KR100812783B1 - Air-conditioner having two compressor - Google Patents

Abstract

An air conditioner having two compressors is provided to achieve effective operation even when an evaporator in a small capacity indoor unit operates alone and reduce power consumption largely. An air conditioner having two compressors includes a pair of compressors(110,111), a condenser(130) having a refrigerant path divided into first and second paths(200,210), a pair of evaporators(150,151) connected to the compressors and the condenser via pipes for carrying out heat exchange with room air, a pair of expansion elements(140,141) connected between the evaporators and the condenser for decompressing liquid refrigerant of high pressure and high temperature to that of low pressure and low temperature, and an accumulator(160) filtering liquid refrigerant from the refrigerant introduced from the evaporators and supplying oil to the compressors. A bypass element(170) supplies the refrigerant to the first and second paths of the condenser when all the evaporators are driven, and to one of the first or second paths if any one of the evaporators is driven.

Description

Air conditioner with two compressors {AIR-CONDITIONER HAVING TWO COMPRESSOR}

1 is a block diagram showing an air conditioner having two conventional compressors,

2 is a block diagram showing an air conditioner having two compressors according to the present invention;

3 is a block diagram showing a configuration for controlling two compressors in an air conditioner having two compressors according to the present invention.

(Explanation of symbols for the main parts of the drawing)

100: air conditioner 110: first compressor

111: second compressor 120: first check valve

121: second check valve 130: condenser

131: blower fan 140 of the condenser

141: second expansion mechanism 150: first evaporator

151: second evaporator 152: blowing fan of the first evaporator

153: blower fan 160 of the second evaporator: accumulator

170: bypass device 200: first euro

210: second euro 220: first connection pipe

230: second connection pipe 240: third connection pipe

250: fourth connection piping 260: on-off valve

300: control unit 310: button

The present invention relates to an air conditioner, and more particularly, to an air conditioner having two compressors.

Generally, an air conditioner is composed of a compressor, a condenser, an expansion valve, an evaporator, and the like.

Specifically, the compressor is a device for converting the refrigerant into a gas of high temperature and high pressure, the condenser is a device for liquefying the gas of high temperature and high pressure, the expansion valve expands the refrigerant in a spray state at low temperature and low pressure to facilitate heat exchange, The evaporator is a device that controls the degree of expansion of the refrigerant, the evaporator is a device for generating cold air by heat-exchanging the cold refrigerant on the pipes and the internal air introduced by the fan with each other.

1 is a configuration diagram showing an air conditioner having two conventional compressors.

As shown in FIG. 1, in the case of the air conditioner 1 having two compressors 11 and 12 according to the related art, two compressors 11 and 12 having different capacities may be used in accordance with indoor and outdoor load variations. Either one can be driven or run simultaneously.

When two compressors 11 and 12 are operated at the same time, the gaseous refrigerant compressed by each compressor 11 and 12 is transferred to the outdoor unit through check valves 20 and 21 mounted at the outlets of the compressors 11 and 12. It enters the condenser 15 and is converted into a liquid refrigerant while exchanging heat with external air.

The liquid refrigerant passes through the expansion mechanisms 16 and 17 and flows into the evaporators 13 and 14 of the indoor unit through the connection pipes, respectively. The refrigerant introduced into the evaporators 13 and 14 of the indoor unit is heat-exchanged with the indoor air and phase-converted back to gaseous refrigerant, and then flows into the accumulator 19 along the connection pipe.

Thereafter, the refrigerant passing through the accumulator 19 is introduced into the compressors 11 and 12 again.

As such, when two compressors 11 and 12 are operated at the same time, gaseous refrigerant generated by heat exchange with indoor air in the evaporators 13 and 14 of the indoor unit may have two different capacities in the accumulator 19. The refrigerant flow rate is distributed to the suction pipe according to the capacity of the two compressors 11 and 12 and flows into the compressors 11 and 12.

However, such a prior art is that when the evaporator 14 of the small-capacity indoor unit operates alone, the capacity of the condenser 15 is relatively large compared to the capacity of the evaporator 14 of the small-capacity indoor unit, so that the air conditioner is effective. There was a problem about reliability because it could not be operated, there was a problem such as unnecessary power consumption due to inefficient operation of such an air conditioner.

