KR101837147B1 - Apparatus for sterilizing in ice maker - Google Patents

Abstract

In the embodiment, the UV stabilizer, the power supply unit, and the main controller of the icemaker control unit (the icemaker) are controlled in accordance with a setting command from the main controller to supply power from the power supply unit to the UV stabilizer And a controller for controlling the operation of the reference UV lamp driving current output of the UV stabilizer by interrupting the supply operation, wherein the controller includes a temperature sensing unit for sensing the current icing water temperature of the icemaker, The temperature of the UV lamp driving current is set to a value proportional to the difference between the current iced water temperature sensed by the temperature sensing unit and the set reference iced water temperature, If the temperature exceeds the reference deicing water temperature, the operation of the UV lamp driving current output of the UV ballast is controlled so that the reference UV lamp And when the current iced water temperature is lower than the set reference iced water temperature, the UV lamp driving current output operation of the UV stabilizer is controlled to output the reference UV lamp driving current to the UV lamp as the current iced water temperature set reference standard The present invention relates to an ice-maker sterilization control device for continuously increasing the ice-maker sterilization rate of the UV lamp by increasing the amount of the UV lamp drive current to be increased in proportion to the difference value lowered from the ice water temperature, Thereby preventing a reduction in the sterilization rate of the ice-making water due to the temperature drop.

Description

[0001] Apparatus for sterilizing in ice maker [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ice-maker sterilization control apparatus, and more particularly, to an apparatus for controlling sterilization of ice-water by using an ice-maker provided with an ultraviolet sterilizer for generating clean ice by discharging ultraviolet rays to sterilize ice-

Generally, an ice maker is a generic term for automatically generating ice using a refrigerant. There are various types of ice makers installed in a refrigerator or a freezer to produce ice only from an ice maker.

Conventionally, to make ice, a tray having a predetermined shape is filled with water, and then the tray is put into a freezer of a refrigerator to make ice. However, in the case of making ice by the above-described method, it takes a long time to produce it, and therefore, it is difficult to use in a place where a large amount of ice is needed such as a coffee shop or a restaurant. Therefore, in such a place, it is common to produce ice required for business using a dedicated ice maker.

1 is a view showing a part of the structure of an ice maker according to the prior art.

Referring to FIG. 1, the ice maker according to the related art includes a tray 10, a take-out means (not shown) for separating the frozen ice from the tray 10, A water storage part 50 provided below the nozzle part 30 for storing water sprayed by the nozzle part 30 and a water storage part 50 for storing water sprayed by the nozzle part 30, (Not shown) for receiving ice removed from the tray 10, a water circulation unit (not shown) for supplying water stored in the reservoir unit 50 to the nozzle unit 30, (90).

In the configuration as described above, the water supplied through the water supply unit 70 is accommodated in the reservoir unit 50 primarily. The water contained in the reservoir unit 50 is circulated to the nozzle unit 30 by the water circulation unit 90 connecting the bottom surface of the reservoir unit 50 and the nozzle unit 30. The water arriving at the nozzle unit 30 is injected toward the tray 10 through the nozzles of the nozzle unit 30. At this time, as described above, since the opening portion of the receiving groove faces the lower portion (nozzle direction) and refrigerant circulates in a pipe (not shown) provided in contact with the upper portion of the tray 10, . Therefore, when the water injected through the nozzle hits the receiving groove of the tray 10, some of the water is evaporated and condensed, and some of the water drops back to the reservoir 50 again.

Then, the water supplied to the water storage portion 50 or the above-mentioned tray is injected again into the water storage portion 50, and then the water is circulated by the water circulation portion 90 toward the nozzle do.

In addition, when the water jetted from the nozzle unit 30 to the tray 10 is evaporated and condensed so that the receiving groove of the tray 10 is filled with ice, the water jetting from the nozzle unit 30 is stopped, The ice filled in the receiving groove of the tray 10 is taken out. The ice taken out from the take-out portion is stored in the ice storage portion.

According to the ice maker according to the related art, a large amount of ice can be produced in a short time, so that it can be usefully used in a coffee shop or restaurant where ice is in high demand.

However, since the ice making machine according to the related art repeats a long period of circulation of the water contained in the water holding portion, the harmful bacteria are easily proliferated.

