KR100643687B1 - Air Conditioner Using a Plurality of Compressor - Google Patents

Abstract

The present invention relates to an air conditioner using a plurality of compressors, comprising a first compressor, a second compressor having a larger compression capacity than the first compressor, and a line extending from the first and second compressors. Are respectively connected to the condenser with a check valve in between, and the lines extending from the condenser are connected to the first and second chambers respectively, and the lines extending from the first and second chambers are connected between the liquid separators. In the air conditioner configured to be connected to the first compressor and the second compressor again, the capillary tube and the solenoid valve is connected on the line connecting the discharge portion of the second compressor and the check valve, and extends from the solenoid valve A line is connected on the line flowing into the liquid separator, so that the compressor inside the stopped compressor when one of the first compressor and the second compressor is stopped Reducing the time to reach equilibrium by reducing the time it takes to restart the will to improve the efficiency of the entire system.

Air Conditioning Unit, Compressor, Multiple, Pressure Balance, Reach Time

Description

Air Conditioning Equipment Using Multiple Compressors {Air Conditioner Using a Plurality of Compressor}

1 is a schematic configuration diagram of an air conditioner according to the prior art,

2 is a schematic configuration diagram of an air conditioner according to the present invention.

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

111: first compressor 112: second compressor

113: Room 1 114: Room 2

115: condenser 116: electronic expansion valve

117,122 Solenoid valve 118,123 Capillary tube

119: liquid separator 120,121: check valve

The present invention relates to an air conditioner, and in particular, when any one of the plurality of compressors is stopped, the pressure equalization arrival time inside the stopped compressor is reduced to shorten the time required to restart, thereby improving the efficiency of the entire system. The present invention relates to an air conditioner using a plurality of compressors.

In general, the air conditioner widely used to create a comfortable living environment is applied to a variety of techniques to improve the performance of the increasingly high-performance air conditioner has been developed.

In order to configure a high-performance air conditioner, conventionally, a plurality of compressors are used to operate the compressor at the same time or only one of them according to the indoor and outdoor load fluctuations, as shown in FIG. 1. The first compressor 11 and the second compressor 12 are connected to the condenser 15 with check valves 20 and 21 interposed therebetween, and the line extending from the condenser 15 branches to one side. The first expansion chamber 13 is connected to the first chamber 13 with the electromagnetic expansion valve 16 interposed therebetween, and the other side is connected to the second chamber 14 with the capillary tube 18 and the solenoid valve 17 therebetween. The line extending from the indoor unit 13 and the second indoor unit 14 is connected to the first compressor 11 and the second compressor 12 with the liquid separator 19 interposed therebetween.

Here, only one of the first compressor 11 and the second compressor 12 having different capacities may be driven or simultaneously operated in accordance with indoor and outdoor load fluctuations.

Accordingly, when the first compressor 11 and the second compressor 12 are operated at the same time, the gaseous refrigerant compressed by the first compressor 11 and the second compressor 12 at the outlet end thereof. Through the check valves 20 and 21 installed, the condenser 15 is exchanged with external air to be converted into a liquid refrigerant. The liquid refrigerant is interlocked with the electromagnetic expansion valve 16 and the capillary tube 18. Through the solenoid valve 17, the first chamber 13 and the second chamber 14, respectively, are introduced into heat exchange with the indoor air and converted into gaseous refrigerant again, and the first compressor (1) is again passed through the liquid separator (19). 11) and the second compressor (12).

However, when at least one of the first compressor 11 and the second compressor 12 is stopped, the pressure equalization arrival time between the discharge part and the suction part of the stopped compressor becomes long and the stopped compressor is pressure balanced. There is a problem in that the stationary compressor cannot be operated until the arrival time is reached, and it takes about 7 to 15 minutes to restart the compressor after the compressor is stopped according to the compression capacity.

Therefore, in order to restart the stopped compressor in response to the indoor and outdoor loads, it is necessary to wait until the pressure equilibrium arrival time, during which both the first indoor unit 13 and the second indoor unit 14 are operated by only one compressor operation. Since it is necessary to have a problem that the cooling capacity is insufficient.

Accordingly, the present invention has been made to solve the above problems, and when any one of the plurality of compressors is stopped, the pressure equilibrium reaching time inside the stopped compressor is reduced to shorten the time required to restart the system. An object of the present invention is to provide an air conditioner using a plurality of compressors capable of improving the efficiency.

