KR102150441B1 - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and according to an aspect of the present invention, a compressor for compressing a refrigerant; and an outdoor heat exchanger for heat exchange between the refrigerant and outdoor air; and an indoor for heat exchange between the refrigerant and indoor air. A heat exchanger; and a refrigerant leak detector for detecting a refrigerant leaking into the indoor space; And a control unit configured to block the flow of refrigerant based on the detected amount of refrigerant leakage, wherein the control unit is provided to select a reference refrigerant leakage amount for determining that the refrigerant leakage is based on characteristics of the indoor space.

Description

Air conditioner {Air conditioner}

The present invention relates to an air conditioner, and to an air conditioner capable of determining a refrigerant leakage based on characteristics of an air conditioner space.

In general, an air conditioner is a device that cools or heats an indoor space such as a residential space, a restaurant, or an office.

In addition, the air conditioner includes a compressor, an indoor heat exchanger, an expansion valve, and an outdoor heat exchanger, and cools or heats the indoor space according to the circulation direction of the refrigerant.

The air conditioner may include an outdoor unit installed in an outdoor space and an indoor unit installed in an indoor space, and the outdoor unit includes a compressor for compressing a refrigerant, an outdoor heat exchanger and a blower fan for heat exchange between outdoor air and refrigerant, and the compressor. And various pipes connecting the indoor unit to the indoor unit, and the indoor unit may include an indoor heat exchanger and an expansion valve for heat exchange between indoor air and refrigerant.

On the other hand, when the refrigerant circulating in the air conditioner leaks into the indoor space, not only the heating performance or the cooling performance of the air conditioner is deteriorated, but the compressor may be damaged during the operation process. In addition, when a refrigerant harmful to the human body leaks into an indoor space, it may cause various diseases to the user.

In the case of a conventional air conditioner, an algorithm for stopping the circulation of the refrigerant by detecting the leakage of the refrigerant and stopping the operation of the air conditioner for a specific amount of refrigerant leakage is applied.

Meanwhile, the ASHRAE (American Society for Air Conditioning, Refrigeration, and Refrigeration) standards stipulate the maximum allowable refrigerant leakage for each living space. However, in the case of a conventional air conditioner, there is a problem that the maximum amount of refrigerant leakage cannot be set to match the characteristics of the air conditioning space.

An object of the present invention is to provide an air conditioner capable of determining a refrigerant leakage based on characteristics in an air conditioning space.

In addition, an object of the present invention is to provide an air conditioning apparatus capable of setting a reference refrigerant leakage amount to match the characteristics of an air conditioning space.

In addition, an object of the present invention is to provide an air conditioning apparatus capable of changing a reference refrigerant leakage amount based on the characteristics of an air conditioning space.

In addition, an object of the present invention is to provide an air conditioning apparatus capable of setting and changing a reference refrigerant leakage amount of each indoor unit so as to meet the characteristics of a corresponding air conditioning space.

In order to solve the above problems, according to an aspect of the present invention, a compressor for compressing a refrigerant; and an outdoor heat exchanger for heat exchange between the refrigerant and outdoor air; and an indoor heat exchanger for heat exchange between the refrigerant and indoor air. And a refrigerant leak detection unit for detecting a refrigerant leaking into the indoor space; And a control unit configured to block the flow of the refrigerant based on the detected amount of refrigerant leakage.

Here, the control unit is provided to be able to select a reference amount of refrigerant leakage for determining that the refrigerant leakage is based on the characteristics of the indoor space.

In addition, the control unit may be provided with a switch to which at least two or more reference refrigerant leakage amounts are respectively allocated.

Also, the switch may be a DIP switch.

In addition, when the detected refrigerant leakage amount is greater than or equal to the reference refrigerant leakage amount, the controller may block the refrigerant flow.

In addition, the controller may generate an alarm sound when the detected refrigerant leakage amount is greater than or equal to the reference refrigerant leakage amount.

In addition, the reference refrigerant leakage amount may be a maximum refrigerant leakage amount determined in advance according to the characteristics of the air conditioning space.

Further, according to another aspect of the present invention, an outdoor unit; a plurality of indoor units connected to the outdoor unit and each provided in different air conditioning spaces; and a plurality of refrigerant leakage detection units for detecting refrigerant leaking into the air conditioning space; And a control unit configured to block the flow of the refrigerant in the indoor unit based on the detected amount of the leaked refrigerant.

