KR100362374B1 - Method for indicating refrigerant leakage of refrigerating cycle - Google Patents

Abstract

A refrigerant leakage display method of a refrigeration cycle is disclosed. The present invention provides a predetermined standard data relating to a change in heat exchanger temperature for a certain time to a change in the amount of refrigerant, and after operating the device to detect the current temperature of the heat exchanger after a certain time; Compare the detected current temperature of the heat exchanger with the temperature of the heat exchanger on the stored standard data; If the difference value between the present temperature of the heat exchanger and the temperature on the standard data is a predetermined value or more, an error is displayed when the count number is a predetermined value or more. As a result, when the refrigerant leaks, the user can easily replenish the refrigerant.

Description

Method for indicating refrigerant leakage of refrigerating cycle

The present invention relates to a refrigerant leakage display method of a refrigeration cycle, and more particularly, to indicate an error when a refrigerant leaks within a refrigerant cycle and reaches a predetermined level or less, so that the user can easily replenish the refrigerant. It relates to a display method.

The refrigeration cycle performs cooling or heating by using the physical change of the refrigerant circulating in the closed circuit section, that is, the energy change which is repeatedly changed from liquid to gas to gas to liquid.

As shown in FIG. 1, the refrigeration cycle 1 includes a compressor 3, a first heat exchanger 9, a capillary tube 15, and a second heat exchanger 7. Blowing fans 5 and 11 are provided adjacent to the first heat exchanger 9 and the second heat exchanger 7, respectively. The compressor 3 compresses the refrigerant flowing into the chamber at high temperature and high pressure. The first heat exchanger 9 heats the heat of the high temperature / high pressure refrigerant flowing from the compressor 3 to the outside, and condenses the refrigerant into a liquid refrigerant of normal temperature / high pressure. The liquid refrigerant at room temperature / high pressure passes through the capillary tube 15 and is reduced in pressure to be converted to a low / low pressure state. Then, after evaporating in the second heat exchanger 7, it is introduced again into the compressor 3. At this time, the refrigerant evaporating in the second heat exchanger 7 absorbs the heat of the air around the second heat exchanger 7, whereby the surrounding air is formed as cold.

During operation of this refrigeration cycle 1, the blowing fan 11 of the first heat exchanger 9 serves to cool the first heat exchanger 9. In addition, the blowing fan 5 of the second heat exchanger 7 serves to blow the cool air formed around the second heat exchanger 7 to a region requiring cooling.

On the other hand, such a refrigerating cycle (1) may be provided with a switching valve (13). The switching valve 13 is installed in the refrigerant outlet pipe of the compressor 3, and the refrigerant from the compressor 3 is transferred to the first heat exchanger 9 or the second heat exchanger 7 according to a control signal of a controller (not shown). Outflow. At this time, when the refrigerant from the compressor 3 is discharged to the first heat exchanger 9, the cooling operation as described above is performed. However, when the refrigerant from the compressor 3 flows out to the second heat exchanger 7, heating operation is performed.

However, in such a conventional refrigeration cycle, the amount of refrigerant circulating therein may gradually decrease as time passes. In this case, the operating performance of the device performing the cooling operation or the heating operation is lowered, and in severe cases, the compressor may be overloaded, resulting in total failure of the device.

Accordingly, an object of the present invention, in consideration of such a conventional problem, the refrigerant leakage of the refrigeration cycle that the user can easily replenish the refrigerant when the refrigerant is leaked and the amount is reduced by more than a predetermined amount, so that the user can easily replenish the refrigerant. It is to provide a display method.

1 is a block diagram of a typical refrigeration cycle,

2 is a block diagram illustrating a refrigerant leakage display method of a refrigeration cycle according to the present invention;

3 is a graph showing the temperature of the room and the heat exchanger temperature change with time during the operation of a normal refrigeration cycle having an appropriate amount of refrigerant,

4 is a graph showing a change in temperature of a room and a heat exchanger temperature with time during operation of an abnormal refrigeration cycle in which a refrigerant leaks, and

5 is a flowchart illustrating a refrigerant leakage display method of a refrigeration cycle according to the present invention.

