4
Water Pressure
A cold water supply with water pressure of between 30 and
120 psi (207 and 827 kPa) is required to operate the water
dispenser and ice maker. If you have questions about your water
pressure, call a licensed, qualified plumber.
Reverse Osmosis Water Supply
IMPORTANT: The pressure of the water supply coming out of a
reverse osmosis system going to the water inlet valve of the
refrigerator needs to be between 30 and 120 psi (207 and
827 kPa).
If a reverse osmosis water filtration system is connected to your
cold water supply, the water pressure to the reverse osmosis
system needs to be a minimum of 40 to 60 psi (276 to 414 kPa).
If the water pressure to the reverse osmosis system is less than
40 to 60 psi (276 to 414 kPa):
■
Check to see whether the sediment filter in the reverse
osmosis system is blocked. Replace the filter if necessary.
■
Allow the storage tank on the reverse osmosis system to refill
after heavy usage.
■
If your refrigerator has a water filter, it may further reduce the
water pressure when used in conjunction with a reverse
osmosis system. Remove the water filter. See “Water
Filtration System.”
If you have questions about your water pressure, call a licensed,
qualified plumber.
Connect Water Supply
Read all directions before you begin.
IMPORTANT: If you turn the refrigerator on before the water line
is connected, turn the ice maker OFF.
Connect to Water Line
1. Unplug refrigerator or disconnect power.
2. Turn OFF main water supply. Turn ON nearest faucet long
enough to clear line of water.
3. Locate a
¹⁄₂
" (12.70 mm) to 1
¹⁄₄
" (3.18 cm) vertical cold water
pipe near the refrigerator.
IMPORTANT:
■
Make sure it is a cold water pipe.
■
Horizontal pipe will work, but drill on the top side of the
pipe, not the bottom. This will help keep water away from
the drill and normal sediment from collecting in the valve.
4. Determine the length of copper tubing you need. Measure
from the connection on the lower rear corner of refrigerator to
the water pipe. Add 7 ft (2.1 m) to allow for cleaning. Use
¹⁄₄
"
(6.35 mm) O.D. (outside diameter) copper tubing. Be sure
both ends of copper tubing are cut square.
5. Using a cordless drill, drill a
¹⁄₄
" (6.35 mm) hole in the cold
water pipe you have selected.
6. Fasten the shutoff valve to the cold water pipe with the pipe
clamp. Be sure the outlet end is solidly in the
¹⁄₄
" (6.35 mm)
drilled hole in the water pipe and that the washer is under the
pipe clamp. Tighten the packing nut. Tighten the pipe clamp
screws slowly and evenly so the washer makes a watertight
seal. Do not overtighten or you may crush the copper tubing.
7. Slip the compression sleeve and compression nut on the
copper tubing as shown. Insert the end of the tubing into the
outlet end squarely as far as it will go. Screw the compression
nut onto outlet end with adjustable wrench. Do not
overtighten.
8. Place the free end of the tubing in a container or sink, and
turn ON the main water supply. Flush the tubing until water is
clear. Turn OFF the shutoff valve on the water pipe. Coil the
copper tubing.
Connect to Refrigerator
Style 1
1. Unplug refrigerator or disconnect power.
2. Attach the copper tube to the valve inlet using a compression
nut and sleeve as shown. Tighten the compression nut. Do
not overtighten.
3. Use the tube clamp on the back of the refrigerator to secure
the tubing to the refrigerator as shown. This will help avoid
damage to the tubing when the refrigerator is pushed back
against the wall.
4. Turn shutoff valve ON.
5. Check for leaks. Tighten any connections (including
connections at the valve) or nuts that leak.
6. The ice maker is equipped with a built-in water strainer. If
your water conditions require a second water strainer, install
it in the
¹⁄₄
" (6.35 mm) water line at either tube connection.
Obtain a water strainer from your nearest appliance dealer.
A. Cold water pipe
B. Pipe clamp
C. Copper tubing
D. Compression nut
E. Compression sleeve
F. Shutoff valve
G. Packing nut
A. Tube clamp
B. Copper tubing
C. Compression nut
D. Valve inlet
A
B
C
D
E
F
G
A
B
C
D