Therefore, the applicant of the present invention disclosed in Korean Patent No. 10-1227158 (invented by the inventor of the invention: an ice-maker equipped with an ultraviolet sterilizer), which is patented and registered, has an ultraviolet sterilizer in the water circulation part, It is possible to produce clean ice by sterilizing by the ultraviolet sterilizer in the course of supplying the ice to the ice.

However, in the ice-maker provided with such an ultraviolet sterilizer, as the temperature of the ice-making water is lowered by continuous continuous ice making of the ice-maker, the rate of sterilization of the ice-

For example, the icing water at the initial stage of ice-making is supplied at a temperature of about 17 ° C to continue ice-making, and the ice-making water temperature drops below zero. This temperature change causes a reduction in the sterilization rate of the icing water caused by ultraviolet rays.

Disclosed herein is an ice-maker disinfection control apparatus for an ice-maker having an ultraviolet sterilizer, which is capable of preventing a decrease in the sterilization rate of the ice-making water caused by ultraviolet rays as the temperature of ice- Device.

In the ice-maker sterilization control apparatus according to the embodiment,

An ice maker comprising an ultraviolet sterilizer for emitting ultraviolet rays to sterilize iced water to produce clean ice, the ice maker comprising: an icemaker for detecting an icemaker's temperature during use of ice when the icemaker temperature is lowered, The UV lamp driving current of the UV ballast which outputs a constant UV lamp driving current by the ultraviolet sterilizer (i.e. UV lamp) corresponding to the difference value from the ice water temperature is compensated by increasing the driving current of the UV lamp to perform the sterilization of the ice water .

According to the embodiments, in the ice maker provided with the ultraviolet sterilizer, it is possible to keep the deicing rate of the iced water by the ultraviolet rays which is changed along with the lowering of the icing water temperature by the continuous continuous icing of the icecounter, Thereby preventing the sterilization rate from lowering.

1 is a view showing a part of the structure of a conventional icemaker;
2 is a view showing the structure of an ice maker provided with an ultraviolet sterilizer to which an icemaker sterilization control apparatus according to an embodiment is applied
FIG. 3A is a view showing the configuration of an ice-maker sterilization control apparatus according to one embodiment; FIG.
3B is a view showing another configuration of the icemaker disinfection control apparatus according to the embodiment;
4 is a view sequentially showing the operation of the ice-maker sterilization control apparatus according to one embodiment;

2 is a view illustrating a structure of an ice maker provided with an ultraviolet sterilizer to which a controller according to an embodiment is applied.

As shown in FIG. 2, the controller according to an embodiment of the present invention includes an ultraviolet sterilizer, which emits ultraviolet rays and emits ultraviolet rays to the ice maker in accordance with a change in temperature of ice making water (or ice making water and its surroundings) And the sterilization rate is lowered as the temperature of the icing water goes down by continuous icing. The icemaker according to one embodiment of the present invention is an icemaker equipped with an ultraviolet sterilizer.

That is, the icemaker provided with the ultraviolet sterilizer according to the embodiment of the present invention is provided with the ultraviolet sterilizer in the water circulation unit so that the water contained in the reservoir unit is sterilized before being sprayed through the nozzle, The ice maker is provided with an ultraviolet sterilizer capable of preventing the growth of the ice cubes from occurring and producing clean ice.

Specifically, the ice maker provided with the ultraviolet sterilizer according to one embodiment includes a tray 110 serving as a frame for freezing ice, a takeout means (not shown) for taking out the ice formed in the tray 110, A nozzle 130 provided below the tray 110 for spraying water onto the tray 110 and a nozzle 130 provided below the nozzle 130 for spraying water A water supply unit 170 for supplying water to the reservoir unit 150, a guide unit 210 for guiding the ice taken out from the tray 110, And an ice circulation unit 190 for supplying water stored in the reservoir unit 150 to the nozzle unit 130. The water circulation unit 190 is provided with an ice- The water circulating unit 190 is provided with a first ultraviolet sterilizer 250, Sterilized while passing through an ultraviolet sterilizer, and then supplied to the nozzle unit.