Explanation of symbols on the main parts of the drawings

3: compressor 5: blower fan

7: second heat exchanger 13: switching valve

15 capillary 21 control unit

29: temperature sensor

According to the present invention, there is provided a refrigerant leakage display method of a refrigerating cycle, the method comprising: providing predetermined standard data relating to a change in heat exchanger temperature for a predetermined time with respect to a change in refrigerant amount; Setting room temperature and starting operation; Detecting a current temperature of the heat exchanger after the predetermined time elapses; Comparing the detected current temperature of the heat exchanger with the temperature of the heat exchanger on the stored standard data; And counting when the difference between the current temperature of the heat exchanger and the temperature on the standard data is greater than or equal to a predetermined value, and displaying an error if the count number is greater than or equal to the predetermined number. By the method.

In the counting step, when the count number is within a predetermined time, the operation state may be supplemented based on the amount of refrigerant on the standard data corresponding to the temperature difference value. In this case, the method may further include displaying the amount of refrigerant on the standard data corresponding to the temperature difference value to the outside.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention. In this case, the same reference numerals are used for the same configurations and names as described above, and the cooling operation will be described assuming that the second heat exchanger is an indoor heat exchanger for ease of explanation.

2 is a block diagram illustrating a refrigerant leakage display method of a refrigeration cycle according to the present invention. As can be seen in the figure, the refrigeration cycle is equipped with a temperature sensor 29 for sensing the temperature of the second heat exchanger (7). The control unit 21 applies the indoor set temperature set by the user through the room temperature setting unit 27 of the operation unit 23. Then, the temperature of the second heat exchanger 7 is sensed based on the sensed temperature from the temperature sensor 29. The operation unit 21 also includes an operation mode selection unit 25 capable of selecting an operation mode, that is, a cooling mode or a heating mode.

On the other hand, in the memory of the control unit 21, predetermined standard data relating to the temperature change of the second heat exchanger 7 for a predetermined time with respect to the change of the refrigerant amount is provided. Such predetermined standard data can be explained through the graphs shown in FIGS. 3 and 4.

3 is a graph showing the temperature change of the room and the temperature of the second heat exchanger 7 with time during the operation of a normal refrigeration cycle having an appropriate amount of refrigerant. The solid line on the figure shows the temperature change of the room with time. Under normal conditions, it can be seen that the temperature of the room gradually decreases with a predetermined slope as time passes. In addition, the broken line in a figure shows the temperature change of the 2nd heat exchanger 7 with time. It can be seen that the temperature of the second heat exchanger 7 in the normal state is rapidly lowered compared to the room temperature for a predetermined time period (T1 to T2) after the operation of the apparatus is started.

And, Figure 4 is a graph showing the change in the temperature of the room and the heat exchanger temperature with time during the operation of the abnormal refrigeration cycle in which the refrigerant leaked. As can be seen in the figure, it can be seen that when the refrigerant leaks, the room temperature is very slowly lowered, as indicated by the solid line on the graph. The graph of room temperature change in an abnormal state on the drawing is somewhat excessively displayed in order to contrast with the graph of room temperature change in a normal state of FIG. 3. On the other hand, the broken line on the graph shows the temperature change of the second heat exchanger 7 when the refrigerant leaked about 80%, and the double-dot chain line shows the temperature change of the second heat exchanger 7 when the refrigerant leaked about 60%. Indicates.

3 and 4, the temperature of the second heat exchanger 7 in a state where no leakage of the refrigerant occurs and a state where the leakage of the refrigerant occurs at a predetermined time, that is, T2 may be sensed. Then, the temperature of the second heat exchanger 7 in the normal case will be Tn, Ta in the case of 60% refrigerant leakage, and Tb in the case of 80% refrigerant leakage. Here, the temperature of the second heat exchanger 7 when the refrigerant leaked 60% and 80% was shown. However, the experimental second heat exchanger 7 was applied to the case where the refrigerant leaked from 1% to 100%. The temperature can be obtained.

Thus, the experimental second heat exchanger 7 temperature is stored in the memory of the controller 21 as standard data. Then, after a predetermined time T2 has elapsed since the start of operation, the controller 21 senses the temperature of the second heat exchanger 7, and at this time, the temperature of the second heat exchanger 7 is for example. , Tn, it is determined that almost no refrigerant leaks in the refrigeration cycle. However, when the temperature of the second heat exchanger 7 is detected as a Ta value, the controller 21 determines that about 60% of the refrigerant of the refrigerating cycle is leaked. When the temperature of the second heat exchanger 7 is detected as a Tb value, it is determined that about 80% of the refrigerant is leaked.

