
8
33011G  
Figure 60: Typical Weigh Hopper Assembly Parts List  
#
1
2
DESCRIPTION  
WEIGH HOPPER  
LOAD CELL  
LOAD CELL  
BRACKET  
010  
020  
822.00383.00  
A0564528  
040  
822.00384.00  
A0564546  
822.00382.00  
61-1010E-10KG  
872.00669.00  
3
Figure 64: Typical Allen-Bradley Controller Main Parts List  
#
1
2
3
4
5
6
7
8
Description  
ALL MODELS  
Allen-Bradley PLC MicroLogix 1500  
Thermocouple Input Card  
Allen-Bradley PLC Base Unit  
24V DC Power Supply  
A0565880  
A0565375  
A0565881  
A0563932  
739.00027.00  
A0565889  
A0542207  
A0563939  
A0565898  
715.01034.02  
12V DC Power Supply  
Alarm Light Yellow Strobe 24V DC  
Glass Fuse – 3.0 amp (115v unit)  
Ethernet Module (optional)  
Ethernet Module cable  
9
10  
120V Light (power switch)  
Figure 65: Typical Allen-Bradley Display Main Parts List  
#
1
2
3
Description  
Allen-Bradley Panelview Touchscreen Display  
PV 550 (DF-1 protocol)  
Enclosure Mounting Feet  
Display – 8 ft Connection Cable  
Display – 50 ft Connection Cable  
All MODELS  
892.001489.00  
A0567132  
A0565856  
A0565899  
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7-2 Addendum (Service Supervisor Information)  
Note: Untrained personnel of the rate monitor controller, should not use this  
section of the manual and/or program can be compromised!  
Note: Hidden, programmable features and hidden menu pages should not be  
made available to floor operators. These pages include the Service  
Supervisor Information addendum located in this section. Unauthorized  
changes to these factory settings by inexperienced operators may  
prevent the unit from operating properly, and may void part or all of the  
warranty.  
Caution!  
After all selections are made: Keep pressing the “Done” key until the unit  
returns to the Recipe menu.  
Note: Inexperienced operators or inexperienced plant personnel should not  
access programmable features. Unauthorized changes may prevent the  
rate monitor from operating properly and may void part or all of the  
warranty.  
Note: Call the Service Department for assistance or for further explanation of  
these or any other programmable features, which may or may not be  
shown in this manual.  
Note: Information included in this manual is subject to change without notice.  
Passwords  
User Password  
Maintenance Password  
“5413”  
“3145348”  
Caution!  
Maintenance password should only be supplied to qualified personnel!  
The program can be compromised.  
Programmable Settings  
The rate monitor software program has been designed to allow some customizing to achieve  
certain desired operating parameters. The following is a listing of the selections that are  
“field” programmable, followed by the procedure for doing so.  
Pressing the manufacturer’s icon when in the “Setup” Directory Screen menu accesses this  
menu.  
Figure 67: Typical Operator Setup Screen  
Touch this icon and  
enter in the Service  
Password to access  
the Engineering Only  
Directory  
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Enter the long password “3145348” and press “Enter”. The factory setup section displays the  
“Engineering Only” screen. The screen similar to that shown below should be displayed and  
use the keystrokes described herein to change or toggle the parameters.  
Figure 68: Typical Engineering Only Setup Screen  
Go back to  
Setup  
Directory  
Select the desired menu to advance to the screens listed below. The exit to the “Setup”  
screen select “Done”  
Figure 69: Typical Advanced Weight Options Screen  
Advanced Weight Options Screen  
*Only adjust the weight filter upon request by service  
*Increase the “Time to settle hopper after reload valve has shut” if the hopper needs more  
time to settle after reloading  
*Increase “No flow timer” and decrease “No flow bits” to reduce nuisance “no flow” alarms.  
Set to “0” will disable this alarm.  
Figure 70: Typical WTP Alogorithm Options  
WTP Algorithm Options Screen  
The method that is used to calculate the measured lbs/hr is entirely adjustable to fit any  
application. The three methods that can be used is “Extruder Pulse Count Method”, “Percent  
of Hopper Method”, or “Full hopper Method”. You cannot use the “Extruder Pulse Count  
Method” if you are writing the extruder speed through communications instead of using our  
inductive proximity switch.  
