KR19980067361A - Compressor drive control method of refrigerator and its control device - Google Patents

Abstract

According to an embodiment of the present invention, when the power applied to the refrigerator is cut off (for example, a power failure) and then restored, the delay time for restarting the compressor may be changed according to the temperature of the compressor, thereby increasing the efficiency of the refrigerator. A control method and a control apparatus thereof. The control method of the present invention for controlling the operation of the compressor of the refrigerator when the power is applied to the refrigerator after the power is cut off due to a cause such as power failure, the method for restarting the compressor when returned after the power off It characterized in that the delay time is varied in several steps according to the temperature state of the compressor, the control device of the present invention is a temperature sensor means for sensing the temperature of the compressor, and receives a temperature sensing signal from the temperature sensor means And control means for determining a delay time for restarting the compressor after the power is restored according to the temperature of the compressor, and compressor driving means for turning on / off the driving of the compressor according to the control of the control means. . As such, the present invention provides the advantage of maximizing the compression performance and compression efficiency of the compressor.

Description

Compressor drive control method of refrigerator and its control device

The present invention relates to a compressor driving control method of a refrigerator and a control apparatus thereof, and more particularly, a delay time for restarting a compressor when the power applied to the refrigerator is shut off (for example, a power failure). The present invention relates to a compressor driving control method for a refrigerator and a control apparatus thereof, the variable temperature according to which the efficiency of the refrigerator can be increased.

Generally, a refrigerator includes components such as a compressor, a condenser, a capillary tube, and an evaporator. In a refrigerator including the above components, a predetermined refrigerant is changed from liquid to gas and gas to liquid while circulating the components, and the temperature inside the refrigerator is lowered by the circulation of the refrigerant. . 1 schematically shows a refrigerant circulation cycle of a refrigerator.

Referring to FIG. 1, the liquid refrigerant in the evaporator 1 gradually evaporates around the evaporator 1 while losing heat necessary for evaporation, that is, latent heat of evaporation. The ambient air deprived of heat is cooled and circulated by natural convection or the fan 2 to keep the inside of the refrigerator at a low temperature. In the evaporator 1, the liquid refrigerant sent from the capillary tube 7 and the evaporated gas refrigerant coexist, and a state change from liquid to gas occurs. As described above, the refrigerant evaporated in the evaporator 1 flows into the compressor 3, and the compressor 3 compresses the introduced refrigerant into a state in which the refrigerant can be easily liquefied by air at room temperature. Made of gaseous refrigerant. The high temperature and high pressure gas refrigerant leaving the compressor 3 is heat-exchanged by ambient air at room temperature in the condenser 5 to become a liquid refrigerant at room temperature and high pressure. The heat released from the condenser 5 is the heat of condensation. The liquid refrigerant of normal temperature and high pressure which changed state in the condenser 5 turns into the liquid refrigerant of normal temperature and low pressure, passing through the capillary tube 7. The capillary tube 7 acts to depressurize the liquid refrigerant at room temperature and high pressure, which has been changed in the condenser 5, to a state that is easy to evaporate before being sent to the evaporator 1. The capillary tube 7 also functions to control the flow rate of the liquid refrigerant in addition to the action of lowering the pressure as described above. Reference numeral 6 is a fan for the condenser.

In the refrigerator having the above-described configuration, after the commercial input power is cut off (for example, a power failure), when the power is restored and applied again, the compressor 3 may return a predetermined time (for example, Restart after 5 minutes). As described above, the reason for delaying the start of the compressor when the power is restored after the power supply of the refrigerator is cut off due to a power failure is to prevent the smooth flow of the refrigerant and excessive operation of the compressor.

However, in the conventional refrigerator, when the power is restored after the power is cut off, the compressor is restarted unconditionally for a predetermined time, for example, 5 minutes after the power is restored without considering the state of the compressor and the temperature conditions in the refrigerator. There is a problem that the operation of the refrigerator becomes inefficient because it is started after the elapse. That is, when the power supply is restored after the power is cut off, there is a problem in that the compressor cannot be started smoothly because the compressor is restarted after a predetermined time is unconditionally delayed without considering the state of the compressor (for example, the temperature condition). .

