Installation
Operation
Maintenance
Custom
Climate Changer™
Air Handlers
Part No. X39640745010
July 2005
CAH-SVX01A-EN
Introduction
Use this manual to install, startup,
operate, and maintain the Custom
Climate Changer™ air handler.
Carefully review the procedures
discussed in this manual to minimize
installation and startup difficulties.
Custom Climate Changer™ air
handlers ship as complete
assemblies or in sections. Some
jobsite assembly is required when
the units ship in sections.
Refrigerant used in any type of air-
conditioning or refrigerating
equipment should be recovered for
reuse, recovered and/or recycled for
reuse, reprocessed (reclaimed), or
properly destroyed, whenever it is
removed from equipment. Never
release it to the atmosphere!
Protecting the
Environment
World environmental scientists have
concluded, based on the best
currently available evidence, that
ozone in our upper atmosphere is
being reduced due to the release of
CFC (chlorofluorocarbon) fully
halogenated compounds.
Unit Description
Custom Climate Changer™ air
handlers are designed for a variety
of controlled-air applications. The
basic unit consists of a fan, heating
and/or cooling coils, filters, and
dampers. See the unit submittal
drawings for detailed descriptions.
Each unit is provided with a
nameplate. This nameplate includes
unit model number, serial number
and electrical data.
Trane urges that all HVAC servicers
working on Trane equipment, or any
manufacturer’s products, make
every effort to eliminate, if possible,
or vigorously reduce the emission of
CFC, HCFC (halocarbon that contains
fluorine, chlorine, carbon, and
hydrogen), and HFC (halocarbon
that contains only fluorine, carbon,
and hydrogen) refrigerants to the
atmosphere resulting from
installation, operation, routine
maintenance, or major service on
this equipment. Always act in a
responsible manner to conserve
refrigerants for continued use even
when acceptable alternatives are
available.
The fans are internally isolated. To
insure fan stability, the unit ships
with a minimum of four lock-down
devices that prevent the fan from
shifting during shipment and
installation. These spacers must be
removed prior to fan operation to
assure proper vibration isolation.
Retain these spacers for use in
adjusting fan isolators if required.
The units are available with factory
mounted controls for climate and
humidity control. These can be use as
stand-alone devices or operate with a
complete controls system. End devices
include factory-mounted starters and
variable speed drives.
CAH-SVX01A-EN
3
Contents
Introduction .........................................................................3
Unit Description .................................................................................. 3
Protecting the Environment ................................................................ 3
Contents ...............................................................................4
General Information ............................................................5
Operating Environment ....................................................................... 5
Controls ............................................................................................... 5
Ultraviolet (UV) Germicidal Irradiation Lights (optional) ....................... 6
Pre-Installation Requirements ...........................................7
Receiving Checklist ............................................................................. 7
Resolving Shipping Damage ............................................................... 7
Job Site Storage Recommendations ................................................... 7
Preparing the Unit Site ........................................................................ 8
Roof Curb Installation .......................................................................... 9
Installation ......................................................................... 10
Lifting and Rigging .............................................................................10
Unit Assembly ....................................................................................11
TCP Model Assembly Instructions .................................................... 12
TCC Model Assembly Instructions .....................................................17
Duct Connections ............................................................................. 24
Component Installation Requirements ............................................. 24
Coil Piping and Connections ............................................................. 28
Wiring ................................................................................................ 41
External Insulating Requirements ..................................................... 42
Startup ...............................................................................43
Pre-Startup Checklist ......................................................................... 43
Unit Operation................................................................................... 44
Determine Fan Speed ....................................................................... 47
Sheave Alignment ............................................................................. 47
Multibelt Check ................................................................................. 47
Routine Maintenance ........................................................48
Air Filters ........................................................................................... 49
Drain Pans ......................................................................................... 50
Fans ................................................................................................... 50
Coils .................................................................................................. 52
Moisture Purge Cycle ........................................................................ 53
Internal Insulation .............................................................................. 54
Ultraviolet (UV) Germicidal Irradiation Lights ..................................... 55
Troubleshooting ................................................................56
4
CAH-SVX01A-EN
General
Information
Factory-mounted control systems
ordered with factory-mounted
starters or VFDs are supplied with
line to 24 Vac control transformers.
No additional power wiring is
required.
Operating
Controls
Environment
Wiring Sizes and
Connections
When considering the placement of
the Custom Climate Changer air
handler, it is important to consider
the operating environment. The
acceptable ambient temperature
range for unit operation is -40ºF to
140ºF (-40ºC to 60ºC).
As a standard, there are no
For a more in-depth understanding
of controls, refer to the following
manuals:
penetrations into the Custom air
handler for any field-provided wiring
or device. Before installation,
consider overall unit serviceability
and accessibility before mounting,
running wires (power), making
cabinet penetrations, or mounting
any components to the module
cabinet.
•
For factory-configured AH540/
AH541 controllers,
For heating applications, a special
motor may be required to withstand
the higher temperatures. Motors
with Class B insulation are
CNT-SVX05B-EN
•
•
•
•
For programmable MP580
controllers, CNT-SVP01A-EN
acceptable for ambient
For hardware installation,
CNT-SVN01A-EN
temperatures up to 104º F, while
motors with Class F insulation can
withstand ambient temperatures to
+140º F (60º C).
Wiring to the unit must be provided
by the installer and must comply
with all national and local electrical
codes. The fan motor nameplate
includes a wiring diagram. If there
are any questions concerning the
wiring of the motor, be sure to write
down the information from the
motor nameplate and contact your
local fan motor manufacturer
For Danfoss VFD,
TR1-SVX10A-EN
For universal programmable
control modules (UPCMs):
For the units furnished with gas
furnaces, the heating demands
require a special motor to withstand
the higher temperatures. These
motors are furnished with Class “H”
insulation to withstand this rigorous
duty.
–
–
EMTX-PG-5
EMTX-IN-22A
Custom air handlers and/or field-
installed accessories that must be
stored for a period of time prior to being
installed must be protected from the
elements. All controllers and electrical/
electronic components should be
stored in conditions of -20 to 120°F and
5- to 95-percent relative humidity non-
condensing. Electrical components are
not moisture-tolerant.
representative for assistance.
Note: The customer should provide
adequate freeze protection for the
coils.
Factory-Mounted Controls
Small items that cannot be factory
mounted will ship inside the control
enclosures. Larger items may ship
inside the fan module.
Note: All control valves ship directly
to the “ship-to address” from the
vendor unless another address is
given on the Trane sales order.
Note: The warranty will not cover
damage to the unit or controls due
to negligence during storage. A
controlled indoor environment is
recommended for proper storage.
For further storage considerations,
refer to “Job Site Storage
Depending on job requirements, the
customer may need to provide
120 Vac control power. A dedicated
15-amp circuit is recommended.
Recommendations” on page 7.
CAH-SVX01A-EN
5
General Information
ƽ WARNING
Ultraviolet (UV)
Germicidal
Irradiation Lights
(optional)
Equipment Damage From
Ultraviolet (UV) Lights!
Trane does not recommend field
installation of ultraviolet lights in its
air handling equipment for the
intended purpose of improving
indoor air quality. High intensity C-
band ultraviolet light is known to
severely damage polymer (plastic)
materials and poses a personal
safety risk to anyone exposed to the
light without proper personal
protective equipment (can cause
damage to eyes and skin). Polymer
materials commonly found in HVAC
equipment that may be susceptible
include insulation on electrical
wiring, fan belts, thermal insulation,
various fasteners and bushings.
Degradation of these materials can
result in serious damage to the
equipment.
The United States Environmental
Protection Agency (EPA) believes
that molds and bacteria inside
buildings have the potential to cause
health problems in sensitive
(1)
individuals . If specified, Trane
provides ultraviolet lights (UV-C) as
a factory-engineered and installed
option in select commercial air
handling products.
When UV lights are factory provided,
polymer materials that are
susceptible to deterioration by the
UV-C light will be substituted or
shielded from direct exposure to the
light.
In addition, UV-C radiation can
damage human tissue, namely eyes
and skin. To reduce the potential for
inadvertent exposure to the lights by
operating and maintenance
personnel, electrical interlocks that
automatically disconnect power to
the lights are provided at all unit
entry points to equipment where
lights are located.
Trane accepts no responsibility for
the performance or operation of our
air handling equipment in which
ultraviolet devices were installed
outside of the Trane factory.
1.United Sates Environmental Protection Agency; A
Brief Guide to Mold, Moisture and your Home;
Brochure EPA 402-K-02-003.
6
CAH-SVX01A-EN
Pre-Installation
Requirements
7
Manually rotate the fan wheel to
ensure free movement of the
shaft, bearings, and drive.
Inspect the fan housing for any
foreign objects.
Note: Do not attempt to repair the
unit without consulting the
delivering carrier.
Receiving Checklist
Based on customer requirements,
Custom Climate Changer air
handlers can ship as complete units
or as individual sections to be field
assembled.
3
Notify your Trane sales
representative of the damage
and arrange for repair.
8
9
Locate assembly hardware.
Note: Do not attempt to repair the
unit without consulting the Trane
sales representative.
Upon receipt of the unit(s) and prior
to unloading, remove any shipping
material and inspect the unit for
damage and verify that the shipment
is complete.
Inspect and test all piping for
possible shipping damage.
Nipples may be installed on coils
at the factory but should always
be tightened and tested before
any connections are made.
Rough handling during shipping,
in addition to other factors can
cause pipe connections to
become loose.
4
Keep the damaged material in
the same location as it was
received.
Note: Delivery cannot be refused.
Trane is not responsible for shipping
damage.
Note: It is the receiver's
responsibility to provide reasonable
evidence that concealed damage
was not incurred after delivery.
1
2
3
Visually inspect components for
any damage that may have
occurred during shipment.
Note: Trane will not be responsible
for any leak at the field connections.
Coils have been factory pressure
tested before shipping.
Check all access doors to confirm
that the latches and hinges are
not damaged.
Job Site Storage
Recommendations
Custom units and/or field-installed
accessories that must be stored for a
period of time before installation
must be protected from the
elements. A controlled indoor
environment is recommended for
proper storage.
Inspect the interior of each
Resolving Shipping
Damage
Trane air handlers ship free on board
(FOB), meaning that the unit belongs
to the customer the moment the
delivery truck leaves the factory. If
damage has occurred to the unit
during shipment, follow these
instructions:
section for any internal damage.
Note: Concealed damage must be
reported within 15 days of receipt.
4
Inspect the coils for damage to
the fin surface and/or coil
connections.
Note: The warranty does not cover
damage to the unit or controls due
to negligence during storage.
5
If the unit was ordered with
factory-mounted controls, locate
all sensors.
Note: Trane is not responsible for
shipping damage.
CAUTION
Use Canvas Only!
Use only canvas tarps to cover air
handlers. Plastic tarps cause
condensation to form in and on the
equipment, which can result in
corrosion damage or wet storage
stains.
Note: Items that cannot be factory-
mounted should ship inside the
control enclosures or should be
packaged inside the fan module or
mixing box module.
1
Make specific notation,
describing the damage, on the
freight bill. Take photos of the
damaged material, if possible.
6
Check all devices attached to the
unit exterior and confirm that
they are not damaged.
2
Report all claims of shipping
damage to the delivering carrier
immediately and coordinate
carrier inspection, if necessary.
CAH-SVX01A-EN
7
Pre-Installation Requirements
4
Cover the unit securely with a
canvas tarp.
5
Confirm the foundation of the
mounting platform is level and
large enough to include the unit
dimensions (refer to the unit
submittals for specific
General Storage
The unit controller and all other
electrical/electronic components
should be stored in conditions of
-20ºF to 120°F and 5 to 95 percent
relative humidity, non-condensing.
Electrical components are not
moisture-tolerant. Factory protective
coverings should be removed prior
to storage.
5
6
Do not stack units.
Do not pile other material on the
unit.
dimensions).
6
7
Provide adequate lighting for
maintenance personnel to
perform maintenance duties.
Preparing the Unit
Site
Provide permanent power
outlets in close proximity to the
unit for installation and
maintenance.
1
Ensure the installation site can
support the total weight of the
unit. The building roof must be
able to support the entire weight
of the unit, roof curb and
Long-Term Storage
For longer periods of storage, allow
proper clearance around the unit to
perform periodic inspection and
maintenance of the equipment.
8
9
Depending upon job
requirements, the customer may
need to provide 120 Vac power to
the unit controller. Refer to
submittals for more information.
A dedicated 15-amp circuit is
recommended.
accessories. Refer to the unit
submittals for weights.
While the unit is in storage:
•
Every two weeks, rotate the fan
and motor shaft 30 revolutions
by hand.
2
Allow sufficient space to allow
adequate free air and necessary
service access. Refer to
submittals for specific
minimums.
•
Every six months, check fan shaft
bearings and grease lines. Add
grease using a manual grease
gun following the lubrications
recommendations in “Fan
Wiring for Custom units must be
provided by the installer and
must comply with all national
and local electrical codes.
3
4
Allow room for supply and
return piping, ductwork,
electrical connections, and coil
removal.
Bearing Lubrication” on page 51.
10 Rooftop curb mounted units
must be sealed tightly to the
curb. Use proper sealants and
roof to curb sealing techniques
to prevent water and air leakage.
Outdoor Storage
Considerations
Ensure there is adequate height
for condensate drain
requirements. See “Drain Pan
Trapping” on page 29.
Outdoor storage is not
recommended; however, when
outdoor storage is necessary,
several things must be done to
prevent damage:
Note: Preparation of the roof curb or
pier mount and roof openings
should be completed prior to lifting
the unit to the roof.
Note: Inadequate height may
necessitate core-drilling the floor to
attain proper trap height. Insufficient
height could inhibit condensate
drainage and result in flooding the
unit and/or equipment room.
Note: Keep the equipment in the
original shipping container for
protection and ease of handling.
1
Select a well-drained area,
preferably a concrete pad or
blacktop surface.
ƽ WARNING
Level Foundation!
