KR19990027334A - Performance test method of defrost heater for refrigeration system and refrigeration system - Google Patents

Abstract

The present invention relates to a performance test method for a refrigeration system and a defrost heater for a refrigeration system having an evaporator and a defrost heater for removing frost generated on an outer surface of the evaporator, the power supply for driving the defrost heater. A defrost heater driving circuit for controlling and a start switch for performing forced defrost of the defrost heater by an external operation. As a result, the performance test of the defrost heater can be facilitated, and the test time can be shortened.

Description

Performance test method of defrost heater for refrigeration system and refrigeration system

The present invention relates to a performance test method of a defrost heater for a refrigeration system and a refrigeration system, and more particularly, to a performance test method for a defrost heater for a refrigeration system and a refrigeration system that can be easily inspected whether or not the performance of the defrost heater. .

1 is a side cross-sectional view of a refrigerator. The refrigerator has a freezing compartment 3 and a refrigerating compartment 2, which are a pair of cooling compartments partitioned up and down by a partition wall 9 in the main body 1, and each of the freezer compartment 3 is provided on the front of the freezing compartment 3 and the refrigerating compartment 2, respectively. 5) and the refrigerating chamber door 4 are attached. In the refrigerating chamber, a plurality of shelves 6 for storing foods are provided up and down, and a special chamber 7 and a vegetable chamber 8 are formed in the upper and lower portions of the refrigerating chamber 2 to store the food according to the storage temperature. It can be stored suitably.

On the other hand, a compressor 21 for compressing a refrigerant generating cold air at a high temperature and high pressure is provided in the rear lower portion of the refrigerator, and a condenser (not shown) is installed across both side walls and the rear wall of the main body from the compressor. Refrigerant is condensed. Then, the refrigerant is evaporated in the refrigerator compartment evaporator 23b and the freezer compartment evaporator 23a provided at the rear of the refrigerating compartment 2 and the freezing compartment 3 to remove the latent heat of evaporation from the ambient air to cool the ambient air. Air cooled in this way is discharged to the freezer compartment 3 and the refrigerator compartment 2 by the freezer compartment blower fan 22a and the refrigerator compartment blower fan 22b provided in the front of each evaporator 23.

While the refrigeration system using the refrigerant is being driven, the relative humidity of the evaporator 23 is lowered due to the temperature difference between the refrigerant flowing in the evaporator 23 and the ambient air, and the moisture in the air is released from the evaporator 23. Condensation occurs on the outer surface, causing frost. Accordingly, the defrost heater 30 for removing the defrost of the evaporator 23 is provided in the lower portion of the refrigerant pipe of the evaporator 23. The defrost heater 30 is set in advance to operate when the surface temperature of the evaporator becomes lower than a predetermined value or when the driving time of the compressor 21 passes for a predetermined time, and operates only when the compressor 21 stops driving. .

These refrigerators supply power to the PCBs and loads of each device to test whether each device works properly during the final stages of production, during process inspection, after installation to the consumer, and during the failure of the refrigerator. Accordingly, a test button is formed on the PCB, and each device is forcibly started according to the selection of the test button. In the test, first, a tester which converts signals from devices into power values and outputs them is connected between a power supply and a power cord of a refrigerator. Then, if the test button is selected once, the compressor 21 is forced to start immediately. If the test button is selected once more, the defrost heater 30 of the refrigerating chamber 2 is operated to perform forced defrosting. When the test button is selected one more time, forced defrosting of the refrigerating chamber 2 and the freezing chamber 3 is performed at the same time. When forced defrosting is performed, the forced start is released. It is possible to determine whether an abnormality occurs in the compressor 21 and the defrost heater 30 according to the power value displayed in the tester during the forced start and forced defrost.

