KR100222956B1 - Refrigerator and its control method - Google Patents

Abstract

The present invention relates to a refrigerator and a control method thereof. The refrigerator according to the present invention includes a compressor having a drive motor having a variable driving speed, an outside air temperature sensor for sensing an outside temperature, and the outside air temperature sensor. And a control unit for controlling the speed of the driving motor in accordance with the detected value. Thereby, a refrigerator and a control method thereof capable of adaptively varying the cooling strength according to the external temperature are provided. On the other hand, according to another field of the present invention, there is provided a refrigerator and a control method thereof in which frost is reduced on the outer surface of the evaporator by the inflow of outside air when the door is opened.

Description

Refrigerator and its control method

The present invention relates to a refrigerator and a control method thereof, and in particular, to provide a refrigerator and a method of controlling the same, by adjusting the cooling capacity according to the use conditions and reducing the frost-free appearance of the evaporator when the door is opened.

As shown in FIG. 1, the main body of the refrigerator includes an outer casing 1 that forms an appearance and a pair of doors 5 installed on the front of the outer casing 1, and each door 5 includes The freezer door opening and closing detection sensor 15a and the refrigerating door opening and closing detection sensor 15b are installed to detect whether the door 5 is opened, and the outside air temperature sensor 11 is configured to detect the outside air temperature on the outer casing 1. ) Is installed. On the other hand, the refrigerator compartment 2 and the freezing compartment 3 are formed in the main body up and down, and each of the cooling chamber inside the freezer compartment temperature sensor 12a for detecting the temperature in the cooling chamber and the refrigerator compartment internal temperature sensor 12b ) Is installed.

A refrigeration system for providing cold air to such a refrigerator includes a compressor 21 installed at a lower part of the refrigerator to compress the refrigerant, a condenser (not shown) provided throughout the entire area of the main body to condense the refrigerant, and a rear surface of each cooling chamber. It is provided with a freezer compartment evaporator 22a and a refrigerator compartment evaporator 22b for evaporating the refrigerant. On the other hand, the front of each evaporator 22 is provided with a freezer compartment blowing fan 23a and a refrigerating compartment blowing fan 23b for blowing air around the evaporator 22 cooled by the evaporation of the refrigerant in the evaporator 22 into the chamber. . The refrigerator is provided with a control unit for controlling the compressor 21 according to the detected value from the high temperature sensor 12.

When the refrigerator is driven, as shown in FIG. 5, the controller determines whether the driving condition of the compressor is satisfied according to the external operation and the high temperature detected by the high temperature sensor 12 (P10). If the control unit does not satisfy the driving conditions of the compressor (P20), and if the driving conditions of the compressor is satisfied, and supplies the driving power to the compressor (P30). Then, the controller drives the compressor 21 at a normal speed when the internal temperature sensed by the high temperature sensor 12 is higher than a predetermined lower limit temperature for proper cooling, and the compressor when the internal temperature is lower than the lower limit temperature. The driving power is cut off (P60).

By the way, since the drive of the compressor 21 is interrupted only by the high internal temperature, it cannot cope with the use condition affecting the cooling performance of the refrigerator such as the refrigerator outside temperature. In particular, when the outside temperature is low, the maintenance of the high internal temperature is easy, and thus the cooling performance is improved. However, when the outside temperature is high, the high internal temperature is easily increased to reduce the cooling performance.

On the other hand, while the compressor 21 is driving, when the door 5 is opened by the user's need, the door open sensor 15 detects whether the door 5 is open and inputs information to the controller. When the information is input, the control unit stops the driving of the blowing fan 23, and when the closing of the door 5 is detected by the door opening detecting sensor 15, the control unit drives the blowing fan 23 again.

However, as the compressor 21 is driven at a constant speed when the door is opened, the difference between the temperature of the outside air introduced into the refrigerator at the time of opening the door 5 and the temperature of the evaporator according to the compressor driving is increased. Therefore, the relative humidity around the evaporator is increased to generate a lot of frost in the evaporator, thereby causing a problem that the cooling performance is also reduced.