2
Place the unit on a dry surface or
raised off the ground to assure
adequate air circulation beneath
the unit and to assure no portion
of the unit will contact standing
water at any time.
The floor or foundation must be
level and the condensate drain at
the proper height for proper coil
drainage and condensate flow.
Standing water and wet surfaces
inside air-handling units could result
in microbial growth, which may
cause unpleasant odors, serious
health problems, or death.
3
Loosen the belt tension on the
drive belts.
8
CAH-SVX01A-EN
Pre-Installation Requirements
Typical Curb Installation
Checklist
Roof Curb
Installation
•
•
•
Verify that the roof structure can
adequately support the
combined weight of the unit and
curb assembly.
It is recommended that the curb be
installed directly on the support
members and fastened to the
supports using tack welds or other
equivalent methods. Properly
supported decking should be
installed inside the air handler
section of the curb when this
method is used. (See Figure 1)
Ensure that the selected
installation location provides
sufficient service and operational
clearances.
Remove any twist within the curb
due to roof supports and square
the curb.
•
•
Level the curb.
Secure the curb to the roof
support members.
•
•
•
Install 2-inch thick boards or rigid
insulation around the curb.
Figure 1. Cross section of typical curb installation on new construction
Install cant strips around the
curb.
Bring field supplied roofing felt
up to the top of the curb nailing
strips. ail felt into place.
•
•
Install field supplied flashing
under the lip of the curb flanges
and over the felt.
Apply sealant to the four
corners. Caulk all joints
between the curb and the
roof. Attach the gasket
material to the curb’s top
flanges (entire perimeter) and
to the supply and return air
duct opening panel flanges.
CAH-SVX01A-EN
9
Installation
Lifting and Rigging
Figure 3. Use proper lifting and rigging methods
ƽ WARNING
Lifting and Rigging!
Do not lift, rig, or ceiling-suspend
from the top of the unit. Lift from
lifting lugs only, located at the
bottom of the unit. Use all lifting
lugs provided.
Do not use cables (chains or slings)
except as shown. Each of the cables
(chains or slings) used to lift the unit
must be capable of supporting the
entire weight of the unit. Lifting
cables (chains or slings) may not be
of the same length. Adjust as
necessary for even unit lift.
Do not use a fork lift for handling
units. This may result in equipment
damage. Trane is not responsible for
equipment damage resulting from
improper forklifting practices.
Test lift unit approximately 24 inches
to verify proper center of gravity lift
point. To avoid dropping of unit,
reposition lifting point if unit is not
level.
General Lifting
Considerations
Per job requirements, air handlers
will ship as a complete assembly or
in sections.
•
Always rig subassemblies or
sections as they ship from the
factory. See the unit submittal
drawings for correct placement
of sections.
Always place, assemble, and
suspend sections one at a time.
Trane recommends that the
contractor use spreader bars and
slings to rig units and
Failure to follow instructions could
result in death or serious injury or
equipment damage.
subassemblies.
•
•
•
Always assemble unit at the
installation site. Never bolt
sections together before rigging.
Before preparing the unit for lifting,
estimate the approximate center of
gravity for lifting safety. Because of
the placement of internal
components, the unit weight may be
unevenly distributed, with more
weight in the coil and fan areas.
Refer to the unit submittals for
section weights. Test the unit for
proper balance and rigging before
lifting.
Figure 2. Recommended attachment to
lifting lugs.
Make the loop of the sling
parallel to the direction of
airflow, if possible.
Each of the cables used to lift the
unit must be capable of
supporting the entire weight of
the unit.
•
When hoisting the unit into
position, use the proper rigging
method, such as straps, slings,
spreader bars, or lifting lugs for
protection and safety.
Note: Never lift units in windy
conditions.
10
CAH-SVX01A-EN
Installation
•
•
Personnel should be positioned
overhead and on the ground to
guide the crane or helicopter
operator in positioning the
sections.
The building roof must be able to
support the entire weight of the unit,
roof curb and accessories. See
submittals for approximate unit
weights.
Unit Assembly
Note: If the unit is shipped as a
complete assembly, go to “Coil
Piping and Connections” on
page 28.
The air handler is not designed
to be lifted, rigged or ceiling
suspended from the top of the
unit.
•
•
•
Preparation of the roof curb or
pier mount and roof openings
should be completed prior to
lifting the unit to the roof.
Prior to unit assembly, refer to the
unit submittal drawings and unit
tagging for correct placement of
sections. Failure to review the
submittal drawings could result in
performance or assembly problems.
If there are any discrepancies,
contact your local Trane sales
representative before proceeding.
•
•
Never stack the pipe cabinet and
inlet hoods on the unit as the
unit is being lifted.
Check that the gasketing or
sealant on the roof curb is intact
and provides an airtight seal with
the unit base.
Do not attach the intake/exhaust
hoods to the unit prior to lifting
the unit. Doing so may damage
the equipment. Attach the hoods
to the unit only after all sections
are in place.
Complete all ductwork, piping
and electrical connections only
after mounting the unit.
All shipping supports and crating on
the face of the sections must be
removed and discarded to permit
proper fit-up and sealing of the
surfaces.
Assembly Hardware
Air handlers ship with all necessary
assembly hardware and gasket
material. This hardware is packaged
in either a clear plastic envelope or
cardboard box and can be found
inside one of the sections. If space
inside a section is not adequate, a
crate or pallet will be loaded onto
the bed of the truck. Check the Parts
List on the Field Assembly drawing
against the contents of the crate. Do
not proceed with unit assembly until
verification that all materials are
present. The number of sections to
be assembled often makes it
Units may be mounted on the roof
with a roof curb or pier mount. Units
may be mounted indoors on
housekeeping pads. Refer to
submittals for unit dimensions and
openings.
Note: For proper operation, the unit
must be supported around the entire
unit base perimeter. If the unit is
shipped in sections, the entire
section perimeter must be
supported, as well as at the base
channels of the unit splits.
necessary to use more than one
section to ship the material. Please
check all sections thoroughly before
contacting your local Trane sales
engineer to report missing
Provide clearance around the unit to
allow adequate free air and
necessary service access. Also,
allow room for supply and return
piping, ductwork, electrical
hardware.
connections, and coil removal.
CAH-SVX01A-EN
11
Installation
two sections should be within 12
inches to reduce the amount of
dragging required.
Note: Failure to compress the
gasketing may result in air leakage.
TCP Model
Assembly
8
Secure the unit sections at the
base using the field provided
bolts, nuts and washers at the
connecting plates.
Instructions
6
7
Remove lifting lugs on mating
section as required.
If your nameplate model number
begins with TCP, use the assembly
instructions below.
Insert threaded rods through
each hole of each mating
connecting plate (see Figure 4).
Bring each connecting surface
together uniformly until
9
Once the sections are pulled
together, install the assembly
hardware as applicable for the
walls, roof, and the base as
demonstrated in the following
assembly sections.
Joining Sections Edge-to-
Edge
gasketing is contacted.
Units must be installed level for
proper drainage of condensate from
the drain pan. In addition, each
section in a multi-section unit must
be properly supported.
Note: Use field provided threaded
rods inserted in all holes of each
connecting plate to prevent damage
and distortion of the sections as they
are joined. Tighten all rods in
Note: Leveling each section,
beginning with the first, is critical.
Failure to level and align the
sections immediately creates greater
misalignment or even structural
damage afterward.
sequence. Do not try to join sections
by tightening only some of the rods.
Figure 4. Insert threaded rods through each hole of mating connecting plate.
1
Remove all crating and wrapping
from the surfaces to be joined.
2
Place one section of the air
handler into the desired position.
Verify each section is level and
properly supported prior to
proceeding with assembly. Each
unit must be level side-to-side
and front to back. Check
squareness measuring the
critical dimensions given.
3
4
When the unit is positioned and
squareness is assured within 1/8-
inch, remove all lifting lugs
located along the split plane.
Install 4-inch x 1/4-inch neoprene
gasket to all mating surfaces of
the section, including the internal
walls. This gasket must be
applied to the full perimeter of
the section split of both sections
to be joined.
5
Move the next mating section
into alignment with the
positioned section. Alignment of
sections must be completed
before gasket surfaces meet. The
12
CAH-SVX01A-EN
Installation
3
4
Apply the 3-inch X 1/8-inch
gasket evenly across the two
joined edges of the splits.
TCP Base Section
Assembly (Typical)
Note: Failure to completely
compress the gasketing may result
in air leakage.
Before installing the pre-cut 4-
inch 18 gauge joining strip over
the gasket, pre-drill holes in the
floor using the 4-inch strip as a
guide with a 7/32-inch drill bit at
12 inch centers.
1
Join the two units and secure
with field provided 5/8-inch flat
washers and 5/8-inch X 2-1/2-inch
grade 9 bolts though each of the
six holes.
5
Apply the 4-inch joining strip
over the gasket and uniformly
straddle the splits. Secure with
number 14 sheet-metal screws at
12-inch centers.
2
Caulk the overlapping flange
along the length of each split to
maintain a seal.
Note: Use a polyurethane or
equivalent caulk.
Figure 5. TCP base assembly
PREDRILL HOLES
18 GAUGE JOINING STRIP
SECURE W/#14 S.M. SCREWS
@ 12" CTR'S.
WITH 7/32"
DRILL BIT.
4"
3" X 1/8" GASKET
ADD CAULKING BEFORE
ADDING JOINING STRIPS.
JOIN WITH
5/8" FLAT WASHER
SPLIT
4" X 1/4" GASKET.
SPLIT
5/8" X 2 1/2" GRADE 9 BOLTS
A
A
BASE ASSEMBLY.
CAH-SVX01A-EN
13
Installation
4
5
Apply the joining strip over the
gasket and uniformly straddling
the splits. Secure with number 10
sheet metal screws.
2
Add a bead of caulk along the
length of the roof seams. Install
the pre-cut J-cap over the seam
and secure with number 14 sheet
metal screws on 12-inch centers.
TCP Wall Section Assembly
(Typical)
1
Apply the walls and join at the
inside angles with number 14
sheet-metal screws on 12-inch
centers along the length of the
angles.
Fit the pre-cut hub cap over the
joining strip the vertical height of
the wall flush with the roof and
secure it to the wall with number
8 sheet metal screws. Fill the top
and bottom openings with caulk
as moisture seal. Pre drill holes
with a number 29 bit.
Note: Use a polyurethane or
equivalent caulk. It may be
necessary to clamp the joint
together or predrill to prevent
separation when drilling with
screws.
2
3
Apply the 1/8-inch gasket evenly
to the exterior of the walls across
the two joined edges of the
splits.
3
Apply caulk to the end cap
interior surface. Secure the end
cap on the J-cap with one
number 10 screw.
Before installing the pre-cut
joining strip over the gasket, pre- TCP Outdoor Roof Section
drill holes in the wall using the
strip as a guide with a number 29
drill bit at 12-inch centers.
Assembly (Typical)
1
Align the roof splits and join the
interior section trim with number
14 sheet metal screws on 12 inch
centers.
Figure 6. TCP outdoor roof assembly
INSTALLING J-CAP
SPLIT
SPLIT
SECTION TRIM ACTS AS
AS JOINING ANGLE
SECURE w/#14 S.M.
@ 12" CENTERS.
4" X 1/4" GASKET
APPLY CAULKING TO END CAPS
THEN SECURE END CAPS
TO THE ENDS OF J CAP.
J-CAP
SECURE J-CAP
W/#14 S.M. SCREWS.
END CAP
14
CAH-SVX01A-EN
Installation
4
Before installing the pre-cut
joining strip over the gasket, pre-
drill holes in the roof using the
strip as a guide with a number 29
drill bit at 12-inch centers.
TCP Indoor Roof Section
Assembly (Typical)
1
Align the walls and join the
inside angles with number 14
sheet metal screws on 12-inch
centers along the length of the
angles.
5
6
Apply the joining strip over the
gasket and uniformly straddling
the splits. Secure with #10 sheet
metal screws.
2
3
Apply a bead of caulk along the
length of the roof seam joint.
Fit the pre-cut hub cap and
secure it to the roof with #8 sheet
metal screws. Fill the end
openings with caulk as moisture
seal. Note: Pre drill the screw
holes with a number 29 bit.
Apply the 1/8-inch gasket on the
exterior of the roof evenly across
the roof split.
Figure 7. TCP indoor roof assembly
JOINING STRIP
PREDRILL HOLES
WITH #29
DRILL BIT.
SECURE WITH #10 S.M. SCREWS.
SECURE HUB CAP W/#8
S.M. SCREWS.
1/8" THICK GASKET
(2) 1 1/4" X 6" GALVANIZED ANGLE
SECURED W/ #14 S.M. SCREWS
@ 12" CENTERS
1/4" GASKET
INDOOR
ROOF ASSEMBLY COMPLETE
SPLIT
CAH-SVX01A-EN
15
Installation
2
3
Apply caulk the length of the
base between the 2-inch X 2-inch
angle on the one base section
and the wall on the adjoining
section. See Illustration below.
Note: Use a polyurethane or
equivalent caulk.
TCP Base to Interior Wall
Section Assembly (Typical)
Note: Failure to completely
compress the gasketing may result
in air leakage.
1
Join the two units and secure
with field provided 5/8-inch flat
washers and 5/8-inch X 2-1/2-inch
grade 9 bolts though each of the
six holes.
Secure the 2-inch X 2-inch angle
to the adjoining wall with
number 14 sheet-metal crews on
12-inch centers along the length
of the angle and wall.
Figure 8. TCP base to interior wall sections
4" X 1/4" GASKET
INTERIOR
WALL
SECURE 2" X 2" ANGLE TO WALL
W/#14 S.M. SCREWS @ 12" CTR'S
CAULK
SPLIT
SPLIT
INTERIOR
WALL
CAULK
CAULK
SPLIT
SPLIT
BASE TO WALL ASSEMBLY COMPLETE
16
CAH-SVX01A-EN
Installation
TCC Model
Assembly
Instructions
Figure 9. Remove shipping blocks
If your nameplate model number
begins with TCC, use the assembly
instructions below.
