KR20200004055A - Apparatus diagonosing valve error of refrigerator and method thereof - Google Patents

Abstract

Disclosed are an apparatus and a method for diagnosing an error in a valve of a refrigerator, which can detect presence of an error in a first valve that adjusts flow of a refrigerant circulating in a first refrigeration chamber and a second valve that adjusts flow of a refrigerant circulating in a second refrigeration chamber. The apparatus for diagnosing an error in a valve of a refrigerator can comprise: a first temperature sensor configured to measure indoor temperature of the first refrigeration chamber; a second temperature sensor configured to measure indoor temperature of the second refrigeration chamber; a controller configured to compare temperature changes measured from the first temperature sensor and the second temperature sensor to determine whether or not the first valve and the second valve have an error in a state in which the first valve or the second valve is opened; and a display configured to display the presence of the error in the first valve and the second valve, which is determined by the controller.

Description

Valve defective diagnosis device and diagnosis method of refrigerator {APPARATUS DIAGONOSING VALVE ERROR OF REFRIGERATOR AND METHOD THEREOF}

The present invention relates to an apparatus and diagnostic method for diagnosing valve failure of a refrigerator.

Generally, refrigerators are used for fresh long-term storage of foods, beverages and the like. For example, the refrigerator is stored frozen or refrigerated according to the type of storage to be stored.

Such a refrigerator maintains the temperature in the refrigerator at a set value by supplying the cold air generated by the refrigeration cycle into the refrigerator. To this end, the refrigerator includes a compressor, a condenser, an expander and an evaporator, and these compressors, the condenser, the expander and the evaporator are housed in a machine room located on one side of the refrigerator and configured to supply cold air to the inside of the refrigerator.

For example, the refrigerant gas is sent to the compressor to change the state of high temperature and high pressure, the heat of condensation heats through the condenser, and evaporates through the expansion valve, and removes the latent heat of evaporation from the air around the cooling chamber through the evaporator. As it vaporizes, it creates cold air.

On the other hand, in the kimchi refrigerator having two refrigerating chambers, the flow of the refrigerant moving to each refrigerating chamber is controlled through a step valve (Step Valve). By the way, it is difficult to find out whether the step valve is defective in the production line. If the step valve of the kimchi refrigerator is abnormally operated, supercooling or weak cooling occurs in the refrigerating chamber.

Accordingly, there is a demand for a technology that can easily find out whether a step valve is defective in a production line and reduce a defective rate of a refrigerator.

Embodiments of the present invention are to provide a valve failure diagnosis apparatus and diagnostic method of the refrigerator that can easily detect whether the valve is defective.

In order to achieve the above object, the apparatus for diagnosing valve failure of a refrigerator according to the present invention includes a first valve controlling a flow of a refrigerant circulating in a first refrigerating compartment, and a second regulating flow of a refrigerant circulating in a second refrigerating compartment. An apparatus for diagnosing valve failure of a refrigerator for detecting whether a valve is defective, the apparatus comprising: a first temperature sensor measuring an internal temperature of the first refrigerating chamber; A second temperature sensor measuring an internal temperature of the second refrigerating chamber; In the open state of the first valve or the second valve, by comparing the temperature change measured by the first temperature sensor and the second temperature sensor, it is determined whether the first valve and the second valve is abnormal. controller; And a display indicating whether the first valve and the second valve are abnormal by the controller.

At this time, the controller calculates the temperature change of the first refrigerating compartment and the second refrigerating compartment for a predetermined time while the first valve is open, and then the temperature change of the first refrigerating compartment is lowered and the second refrigerating compartment is lowered. If there is no change in the temperature, the first valve and the second valve can be determined to be a "valve normal" to maintain a normal state.

The controller may be configured to calculate the temperature change of the first refrigerating compartment and the second refrigerating compartment for a predetermined time while the first valve is open, and there is no temperature change of the first refrigerating compartment, If the temperature change is lowered, it may be determined that the first valve and the second valve are “bad valve connection” connected to the refrigerant paths of the first and second refrigerating chambers opposite to each other.

The controller may calculate the temperature change of the first refrigerating compartment and the second refrigerating compartment for a predetermined time while the first valve is open, and then the temperature change of the first refrigerating compartment and the second refrigerating compartment is both If it is lowered, it can be determined that the first valve and the second valve are " bad valve leakage " which keeps the refrigerant flow paths of the first and second refrigerating chambers open.