However, when the test button for forced defrosting is selected, the defrosting heater 30 is not driven immediately, but the forced defrosting is performed only when the temperature of the evaporator 23 is below a predetermined temperature, that is, below -12 ° C. Therefore, when the temperature of the evaporator 23 is -12 ° C or more, the defrost heater 30 does not operate until the temperature of the evaporator 23 falls below -12 ° C. Accordingly, in order to test whether the defrost heater 30 operates normally, there is a problem of waiting for a predetermined time until the temperature of the evaporator 23 becomes -12 ° C or less. In addition, since the performance test of the defrost heater 30 is possible only by selecting a test button when the initial power is applied to the refrigerator, the power supply of the refrigerator is turned off to check the performance of the defrost heater 30 during the startup of the refrigerator. As it must be applied again, there is a problem that the performance test of the defrost heater 30 is cumbersome.

Accordingly, an object of the present invention is to provide a performance test method of a defrost heater for a refrigeration system and a refrigeration system that can easily inspect the performance of the defrost heater.

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 flowchart of a refrigerator according to the present invention.

Explanation of symbols for main parts of the drawings

1: body 2: refrigerating chamber

3: freezer compartment 10: control unit

11: power supply part 12: operation panel part

15: start switch 25: evaporator temperature sensor

30: defrost heater 35: defrost heater driving circuit

40: test button

The object of the present invention is a defrost heater driving circuit for controlling a power supply for driving the defrost heater in a refrigeration system having an evaporator and a defrost heater for removing frost generated on an outer surface of the evaporator according to the present invention. And a start switch for performing a forced defrost of the defrost heater by an external operation.

Here, when the forced defrost of the defrost heater is finished, it is preferable to have a control unit for detecting the temperature of the evaporator and controlling the driving of the defrost heater according to the detected temperature. The controller may drive the defrost heater when the temperature of the evaporator is less than or equal to a predetermined temperature. On the other hand, the start switch is preferably formed in the operation panel unit provided on the outside.

On the other hand, according to another field of the present invention, the object, in the performance test method of the defrost heater for a refrigeration system, the step of connecting a tester to the defrost heater, the step of forcibly driving the defrost heater for a predetermined time, It may also be achieved by the performance test method of the defrost heater for a refrigeration system, characterized in that it comprises the step of determining whether there is an abnormality of the defrost heater according to the indication from the tester after the end of the forced drive.

Here, when the forced driving of the defrost heater is completed, it is preferable to further include controlling the driving of the defrost heater according to the temperature of the evaporator, wherein, if the temperature of the evaporator is below a certain temperature, the defrost heater It is preferable to drive further.

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

In the refrigerator, as shown in FIG. 1, a compressor 21 for compressing a refrigerant at a high temperature and high pressure is installed in the main body 1, and the refrigerant compressed from the compressor 21 is not shown throughout the entire area of the main body. Condensate in the condenser The condensed refrigerant is evaporated from the refrigerator compartment evaporator 23b and the freezer compartment evaporator 23a installed at the rear of the refrigerating compartment 2 and the freezing compartment 3 to remove the latent heat of evaporation from the ambient air to cool the ambient air. Air cooled in this way is discharged to the freezer compartment 3 and the refrigerator compartment 2 by the freezer compartment blower fan 22a and the refrigerator compartment blower fan 22b provided in the front of each evaporator 23.

When the refrigeration cycle using the refrigerant is driven in this way, the relative humidity of the evaporator 23 is lowered due to the temperature difference between the refrigerant flowing in the evaporator 23 and the ambient air, whereby the moisture in the air is evaporator (23) Frost is generated by condensation on the outer surface. Accordingly, a defrost heater 30 is installed at the lower portion of the refrigerant pipe of the evaporator 23 to remove defrost of the evaporator 23, and the defrost heater 30 operates at a predetermined time interval or the evaporator 23. It operates according to the temperature of) and also operates only when the compressor 21 stops driving.

Such refrigerators are supplied with power to the PCBs and loads of the devices in the refrigerator during the process inspection, the final inspection of the production, the sale after installation to the consumer, and the abnormality of the refrigerator. ) Will test for proper operation. For this purpose, a test button is formed on the PCB, and a start switch for driving the defrost heater is formed on the operation panel portion provided on the front surface of the main body 1. Here, the start switch may be provided by using an additional button, or may be set as a key for driving the defrost heater 30 by combining an existing operation button.