Joining sections - Edge to
Edge
Units must be installed level for
proper drainage of condensate from
the drain pan and for squareness of
the sections during installation. In
addition, each section in a multi-
section unit must be properly
supported.
Note: Leveling each section,
beginning with the first section, is
critical. Failure to level and align the
sections immediately creates greater
misalignment or even structural
damage afterward.
•
Remove all wooden blocks under
the unit and shipping protection
from adjoining surfaces (see
Figure 9).
Figure 10. Remove lifting lug bolts
•
Place the first section of the air
handler on the end of the roof
curb or the housekeeping pad.
The section must be level from
side-to-side and front to back.
Section squareness should be
within 1/8-inch. Remove the
bottom bolts from lifting lugs
located at the shipping split (see
Figure 10).
CAH-SVX01A-EN
17
Installation
•
Move the next unit section as
close as possible from the
previous section. The two
sections should be close enough
to reduce the amount of
dragging required. This is
particularly important when
mounting on a roof curb to
minimize damage to the sealant
on the roof curb. Alignment of
sections must be completed
before drawing sections
together.
•
•
Apply 1.25-inch x 0.33-inch
ribbed butyl tape to the shipping
split channel and shipping split
plates (see Figure 11).
Figure 12. Remove bottom bolts from
lifting lugs
Verify the section is level prior to
proceeding with the next section
of the unit.
•
Remove the bottom bolts from
the shipping split lifting lugs (see
Figure 12).
Figure 11. Apply butyl tape to shipping splits
18
CAH-SVX01A-EN
Installation
•
Insert field provided threaded
rods through the bottom lifting
lug and shipping split plates on
each sides of the unit. Draw both
sides of the section together
equally to prevent damage and
distortion of the sections as they
joined. Do not try to join sections
by tightening only one side of
the rods (see Figure 13).
Figure 14. Add caulk along the seam
Note: Field-provided threaded
hardware should consist of 5/8-11x12
inch threaded rods 5/8-inch lock
washers and 5/8-inch nuts.
Note: Failure to compress the butyl
tape may result in air and water
leakage.
•
Once the sections are pulled
together, add a bead of caulk
(sikaflex) along the seam
between the two perimeter caps
(see Figure 14).
•
Install the assembly hardware as
applicable for the shipping split
frame inside of unit, the walls,
and the roof as demonstrated in
the following assembly sections.
Figure 13. Insert field provided threaded rods
CAH-SVX01A-EN
19
Installation
TCC internal shipping split
frame assembly (typical)
•
Join the two sections and secure
with field provided ½-13x8.5 inch
threaded rods, ½-inch flat
washers and ½-inch lock washers
through each of the holes
provided in the internal shipping
split frame (see Figure 15) This
frame runs around the entire
perimeter of the unit (see
Figure 11).
Figure 15. Join internal shipping split frame
20
CAH-SVX01A-EN
Installation
TCC wall sections
assembly (typical)
TCC indoor roof sections
assembly (typical)
•
Verify external unit squareness.
•
Verify external unit squareness.
•
Apply the 1.25-inch x 0.33-inch
ribbed butyl tape to the exterior
of the walls covering the seam of
the two adjoining sections (see
method sheet).
•
Apply the 1.25-inch x 0.33-inch
ribbed butyl tape to the exterior
of the roofs covering the seam of
the two adjoining sections (see
method sheet).
•
Install seam cap over the butyl,
uniformly straddling the splits.
Secure with the provided
number 10 sheet metal screws
(see Figure 16).
•
Install seam cap over the butyl,
uniformly straddling the splits.
Secure with the provided
number 10 sheet metal screws.
Figure 16. Install seam cap over the butyl tape
CAH-SVX01A-EN
21
Installation
TCC outdoor roof sections
assembly (typical)
•
Join two outdoor roof panels
together at the seams at the
direction of airflow and secure
them in place with 5/16-inch x
3/4-inch bolts and 5/16 lock nuts.
Cut the proper length of roof
joint strip to cover the seam
between two outdoor roof panels
at the direction of airflow.
(exclude single outdoor roof
panel) (see Figure 17).
Figure 17. Join outdoor roof panels at the seams
22
CAH-SVX01A-EN
Installation
•
Join outdoor roof panels
together at the seams in the
direction perpendicular to
two outdoor roof panels overhang at
the side the unit. Bend joint strip
over roof panel and use two number
10 sheet metal screws (one in each
roof panel) to secure joint strip. Trim
the roof joint strip to insure that it
does not protrude more than
airflow and secure them in place
with 5/16-inch x 3/4-inch bolts
and 5/16 lock nuts. Install the roof
joint strip to cover the seam
between two outdoor roof panels
in the perpendicular to airflow
direction of. Use 3/8-inch butyl
tape to cover the seam between
1/16-inch beyond outdoor roof
overhang (see Figure 18).
Figure 18. Trim roof joint strip
CAH-SVX01A-EN
23
Installation
ƽ WARNING
To activate the isolation, remove the
shipping tie-down blocks. Retain
these blocks for use in adjusting
isolators if necessary.
Duct Connections
Hazardous Voltage with
Capacitors!
All duct connections to the units
should be installed in accordance
with the standards of the National
Fire Protection Association (NFPA)
for selecting and installing of air
conditioning and ventilating
Disconnect all electric power,
including remote disconnects and
discharge all motor start/run
capacitors before servicing. Follow
proper lockout/tagout procedures to
ensure the power cannot be
inadvertently energized. For variable
frequency drives or other energy
storing components provided by
Trane or others, refer to the
Isolator Adjustment
Note: Isolators are pre-adjusted and
set at the factory. Follow this
systems other than residence type
(NFPA 90A), and residence type
warm air heating and air
procedure only if necessary and as it
applies to the isolators used in this
unit. This procedure, for isolators
can, and should be, performed by
one person to ensure that the proper
sequence is followed.
conditioning systems (NFPA 90B).
To ensure the highest fan efficiency,
duct turns and transitions must be
made carefully, minimizing air
friction losses and turbulence.
Proper duct work installation by such
organizations as SMACNA (Sheet
Metal and Air Conditioning
appropriate manufacturer’s
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
Failure to disconnect power and
discharge capacitors before
Isolators are selected for distribution
of equipment weight, but may not all
compress the same. This procedure
assumes the base surface is level.
Isolators are not intended to be
leveling devices.
Contractors National Association,
Inc.) should be adhered to.
servicing could result in death or
serious injury.
1
Verify that the shipping bolts that
hold the fan base in a fixed
position have been removed.
Note: For additional information
regarding the safe discharge of
capacitors, see PROD-SVB06A-EN.
Component
Installation
Requirements
Each component in the Custom air
handler may have installation
requirements that could affect the
unit’s performance.
2
Remove the jam nut on top of the
isolator adjusting stud at the first
isolator to be adjusted. Check
that the shipping block is in
place.
Turn the adjusting nut 2 or 3 turns
only, counterclockwise on each
isolator in a sequenced manner. The
equipment weight will compress the
spring inside the housing
approximately 1/4 inch.
Note: For components included in
the unit but not included in this
manual, reference the component
manufacturers specific Installation,
Maintenance, and Operation
manual. Copies of these manuals
are either included in the package
with this unit IOM or are attached to
the components mounted in the
unit.
Figure 19. Isolator
JAM NUT
SHIPPING
BOLT
FAN BASE
SHIPPING TIE-
DOWN BLOCK
(SHIM)
Fans
The fan and motor assembly are
internally isolated. The fan and
motor bases are bolted to a
minimum of four spring isolators.
The isolators are secured to the fan
section support base. Shipping tie-
down blocks are bolted to the
isolators between the fan base and
the isolator support frame.
ADJUSTING
NUT
24
CAH-SVX01A-EN
Installation
3
4
Check that the bushing on the
isolator stud is centered in the
isolator. Adjust to center by
moving the stud in the fan base
hole.
The actuators, factory-mounted or
field-supplied, are separately wired
and controlled by a direct-digital
controller or other building logic.
Control Dampers
If the damper actuators are not
factory mounted install damper
actuators and connecting linkage.
Check damper operation and linkage
alignment.
VCM (Transducer) Calibration. The
VCM has an auto-zero function that
recalibrates the transducer once
every minute.
This procedure will raise the
equipment load until the
Damper blades should be non-
binding. Adjust damper frame as
necessary to ensure free blade
movement.
isolators are all off the shims
(shipping tie-down blocks)
approximately 1/32-inch (the
thickness of a credit card), and
the internal gap is approximately
equal to the external gap.
Input Power Signal. The only input
signal the VCM needs is the 24 Vac
power connected to terminals 1TB1-
5 and 1TB1-6.
Magnahelic Air Filter Gage
Output Velocity Signal. The
Check zero adjustment of the gage.
Turn both vent valves to the “Vent”
position and adjust the gage pointer
to zero by means of the external
adjustment screw in the face of the
gage. After zeroing, turn the vent
valves to the “Line” position.
2 to 10 VDC linear output signal from
the VCM represents air velocity. This
voltage can be converted to
represent airflow (cfm or L/s) using
the formula below, Table 1 and data
in your submittal package.
Note: Do not adjust isolators once
the fan base is off of the shipping tie
down blocks.
5
Continue adjusting other
isolators in sequence and repeat
the same adjustment. Continue
until all isolators are adjusted.
(volts – 2)
------------------------------
Airflow = k (cfm @ 10V)
8
6
Replace the jam nut on each
isolator adjusting bolt, tighten
the nut, and remove the shipping
tie down block.
OR
(volts – 2)
------------------------------
Airflow = k (L/s @ 10V)
8
Altitude can be adjusted for by using
the following factors:
Traq™ Dampers
Traq dampers are low-leak dampers
that modulate and measure airflow.
Each Traq damper module is
supplied with a factory-mounted
ventilation control module (VCM) on
the interior of the mixing box
module. The VCM has an input
terminal for power and an output
terminal for air velocity (see
Figure 20).
Table 1. Altitude adjustment factors
Sea level = 1.0
Elevation (feet)
1000
k
0.982
0.964
0.949
0.930
0.914
0.897
0.876
0.860
0.846
0.825
2000
3000
4000
5000
6000
7000
8000
9000
10,000
Figure 20. Traq damper terminal connections
Ventilation Control
Module
Velocity (2–10 Vdc)
GND
1TB1–3
1TB1–4
1TB1–5
1TB1–6
24 Vac
GND
CAH-SVX01A-EN
25
Installation
Side Load Filters
Air Filters
Figure 21. C-70 fastener holds 2-inch
filter
Most filters in custom units are
installed in unitary sheet metal
frames. If unit is provided with side
access rack, do the following for
installation:
Front Load Filters
Most filters in custom units are
installed in unitary sheet metal
frames. Filters are secured with a
metal clip. There are several
different styles.
2-inch or 4-inch flat filters.
1
2
Disconnect the power to the unit.
To install filters:
Open the filter section access
door and remove the filters and
block-offs from their installed
position.
1
2
3
4
Disconnect power to the unit.
Open or remove the filter clip.
Remove the filter from the rack.
Figure 22. C-86 fastener (shown) or C-
77 fastener holds 4-inch pleated filters
3
4
Slide the filter into the rack.
Install new filters with the
directional arrows pointing in the
direction of airflow.
Some side load racks will be
provided with block-off plates.
Install them into the rack last
before closing the door.
5
Secure the filter using the
appropriate clip for each filter.
5
Close and secure the door,
making certain the door closes
snug against the block-off (see
Figure 25).
Review Figure 21 through Figure 24
for an explanation of the methods
for securing the different types of
filters.
Figure 23. Bag filter show with C-70
fastener
The filters are often installed in a
pre/post filter configuration. Be sure
to note the order of installation.
Note: Filters must have an airtight
seal to prevent air bypass.
ƽ WARNING
Hazardous Voltage with
Capacitors!
Figure 24. C-80 spring fastener
secures cartridge
Disconnect all electric power,
including remote disconnects and
discharge all motor start/run
capacitors before servicing. Follow
proper lockout/tagout procedures to
ensure the power cannot be
inadvertently energized. For variable
frequency drives or other energy
storing components provided by
Trane or others, refer to the
appropriate manufacturer’s
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
Failure to disconnect power and
discharge capacitors before
servicing could result in death or
serious injury.
26
CAH-SVX01A-EN
Installation
Bag or Cartridge Filters.
Outdoor Unit Weather
Hood(s)
1
2
Disconnect power to the unit.
1
Per the unit drawing determine
mounting location of the unit
weather hoods.
Keeping the bag filters folded,
slide each filter into the filter
rack, pushing them tightly
against the unit. Pleats should be
in the vertical position.
2
All weather hoods have been
pre-fit on the unit and removed
for separate shipping at the
factory. Remove any factory
mounted screws located in the
weather hood mounting
location.
3
4
5
If using optional pre-filters, slide
them into the appropriate filter
rack.
If block-offs are provided with the
unit, slide the block-offs into the
filter track.
3
Using the factory provided
screws mount the weather hoods
to the unit.
Close and secure the access
door, making certain the door
closes snug against the rack.
Note: Note it is required that the
hoods be sealed to the unit using
field provided caulk or gasket.
Note: The block-off is intended to
make a seal when the access door is
closed. It may require a few
adjustments to ensure a proper seal.
Figure 25. Filter block-off placement
CAH-SVX01A-EN
27
Installation
Note: The contractor is responsible
for supplying the installation
hardware.
CAUTION
Prevent Coil Damage!
Coil Piping and
Connections
To prevent coil damage, do not use
teflon-based products for any field
connections because their high
lubricity may allow connections to
be over-tightened. Failure to use
proper materials may cause coil
header damage.
•
For best results, use a short pipe
nipple on the coil headers prior
to making any welded flange or
welded elbow type connections.
General Recommendations
Proper installation, piping, and
trapping is necessary to ensure
satisfactory coil operation and to
prevent operational damage:
•
Extended drain and vent
connections are provided as
standard on DD and D coils only.
If extended drains and vents are
required on other water coils,
they must be field-installed or
ordered as specials from the
factory.