Here, in the control unit, a reference refrigerant leakage amount for determining a refrigerant leakage is set differently for at least two or more indoor units.

As described above, the air conditioner related to an embodiment of the present invention has the following effects.

Since the reference refrigerant leakage amount can be set and changed to conform to the characteristics of the air conditioning space, it is possible to determine the refrigerant leakage based on the characteristics of the air conditioning space.

In addition, when an indoor unit is provided in each of the plurality of air conditioning spaces, the reference refrigerant leakage amount of each indoor unit may be set and changed to match the characteristics of the air conditioning space.

1 is a conceptual diagram of an air conditioner related to an embodiment of the present invention.
2 is a block diagram of an air conditioner related to an embodiment of the present invention.
3 is a conceptual diagram of a switch constituting an air conditioner related to an embodiment of the present invention.
4 is a conceptual diagram of an air conditioner related to another embodiment of the present invention.

Hereinafter, an air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The accompanying drawings show exemplary forms of the present invention, which are provided only to describe the present invention in detail, and the technical scope of the present invention is not limited thereby.

In addition, regardless of the reference numerals, the same or corresponding components are given the same reference numbers, and duplicate descriptions thereof will be omitted, and the size and shape of each component member shown for convenience of explanation may be exaggerated or reduced. have.

1 is a conceptual diagram of an air conditioner related to an embodiment of the present invention, and FIG. 2 is a block diagram of an air conditioner related to an embodiment of the present invention.

An air conditioner 10 related to an embodiment of the present invention includes a compressor 13, an indoor heat exchanger 11, an expansion valve 15, and an outdoor heat exchanger 12.

The compressor 13 performs a function of converting a low temperature low pressure refrigerant into a high temperature high pressure refrigerant state, and a plurality of compressors 13 may be provided. Further, when a plurality of compressors 13 are provided, the plurality of compressors may be provided in parallel or in series along the flow direction of the refrigerant.

In addition, the indoor heat exchanger 11 performs heat exchange between indoor air and the refrigerant passing through the indoor heat exchanger 11, and the outdoor heat exchanger 12 passes through the outdoor air and the outdoor heat exchanger 12. Heat exchange of the refrigerant is performed.

In addition, the indoor heat exchanger 11 and the outdoor heat exchanger 12 may respectively perform functions of an evaporator and a condenser in a cooling mode, and may respectively perform functions of a condenser and an evaporator in a heating mode. The indoor heat exchanger 11 and the outdoor heat exchanger 12 may be fin-tube heat exchangers.

In addition, an indoor fan 16 may be provided on the side of the indoor heat exchanger 11, and an outdoor fan 17 may be provided on the side of the outdoor heat exchanger 12.

In addition, the air conditioner 10 may include a flow path switching valve 14 for switching the circulation direction of the refrigerant so that the cooling cycle and the heating cycle are switched, and the flow path switching valve 14 includes a four-way switching valve. -way) can be a valve.

The air conditioner 10 separates an oil separator (not shown) for returning the oil discharged together with the refrigerant from the compressor 13 back to the compressor 13 and the refrigerant that has not evaporated from the evaporator, so that the liquid refrigerant is compressed into the compressor. (13) It may further include a liquid separator (Accumulator, not shown) for preventing the introduction.

In addition, the air conditioner 10 may be provided with one or more sensors for detecting the condition information of the air conditioning space and the condition information of the air conditioner 10, such as a temperature sensor and/or a humidity sensor, and control the flow of refrigerant. Various valves for controlling may be additionally provided.

In addition, the air conditioner 10 includes a refrigerant leak detection unit 18 for detecting a refrigerant leaking into the indoor space. The refrigerant leak detection unit 18 detects whether the refrigerant leaks into the indoor space.

In addition, the refrigerant leakage detection unit 18 may be provided at one side or inside the indoor heat exchanger 11. The refrigerant leak detection unit 18 may be provided inside or outside the main body of the air conditioner 10. The refrigerant leakage detection unit 18 may be provided at one side of a refrigerant pipe through which the refrigerant flows, in particular, at a connection part or a welding part of a pipe where leakage of refrigerant is likely to occur.