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Extruder Pulse Count Method  
This method updates the weight every “Number of Pulses for Calculation” detected by the  
extruder proximity switch. This is not the most automated method of the 3 choices, but has  
it’s advantages. If you are using an unusually large extruder and running it in production at a  
very low speed then this method works best because the snapshot is taken at the same  
rotational position of the extruder and eliminates errors in measurement that are caused by the  
pulsing of the feed throat.  
Percent of hopper Method (DEFAULT)  
This is the most automated and responsive of the 3 choices. The snapshot sample is based on  
the “Percent of Hopper for Calculation” setting. The smaller you make this setting the  
quicker the hopper will update. If this value is set too small then you will be measuring the  
instantaneous throughput of the feed throat instead of the average loss-in-weight. The  
average consumption at the feed throat always equals what is coming out at the die.  
However, the instantaneous feed throat usage is not equal to the usage at the die. This is due  
to the pressure barrier sections and design of your extruder. The goal of the GH system is to  
accurately control and measure what is coming out the die and not to respond to nuance  
changes at the feed throat. It is not recommended that you reduce this setting unless  
consulting engineering or service and you fully understand this feature.  
Full Hopper Method  
This is the most stable of all 3 choices. Upon reloading a weight snapshot and time are used  
to calculate the overall usage since the last reload. This is also the least responsive setting.  
WTP/RPM Filter  
When switching between the 3 methods you need to understand the sample time and  
configure the “WTP/RPM Filter” appropriately. A good example of this is that by default the  
hopper is configured to reload at 50% (keeps material in the vertical section of the hopper),  
sample in “Percent of Hopper Method” at 20%, and uses a filter of “9”. If it is desired to  
switch to the “Full Hopper Method” then you don’t need a filter of “9”. A filter of “9” uses  
10 points. At a sample of “20%” you get 2 samples per reload. It would therefore take 5  
reloads to fill the analyzer upon starting the line. After that the measurement will be updated  
with each and every 20%. When switching to the “Full Hopper Method” you only need a  
filter of “4” to achieve the same time frame of samples, but the response will be much  
dampened to any oscillation or error in measurement. If using the “Extruder Pulse Count  
Method” then you must do the math to determine what sample time frame you need.  
Steady WTP/RPM Window  
No matter which method you chose the analyzer compares the series of measurements to the  
“Steady WTP/RPM Window” percent to determine if the measurements are stable. If this is  
set too small the system might never give you a “Steady Process” indication. If set too big  
then the system could respond to nuance changes in the loadcell and cause an erratic response  
in your control system. When set properly the weigh hopper can be hit with a hammer (not  
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recommended) and it will not cause any error in the displayed measurement. Another more  
common procedure would be if an operator intermittently adds a processing agent to the  
extruder by dumping it directly into the weigh hopper. This will not cause any error due to  
the measurement algorithm that was previously mentioned.  
Max Allowed WTP/RPM  
If a lbs/hr per RPM value is every calculated above this setting then the GH will ignore the  
sample. This is to prevent an operator from draining a hopper while running and causing an  
erroneous, but consistent measurement. The flow through an open drain tube is very  
consistent and would cause the extruder to respond by speeding up unless this value is setup.  
By default this is disabled and must be configured by a knowledgeable service person. After  
running for some time you can go to the WTP/RPM Calibration page and observe the average  
WTP/RPM factor. You can then set this value above that by 200-300 % to eliminate the error  
caused by draining the hopper while running.  
Figure 71: Typical Mechanical Options Screen  
Max speed of  
GH-F  
Should be factory  
set to “GH  
Gravimetric  
Feeder (GH-F  
Only)  
Hopper Mode”  
unless system is a  
GH-F  
Used to change  
the pulses per  
revolution of  
the extruder  
Go back to  
Engineering Only  
Directory  
Mechanical Options Screen  
For a GH-M and GH Full Control Systems the “GH Hopper Mode” should always be  
enabled. If the system is a GH-F gravimetric feeder then this should be set to “GH Feeder  
Mode”.  