The controller may calculate the temperature change of the first refrigerating compartment and the second refrigerating compartment for a preset time while the first valve is open, and then if there is no temperature change of the first refrigerating compartment and the second refrigerating compartment. The first valve and the second valve may be determined to be “bad valve operation” for maintaining a state in which the refrigerant paths of the first refrigerating chamber and the second refrigerating chamber are closed.

The valve failure diagnosis method of the refrigerator according to the present invention includes detecting whether a first valve controlling a flow of a refrigerant circulating in a first refrigerating compartment and a second valve controlling a flow of a refrigerant circulating in a second refrigerating compartment are defective. A method for diagnosing valve failure of a refrigerator, the method comprising: measuring internal temperatures of a first refrigerator compartment and a second refrigerator compartment; Determining whether the first valve and the second valve are abnormal by comparing the temperature change measured by the first temperature sensor and the second temperature sensor in the state in which the first valve or the second valve is opened. ; And displaying whether the first valve and the second valve are abnormal.

At this time, the step of determining whether the first valve and the second valve is abnormal, after calculating the temperature change of the first refrigerating compartment and the second refrigerating compartment for a predetermined time in the state that the first valve is opened, If the temperature change of the first refrigerating compartment is falling and there is no temperature change of the second refrigerating compartment, the first valve and the second valve are determined to be "valve normal" to maintain a normal state, and the temperature of the first refrigerating compartment is determined. If there is no change and the temperature change of the second refrigerating compartment is lowered, it is determined that the first valve and the second valve are "valid valve connection" connected to the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment opposite to each other. When the temperature change of the first refrigerating compartment and the second refrigerating compartment is both lowered, the first valve and the second valve maintain the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment in an open state. If it is determined that the "valve leakage is bad", and there is no temperature change in the first refrigerating chamber and the second refrigerating chamber, the first valve and the second valve closed the refrigerant flow path of the first refrigerating chamber and the second refrigerating chamber. It can be determined that the "valve malfunction" to maintain the state.

The determining of whether the first valve and the second valve are abnormal may include calculating a temperature change of the first refrigerating compartment and the second refrigerating compartment for a predetermined time while the second valve is open. If the temperature change of the second refrigerating compartment is falling and there is no temperature change of the first refrigerating compartment, the first valve and the second valve are determined to be "valve normal" to maintain a normal state, and the temperature of the second refrigerating compartment is determined. If there is no change and the temperature change of the first refrigerating compartment falls, it is determined that the first valve and the second valve are "bad valve connection" connected to the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment opposite to each other. When the temperature change of the first refrigerating compartment and the second refrigerating compartment is both lowered, the first valve and the second valve maintain the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment in an open state. If it is determined that the "valve leakage is bad", and there is no temperature change in the first refrigerating chamber and the second refrigerating chamber, the first valve and the second valve closed the refrigerant flow path of the first refrigerating chamber and the second refrigerating chamber. It can be determined that the "valve malfunction" to maintain the state.

Embodiments of the present invention by detecting whether the normal flow of the refrigerant circulating the refrigerator compartment independent from each other by comparing the temperature change in the refrigerator compartment, whether the valve in the refrigerator ("valid valve connection", "bad valve leakage", "valve operation) It is effective to easily diagnose bad.

1 is a block diagram showing an apparatus for diagnosing valve failure of a refrigerator according to the present invention.
2 is a flowchart illustrating a process of diagnosing a valve failure using a valve failure diagnosis apparatus of a refrigerator according to the present invention.
3 is a block diagram showing a method for diagnosing valve failure of a refrigerator according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation according to the embodiment of the present invention. The following description is one of several aspects of the patentable invention and the following description may form part of the detailed description of the invention. However, in describing the present invention, a detailed description of known configurations or functions may be omitted to clarify the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms including ordinal numbers such as first and second may be used to describe various components, but the components are not limited by the terms. These terms are only used to distinguish one component from another. When a component is said to be 'connected' or 'connected' to another component, it may be directly connected to or connected to that other component, but it may be understood that another component may exist in between Should be. The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

1 is a block diagram showing a valve failure diagnosis apparatus of the refrigerator according to the present invention, Figure 2 is a flow chart showing a process of diagnosing the valve failure by using the valve failure diagnostic apparatus of the refrigerator according to the present invention.

