Find out all there is to know about owning and operating a built-in ice maker. Our ice maker experts have gathered the facts on the benefits and advantages of having a built-in ice maker unit in your home. Find out more about installing and maintaining a built-in ice maker with our buyers guide.
- How To Install
- How Do Ice Makers Work - A Built-In Breakdown
- How Much Ice Will I Need
- How To Clean Your Ice Maker
How To Install Built-In Ice MakersAs with most ice makers, you will need to run a water line from your water supply to your built-in ice maker. Each ice maker hooks-up differently and it is always important to read the provided instructions to properly install your ice maker. If you are unsure how to hook-up your ice maker, be sure to contact a service professional, and have them install it for you.
* Note: Be sure to check the venting of your unit. If you mistake a freestanding ice maker for a built-in ice maker, you could be at risk for a fire hazard. Check the ventilation of your built-in unit, it should be located in the front.
How Do Ice Makers Work? A Built-In Breakdown
In order to produce ice, water must travel from a tap (which is usually located under the sink area) or from another dedicated water main into the ice maker. Water lines are usually composed of copper or plastic tubing, and must connect to the water inlet valve on the ice maker. The water inlet valve controls the flow of water into the ice maker, and prevents over-filling.
When an ice maker is turned on, an electrical current flows through the inlet valve from the ice maker, and the solenoid on the valve is triggered allowing water to flow. Water will then travel through the outbound water line into the freezer and into the ice mold.
The thermostat is attached to the ice mold and initiates the ice making cycles. It monitors the temperature of the mold and when it matches the preset temperature, the thermostat will trigger the ice maker to begin an ice making cycle.
Once the ice is frozen, the motor will begin turning the ejector blades, which will rotate until they contact the ice. Since the ice is frozen to the mold, it cannot be pushed out and the motor will stall for a moment.
The blades will continue to press on the ice, and the ice mold heater will begin to heat the mold. Once the mold warms up and the ice loosens the ejector motor turns back on, the mold heater shuts off and the ice is pushed out into the bin. The cycle then repeats until the ice maker fills up or is turned off.
How Much Ice Will I Need?Ice usage is rarely consistent even with the same amount of people attending events that you host. Ice use may vary greatly from a gathering in the summer, than in the winter. The chart below is dedicated to giving you a rough idea of how much ice is needed for different drink sizes. It is important to remember that results may vary depending on preference.
|Drink Size||Ice oz. Amount|
|7-10 oz. Drink||5 oz.|
|12-16 oz. Drink||8 oz.|
|18-24 oz. Drink||12 oz.|
How To Clean Your Ice MakerCleaning your ice maker is not a hassle, but you will want to take certain precautions. Minerals that are removed from water during the freezing cycle will eventually form deposits in the water system of your ice maker. A regular cleaning will help to remove the mineral buildup and keep your ice maker working properly.
Water hardness is a factor in how often you will need to clean your ice maker. With hard water of 15 to 20 grains/gallon, you may need to clean the system around every six months. Always use ice maker cleaner, unless otherwise specified, to improve ice production and remove water deposits on the evaporator. Using harsh chemicals or soaps could leave your next batch of ice tasting odd, and possibly damage your ice maker.
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