The mechanical options screen also allows the user to set the method of obtaining the  
extruder’s RPM. This setting should also be factory set.  
If the optional Ethernet module is purchased, the unit should be set to “Write Ext RPM  
through COM (F13:1).  
If the extruder’s RPM is being measured with the supplied proximity switch the unit should  
be set to “Measure Ext RPM with Prox”. If the mechanical device to measure the extruder’s  
speed presents more than one pulse per revolution, this value may be changed on the  
“Mechanical Options” page also. Simply input the number of pulses per revolution in the  
“Extruder PPR” field.  
The hauloff encoder setting is only used on GH Full Control Systems.  
The “GHF feeder max RPM” setting should only be set if the system is a GH-F gravimetric  
feeder. Set this value to the maximum RPM of the feeder itself. The AC drives double the  
maximum speed of the motor. Each motor can then run 3600 RPM. To calculate this setting  
divide by the gearbox setting (i.e. 10:1 would be 360).  
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Figure 72: Typical Analog Options  
Analog options screen  
This screen is not used with the GH-M Rate Monitor. Adjust appropriately for GH Full  
Control units and GH-F units.  
Figure 73: Typical Diagnostics Screen  
Go back to  
Engineering  
Only Directory  
Diagnostics Screen  
Use this screen for trouble shooting and making tuning adjustments. Typically make an  
adjustment, reset high/lows, and then weight for some time to observe this page.  
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Customer Setup Menu  
Password Protection  
The Setup screen allows you to change the default User Password that the GH Hopper uses to  
lock out certain screens. The password by default is “5413”. To change the password,  
follow the steps listed below:  
1. Set the Selected Operator to “USER” by touching the box located next to “Select  
Operator”.  
2. Touch “New Password” and enter in a new password.  
3. Touch “Verify Password” and enter in the same password.  
4. A message telling you that the password has been changed will appear.  
Figure 75: Typical User Password Setup Screen  
1. Select “USER”  
2. Enter New  
Password Here  
4. Back to Setup  
Directory  
3. Verify New  
Password to  
Finish  
If the Customer locks themselves out of a GH Hopper they can contact the manufacturer for a  
procedure that will let them back in. This password is used in several places throughout the  
GH Hopper, but can be bypassed by entering in the Manufacturer’s Service Password.  
Units  
This screen allows the user to change the GH Hopper’s unit of measurement. The entire GH  
Hopper can be configured in either Kgs. or Lbs., while the Target vs. Actual data can be  
configured for either regardless of the GH Hopper’s units.  
Alarm Log  
This screen shows the last 100 stored alarms. The log can be viewed, printed and cleared.  
Figure 79: Typical Alarm Log Screen  
Alarm Log  
Clear Alarm  
Log  
Go back to  
Setup  
Directory  
Print Alarm  
Log  
Scroll Through  
Alarm Log  
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7-3 Allen-Bradley Communications Manual  
The AB rate monitor uses a Micrologix 1500 LRP processor that communicates with the outside world  
using DF1 protocol with Ethernet hardware. Its Ethernet speed is 10/100 Mbits/second. The rate monitor  
must be purchased from ACS with the Ethernet option. If this was not done at the time of purchase it can  
be added afterwards by consulting the factory. The rate monitor has a programmable IP address and  
subnet mask that can be programmed from the Panel View that comes with the GH Hopper (refer to GH  
Hopper manual).  
Ethernet is the standard that we support, but AB also supports Device Net, DF, and DH485 protocol to  
these PLCs. Refer to AB documentation.  
The DF1 port is 19200 baud with no parity and a source ID of 1. This is usually not important since you  
will be communicating with the Ethernet module instead of directly with the DF1 port. Be sure that the  
DCOMM light is on by depressing the COMMS switch under the PLC front panel. After this light is on  
then you can touch the ACS icon and enter “5413”, then select Ethernet Setup, program in you IP address,  
click “send config to module”, and then wait about 45 seconds for it to program the new IP address. If  
you cannot ping the module then reboot the rate monitor and try again 45 seconds after booting.  