Seal the piping penetration into the
unit casing before insulating. Seal
from inner panel to outer panel to
prevent unconditioned air from
entering the module. Failure to
properly seal penetrations may
cause water leakage.
•
Support all piping independently
of the coils.
•
Provide swing joints or flexible
fittings on all connections that
are adjacent to heating coils to
absorb thermal expansion and
contraction strains.
•
•
Pipe coils counterflow to airflow.
When attaching the piping to the
coil header, make the connection
only tight enough to prevent
leaks. Maximum recommended
torque is 200 foot-pounds.
•
If the coil was ordered with
factory-mounted controls, install
the control valves. The valves
ship separately.
CAUTION
Use Approved Glycol!
If glycol is used in chilled water or
hot water systems, use a glycol
approved for use with commercial
cooling and heating systems and
copper tube coils. Failure to do so
may result in equipment damage.
•
•
Use pipe sealer on all thread
connections.
After completing the piping
connections, seal around pipe
from inner panel to outer panel.
CAUTION
Use a Backup Wrench!
Use a backup wrench when
attaching piping to coils with copper
headers to prevent damage to the
coil header. Do not use brass
connectors because they distort
easily and may cause connection
leaks.
28
CAH-SVX01A-EN
Installation
Drain Pan Trapping
Threaded condensate drain
Figure 26. Drain pan trapping for module under negative pressure
connections are provided on only
one side of the coil module. Pitch the
connection lines horizontal or
downward toward an open drain.
Trane recommends installing a plug
to facilitate cleaning of the trap.
Figure 26 illustrates the proper
trapping, piping, and operation of
the trap for negative pressure
modules. Use the formula under the
figure to determine the correct
minimum depth for the condensate
trap.
Figure 27 illustrates the proper
trapping, piping, and operation of
the trap for positive pressure
modules.
L = H + J + pipe diameter
where:
H = 1 inch for each inch of negative pressure* plus 1 inch
J = 1/2 H
CAUTION
Water Damage!
When more than one module has a
drain pan, trap each module
*Negative pressure=total unit static pressure at worst case (loaded filters)
minus external pressure
individually. Connecting all drains to
a common line with only one trap
may result in condensate retention
and possible water damage to the
air handler or adjoining space.
Figure 27. Drain pan trapping for module under positive pressure
K = 1/2 inch (minimum)
H = 1/2 inch plus the total unit static pressure at worst case (loaded filters)
CAH-SVX01A-EN
29
Installation
•
Install a 1/2-inch NPT, 15 degree
swing check valve vacuum
breaker with cracking pressure of
0.25 inches Hg (3.5 inches water)
or lower at the top of the coil.
This vacuum breaker should be
installed as close to the coil as
possible.
Steam Coil Piping
CAUTION
Coil Damage!
M-Series air handlers fitted with
steam coils have labeled holes for
piping penetrations. Figure 28 and
Figure 29 illustrate typical steam coil
piping configurations. See Table 2
for the codes of system components
in these figures.
In all steam coil installations, the
condensate return connections must
be at the low point of the coil.
Failure to properly install the
condensate return connection may
result in coil damage from water
hammer, unequal thermal stress,
freeze-up and/or corrosion.
•
•
•
For coil types A, AA, N, NS, and
NN, install the vacuum breaker in
the unused condensate return
tapping at the top of the coil.
Table 2. Code of system components
for piping figures
Code System component
Note: The 1/2-inch NPT, 15 degree
swing check valve vacuum breaker is
recommended because other
vacuum breakers, such as spring-
loaded ball-check breakers, have
cracking pressures as high as 1.25
inches Hg (17 inches of water).
Vacuum breakers with fitting sizes
smaller than 1/2 inch NPT are too
small to relieve vacuum quick
enough to ensure complete
condensate drainage. Other types of
swing check valve vacuum breakers
are acceptable if the fittings size is
not smaller than 1/2-inch NPT and
the cracking pressure is not larger
than 0.25 inches HG (3.5 inches of
water).
Types T and ST coils require that
the vacuum breaker be located
as near as possible to the supply
connection.
FT
GV
OV
Float and thermostatic steam trap
Gate valve
Automatic two-position (ON-OFF)
control valve
VB
ST
AV
MV
Vacuum breaker
Strainer
Automatic or manual air vent
Modulating control valve
Vent the vacuum breaker line to
atmosphere or connect it into the
return main at the discharge side
of the steam trap
The coil condensate return line must
be piped full size of the condensate
trap connection, except for a short
nipple screwed directly into the coil
header’s condensate return tapping.
Do not bush or reduce the coil return
tapping size.
Note: Vacuum breaker relief is
mandatory when the coil is
controlled by a modulating steam
supply or automatic two position
(ON-OFF) steam supply valve.
Vacuum breaker relief is also
recommended when face-and-
bypass control is used.
30
CAH-SVX01A-EN
Installation
Proper steam trap installation is
necessary for satisfactory coil
performance and service life. For
steam trap installation:
Figure 28. Typical piping for Type N steam coils and horizontal tubes for horizontal
airflow
1
Install the steam trap discharge
12 inches below the condensate
return connection. Twelve inches
provides sufficient hydrostatic
head pressure to overcome trap
losses and ensures complete
condensate removal.
a
Use float and thermostatic
traps with atmospheric
pressure gravity condensate
return, with automatic
controls, or where the
possibility of low-pressure
supply steam exists. (Float
and thermostatic traps are
recommended because of
gravity drain and continuous
discharge operation.)
b
Use bucket traps only when
the supply steam is not
modulated and is 25 psig or
higher.
Figure 29. Typical piping for Type NS steam coils and horizontal tubes for
horizontal airflow
Note: Trane steam coils require a
minimum of 2 psi of pressure to
assure even heat distribution.
2
3
4
Trap each coil separately to
prevent holding up condensate
in one or more of the coils.
Install strainers as close as
possible to the inlet side of the
trap.
If installing coils in series airflow,
control each coil bank
independently with an automatic
steam-control valve. Size the
traps for each coil using the
capacity of the first coil in
direction of airflow.
5
Use a modulating valve that has
linear flow characteristics to
obtain gradual modulation of the
coil steam supply.
Note: Do not modulate systems with
overhead or pressurized returns
CAH-SVX01A-EN
31
Installation
unless the condensate is drained by
gravity into a receiver, vented to
atmosphere, and returned to the
condensate pump.
Figure 30. Typical piping for type 5W one-row water coil
6
Pitch all supply and return steam
piping down 1 inch for every
10 feet in the direction of the
steam or condensate flow.
Note: Do not drain the steam mains
or take-offs through the coils. Drain
the mains ahead of the coils through
a steam trap to the return line.
7
Ensure overhead returns have
1 psig of pressure at the steam
trap discharge for every 2 feet of
elevation for continuous
condensate removal.
Figure 31. Typical piping for type 5A, 5W two-row, K, W 3- to 12-row, WD, D, and
DD water coils
Water Coil Piping
Figure 30 through Figure 32
illustrate typical water coil piping
configurations.
Type WA, 5A, 5W, D, K, W, UW, TT,
P,2, P4, and P8 water coils are self-
venting only if the water velocity
exceeds 1.5 feet per second (fps) in
the coil tubes. Type UU, WD, and 5D
water coils are self-venting only if
the water velocity exceeds 2.5 fps in
the coil tubes. See the unit
submittals for coil water velocity. If
the water velocity is below these
minimums, vent the coil by one of
the following methods:
•
Install an air vent in the top pipe
plug tapping of the return
header.
Figure 32. Typical piping for type W or WA 1-row water coil
•
When the return line rises above
the top of the coil, vent from the
top of the return header
horizontally to the return piping.
Note: T, ST, and TT coils are
designed with larger than normal
end tube sheet holes to allow for
maximum expansion. Air leakage
around tubes should be expected
and handled by capping over coil
ends or by sealing around tubes
with a pliable sealant such as
silicone.
32
CAH-SVX01A-EN
Installation
proper sequence for positioning
them in the liquid line. Position the
components as close to the
evaporator as possible.
Routing. Install the liquid line with a
slight slope in the direction of flow
so that it can be routed with the
suction line. Minimize tube bends
and reducers because these items
tend to increase pressure drop and
to reduce subcooling at the
expansion valve. Liquid line
receivers, other than those that are
factory-installed, are not
Refrigerant Coil Piping
Note: Refer to the “Protecting the
Environment” section on page 3 for
information on handling
refrigerants.
•
Filter drier. There is no substitute
for cleanliness.during system
installation. The filter drier
Use Figure 33 to determine the
proper, relative sequence of the
components in the refrigerant lines
that connect the condensing unit to
an evaporator coil. Refer to the
“Examples of Field-Installed
Evaporator Piping” section on
page 35 for more detailed
schematics of evaporator piping.
prevents residual contaminants,
introduced during installation,
from entering the expansion
valve and solenoid valve.
recommended.
•
•
Access port. The access port
allows the unit to be charged
with liquid refrigerant and is
used to determine subcooling.
This port is usually a Schraeder
valve with a core.
Insulation. The liquid line is
generally warmer than the
surrounding air, so it does not
require insulation. In fact, heat loss
from the liquid line improves system
capacity because it provides
additional subcooling.
Liquid Lines
Solenoid valve. In split systems,
solenoid valves isolate the
refrigerant from the evaporator
during off cycles; under certain
conditions, they may also trim
the amount of active evaporator
as compressors unload.
Line Sizing. Properly sizing the liquid
line is critical to a successful split-
system application. The selected
tube diameter must provide at least
5°F [2.7°C] of subcooling at the
expansion valve throughout the
operating envelope. Increasing the
size of the liquid line will not
Components. Liquid-line refrigerant
components necessary for a
successful job include a filter drier,
access port, solenoid valve,
moisture-indicating sight glass,
expansion valve(s), and ball shutoff
valves. Figure 33 illustrates the
Generally, the “trim” solenoid
valve is unnecessary for variable-
air-volume comfort-cooling
applications, and is only required
for constant-volume applications
when dehumidification is a
concern.
increase the available subcooling.
Figure 33. Example of placement for split-system components
•
Moisture-indicating sight glass.
Be sure to install one moisture-
indicating sight glass in the main
liquid line. The only value of the
sight glass is its moisture
indication ability. Use actual
measurements of temperature
and pressure—not the sight
glass—to determine subcooling
and whether the system is
properly charged. The moisture
indicator/sight glass must be
sized to match the size of the
liquid line at the thermal
expansion valve.
Kit with Kit Kit
Kit with sensor 13790452010 SEN-01212
Kit with switch - X13100429010 THT 02442
CAH-SVX01A-EN
33
Installation
Routing. To prevent residual or
•
Thermal expansion valve. The
expansion valve is the throttling
device that meters the
refrigerant into the evaporator
coil. Metering too much
Cut the process tube and cap
assembly from the liquid connection
as shown in Figure 34 and install the
expansion valve directly to the liquid
connections.
condensed refrigerant from “free-
flowing” toward the compressor,
install the suction line so it slopes
slightly—that is, by 1/4-inch to 1-inch
per 10 feet of run [1 cm per 3 m]—
toward the evaporator. When the
application includes a suction riser,
oil must be forced to travel the
height of the riser. Riser traps and
double risers are unnecessary in the
suction line when the refrigerant coil
is used with Trane condensing units.
refrigerant floods the
compressor; metering too little
elevates the compressor
temperature. Choosing the
correct size and type of
expansion valve is critical to
assure it will correctly meter
refrigerant into the evaporator
coil throughout the entire
operating envelope of the
system. Correct refrigerant
distribution into the coil requires
an expansion valve for each
distributor.
CAUTION
Valve Damage!
Disassemble the thermal expansion
valve before completing the brazing
connections. If necessary, wrap the
valve in a cool, wet cloth while
brazing. Failure to protect the valve
from high temperatures may result
in damage to internal components.
Avoid putting refrigerant lines
underground. Refrigerant
condensation or installation debris
inside the line, service access, and
abrasion/corrosion can quickly
impair reliability.
Suction Lines
Line sizing. Proper suction-line
sizing is required to guarantee the
oil returns to the compressor
The thermal expansion valve must
be selected for proper size and
capacity. The size of the expansion
valve should cover the full range of
loadings. Check that the valve will
successfully operate at the lightest
load condition. For improved
modulation, choose expansion
valves with balanced port
Insulation. Any heat that transfers
from the surrounding air to the
cooler suction lines increases the
load on the condenser (reducing the
system’s air-conditioning capacity)
and promotes condensate formation
(adversely affecting indoor air
quality). After operating the system
and testing all fittings and joints to
verify the system is leak-free,
throughout the system’s operating
envelope. At the same time, the line
must be sized so that the pressure
drop does not excessively affect
capacity or efficiency. To accomplish
both objectives, it may be necessary
to use two different line diameters:
one for the horizontal run and for
vertical drops, and another for the
vertical lifts.
construction and external
equalization.
insulate the suction lines all the way
to inner side panel to prevent heat
gain and unwanted condensation.
Components. Installing the suction
line requires field installation of
these components: a filter, access
port, and a Frostat™ control when
the refrigerant coil is used with
Trane condensing units. Position
them as close to the compressor as
possible.
Figure 34. Type F refrigerant coil with packed elbow
Perforated plate
Cut here for
piping
Panel
(packed elbow)
Note: Placement of the Frostat
control is illustrated in Figure 33.
•
Filter. The suction filter prevents
contaminants, introduced during
installation, from entering the
compressor. For this reason, the
suction filter should be the
Venturi type
distributor
replaceable-core type, and a
clean core should be installed
after the system is cleaned up.
Coil
•
Access port. The access port is
used to determine suction
pressure. This port is usually a
Schraeder valve with a core.
34
CAH-SVX01A-EN
Installation
4
5
For the vertical riser, use the tube
diameter recommended by the
condensing unit manufacturer.
Assure the top of the riser is
higher than the evaporator coil.
Examples of Field-Installed
Evaporator Piping
•
Frostat™ coil frost protection.
