52
WSHP-SVX01E-EN
Installation
Sound Attenuation Pad
For sound sensitive installations, a
vibration pad (field provided) should
be placed beneath the horizontal or
vertical equipment. For the horizontal
unit, the pad should be
approximately twice the size of the
unit foot print. For the vertical unit,
the pad should be 1/2" (12.7 mm)
thick, and equal to the overall unit
foot print.
Hanging the Horizontal
Unit
WARNING
Improper Unit Lift!
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. Failure to properly lift unit
could result in death or serious injury
or possible equipment or property-
only damage.
To hang the horizontal configuration:
1.
Install the hanging isolators
(located in the return-air section
of the unit) into the four hanging
brackets.
2.
Secure the equipment to a joist,
concrete, etc. with the use of 3/8"
(9.7 mm) field provided (all-
thread) rod. Each corner should
contain field provided nuts and
washers to complete the
hanging installation.
3.
Slope horizontal units in two
directions. The unit should
contain a dual ¼ to 12-inch pitch
toward the drain connection.
This will insure proper drainage
of the unit. All plumbing to the
unit should conform per national
and local codes and is the
responsibility of the contractor.
Condensate Drain
Connection
Install proper trapping to the
equipment. The unit drain
connection is 3/4" (19 mm) for all
GEH and GEV models.
When designing the condensate trap
for the water-source system, it’s
important to consider the unit’s draw-
thru design requiring negative
pressure trapping.
In a properly trapped system, when
condensate forms during normal
operation, the water level in the trap
rises until there is a constant flow. It
is imperative to maintain water in the
trap and not allow the trap to dry out
during heating season. Keeping trap
primed at all times will enable the
water to flow properly. See
Figure 53
for appropriate dimensions required
in a negative pressure system.
Supply/Return Pipe
Connections
Connect the supply and return hoses
to the water-inlet (from supply) and
water-outlet (to return) of the unit.
For vibration isolation, it is
recommended that flexible steel
braided hoses be installed instead of
hard piping the equipment to the
main loop system.
Figure 54
shows
connection of a Hays Measurflo®
balancing hose kit to the water-in and
water-out of a vertical unit.
Note:
Figure 54
example
incorporates the Hays
Measurflo® balancing hose
Figure 52.
Hanging the unit
Figure 53.
Negative pressure
system
SUPPLY-AIR
3/8" ALL-THREAD
(BY OTHERS)
3/8" WASHER / NUT
(BY OTHERS)
RETURN-AIR
NE
G
ATIVE PRESSURE TRAPPIN
G
H =
L =
1" (25.4 mm) FOR EVERY 1"
(25.4 mm) OF MAXIMUM
NEGATIVE STATIC PRESSURE
+ 1" (25.4 mm).
HALF OF H.
H + J + PIPE DI
INSULATION.
J =
kit and a 2-position isolation
valve into the system design.
An isolation valve is often
used in variable speed
pumping applications. The
isolation valve is designed to
stop water flow to the unit
during non operation times.
This allows the loop water
pumps to run only when a
requirement for pumping is
needed for greater energy
efficiency of the overall
system design.
Types of Hose
Connections
Whether installing the units in a
central pump (main/auxiliary pump
for the entire zone) design, or as a
distributed pump (1-pump per unit)
design, a shut-off device and flexible
hose is recommended to transition
from the hard piping of the closed or
open loop water system to the unit.
There are multiple hose
combinations which may be used to
fit the design or specification criteria
for the installation.
1.
A steel braided hose without a
shut-off device is the least
expensive means of connecting
the heat pump to the supply/
return water loop.
Figure 54.
Supply/return pipe
connections
Figure 55.
Flexible hoses
RETURN
TO
LOOP
SUPPLY
FROM
CENTRAL
PUMP
AUTOMATIC BALANCIN
G
HOSE KIT
WATER-IN
WATER-OUT
SUPPLY
RETURN
Содержание Axiom GEHB 006
Страница 25: ...WSHP SVX01E EN 25 Dimensions Figure 22 GEH 150 180 60Hz GEH 120 150 50Hz GEH right return left supply...
Страница 26: ...26 WSHP SVX01E EN Dimensions Figure 23 GEH 150 180 60Hz GEH 120 150 50Hz GEH right return back supply...
Страница 27: ...WSHP SVX01E EN 27 Dimensions Figure 24 GEH 150 180 60Hz GEH 120 150 50Hz GEH left return right supply...
Страница 28: ...28 WSHP SVX01E EN Dimensions Figure 25 GEH 150 180 60Hz GEH 120 150 50Hz GEH left return back supply...
Страница 33: ...WSHP SVX01E EN 33 Dimensions Figure 30 12 1 2 15 ton 60Hz 10 and 12 1 2 ton 50Hz front return back supply...
Страница 34: ...34 WSHP SVX01E EN Dimensions Figure 31 12 1 2 15 ton 60Hz 10 and 12 1 2 ton 50Hz back return front supply...
Страница 35: ...WSHP SVX01E EN 35 Dimensions Figure 32 12 1 2 15 ton 60Hz 10 and 12 1 2 ton 50Hz front return top supply...
Страница 36: ...36 WSHP SVX01E EN Dimensions Figure 33 12 1 2 15 ton 60Hz 10 and 12 1 2 ton 50Hz back return top supply...
Страница 88: ...88 WSHP SVX01E EN Figure 1 Basic 208 V 60 Hz 1Ph Wiring...
Страница 89: ...WSHP SVX01E EN 89 Wiring Figure 2 Deluxe 380 420 V 50 Hz 3 Ph...
Страница 90: ...90 WSHP SVX01E EN Wiring Figure 3 ZN510 208 V 60 Hz 1 Ph...
Страница 91: ...WSHP SVX01E EN 91 Wiring Figure 4 ZN524 460 V 60 Hz 3 Ph...
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