KR20070025255A - Operation control method of refrigerator - Google Patents

Abstract

An operation control method of a refrigerator is provided to reduce power consumption due to operation of a defrosting heater by defrosting an evaporator without the defrosting heater even if control temperature of a storage compartment is set at a low temperature. An operation control method of a refrigerator comprises a step(S12) of setting low and high set temperatures which are the control temperatures of a storage compartment, a step of cooling-operating the control temperature of the storage compartment at a low set temperature, a step(S17) of changing the control temperature of the storage compartment into a high set temperature after passing the first operating time if the low set temperature is below the set standard temperature, and a step of operating a blowing fan and operating a defrosting mode of defrosting the evaporator. The operating step at high set temperature is operated for the second operating time.

Description

Operation control method of refrigerator {OPERATION CONTROL METHOD OF REFRIGERATOR}

1 is a configuration diagram showing a schematic configuration of a cooling system of a refrigerator according to a temporary embodiment;

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

3 is a flowchart illustrating an operation control method of a refrigerator according to the present invention.

Explanation of symbols on main parts of drawing

10: cooling system 11: compressor

12 condenser 13a, 13b capillary tube

14: 3-way valve 30: control unit

40: refrigerator compartment 41: refrigerator compartment evaporator

43: refrigerator compartment blowing fan 50: freezer

51: freezer compartment evaporator 53: freezer compartment blower fan

61 input unit 63 high temperature detection unit

65: counter part T _C : Low temperature set temperature

T _C0 : Reference temperature T _d : High temperature set temperature

T _r : Cold room high temperature t _c : First operation time

t _d : 2nd operation time

The present invention relates to an operation control method of a refrigerator.

Refrigerator is a device for maintaining a variety of food fresh for a long time by using the cold air generated in the freezing cycle, generally a freezer compartment for storing frozen foods below the freezing temperature, a refrigerator compartment for storing refrigerated foods above the freezing temperature and the And a cooling system for cooling the freezer compartment and the refrigerating compartment.

Referring to FIG. 1, the cooling system 10 includes a compressor 11, a condenser 12 for condensing the compressed refrigerant, capillaries 13a and 13b for thermally expanding the condensed refrigerant, and an expanded refrigerant. And evaporators 41 and 51 for evaporating. In addition, blowers 43 and 53 for supplying the cool air generated by the evaporators 41 and 51 to the respective storage chambers 40 and 50 are provided between the condenser 12 and the respective evaporators 41 and 51, respectively. It may further include a three-way valve 14 for selectively supplying the refrigerant to (41, 51). By such a configuration, the conventional refrigerator circulates air cooled by heat exchange in the evaporators 41 and 51 to the storage chambers 40 and 50 through the blowing fans 43 and 53 to cool the storage chambers 40 and 50.

On the other hand, when the air circulated by the blower fan 43, 53 heat exchanges in the evaporator (41, 51), the idea that water vapor contained in the air is frozen in the evaporator (41, 51) occurs, such an idea Since deterioration of air circulation reduces evaporation efficiency, defrosting is required to remove it.

Therefore, in the related art, a separate defrost heater is provided on the evaporator to defrost the evaporator by heating above the freezing temperature (Korean Patent Application No. 1988-0008813), or by operating a blower fan for a predetermined time after the compressor is stopped without the defrost heater. Natural defrosting (Korean Patent Application No. 2002-0067208) and the like have been used.

However, in the case of using the above-described defrost heater, the production cost according to the installation of the defrost heater is increased, the power consumption increases, and in the case of natural defrosting without the defrost heater, the control temperature of the storage compartment is close to the freezing temperature or If it is set to less than that there is a problem that the cold air of the storage compartment of the freezing temperature band is circulated to the evaporator to proceed with defrosting, the defrosting time is long and the efficiency of the defrosting itself is lowered.

Accordingly, an object of the present invention is to provide an operation control method of a refrigerator which can efficiently defrost an evaporator without a defrost heater even when the control temperature of the storage compartment is set to a low temperature.

