KR100213929B1 - Method for deciding badness of refrigerator component - Google Patents

Abstract

The present invention relates to a method for determining a defective part of a refrigerator by checking and determining a failure of various loads of a refrigerator or a failure of a high temperature sensor in order to effectively cope with a failure of a refrigerator set or an after-sales service (A / S).

The present invention for this purpose, the first step of driving the compressor for a predetermined time; Driving the compressor for a predetermined time or more, and then detecting a temperature of a refrigerator evaporator to determine whether the temperature of the evaporator is lower than a predetermined temperature; In the second step, if the temperature of the evaporator is below a certain temperature, the temperature of the cold air outlet is detected to determine whether the temperature of the cold air outlet is below a certain temperature. If the temperature of the evaporator is above a certain temperature, the compressor is defective. A third step of determining to be; In the third step, if the temperature of the cold air outlet is below a predetermined temperature, the temperature of the cold air inlet is detected to determine whether the temperature of the cold air inlet is below a certain temperature, and if the temperature of the cold air outlet is above a certain temperature, the refrigerator A fourth step of determining that the fan is defective; In the fourth step, if the temperature of the cold air inlet is lower than or equal to a predetermined temperature, it is determined that food is excessively loaded in the refrigerator, and if the temperature of the cold air inlet is higher than or equal to a certain temperature, the high temperature sensor of the refrigerator is defective. And a fifth step of determining.

Description

How to determine defective parts of refrigerator

The present invention relates to a method for determining a defective part of a refrigerator. More particularly, the present invention relates to a failure of various loads of a refrigerator or a failure of a high temperature sensor so as to effectively cope with a failure of a refrigerator set or an after-sales service. The present invention relates to a method for determining a defective part of a refrigerator to be inspected and determined.

As is well known, a refrigerator comprises a compressor, an evaporator, a defrost heater, a temperature sensor and a control device. That is, the refrigerator includes refrigerator loads including a compressor 5, an evaporator 6, a defrost heater 7, and the like, a high temperature sensor 1 and an evaporator for detecting a high temperature inside the refrigerator, as shown in FIG. It comprises an evaporator temperature sensor (2) for detecting the temperature of the cold air outlet temperature sensor (3) for detecting the temperature of the discharged cold air, and a cold air inlet temperature sensor (4) for detecting the temperature of the intake cold air, It also includes a control device 10 having a microcomputer 11 for receiving a signal from the sensors (1..4) to control and drive the respective loads (5..7).

The refrigerator, which is composed of the various components as described above, may cause a breakdown or abnormal phenomenon during use. In this case, it is necessary to first check and determine which part of the refrigerator component is defective. That is, referring to FIG. 2, in the conventional method for determining a defective part of a refrigerator, the internal temperature T _B is measured before the compressor is driven, and then the compressor 5 is driven (S10). If the operation of the compressor 5 has been performed for a predetermined time, for example, for 10 minutes, the internal temperature T _A at this time is measured and compared with the internal temperature T _B before the compressor 5 is driven ( S30) (S40) (S50). High temperature inside S50 T _B T _A If this is the case, it is determined that the internal temperature of the compressor due to the failure of the compressor 5 or the fan 6 has increased (S60).

However, the above-mentioned conventional method for determining a defective part of a refrigerator includes a compressor 5 and a fan 6 depending on how much the internal temperature of the refrigerator decreases after driving the load of the refrigerator, for example, the compressor 5 and the fan 6. Since there is a problem that can not determine exactly where the abnormality occurred because it determines whether there is an abnormality, and moreover, there was a problem that a separate algorithm is required to determine the failure of the high temperature sensor.

The present invention has been made to solve the above problems, by checking the failure of the various loads of the refrigerator or the failure of the high temperature sensor to effectively cope with the failure of the refrigerator set or after-sales service (A / S) It is an object of the present invention to provide a method for determining a defective part of a refrigerator.

