KR0172089B1 - Emergency care for defectiveness of relay contact for a refrigerator's load driving - Google Patents

Abstract

Disclosed is a method for detecting and emergency measures when a relay contact failure for driving a load such as a compressor and a fan occurs during the operation of a refrigerator. The disclosed method samples the internal temperature after the start of load operation, samples the internal temperature again after the set time elapses, and considers the relay contact defective when the temperature rises according to the comparison of the internal temperature before and after the set time. If deemed bad, perform first aid steps. The first aid step is performed by turning off the relay contact considered to be bad and turning it on again after a certain time. According to this method, it is possible to solve the temporary relay contact failure, and thus it is effective to prevent the malfunction of the refrigerator.

Description

First Aid Measures for Failed Relay Contact for Refrigerator Load Driving

The present invention relates to a first aid method when the relay contact for the load control of the refrigerator is bad, in detail, a relay contact for emergency action when there is an error in the relay contact for controlling the load of the fan and compressor for cold air supply during operation of the refrigerator. It relates to a first aid method in case of failure.

Referring to the refrigerator used in a typical home, as shown in FIG. 1, there is a freezer compartment 1 at the top and a cold compartment 2 at the bottom, and the freezer compartment 1 and the refrigerating compartment 2 have fans for supplying cold air (3, 4). ) Are installed respectively. Cold air is generated by heat exchange of air in an evaporator in which refrigerant compressed by the compressor 5 is circulated, and in this case, the freezing chamber 1 and the refrigerating chamber 2 are rotated as shown by the arrows shown in the drawing by the rotation of the fans 3 and 4. Supplied. Since the freezer temperature of the freezer compartment 1 and the refrigerating compartment 2 depends on the amount of cold air supplied to each of them, the freezer compartment fan 3 and the refrigerating compartment fan 4 have their respective internal compartment temperatures in order to properly maintain the internal compartment temperature. It should be operated in due time.

2 shows a conventional control circuit for automatically controlling the load of the freezer compartment fan 3, the refrigerating compartment fan 4, the compressor 5, and the like of the refrigerator as described above. In this drawing, the load 10 of the refrigerating compartment fan, the freezer compartment fan, and the compressor is supplied with power through each relay contact of the plurality of relay driving units 20, and the relay coils of the relay driving unit 20 are buffer units 30. It is connected to the microcomputer control unit 40 through.

That is, when the microcomputer control unit 40 sends a signal to the corresponding terminal of the buffer unit 30 for the operation of a specific load, the relay coil of the corresponding relay drive unit 20 is excited and the relay contact is turned on, Accordingly, the power is applied to the specified load to operate the load.

By the way, each relay contact point of the same relay drive unit must be turned on due to aging or other foreign matter between the contact points as time elapses, but it is temporarily turned off due to the phenomenon that the opening and closing operation is not performed well. There is a problem with reliability. In fact, in the refrigerator, such a relay contact failure often causes excessive load operation. In this case, high temperature control is not possible, power consumption is severe, and the life span is greatly affected.

For the smooth operation of the refrigerator, appropriate remedial action is desired when such a reel contact problem occurs, but conventionally no means have been provided to solve the problem of a relay contact failure.

Accordingly, an object of the present invention is to provide a first-aid method in the case of a relay load failure for a refrigerator load driving that can detect temporary relay contact failures that may occur during operation of a refrigerator and emergencyly correct the relay contact failure so that the relay contact can be normally operated. .

1 is a schematic cross-sectional view showing a cold air circulation system of a general household refrigerator.

2 is a load control control circuit diagram of a refrigerator.

Figure 3 is a control flow diagram according to the emergency action method when the relay contact failure for load control refrigerator according to the present invention.