1 to 2, the valve failure diagnosis apparatus of the refrigerator according to an embodiment of the present invention, the first temperature sensor 110, the second temperature sensor 120, the controller 200 and the display ( 300).

Specifically, the first temperature sensor 110 may measure the internal temperature of the first refrigerating chamber 10, and the second temperature sensor 120 may measure the internal temperature of the second refrigerating chamber 20. To this end, the first temperature sensor 110 may be installed at a predetermined position in the first refrigerating chamber 10, and the second temperature sensor 120 may be installed at a predetermined position in the second refrigerating chamber 20. . For example, the first temperature sensor 110 and the second temperature sensor 120 may be installed adjacent to the cold air discharge ports of the first refrigerating chamber 10 and the second refrigerating chamber 20 in which cold air is discharged.

Here, the first refrigerating compartment 10 and the second refrigerating compartment 20 may be understood as a refrigeration space of the kimchi refrigerator separately separated. For example, the first refrigerating compartment 10 may be an L room located on one side of the kimchi refrigerator, and the second refrigerating compartment 20 may be an R room located on the other side of the kimchi refrigerator.

In the present embodiment, the first refrigerating compartment 10 and the second refrigerating compartment 20 have been described as a refrigerating space of the kimchi refrigerator, but are not limited thereto, and the first refrigerating compartment 10 and the second refrigerating compartment 20 may be kimchi. In addition to the refrigerator may be applied to various kinds of refrigerators. For example, the present invention may be applied to cosmetic refrigerators and wine refrigerators.

The first temperature sensor 110 measures the internal temperature of the first refrigerating compartment 10 in a state in which the compressor COMP is operated, and then controls the temperature information on the measured internal temperature of the first refrigerating compartment 10. 200). In addition, the second temperature sensor 120 measures the internal temperature of the second refrigerating compartment 20 in a state where the compressor is operated, and then controls the temperature information on the measured internal temperature of the first refrigerating compartment 10. ) Can be applied.

The first valve 410 may be installed at an inlet side of the refrigerant passage for cooling the first refrigerating compartment 10 to adjust the flow of the refrigerant circulating through the first refrigerating compartment 10.

For example, when the first valve 410 blocks the refrigerant flow path of the first refrigerating compartment 10, the movement of the refrigerant supplied to the first refrigerating compartment 10 is stopped, so that the temperature of the first refrigerating compartment 10 is lowered. It can be maintained at a constant temperature without. When the first valve 410 opens the refrigerant passage of the first refrigerating compartment 10, since the movement of the refrigerant supplied to the first refrigerating compartment 10 is maintained, the temperature of the first refrigerating compartment 10 may be lowered.

The second valve 420 may be installed at an inlet side of the refrigerant passage for cooling the second refrigerating compartment 20 to adjust the flow of the refrigerant circulating through the second refrigerating compartment 20. For example, when the second valve 420 blocks the refrigerant flow path of the second refrigerating compartment 20, since the movement of the refrigerant supplied to the second refrigerating compartment 20 is stopped, the temperature of the second refrigerating compartment 20 is not lowered. Constant temperature can be maintained. When the second valve 420 opens the refrigerant passage of the second refrigerating compartment 20, since the movement of the refrigerant supplied to the second refrigerating compartment 20 is maintained, the temperature of the second refrigerating compartment 20 may be lowered.

The controller 200 opens the first valve 410 or the second valve 420 and uses the temperature information received from the first and second temperature sensors 110 and 120 to control the first valve. 410 and the second valve 420 may be determined whether abnormal.

For example, after the refrigerator COMP is operated and only the first valve 410 of the first valve 410: LV or the second valve 420: RV is opened while the refrigerator is powered on, 4 minutes When the elapsed time, the controller 200 may receive the temperature information for a predetermined time from the first temperature sensor 110: LS and the second temperature sensor 120: RS, and at a time using the provided temperature information. The temperature change of the first refrigerating chamber 10 and the second refrigerating chamber 20 may be calculated. At this time, if the temperature change of the first refrigerating compartment 10 indicates the fall and there is no temperature change of the second refrigerating compartment 20, the controller 200 maintains the normal state of the first valve 410 and the second valve 420. Can be determined to be "valve normal".