The Frostat control is the
preferred method for protecting
evaporator coils from freezing
when the refrigerant coil is used
with Trane condensing units. It
senses the suction-line
temperature and temporarily
disables mechanical cooling if it
detects frost conditions. The
control is mechanically attached
to the outside of the refrigerant
line, near the evaporator, and
wired to the unit control panel.
Single-Circuit Condensing Units:
Evaporator Coil with One Distributor
(see Figure 35)
Arrange the suction line so the
refrigerant gas leaving the coil
flows downward, past the lowest
suction-header outlet, before
turning upward.
1
Pitch the liquid line slightly—
1 inch/10 feet [1 cm/3 m]—so that
the refrigerant drains toward the
evaporator.
2
3
Provide one expansion valve per
distributor.
6
7
Pitch the suction line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
Slightly pitch the outlet line from
the suction header toward the
suction riser—that is, 1 inch/
10 feet [1 cm/3 m] in the direction
of flow. Use the tube diameter
that matches the suction-header
connection.
•
Ball shutoff valve. Adding
manual, ball-type shutoff valves
upstream and downstream of the
filter simplifies replacement of
the filter core.
Insulate the suction line.
Figure 35. Single-circuit evaporator coil with one distributor
CAH-SVX01A-EN
35
Installation
Figure 36. Single-circuit evaporator coil with two distributors
7
Pitch the suction line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
4
Arrange the suction line so the
Single-Circuit Condensing Units:
Evaporator Coil with Two
Distributors (see Figure 36)
refrigerant gas leaving the coil
flows downward, past the lowest
suction-header outlet, before
turning upward. Use a double-
elbow configuration to isolate
the thermal expansion valve bulb
from other suction headers.
1
Pitch the liquid line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
8
9
Insulate the suction line.
Only use a “trim” solenoid valve
for constant-volume, humidity-
sensitive applications. For all
other applications, install a
single solenoid valve (the
“pumpdown” solenoid valve)
between the liquid-line filter drier
and the sight glass.
2
3
Provide one expansion valve per
distributor.
5
6
For horizontal tubing, use the
tube diameter recommended by
the condensing unit
Slightly pitch the outlet line from
the suction header toward the
suction riser—that is, 1 inch/
10 feet [1 cm/3 m] in the direction
of flow. Use the tube diameter
that matches the suction-header
connection.
manufacturer.
For the vertical riser, use the tube
diameter recommended by the
condensing unit manufacturer.
Assure the top of the riser is
higher than the evaporator coil.
36
CAH-SVX01A-EN
Installation
Assure the top of the riser is
Figure 37. Single-circuit evaporator coil with four distributors
higher than the evaporator coil.
7
Pitch the suction line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
8
9
Insulate the suction line.
Only use a “trim” solenoid valve
for constant-volume, humidity-
sensitive applications. For all
other applications, install a
single solenoid valve (the
“pumpdown” solenoid valve)
between the liquid-line filter drier
and the sight glass.
4
Arrange the suction line so the
Single-Circuit Condensing Units:
Evaporator Coil with Four
Distributors (see Figure 37)
refrigerant gas leaving the coil
flows downward, past the lowest
suction-header outlet, before
turning upward. Use a double-
elbow configuration to isolate
the thermal expansion valve bulb
from other suction headers.
1
Pitch the liquid line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
2
3
Provide one expansion valve per
distributor.
5
6
For horizontal tubing, use the
tube diameter recommended by
the condensing unit
Slightly pitch the outlet line from
the suction header toward the
suction riser—that is, 1 inch/
10 feet [1 cm/3 m] in the direction
of flow. Use the tube diameter
that matches the suction-header
connection.
manufacturer.
For the vertical riser, use the tube
diameter recommended by the
condensing unit manufacturer.
CAH-SVX01A-EN
37
Installation
6
The top of the Circuit 2 suction
riser must be higher than the top
evaporator coil. Use the tube
diameter recommended by the
condensing unit manufacturer
for the riser.
Dual-Circuit Condensing Units:
Evaporator Coil with Two
Distributors (see Figure 38)
4
5
The top of the Circuit 1 suction
riser must be higher than the
bottom evaporator coil. Use the
tube diameter recommended by
the condensing unit
1
Pitch the liquid lines slightly—1
inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
manufacturer for the riser.
7
8
Pitch the suction lines slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
Arrange the suction line so the
refrigerant gas leaving the coil
flows downward, past the lowest
suction-header outlet, before
turning upward.
2
3
Provide one expansion valve per
distributor.
Slightly pitch the outlet line from
the suction header toward the
suction riser—that is, 1 inch/
10 feet [1 cm/3 m] in the direction
of flow. Use the tube diameter
that matches the suction-header
connection.
Insulate the suction lines.
Figure 38. Dual-circuit evaporator coil with two distributors
38
CAH-SVX01A-EN
Installation
Dual-Circuit Condensing Units:
Evaporator Coil with Four
Distributors (see Figure 39)
Figure 39. Dual-circuit evaporator coil with four distributors
1
Pitch the liquid line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
2
3
Provide one expansion valve per
distributor.
Slightly pitch the outlet line from
the suction header toward the
suction riser—that is, 1 inch/
10 feet [1 cm/3 m] in the direction
of flow. Use the tube diameter
that matches the suction-header
connection.
4
Arrange the suction line so the
refrigerant gas leaving the coil
flows downward, past the lowest
suction-header outlet, before
turning upward. Use a double-
elbow configuration to isolate
the thermal expansion valve bulb
from other suction headers.
5
6
For horizontal tubing, use the
tube diameter recommended by
the condensing unit
manufacturer.
For the vertical riser, use the tube
diameter recommended by the
condensing unit manufacturer.
Assure the top of the riser is
higher than the evaporator coil.
7
8
Pitch the suction line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
9
The top of the Circuit 1 suction
riser must be higher than the
bottom evaporator coil. Use the
tube diameter recommended by
the condensing unit
10 The top of the Circuit 2 suction
riser must be higher than the top
evaporator coil. Use the tube
diameter recommended by the
condensing unit manufacturer
for the riser.
Insulate the suction line.
manufacturer for the riser.
CAH-SVX01A-EN
39
Installation
Dual-Circuit Condensing Units:
Evaporator Coil with Eight
Distributors (see Figure 40)
Figure 40. Dual-circuit evaporator coil with eight distributors
1
Pitch the liquid line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
2
3
Provide one expansion valve per
distributor.
Slightly pitch the outlet line from
the suction header toward the
suction riser—that is, 1 inch/
10 feet [1 cm/3 m] in the direction
of flow. Use the tube diameter
that matches the suction-header
connection.
4
Arrange the suction line so the
refrigerant gas leaving the coil
flows downward, past the lowest
suction-header outlet, before
turning upward. Use a double-
elbow configuration to isolate
the TXV bulb from other suction
headers.
5
6
For horizontal tubing, use the
tube diameter recommended by
the condensing unit
manufacturer.
For the vertical riser, use the tube
diameter recommended by the
condensing unit manufacturer.
Assure the top of the riser is
higher than the evaporator coil.
7
Pitch the suction line slightly—
1 inch/10 feet [1 cm/3 m]—so the
refrigerant drains toward the
evaporator.
8
9
Insulate the suction line.
The top of the Circuit 1 suction
riser must be higher than the
bottom evaporator coil. Use the
tube diameter recommended by
the condensing unit
11 Only use a “trim” solenoid valve
10 The top of the Circuit 2 suction
riser must be higher than the top
evaporator coil. Use the tube
diameter recommended by the
condensing unit manufacturer
for the riser.
for constant-volume, humidity-
sensitive applications. For all
other applications, install a
single solenoid valve (the
“pumpdown” solenoid valve)
between the liquid-line filter drier
and the sight glass.
manufacturer for the riser.
40
CAH-SVX01A-EN
Installation
All direct-digital controllers (DDCs)
are provided with line voltage to
24 Vac control transformers
mounted and wired in the starter or
variable-frequency drive (VFD)
power box transformer plate (see
Figure 41) or 120 to 24 Vac control
transformers mounted and wired in
the auxiliary control panel (see
Figure 42).
Figure 43 shows a typical VFD power
box.
Wiring
Wiring to the unit fan motor must be
provided by the installer and must
comply with all national and local
electrical codes. The installer must
also furnish a fused disconnect
switch in compliance with national
and local electrical codes.
Note: The valve jack/junction box is
typically located at the air-leaving
side of the coil connection inside
panel. For coils with headers on both
sides of the module, the valve jack is
located at the return connection for
water coils and the supply
Fan motors also require motor
overload protective devices that are
rated or selected in compliance with
the National Electric Code or
Canadian Electric Code. Specific unit
and motor connection diagrams are
provided on the starter/VFD, if Trane-
provided, or refer to the motor
nameplate.
connection for steam coils.
Figure 42. Controller with power box
attached
ƽ WARNING
Hazardous Voltage with
Capacitors!
Line supply
24 Vac
120 Vac
Disconnect all electric power,
including remote disconnects and
discharge all motor start/run
capacitors before servicing. Follow
proper lockout/tagout procedures to
ensure the power cannot be
inadvertently energized. For variable
frequency drives or other energy
storing components provided by
Trane or others, refer to the
CAUTION
Use Copper Conductors
Only!
Unit terminals are not designed to
accept other types of conductors.
Failure to use copper conductors
may result in equipment damage.
appropriate manufacturer’s
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
Failure to disconnect power and
discharge capacitors before
Figure 41. Transformer plate
servicing could result in death or
serious injury.
Figure 43. Variable-frequency drive
(VFD)
To provide field-wiring to units with
DDC controls:
•
Provide 120 Vac power to a
transformer in the junction box
provided when a separate circuit
is recommended (see Figure 42).
•
•
Install outside-air sensor and
space sensor, if ordered.
For valve jack junction box
mounting and wiring detail (see
Figure 43).
CAUTION
Seal the Penetrations!
Line supply to
transformers
24 Vac to end
devices and
controllers
Seal all penetrations into the unit to
prevent air infiltration during
operation. Failure to do so may
result in equipment damage.
CAH-SVX01A-EN
41
Installation
External Insulating
Requirements
Figure 44. Junction box mounting and wiring details
The following areas should be
specifically addressed, as applicable:
•
•
•
•
Supply and return water piping
connections
Supply and return refrigerant
piping connections
Condensate drain lines and
connections
Outdoor-air-intake duct
connections
•
•
Discharge duct connections
Special requirements for low-
temperature-air systems
Valve jack wiring:
.Black connector is for 24 Vac power supply (black wire for GND and red
wire for 24 Vac)
.White connector is for 0 to 10 Vac analog signal (black wire for GND and
red wire for 0 to 10 Vac.
Figure 45. Typical quick connects with wiring identification
Power 24 Vac
Sig. 0–10 Vdc
Wire from
ribbon cable
Signal to Slave
Actuator
Actuator
42
CAH-SVX01A-EN
Startup
Once the Custom Climate Changer
air handler has been assembled and
installed, attention must be directed
to individual components for proper
operation. Before operating the unit,
complete the pre-startup checklist.
•
Check fan shaft bearings, fan
wheel, and drive sheave set
screws for proper torque
settings.
Coil-Related Checks
CAUTION
Proper Water Treatment!
–
Fan sheaves should be tight
and aligned.
The use of untreated or improperly
treated water in coils may result in
scaling, erosion, corrosion, algae, or
slime. Engage the services of a
qualified water treatment specialist
to determine what water treatment,
if any, is required. Trane assumes no
responsibility for equipment failures
that result from untreated or
–
Bearing set screws should be
torqued.
ƽ WARNING
Hazardous Voltage with
Capacitors!
•
Inspect the inlet vane assembly
for freedom of movement. If
resistance is above the
recommended torques, check the
assembly for any binding or
misalignment. Do not force the
vanes.
Disconnect all electric power,
including remote disconnects and
discharge all motor start/run
capacitors before servicing. Follow
proper lockout/tagout procedures to
ensure the power cannot be
inadvertently energized. For variable
frequency drives or other energy
storing components provided by
Trane or others, refer to the
improperly treated water.
•
Ensure coil and condensate drain
piping connections are complete.
•
•
Check fan drive belt tension.
Inspect fan motor and bearings
for proper lubrication, if
necessary.
•
Check the piping and valves for
leaks.
–
Open or close the valves to
check operation.
•
Check the motor lubrication, if
necessary.
appropriate manufacturer’s
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
Failure to disconnect power and
discharge capacitors before
–
The drain lines should be
open.
–
Remove and clean grease
plugs.
•
If unit has a refrigerant coil,
ensure that it has been charged
and leak-tested according to the
instructions provided with the
condenser equipment. Adjust the
superheat setting.
–
Check for moisture in the
grease. If moisture is present,
remove the motor and send it
to an authorized repair shop
for bearing inspection/
servicing could result in death or
serious injury.
replacement. If no moisture is
present, refer to the motor
manufacturer’s lubrication
recommendations for proper
lubrication.
Note: For additional information
regarding the safe discharge of
capacitors, see PROD-SVB06A-EN.
•
•
Remove all foreign material from
the drain pan and check the pan
opening and condensate line for
obstructions.
For steam coils, slowly turn the
steam on full for at least
10 minutes before opening the
fresh air intake on units with
fresh air dampers.
•
Check the motor lubrication, if
necessary.
Pre-Startup
Checklist
–
Remove and clean grease
plugs.
–
Check for moisture in the
grease. If moisture is present,
remove the motor and send it
to an authorized repair shop
for bearing inspection/
Fan-Related Checks
•
If the unit is internally isolated,
ensure that the fan isolator tie-
down bolts have been removed.
Motor-Related Checks
•
Check motor winding. An
acceptable winding resistance
reading is from 6 meg-ohms to
infinity. If reading is less than
5 mega-ohms, the winding
should be dried out in an oven or
by a blower.
•
Rotate all fan wheels manually to
confirm they turn freely in the
proper direction.
replacement. If no moisture is
present, refer to the motor
manufacturer’s lubrication
recommendations for proper
lubrication.
•
Inspect the entire motor for rust
and corrosion.