As shown in FIG. 2, the controller for controlling the refrigerator includes a power button 11, an operation panel 12, an evaporator temperature sensor 25, and a test button installed on the PCB for load testing. 40) receives a signal from. The controller 10 outputs a signal to the compressor driving circuit 26 and the defrost heater driving circuit 35 based on the input signal, thereby controlling the driving of the compressor 21 and the defrost heater 30. . On the other hand, the start switch 15 is connected to the defrost heater driving circuit 35, the power is supplied to the defrost heater 30 by the defrost heater driving circuit 35 when the start switch 15 is selected, the defrost heater 30 Will be driven.

With this configuration, when inspecting the abnormality of the defrost heater 30 during the use of the refrigerator, as shown in FIG. 3, first, a tester for converting and outputting signals from the devices into power values is supplied to the power source and the power source of the refrigerator. Connect between the cords (S10). Then, when the start switch 15 is selected, forced defrosting of the refrigerating compartment 2 and the freezing compartment 3 is performed simultaneously for a predetermined time (S20). At this time, the defrost heater of the refrigerating compartment or the defrost heater of the freezing compartment may be forced defrost in sequence according to the selection of the start switch. During the forced defrosting, the inspector may determine whether the defrost heater 30 is abnormal, based on the power value displayed on the tester (S40). When a predetermined time elapses, the forced driving for testing the defrost heater is terminated (S50). If the test result is determined that the performance of the defrost heater 30 is abnormal, the inspector takes necessary measures. When the performance of the defrost heater 30 is normal, the refrigerator is connected to a power source to operate normally.

On the other hand, when the vehicle enters the normal operation, the control unit 10 receives the temperature of the evaporator 23 from the evaporator temperature sensor 25, and if the input evaporator 23 temperature value is less than a predetermined defrost is not completely made. As a result, the defrost heater 30 is driven again to enter the defrosting operation. And if the evaporator 23 temperature value is more than predetermined, the control part 10 will drive the compressor etc. according to the other input condition.

On the other hand, during the process inspection, as in the prior art, after connecting the tester, by selecting the test button 40 provided on the PCB to test each load, if the forced defrosting during the load test is not made immediately, start switch ( If you select 15), it is possible to easily determine whether the defrost heater is abnormal by performing forced defrosting.

Accordingly, the defrost heater 30 can be forcibly driven even when the temperature of the evaporator 23 is not lower than −12 ° C., which is the driving condition of the defrost heater 30, during the operation of the refrigerator. This can shorten the test time for checking for abnormalities. In addition, since the defrost heater 30 can be forcibly driven by selecting the start switch 15 formed on the operation panel unit 12, the operation for the performance test of the defrost heater is simplified.

As described above, according to the present invention, the performance test of the defrost heater can be facilitated, and the test time can be shortened.

Claims (7)

In the refrigeration system having an evaporator and a defrost heater for removing frost generated on the outer surface of the evaporator, Defrost heater driving circuit for controlling the power supply for driving the defrost heater, And a start switch for performing forced defrost of the defrost heater by an external operation. The method of claim 1, When the forced defrost of the defrost heater is finished, the refrigeration system having a control unit for detecting the temperature of the evaporator and controlling the driving of the defrost heater according to the detected temperature. The method of claim 2, The control unit, the refrigeration system, characterized in that for driving the defrost heater when the temperature of the evaporator is below a predetermined temperature. The method of claim 1, The start switch is a refrigeration system, characterized in that formed in the operation panel unit for operating a variety of devices. In the performance test method of the defrost heater for refrigeration system, Connecting a tester to the defrost heater; Forcibly driving the defrost heater for a predetermined time; And determining whether there is an abnormality of the defrost heater according to the indication from the tester after the forced driving is finished. The method of claim 5, When the forced driving of the defrost heater is completed, the performance test method of a defrost heater for a refrigeration system, characterized in that further comprising the step of controlling the drive of the defrost heater in accordance with the temperature of the evaporator. The method of claim 6, If the temperature of the evaporator is below a predetermined temperature performance test method of the defrost heater for a refrigeration system, characterized in that for further driving the defrost heater.