According to the present invention, in the operation control method of a refrigerator including a main body in which a storage compartment is formed, an evaporator for cooling the storage compartment, and a blower fan, a low temperature setting temperature and a high temperature setting temperature which are control temperatures of the storage chamber are set. Doing; Cooling operation of the storage chamber at the low temperature setting temperature; Changing the control temperature of the storage compartment to the high temperature set temperature after a first operation time when the low temperature set temperature is lower than a set reference temperature; It is achieved by the operation control method of the refrigerator comprising operating the blowing fan to perform a defrosting operation to defrost the evaporator.

The operation of the high temperature set temperature may be performed during a second operation time.

The method may further include returning the control temperature of the storage chamber to the low temperature setting temperature after the second operation time has elapsed.

The reference temperature may be set between -1 ℃ to 1 ℃.

The high temperature set temperature may be set between 3 ° C and 5 ° C.

Hereinafter, a preferred embodiment of the present invention will be described in detail.

2 is a block diagram of a refrigerator according to the present invention. Referring to the drawings, the refrigerator according to the present invention includes a main body in which the storage chambers 40 and 50 are formed, a cooling system 10 for cooling the respective storage chambers 40 and 50, and low temperature setting of each storage chamber 40 and 50. An input unit 61 for setting and inputting the temperature T _C , the reference temperature T _C0 , the high temperature set temperature T _d , the first operating time t _c and the second operating time t _d , and each An internal temperature detecting unit 63, a counter unit 65, and a control unit 30 for detecting the internal temperature of the storage chambers 40 and 50 are included.

The storage chambers 40 and 50 are divided and formed in the main body (not shown) by intermediate partitions. Only one storage chamber 40 or 50 may be formed, or may be formed in plural. When the storage chambers 40 and 50 are formed in plural numbers, as illustrated in FIG. 1, the storage chambers 40 and 50 may be provided as a relatively low temperature freezing chamber 50 and a relatively high temperature refrigerator compartment 40. The storage compartments 40 and 50 may be provided in three or more, and the freezing compartment 50 and the refrigerating compartment 40 may be provided in different numbers.

Here, in describing the preferred embodiment of the present invention, the case where the storage chambers 40 and 50 are the refrigerating chamber 40 and the freezing chamber 50 will be described by way of example, but the present invention is not limited thereto.

As shown in FIG. 1, the cooling system 10 includes a compressor 11 for compressing a refrigerant, a condenser 12 for condensing the compressed refrigerant, and capillaries 13a and 13b for adiabatic expansion of the refrigerant having a low temperature and high pressure. ) And evaporators 41 and 51 for evaporating the expanded refrigerant to produce cold air. Here, the evaporators 41 and 51 may be provided corresponding to the respective storage chambers 40 and 50, respectively. In this case, a three-way valve 14 for selectively supplying the refrigerant from the condenser 12 may be further included between the condenser 12 and each of the evaporators 41 and 51. In addition, capillary tubes 13a and 13b may be separately provided between the three-way valve 14 and each of the evaporators 41 and 51.

By the above configuration, when the refrigerating chamber 40 satisfies the low temperature set temperature T _C , the three-way valve 14 blocks the A side refrigerant flow and opens only the B side refrigerant flow (see FIG. 1). Therefore, since the refrigerant does not flow in the refrigerating compartment evaporator 41, it is possible to prevent the temperature of the refrigerating compartment evaporator 41 from falling unnecessarily and to be implanted, and to use the refrigerating compartment evaporator 41 using a relatively high temperature in the refrigerating compartment. It becomes natural defrosting.

The input unit 61 is configured to set and store the low temperature set temperature T _C , the reference temperature T _C0 , the high temperature set temperature T _d , the first operation time t _c and the second operation time t _d . do.

The internal temperature detecting unit 63 is provided to detect the internal temperature T _r of the storage chambers 40 and 50, and the counter unit 65 has a first operating time t _c and a second operating time t _d . It is arranged to count.