* Explanation of symbols for main parts of the drawings

1: freezer 2: cold storage room

3: freezer fan 4: cold storage fan

5: compressor 10: load

20: relay drive unit 30: buffer unit

40: microcomputer control unit

The present invention to achieve the above object,

A first sampling step of determining whether the load of the refrigerator is an operating condition and detecting and sampling the high internal temperature when the load is operating;

After the first internal temperature sampling, the operation time of the load is counted to determine whether the counted operation time has continued for a predetermined time, and when the time elapses, the internal temperature is again detected and sampled. 2 sampling stages,

It is determined whether the internal temperature has risen by comparing the temperatures sampled in the first and second sampling steps, and if the internal temperature has risen, the relay driving unit of the load is stopped for a predetermined idle time and then restarted. Characterized in that it comprises a first aid step to make.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention as follows.

In the present invention, it is not necessary to add a separate device or component in its implementation, but the conventional microcomputer control unit 40 shown in FIG. 2 allows the separate program control as shown in FIG. 3 to be performed. It is possible to implement it.

Emergency measures in the case of a relay contact failure according to the present invention, as shown in Fig. 3, the first sampling step (S1, S2), the second sampling step (S3, S4, S5) and the first step (S6, S7) ).

First, in the first sampling step, it is determined whether or not the operating conditions are applied to the refrigerator load, for example, the above-described loads of the compressor and the fan that will substantially affect the internal temperature during operation (step S1). When present, the high internal temperature is sampled (step S2). Sampling of the high temperature is usually possible by reading the loads from the not-shown high temperature sensor used for controlling the loads according to the refrigerator high temperature.

In the second sampling step, the operation time is counted from the time when the above load starts to be operated (step S3) to determine whether the operation has been continued for a predetermined set time (step S4), and the set time is preferably When 3 hours have elapsed, the internal temperature is detected again and sampling is performed (step S5).

Next, in the first aid step, the internal temperature is increased (A < B) from the comparison result by comparing the temperature value A sampled in the first sampling step and the temperature value B sampled in the second sampling step. It is judged whether or not it is being made (step S6), and if the internal temperature is raised, the operation of the load is preferably turned off for about 5 minutes and then restarted (on) for a predetermined dwell time (step S7).

That is, in the present invention, the load is increased when the internal temperature is not lowered from the change in the internal temperature when the operation state is maintained for a predetermined set time with respect to the load which contributes to substantially lowering the internal temperature during operation. The fault is regarded as defective in the controlling relay contact point, and then the above-mentioned first aid is taken.

The relay contact, which is regarded as defective in the emergency measures, is turned off for a predetermined idle time and then turned on again. Preferably, the relay contact is repeatedly turned off / on several times during the predetermined time. In practice, most relay contact failures are temporary and are generally a problem that can be solved by repeating the OFF / ON.

According to the present invention as described above, it is possible to easily find out the problem of the load control relay contact failure that may occur during operation of the refrigerator and to automatically solve the problem. Therefore, the present invention is an effective invention that can contribute to increase the reliability of the product and further reduce the power consumption by preventing the malfunction due to the relay contact failure in the refrigerator.

In particular, the present invention can be applied to various products having a relay driving unit as well as a refrigerator.

Claims (4)

It is determined whether the load of the refrigerator is an operating condition, the first sampling step of detecting and sampling the internal temperature when the load is operating, and counting the operation time of the load after the first internal temperature sampling. It is determined whether the operation time has continued for a predetermined set time, and when the set time has elapsed, the second sampling step of detecting and sampling the internal temperature again and the temperature sampled in the first and second sampling steps, respectively, Compared to determine whether the internal temperature has risen, if the internal temperature is elevated refrigerator load drive, characterized in that it comprises an emergency action step of restarting after stopping the operation of the relay drive unit of the load for a predetermined idle time First aid measures in case of relay contact failure. The method of claim 1, wherein the set time is set to about 3 hours. The method of claim 1, wherein the load driving relay contact is opened and closed several times during the idle time. 4. The emergency action method according to claim 1 or 3, wherein the idle time is set to about 5 minutes.