KR20050099887A - Ice moving heater control method for auto ice machine - Google Patents

Abstract

The present invention relates to a method of controlling an ice maker heater of an automatic ice maker, by setting a heater overheating reference temperature through experiments, and detecting the temperature of the defrosting sensor when the ice heater generates heat, and when the detected temperature is greater than the heater overheating reference temperature. By automatically turning off the ice heater, the ice heater is prevented from overheating. To this end, the present invention comprises the steps of detecting the temperature by the ice making sensor, and then comparing the detected temperature with the ice making reference temperature; As a result of the comparison, when the detection temperature is greater than the ice making reference temperature, the compressor and the freezer compartment fan are turned on. If the detection temperature is lower than the ice making reference temperature, the ice heater and the ice motor are turned on. Determining whether it has been done; As a result of the determination, if the ice heater heating time has passed the reference time, turning off the ice heater and comparing the temperature detected by the ice making sensor with the heater overheat reference temperature if the ice heater heating time has not passed the reference time; As a result of the comparison, when the detection temperature is greater than the reference temperature of the heater overheating, the ice heater is turned off.

Description

ICE MOVING HEATER CONTROL METHOD FOR AUTO ICE MACHINE}

The present invention relates to a method of controlling an ice maker heater of an automatic ice maker, and in particular, in an ice maker mode, a method of controlling an ice maker heater of an automatic ice maker which senses the temperature of the ice maker sensor and turns off the ice maker heater when the temperature of the ice maker sensor is larger than a predetermined value. It is about.

In general, automatic ice makers typically perform the next ice-making operation when ice making is completed. That is, the ice making machine in the horizontal state is rotated by the motor and iced. For example, it rotates in the forward direction, reverses the downward direction, and twists the ice maker before reaching the downward direction, so that the ice is easily removed from the ice maker. By the reversal and twisting as described above, the ice in the ice making container is dropped and stored in the storage container disposed under the ice, which is described below with reference to the accompanying drawings.

1 and 2 is an exemplary view showing a configuration of a conventional automatic ice maker, as shown in the interior of the refrigerator body 7 is connected to an external water supply source and the pipe (9) to supply water through the pipe (9) A filter unit 6 for filtering the water; A water supply valve 10 for selectively blocking and opening a water supply passage of water purified by the filter unit 6; An ice maker (2) for ice-making water supplied from the water supply valve (10) through the pipe (9); A water tank 11 for storing a predetermined amount of water supplied through the pipe 9 from the water supply valve 10; It is composed of a dispensing 13 that can receive the water supplied through the pipe (9) from the ice or water tank 11 made in the ice maker (2) selectively receive the cup by the user's pressing operation.

The ice maker 2 includes an ice maker 3 which receives the water supplied and performs an ice making stroke with cold inside the freezing chamber 1; A heater (not shown) mounted on the bottom surface of the ice making container (3) to separate the ice produced in the ice making container (3) from the ice making container (3) by heat; A blower (4) rotatably installed on an upper side of the ice making container (3) to take out the ice separated from the ice making container (3) by the heater; A storage container (5) for receiving the ice taken out by the rotation of the takeout (4) at the lower side of the ice making container (3) and storing a predetermined amount; Conveying means for conveying the ice contained in the storage container 5 to the dispensing unit 13 side.

In the conventional automatic ice maker as described above, the method of controlling the ice maker heater drives the heater after the end of ice making as shown in FIG. 3, and detects the temperature of the ice maker 3 using an ice making sensor (not shown). (SP1) If the temperature of the ice making sensor (not shown) is lower than the ice making reference temperature (SP2), turn on the ice heater and the ice motor (SP5, SP6), and if the ice heater is driven for a predetermined time (SP7) After stopping the driving of the heater (SP8), the ice produced in the ice making container (3) is separated from the ice making container (3).

First, the ice maker 2 ices the water supplied through the pipe 9 in a water supply valve that selectively blocks and opens the water supply path of the water purified by the filter unit 6.

Thus, the ice maker 2 continues to operate the compressor and the freezer compartment fan to supply cold air after the ice is made, that is, when the temperature of the ice making sensor (not shown) is higher than the complete ice making reference temperature (SP2). (SP3, SP4), if the temperature of the ice making sensor (not shown) is lower than the complete ice making reference temperature, drive the ice heater and the ice motor (SP5, SP6), and when the heat generation time of the ice heater passes a predetermined time ( SP7) After the ice heater is turned off (SP8), the ice produced in the ice making container 3 is separated from the ice making container 3.

That is, when the evaporating heater heat generation time for separating the ice from the ice making container 3 elapses, the ice making heater is stopped and rotated 180 °, and the ice is iced to the storage container 5.

However, in the above-described method of controlling the ice maker heater of the automatic ice maker, the icemaker and the heater are operated to transfer the ice that has been de-iced to the ice tray. For example, the heating time of the heater for moving the ice is operated for the maximum time, and there is a problem that a structure around the ice maker may melt or a fire may occur.