When the compressor is operated and only the first valve 410 is opened, if there is no temperature change in the calculated temperature change of the first refrigerating compartment 10 and the temperature change of the second refrigerating compartment 20 falls, the controller 200 The first valve 410 and the second valve 420 may be determined to be a "valid connection failure" in which the refrigerant paths of the first refrigerating chamber 10 and the second refrigerating chamber 20 are connected to each other oppositely.

In addition, when the compressor is operated and only the first valve 410 is opened, and the calculated temperature change of the first refrigerating compartment 10 and the second refrigerating compartment 20 is both lowered, the controller 200 determines that the first valve ( 410 and the second valve 420 may be determined to be "valid leak" to maintain the refrigerant passages of the first refrigerating chamber 10 and the second refrigerating chamber 20 in an open state.

In addition, when the compressor is operated and only the first valve 410 is opened, when there is no temperature change of the calculated first refrigerator compartment 10 and the second refrigerator compartment 20, the controller 200 may operate the first valve 410. And it can be determined that the second valve 420 is a "valve operation failure" to maintain the closed state of the refrigerant flow path of the first refrigerating chamber 10 and the second refrigerating chamber 20.

On the other hand, the compressor (COMP) is operated in the state that the power of the refrigerator is applied, 4 minutes after only the second valve 420 of the first valve (410: LV) and second valve (420: RV) is opened. When the controller 200 receives the temperature information for a predetermined time from the first temperature sensor 110: LS and the second temperature sensor 120: RS, the controller 200 may be provided according to time using the provided temperature information. The temperature change of the 1st refrigerator compartment 10 and the 2nd refrigerator compartment 20 can be computed. At this time, when the temperature change of the first refrigerating compartment 10 indicates the fall and there is no temperature change of the second refrigerating compartment 20, the first valve 410 and the second valve 420 are the first refrigerating compartment 10 and the second. It may be determined that the "valve connection failure" is connected to the refrigerant passage of the refrigerating chamber 20 opposite to each other.

When the compressor is operated and only the second valve 420 is opened, if there is no temperature change in the calculated temperature change of the first refrigerator compartment 10 and the temperature change of the second refrigerator compartment 20 falls, the controller 200 The first valve 410 and the second valve 420 may be determined to be "valve normal" to maintain a normal state.

In addition, when the compressor is operated and only the second valve 420 is opened, and the calculated temperature change of the first refrigerating compartment 10 and the second refrigerating compartment 20 is both lowered, the controller 200 determines that the first valve ( 410 and the second valve 420 may be determined to be "valid leak" to maintain the refrigerant passages of the first refrigerating chamber 10 and the second refrigerating chamber 20 in an open state.

In addition, when the compressor is operated and only the second valve 420 is opened, and there is no temperature change of the calculated first refrigerator compartment 10 and the second refrigerator compartment 20, the controller 200 may operate the first valve 410. And it can be determined that the second valve 420 is a "valve operation failure" to maintain the closed state of the refrigerant flow path of the first refrigerating chamber 10 and the second refrigerating chamber 20.

The display 300 may display whether the first valve 410 and the second valve 420 are abnormal.

For example, before the test is performed, “0” may be displayed on the display 300. If the controller 200 determines that the first valve 410 and the second valve 420 are "valve normal", the display 300 may display "1", and the first valve 410 may be displayed. And when the controller 200 determines that the second valve 420 is “bad valve connection”, “2” may be displayed on the display 300.

In addition, when it is determined by the controller 200 that the first valve 410 and the second valve 420 are “bad valve leakage,” “E” may be displayed on the display 300, and the first valve ( When the controller 200 determines that the 410 and the second valve 420 are “valid operation,” “-” may be displayed on the display 300.

3 is a block diagram showing a method for diagnosing valve failure of a refrigerator according to the present invention.

As shown in Figure 3, the valve failure diagnosis method of the refrigerator according to the present invention, the step of measuring the internal temperature of the first refrigerator compartment and the second refrigerator compartment (S100), and whether the first valve and the second valve abnormality The determining may include a step S200 and displaying whether the first valve and the second valve are abnormal in operation S300.

In the step S100 of measuring internal temperatures of the first refrigerating compartment and the second refrigerating compartment, four minutes have elapsed while the power of the refrigerator is applied and the compressor, the first temperature sensor, and the second temperature sensor are turned on. When the internal temperature of the first refrigerating compartment is measured by using the first temperature sensor, the internal temperature of the second refrigerating compartment is measured by the second temperature sensor.