In order to solve the above problems, the present invention provides an air conditioner having two compressors that can be operated efficiently even if the evaporator of the small-capacity indoor unit is operated alone, thereby significantly reducing power consumption. For the purpose of

In order to achieve the above object, an air conditioner having two compressors according to the present invention comprises a pair of compressors for compressing a refrigerant in a low-temperature and low-pressure gas state sucked from an inlet and discharging it through a discharge port in a high-temperature, high-pressure gas state. ; A condenser connected to the compressors through a pipe to exchange heat with external air, wherein the internal flow path through which the refrigerant flows is divided into first and second flow paths; A pair of evaporators connected to the compressors and the condenser and a pipe to exchange heat with indoor air; A pair of expansion mechanisms connected between the evaporators and the condenser to reduce a room temperature high pressure liquid refrigerant transferred from one side to a low temperature low pressure liquid state; And an accumulator for filtering oil remaining in the liquid state from the refrigerant flowing from the evaporators and supplying oil to the compressor, wherein the first flow path of the condenser in the compressors when all the evaporators are operated. And a bypass device to supply the refrigerant to the second flow path and to supply the refrigerant to only one of the first flow path and the second flow path of the condenser when only one of the evaporators is operated.

The bypass device includes a first connection pipe connecting the compressors and the first flow path of the condenser, a second connection pipe connecting the first connection pipe and the second flow path of the condenser, and the second flow path. And a third connection pipe connecting the expansion mechanisms, and a fourth connection pipe connecting the first flow path and the third connection pipe, to supply or block the refrigerant provided from the compressor to the second flow path. It further includes an on-off valve for opening and closing the second connection pipe.

And a control unit electrically connected to the compressors, a blower fan of the evaporators, expansion mechanisms, and an opening / closing valve, wherein the control unit receives the signals to operate all the evaporators by a button. The blower fan and the expansion mechanisms of the evaporators are all turned on, and the opening / closing valve is controlled to communicate with the second connection pipe, and when a signal is inputted to activate only one of the evaporators by the button, Any one of the compressors corresponding to the capacity of the operated evaporator, one of the blower fans of the evaporators corresponding to the operated evaporator, the blower fan of the condenser, and any one of the expansion mechanisms connected to the operated evaporator Turn on, and the on-off valve includes controlling to the off state to close the second connection pipe.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing an air conditioner having two compressors according to the present invention, Figure 3 is a block diagram showing a configuration for controlling two compressors in an air conditioner having two compressors according to the present invention. .

2 and 3, the air conditioner 100 according to the present invention includes a pair of compressors 110 and 111, a condenser 130, a pair of evaporators 150 and 151, and a pair of expansion mechanisms 140 and 141. ), The accumulator 160, and the bypass device 170.

First, a pair of compressors (110, 111) is to compress the refrigerant in the low-temperature, low-pressure gas state sucked from the suction port to discharge through the discharge port in a gas state of high temperature, high pressure.

In an embodiment, the compressors 110 and 111 are composed of a first compressor 110 and a second compressor 111, and the first compressor 110 has a larger capacity than the second compressor 111.

The first and second check valves 120 and 121 are preferably installed at the discharge sides of the first compressor 110 and the second compressor 111 to prevent the backflow of the refrigerant, respectively.

The condenser 130 is connected to the compressor (110, 111) by a pipe and heat exchange with the outside air.

In an embodiment, the condenser 130 may be bisected into the first and second flow paths 200 and 210 through which the refrigerant flows.

In FIG. 2, a first flow path 200 is formed at an upper portion thereof, and a second flow path 210 is formed at a lower portion thereof. However, if necessary, the positions of the first flow path 200 and the second flow path 210 may be changed.

The pair of evaporators 150 and 151 are connected to the compressors 110 and 111 and the condenser 130 by piping to exchange heat with indoor air.

In an embodiment, the evaporators 150 and 151 consist of a first evaporator 150 and a second evaporator 151 and are located inside the indoor unit although not separately shown in the figure.

The first evaporator 150 has a larger capacity than the second evaporator 151.

In addition, blowing fans 152 and 153 are provided on the side surfaces of the first evaporator 150 and the second evaporator 151, respectively.