CAH-SVX01A-EN
43
Startup
General Checks
ƽ WARNING
Live Electrical
Components!
Unit Operation
•
•
•
Ensure the unit has been
installed level.
Before complete startup, bump-start
the unit and confirm the fan wheel
rotates properly, as indicated by the
rotation arrow located on the fan
housing.
Ensure supply-air and return-air
ducts have been connected.
During installation, testing,
servicing and troubleshooting of
this product, it may be necessary to
work with live electrical
components. Have a qualified
licensed electrician or other
individual who has been properly
trained in handling live electrical
components perform these tasks.
Failure to follow all electrical safety
precautions when exposed to live
electrical components could result
in death or serious injury.
Ensure damper operator motors
and connecting linkage have
been installed.
After initial startup:
•
Calculate the motor voltage
imbalance, notifying the power
company to correct unacceptable
imbalances.
•
•
•
•
Verify damper operation and
linkage alignment.
Check that air filters are in place
and positioned properly.
•
Periodically check the fan belt
tension.
Remove any debris from the unit
interior.
Close and secure all unit access
doors.
Calculate Motor
Voltage Imbalance
After startup, measure the motor
voltage and amperage on all phases
to ensure proper operation. The
readings should fall within the range
given on the motor nameplate. The
maximum allowable voltage
Note: UL-listed units require a
removable latch on access doors.
The door clip shipped with the unit
meets this requirement.
•
Inspect electrical connections to
the unit and unit controllers.
–
–
–
Connections should be clean
and secure.
imbalance is 2 percent.
Voltage imbalance is defined as 100
times the sum of the deviation of the
three voltages from the average,
divided by twice the average
voltage. For example, if the three
measured voltages are 221, 230 and
227, the average voltage would be
226 volts. The percent of voltage
imbalance is then calculated:
Compare the actual wiring
with the unit diagrams.
Reference the appropriate
controller manual for more
details about starting units
with factory-mounted
controls.
•
Leave this manual with the unit.
100A
Voltage imbalance = -------------------------------------------------
2 × AvgVoltage
where:
A = (226-221) + (230-226) + (227-226)
Voltage imbalance = 2.2% (not acceptable)
In the example, 2.2 percent
imbalance is not acceptable and the
power company should be notified
to correct it.
44
CAH-SVX01A-EN
Startup
Proper belt tension is required to
ensure maximum bearing and drive
component life and is based on
motor horsepower requirement. A
label located on the bearing support
on the drive side of the unit lists all
drive parts, the proper belt tension,
and deflection for that tension for
the specific drive.
Tension the Fan Belt
Figure 47. Belt tensioner
Check the fan belt tension at least
three times during the first days of
operation because there is a rapid
decrease in tension until the belt
settles in (see Figure 46 and
Figure 47).
ƽ WARNING
If the drive is changed from the
original, proper belt tension can be
estimated using Table 3.
Hazardous Voltage with
Capacitors!
Disconnect all electric power,
including remote disconnects and
discharge all motor start/run
capacitors before servicing. Follow
proper lockout/tagout procedures to
ensure the power cannot be
inadvertently energized. For variable
frequency drives or other energy
storing components provided by
Trane or others, refer to the
The correct operation tension for a
V-belt drive is the lowest tension at
which the belts will not slip under
the peak load conditions. It may be
necessary, however, to increase the
tension of some drives to reduce
excessive belt flopping or to reduce
excessive startup squealing.
appropriate manufacturer’s
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
Failure to disconnect power and
discharge capacitors before
Figure 46. Belt tension measurement
servicing could result in death or
serious injury.
CAUTION
Tension Belts Correctly!
Over-tensioning belts can cause
damage to bearings, shafts, and
drive components. Under tensioning
belts is the primary cause of
premature belt failure. Belts should
not squeal at startup. Recheck belt
tension after 8 hours, 24 hours, and
100 hours of operation and monthly
thereafter.
CAH-SVX01A-EN
45
Startup
Table 3. Typical sheave diameter and deflection force1
Smallest Sheave
Belt Deflection Force (lbs)
Super Gripbelts and
Unnotched Gripbands
Used Belt New Belt
5.5
Gripnotch Belts and
Notched Gripbands
Used Belt
Cross
Section
Diameter Range
(in.)
Speed (rpm)
Range
New Belt
6.4
3.0–3.6
1,000–2,500
2,501–4,000
1,000–2,500
2,501–4,000
1,000–2,500
2,501–4,000
860–2,500
2,501–4,000
860–2,500
2,501–4,000
860–2,500
2,501–4,000
500–1,740
1,741–3,000
500–1,740
1,741–3,000
200–850
3.7
2.8
4.5
3.8
5.4
4.7
n/a
n/a
5.3
4.5
6.3
6.0
11.5
9.4
14.1
12.5
24.9
21.2
30.4
25.6
n/a
n/a
3.6
3.0
4.9
4.4
n/a
n/a
n/a
12.7
11.2
15.5
14.6
33.0
26.8
39.6
35.3
4.1
3.4
5.0
4.2
6.8
5.0
7.4
6.4
9.4
7.6
7.2
6.2
10.5
9.1
12.6
10.9
21.8
17.5
23.5
21.6
n/a
n/a
n/a
n/a
4.9
3.8–4.8
5.0–7.0
A, AX
B, BX
5.7
4.3
8.0
5.7
7.0
5.1
3.4–4.2
n/a
4.9
n/a
4.2
4.4–5.6
7.9
7.1
6.7
7.1
5.8–8.6
9.4
8.5
8.9
7.3
7.0–9.0
17.0
13.8
21.0
18.5
37.0
31.3
45.2
38.0
n/a
14.7
11.9
15.9
14.6
n/a
n/a
n/a
n/a
3.3
C, CX
9.5–16.0
12.0–16.0
18.0–20.0
2.2–2.4
851–1,500
200–850
D
851–1,500
1,000–2,500
2,501–4,000
1,000–2,500
2,501–4,000
1,000–2,500
2,501–4,000
500–1,749
1,750–3,000
3,001–4,000
500–1,749
1,750–3,000
500–1,749
1,750–3,000
200–850
n/a
2.9
4.3
6.2
5.6
7.9
2.65–3.65
4.12–6.90
4.4–6.7
5.1
4.2
3V, 3VX
4.4
3.8
7.3
5.3
6.6
4.9
7.3
n/a
n/a
10.2
8.8
15.2
13.2
8.5
22.1
20.1
25.5
25.0
n/a
n/a
5.6
5V, 5VX
7.1–10.9
11.8–16.0
12.5–17.0
18.0–22.4
18.9
16.7
23.4
21.8
49.3
39.9
59.2
52.7
14.8
13.7
17.1
16.8
n/a
n/a
n/a
n/a
851–1,500
200–850
n/a
n/a
n/a
8V
851–1,500
1. Source for table: Browning® catalog DC-98, page B-30.
46
CAH-SVX01A-EN
Startup
Determine Fan
Speed
Figure 48. Proper drive alignment
ƽ WARNING
Rotating Components!
During installation, testing,
servicing and troubleshooting of
this product it may be necessary to
measure the speed of rotating
components. Have a qualified or
licensed service individual who has
been properly trained in handling
exposed rotating components,
perform these tasks. Failure to
follow all safety precautions when
exposed to rotating components
could result in death or serious
injury.
Fan speed can be determined using
a strobe-type tachometer, or
revolution counter.
Check unit vibration if the fan speed
is changed more than 5 percent from
the original designed speed, or if
parts such as shafts, fan wheels,
bearings, or other drive components
are replaced. Do not exceed the
maximum fan speed.
Pay particular attention to any
vibration, noise, or overheating of
the motor and fan bearings;
however, note that bearings may run
warm during break in.
Table 4. Fan and drive compound torque settings (inches)
Screw Size Hex Key Square Head Hex Head Torque (in.-lb.) Torque (ft.-lb.)
Sheave Alignment
1/4
5/16
3/8
1/8
5/32
3/16
7/32
1/4
3/8
1/2
9/16
5/8
7/16
1/2
9/16
5/8
66-90
126-164
228-300
348-450
504-650
1290-1390
5.5-7.5
10.5-13.7
19.0-25.0
29.0-37.5
42.0-54.2
107.0-116.0
Align the fan and motor sheaves
using a straightedge. The
7/15
1/2
straightedge must be long enough
to span the distance between the
outside edges of the sheaves. When
the sheaves are aligned, the
3/4
3/4
5/8
5/16
15/16
15/16
same for each belt, the motor and
fan shaft are not parallel. Realign as
required. After realignment, tighten
the belts again to the standard belt
tensioning specifications. If the force
is still not the same for all belts, the
belts or sheaves are worn and must
be replaced.
straightedge will touch both sheaves
at points A through D (see
Multibelt Check
Tighten the belts slightly and rotate
the drive several times.
Figure 48) to confirm the shaft is
parallel. For uneven width sheaves,
place a string in the center groove of
both sheaves and pull tight. Adjust
the sheaves and tighten the sheave
set screws to the proper torque
given in Table 4.
On multiple belt drives, ensure the
force of deflection is approximately
the same on each belt by pushing
each belt in an equal distance at a
point halfway from each sheave (see
Figure 48). If this force is not the
CAH-SVX01A-EN
47
Routine
Maintenance
The following checklist is provided
as an abbreviated guide to periodic
maintenance. Detailed procedural
information is given after this
checklist.
For variable frequency drives or
other energy storing components
provided by Trane or others, refer to
the appropriate manufacturer’s
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
ƽ WARNING
Hazardous Service
Procedures!
The maintenance and
troubleshooting procedures
recommended in this section of the
manual could result in exposure to
electrical, mechanical or other
potential safety hazards. Always
refer to the safety warnings provided
throughout this manual concerning
these procedures. When possible,
disconnect all electrical power
including remote disconnects before
servicing. Follow proper lockout/
tagout procedures to ensure the
power can not be inadvertently
energized.
When servicing fans or ductwork,
secure the impeller to physically
restrict rotational movement. When
necessary to work with live
electrical components, have a
qualified licensed electrician or
other individual who has been
trained in handling live electrical
components perform these tasks.
Failure to follow all of the
recommended safety warnings
provided, could result in death or
serious injury.
Table 5. Routine maintenance checklist
Frequency
After 48 hours
of operation
Every week
Every month
Maintenance
Belts have acquired their permanent set. Readjust but do not overtighten. See the “Tension the Fan Belt” section on
page 45 for more information.
Observe unit weekly for any change in running condition and unusual noise.
• Clean or replace air filters if clogged or dirty; coat permanent filters with oil after cleaning. See the “Air Filters” section
on page 49 for more information.
• Relubricate fan bearings if necessary. See the “Fan Bearing Lubrication” section on page 51 for more information.
• Check and adjust fan belt tension.
Every three to
six months
• Check fan bearing grease line connections. Lines should be tight to the bearings.
• Check bearing and motor bracket bolt torque and bearing setscrew torque.
• Align fan and motor sheaves. Tighten sheave set screws to the proper torque. See the “Sheave Alignment” section on
page 47 for more information.
• Inspect and clean drain pans. See the “Drain Pans” section on page 50 for more information.
• Tighten electrical connections.
• Inspect coils for dirt build-up. See the “Coils” section on page 52 for more information.
• Inspect the unit casing for corrosion. If damage is found, clean and repaint the surface with a rust-resistant primer
and vinyl chlorinated lacquer.
Every year
• Clean the fan wheels and fan shaft. See the “Fans” section on page 50 for more information.
• Inspect and clean drain pans.
• Check damper linkages, set screws, and blade adjustment. Clean, but do not lubricate, the nylon damper rod
bushings.
• Clean damper operators.
• Inspect electrical components and insulation.
• Inspect wiring for damage.
• Rotate the fan wheel and check for obstructions in the fan housing. The wheel should not rub on the fan housing.
Adjust the center if necessary and tighten wheel set screws to the proper torque.
• Lubricate motor bearings in accordance with motor manufacturer’s recommendations (see the “Fan Bearing
Lubrication” section on page 51 for more information).
• Check condition of gasketing and insulation around unit, door and dampers.
• Examine flex connections for cracks or leaks. Repair or replace damaged material.
48
CAH-SVX01A-EN
Routine Maintenance
Permanent Filters
To clean permanent filters:
Side Load Filters
Air Filters
Most filters in custom units are
installed in unitary sheet metal
frames. If unit is provided with side
access rack, do the following for
installation:
Refer to product catalog
CLCH-PRC003-EN for filter sizes,
types, and quantities.
1
2
3
4
5
Disconnect all electrical power to
the unit.
Wash the filter under a stream of
water to remove dirt and lint.
ƽ WARNING
2-inch or 4-inch flat filters
Hazardous Voltage with
Capacitors!
Remove oil from the filter with a
wash of mild alkali solution.
1
2
Disconnect the power to the unit.
Disconnect all electric power,
including remote disconnects and
discharge all motor start/run
capacitors before servicing. Follow
proper lockout/tagout procedures to
ensure the power cannot be
inadvertently energized. For variable
frequency drives or other energy
storing components provided by
Trane or others, refer to the
Open the filter section access
door and remove the filters and
block-offs from their installed
position.
Rinse the filter in clean, hot water
and allow to dry.
Coat both sides of the filter by
immersing or spraying it with Air
Maze Filter Lote W or an
equivalent.
3
4
Slide the filter into the rack.
Some side load racks will be
provided with block-off plates.
Install them into the rack last
before closing the door.
6
7
Allow to drain and dry for about
12 hours.
appropriate manufacturer’s
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
Failure to disconnect power and
discharge capacitors before
Reinstall the filter.
5
Close and secure the door,
making certain the door closes
snug against the block-off.
Note: It may be preferable to keep
extra, clean filters to replace the
dirty filters to minimize unit
Bag or Cartridge Filters
downtime for filter maintenance.
servicing could result in death or
serious injury.
1
2
Disconnect power to the unit.
Front Load Filters
Keeping the bag filters folded,
slide each filter into the filter
rack, pushing them tightly
against the unit. Pleats should be
in the vertical position.