Specifically, the refrigerant leak detection unit 18 may be provided at a pipe connection portion or a welding portion inside the indoor heat exchanger 11. However, the location of the refrigerant leakage detection unit 240 is not limited. The refrigerant leak detection unit 18 may be spaced apart from the air conditioner 10 and may be provided at any one point in an indoor space (air conditioning space).

The refrigerant leakage detection unit 18 may detect the amount of refrigerant leakage according to the following principle.

For example, the refrigerant leakage detection unit 18 may include two electrodes and an impedance measurement unit that measures impedance between the two electrodes. Here, since the dielectric constant of the air and the dielectric constant of the refrigerant are different from each other, when the refrigerant flows between the two electrodes, the impedance value measured by the impedance measuring unit is changed. Accordingly, by measuring the impedance value, the refrigerant leakage detection unit 18 may detect the amount of refrigerant leakage.

In contrast, the refrigerant leak detection unit 18 includes a first temperature sensor that measures the temperature of indoor air flowing into the indoor heat exchanger 11 and a second temperature that measures the temperature of the indoor heat exchanger 11. It may include a sensor and an operation unit that calculates a difference between a temperature value measured by the first temperature sensor and the second temperature sensor. When the difference between the temperature values calculated by the calculation unit does not reach a preset value, it may be determined that sufficient refrigerant is not supplied to the indoor heat exchanger 11.

In addition, the air conditioner 10 may include a leakage shutoff valve 19 for blocking the flow of the refrigerant supplied to the indoor heat exchanger 11.

In addition, when the air conditioner 10 is normally operated, the leakage shutoff valve 19 may be in a completely open state. In contrast, when the refrigerant flows into the indoor space, the leakage shutoff valve 19 may be blocked to prevent additional refrigerant leakage.

In addition, the leakage shutoff valve 19 may be an electronic expansion valve (EEV) capable of adjusting an opening amount, or a solenoid valve capable of selectively opening or shutting off.

In addition, the air conditioner 10 may include a control unit 20 for blocking the flow of refrigerant based on the detected amount of refrigerant leakage. That is, the control unit 20 blocks the flow of the refrigerant flowing into the indoor heat exchanger 11 when the amount of refrigerant leakage detected through the leakage detection unit 18 is greater than or equal to a predetermined reference refrigerant leakage amount.

For example, the control unit 20 may control the above-described leakage shutoff valve 19 to block the flow of refrigerant flowing into the indoor heat exchanger 11.

That is, when a refrigerant leak occurs, the control unit 20 may notify the user of a specific amount of refrigerant leakage through an alarm sound.

In one embodiment, when the predetermined reference refrigerant leakage amount is 150g/m3, the controller 20 notifies the user of refrigerant leakage information through an alarm sound, etc., when the detected refrigerant leakage amount is 150g/m3, and the leakage shutoff valve ( By controlling 19), the flow of refrigerant flowing into the indoor heat exchanger 11 can be blocked. That is, the amount of refrigerant leakage based on the self-explanation may be a reference value for determining the refrigerant leakage.

Meanwhile, the ASHRAE (American Society for Air Conditioning, Refrigeration, and Refrigeration) standards stipulate the maximum allowable refrigerant leakage for each living space. For example, judging by the ASHRAE Standard 34, the maximum refrigeration concentration limit (RCL) is set differently for each air-conditioning space (residential space). That is, the reference refrigerant leakage amount needs to be differently specified to match the characteristics of the air conditioning space.

To this end, the control unit 20 may be provided with a switch 22 to which at least two or more reference refrigerant leakage amounts are respectively allocated.

That is, the user may operate the switch 22 to set any one of at least two or more reference refrigerant leakage amounts as the reference refrigerant leakage amount, or change a preset reference refrigerant leakage amount to a reference refrigerant leakage amount having a different value.

3 is a conceptual diagram of a switch 22 constituting an air conditioner related to an embodiment of the present invention.

Referring to FIG. 3, the switch 22 may be a DIP switch. Different reference refrigerant leakage amounts may be specified according to each switch number.

For example, a standard refrigerant leakage amount of 150 g/㎥ may be designated for switch 1, a standard refrigerant leakage amount of 210 g/㎥ may be designated for switch 2, and a standard refrigerant leakage amount of 300 g/㎥ for switch 3 It may be designated, and the standard refrigerant leakage amount of 420g/㎥ may be designated to the No. 4 switch, and the reference refrigerant leakage amount of 500g/㎥ may be designated to the No. 5 switch.