The present invention was created to solve the above problems, and by varying and adjusting the delay time for restarting the compressor according to the temperature condition of the compressor at the time of power return to maximize the compression performance and efficiency of the compressor, through this It is an object of the present invention to provide a compressor driving control method and a control device for a refrigerator in which the internal temperature of the refrigerator can quickly reach the set temperature upon return.

1 is a schematic view showing a refrigerant circulation cycle of a typical refrigerator;

2 is a block diagram showing a compressor driving control apparatus of a refrigerator according to the present invention;

3 is a flowchart of a compressor driving control method of a refrigerator according to the present invention;

Explanation of symbols for main parts of the drawings

3: compressor 12: temperature sensor

14 controller 16 drive relay

Compressor drive control method of the refrigerator according to the present invention to achieve the above object,

In the method of driving control of the compressor of the refrigerator when the power is applied to the refrigerator is cut off after the cause such as power failure,

The delay time for restarting the compressor when it is restored after the power is cut is characterized in that it is varied in several stages according to the temperature of the compressor.

In a preferred embodiment of the present invention, the delay time for restarting the compressor when the power supply of the refrigerator is cut off after returning,

If the temperature of the compressor is 40 ℃ or less, immediately restart the compressor without time delay. If the temperature of the compressor exceeds 40 ℃ and less than 50 ℃, the compressor is delayed for a maximum of one minute after the power is returned. Restart the compressor and if the temperature of the compressor exceeds 50 ° C and below 60 ° C, restart the compressor after a delay of up to 3 minutes after the power is returned, and return the power if the temperature of the compressor exceeds 60 ° C. After the maximum delay of about 5 minutes to restart the compressor.

In addition, the compressor drive control apparatus for a refrigerator according to the present invention for implementing the compressor drive control method of the refrigerator,

In the apparatus for driving control of the compressor of the refrigerator when the power applied to the refrigerator is shut off and returned by a cause such as a power failure,

A temperature sensor means for sensing the temperature of the compressor, a control means for receiving a temperature sensing signal from the temperature sensor means and determining a delay time for restarting the compressor after the power is returned according to the temperature of the compressor, and the control means It is characterized in that it comprises a compressor driving means for turning on / off the drive of the compressor according to the control of.

In a preferred embodiment of the invention, the drive means is a relay.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the compressor drive control method and a control device of the refrigerator according to the present invention.

Compressor driving control method and a control device of the refrigerator according to the present invention is to restart the compressor according to the temperature of the compressor when the power applied to the refrigerator is interrupted by a cause such as power failure and then returned and applied again. By varying the delay time for the compressor to improve the compression performance and compression efficiency of the compressor, as shown in the temperature sensor 12 for sensing the temperature of the compressor (3), and a temperature sensing signal from the temperature sensor 12 The controller 14 which determines the delay time for restarting the compressor 3 after receiving the input power according to the temperature of the compressor 3, and the driving of the compressor 3 on / off under the control of the controller 14. It comprises a compressor drive relay 15 to. In this case, the controller 14 includes a microcomputer (not shown) which performs fuzzy control. The temperature sensor 12 is a temperature variable resistance sensor whose resistance value Rth changes with temperature. Reference numerals R1 and R2 denote voltage distribution resistors, C1, C2 and R3 denote passive elements constituting a peripheral circuit, and IV denotes an inverter for driving the relay 15.

With reference to the accompanying drawings, the operation and operation of the compressor drive control device of the refrigerator according to the present invention configured as described above and the compressor drive control method of the refrigerator of the present invention implemented through the drive control device will be described.