Note: ITEMS MARKED (R) ARE READ ONLY AND ITEMS MARKED  
(RW) ARE READ/WRITE  
Below are the items that can be accessed for the GH Hopper:  
GENERAL HOPPER INFO  
1. plc_version,n23:0 (xx.x)  
2. hopper_weight_percent,n20:1 (0-1150), easy to use scale to show weight  
3. total_weight_minus_tare ,f30:16, this is the material weight  
4. reload_output,o:0/0, to show reloading  
5. extruder_running_graphic_cycle,T4:9/dn, use this to toggle between 2 graphics (off=show graphic 1,  
on=show graphic 2)  
6. hauloff_running_graphic_cycle,n9:9, use this to toggle between 2 graphics (n9:0=0 then hauloff is not  
used, n9:0=1 then show graphic 1,n9:0=2 then show graphic 2)  
HOPPER MODE STATUS  
1. ramp_to_stop_engaged,b50:6/0  
2. monitor_mode_engaged, b50:6/1  
3. control_by_rpm_engaged, b50:6/2  
4. control_by_weight_engaged, b50:6/3  
HOPPER MODE CONTROL  
1. ramp_to_stop_pushed,b50:5/0 (toggle this bit to stop line)  
2. monitor_mode_pushed, b50:5/1 (toggle this bit to put in monitor mode)  
3. control_by_rpm_mode_pushed, b50:5/2 (toggle this bit to put unit in rpm mode)  
4. control_by_weight_mode_pushed, b50:5/3 (toggle this bit to put unit in weight mode)  
HOPPER ALARMS  
1. alarm_number,N26:0 (see below for description)  
2. hopper_low_level_alarm,b28:0/1  
3. hopper_out_of_material_alarm,b28:0/2  
4. hopper_over_filling_alarm,b28:0/3  
5. inventory_cleared,b28:0/4  
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6. extruder_no_rpm_detected_alarm,b28:0/5  
7. extruder_no_flow_detected_alarm,b28:0/6  
8. hauloff_drive_failure_alarm,b28:0/7  
9. loadcell_over_max_alarm,b28:0/8  
10. reload_too_long_alarm,b28:0/9  
11. gravimetrics_%_too_low_alarm,b28:0/10  
12. plc_battery_low,s:5/11  
13. plc_memory_module_loaded,s:5/8 (this alarm only happens while upgrading the GH Hopper’s  
software)  
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INVENTORY INFO  
1. clear_inventory,b3:0/3 (toggle this to clear all inventory, you must also reset this bit after completion)  
2. hopper_inventory,f25:0  
3. hauloff_accumalated_length,f31:4  
EXTRUDER SETPOINT INFO  
1. entered_extruder_rpm_target,f13:12 (write desired rpm here)  
2. extruder_rpm_target,f13:4  
3. extruder_rpm_instant,f13:1 (write rpm value here if you are not using the extruder prox signal for the  
calculation, NOT FOR GH-F GRAVIMETRIC FEEDER UNITS)  
HAULOFF SETPOINT INFO  
1. entered_hauloff_speed_target,f18:13 (write desired line speed here)  
2. hauloff_speed_target,f18:3  
3. current_measured_hauloff_speed,f18:1  
RECIPE SETPOINT INFO  
1. entered_recipe_target,f19:1 (write desired recipe entry here such as lbs/hr,lbs/ft,lbs/ft2)  
2. recipe_running_target,f19:0 (running target based on hopper mode)  
3. recipe actual value,f19:4 (compare this to target for accuracy)  
4. ext_wtp_target,f11:16 (lbs/hr or kgs/hr depending if the system is in imperial or metric)  
5. ext_wtp_average,f11:3 (lbs/hr or kgs/hr depending if the system is in imperial or metric)  
6. layflat,f19:3  
STEADY FLAGS  
1. system_stable,b50;2/5  
2. extruder_rpm_stable,b50:1/14  
3. extruder_wtp_stable,b50:2/0  
4. hauloff_stable,b50:2/1  
Alarm Number Explanation:  
The alarms are given in individual bits and are reflected in the alarm number. The alarm number is only  
used to drive a pop-up message and will probably not be very useful to you. If you decide to use the  
alarm number instead of reading the individual alarm bits then the related values are shown below:  
N26:0 Value Alarm Description  
0=  
NO ALARM  
1=  
HOPPER LOW LEVEL  
2=  
3=  
4=  
5=  
6=  
7=  
HOPPER OUT OF MATERIAL  
HOPPER OVER FILLING ALARM  
NO EXTRUDER RPM DETECTED  
NO EXTRUDER FLOW DETECTED  
HAULOFF DRIVE FAILURE  
LOADCELL OVER MAX  
8=  
PLC BATTER LOW  
Check PLC and Configure the GH Hopper  
9=  
PLC MODULE LOADED Turn Off Unit,Remove Module, then Configure the GH  
Hopper  
10=  
11=  
RELOAD TOO LONG  
GRAVIMETRIC PERCENTAGE TOO LOW Decrease Extrusion Rate  
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WRITING SETPOINTS EXPLANATION  
Extruder RPM set points, recipe set points, and haul-off set points can be wrote to while the unit is in stop  
mode. After engaging either RPM mode or Weight mode then the appropriate values will be applied.  