The tray 110 provides a frame for freezing the ice, and the receiving recess 113 formed of a plurality of regular tetrahedrons or hemispheres is arranged in parallel so that the opening portion is directed downward, And a plurality of refrigerant pipes (115) through which the refrigerant passes are in contact with each other. At this time, the shape of the receiving groove 113 is not necessarily limited to a regular square or a hemisphere, and various shapes can be used as needed, and the shape of the ice is determined by the shape of the receiving groove 113. Further, the refrigerant is circulated by a refrigerating device (not shown) provided separately in the refrigerant pipe 115 so that heat is taken from the tray 110 so that the temperature of the tray 110 is maintained at a temperature of at most the freezing point. The refrigeration apparatus is a well-known technology and a detailed description thereof will be omitted. The tray 110 is further provided with a temperature sensor (not shown) to periodically measure the temperature of the tray 110 to provide information necessary to control the operation of the refrigerator.

A heating means is provided to heat the tray 110 to heat the tray 110. The tray 110 is heated by the heater 110 to heat the tray 110, Is used to thaw a part of the ice in contact with the tray 110 so that the ice is separated from the tray 110. However, the above-described takeout means may include a vibrating means provided on the tray 110 to vibrate the tray 110 so as to allow freezing ice to fall off the receiving groove 113, Of course, can be used.

The nozzle unit 130 is provided at a lower portion of the tray 110 and injects water into the tray 110. The nozzle unit 130 includes a plenum pipe 133 for temporarily storing water to be jetted, And a nozzle 135 provided in the pipe 133 for spraying water. The plenum pipe 133 is a space in which water before being injected into the nozzle 135 is temporarily received and waits. A cylindrical or polygonal pipe is provided in the lower part of the tray 110 in the lateral direction, And the second pipe 195 of the water circulation unit 190, which will be described later, is connected to the other end. A plurality of nozzles 135 are arranged side by side on the upper surface of the plenum pipe 133 in a direction facing the tray 110. The nozzle 135 refers to jetting the water of the plenum pipe 133 in a radial direction toward the tray 110.

The nozzle 135 is a known component, and a detailed description thereof will be omitted.

The water storage part 150 is provided at a lower portion of the nozzle part 130 to store water sprayed by the nozzle 135. It is also a space where water supplied from outside is stored. The first pipe 193 of the water circulation unit 190 is connected to the bottom surface of the water storage unit 150.

FIG. 3A is a diagram showing a configuration of an ice-maker sterilization control apparatus according to an embodiment.

As shown in FIG. 3A, the icemaker disinfection controller according to an embodiment of the present invention operates in conjunction with an ice maker controller that controls the ice making operation of an existing icemaker, and includes an ultraviolet sterilizer (i.e., a UV lamp A UV stabilizer 201 electrically connected to the UV lamp to output a constant reference UV lamp driving current to control ultraviolet emission operation of the UV lamp, a power supply unit for supplying a source power of the UV lamp driving current 204), a temperature sensing unit 202 for sensing the current icing water temperature of the icemaker, and a main controller (101) of the icemaker controller for controlling the ice making operation of the icemaker, 101, the power supply unit 205 interrupts the power supply operation from the UV stabilizer 202 to the UV stabilizer 202 And controls the operation of the UV lamp driving current output so that the current deicing water temperature sensed by the temperature sensing unit 202 is lower than the reference reference deicing water temperature, And a controller 203 for increasing the current and outputting the UV lamp to the UV lamp, that is, the ultraviolet sterilizer, to keep the sterilization rate of the ice-making water at the time of sterilizing the ice- .

In addition, the sterilizing control device for the icemaker according to an embodiment of the present invention has a structure that increases the UV lamp driving current of the UV stabilizer 201 in accordance with the lowering of the temperature of the icemaker, (Not shown) that varies the UV lamp driving current, and the control unit 203 is electrically connected to the variable resistor unit, and the variable resistor unit is electrically connected to the variable resistor unit, If the current ice-making water temperature sensed by the temperature sensing unit 202 is equal to or greater than the reference reference ice-number water temperature, the resistance value of the variable resistance unit is adjusted to a preset reference resistance value, If the current ice-making water temperature sensed by the temperature sensing unit 202 is less than the set reference ice-number water temperature, the resistance value of the variable resistance unit is output to the current Ice-water temperature is controlled by setting a resistance value corresponding to the difference value falls from the set reference temperature, ice water was output by increasing the UV lamp driving electric current, and has a structure to maintain a constant rate of the first ice-water sterilization UV lamp. At this time, the variable resistor unit includes a structure integrated with the output terminal of the UV stabilizer 201. Specifically, the variable resistor unit is electrically connected between the UV lamp driving current control capacitor provided at the output terminal of the UV stabilizer 201 and the UV lamp And includes an integrated structure.