In order to achieve the above object, the present invention includes a first compressor, a second compressor having a larger compression capacity than the first compressor, and a line extending from the first and second compressors, respectively. A line extending from the condenser is connected to the first chamber and the second chamber, respectively, and the lines extending from the first chamber and the second chamber are reconnected with the liquid separator interposed therebetween. An air conditioner configured to be connected to a first compressor and a second compressor, wherein a capillary tube and a solenoid valve are connected on a line connecting the discharge part of the second compressor and the check valve, and the line extending from the solenoid valve is It is characterized in that connected to the line flowing into the liquid separator.

Here, when the second compressor is in a stop condition, the solenoid valve is operated to immediately send the high pressure refrigerant operating in the check valve to the upper portion of the liquid separator on the low pressure side to shorten the pressure equilibrium arrival time. It is characterized by.

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

Figure 2 is a schematic configuration diagram of an air conditioner according to the present invention, the same matters as the conventional structure will be referred to the above description and a detailed description thereof will be omitted.

According to the present invention, the first compressor 111 and the second compressor 112 configured to compress the refrigerant are connected to the condenser 115 with the check valves 120 and 121 interposed therebetween, respectively, and the condenser 115. The line extending from the branch is branched so that one side is connected to the first chamber 113 with the electronic expansion valve 116 interposed therebetween, while the other side is connected to the first chamber 113 with the capillary tube 118 and the solenoid valve 117 interposed therebetween. The line extending from the first chamber 113 and the second chamber 114 is connected with the first compressor 111 and the second compressor 112 with the liquid separator 119 therebetween. A capillary tube 123 and a solenoid valve 122 are connected to a line connecting the discharge part of the second compressor 112 and the check valve 121, and the line extending from the solenoid valve 122. The connection is made on the line flowing into the liquid separator 119.

Here, the second compressor 112 is a compressor having a larger compression capacity than the first compressor 111.

Hereinafter, the operation of the present invention will be described in detail.

According to the present invention, only one of the first compressor 111 and the second compressor 112 having different capacities may be driven or simultaneously operated in accordance with indoor and outdoor load fluctuations.

First, when the first compressor 111 and the second compressor 112 are operated at the same time, the gaseous phase refrigerant compressed by the first compressor 111 and the second compressor 112 is the first compressor 111 and Through the check valves 120 and 121 mounted at the outlet of the second compressor 112, the condenser 115 is introduced into heat, exchanges with external air, and is converted into a liquid refrigerant. The liquid refrigerant is the electromagnetic expansion valve 116. ) And the solenoid valve 117 interlocked with the capillary tube 118 enter the first chamber 113 and the second chamber 114, respectively, and are then heat-exchanged with indoor air to be converted into gaseous refrigerant. The gaseous phase refrigerant is repeatedly introduced into the first compressor 111 and the second compressor 112 via the liquid separator 119, respectively.

Meanwhile, when the first compressor 111 and the second compressor 112 are operated at the same time and the second compressor 112 having a large compression capacity is stopped, the second compressor 112 and the second compressor 112 are stopped. The high pressure refrigerant operating inside the check valve 121 is discharged from the second compressor 112 and the liquid separator at the low pressure side through the capillary tube 123 and the solenoid valve 122 inside the check valve 121 ( 119) by flowing to the upper side it is possible to reduce the time for the second compressor 112 to reach the pressure balance.

As described above, according to the present invention, when any one of the plurality of compressors is stopped, the effect of improving the efficiency of the entire system can be improved by shortening the time required to restart until the pressure equilibrium arrival time inside the stopped compressor is reduced. There is.

Although the present invention has been illustrated and described with respect to specific preferred embodiments, the present invention is not limited to the above-described embodiments, and those of ordinary skill in the art to which the present invention pertains should have the following claims. Various modifications can be made without departing from the spirit of the technical spirit of the invention described.

Claims (2)

A first compressor is provided, and a second compressor having a larger compression capacity than the first compressor is provided, and lines extending from the first and second compressors are connected to the condenser with a check valve interposed therebetween. The extended line is connected to the first indoor chamber and the second indoor chamber, respectively, and the air conditioning apparatus configured to be connected to the first compressor and the second compressor again with the liquid separator interposed therebetween. To A capillary tube and a solenoid valve are connected to a line connecting the discharge part of the second compressor and the check valve, and a line extending from the solenoid valve is connected to a line flowing into the liquid separator. When the second compressor is in a stop condition, the solenoid valve is operated to immediately send the high pressure refrigerant operating in the check valve to the upper portion of the liquid separator on the low pressure side to shorten the pressure equilibrium arrival time. An air conditioner using a plurality of compressors. delete

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