The controller 30 performs normal operation and defrosting operation based on the low temperature set temperature T _C and the reference temperature T _C0 set through the input unit 61.

Each configuration will be described below in detail at each step of the operation control method of the refrigerator according to the present invention.

3 is a flowchart illustrating an operation control method of a refrigerator according to the present invention. First, when the operation of the refrigerator is started (S11), the low temperature set temperature (T _C ), the reference temperature (T _C0 ), the high temperature set temperature (T _d ), the first operation time (t _c ) through the input unit 61, The second operation time t _d is set (S12). The low temperature set temperature (T _C ), the reference temperature (T _C0 ), the high temperature set temperature (T _d ), the first operation time (t _c ), and the second operation time (t _d ) may be stored in the controller 30. It may be stored in a separate memory unit (not shown).

Low temperature set temperature (T _C ) is defined as the temperature inside the storage chamber (40, 50) to maintain. The control unit 30 controls the compressor 11 and the three-way valve 14 based on the temperature inside the storage chambers 40 and 50 and the low temperature set temperature T _C sensed by the high temperature detecting unit 63 to cool. Do this.

The low temperature set temperature T _C may be set differently according to the use of each storage chamber 40, 50. For example, the freezer compartment 50 may be set below the freezing temperature, and the refrigerating compartment 40 may be set above the freezing temperature. On the other hand, even in the case of the same storage room (40, 50) can be set differently if necessary. That is, in the case of the refrigerating chamber 40, it may be set to 10 to 15 ℃, it may be set to below the freezing temperature. (Hereinafter, the low temperature set temperature T _C shall mean the low temperature set temperature T _C of the refrigerating chamber 40.)

The reference temperature T _C0 is set to determine whether the set low temperature set temperature T _C is low temperature or high temperature. The reference temperature T _C0 may be set in various ways as necessary, but is preferably set between -1 and 1 ° C. In this case, the low temperature set temperature T _C is sufficiently higher than −1 to 1 ° C. to prevent the defrosting operation from being performed even if additional operation control is unnecessary.

The high temperature set temperature (T _d ) is a temperature that is set higher than the freezing temperature and is defined as a refrigerator compartment internal temperature T _r to be maintained during defrosting operation. The high temperature set temperature T _d may be set in various ways as necessary, and may be set, for example, between 3 and 5 ° C. Because, if the high temperature set temperature (T _d ) is set lower than the freezing temperature, defrost of the refrigerating compartment evaporator 41 is impossible, on the contrary, if it is set too high, the temperature of the stored matter stored in the refrigerating compartment 40 is increased and the risk of corruption Because of this. Here, the high temperature set temperature (T _d ) may be set differently according to the storage chambers 40 and 50 to be controlled or according to the outside air temperature.

On the other hand, when the refrigerator compartment internal temperature T _r becomes higher than the high temperature set temperature T _d during the defrosting operation, the controller 30 drives the compressor 11 and opens the refrigerant flow in the refrigerator compartment evaporator 41 side to open the refrigerator compartment. By cooling the 40, the refrigerating chamber 40 maintains the high temperature set temperature T _d (S17).

The first operation time t _c is defined as a time at which the cooling operation of the refrigerating chamber 40 is performed when the low temperature set temperature T _C is a low temperature condition. The first operation time t _c may be counted from the initial driving time of the compressor 11 or from the time of setting the low temperature set temperature T _C. It is also possible to set the number of on / off cycles of the refrigeration cycle. The first operating time t _c may be set, for example, between 15 and 20 hours from the initial driving of the compressor 11, and between 20 and 30 hours from the time of setting the low temperature set temperature T _C. It may also be set in.

The second operation time t _d is defined as a time for performing defrosting operation after the normal operation stops. The second operation time t _d may be set in various ways as necessary, and may be set between 1 and 2 hours after the normal operation stops. In addition, the number of on / off times of the compressor 11 after the normal operation is stopped may be set, for example, about 2 to 3 times.

