KR100208018B1 - Refrigerator compressor control method - Google Patents

Abstract

The present invention relates to a method for controlling a compressor for a refrigerator. More specifically, when the power of the refrigerator is turned on, the refrigerator senses the temperature inside the refrigerator and determines whether the compressor is driven according to the detected temperature. The present invention relates to a compressor control method for a refrigerator in which a compressor is operated immediately after power is turned on so that a consumer without prior knowledge of the refrigerator can easily determine whether the refrigerator is abnormal.

The compressor control method for a refrigerator according to the present invention for determining the power is applied to the refrigerator, the step of detecting the internal temperature, comparing the detected internal temperature and the set temperature, the internal temperature is set temperature If the above is characterized in that it comprises a step of driving the compressor, and if the temperature in the high temperature is below the set temperature, the step of detecting the temperature in the high temperature after counting a predetermined time.

Description

Refrigerator compressor control method

The present invention relates to a method for controlling a compressor for a refrigerator. More specifically, when the power of the refrigerator is turned on, the refrigerator senses the temperature inside the refrigerator and determines whether the compressor is driven according to the detected temperature. The present invention relates to a compressor control method for a refrigerator in which a compressor is operated immediately after power is turned on so that a consumer without prior knowledge of the refrigerator can easily determine whether the refrigerator is abnormal.

In general, a microcomputer for controlling a refrigerator includes a detector 2, a calculator 3, and a controller 4, as shown in FIG. 1, installed in a freezer compartment and a refrigerator compartment to detect internal temperature of the refrigerator. Compressor 9, cooling fans 10, 11, defrost heaters 12, 13, etc., by receiving signals from cooling heat exchanger thermistors 7, 8 that sense the temperature of the cooling heat exchanger installed in the To control.

The microcomputer 1 of the refrigerator configured as described above has conventionally controlled the compressor according to the flowchart of FIG. 2.

That is, when the power of the refrigerator is turned on (S10), a predetermined time (about 5 minutes) is counted through a counter regardless of the temperature in the refrigerator (S20), and after counting the predetermined time, the temperature in the refrigerator is detected (S30). It is determined whether the internal temperature detected in S30 is higher than or equal to the set temperature (about -10 ° C in the freezer and about 10 ° C in the freezer) (S40). If the internal temperature is higher than the set temperature in step S40, the compressor is driven. (S50).

On the other hand, if the internal temperature is lower than the set temperature in step S40 and proceeds to step S30 again by detecting the internal temperature, it is determined whether to operate the compressor according to the detected internal temperature.

This is because if the compressor 9 is operated immediately when the power is turned off and then on due to a temporary power failure while using the refrigerator, the compressor 9 will be overloaded, and after the predetermined time (about 5 minutes) has elapsed, the compressor ( It is for preventing the compressor 9 from being overloaded and protecting the compressor 9 by judging whether the 9 is driven.

As described above, the conventional refrigerator microcomputer detects whether or not the compressor is driven according to the internal temperature by detecting the internal temperature after a predetermined time (about 5 minutes) has elapsed regardless of the internal temperature when the power of the refrigerator is turned on. When the power was first turned on after purchasing the refrigerator, the compressor was to be driven after a certain time (about 5 minutes) had elapsed.

Accordingly, a consumer who does not have prior knowledge about the refrigerator often inquires of the after-sales service center whether the refrigerator is abnormal because the compressor does not operate despite the power on.

The present invention is to solve the above problems, and when the power of the refrigerator is turned on immediately by detecting the temperature inside the refrigerator, by determining whether the compressor is driven according to the detected temperature inside, the power of the refrigerator when the power is turned on for the first time An object of the present invention is to provide a compressor control method for a refrigerator in which a compressor is operated immediately after it is turned on so that a consumer without prior knowledge of the refrigerator can easily determine whether the refrigerator is abnormal.

1 is a micom configuration diagram of a typical refrigerator.

2 is a control flowchart of a typical refrigerator compressor.

3 is a control flowchart of a compressor for a refrigerator according to one embodiment of the present invention;

4 is a control flowchart of a compressor for a refrigerator according to another embodiment of the present invention.

Explanation of symbols used in the main part of the drawing

1: Microcomputer 2: Detection unit

3: calculator 4: controller

5: freezer thermistor 6: cold storage thermistor

7: freezer cooling heat exchanger thermistor 8 cold storage cooling heat exchanger thermistor

9: compressor

Hereinafter, a compressor control method for a refrigerator according to the present invention will be described in detail with reference to the accompanying drawings.