Accordingly, an object of the present invention is to improve the cooling performance by controlling the operation of the compressor according to the outside temperature, and another object of the present invention is to reduce the temperature difference between the inside and the outside air when opening the door to reduce the generation of frost of the evaporator And a control method thereof.

1 is a side cross-sectional view of a refrigerator,

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

3 is a control flow chart of the refrigerator according to the outside temperature,

4 is a control flow chart of the refrigerator according to the opening and closing of the door,

5 is a control flowchart of a conventional refrigerator.

* Explanation of symbols for main parts of the drawings

1: outer casing 10: control part

11: outside temperature sensor 12: high temperature sensor

15: door open and close detection sensor 21: compressor

22: evaporator 25: compressor drive circuit

The object is, according to the present invention, in the refrigerator, the compressor having a drive motor capable of varying the driving speed, an outside air temperature sensor for sensing an external temperature, and the drive in accordance with the detected value from the outside air temperature sensor It is achieved by a refrigerator characterized by having a control unit for controlling the speed of the motor.

Here, it is preferable that the controller divides the outside temperature into a plurality of stages and thereby increases or decreases the speed of the driving motor in stages. And, further comprising a door opening and closing detection sensor for detecting the opening of the door, wherein the control unit is to decelerate the drive speed of the drive motor when opening the door from the door opening and closing detection sensor.

On the other hand, the object is, according to another field of the present invention, in the control method of the refrigerator having a compressor having a drive motor capable of varying the drive speed, the step of sensing an external temperature, the value according to the value of the external temperature It is also achieved by a control method of a refrigerator comprising the step of controlling the drive speed of the drive motor.

The controlling of the driving speed of the driving motor may include dividing the value of the external temperature into a plurality of steps, and controlling the driving speed of the driving motor according to the present invention. Preferably, the step of decelerating the drive speed of the drive motor from the normal speed when opening.

On the other hand, according to another field of the present invention, in the refrigerator, the compressor having a drive motor capable of changing the drive speed, the door opening sensor for detecting the opening of the door, the door opening in accordance with the signal from the door opening sensor When the drive motor is provided with a refrigerator comprising a control unit for controlling the deceleration.

The apparatus may further include an external temperature sensor for sensing an external temperature, and the controller is configured to increase or decrease the driving speed of the driving motor according to a detected value from the external temperature sensor. The controller may divide the outside air temperature into a plurality of stages and thereby increase or decrease the speed of the driving motor in stages.

On the other hand, the above object, according to another field of the invention, in the control method of the refrigerator equipped with a compressor having a drive motor capable of changing the drive speed, the step of detecting the opening of the door, the drive when opening the door It can also be achieved by the control method of the refrigerator, characterized in that it has a control unit for controlling the deceleration of the motor.

Here, the step of sensing the outside temperature, and the step of controlling the speed of the drive motor according to the temperature of the outside temperature, the step of controlling the drive speed of the drive motor, a plurality of values of the external temperature Divided into steps, it is preferable to include the step of controlling the drive speed of the drive motor accordingly.

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

As described with reference to FIG. 1, the refrigerator is provided with a pair of doors 5 on the front surface of the outer casing 1 forming the exterior, and each door 5 has a door 5 opened or closed. The door opening and closing detection sensor 15 is installed, and the outside air temperature sensor 11 is installed above the outer casing 1 to detect the outside air temperature. On the other hand, the refrigerator compartment 2 and the freezing compartment 3 are formed in the main body to be separated up and down, and each of the cooling chamber inside the freezer compartment temperature sensor 12a for detecting the temperature in the cooling compartment and the refrigerator compartment high temperature sensor 12b. Is installed.

