KR0129510B1 - Defrosting control method of a refrigerator - Google Patents

Abstract

A control method of the defrost operation in a refrigerator comprising : the first defrost heater driving step(40) driving the first defrost heater and turning OFF the defrost heater sensing the temperature of an evaporator to compare the sensed temperature with the established temperature in defrosting; and the second defrost heater driving completion step driving the second defrost heater and turning OFF the second defrost heater with sensing the temperature of an evaporator to compare the sensed temperature with the heater OFF and defrost to the heater temperature when it is OFF in the first defrost heater driving step(40); is disclosed. Thereby, it is possible to defrost refrigerator controlling the volume of the defrost heater according to the temperature sensed from the evaporator.

Description

Defrost Control Method of Refrigerator

The present invention relates to a method for controlling a defrost of a refrigerator, and in particular, by detecting a defrost temperature of an evaporator during a defrost operation of a refrigerator, and performing a defrost operation while adjusting a defrost heater capacity according to the detected temperature to prevent unnecessary power consumption. It relates to a defrosting control method of a refrigerator.

In the conventional defrosting control method of the refrigerator, when the defrosting time arrives as shown in FIG. 1, the microcomputer A outputs a driving signal to the relay RY ₁ to supply power to the defrosting heater H and is finished. The defrost heater H is driven to a point in time, and the temperature of the evaporator EVA is sensed using a bimetal B / T to sense the temperature of the evaporator EVA to drive the defrost heater H for a predetermined time. The defrosting is performed with little consideration of the temperature and condition of the evaporator. Even though all ice is removed from the evaporator (EVA) that continues to run for a specified time during the defrosting operation, power is consumed due to unnecessary defrost heater driving. I had this wasted issue.

Accordingly, an object of the present invention is to provide a defrosting control method of a refrigerator which can reduce unnecessary power consumption by performing a defrosting operation while selectively controlling a defrosting heater capacity according to a temperature detected from an evaporator during a defrosting operation of a refrigerator.

1 is a control block diagram of a refrigerator defroster according to the prior art.

2 is a control block diagram of a refrigerator defroster according to the present invention.

3 is an operation flowchart of the defrost control method of the present invention.

* Explanation of symbols for main parts of the drawings

A: Micom B: Evaporator temperature detector

C: Defrost heater drive part RY _{1 to} RY ₃ : Relay

H, H ₁ , H ₂ : Defrost heater

In order to achieve the above object, the present invention provides a defrosting control method of a refrigerator, during the defrosting operation of the refrigerator, the first defrost heater is configured, and the detected evaporator temperature is detected by detecting the temperature of the evaporator. Comparing the first defrost heater driving step (40) and the first defrost heater driving completion step (40) for defrosting operation by 'off' the first defrost heater while comparing the first defrost heater and the second defrost While operating the heater, the first defrost heater and the second defrost heater are selectively 'off' according to the detected evaporator temperature and the defrosting operation is performed until the desired defrost temperature is reached. The second defrost heater driving is completed, characterized in that consisting of 50.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a control block diagram of a refrigerator defroster according to the present invention. The present invention provides a microcomputer (A) for controlling the overall driving control of the refrigerator and the driving of the defrost heater, an evaporator temperature sensing unit (B) for sensing the temperature of the evaporator during defrosting operation and applying it to the microcomputer (A), and Defrost heater driving unit consisting of a relay (RY ₂ ) (RY ₃ ), a first defrost heater (H ₁ ), a second defrost heater (H ₂ ) to selectively drive according to the temperature detected by the evaporator temperature detection unit (B) ( It is composed of

3 is an operation flowchart of the defrost control method of the present invention, the first defrost heater driving step 30 for driving the first defrost heater H ₁ during the defrost operation of the refrigerator, and the first defrost heater driving step ( A first evaporator temperature detection step 31 for first detecting a temperature of the evaporator being defrosted in step 30), and a first evaporator temperature detected in the first evaporator temperature detection step 31 and a preset first set temperature; In the first defrosting temperature detecting step 32 and the first defrosting temperature detecting step 32, when the evaporator temperature reaches the first set temperature, the first defrosting heater is turned off. In the first defrost heater driving completion step 40 and the first defrost heater off step 33 of the first heater driving step 40 made to drive the second defrost heater in the 'off' state In the second defrost heater driving step 34 and the second defrost heater driving step 34, the temperature of the evaporator defrosting is secondary. A second evaporator temperature sensing step 35 for sensing; a second defrost temperature sensing step 36 for comparing the evaporator temperature detected in the second evaporator temperature sensing step 35 with a second preset temperature; When the second set temperature is reached in the second defrost temperature detection step 36, the second defrost heater driving step 37 is performed to turn off the second defrost heater 37. .