The UV stabilizer 201 is electrically connected to an ultraviolet sterilizer (i.e., a UV lamp for sterilizing deicing water), and outputs a constant UV lamp driving current to the UV lamp to control ultraviolet emission operation of the UV lamp. That is, the UV stabilizer 201 is electrically connected to a UV lamp that is used in an ice maker to sterilize ice water, and outputs a constant UV lamp driving current to the UV lamp during the ice making under the control of the controller 203, The ultraviolet rays are emitted from the UV lamp to sterilize the iced water.

The power supply unit 204 supplies the source power of the UV lamp driving current. That is, the power supply unit 204 supplies power to the UV stabilizer 201, and the UV stabilizer 201 outputs a constant UV lamp driving current to the UV lamp using the supplied power.

The temperature sensing unit 202 senses the current ice-making water temperature of the ice-maker. For example, the temperature sensing unit 202 senses the current ice-making water temperature stored in the ice-

The control unit 203 is electrically connected to the main control unit 101 which controls the icing operation of the ice maker as a whole, and is interlocked with the main control unit 101. In response to the UV lamp on control signal from the main control unit 101, The power supply unit 204 allows the power supply to the UV stabilizer 201 to be UV-lamp-turned on and supplies the power to the power supply unit 204 from the power supply unit 204 in response to a UV lamp- The power to the UV stabilizer 201 is cut off and the UV lamp is turned off. The control unit 203 controls the reference UV lamp driving current of the UV stabilizer 201 in accordance with the difference between the current icing water temperature sensed by the temperature sensing unit 202 and the set reference icing water temperature The sterilization rate of the UV lamp, that is, the ultraviolet sterilizer, is kept constant at the time of sterilizing the icing water, thereby preventing the lowering of the sterilization rate according to the temperature change of the icing water. Specifically, the control unit 203 sets information for raising the UV lamp driving current in proportion to the difference value of the ice-making water temperature from the set reference ice-making water temperature, If the current ice-making water temperature sensed by the temperature sensing unit 202 is equal to or greater than the preset reference ice-number water temperature as a result of the comparison, the UV lamp driving current And outputs the reference UV lamp driving current to the UV lamp when the current deicing water temperature sensed by the temperature sensing unit 202 is lower than the set reference deicing water temperature by controlling the output operation of the UV stabilizer 201 ) To control the UV lamp driving current to the UV lamp so that the current icemperature temperature is lower than the reference reference icemaker temperature The sterilization rate is increased by a set UV lamp driving current proportional to the strong difference value, and the sterilization rate of the icemaker is kept constant, thereby preventing the sterilization rate from being lowered according to the temperature change of the icemaker.

FIG. 3B is a diagram illustrating another configuration of the ice-maker sterilization control apparatus according to the embodiment.

As shown in FIG. 3B, another structure of the ice-maker disinfection control apparatus according to an embodiment is integrated with an ice-maker controller that entirely controls the ice-making operation of the existing ice maker.

In other words, the ice-maker disinfection control apparatus according to an embodiment of the present invention includes an ice-making water supply drive unit 103 for driving the ice-making water supply drive unit of the ice maker, a coolant supply drive unit 104 for driving the ice- A UV stabilizer 106 electrically connected to a UV lamp used in the ice maker to sterilize iced water to output a constant reference UV lamp driving current to the UV lamp to turn on the UV lamp, And an ice-making operation of the ice-maker is controlled by controlling a driving operation of the ice-making water supply driving unit 103 and a driving operation of the refrigerant supply driving unit 104 according to a user setting command, The power supply operation from the power supply unit 108 to the UV stabilizer 106 is interrupted according to a user setting command so that the reference UV lamp driving current And a main control unit 101 for controlling an output operation.

In addition, another configuration of the ice-maker sterilization control apparatus according to an embodiment includes a temperature sensing unit 107 that senses a current icing water temperature of the ice maker.

