KR960018446A - Control Method of Automatic Ice Maker for Refrigerator - Google Patents

Abstract

The present invention relates to a control method of an automatic ice maker for a refrigerator in which a refrigerator generates ice and automatically accumulates a predetermined amount in a predetermined ice box.

Conventionally, all control of the automatic ice making system is performed by one chip microcomputer (MICOM), and the control method occupies an important position.

However, the conventional automatic ice maker has a large number of parts, the operation process and the shape of the cam is complex, there is a problem that there is a high possibility of malfunction according to the control method.

In view of the above problems, the present invention is to provide a control method of an automatic ice maker for a refrigerator which can reliably prevent a malfunction while simplifying the operation.

Therefore, the present invention in the control of the automatic ice maker for a refrigerator, the initial power source determination process, ice making process (200). Ebbing process (300), water supply process (400), the water supply waiting process (500) and the initial horizontal position alignment process (600) is equipped with a process to fit more accurate automatic deicing gear to be carried out.

Description

Control Method of Automatic Ice Maker for Refrigerator

As this is a public information case, the full text was not included.

6A is a control flowchart of the present invention.

Claims (1)

Determining whether the initial power is applied (S1), and if the power is not applied in the step (S1), the step of determining a predetermined time after water supply (S2), and the predetermined time has elapsed in the step (S1) If the ice maker 20 is determined to detect whether the temperature of the ice maker 20 is below a predetermined freezing temperature (S3), and if the freezing temperature of the ice maker 20 is detected in step S3, the ice maker rotates forward Step (S4) of performing the output (a), and determining whether the horizontal / inverted detection switch 12 is turned on (S7), and here, if the horizontal / inverted detection switch 12 is turned on ice maker 20 A step (S8) of outputting the reverse rotation, wherein the step of determining whether the horizontal / reverse detection switch 12 is turned on again (S9), and the horizontal / reverse detection switch 12 when the ice maker ( 20) again rotating the forward (S10), and again determine whether the horizontal / spot detection switch 12 is off And a step S11 of performing the stop output of the ice maker 20 after a predetermined delay time elapses when the horizontal / inverted detection switch 12 is turned off (S12, S13). And, after performing the ice-breaking process 300, the step (S14) of determining whether the ice detection switch 13 is on, and, if the ice detection switch 13 is not full ice, a certain time after water supply Determining whether the elapsed time (S15), and if the predetermined time after the water supply has not elapsed (S16) to stop the driving output of the pump motor 41, and if the predetermined time after the water supply in the step (S15) Driving the pump motor 41 to proceed with water supply (S17); determining whether a predetermined water supply time has elapsed (S18); and when the water supply time elapses, driving of the pump motor 41 is stopped. Water supply process 400 provided with the step of ending the water supply (S19), and the water supply Step S20 of determining whether the water supply LED is on after the stopped step (S19), and if the water supply LED is not on, determining whether a predetermined time has elapsed after water supply (S21), and a predetermined time after water supply Has elapsed or if the water supply LED is turned on in step S20, determining whether water supply is normally completed by detecting the temperature of the ice maker 20 (S22), where the water supply LED is detected when water supply completion is detected. When the water supply completion process is not detected and the water supply completion is not detected (S23, S24) and the water supply standby process 500 and the step (S1), the power is turned on in the reset unit 170 When the control unit 100 is initialized through the step S25, it is determined whether the horizontal / inverted detection switch 12 is turned on, and if the horizontal / inverted detection switch 12 is not turned on, the ice maker 20 is reversed. Rotary output, then the horizontal / reverse detection switch (1) 2) determining whether it is on (S26, S27), and if the horizontal / inverted detection switch 12 is not on, continues to perform reverse rotation output, when the horizontal / inverted detection switch 12 is turned on Step (S28) for forward rotation of the (20), wherein the step of determining whether the horizontal / inverted detection switch 12 is off (S29), and here, if the horizontal / inverted detection switch 12 is off Stopping the ice maker 20 after the delay time has passed (S30 and S31), and in step S25, if the horizontal / inverted detection switch 12 is on, rotating the ice maker 20 forward (S32). And, determining whether the horizontal / inverted detection switch 12 is turned off (S33), wherein the horizontal / inverted detection switch 12 enters the step S30 when the horizontal / inverted detection switch 12 is turned off, If the reverse detection switch 12 is on, it is determined that the predetermined delay time has elapsed, and the horizontal / reverse detection switch 12 is turned off. Otherwise, after the predetermined time has passed, it is determined whether the ice maker 20 is rotated backwards (S34, S35) and whether the horizontal / inverted detection switch 12 is turned off, where the horizontal / inverted detection switch 12 When it is off, the control method of the automatic ice maker for a refrigerator, characterized in that it comprises an initial horizontal alignment process (600) having a step (S36) to enter into the step (S26). ※ Note: The disclosure is based on the initial application.