KR100661144B1 - Method for sensing refrigerants leakage of multi-air conditioner - Google Patents

Abstract

A method for sensing a refrigerants leakage of a multi-air conditioner is provided to remove a primary factor of increasing a cost and simplifying a manufacturing process because extra inspection units and components are necessary. A method for sensing a refrigerants leakage of a multi-air conditioner includes the steps of: stopping a compressor for stopping an operation of the multi-air conditioner(S100); choosing an indoor heat exchanger for checking a refrigerator leakage among a plurality of indoor heat exchangers(S300); driving a compressor for starting a drive of the multi-air conditioner(S400); calculating a pressure of the refrigerant(S600); comparing a real pressure of the refrigerant with a calculated pressure of the refrigerant(S800); and alarming a leakage of the refrigerant.

Description

Method for sensing refrigerants leakage of multi-air conditioner

1 is a block diagram showing a heat exchange cycle of a multi-type air conditioner according to the prior art.

2 is a block diagram of a multi-type air conditioner for refrigerant leakage detection according to the present invention.

3 is a flowchart illustrating a refrigerant leakage detecting method of a multi-type air conditioner according to the present invention.

-Explanation of symbols for the main parts of the drawings-

100: compressor 110: accumulator

120: outdoor heat exchanger 131: first indoor heat exchanger

132: second indoor heat exchanger 133: third indoor heat exchanger

140: blower fan 150: main electric expansion valve

161: first sub-motor expansion valve 162: second sub-motor expansion valve

163: third sub-electric expansion valve 170: four-way valve

181: first indoor inlet temperature sensor 182: second indoor inlet temperature sensor

183: third indoor inflow temperature sensor 191: first indoor inflow temperature sensor

192: second indoor outflow temperature sensor 193: third indoor outflow temperature sensor

201: Outdoor inflow temperature sensor 202: Outdoor inflow temperature sensor

210: outside temperature sensor 220: pressure detection sensor

240: refrigerant leakage warning lamp 250: control unit

The present invention relates to a refrigerant leakage detection method of a multi-type air conditioner, and more particularly, by utilizing a pressure detection sensor and an outside temperature sensor of a conventional multi-type air conditioner, The present invention relates to a refrigerant leakage detection method of a multi-type air conditioner capable of confirming leakage.

An air conditioner is a device that is arranged in a room, living room, office, or business space to maintain a comfortable indoor environment by controlling air temperature, humidity, cleanliness, and airflow.

Among such air conditioners, there is a multi-type air conditioner provided with indoor units in a plurality of spaces for cooling or heating a plurality of indoor spaces.

1 is a block diagram showing a heat exchange cycle of a multi-type air conditioner according to the prior art. As shown, the multi-type air conditioner includes a compressor 100 for compressing a refrigerant at a high temperature and high pressure, an accumulator 110 for separating liquid refrigerant from the refrigerant flowing into the compressor 100, and a compressor ( The outdoor heat exchanger 120 is connected to the discharge side of the 100 so that the refrigerant can flow, and a plurality of indoor heat exchangers 131, 132, and 133 disposed in a plurality of indoor spaces.

A blower fan 140 is installed at one side of the outdoor heat exchanger 120 to promote heat dissipation of the refrigerant. During the cooling operation, a main electric expansion valve 150 is provided at a downstream side of the outdoor heat exchanger 120. have.

A branch flow path is formed on the downstream side of the main electric expansion valve 150 along the flow direction of the refrigerant so that the refrigerant flows into each of the indoor heat exchangers 131, 132, and 133, and the indoor heat exchanger of each branch flow path ( First, second and third sub-motor expansion valves 161, 162 and 163 are provided on the upstream side of the 131, 132 and 133 so as to expand the pressure under reduced pressure.

In addition, the four-way valve 170 is provided in the discharge side of the compressor 100 and the inflow side of the accumulator 110 to switch the flow of the refrigerant during the cooling and heating operation.