In particular, the main controller 101 controls the sterilizing control of the icemaker according to the present invention. The main controller 101 determines whether the ice-making water temperature is higher than the predetermined reference ice- If the current ice-making water temperature sensed by the temperature sensing unit 107 is compared with the preset reference ice-cream water temperature, The control unit controls the UV lamp driving current output operation of the UV stabilizer 106 to output the reference UV lamp driving current to the UV lamp, and if the comparison result indicates that the current deicing water temperature sensed by the temperature sensing unit 107 Is less than a set reference iced water temperature, the UV lamp driving current output operation of the UV stabilizer (106) is controlled so that the reference UV lamp driving current The icing water temperature is increased by a set UV lamp driving current to be proportionally raised corresponding to the difference value lowered from the set reference iced water temperature, and the ice-water sterilization rate of the UV lamp is kept constant.

The other configuration of the icemaker sterilization control apparatus according to the embodiment has the same structure for increasing the UV lamp driving current of the UV stabilizer according to the lowering of the temperature of the ice-making water at the time of sterilizing the ice-making water shown in Fig. In this case, the operation performed by the controller of FIG. 3A, that is, the operation of increasing the UV lamp driving current of the UV stabilizer 202 according to the lowering of the temperature of the icemaker, is performed by the main controller 101 of FIG. 3B in the same manner.

FIG. 4 is a view sequentially showing the operation of the ice-maker sterilization control apparatus according to one embodiment (see FIG.

As shown in FIG. 4, the ice-maker sterilization control apparatus according to an embodiment of the present invention first supplies the ice-making number when the main controller inputs the user's ice-making start command (S201) and stores the ice-

Then, the pump is operated to circulate de-iced water stored in the reservoir portion to supply it to a nozzle portion provided at a lower portion of the tray, and the nozzle portion injects de-iced water into the tray.

At this time, the ice-making water supplied from the reservoir unit is sterilized while passing through the ultraviolet sterilizer, that is, the UV lamp, and then supplied to the nozzle unit.

In this case, the control unit allows the power supply from the power supply unit to the UV ballast in accordance with the UV lamp-on control signal in response to the icing start command from the main control unit, and the UV ballast uses a permitted power supply to supply a constant UV lamp driving current (S202), and the ice-making water supplied from the reservoir portion is sterilized by the UV lamp thus turned on.

In this state, when the ice-making time has elapsed, the ice-making water temperature is gradually lowered. For example, in the state where ice-making water having a temperature of about 17 캜 is supplied at the initial stage of ice- , And when the ice-making time has elapsed in accordance with continuous ice-making, the temperature of the ice-making water is gradually lowered to zero. That is, there occurs a change in the ice-making water temperature in which the ice-making water temperature falls to minus zero.

In accordance with the change of the ice-making water temperature, that is, as the ice-making water temperature continues to fall below freezing point, the intensity of the ultraviolet rays emitted to the ice-making water falls off, and the ice-

Thus, the temperature sensing unit senses the current icing water temperature (S203), and the control unit controls the UV lamp driving of the UV stabilizer in accordance with the difference value of the current icing water temperature sensed by the temperature sensing unit from the setting reference icing water temperature The current is increased (S204) to output to the UV lamp to increase the UV intensity to prevent the sterilization rate of the UV lamp, i.e., the ultraviolet sterilizer, from being lowered and to maintain the sterilization rate of the iced water constant.

A specific operation will be described.

For example, first, the controller sets information for raising the UV lamp driving current proportionally in accordance with the difference value of the ice-making water temperature from the set reference iced water temperature, so that the current ice-making water temperature sensed by the temperature sensing unit And the set reference ice water temperature.

As a result of the comparison, when the current deicing water temperature sensed by the temperature sensing unit is equal to or higher than the set reference deicing water temperature, the UV lamp driving current output operation of the UV stabilizer is controlled to output the reference UV lamp driving current with the UV lamp .

On the other hand, if the current deicing water temperature sensed by the temperature sensing unit is lower than the set reference deicing water temperature, the UV lamp driving current output operation of the UV stabilizer is controlled so that the reference UV lamp driving current is supplied to the UV lamp The icing water temperature is increased by the set UV lamp driving current to be proportionally raised corresponding to the difference value lowered from the set reference iced water temperature and outputted.

As a result, the sterilization rate of the ice-making water of the UV lamp is kept constant, thereby preventing the lowering of the sterilization rate according to the temperature change of the ice-making water.

The specific operation of increasing the UV lamp driving current of the UV stabilizer in accordance with the operation of increasing the UV lamp driving current of the specific UV stabilizer, that is, the lowering of the temperature of the icemaker during the deicing of the icemaker, will be described.