While in RPM mode the target recipe value will be overwrote by what the current actual running value is.  
This ensures that when you transfer to “Weight Mode” that the line set points do not change. This acts as  
a virtual cruise control for your line. Bring the extruder and haul-off up to the desired outputs and then  
place the unit in “Weight Mode” to maintain the ratio even as the screen pack builds up material over  
time.  
The Extruder RPM set points and haul-off set points can be modified while in RPM mode and the unit  
will respond immediately.  
The Recipe set point can be modified while in Weight mode. Some recipe set points may include the  
extruder RPM or the haul-off speed depending on the recipe mode selection. If the recipe mode selection  
is lbs/ft and the second entry is set to extruder rpm input then the target lbs/ft and the extruder rpm is set  
by the operator while the PLC calculates the target feet/min needed to achieve the desired recipe.  
No set points can be modified while in “Monitor Mode”. The PLC will take constant snap shots of the  
extruder RPM, haul-off speed, and recipe set points and will write these to ensure a “bump-less” transfer  
when entering into either RPM Mode or Weight Mode.  
The system can be placed in “RPM Mode”, or “Monitor Mode” from stop at any time. The system can go  
from “RPM Mode”, “Weight Mode”, or “Monitor Mode” into stop mode at any time as well. However,  
there are restrictions when transferring between other modes. The system must be stable before it will  
allow you to transfer from “RPM Mode” into “Weight Mode”. Also the system must be stable when  
transferring from “Monitor Mode” to “RPM Mode”. If you are in “Monitor Mode” you must transfer into  
“RPM Mode” and then stabilize before going into “Weight Mode”.  
FIXED DECIMAL EXPLANATION  
All weight values and recipe values use fixed decimal. This must be taken into consideration when  
writing or reading values. If you see “xxx.xxx” above this means the data is in fixed decimal and must be  
scaled when reading or writing. A decimal is shown next to each item to represent the format.  
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Technical Assistance  
Parts Department  
Call Spare Parts Express toll-free 8am-8pm EST (800) 423-3183 or Phone: (810) 720-7300;  
Fax: (810) 720-2598.  
OEM quality replacement and spare parts ensure operation at design specifications. Please  
have the model and serial number of your equipment when you call. Consult the Customer  
Parts List included in your information packet for replacement part numbers.  
Service Department  
Call toll free (800) 423-3183 8am-8pm EST – Emergency service available 24 hours a day.  
We have a qualified service department ready to help. Service contracts are available for most  
Sales Department  
Call (810) 720-7300 Monday through Friday 8am-5pm CST. Our products are sold by a  
worldwide network of independent sales representatives. Contact our sales department for the  
name of the sales representative nearest you.  
Contract Department  
Call (810) 720-7300 Monday through Friday 8am-5pm CST. Let us install your system. The  
Contract Department offers any or all of these services: project planning; system packages  
including drawings; equipment; labor; construction materials; and union or non-union  
installations.  
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