On the other hand, the inlet side of each of the indoor heat exchangers (131, 132, 133) and a plurality of indoor inlet temperature sensors (181, 182, 183) for detecting the temperature of the refrigerant before the inlet and each of the indoor heat exchangers (131, 132, 133) On the outlet side, the indoor outlet temperature sensors (191, 192, 193) for detecting the temperature of the refrigerant flowing out is provided with each of the indoor inlet temperature sensors (181, 182, 183) and the indoor outlet temperature sensor (191, 192, 193) Based on the detection result, the appropriate refrigerant can be introduced into the indoor heat exchanger.

In addition, the outdoor inlet temperature sensor 201 and the outdoor outlet temperature sensor disposed on the inlet and outlet side of the outdoor heat exchanger 120 to detect the temperature of the refrigerant before and after the inlet and outlet of the outdoor heat exchanger 120 ( 202 and an outdoor air temperature sensor 210 for detecting a temperature of outdoor air introduced into the outdoor heat exchanger 120 to control the main electric expansion valve 150 based on a temperature detection result.

In addition, a pressure detection sensor 220 for detecting the pressure of the refrigerant discharged and sucked in the compressor 100 is provided to the respective indoor heat exchangers 131, 132, based on the detection result of the pressure detection sensor 220, 133) is properly introduced to the refrigerant.

However, in the multi-type air conditioner according to the prior art as described above, since the refrigerant for forming the heat exchange cycle often leaks, it is not possible to obtain the desired heat exchange efficiency, so the refrigerant is periodically checked for leaks. Positive refrigerant must be supplied to ensure a smooth heat exchange cycle.

In order to check the leakage of the refrigerant as described above, a separate inspection or parts, etc. are used, resulting in a cost increase and a complicated manufacturing process.

The present invention has been made to solve the above problems, it is possible to simply check whether the refrigerant leaks by using the pressure detection sensor and the outside temperature sensor of the existing multi-type air conditioner without using a separate inspection or parts, etc. It is an object of the present invention to provide a refrigerant leakage detection method of a multi-type air conditioner.

The present invention provides a compressor stopping step for stopping the operation of the multi-type air conditioner; Selecting an indoor heat exchanger to check whether a refrigerant is leaked among the plurality of indoor heat exchangers; A compressor driving step for starting operation of the multi-type air conditioner; Calculating the pressure of the refrigerant; Comparing the calculated pressure of the refrigerant with the actual refrigerant pressure; And refrigerant leakage detection method of the multi-type air conditioner comprising a step of notifying the refrigerant leak.

Preferably, selecting an indoor heat exchanger to check whether the refrigerant leaks from the plurality of indoor heat exchangers includes closing all sub-electric expansion valves of the plurality of indoor heat exchangers, and refrigerant leakage from the plurality of indoor heat exchangers. And a step of opening the sub-electric expansion valve of the indoor heat exchanger to check whether the step of calculating the pressure of the refrigerant comprises: detecting an outdoor temperature through an outside temperature sensor; Calculating the pressure of the refrigerant based on the outdoor temperature, and detecting the pressure of the actual refrigerant through a pressure detection sensor, and comparing the calculated pressure of the refrigerant with the pressure of the actual refrigerant. The control unit is a step of determining a case where the actual refrigerant pressure is less than the reference range than the calculated pressure of the refrigerant; do.

More preferably, the reference range is the actual refrigerant pressure is 80% of the calculated refrigerant pressure, the step of notifying the refrigerant leakage is a multi-type air conditioning, characterized in that the controller operates the refrigerant leakage warning lamp Method for detecting refrigerant leakage of air.

Therefore, there is an effect that can easily check whether the refrigerant leaks without the need to use a separate inspection or parts using the existing components.