5 is a flowchart illustrating a refrigerant leakage display method of a refrigerating cycle according to the present invention. First, as described above, the control unit 21 stores predetermined standard data about the second heat exchanger temperature for a predetermined time with respect to the amount of refrigerant (S1). In this case, when the user sets the indoor temperature (S2) and selects the operation mode, for example, the cooling mode (S3), the cooling operation for maintaining the indoor temperature at the set temperature is started (S4). At this time, the control unit 21 checks the temperature of the second heat exchanger 7 on the standard data after a predetermined time elapses with respect to the set room temperature. On the other hand, as time passes, the temperature of the second heat exchanger 7 gradually decreases.

When a predetermined time elapses (S5), that is, when the time of T2 elapses, the controller 21 senses the temperature of the second heat exchanger 7 based on the detection signal of the temperature sensor 29 ( S6). Then, the detected current temperature of the second heat exchanger 7 is compared with the temperature of the second heat exchanger on the standard data (S7). At this time, when the present temperature is less than or equal to the temperature on the standard data, that is, less than or equal to Tn, the control unit 21 determines that there is almost no leakage of the refrigerant in the refrigerating cycle, and continues the set cooling operation (S4). .

By the way, if the present temperature is higher than the temperature on the standard data, the number of times is counted (S8). That is, it is counted how many times the steps S4 to S7 have been repeated (S8). Then, when the count number is less than or equal to the predetermined number of times (S9), the amount of leakage of the refrigerant with respect to the detected current temperature of the second heat exchanger 7 is detected (S11). That is, the control part 21 can detect the flow amount of the refrigerant | coolant with respect to the temperature of the 2nd heat exchanger 7, based on the standard data stored in the memory. At this time, when the temperature of the second heat exchanger 7 is equal to or less than Ta, for example, the controller 21 determines that a slight amount of refrigerant leakage has occurred and complements the operation state of the device (S12). This operation state can be supplemented by stopping the operation of the compressor 3 and driving only the blower fan 5. Then, after a predetermined time elapses (S5), the temperature of the second heat exchanger 7 is sensed again. At this time, the detected current temperature of the second heat exchanger 7 is again compared with the temperature on the standard data (S7), and the above-described process is repeatedly performed according to the result.

On the other hand, even if the supplementary operation is repeatedly performed in this manner, the current temperature of the second heat exchanger 7 may still not reach the temperature on the standard data. In this case, that is, when the number of counts is more than a predetermined time (S9), the control unit displays an operation error on the outside (S10), and stops the operation of the refrigeration cycle. Then, the user can replenish the refrigerant in the refrigeration cycle through this error display.

On the other hand, in the above-described and illustrated embodiments, the control unit 21 can detect the leakage amount of the refrigerant, and at this time, it may include a configuration that can display the leakage amount to the outside. That is, it is possible to display the refrigerant leakage amount on the standard data stored in the memory for the current temperature of the second heat exchanger (7). The refrigerant leakage amount can be displayed by simply providing a display unit on the operation unit 23. Then, the user can more easily check the state of the refrigerant, so that it can be replenished when leakage of the refrigerant occurs.

As described above, according to the present invention, the state of the refrigerant can be displayed, and when the refrigerant leaks, the refrigerant leakage display method of the refrigerating cycle in which the user can easily replenish the refrigerant by notifying the state to the outside. This is provided.

Claims (3)

In the refrigerant leakage display method of the refrigeration cycle, Providing predetermined standard data relating to a change in the heat exchanger temperature for a predetermined time with respect to the change in the amount of refrigerant; Setting room temperature and starting operation; Detecting a current temperature of the heat exchanger after the predetermined time elapses; Comparing the detected current temperature of the heat exchanger with the temperature of the heat exchanger on the stored standard data; And Counting when the difference between the current temperature of the heat exchanger and the temperature on the standard data is greater than or equal to a predetermined value, and displaying an error when the count is greater than or equal to the predetermined number of times. . The method of claim 1, In the counting step, And replenishing an operating state based on the amount of coolant on the standard data corresponding to the temperature difference value when the count number is within a predetermined value. The method according to claim 1 or 2, In the counting step, And displaying the amount of refrigerant on the standard data corresponding to the temperature difference value to the outside, when the count number is within a predetermined time.