Next, the internal temperature sensing unit 63 detects the internal temperature T _r of the refrigerating chamber 40 (S13), and based on the detected internal temperature T _r and the set low temperature set temperature T _C. Performing a normal operation to cool the 40 (S14).

At this time, if the low temperature set temperature (T _C ) is greater than or equal to the reference temperature (T _C0 ), the normal operation is continued according to the low temperature set temperature (T _C ) (S15). In this case, in the normal operation, in addition to turning on / off the compressor 11 according to the low temperature set temperature T _C , the refrigerating chamber blowing fan for a predetermined time after the compressor 11 is stopped or after the refrigerant flow of the refrigerator compartment evaporator 41 is blocked. Natural defrosting operation to operate 43.

On the other hand, when the low temperature set temperature (T _C ) is less than the reference temperature (T _C0 ) (S15), when the first operation time t _c elapses (S16), the control temperature of the refrigerating chamber is changed to the high temperature set temperature (T _d ). In operation S17, the defrosting operation is performed. The defrosting operation stops the normal operation and operates the refrigerating chamber blowing fan 43 to defrost the refrigerating chamber evaporator 41 using air in the refrigerating chamber 40 which is relatively hot. Here, the stop of the normal operation means that the compressor 11 is turned off to stop the entire cooling system 10, and the refrigerant flow in the refrigerator compartment evaporator 41 is blocked even when the compressor 11 is turned on. ) Cooling is stopped.

When the second operation time t _d has elapsed (S18), the defrosting operation is terminated and the control temperature of the refrigerating compartment is changed back to the low temperature snow temperature T _c and the normal operation is returned (S19). Of course, when the refrigerator compartment internal temperature T _r rises above the high temperature set temperature T _d even before the second operation time t _d elapses, the compressor 11 is driven, or the refrigerator compartment evaporator 41 side. The refrigerant flow is opened to maintain the refrigerator compartment internal temperature T _r below the high temperature set temperature T _d . Finally, if the operation of the refrigerator does not end (S20), the above process is repeated.

Therefore, according to the operation control method of the refrigerator according to the present invention, when the control temperature of the storage compartment is set to a low temperature at which the natural defrosting of the evaporator is not easy, the evaporator is defrosted by raising the internal temperature of the refrigerator compartment for a predetermined second operation time. By returning to normal operation, the evaporator can be defrosted without a defrost heater. Therefore, the production cost and power consumption of the refrigerator can be reduced.

In addition, by properly maintaining the internal temperature of the refrigerating compartment during the defrosting operation, it is possible to prevent the risk of corruption of the stored article due to the increase in the internal temperature of the refrigerating compartment.

Therefore, according to the operation control method of the refrigerator according to the present invention, even if the control temperature of the storage compartment is set to a low temperature, the evaporator can be defrosted without the defrost heater, thereby reducing the production cost and reducing the power consumption according to the defrost heater operation. have.

Claims (5)

In the operation control method of the refrigerator comprising a main body having a storage compartment, an evaporator for cooling the storage compartment and a blowing fan, Setting a low temperature set temperature and a high temperature set temperature which are control temperatures of the storage chamber; Cooling operation of the storage chamber at the low temperature setting temperature; Changing the control temperature of the storage compartment to the high temperature set temperature after a first operation time when the low temperature set temperature is lower than a set reference temperature; And operating the blower fan to perform defrosting to defrost the evaporator. The method of claim 1, And operating the high temperature set temperature during a second operation time. The method of claim 2, And returning the control temperature of the storage compartment to the low temperature setting temperature after the second operation time has elapsed. The method of claim 1, The reference temperature is the operation control method of the refrigerator, characterized in that set between -1 ℃ to 1 ℃. The method of claim 1, The high temperature set temperature is the operation control method of the refrigerator, characterized in that set between 3 ° C to 5 ° C.

Images