The refrigeration system for supplying cold air in such a refrigerator includes a compressor 21 installed at a lower rear portion of the refrigerating chamber 2 to compress the refrigerant at high temperature and high pressure, and a condenser not shown to condense the refrigerant throughout the entire area of the main body. And a freezer compartment evaporator 22a and a refrigerator compartment evaporator 22b provided on the rear surface of each cooling chamber to evaporate the refrigerant. On the other hand, the front of each evaporator 22 is provided with a freezer compartment blowing fan 23a and a refrigerating compartment blowing fan 23b for blowing air around the evaporator 22 cooled by the evaporation of the refrigerant in the evaporator 22 into the chamber. .

Compressor 21 of the refrigeration system is composed of a compression unit for compressing the refrigerant in the sealed casing, and a drive motor for providing power to the compression unit, wherein the drive motor is a brushless motor that can vary the drive speed. Or inverter motor. Accordingly, the amount of the refrigerant compressed from the compressor 21 can be adjusted by varying the driving speed according to the conditions in the refrigerator or the condition of the outside air.

2 is a control block diagram of a refrigerator according to the present invention. The control unit 10 includes an outside temperature sensor 11 for detecting a temperature of the outside air of the refrigerator, a door opening / closing sensor 15 for detecting whether the door 5 is open, a refrigerator compartment 2 and a freezer compartment 3. The compressor 21 and the blower fan 23 receive information from the temperature sensor 12 for detecting a temperature and send a signal to the compressor drive circuit 25 and the blower fan drive circuit 26 based on the information. To control.

Accordingly, when the door is not opened, the compressor is driven by the detected value from the outside air temperature sensor 11 and the high temperature sensor 12, and at this time, the controller controls the high temperature inside the set temperature range. When there is, the drive of the compressor 21 is stopped, and when the internal temperature is lower than the set temperature, the compressor 21 is driven. When the outside temperature detected by the outside temperature sensor 11 is above a predetermined temperature, the driving speed of the compressor 21 is increased. When the outside temperature is below a predetermined temperature, the driving speed of the compressor 21 is decreased. . On the other hand, when the door 5 is opened, the control unit stops the blower fan 23 and drives the drive speed of the compressor 21 lower than the normal speed to reduce the temperature difference between the refrigerator and the outside air.

3 is a control flowchart of the refrigerator according to the outside temperature. When the initial power is supplied to the refrigerator, the controller determines whether the compressor 21 is a driving condition according to an external operation or an input signal from the high temperature sensor 12 (S10). At this time, when the driving condition of the compressor 21 is not satisfied, the control unit 10 cuts off the driving power of the compressor 21 (S20), and when the driving condition of the compressor 21 is satisfied, the compressor 21. ) To supply the driving power and drive the compressor 21 at a normal speed (S30 and S40). In addition, the controller 10 receives the outside air temperature input from the outside air temperature sensor 11 (S50), and at this time, the control unit 10 divides the outside air temperature range in advance into the upper limit temperature and the lower limit temperature in advance. Then, the drive speed of the compressor 21 according to the set outside air temperature is determined and input into the memory. Then, the control unit determines whether the outside air temperature input from the outside air temperature sensor 11 is above the upper limit temperature (S60), and when the outside air temperature is higher than the set upper limit temperature, the drive motor of the compressor 21 is operated at normal speed. It drives at a higher speed (S65). When the outside temperature is lower than the set upper limit temperature, the controller determines whether the outside temperature is lower than or equal to the set lower limit temperature (S70). At this time, the controller operates the compressor 21 driving motor at a low speed when the outside air temperature is lower than the set lower limit temperature (S75), and when the outside air temperature is between the set upper limit temperature and the lower limit temperature, the control unit detects the internal temperature sensor 12. The internal temperature is input from the high temperature to determine whether the internal temperature is below a predetermined lower limit temperature for proper cooling (S80). If the internal temperature is lower than the set temperature, the control unit cuts off the power of the compressor 21 to stop the driving of the compressor 21 (S90). Accordingly, the cooling intensity of the refrigerator can be adjusted by changing the driving speed of the compressor 21 according to the outside temperature.