1 is a block diagram schematically illustrating a connection relationship between general refrigerator parts;

2 is a flowchart of a method for determining a failure of a component of a conventional refrigerator;

3 is a flow chart of a method for determining a defective part of a refrigerator according to the present invention.

Explanation of symbols for main parts of the drawings

1 high temperature sensor 2 evaporator temperature sensor 3 cold air temperature sensor

5 compressor 6 fan 10 controller

11: microcomputer

In order to achieve the above object, the defective part determination method of the refrigerator according to the present invention,

In the method of determining the failure of a compressor, a fan and a refrigerator component such as a temperature sensor,

A first step of driving the compressor for a predetermined time;

Driving the compressor for a predetermined time or more, and then detecting a temperature of a refrigerator evaporator to determine whether the temperature of the evaporator is lower than a predetermined temperature;

In the second step, if the temperature of the evaporator is below a certain temperature, the temperature of the cold air outlet is detected to determine whether the temperature of the cold air outlet is below a certain temperature. If the temperature of the evaporator is above a certain temperature, the compressor is defective. A third step of determining to be;

In the third step, if the temperature of the cold air outlet is below a predetermined temperature, the temperature of the cold air inlet is detected to determine whether the temperature of the cold air inlet is below a certain temperature, and if the temperature of the cold air outlet is above a certain temperature, the refrigerator A fourth step of determining that the fan is defective;

In the fourth step, if the temperature of the cold air inlet is lower than or equal to a predetermined temperature, it is determined that food is excessively loaded in the refrigerator, and if the temperature of the cold air inlet is higher than or equal to a certain temperature, the high temperature sensor of the refrigerator is defective. The fifth step of the determination; is characterized in that it includes.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the method for determining the defective parts of the refrigerator according to the present invention. For convenience of description, the same reference numerals are used for constituent members that have the same function as those described in the prior art.

The defective part determination method of the refrigerator according to the present invention is to check and determine the failure of various loads of the refrigerator and the failure of the high temperature sensor in order to effectively cope with the failure of the refrigerator set or the after-sales service (A / S). 1 and 3, the compressor 5 is driven through the control device 10 having the microcomputer 11 to drive for a predetermined time or more, for example, 10 minutes or more ( S100); In operation S100, the compressor 5 is driven for at least 10 minutes (S110), and the temperature of the refrigerator evaporator is detected through the evaporator temperature sensor 2 to determine whether the temperature of the evaporator is below a predetermined temperature. Judging whether the compressor 5 is lower than the temperature before it is driven (S120); If the temperature of the evaporator is below a certain temperature in step S120, that is, the temperature of the evaporator is lower than the temperature before the compressor 5 is driven, the temperature of the cold air outlet is detected to determine whether the temperature of the cold air outlet is below a certain temperature. Subsequently, it is determined whether the temperature of the cold air discharge port is lower than the temperature before the compressor 5 is driven (S130). If the temperature of the evaporator is equal to or higher than a predetermined temperature, the compressor 5 is determined to be defective (S150). ; If the temperature of the cold air outlet is lower than a predetermined temperature in step S130, that is, if the temperature of the cold air outlet is lower than the temperature before the compressor 5 is driven, the temperature of the cold air inlet is detected to determine whether the temperature of the cold air inlet is below a certain temperature. (S140), and determining that the fan (6) of the refrigerator is bad if the temperature of the cold air discharge port is above a predetermined temperature (S160); If the temperature of the cold air intake is less than a predetermined temperature in step S140, it is determined that the food is excessively loaded in the refrigerator (S170), and if the temperature of the cold air intake is above a predetermined temperature, the internal temperature sensor 1 of the refrigerator is And determining that it is defective (180).

The operation of the component defect determination method of the present invention refrigerator configured as described above will be described with reference to FIGS. 1 and 3.

First, the present invention is a compressor (5) failure, fan (6), high temperature sensor (1) failure, and through the evaporator temperature sensor (2), cold air outlet temperature sensor (3), cold air inlet temperature sensor (4), and It is to detect overload of food and use it for proper load control or as A / S utilization data at A / S.