Determining whether the first valve and the second valve is abnormal (S200), by comparing the temperature change measured from the first temperature sensor and the second temperature sensor in a state in which the first valve or the second valve is opened The abnormality of the first valve and the second valve is determined.

For example, after calculating the temperature change of the first refrigerating compartment and the second refrigerating compartment for a predetermined time while only the first valve of the first valve or the second valve is open, the temperature change of the first refrigerating compartment is falling. If there is no temperature change in the second refrigerating compartment, it may be determined that the first valve and the second valve are "valve normal" to maintain a normal state.

Alternatively, after the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the first valve is open, if there is no temperature change of the first refrigerating compartment and the temperature change of the second refrigerating compartment falls, It may be determined that the valve and the second valve are "bad valve connection" connected to the refrigerant paths of the first refrigerating chamber and the second refrigerating chamber opposite to each other.

Alternatively, after the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the first valve is opened, the first valve and the first refrigerating compartment are all lowered if the temperature change of the first refrigerating compartment and the second refrigerating compartment is lowered. It can be determined that the two valves are " valve leaking " which keep the refrigerant passages in the first refrigerating chamber and the second refrigerating chamber open.

Alternatively, after the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the first valve is open, if there is no temperature change of the first refrigerating compartment and the second refrigerating compartment, the first valve and the second valve It can be determined that the "valve operation failure" to maintain the closed state of the refrigerant flow path of the first refrigerating chamber and the second refrigerating chamber.

On the other hand, after calculating the temperature change of the first refrigerating compartment and the second refrigerating compartment for a predetermined time while the second valve is opened in the first valve or the second valve, the temperature change of the second refrigerating compartment is lowered and the first refrigerating compartment If there is no temperature change of, the first valve and the second valve may be determined to be "valve normal" to maintain a normal state.

In addition, if there is no temperature change of the second refrigerating compartment and the temperature change of the first refrigerating compartment falls while the second valve is open, the first valve and the second valve are opposite to the refrigerant flow paths of the first refrigerating compartment and the second refrigerating compartment. It may be determined that the "valid connection is bad" is connected.

In addition, if the temperature change of both the 1st refrigerator compartment and the 2nd refrigerator compartment falls with the 2nd valve open, the 1st valve and the 2nd valve will hold the refrigerant flow path of the 1st refrigerator compartment and the 2nd refrigerator compartment open. May be determined to be "valid leaking".

When the temperature of the first refrigerating compartment and the second refrigerating compartment is not changed when the second valve is open, the first valve and the second valve maintain the state in which the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment are closed. Valve operation failure ”.

In the displaying of whether the first valve and the second valve is abnormal (S300), whether the first valve and the second valve calculated by comparing the temperature change measured from the first temperature sensor and the second temperature sensor are abnormal. Show through the display.

For example, before testing the valve, the display shows "0". Then, if it is determined that the first valve and the second valve are "valve normal", "1" is displayed on the display. If it is determined that the first valve and the second valve are "poor valve connection", the display shows "2". If it is determined that the first valve and the second valve are "valid leak", the display shows "E". If it is determined that the first valve and the second valve are "valid operation", the display shows "-".

As described above, the present invention compares the temperature change in the refrigerating chamber to detect whether the refrigerant circulating between different refrigerating chambers is normal, thereby determining whether the valves in the refrigerator are abnormal ("valid valve connection", "bad valve leakage", " The valve has a good advantage, such as easy to diagnose "..."

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. I can understand that. For example, those skilled in the art can change the material, size, etc. of each component according to the application field, or combine or replace the embodiments in a form that is not clearly disclosed in the embodiments of the present invention, this is also the present invention It will not go beyond the scope of the. Therefore, the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and such modified embodiments should be included in the technical spirit described in the claims of the present invention.