Note: For additional information
regarding the safe discharge of
capacitors, see PROD-SVB06A-EN.
Most filters in custom units are
installed in unitary sheet metal
frames. Filters are secured with a
metal clip. There are several
different styles.
Throwaway Filters
3
4
5
If using optional pre-filters, slide
them into the appropriate filter
rack.
To replace throwaway filters, install
new filters with the directional
arrows pointing in the direction of
airflow.
To install filters:
1
2
3
4
Disconnect power to the unit.
Open or remove the filter clip.
Remove the filter from the rack.
If block-offs are provided with the
unit, slide the block-offs into the
filter track.
Note: Bag and cartridge filters must
have an airtight seal to prevent air
bypass. If using other than Trane-
supplied filters, apply foam
gasketing to the vertical edges of the
filter.
Install new filters with the
directional arrows pointing in the
direction of airflow.
Close and secure the access
door, making certain the door
closes snug against the rack.
5
Secure the filter using the
Note: The block-off is intended to
make a seal when the access door is
closed. It may require a few
appropriate clip for each filter.
The filters are often installed in a
pre/post filter configuration. Be sure
to note the order of installation.
adjustments to ensure a proper seal.
Note: Filters must have an airtight
seal to prevent air bypass.
CAH-SVX01A-EN
49
Routine Maintenance
See “ƽ WARNING Hazardous
Voltage with Capacitors!” on
page 49 regarding
areas of the unit or building.
Properly dispose of all
contaminated materials and
cleaning solution.
4
5
Thoroughly clean all areas with a
mild bleach and water solution or
an EPA-approved sanitizer
specifically designed for HVAC
use.
disconnection of power.
Immediately rinse the affected
surfaces thoroughly with fresh
water and a fresh sponge to
prevent potential corrosion of
metal surfaces.
Drain Pans
Fans
The condensate drain pan and drain
line must be checked to assure the
condensate drains as designed. This
inspection should occur a minimum
of every six months or more often as
dictated by operating experience.
Inspecting and Cleaning
Fans
Fan sections of air handlers should
be inspected every six months at a
minimum or more frequently if
operating experience dictates. If
evidence of microbial growth (mold)
is found, identify and remedy the
cause immediately. Refer to the
“Troubleshooting” section on
6
7
Allow the unit to dry completely
before putting it back into
service.
If evidence of standing water or
condensate overflow exists, identify
and remedy the cause immediately.
Refer to the “Troubleshooting”
section on page 56 for possible
causes and solutions.
Be careful that any contaminated
material does not contact other
areas of the unit or building.
Properly dispose of all
contaminated materials and
cleaning solution.
page 56 for possible causes and
solutions. To clean the fan section:
To clean drain pans:
1
Disconnect all electrical power to
the unit.
1
Disconnect all electrical power to
the unit.
Bearing Set Screw
Alignment
Align bearing set screws as
illustrated in Figure 49. Table 4 on
page 47 provides bearing set screw
torque measurements.
2
Wearing the appropriate
personal protective equipment,
remove any contamination.
2
Wearing the appropriate
personal protective equipment,
remove any standing water.
3
Vacuum the section with a
vacuum device that uses high-
efficiency particulate arrestance
(HEPA) filters with a minimum
efficiency of 99.97 percent at
0.3 micron particle size.
3
4
Scrape solid matter off of the
drain pan.
Vacuum the drain pan with a
vacuum device that uses high-
efficiency particulate arrestance
(HEPA) filters with a minimum
efficiency of 99.97 percent at
0.3 micron particle size.
Figure 49. Bearing set screw alignment
5
6
Thoroughly clean all areas with a
mild bleach and water solution or
an EPA-approved sanitizer
specifically designed for HVAC
use.
Immediately rinse the affected
surfaces thoroughly with fresh
water and a fresh sponge to
prevent potential corrosion of
metal surfaces.
7
8
Allow the unit to dry completely
before putting it back into
service.
Be careful that any contaminated
material does not contact other
50
CAH-SVX01A-EN
Routine Maintenance
See “ƽ WARNING Hazardous
Voltage with Capacitors!” on
page 49 regarding
Motor bearings are factory-
lubricated for normal life. In the case
of a double-shielded bearing, the
grease provided is that which is in
the bearing. To regrease motors
without grease fittings:
Table 6. Minimum hex head bolt
torque in lb.-ft. (Grade 5 bolts)
disconnection of power.
Size
(inches)
1/4-20
1/4-28
65/16-18
5/16-24
3/8-16
3/8-24
7/16-14
7/16-20
1/2-13
1/2-20
9/16-12
9/16-18
5/8-11
5/8-18
3/4-10
3/4-16
7/8-9
Thread
Designation
UNC
Minimum
Torque
6
Fan Bearing Lubrication
UNF
UNC
UNF
UNC
UNF
UNC
UNF
UNC
UNF
UNC
UNF
UNC
UNF
UNC
UNF
UNC
7
14
16
24
28
42
45
69
1
2
Remove the bearing brackets.
CAUTION
Bearing Failure!
Do not mix greases with different
bases within the bearing. Mixing
grease within the bearing may result
in premature bearing failure.
If the original bearing is to be
relubricated, remove the shield
opposite the rotor.
a
b
Do not replace.
83
99
Flush old grease from
118
150
176
254
301
358
422
500
602
bearing with suitable solvent.
The grease used in electric motor
bearings is usually not compatible
with the grease used in fan bearings.
Never mix the two grease types!
3
Lubricate the bearing and add
grease to the bearing chamber.
The chamber should be three-
quarters full of grease. (An
alternate method is to replace
the old bearing with a new
double-shield pre lubricated
bearing.) See Table 7 for
Note: Lubricate the bearing
according to the motor
manufacturer’s recommendations
and use the manufacturer-
recommended grease.
7/8-14
1-8
1-14
UNF
UNC
UNF
Soft metric conversions are not acceptable for
screw and hex sizes.
maximum grease capacity.
Refer to Table 6 for minimum torque
of motor mounting and bearings
bolts.
•
•
Fan bearings without lubrication
lines are sealed bearings. Re-
lubrication is not required.
Note: Lubricate the bearing
according to the motor
manufacturer’s recommendations
and use the manufacturer-
recommended grease.
Fan bearings equipped with
lubrication lines should be
lubricated with a lithium-based
grease that conforms to NLGI
No. 2 for consistency.
4
Reassemble the motor.
Compatible greases include:
Fan Motor Inspection
Inspect fan motors periodically for
excessive vibration or temperature.
–
–
–
–
–
–
Texaco Multi Fak 2
Shell Alvania 2
Mobil 532
Chevron Dura-Lith 2
Exxon Beacon
Keystone 84H
Table 7. Fan bearing maximum grease
capacity
Shaft size
(inches)
Capacity
(fluid ounce)
1/2 - 3/4
1/7
3/8
5/8
7/8
1 1/4
2
7/8 - 1 3/16
1 1/4 - 1 1/2
1 11/16 - 1 15/16
2 - 2 7/16
2 1/2 - 2 15/16
CAH-SVX01A-EN
51
Routine Maintenance
Type K Cooling Coils
To clean refrigerant coils:
See “ƽ WARNING Hazardous
Voltage with Capacitors!” on
page 49 regarding
1
Disconnect all electrical power to
the unit.
Type K cooling coils have removable
headers for cleaning:
disconnection of power.
2
Wearing the appropriate
personal protective equipment,
use a soft brush to remove loose
debris from both sides of the
coil.
1
2
Remove the headers.
Use a small nylon or fiber brush
to clean the tubes.
Coils
All coils should be kept clean to
maintain maximum performance.
3
4
Flush the tubes with water.
3
4
Install a block-off to prevent
spray from going through the
coil and into a dry section of the
unit and/or system ductwork.
Install a new rubber sealing
gasket and be sure it seats
properly when the header is
replaced.
Steam and Water Coils
To clean steam and water coils:
1
2
Disconnect all electrical power to
the unit.
Mix a high-quality coil cleaning
detergent with water according
to the manufacturer’s
Note: Apply washers under the bolt
heads. Bolts should be evenly
tightened to 50 foot-pounds of
torque, beginning in the center and
working toward the outside.
Wearing the appropriate
personal protective equipment,
use a soft brush to remove loose
debris from both sides of the
coil.
instructions.
Note: If the detergent is strongly
alkaline after mixing (PH 8.5 or
higher), it must contain an inhibitor.
Follow the cleaning solution
manufacturer’s instructions
regarding the use of the product.
Refrigerant Coils
3
4
Insert a block-off to prevent
steam from blowing through the
coil and into a dry section of the
unit.
ƽ WARNING
Hazardous Chemicals!
5
Place the mixed solution in a
garden pump-up sprayer or high-
pressure sprayer. If a high
Coil cleaning agents can be either
acidic or highly alkaline. Handle
chemical carefully. Proper handling
should include goggles or face
shield, chemical resistant gloves,
boots, apron or suit as required. For
personal safety refer to the cleaning
agent manufacturer’s Materials
Safety Data Sheet and follow all
recommended safe handling
Use a steam cleaning machine to
clean the coil, cleaning the
leaving air side of the coil first,
then the entering air side. Repeat
as necessary.
pressure sprayer is to be used:
–
–
–
–
Maintain minimum nozzle
spray angle of 15 degrees.
Spray perpendicular to the
coil face.
Note: Start from the top of the coil
and work downward.
Keep the nozzle at least
6 inches from the coil.
5
Straighten any coil fins that may
have been damaged during the
cleaning process.
practices. Failure to follow all safety
instructions could result in death or
serious injury.
Do not exceed 600 psi.
6
7
Spray the leaving air side of the
coil first, then the entering air
side.
6
7
Confirm the drain line is open
following the cleaning process.
ƽ WARNING
Hazardous Pressures!
Allow the unit to dry thoroughly
before putting it back into
service.
Thoroughly rinse both sides of
the coil and the drain pan with
cool, clean water.
Coils contain refrigerant under
pressure. When cleaning coils,
maintain coil cleaning solution
temperature under 150°F to avoid
excessive pressure in the coil.
Failure to follow these safety
precautions could result in coil
bursting, which could result in death
or serious injury.
8
9
Replace all panels and parts and
restore electrical power to the
unit.
8
9
Repeat steps 6 and 7 as
necessary.
Straighten any coil fins damaged
during the cleaning process.
Be careful any contaminated
material does not contact other
areas of the unit or building.
Properly dispose of all
10 Confirm the drain line is open
following the cleaning process.
contaminated materials.
52
CAH-SVX01A-EN
Routine Maintenance
11 Allow the unit to dry thoroughly
before putting it back into
service.
Type W, P2, P4, P8, WD, 5D,
and 5W Coils
Moisture Purge
Cycle
By it’s very nature, any HVAC unit
with a cooling coil serves as a
dehumidifier, reducing the
surrounding air’s ability to hold
water vapor as its temperature falls.
This normally doesn’t present a
problem when the unit is running.
However, when the fan stops, water
vapor condenses on the cold metal
surfaces inside the air handler and
remains there until the air warms
sufficiently to re-evaporate it.
1
2
3
Remove the vent and drain
plugs.
12 Replace all panels and parts and
restore electrical power to the
unit.
Blow the coil out as completely
as possible with compressed air.
13 Be careful any contaminated
material does not contact other
areas of the unit or building.
Properly dispose of all
Fill and drain the coil several
times with full strength glycol so
that it mixes thoroughly with the
water retained in the coil.
contaminated materials and
cleaning solution.
4
5
Drain the coil out as completely
as possible.
Coil Winterization
To ensure no water remains in
the coil, do not replace the vent
and drain plugs until the coils are
put back into service.
Providing a moisture purge cycle
15 to 30 minutes after shutdown
disperses the cold, humid air inside
the air-handling system more evenly
throughout the building. This four-
step cycle:
Water coil winterization procedures
consist primarily of draining water
from the coil before the heating
season. Trane recommends flushing
the coil with glycol if coils will be
exposed to temperatures below 35
degrees.
CAUTION
Twisted Tubes!
Use care in removing header plugs
from type P2, P4, and P8 coils.
Overtorquing may result in twisted
tubes.
•
•
•
Closes the outdoor air dampers.
Turns off the cooling coil.
Install field-fitted drains and vents to
permit winterization of coils not in
use and to assist in evacuating air
from the water system during
Opens any variable-air-volume
terminals connected to the air
handler.
•
•
Operates the supply fan for
10 to 15 minutes.
startup. If draining is questionable
because of dirt or scale deposits
inside the coil, fill the coil with glycol
before the heating season begins.
Type K Coils
Rotates inlet guide vanes full
open to full close.
1
Remove all vent and drain plugs.
2
Allow the water to drain from the
coil.
Note: On many unit sizes, there are
multiple coils in the coil module. Be
sure to winterize all coils in a given
coil module.
Air movement discourages water
condensation and hastens re-
evaporation of any condensate that
does happen to form. This simple
preventative measure effectively
combats microbial growth and curbs
moisture-related deterioration of air-
handling components.
3
4
Remove the header covers.
If tubes are fouled, clean the
tubes with a nylon or wire brush.
CAUTION
Use Approved Glycol!
Use a glycol approved for use with
commercial cooling and heating
systems and copper tube coils.
Failure to do so may result in
equipment damage.
5
To ensure no water remains in
the coil, do not replace the
header covers until the coils are
put back into service.
Note: When the coils are put back
into service, use new gaskets. Trane
recommends washers be used
under the bolt heads and bolts be
evenly tightened to 50 ft.-lbs torque.
CAUTION
Avoid Coil Freezeup!
Properly drain and vent the coils
when they are not in use. Trane
recommends glycol protection in all
possible freezing applications.
Failure to properly protect coils may
result in equipment damage.
CAH-SVX01A-EN
53
Routine Maintenance
See “ƽ WARNING Hazardous
Voltage with Capacitors!” on
page 49 regarding
Accumulated dirt and other organic
matter exposed to water or extended
periods of high relative humidity
(60 percent or higher) can support
microbial growth, which must be
removed to prevent the unit from
becoming a contaminant source.
