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UNIT SUPPORT
NOTE: Unit must be level + 2degrees [a 3Ainch rise or fall
per foot of run (10 mm rise or fall per 305 mm of run)] or
compressor may not function properly.
A. GROUND LEVEL INSTALLATION
The unit must be level and supported above grade by
beams, platform, or a pad. Platform or pad can be of
open or solid construction but should be of permanent
materials such as concrete, bricks, blocks, steel, or
pressure- treated timbers approved for ground contact.
Soil conditions must be considered so that the platform
or pad does not shift or settle and leave the unit partially
supported. Minimum pad dimensions are shown in
Figure 1.
If beams or an open platform are used for support, it is
recommended that the soil be treated or area be
graveled to reduce the growth of grasses and weeds.
To minimize vibration or noise transmission, it is
recommended that supports not be in contact with the
building structure. However, slabs on grade
constructions with an extended pad are normally
acceptable.
B. ROOF TOP INSTALLATION
This type of installation is not recommended on wood
frame structures where low noise levels are required.
Supporting structure or platform for the unit must be
level. If installation is on a flat roof, locate unit minimum 6
inches (152 mm) above roof level.
Place the unit over one or more load bearing walls. If
there are several units, mount them on platforms that are
self-supporting and span several load bearing walls.
These suggestions are to minimize noise and vibration
transmission through the structure. If the structure is a
home or apartment, avoid locating the unit over
bedrooms or study.
NOTE: When unit is to be installed on a bonded
guaranteed roof, a release must be obtained from the
building owner to free the installer from all liabilities.
C. FASTENING UNIT DOWN
If conditions or local codes require the unit be attached in
place, remove the knockouts in the base pan and install
tie down bolts through the holes (refer to Figure 1).
Contact local distributor for hurricane hold-down details
and the P.E. (Professional Engineer) certification, when
required.
PROPERTY DAMAGE HAZARD
Failure to follow this caution may result in
property damage.
Inadequate unit support may cause excessive
vibration, noise, and/or stress on the refrigerant
lines, leading to refrigerant line failure.
I
Figure 1 ] Tie Down Knockouts
a" (10mm) dia. Tie Down Knockouts L
View From
Top
In Base Pan (2 places)
A
cO
Base Pan Width
Base Pan
Width x
Depth
23 x 23
(584 x 584)
25-11/16 x
25-11/16
(652 x 652)
31-1/8 x
31-1/8
(791 x 791)
34-15/16 x
34-15/16
(887 x 887)
Inches (mm)
Tie Down
Knockouts
A B
7-3/4 4-7/16
(197) (113)
9-1/16 4-7/16
(230) (113)
9-1/16 6-1/2
(230) (165)
9-1/16 6-1/2
(230) (165)
C
18
(457)
21-1/4
(540)
24-5/8
(625)
28-7/16
(722)
Minimum
MountingPad
Dimensions
23 x 23
(584 x 584)
26 x 26
(660 x 660)
31-1/2 x
31-1/2
(800 x 800)
35 x 35
(889 x 889)
REFRIGERATION SYSTEM
A. COMPONENT MATCHES
Check to see that the proper system components are in
place, especially the indoor coil.
R-410A outdoor units can only be used with R-410A
specific indoor coils. If there is a refrigerant mis-match,
consult the indoor coil manufacturer to determine if a
refrigerant conversion kit is available for the indoor coil.
This outdoor unit is designed for use only with indoor
coils that utilize a TXV refrigerant metering device or
Piston with Teflon ring metering device. If any other type
of metering device is installed on the indoor coil, consult
the indoor coil manufacturer to determine if a TXV
conversion kit is available.
Installing with TXV
When installing a TXV on an indoor coil, follow the
instructions provided with the new TXV.
A typical TXV installation is shown in Figure 2.
421 01 5103 02 specificationssubjecttochangewithout notice. 3
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