110: first temperature sensor 120: second temperature sensor
200: controller 300: display
410: first valve 420: second valve

Claims (8)

An apparatus for diagnosing valve failure of a refrigerator for detecting whether a first valve for controlling a flow of a refrigerant circulating in a first refrigerator compartment and a second valve for controlling a flow of a refrigerant circulating in a second refrigerator compartment are provided.
A first temperature sensor measuring an internal temperature of the first refrigerating chamber;
A second temperature sensor measuring an internal temperature of the second refrigerating chamber;
In the open state of the first valve or the second valve, by comparing the temperature change measured from the first temperature sensor and the second temperature sensor, it is determined whether the first valve and the second valve is abnormal. controller; And
And a display for displaying an abnormality of the first valve and the second valve determined by the controller. The method of claim 1,
The controller,
After the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the first valve is open, if the temperature change of the first refrigerating compartment is lower and there is no temperature change of the second refrigerating compartment, The apparatus of claim 1, wherein the first valve and the second valve are determined to be “valve normal” to maintain a normal state. The method of claim 1,
The controller,
After the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the first valve is open, if there is no temperature change of the first refrigerating compartment and the temperature change of the second refrigerating compartment is falling, The apparatus of claim 1, wherein the first valve and the second valve are connected to the refrigerant paths of the first refrigerating chamber and the second refrigerating chamber opposite to each other. The method of claim 1,
The controller,
After the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time in the state where the first valve is opened, if the temperature change of the first refrigerating compartment and the second refrigerating compartment is both lowered, The valve failure diagnosis apparatus of the refrigerator which determines that the valve and the said 2nd valve are "valid leak" which keeps the refrigerant | coolant flow path of the said 1st refrigerator compartment and the 2nd refrigerator compartment open. The method of claim 1,
The controller,
After the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the first valve is open, if there is no temperature change of the first refrigerating compartment and the second refrigerating compartment, the first valve and And a valve malfunction diagnosis device of the refrigerator that determines that the second valve is a "valve malfunction" that maintains the refrigerant paths of the first refrigerating chamber and the second refrigerating chamber. A method of diagnosing valve failure of a refrigerator for detecting whether a first valve controlling a flow of a refrigerant circulating in a first refrigerating compartment and a second valve controlling a flow of a refrigerant circulating in a second refrigerating compartment are provided.
Measuring the internal temperatures of the first refrigerator compartment and the second refrigerator compartment;
In the open state of the first valve or the second valve, by comparing the temperature change measured by the first temperature sensor and the second temperature sensor, it is determined whether the first valve and the second valve is abnormal. step; And
Valve failure diagnosis method of the refrigerator comprising the step of indicating whether the first valve and the second valve abnormality. The method of claim 6,
Determining whether the first valve and the second valve is abnormal,
After the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the first valve is open, if the temperature change of the first refrigerating compartment is lower and there is no temperature change of the second refrigerating compartment, The first valve and the second valve is determined to be "valve normal" to maintain a normal state,
If there is no temperature change in the first refrigerating compartment and the temperature change of the second refrigerating compartment falls, the valve connection failure in which the first valve and the second valve are connected to the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment opposite to each other is poor. "And judge
When the temperature change of the first refrigerating compartment and the second refrigerating compartment is both lowered, the "valve leak" that the first valve and the second valve keep the refrigerant flow paths of the first refrigerating compartment and the second refrigerating compartment open. Judges to be,
If there is no temperature change of the first refrigerating compartment and the second refrigerating compartment, the first valve and the second valve are " bad valve operation " to keep the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment closed. How to diagnose valve failure of the refrigerator. The method of claim 6,
Determining whether the first valve and the second valve is abnormal,
After the temperature change of the first refrigerating compartment and the second refrigerating compartment is calculated for a predetermined time while the second valve is open, if the temperature change of the second refrigerating compartment is lowered and there is no temperature change of the first refrigerating compartment, The first valve and the second valve is determined to be "valve normal" to maintain a normal state,
If there is no change in temperature of the second refrigerating compartment and the temperature change of the first refrigerating compartment is lowered, the "valve connection failure" in which the first valve and the second valve are connected to the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment opposite to each other. "And judge
When the temperature change of the first refrigerating compartment and the second refrigerating compartment is both lowered, the "valve leak" that the first valve and the second valve keep the refrigerant flow paths of the first refrigerating compartment and the second refrigerating compartment open. Judges to be,
If there is no temperature change of the first refrigerating compartment and the second refrigerating compartment, the first valve and the second valve are " bad valve operation " to keep the refrigerant passages of the first refrigerating compartment and the second refrigerating compartment closed. How to diagnose valve failure of the refrigerator.

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