Maytag MIM1554WRS User Instructions - Page 3

Im Portant - drain

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....... Electrical Shock Hazard Plug into a grounded 3 prong outlet. Do not remove ground prong. Do not use an adapter. Do not use an extension cord. Failure to follow these instructions can result in death, fire, or electrical shock. Before you move your ice maker into its final location, it is important to make sure you have the proper electrical connection: A 115 Volt, 60 Hz., AC only, 15- or 20-amp electrical supply, properly grounded in accordance with the National Electrical Code and local codes and ordinances, is required. It is recommended that a separate circuit, serving only your ice maker, be provided. Use a receptacle which cannot be turned off by a switch or pull chain. IMPORTANT: If this product is connected to a GFCI (Ground Fault Circuit Interrupter) equipped outlet, nuisance tripping of the power supply may occur, resulting in loss of cooling. Ice quality may be affected. If nuisance tripping has occurred, and if the condition of the ice appears poor, dispose of it. Recommended grounding method The ice maker must be grounded. The ice maker is equipped with a power supply cord having a 3 prong grounding plug. The cord must be plugged into a mating, 3 prong, grounding-type wall receptacle, grounded in accordance with the National Electrical Code and local codes and ordinances. If a mating wall receptacle is not available, it is the personal responsibility of the customer to have a properly grounded, 3 prong wall receptacle installed by a qualified electrician. A cold water supply with water pressure of between 30 and 120 psi (207 and 827 kPa) is required to operate the ice maker. If you have questions about your water pressure, call a licensed, qualified plumber. Reverse Osmosis Water Supply IM PORTANT: • Reverse osmosis water filtration systems can be used only with ice maker installations that have a gravity drain. A reverse osmosis system is not recommended for ice makers that have a drain pump installed. • The pressure of the water supply coming out of a reverse osmosis system going to the water inlet valve of the ice maker 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). NOTE: The reverse osmosis system must provide 1 gal. (3.8 L) of water per hour to the ice maker for proper ice maker operation. If a reverse osmosis system is desired, only a whole-house capacity reverse osmosis system, capable of maintaining the steady water supply required by the ice maker, is recommended. Faucet capacity reverse osmosis systems are not able to maintain the steady water supply required by the ice maker. 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 you have questions about your water pressure, call a licensed, qualified plumber. It is important for the ice maker to be level in order to work properly. Depending upon where you install the ice maker, you may need to make several adjustments to level it. You may also use the leveling legs to lower the height of the ice maker for undercounter installations. Tools needed: Gather the required tools and parts before starting installation. • 9" level • Adjustable wrench NOTE: It is easier to adjust the leveling legs if you have another person to assist you. 1. Move the ice maker to its final location. NOTE: If this is a built-in installation, move the ice maker as close as possible to the final location. 2. Place the level on top of the product to see if the ice maker is level from front to back and side to side. 3. Push up on the top front of the ice maker, and then locate the leveling screws that are on the bottom front of the ice maker. 4. Using an adjustable wrench, change the height of the legs as follows: • Turn the leveling leg to the right to lower that side of the ice maker. • Turn the leveling leg to the left to raise that side of the ice maker. NOTE: The ice maker should not wobble. Use shims to add stability when needed. 5. Push up on the top rear of the ice maker and locate the leveling legs that are on the bottom rear of the ice maker. 6. Follow the instructions in Step 4 to change the height of the legs. 7. Use the level to recheck the ice maker to see that it is even from front to back and side to side. If the ice maker is not level, repeat steps 2 to 5. If the ice maker is level, go to the "Connect Water Supply" section.

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.......
Electrical
Shock Hazard
Plug into
a
grounded
3 prong
outlet.
Do
not
remove
ground prong.
Do
not
use
an adapter.
Do
not
use
an
extension
cord.
Failure
to follow
these
instructions
can result in
death,
fire, or
electrical
shock.
Before you move your
ice
maker
into its
final location,
it
is
important
to make sure you have the proper
electrical
connection:
A 115 Volt, 60 Hz., AC only, 15- or 20-amp
electrical
supply,
properly
grounded
in accordance
with the National
Electrical
Code and local codes and ordinances,
is required.
It is recommended
that a separate
circuit,
serving
only your ice
maker, be provided.
Use a receptacle
which cannot
be turned off
by a switch
or pull chain.
IMPORTANT:
If this product
is connected
to a GFCI (Ground
Fault Circuit
Interrupter)
equipped
outlet,
nuisance
tripping
of the
power supply
may occur, resulting
in loss of cooling.
Ice quality
may be affected.
If nuisance
tripping
has occurred,
and if the
condition
of the ice appears
poor, dispose
of it.
Recommended
grounding
method
The ice maker must be grounded.
The ice maker
is equipped
with
a power supply
cord having a 3 prong grounding
plug. The cord
must be plugged
into a mating, 3 prong,
grounding-type
wall
receptacle,
grounded
in accordance
with the National Electrical
Code and local codes and ordinances.
If a mating
wall receptacle
is not available,
it is the personal responsibility
of the customer
to
have a properly
grounded,
3 prong wall receptacle
installed
by a
qualified
electrician.
A cold water supply
with water pressure
of between 30 and
120 psi (207 and 827 kPa) is required to operate
the ice maker. If
you have questions
about
your water pressure,
call a licensed,
qualified
plumber.
Reverse
Osmosis
Water
Supply
IM PORTANT:
Reverse osmosis
water filtration
systems
can be used only
with
ice maker
installations
that have a gravity drain. A
reverse osmosis
system is not recommended
for ice makers
that have a drain pump
installed.
The pressure
of the water supply
coming
out of a reverse
osmosis
system going to the water inlet valve of the ice
maker
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).
NOTE: The reverse osmosis system
must provide 1 gal. (3.8 L) of
water per hour to the ice maker for proper
ice maker
operation.
If
a reverse osmosis
system is desired,
only a whole-house
capacity
reverse osmosis
system,
capable
of maintaining
the
steady water supply
required
by the ice maker, is recommended.
Faucet capacity
reverse osmosis
systems
are not able to
maintain the steady
water supply
required
by the ice maker.
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 you have questions
about your water
pressure, call a licensed,
qualified
plumber.
It is important
for the ice maker
to be level in order to work
properly.
Depending
upon where you install the ice maker, you
may need to make several adjustments
to level it. You may also
use the leveling
legs to lower the height of the ice maker
for
undercounter
installations.
Tools
needed:
Gather the required tools and parts before starting
installation.
9" level
Adjustable
wrench
NOTE: It is easier to adjust the leveling
legs if you have another
person to assist you.
1.
Move the ice maker to its final location.
NOTE: If this is a built-in
installation,
move the ice maker as
close as possible
to the final location.
2.
Place the level on top of the product
to see if the ice maker is
level from front to back and side to side.
3.
Push up on the top front of the ice maker, and then locate the
leveling
screws
that are on the bottom
front of the ice maker.
4.
Using an adjustable
wrench,
change the height of the legs as
follows:
Turn the leveling leg to the right to lower that side of the
ice maker.
Turn the leveling leg to the left to raise that side of the ice
maker.
NOTE: The ice maker should
not wobble.
Use shims
to add
stability
when
needed.
5.
Push up on the top rear of the ice maker and locate the
leveling
legs that are on the bottom
rear of the ice maker.
6.
Follow
the instructions
in Step 4 to change the height of the
legs.
7.
Use the level to recheck
the ice maker
to see that it is even
from front to back and side to side.
If the ice maker
is not
level, repeat steps 2 to 5. If the ice maker
is level, go to the
"Connect
Water Supply"
section.