The user can set and change the standard refrigerant leakage amount corresponding to the characteristics of the air conditioning space by turning on/off each switch.

For example, the standard refrigerant leakage amount in hotel rooms or offices may be required as 420g/㎥, the standard refrigerant leakage amount in general hospital rooms may be required as 210g/㎥, and the standard refrigerant leakage amount in intensive care units is required as 150g/㎥ Can be.

Accordingly, the user can set and change the reference refrigerant leakage amount by controlling the dip switch 22 based on the characteristics of the air conditioning space in which the air conditioner 10 is installed.

Meanwhile, the dip switch 22 may be provided on the main circuit board of the control unit 20 of the air conditioner 10.

Until now, the DIP switch has been described as an example, but the present invention is not limited thereto, and various switches capable of storing a plurality of reference refrigerant leakage amounts may be variously applied.

Meanwhile, the reference refrigerant leakage amount may be a maximum refrigerant leakage amount determined in advance according to the characteristics of the air conditioning space, and in particular, the reference refrigerant leakage amount may be the maximum refrigerant leakage amount (RCL) specified in ASHRAE Standard 34.

As described above, when the detected refrigerant leakage amount is greater than or equal to the reference refrigerant leakage amount, the control unit 20 may block the flow of refrigerant, and may control the leakage shutoff valve 19 as an embodiment.

In addition, the control unit 20 may generate an alarm sound when the detected refrigerant leakage amount is greater than or equal to the reference refrigerant leakage amount. To this end, the air conditioner 10 may include an alarm unit 21 for notifying the user of refrigerant leakage information, and the alarm unit 21 may notify the user of the refrigerant leakage situation through light or sound. have. In one embodiment, the alarm unit 21 may generate an alarm sound.

The air conditioner 10 may further include a remote controller 30 (for example, a remote control) capable of communicating with the control unit 20. To this end, the air conditioner 10 is provided with a communication unit 23 for communication with an external device (eg, a remote controller).

The remote controller 30 may include a communication unit 33 capable of communicating with the control unit 20 and a display unit 34 for displaying status information of the air conditioner 10 and/or status information of an air conditioning space. I can.

In addition, the remote controller 30 may be provided with an input unit 31 for selecting a reference amount of refrigerant leakage. The user can remotely set and change the reference refrigerant leakage amount of the air conditioner 10 through the input unit 31.

In addition, the remote controller 30 may be provided with an alarm unit 32 for notifying an alarm based on a reference amount of refrigerant leakage.

4 is a conceptual diagram of an air conditioner 100 related to another embodiment of the present invention.

Referring to FIG. 4, the air conditioner 100 is connected to the outdoor unit 110 and the outdoor unit 110, and controls a plurality of indoor units 120 and 130 respectively provided in different air conditioning spaces R1 and R2. A plurality of refrigerant leakage detection units 122 and 132 for detecting refrigerant leaking into the spaces R1 and R2, and a control unit 20 for blocking the flow of refrigerant in the corresponding indoor unit based on the detected amount of leakage refrigerant (refer to FIG. 2) Includes.

As described above, the controller 20 may stop the indoor units 120 and 130 and/or the outdoor unit 110 when a refrigerant leak is detected through the refrigerant leak detection unit.

For convenience of description, the indoor unit provided in the first air conditioning space R1 is referred to as a first indoor unit 120, and the indoor unit provided in the second air conditioning space R2 is referred to as a second indoor unit 130.

In addition, the refrigerant leakage detection unit 122 provided on the side of the first indoor unit 120 is referred to as the first refrigerant leakage detection unit 122, and a refrigerant leakage detection unit 132 provided on the second indoor unit 130 is provided. 2 It is referred to as the refrigerant leakage detection unit 132

Each of the indoor units 120 and 130 may be connected to the outdoor unit 110 by a gas phase refrigerant pipe 141 and a liquid refrigerant pipe 142, respectively.

In addition, the air conditioner 100 may include a plurality of leakage shut-off valves 121 and 131 for blocking refrigerant flowing to each indoor unit 120 and 130, and flowing into the first indoor unit 120 A first leakage blocking valve 121 for blocking the flow of the refrigerant and a second leakage blocking valve 131 for blocking the flow of the refrigerant flowing into the second indoor unit 130 may be included.