For example, when the power applied to the refrigerator is shut off and returned due to a cause such as a power failure, the controller 14 including the microcomputer to perform the purge control may detect the compressor 3 detected by the temperature sensor 12. Read the temperature (preferably the surface temperature of the compressor). The temperature sensing signal of the temperature sensor 12 read by the controller 14 is in the form of a voltage value, and the signal voltage value Vin at this time is in accordance with the following formula.

Vin = {Rth / (Rth + R1)} * Vcc; Where Rth is the variable resistance of the temperature sensor.

When the signal voltage value Vin as described above is input to the controller 14, the controller 14 including the microcomputer determines the temperature of the compressor 3 through the voltage value and restarts the compressor 3 after the power is restored. Determine the delay time for The controller 14 restarts the compressor 3 by controlling the compressor drive relay 15 when the delay time for restarting the compressor 3 is determined in the same manner as described above. The explanation is as follows.

First, when the temperature Tcomp of the compressor 3 detected by the temperature sensor 12 is 40 ° C. or lower after returning from the power cutoff (S10), the control unit 14 immediately restarts the compressor 3 without a time delay ( S50). In addition, when the temperature Tcomp of the compressor 3 detected by the temperature sensor 12 after the power failure return exceeds 40 ° C. and falls below 50 ° C. (S20), the controller 14 may control the maximum of one minute after the power return. After delaying the time (S60), the compressor 3 is restarted (S50). In addition, when the temperature Tcomp of the compressor 3 detected by the temperature sensor 12 after the power failure return is greater than 50 ° C. and less than 60 ° C. (S30), the controller 14 may control the maximum of about 3 minutes after the power return. After delaying the time (S70), the compressor 3 is restarted (S50). Finally, when the temperature Tcomp of the compressor 14 detected by the temperature sensor 12 exceeds 60 ° C. after the power-off return (S40), the control unit 14 delays a maximum of 5 minutes after the power return. After (S80), the compressor 3 is restarted (S50). Thus, the present invention can smoothly start up the compressor and increase its efficiency by adjusting the delay time for restarting by detecting the state of the compressor, that is, the temperature of the compressor (preferably the surface temperature) after the power is restored.

As described above, the compressor driving control method and the control apparatus of the refrigerator according to the present invention, by varying the delay time for restarting the compressor in accordance with the temperature condition of the compressor when the power supply of the refrigerator, the compression performance of the compressor and its efficiency To maximize. In addition, according to the present invention, since the compressor can be smoothly restarted, the internal temperature of the refrigerator can quickly reach the set temperature when the power is restored.

On the other hand, the drive control method and the control apparatus of the present invention the refrigerator as described above is not limited to the above embodiment and can be carried out by adding many modifications without departing from the spirit and scope of the present invention.

Claims (4)

In the method of driving control of the compressor of the refrigerator when the power is applied to the refrigerator is cut off after the cause such as power failure, And a delay time for restarting the compressor when the power is restored after the power is turned off in various steps according to the temperature of the compressor. The method of claim 1, wherein the delay time for restarting the compressor when the refrigerator is turned off and then returned, If the temperature of the compressor is 40 ℃ or less, 0 minutes, and if the temperature of the compressor is more than 40 ℃ and 50 ℃ or less, the maximum 1 minute after the return of the power, the temperature of the compressor is more than 50 ℃ and less than 60 ℃ 3 minutes after the return of power, and if the temperature of the compressor exceeds 60 ℃ maximum 5 minutes after the return of the compressor drive control method of the refrigerator. In the apparatus for driving control of the compressor of the refrigerator when the power applied to the refrigerator is shut off and returned by a cause such as a power failure, A temperature sensor means for sensing the temperature of the compressor, a control means for receiving a temperature sensing signal from the temperature sensor means and determining a delay time for restarting the compressor after the power is returned according to the temperature of the compressor, and the control means And a compressor driving means for turning on / off the driving of the compressor according to the control of the compressor. 4. The compressor driving control apparatus for a refrigerator according to claim 3, wherein the temperature sensor means is a temperature variable resistance sensor whose resistance value changes with temperature.