The pair of expansion mechanisms 140 and 141 are connected between the evaporators 150 and 151 and the condenser 130 to depressurize the liquid refrigerant at room temperature and high pressure, which is transferred from one side, to the liquid state at low temperature and low pressure.

In the embodiment, the expansion mechanism (140,141) is composed of a first expansion mechanism 140 and the second expansion mechanism 141, the first expansion mechanism 140 is to provide a refrigerant to the first evaporator (150) The second expansion mechanism 141 provides the refrigerant to the second evaporator 151.

The accumulator 160 filters the refrigerant remaining in the liquid state from the refrigerant flowing from the evaporators 150 and 151 and simultaneously supplies oil to the compressors 110 and 111.

In an embodiment, the accumulator 160 is connected to the first compressor 110 and the second compressor 111 by piping, respectively.

On the other hand, when the bypass device 170 operates all the evaporators 150 and 151, the refrigerant is supplied from the compressors 110 and 111 to the first flow path 200 and the second flow path 210 of the condenser 130, When only one of the evaporators 150 and 151 is operated, the refrigerant is supplied to only one of the first flow path 200 and the second flow path 210 of the condenser 130.

In an embodiment, the bypass device 170 includes a first connection pipe 220 connecting the compressors 110 and 111 and the first flow path 200 of the condenser 130, a first connection pipe 220 and a condenser ( A second connection pipe 230 connecting the second flow path 210 of the 130, a third connection pipe 240 connecting the second flow path 210 and the expansion mechanisms 140 and 141, and a first flow path 200. ) And a fourth connection pipe 250 for connecting the third connection pipe 240.

In addition, the bypass device 170 further includes an on / off valve 260 that opens and closes the second connection pipe 230 to supply or block the refrigerant provided from the compressors 110 and 111 to the second flow path 210.

The present invention is electrically connected to the compressor (110, 111), the blowing fan (152, 153) of the evaporator (150, 151), the blowing fan (131) of the condenser 130, the expansion mechanism (140, 141), and the opening and closing valve (260) It is preferable to further include a control unit 300.

In FIG. 4, the controller 300 receives a signal through the button 310 and controls the above components.

First, when the control unit 300 receives a signal for operating both the evaporators 150 and 151 by the button 310, the blowing fan 152 and 153 of the compressors 110 and 111, the evaporators 150 and 151, and the condenser 130 are blown. The fan 131 and the expansion mechanisms 140 and 141 are all turned on.

In addition, the controller 300 controls the on-off valve 260 to be in an on state so as to communicate the second connection pipe 230.

On the other hand, when the control unit 300 receives a signal for operating only one of the evaporators 150, 151 by the button 310, any one corresponding to the capacity of the evaporator (150, 151) of the compressor (110, 111), evaporator Any one corresponding to the evaporators 150 and 151 operated among the blower fans 152 and 153 of the 150 and 151, the blower fan 131 of the condenser 130, and the evaporators 150 and 151 operated among the expansion mechanisms 140 and 141. Turn on only one.

In addition, the control unit 300 controls the on-off valve 260 to be in the off state to close the second connection pipe 230.

Control method and operation thereof of the air conditioner 100 having two compressors according to the present invention, as shown in Figures 2 and 3, first, the control unit 300 by the button 310, the evaporator (150,151) When the signal is input to operate all of them, the compressors 110 and 111, the blowing fans 152 and 153 of the evaporators 150 and 151, the blowing fans 131 and the expansion mechanisms 140 and 141 of the condenser 130 are turned on, and the opening and closing valves are turned on. The control unit 260 is turned on to communicate the second connection pipe 230.

In this state, the gaseous refrigerant compressed by the first and second compressors 110 and 111 may be connected to the first and second connection pipes through check valves 120 and 121 mounted at the outlet ends of the first and second compressors 110 and 111. The air flows from the condenser 130 of the outdoor unit to the first and second flow paths 200 and 210 along the 220 and 230, and is converted into a liquid refrigerant while exchanging heat with external air.

The liquid refrigerant passes through the first and second flow paths 200 and 210 of the condenser 130, passes through the first and second expansion mechanisms 140 and 141 through the third and fourth connection pipes 240 and 250, and connects the connection pipes. Through the first and second evaporator (150,151) of the indoor unit, respectively.