The first leakage blocking valve 121 and the second leakage blocking valve 131 may be provided in gas phase refrigerant pipes 141 connected to the corresponding indoor units 120 and 130, respectively.

Here, in the control unit 20, a reference refrigerant leakage amount for determining that the refrigerant leakage is different from each other is set for at least two or more indoor units 120 and 130.

That is, the reference refrigerant leakage amount of each indoor unit may be set differently based on the characteristics of the air conditioning space in which the indoor units 120 and 130 are installed.

The control unit 20 is provided so as to be able to select the amount of reference leakage refrigerant for each of the indoor units 120 and 130 based on the characteristics of the air conditioning spaces R1 and R2 in which the indoor units 120 and 130 are disposed.

Specifically, the user may set and change the reference refrigerant leakage amount of each indoor unit through the above-described dip switch 22, respectively.

In addition, when the amount of refrigerant leakage of a specific indoor unit is detected as greater than or equal to the reference amount of refrigerant leakage, the control unit 20 may block the flow of refrigerant in the corresponding indoor unit, and may generate an alarm sound to notify the user of the refrigerant leakage state.

Preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art who have ordinary knowledge of the present invention will be able to make various modifications, changes, and additions within the spirit and scope of the present invention. And additions will be seen as falling within the scope of the following claims.

10: air conditioner 11: indoor heat exchanger
12: outdoor heat exchanger 13: compressor
14: four-way valve 15: expansion valve
18: leakage detection unit 19: leakage shutoff valve
20: control unit 30: remote controller

Claims (12)

A compressor for compressing a refrigerant;
An outdoor heat exchanger for heat exchange between the refrigerant and outdoor air;
An indoor heat exchanger for heat exchange between the refrigerant and indoor air;
A refrigerant leak detector configured to detect leakage of the refrigerant circulating the compressor, the outdoor heat exchanger, or the indoor heat exchanger;
A control unit for comparing the amount of refrigerant leakage detected by the refrigerant leakage detection unit with a reference amount of refrigerant leakage;
When the control unit detects that the amount of leakage detected by the refrigerant leakage detection unit is greater than the reference amount of refrigerant leakage, a leakage isolating valve blocks the refrigerant from flowing through the compressor, the outdoor heat exchanger, and the indoor heat exchanger;
Air conditioning apparatus comprising a switch provided to change the reference refrigerant leakage amount set in the control unit. delete The method of claim 1,
The switch is an air conditioner, characterized in that the DIP switch. delete The method of claim 1,
And the control unit generates an alarm sound when the amount of refrigerant leakage detected by the refrigerant leakage detection unit is equal to or greater than the reference amount of refrigerant leakage. The method of claim 1,
Further comprising a remote controller capable of communicating with the control unit,
The air conditioner according to claim 1, wherein the remote controller is provided with an input unit capable of changing the reference refrigerant leakage amount. The method of claim 6,
And an alarm unit for notifying an alarm when the amount of leakage detected by the refrigerant leakage detection unit is greater than the reference amount of refrigerant leakage is provided in the remote controller. The method of claim 1,
The reference refrigerant leakage amount is a maximum refrigerant leakage amount determined in advance according to the characteristics of the air conditioning space. Outdoor unit;
A plurality of indoor units connected to the outdoor unit and provided in different air conditioning spaces;
A plurality of refrigerant leakage detectors for detecting refrigerant leaking into the different air conditioning spaces;
A control unit for comparing the amount of refrigerant leakage detected by the refrigerant leakage detection unit and the amount of reference refrigerant leakage; And
When the control unit detects that the amount of leakage detected by the refrigerant leakage detection unit is greater than the reference amount of refrigerant leakage, the refrigerant includes a leakage shutoff valve that blocks the flow of the outdoor unit and the indoor unit,
The air conditioning apparatus, wherein the control unit has a reference refrigerant leakage amount for determining that the refrigerant leakage is different from each other for at least two or more indoor units. delete The method of claim 9,
And the control unit includes a switch provided to change a reference refrigerant leakage amount for each indoor unit set in the control unit. The method of claim 1,
And the refrigerant leakage detection unit detects that the refrigerant leaks to the outside from the indoor heat exchanger.

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