That is, according to the present invention, when the compressor 5 is operated, when the compressor 5 and the fan 6 are operated, or when only the fan 6 is operated, the temperature change of each part of the refrigerator is observed to observe each part of the refrigerator. Referring to FIG. 3, the compressor 5 and the fan (according to the high temperature sensor 1 even after about 10 minutes have elapsed in the state where the compressor 5 is first driven) are determined. If 6) is not turned off (S100) (S110), it is determined whether the evaporator temperature detected by the evaporator temperature sensor 2 has dropped to a certain temperature, that is, whether the temperature has dropped than before the compressor 5 is driven ( S120). At this time, if the temperature of the evaporator detected by the evaporator temperature sensor 2 is below a predetermined temperature, the compressor 5 is normal, and if the temperature of the evaporator is above the predetermined temperature, the compressor 5 is determined to be defective (S150). If the compressor 5 is normal in step S120, the temperature of the cold air outlet is determined by determining the temperature of the cold air outlet detected by the cold air outlet temperature sensor 3, that is, the compressor 5 is driven. It is determined whether the temperature is lower than before (S130). If the temperature of the cold air discharge port detected by the cold air discharge port temperature sensor 3 in step S130 is equal to or lower than a predetermined temperature, the fan 6 is normal, otherwise it is determined that the fan 6 is bad (S160). If it is determined in step S130 that the fan 6 is normal, by determining the temperature of the cold air inlet detected by the cold air inlet temperature sensor 4 whether the temperature of the cold air inlet drops below a certain temperature, that is, the compressor (5) It is determined whether the temperature is lower than before driving (S140). If the temperature of the cold air inlet detected by the cold air inlet temperature sensor 4 in step S140 is below a predetermined temperature, it is determined that the high temperature sensor 1 is defective (S180), otherwise, the food is overloaded in the refrigerator. It is determined that (S170). Thus, according to the present invention, it is possible to easily determine the abnormality of each part of the refrigerator by observing the temperature change of each part of the refrigerator while the compressor is in operation.

It will be apparent to those skilled in the art that the flowchart algorithm shown in FIG. 3 can be programmed and stored and used in the microcomputer of FIG.

As described above, the defective part determination method of the refrigerator according to the present invention checks the failure of various loads of the refrigerator and the failure of the high temperature sensor so as to effectively cope with the failure of the refrigerator set or the after-sales service (A / S). It provides the effect of judging.

On the other hand, the above-described method for determining a defective part of the refrigerator of the present invention is not limited to the above embodiment, and can be carried out by adding many manufacturing modifications without departing from the spirit and scope of the present invention.

Claims (1)

In the method of determining the failure of a compressor, a fan and a refrigerator component such as a temperature sensor, A first step of driving the compressor for a predetermined time; Driving the compressor for a predetermined time or more, and then detecting a temperature of a refrigerator evaporator to determine whether the temperature of the evaporator is lower than a predetermined temperature; In the second step, if the temperature of the evaporator is below a certain temperature, the temperature of the cold air outlet is detected to determine whether the temperature of the cold air outlet is below a certain temperature. If the temperature of the evaporator is above a certain temperature, the compressor is defective. A third step of determining to be; In the third step, if the temperature of the cold air outlet is below a predetermined temperature, the temperature of the cold air inlet is detected to determine whether the temperature of the cold air inlet is below a certain temperature, and if the temperature of the cold air outlet is above a certain temperature, the refrigerator A fourth step of determining that the fan is defective; In the fourth step, if the temperature of the cold air inlet is lower than or equal to a predetermined temperature, it is determined that food is excessively loaded in the refrigerator, and if the temperature of the cold air inlet is higher than or equal to a certain temperature, the high temperature sensor of the refrigerator is defective. The fifth step of determining; defective parts determination method of the refrigerator comprising a.

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