The refrigerant introduced into the first and second evaporators 150 and 151 of the indoor unit is heat-exchanged with the indoor air and phase-converted back to gaseous refrigerant, and then flows into the accumulator 160 along the connection pipe. Thereafter, the refrigerant passing through the accumulator 160 flows back into the first and second compressors 110 and 111.

On the other hand, when the control unit 300 receives a signal to operate only the second evaporator 151 having a smaller capacity among the evaporators 150 and 151 by the button 310, the second compressor 111 and the second evaporator 151 Only the blowing fan 153, the blowing fan 131 of the condenser 130, and the second expansion mechanism 141 are turned on. In addition, the control unit 300 controls the on-off valve 260 to be in the off state to close the second connection pipe 230.

In this state, the gaseous refrigerant compressed by the second compressor 111 is condenser 130 of the outdoor unit along the first connection pipe 220 through the second check valve 121 mounted at the outlet of the second compressor 111. Into the first flow path 200 is converted into a liquid refrigerant while heat exchange with the outside air.

The liquid refrigerant passes through the first flow path 200 of the condenser 130, passes through the second expansion mechanism 141 through the third connection pipe 240, and the second evaporator 151 of the indoor unit through the connection pipe. Flows into.

The refrigerant introduced into the second evaporator 151 of the indoor unit is heat-exchanged with the indoor air and phase-converted back to the gaseous refrigerant, and then flows into the accumulator 160 along the connection pipe. Thereafter, the refrigerant passing through the accumulator 160 flows back into the second compressor 111.

As described above, the present invention is connected to the compressor and the pipe, and the heat exchange with the outside air, but the internal flow path of the refrigerant flow is divided into the first and second flow path and the condenser of the condenser when only one of the evaporator is operated By providing a bypass device that allows the refrigerant to be supplied to only one of the first and second flow paths, the evaporator of the small-capacity indoor unit can be operated efficiently even if operated alone, thereby allowing consumers to have reliability and reduce power consumption. There is an excellent effect that can be greatly reduced.

Claims (3)

A pair of compressors for compressing a refrigerant of a low temperature and low pressure gas state sucked from the inlet port and discharging the refrigerant through a discharge port in a high temperature and high pressure gas state; A condenser connected to the compressors through a pipe to exchange heat with external air, wherein the internal flow path through which the refrigerant flows is divided into first and second flow paths; A pair of evaporators connected to the compressors and the condenser and a pipe to exchange heat with indoor air; A pair of expansion mechanisms connected between the evaporators and the condenser to reduce a room temperature high pressure liquid refrigerant transferred from one side to a low temperature low pressure liquid state; And An accumulator for filtering oil remaining in a liquid state from the refrigerant flowing from the evaporators and supplying oil to the compressor; Refrigerant is supplied from the compressors to the first and second flow paths of the condenser when all the evaporators are operated, and any one of the first flow path and the second flow path of the condenser when only one of the evaporators is operated. An air conditioner having two compressors including a bypass device to supply only one refrigerant. The method of claim 1, The bypass device, A first connection pipe connecting the compressors and the first flow path of the condenser, a second connection pipe connecting the first connection pipe and the second flow path of the condenser, and connecting the second flow path and the expansion mechanism. And a fourth connection pipe connecting the first connection pipe and the third connection pipe. And an on / off valve for opening and closing the second connection pipe to supply or block the refrigerant provided by the compressor to the second flow path. The method according to claim 1 or 2, And a control unit electrically connected to the compressors, a blower fan of the evaporators, a blower fan of the condenser, expansion mechanisms, and an on / off valve. When the controller receives a signal for operating all of the evaporators by a button, the controller turns on all of the compressors, the blowing fan of the evaporators, the blowing fan of the condenser, and the expansion mechanisms, and the on / off valve opens the second connection pipe. When the control unit is in an on state to communicate and receives a signal for operating only one of the evaporators by the button, any one corresponding to the capacity of the evaporator operated among the compressors is activated. Any one corresponding to the evaporator, the blowing fan of the condenser, and any one of the expansion mechanisms connected to the operating evaporator is turned on, the on-off valve is controlled to the off state to close the second connection pipe An air conditioner having two compressors, characterized in that it comprises a.

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