In the following detailed description of the accompanying drawings, like reference numerals refer to like elements.

3 is a flowchart illustrating a compressor control method according to an embodiment of the present invention.

First, when the power of the refrigerator is turned on (S100), the microcomputer 1 detects the air temperature in the freezer compartment by the freezer thermistor 5 (S200), and the freezer air temperature detected in step S200 is the set temperature (about- 10 ° C.) or more (S300), and when it is determined that the air temperature in the freezer compartment is greater than or equal to the set temperature (about −10 ° C.), it is determined that the power of the refrigerator is first turned on to drive the compressor (S400).

On the other hand, if the air temperature in the freezer compartment is determined to be less than the set temperature (about -10 ℃) in step S300, the microcomputer 1 counts a predetermined time (about 5 minutes) through the counter (S500), a predetermined time in step S500 After counting, the process proceeds to step S200 and again detects the air temperature in the freezer compartment through the freezer compartment thermistor (5) and determines whether the compressor is driven according to the detected freezer air temperature.

Here, in the detecting of the air temperature in the freezer compartment of step S200, the power of the refrigerator is first turned on by determining whether the power of the refrigerator is turned on for the first time or whether the power is turned on again after a temporary power failure occurring while using the refrigerator. This is for driving the compressor 9 immediately after the power is turned on.

Therefore, as shown in the flowchart of FIG. 4 instead of steps S200 and S300, the surface temperature of the freezer compartment cooling heat exchanger is sensed through the freezer compartment cooling heat exchanger thermistor 7 (S200 ′), and the step S200 ′. After determining whether the surface temperature of the freezer compartment cooling heat exchanger detected at or greater than the set temperature (S300 '), it may be determined whether the compressor is driven through the same steps as the flowchart of FIG.

In addition, the refrigerator compartment thermistor (6) or the refrigerator compartment cooling heat exchanger thermistor (8) instead of sensing the air temperature in the freezer compartment or the surface temperature of the freezer compartment cooling heat exchanger through the freezer chamber thermistor (5) or the freezer compartment cooling heat exchanger thermistor (7). The temperature of the inside of the refrigerating compartment or the surface temperature of the refrigerating compartment cooling heat exchanger may be sensed to determine whether the compressor 9 is driven according to the same steps as in the flowchart of FIG. 3 or FIG. 4.

Thus, when the power of the refrigerator is turned on for the first time, the compressor can be directly driven. When the power of the refrigerator is turned on again by the power failure while the refrigerator is in use, the internal temperature of the refrigerator is detected again after a predetermined time (about 5 minutes) has elapsed. Therefore, it is possible to determine whether to operate the compressor according to the sensed internal temperature.

According to the compressor control method for a refrigerator according to the present invention configured as described above, when the temperature of the refrigerator is immediately detected when the power of the refrigerator is turned on, and the drive of the refrigerator is first turned on by determining whether the compressor is driven according to the detected temperature inside the refrigerator. Therefore, a consumer who does not have prior knowledge of the refrigerator can easily determine whether the refrigerator is abnormal by operating the compressor immediately after the power is turned on. Also, when the power of the refrigerator is turned on again by a temporary power failure while the refrigerator is in use, After about 5 minutes), the internal temperature of the refrigerator is sensed again and the compressor is driven according to the detected temperature, thereby preventing the compressor from being overloaded.

The present invention is not limited to the embodiments described herein, but may be modified and changed by those skilled in the art without departing from the spirit and scope of the appended claims.

Claims (5)

Determining whether power is supplied to the refrigerator; Sensing a temperature in the refrigerator; Comparing the sensed internal temperature with a set temperature; Driving the compressor when the internal temperature is above the set temperature; Detecting the temperature in the refrigerator again after counting a predetermined time when the temperature in the refrigerator is less than or equal to the set temperature; Compressor control method for a refrigerator characterized in that it comprises a. The method of claim 1, wherein the detecting of the internal temperature of the refrigerator is performed by detecting an air temperature in the freezer compartment through a freezer compartment thermistor. The method of claim 1, wherein the detecting of the internal temperature of the refrigerator is performed by detecting an air temperature in the refrigerating chamber through a refrigerating chamber thermistor. The method of claim 1, wherein the detecting of the internal temperature of the refrigerator is performed by detecting a surface temperature of the cooling heat exchanger through a freezer cooling heat exchanger thermistor. The method of claim 1, wherein the detecting of the internal temperature of the refrigerator is performed by detecting a surface temperature of the cooling heat exchanger through a cold storage cooling heat exchanger thermistor.

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