On the other hand, Figure 4 is a control flowchart of the refrigerator according to the opening and closing of the door. When the initial power is supplied to the refrigerator, the controller determines whether the compressor 21 is a driving condition according to an external operation or an input signal from the high temperature sensor 12 (Q10). At this time, when the driving condition of the compressor 21 is not satisfied, the controller 10 cuts off the driving power of the compressor 21 (Q20), and when the driving condition of the compressor 21 is satisfied, the compressor 21. ) To supply driving power and drive the compressor 21 at a normal speed (Q30, Q40). During operation of the compressor 21, the controller receives the high temperature from the high temperature sensor to determine whether the high temperature is below a predetermined lower limit temperature for proper cooling (Q50). At this time, if the internal temperature is lower than the lower limit temperature, the controller cuts off the power of the compressor 21 to stop the driving of the compressor 21 (Q60). On the other hand, when the internal temperature is higher than the lower limit temperature, the control unit detects whether the door 5 is open in response to a signal from the door open / close detection sensor 15 (Q70). At this time, if it is detected that the door is open, the control unit 10 operates the compressor 21 at a low speed (Q80), while if the door is not opened or the open door is closed, the control unit operates the compressor at normal speed. (90). Accordingly, when the door 5 is opened, the driving speed of the compressor is reduced to reduce the difference between the outside temperature and the internal temperature, so that the hot air sucked from the outside drops sharply in the relative humidity around the evaporator 22 and thus the evaporator 22. This can reduce the formation of frost on the outer surface of the.

As described above, according to the present invention, there is provided a refrigerator capable of adaptively varying the cooling strength according to an external temperature and a control method thereof. On the other hand, according to another field of the present invention, there is provided a refrigerator and a control method thereof in which frost is reduced on the outer surface of the evaporator due to the temperature difference between the outside air and the refrigerator when the door is opened.

Claims (12)

In the refrigerator, Compressor having a drive motor capable of varying the drive speed, An outside temperature sensor for detecting outside temperature; And a control unit controlling a speed of the driving motor in accordance with a detected value from the outside temperature sensor. The method of claim 1, The control unit may divide the outside air temperature into a plurality of stages and accordingly increase or decrease the speed of the driving motor step by step. The method of claim 1, And a door opening and closing detection sensor for detecting the opening of the door, wherein the control unit reduces the driving speed of the driving motor when the door is opened from the door opening and closing detection sensor. In the control method of the refrigerator provided with a compressor having a drive motor capable of varying the drive speed, Sensing external temperature; And controlling the driving speed of the driving motor according to the value of the external temperature. The method of claim 4, wherein The controlling of the driving speed of the driving motor may include dividing the value of the external temperature into a plurality of steps, and thereby controlling the driving speed of the driving motor. The method of claim 5, Detecting the opening of the door, and decelerating the driving speed of the driving motor from the normal speed when the door is opened. In the refrigerator, Compressor having a drive motor capable of changing the drive speed, A door opening sensor for detecting the opening of the door, And a controller configured to decelerate the driving motor when the door is opened in response to a signal from the door open sensor. The method of claim 7, wherein And an external temperature sensor configured to sense an external temperature, wherein the controller is configured to increase or decrease a driving speed of the driving motor according to a detected value from the external temperature sensor. The method of claim 8, The control unit may divide the outside air temperature into a plurality of stages and accordingly increase or decrease the speed of the driving motor step by step. In the control method of the refrigerator provided with a compressor having a drive motor capable of changing the drive speed, Detecting the opening of the door, And a control unit configured to decelerate the driving motor when the door is opened. The method of claim 10, Detecting an outside air temperature and controlling the speed of the driving motor according to the temperature of the outside air temperature. The method of claim 11, The controlling of the driving speed of the driving motor may include dividing the value of the external temperature into a plurality of steps, and thereby controlling the driving speed of the driving motor.

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