Referring to the effects of the present invention configured as described above are as follows.

First, when the defrost time arrives while the refrigerator is being driven, the microcomputer (a) goes to the first defrost heater driving step 30 and outputs a driving signal through the output terminal P ₁ of the microcomputer (a) to defrost. When the relay RY ₂ of the heater driving unit (C) is driven, power is supplied to the first and second defrost heaters H ₁ and H ₂ , and the evaporator EVA is operated while being driven by the total defrost heater capacity. Defrost operation. Subsequently, the microcomputer (a) goes to the first evaporator temperature detection step 31 and first detects the temperature of the defrosting evaporator EVA through the evaporator temperature detection unit (B) mounted on the evaporator EVA, and thereby the microcomputer Enter in (a). If the microcomputer (a) goes to the first defrosting temperature detection step 32 and is smaller than the evaporator temperature detected by the defrosting evaporator (EVA), the microcomputer (a) is the first until the first set temperature is reached. The defrosting heater driving step 30 is performed to perform the sacrificial operation. On the other hand, when the first detected evaporator temperature is greater than or equal to the first set temperature as a result of the comparison of the first defrost temperature sensing step, the microcomputer A outputs a driving signal applied to the relay RY ₂ through the output terminal P ₁ . By stopping the drive of the defrost heater (H ₁ ) (H2) is stopped to perform the first defrost heater driving completion step (40). Subsequently, since the temperature of the evaporator is increased to some extent by the first defrost heater driving completion step 40, the microcomputer (a) outputs a driving signal through the output stage P ₂ to relay RY of the defrost heater driving unit (C). _{When 2} ) is driven, the power source flows only to the second defrost heater H2 so that only the defrost heater H ₂ is driven. Subsequently, the microcomputer (a) goes to the second evaporator temperature sensing step 35 and secondly detects the temperature of the evaporator EVA currently being sacrificed through the evaporator temperature sensing unit (b) and inputs it to the microcomputer (a). Subsequently, the microcomputer (a) goes to the second defrost temperature detection step 36 and a second preset temperature (the first temperature) at which the temperature of the evaporator EVA defrosted by only driving the second defrost heater H ₂ is preset. 1) It is greater than or equal to the set temperature. As a result of the comparison, if the temperature detected by the evaporator (EVA) is less than the second set temperature, the microcomputer (A) goes to the third defrost temperature detecting step 38 and compares the first set temperature with the first set temperature to determine the first temperature. If it is greater than or equal to the set temperature, go to the second defrost heater driving step 34 and continue the defrosting operation by the second defrost heater H ₂ , and if the detected temperature of the evaporator is less than the first set temperature, the first defrost heater. Go to the drive step 30 and repeat.

On the other hand, when the temperature detected by the evaporator EVA is greater than or equal to the second set temperature as a result of the comparison of the second defrost temperature detection step 36, it is determined that the defrost of the evaporator EVA is completed in the micom. Thus, the microcomputer (a) goes to the second defrost heater off step 37 to block the drive signal output through the output terminal (P ₂ ) of the microcomputer (a) to relay (RY ₃ ) of the defrost heater driving unit (C). By turning off, heating of the defrost heater H ₂ being driven is stopped to end the defrosting operation.

As described above, the present invention senses the temperature of the evaporator during the defrosting operation of the refrigerator, and selectively drives the defrost heater according to the detected temperature to defrost the desired defrosting temperature, thus relate to the temperature of the existing evaporator. It is possible to prevent unnecessary power consumption caused by driving the defrost heater for a certain time without.

Claims (1)

In the defrost control method of the refrigerator, during the defrosting operation of the refrigerator, the first defrost heater is driven, and the first defrost heater is 'off' while sensing the temperature of the evaporator and comparing the detected evaporator temperature with a preset first set temperature. In the state in which the first defrost heater driving completion step 40 of defrosting operation and the first defrost heater driving step 40 of the first defrost heater driving completion step 40 are driven off and the second defrost heater is driven, Completing the second defrost heater driving step of performing a defrost operation until the desired defrost temperature is reached by selectively 'off' the first defrost heater and the second defrost heater according to the detected temperature of the evaporator while sensing Defrost control method of a refrigerator, characterized in that consisting of.