Hereinafter, exemplary embodiments of a refrigerant leakage detecting method of a multi-type air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a multi-type air conditioner for detecting a refrigerant leakage according to the present invention, the multi-type air conditioner according to the present invention, similar to the multi-type air conditioner according to the prior art shown in FIG. Compressor 100 to be compressed to the compressor, accumulator 110 for separating the liquid refrigerant from the refrigerant flowing into the compressor 100, and outdoor heat exchange connected to the refrigerant flow to the discharge side of the compressor 100 Machine 120 and a plurality of indoor heat exchangers disposed in a plurality of indoor spaces. In the embodiment, the first, second and third indoor heat exchangers 131, 132, 133 are provided.

A blower fan 140 is installed at one side of the outdoor heat exchanger 120 to promote heat dissipation of the refrigerant. During the cooling operation, a main electric expansion valve 150 is provided at a downstream side of the outdoor heat exchanger 120. have.

A branch flow path is formed at the downstream side of the main electric expansion valve 150 along the flow direction of the coolant so that the refrigerant flows into each of the indoor heat exchangers 131, 132, and 133. On the upstream side of 131, 132, and 133, first to third sub-motor expansion valves 161, 162, and 163 are provided to expand the refrigerant under reduced pressure, respectively.

In addition, the four-way valve 170 is provided in the discharge side of the compressor 100 and the inflow side of the accumulator 110 to switch the flow of the refrigerant during the cooling and heating operation.

On the other hand, the inlet side of each indoor heat exchanger (131, 132, 133) and the first, second and third indoor inlet temperature sensor (181, 182, 183) for detecting the temperature of the refrigerant before the inlet and each of the chamber heat exchanger On the outflow side of 131, 132, and 133, first, second and third indoor outflow temperature sensors 191, 192 and 193 for detecting the temperature of the outflowing refrigerant are provided to provide the respective indoor inflow temperature sensors 181, 182. 183) and the indoor outflow temperature sensors (191, 192, 193) to allow the appropriate refrigerant to flow into the indoor heat exchanger.

In addition, the outdoor inlet temperature sensor 201 and the outdoor outlet temperature sensor disposed on the inlet and outlet side of the outdoor heat exchanger 120 to detect the temperature of the refrigerant before and after the inlet and outlet of the outdoor heat exchanger 120 ( 202 and an outdoor air temperature sensor 210 for detecting a temperature of outdoor air introduced into the outdoor heat exchanger 120 to control the main electric expansion valve 150 based on a temperature detection result.

In addition, a pressure detection sensor 220 for detecting the pressure of the refrigerant discharged and sucked in the compressor 100 is provided to the respective indoor heat exchangers 131, 132, based on the detection result of the pressure detection sensor 220, 133) is properly introduced to the refrigerant.

Hereinafter, a refrigerant leakage detecting method of a multi-type air conditioner according to the present invention configured as described above with reference to the drawings in detail.

3 is a flowchart illustrating a refrigerant leakage detecting method of a multi-type air conditioner according to the present invention. As shown in FIG. 3, a compressor stop step for stopping operation of the multi-type air conditioner and whether or not refrigerants leak in a plurality of indoor heat exchangers are shown. Selecting an indoor heat exchanger, a compressor driving step for starting the operation of the multi-type air conditioner, calculating a pressure of the refrigerant, comparing the calculated refrigerant pressure with the actual refrigerant pressure, and the refrigerant It is divided into the steps of notifying leakage.

Specifically, in order to stop the operation of the multi-type air conditioner, the compressor 100 is stopped to stop the operation of the air conditioner (S100), and the first, second and third indoor heat exchangers 131, 132, and 133. Close all of the first, second and third sub-motor expansion valves 161, 162, and 163 connected to the refrigerant to prevent the refrigerant from flowing when the compressor 100 is restarted (S200), and then check the refrigerant leakage. By selecting the indoor heat exchanger to open the sub-electric expansion valve of the selected indoor heat exchanger so that the refrigerant can flow only to the selected indoor heat exchanger (S300).

Next, the compressor 100 is driven to start the operation of the air conditioner so that the refrigerant flows only into the selected indoor heat exchanger (S400).