6
7
8
Repeat steps 4 and 5 as
necessary.
Confirm the drain line is open
following the cleaning process.
disconnection of power.
ƽ WARNING
Allow the unit to dry thoroughly
before putting it back into
service.
Hazardous Chemicals!
If evidence of contamination exists
in either the wet or dry sections:
Coil cleaning agents can be either
acidic or highly alkaline. Handle
chemical carefully. Proper handling
should include goggles or face
shield, chemical resistant gloves,
boots, apron or suit as required. For
personal safety refer to the cleaning
agent manufacturer’s Materials
Safety Data Sheet and follow all
recommended safe handling
9
Replace all panels and parts and
restore electrical power to the
unit.
•
Determine and eliminate the
cause.
•
•
Remove the contamination.
Sanitize the affected area.
10 Be careful that any contaminated
material does not contact other
areas of the unit or building.
Properly dispose of all
See the “Troubleshooting” section
on page 56 for assistance in
identifying the cause.
contaminated materials and
cleaning solution.
practices. Failure to follow all safety
instructions could result in death or
serious injury.
If microbial growth on a non-porous
insulating surface (closed cell
insulation or sheet metal surface) is
observed:
To clean a porous insulating surface
(fiberglass insulation):
1
Disconnect all electrical power to
the unit.
Internal Insulation
The process of cooling and
dehumidification produces
condensate that must be
continuously removed from the air-
handling unit. The section of the unit
from the entering air side of the
cooling coil to the leaving edge of
the drain pan is considered to be the
“wet” section of the unit. Other
potentially “wet” sections are
immediately downstream of a
humidifier and/or an outside air
intake section.
1
Disconnect all electrical power to
the unit.
2
Wearing the appropriate
2
Wearing the appropriate
personal protective equipment,
use a vacuum device with a
HEPA filter (99.97 percent
efficient at 0.3 micron particles)
to remove the accumulated dirt
and organic matter.
personal protective equipment,
use a brush for sheet metal
surfaces or a soft sponge on a
foil face or closed cell foam
surface to mechanically remove
the microbial growth.
Note: Be careful not to tear the
insulation surface or edges.
Note: Be careful not to damage the
non-porous surface of the insulation.
3
Confirm the drain line is open
following the cleaning process.
3
4
5
Install a block-off to prevent
spray from going into a dry
section of the unit and/or system
ductwork.
Internal insulation in areas of the
unit that are normally considered to
be “dry” must also be periodically
inspected to assure the insulation is
clean and dry. Wet insulation in an
area that is normally considered to
be “dry” can indicate an operational
problem (refer to the
“Troubleshooting” section on
page 56 for further information). The
equipment should be inspected a
minimum of every six months or
more frequently as operating
experience dictates.
4
Allow the unit to dry thoroughly
before putting it back into
service.
Thoroughly clean all areas with
an EPA-approved sanitizer
specifically designed for HVAC
use.
5
6
Replace all panels and parts and
restore electrical power to the
unit.
Rinse the affected surfaces
thoroughly with fresh water and
a fresh sponge to prevent
potential corrosion of the drain
pan and drain line.
Be careful that any contaminated
material does not contact other
areas of the unit or building.
Properly dispose of all
contaminated materials and
cleaning solution.
54
CAH-SVX01A-EN
Routine Maintenance
4
Wipe down each bulb with a
clean cloth and alcohol. Avoid
touching the bulb with bare
hands as skin oils can accelerate
future glass soiling and degrade
the bulb performance.
ƽ WARNING
Ultraviolet (UV)
Germicidal
Hazardous Vapors!
If large numbers of UV bulbs are
broken, an appropriate respirator
should be considered to prevent
inhalation of mercury vapors. Failure
to use a respirator could result in
death or serious injury.
Irradiation Lights
The intensity of the ultraviolet
energy emitted from the ultraviolet
bulbs provided in this unit is
5
6
Carefully return the bulb to the
fixture and rotate it 90 degrees in
either direction until it is firmly
secured.
dependent on the cleanliness and
age of the bulb. The surface of the
bulb should be kept as clean as
possible for optimum intensity.
Depending on the filtration level of
the HVAC system and the general
hygiene of the building, periodic
cleaning may be necessary. Before
attempting any maintenance
ƽ CAUTION
Broken Glass!
Close and latch all unit panels
and reenergize power to the
lights.
Bulbs are fragile and can be easily
broken. Always use gloves and eye
protection when handling these
bulbs. Failure to handle bulbs
properly may result in minor to
moderate injury. Refer to the MSDS
sheet from the bulb manufacturer
for additional safety information.
Replacement of ultraviolet bulbs
procedures, always follow all
warnings and cautions as detailed in
this maintenance section.
The ultraviolet bulb should be
replaced annually if operated
continuously or after 9,000 hours of
use if operated intermittently.
Replacement bulbs must be the
specific size and wattage as
Always use cloth gloves and
suitable eye protection when
cleaning or replacing these bulbs.
Bulbs may break if dropped or
handled improperly.
ƽ WARNING
Hazardous Voltage and
Exposure to Ultraviolet
Radiation!
originally supplied from the factory.
Note: Although the lights may
continue to generate a characteristic
blue glow beyond 9,000 operating
hours, the ultraviolet radiation
emitted by the bulbs degrades over
time and will no longer provide the
intended benefit.
Disposal of Bulbs: UV bulbs, like
fluorescent bulbs, contain mercury,
which is a regulated hazardous
waste. The disposal requirements
for hazardous wastes are
determined by local, state and
federal guidelines. Check all
regulations before disposing of
bulbs to assure you have met all
requirements.
This product contains components
that emit high-intensity ultraviolet
(UV-C) radiation which can be
harmful to unprotected eyes and
skin.
Disconnect all electric power,
including remote disconnects and
discharge all motor start/run
capacitors before servicing. Follow
proper lockout/tagout procedures to
ensure the power cannot be
inadvertently energized. For variable
frequency drives or other energy
storing components provided by
Trane or others, refer to the
1
Disconnect power to the HVAC
unit and the ultraviolet bulbs.
2
Wearing soft cloth gloves and
safety glasses, use two hands to
firmly grasp bulb at each end.
Refer to the MSDS sheet from the
bulb manufacturer for additional
disposal, handling and safety
information.
3
4
Rotate bulb 90 degrees in either
direction and move bulb away
from the fixture and out of unit.
To clean the bulbs:
appropriate manufacturer’s
Carefully install a new
literature for allowable waiting
periods for discharge of capacitors.
Verify with an appropriate voltmeter
that all capacitors have discharged.
Failure to disconnect power and
discharge capacitors before
1
Disconnect all electrical power to
the unit and the ultraviolet bulbs.
replacement bulb in the fixture
and rotate it 90 degrees in either
direction until firmly secured.
2
Wearing soft cloth gloves and
safety glasses, use two hands
and firmly grasp the bulb at each
end.
5
6
If broken bulbs are found or if
you are required to dispose of
used bulbs, the proper warning
and cautions must be followed.
servicing could result in death or
serious injury.
3
Rotate the bulb 90 degrees in
either direction and move bulb
away from the fixture and out of
unit.
After replacing bulbs, close and
latch all unit panels and
reenergize power to the lights.
CAH-SVX01A-EN
55
Troubleshooting
This section is intended to be used
as a diagnostic aid only. For detailed
repair procedures, contact your local
Trane service representative.
including remote disconnects before
servicing. Follow proper lockout/
tagout procedures to ensure the
power can not be inadvertently
energized. When necessary to work
with live electrical components,
have a qualified licensed electrician
or other individual who has been
trained in handling live electrical
components perform these tasks.
Failure to follow all of the
ƽ WARNING
Hazardous Service
Procedures!
The maintenance and
troubleshooting procedures
recommended in this section of the
manual could result in exposure to
electrical, mechanical or other
potential safety hazards. Always
refer to the safety warnings provided
throughout this manual concerning
these procedures. When possible,
disconnect all electrical power
recommended safety warnings
provided, could result in death or
serious injury.
Table 8. Air handler troubleshooting recommendations
Symptom
Probable Cause
Recommended Action
Bearing is
First start after relubrication (grease distribution) Allow machine to cool down and restart.
excessively hot
Over-lubrication
Clean surface of grease and purge.
Over tensioned belts
No lubricant
Misaligned bearing
Blown fuse or open circuit breaker
Overload trip
Adjust belt tension.
Apply lubricant. Check bearings for damage.
Correct alignment. Check shaft level.
Replace fuse or reset circuit breaker.
Check and reset overload.
Motor fails to start
Improper wiring or connections
Improper current supply
Check wiring with diagram supplied on unit.
Compare actual supply power with motor nameplate
recommendations. Contact power company for adjustments.
Check that motor and drive rotate freely. Check bearing lubricant.
Check line for an open phase.
Mechanical failure
Open phase
Motor stalls
Overloaded motor
Low line voltage
Poor alignment
Reduce load or replace with larger motor.
Check across AC line. Correct voltage if possible.
Align bearing set screws (see Figure 49). Loosen and retighten
bearing set screws.
Excessive vibration
Bolts not removed.
Over tensioned belts
Misaligned drive
Remove bolts (see the “Isolator Adjustment” section on page 24).
Adjust belt tension.
Align drive.
Motor runs and then Partial loss of line voltage
dies down
Check for loose connections. Determine adequacy of main power
supply.
Starter shorts when motor warms up
Motor does not come Low voltage at motor terminals
Replace starter.
Check across AC line and correct voltage loss if possible.
Replace with larger sized wiring.
up to speed
Line wiring to motor too small
Overloaded motor
Motor overheats
Reduce load or replace with a larger motor.
Motor fan is clogged with dirt preventing proper Remove fan cover, clean fan and replace cover.
ventilation
Excessive motor
noise
Motor mounting bolts loose
Rigid coupling connections
Worn motor bearings
Tighten motor mounting bolts.
Replace with flexible connections.
Replace bearings and seals.
Fan rubbing on fan cover
Rapid motor bearing Excessive overhung load due to overtensioned
Remove interference in motor fan housing.
Check belt tension and overhung load.
wear
drive
Excessive overhung load due to a small diameter Replace sheave with larger one.
motor sheave
Loose fan belt
Motor is poorly positioned
Worn or damaged belt
Worn sheaves
Adjust belt tension.
Replace belt or belt set. Check sheave alignment.
Replace sheaves.
56
CAH-SVX01A-EN
Troubleshooting
Table 5. Air handler troubleshooting recommendations
Symptom
Short belt life
Probable Cause
Worn sheaves
Recommended Action
Replace sheaves.
Misaligned belt
Grease or oil on belts
Belt slipping
Belts rubbing
Poor alignment
Realign drive with MVP sheave set at mean pitch diameter.
Check for leaky bearings. Clean belts and sheaves.
Improper belt tension. Adjust tension.
Remove obstruction or realign drive for clearance.
Loosen bearing set screws and realign (see the “Bearing Set Screw
Alignment” section on page 50).
Bearing noise
Failed bearing
Replace bearing.
Inadequate lubrication
Incorrect airflow
Incorrect water flow
Replace bearing.
Check fan operating condition.
Inspect the water pumps and valves for proper operation and check
the lines for obstructions.
Low water coil
capacity
Incorrect water temperature
Coil is piped incorrectly
Adjust the chiller or boiler to provide the proper water
temperature.
Verify coil piping (see the “Coil Piping and Connections” section on
page 28.
Dirty fin surface
Incorrect glycol mixture
Low refrigerant coil Incorrect airflow
Clean the fin surface (see the “Coils” section on page 52).
Verify glycol mixture and adjust if necessary.
Check fan operating condition.
capacity
Expansion valve is not operating properly or is
sized incorrectly
Check sensing bulb temperature.
Verify valve operation.
Verify proper valve size.
Incorrect refrigerant charge
Condensing unit failure
Coil is piped incorrectly
Verify refrigerant charge and adjust if necessary.
Verify condensing unit operation.
Verify coil piping (see the “Coil Piping and Connections” section on
page 28).
Clogged refrigerant line filter
Failure of suction/liquid line components
Dirty fin surface
Change filter core.
Verify component operation
Clean the fin surface (see the “Coils” section on page 52).
Note: Do not use steam to clean refrigerant coils.
Verify defrost cycle operation.
Fin frosting
Verify frostat operation.
Verify refrigerant charge.
Low steam coil
capacity
Incorrect airflow
Coil is piped incorrectly
Check fan operating condition.
Verify coil piping (see the “Coil Piping and Connections” section on
page 28).
Incorrect steam pressure
Excessive steam superheat
Verify steam pressure and adjust if necessary.
Check steam superheat.
Steam superheat should not exceed 50ºF.
Verify component operation
Failure of steam line/condensate return
components
Boiler failure
Verify boiler operation
Dirty fin surface
Plugged Drain Line
Unit not level
Clean the fin surface (see the “Coils” section on page 52).
Clean drain line
Level unit
Drain pan is
overflowing
Improper trap design
Improper trap design
Unit not level
Design trap per unit installation instructions
Design trap per unit installation instructions
Level unit
Standing water in
drain pan
Plugged Drain Line
Coil face velocity too high
Improper trap design
Drain pan leaks/overflows
Condensation on surfaces
Missing filters
Clean drain line
Reduce fan speed
Design trap per unit installation instructions
Repair leaks
Insulate surfaces
Wet interior
insulation
Excess dirt in unit
Replace filters
Filter bypass
Standing water in drain pan
Reduce filter bypass by ensuring all blockoffs are in place.
See “Standing water in drain pan”
Microbial growth
(mold) inside air
handler
CAH-SVX01A-EN
57
Notes
58
CAH-SVX01A-EN
Notes
CAH-SVX01A-EN
59
Literature Order Number
Date
CAH-SVX01A-EN
July 2005
New
Supersedes
Trane
A business of American Standard Companies
Stocking Location
Inland
For more information, contact your local Trane
office or e-mail us at [email protected]
Trane has a policy of continuous product and product data improvement and reserves the right to
change design and specifications without notice.
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