First, a variable resistor section for varying the UV lamp driving current is provided between an output terminal for UV lamp driving current control of the UV ballast and the UV lamp.

The control unit is electrically connected to the variable resistance unit to adjust a resistance value of the variable resistance unit according to a difference value detected from the set reference iced water temperature by the temperature sensing unit , The UV lamp driving current of the UV stabilizer is increased to be output to the UV lamp so that the UV intensity is increased to keep the sterilization rate of the icing water constant

For example, the control unit compares the current deicing water temperature sensed by the temperature sensing unit with the preset reference deicing water temperature when the deicing water is sterilized.

As a result of the comparison, if the current deicing water temperature sensed by the temperature sensing unit is equal to or greater than the preset reference deicing water temperature, the controller adjusts the resistance value of the variable resistance unit to a setting reference resistance value, And outputs a current.

On the other hand, if the current ice-making water temperature sensed by the temperature sensing unit is less than the setting reference ice-containing water temperature as a result of the comparison, the resistance value of the variable resistance unit is set to a value corresponding to a difference value Adjust the set resistance value (eg, decrease) to increase the UV lamp drive current and output it.

As a result, the sterilization rate of the ice-making water of the UV lamp is kept constant, thereby preventing the lowering of the sterilization rate according to the temperature change of the ice-making water.

At this time, the variable resistor unit includes a structure integrated with the output terminal of the UV stabilizer, and a specific example is a structure in which the variable resistor unit is electrically connected between the UV lamp driving current control capacitor provided at the output terminal of the UV stabilizer and the UV lamp, .

As described above, one embodiment of the present invention is an ice maker provided with an ultraviolet sterilizer for generating clean ice by sterilizing ice water by emitting ultraviolet rays. In the ice maker, when the temperature of ice- By increasing the UV lamp driving current of the UV stabilizer which turns on and turn on the constant UV lamp driving current with the ultraviolet sterilizer (that is, UV lamp) corresponding to the difference value from the reference deicing water temperature, the sterilization rate of the icing water is kept constant As the deicing water temperature is lowered, the rate of water sterilization due to the ultraviolet rays being changed is kept constant and the sterilization rate is prevented from lowering.

Description of the Related Art [0002]
101: main control unit 102: user key input unit
103: ice water supply driving part 104: refrigerant supply driving part
105: defrosting supply driving unit 201: UV stabilizer
202: temperature sensing unit 203:
204: Power supply

Claims (4)

A UV stabilizer which is used in an ice maker and is electrically connected to a UV lamp for sterilizing deicing water to output a constant reference UV lamp driving current with the UV lamp to turn on the UV lamp;
A power supply for supplying a source power of the UV lamp driving current;
A temperature sensing unit for sensing a current icing water temperature of the ice maker; And
And a controller for controlling an output of the UV stabilizer to a predetermined reference UV lamp driving current according to a difference value between a deicing water temperature of the temperature sensing unit and a set reference deicing water temperature under the control of the main controller in the icemaker control device of the ice- ,

A variable resistor unit for varying the output of a constant reference UV lamp driving current of the UV stabilizer between the current control capacitor and the UV lamp in an output terminal for UV lamp driving current control of the UV stabilizer;
And,

The control unit adjusts the resistance value of the variable resistance unit to a set resistance value in accordance with a difference value obtained by subtracting the present icing water temperature from the set reference iced water temperature, And an ice maker. delete An ice-making water supply driving unit for driving the ice-making water supply driving unit of the ice maker;
A refrigerant supply driving unit for driving the refrigerant supply driving device of the iced water;
A UV stabilizer electrically connected to a UV lamp used in the ice maker to sterilize iced water to output a constant reference UV lamp driving current with the UV lamp to turn on UV lamp;
A power supply for supplying a source power of the UV lamp driving current;
A temperature sensing unit for sensing a current icing water temperature of the ice maker; And
A main controller for controlling the operation of the ice-making water supply driving operation and the refrigerant supply driving operation and adjusting the output of the UV stabilizer to a constant reference UV lamp driving current according to a difference value between the icing water temperature of the temperature sensing part and the setting reference iced water temperature, A control unit;
Lt; / RTI >

The main control unit adjusts the resistance value of the variable resistance unit to the setting resistance value in accordance with the difference value obtained by subtracting the present ice-making water temperature from the setting reference iced water temperature, And an ice maker.
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