Accordingly, the present invention has been made to solve the above problems, by setting a heater overheating reference temperature through experiments, the heating temperature of the defrosting sensor senses the temperature of the defrost sensor, the detected temperature is based on the heater overheating It is an object of the present invention to provide a method of controlling an ice maker heater of an automatic ice maker by preventing the ice heater from overheating by automatically turning off the ice heater when the temperature is larger than the temperature.

The present invention for achieving the above object, the process of detecting the temperature by the ice making sensor, and then comparing the detected temperature with the ice making reference temperature; As a result of the comparison, when the detection temperature is greater than the ice making reference temperature, the compressor and the freezer compartment fan are turned on. If the detection temperature is lower than the ice making reference temperature, the ice heater and the ice motor are turned on. Determining whether it has been done; As a result of the determination, if the ice heater heating time has passed the reference time, turning off the ice heater and comparing the temperature detected by the ice making sensor with the heater overheat reference temperature if the ice heater heating time has not passed the reference time; As a result of the comparison, when the detection temperature is greater than the reference temperature of the heater overheating, the ebbing heater is performed.

Hereinafter, with reference to the accompanying drawings the operation and effect of an embodiment according to the ice heater control method of the automatic ice maker of the present invention will be described in detail as follows.

4 is a flowchart illustrating an ice heater control method of an automatic ice maker of the present invention.

As shown in Fig. 4, the present invention includes the steps of detecting the temperature by the ice making sensor and comparing the detected temperature with the ice making reference temperature (SP11, SP12); As a result of the comparison, when the detection temperature is greater than the ice making reference temperature, the compressor and the freezer compartment fan are turned on. If the detection temperature is lower than the ice making reference temperature, the ice heater and the ice motor are turned on. Judging whether it has been done (SP13 ~ SP17); As a result of the determination, if the ice heater heating time has passed the reference time, the ice heater is turned off, and if the ice heater heating time has not passed the reference time, comparing the temperature detected by the ice making sensor with the heater overheat reference temperature (SP18). SP19); As a result of the comparison, when the detected temperature is greater than the reference temperature of the heater overheating, the process is performed (S20) of turning off the ice heater, and the operation of the present invention will be described.

First, the ice maker 2 ices the water supplied through the pipe 9 in a water supply valve that selectively blocks and opens the water supply path of the water purified by the filter unit 6.

Accordingly, the ice maker 2 continues to operate the compressor and the freezing chamber fan to supply cold air after making ice, that is, when the temperature of the ice making sensor (not shown) is higher than the complete ice making reference temperature (SP11). (SP13, SP14).

If the temperature of the ice making sensor is lower than the ice making reference temperature, the ice heater and the ice motor are driven (SP15, SP16), and when the heating time of the ice heater passes a predetermined time, the ice heater is turned off (SP17, SP18), the ice made in the ice making container (3) is separated from the ice making container (3).

On the other hand, if the heating time of the ice heater does not pass a predetermined time, the temperature of the ice making sensor is compared with the heater overheat reference temperature (SP18, SP19), and as a result of the comparison, the detected temperature of the ice making sensor is higher than the heater overheat reference temperature. If large, turn off the ice heater (SP20).

Herein, the heater overheat reference temperature is preset to an optimal value through an experiment.

That is, the present invention, by setting the heater overheating reference temperature through the experiment, by detecting the temperature of the defrosting sensor during the heating of the icebreaking heater, and automatically turns off the icebreaking heater when the detected temperature is greater than the heater overheating reference temperature, It is to prevent overheating of the ice heater.

The specific embodiments or examples made in the detailed description of the present invention are intended to clarify the technical contents of the present invention to the extent that they should not be construed as limited to these specific embodiments and should not be construed in consultation. Various changes can be made within the scope of.

As described in detail above, the present invention presets the heater overheating reference temperature through an experiment, and detects the temperature of the defrosting sensor when the heating heater heats up, and automatically detects the temperature of the defrosting sensor if the detected temperature is greater than the heater overheating reference temperature. By turning off, there is an effect of preventing the overheating heater from overheating.

1 is a schematic view showing the configuration of a typical refrigerator.

Figure 2 is a schematic view showing the appearance of the ice maker in Figure 1;

Figure 3 is an operation flow chart for the ice-heating heater control method of the conventional automatic ice maker.

Figure 4 is an operation flow chart for the ice heater control method of the automatic ice maker of the present invention.

Claims (2)

Detecting a temperature by an ice making sensor and comparing the detected temperature with an ice making reference temperature; As a result of the comparison, when the detection temperature is greater than the ice making reference temperature, the compressor and the freezer compartment fan are turned on. If the detection temperature is lower than the ice making reference temperature, the ice heater and the ice motor are turned on. Determining whether it has been done; As a result of the determination, if the ice heater heating time has passed the reference time, turning off the ice heater and comparing the temperature detected by the ice making sensor with the heater overheat reference temperature if the ice heater heating time has not passed the reference time; The comparison result, the ice-heating heater control method of the automatic ice maker, characterized in that if the detection temperature is greater than the heater overheating reference temperature is performed in the process of turning off the ice-heating heater. The method of claim 1, wherein the heating heater control method of the automatic ice maker comprises the step of presetting the heater overheating temperature through an experiment.