While the refrigerant cycle is performed through the selected indoor heat exchanger as described above, the controller 250 detects the outdoor temperature through the outside air temperature sensor 220 (S500), and calculates the pressure of the refrigerant based on the detected indoor temperature. To perform (S600), briefly explaining the calculation process, since the refrigerant is a pure substance that can estimate the pressure in accordance with the absolute temperature it can be used to calculate the pressure (Pg) of the refrigerant. Of course, the estimated pressure (Pg) varies slightly depending on the system and the refrigerant, so it should be calculated based on the steady state base value.

Next, the controller 250 detects the actual pressure P of the refrigerant constituting the heat exchange cycle through the indoor heat exchanger which is actually operated by the pressure detection sensor 220 (S700), and the controller 250 of the actual refrigerant It is determined whether the pressure P is less than the reference range than the calculated pressure Pg of the refrigerant (S800). Specifically, when the pressure (P) of the actual coolant falls within a range smaller than the calculated pressure (Pg), it may be determined that the coolant is leaking. Is less than 80% of the calculated refrigerant pressure Pg, it is determined that the refrigerant is leaking.

As a result of the determination of the controller 250, if it is determined that the actual pressure P of the refrigerant falls within 80% or less of the calculated refrigerant pressure Pg, the controller 250 operates the refrigerant leakage warning lamp 240. The user is informed that the refrigerant is leaking to the selected indoor heat exchanger (S900).

Therefore, the user can check the refrigerant leakage warning lamp 240 to recognize that the refrigerant is leaking, it is possible to replenish the refrigerant.

The present invention, as described above, in the conventional multi-type air conditioner, by using the existing components there is an effect that can easily check whether the refrigerant leaks without the need to use a separate inspection or parts.

In addition, since a separate inspection or parts for detecting the leakage of the refrigerant is not necessary, the factor of cost increase can be eliminated and the manufacturing process can be simplified.

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited only to the above-described embodiments, and those skilled in the art to which the present invention pertains may vary without departing from the spirit of the technical idea of the present invention described in the claims below. It may be changed.

Claims (6)

A compressor stopping step for stopping the operation of the multi-type air conditioner; Selecting an indoor heat exchanger to check whether a refrigerant is leaked among the plurality of indoor heat exchangers; A compressor driving step for starting operation of the multi-type air conditioner; Calculating the pressure of the refrigerant; Comparing the calculated pressure of the refrigerant with the actual refrigerant pressure; And Refrigerant leakage detection method of a multi-type air conditioner comprising the step of notifying the refrigerant leak. The method of claim 1, Selecting an indoor heat exchanger to check the leakage of refrigerant from the plurality of indoor heat exchangers Closing all the sub-motor expansion valves of the plurality of indoor heat exchangers, and opening the sub-electric expansion valves of the indoor heat exchanger to check whether the refrigerant leaks in the plurality of indoor heat exchangers. Refrigerant leak detection method of air conditioner. The method of claim 1, Calculating the pressure of the refrigerant Detecting an outdoor temperature through an outside air temperature sensor, calculating a pressure of the refrigerant based on the detected outdoor temperature, and detecting a pressure of the actual refrigerant through the pressure detection sensor. Refrigerant leakage detection method of a multi-type air conditioner. The method of claim 1, Comparing the calculated pressure of the refrigerant and the pressure of the actual refrigerant is the step of determining the refrigerant leakage of the multi-type air conditioner, characterized in that the control unit determines the case where the actual refrigerant pressure is less than the reference range than the calculated refrigerant pressure Way. The method of claim 4, wherein The reference range is a refrigerant leakage detection method of the multi-type air conditioner, characterized in that the actual refrigerant pressure is 80% of the calculated refrigerant pressure. The method of claim 1, The step of notifying the refrigerant leakage refrigerant leakage detection method of the multi-type air conditioner, characterized in that the control unit operates a refrigerant leakage warning lamp.

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