KR100215821B1 - Cooling media distribution control method for multi-unit air conditioner - Google Patents

Abstract

A method for controlling the homogenization of a refrigerant in a multi-multi air conditioner that equalizes a refrigerant, comprising: operating the room indoor unit alone in the air conditioner; Determining whether the refrigerant is circulated to the room indoor unit and the package indoor unit of the air conditioner at a first time interval, so as to sequentially circulate, and stopping the circulation of the refrigerant after a second time by the cycle of the package indoor unit. Blocking the flow path of the refrigerant circulation at a stop point, and opening the flow path such that the refrigerant circulated into the cycle of the room indoor unit flows into the cycle of the room indoor unit for a third time after the second time at the stop point of the refrigerant circulation. Performance of the air conditioner by the refrigerant homogenization control method comprising the step Improved and, a hyoga to extend the life.

Description

Refrigerant homogenization control method of complex multi air conditioner

The present invention relates to a method of operating a complex multi air conditioner, and more particularly, to a method of controlling a uniformity of a refrigerant of a complex multi air conditioner to achieve a balance of a refrigerant.

In general, an air conditioner is divided into a single unit consisting of one indoor unit connected to the indoor unit, a separate unit consisting of only an outdoor unit and an indoor unit, and an integrated unit consisting of the outdoor unit and the indoor unit. .

Such an air conditioner is a wall-mounted type consisting of a small capacity indoor unit and outdoor unit that can be installed in a rather narrow space (hereinafter, referred to as a 'room').

In addition, the air conditioner has a larger cooling capacity than the air conditioner, there is a stand type consisting of a package indoor unit and outdoor unit of a large capacity that can be installed in a large space in terms of space.

In general, the conventional technology of the hybrid multi air conditioner refers to a configuration in which the wall-mounted air conditioner and the stand-type air conditioner are suitably combined with each other so as to operate individually.

That is, when the wall-mounted type (hereinafter referred to as a room indoor unit) and a stand type (hereinafter referred to as a package indoor unit) are used in combination according to the utilization of the air conditioner, the two air conditioners are divided into a narrow space and a wide space to correspond to the space. By installing, it is a harmonious configuration that maximizes each performance.

As shown in FIG. 1, the complex multi air conditioner is installed in a room of a narrow space, and is provided in a room indoor unit 1 for exchanging low temperature refrigerant with a high temperature refrigerant, and a package of a large space. A package indoor unit 6 installed to exchange heat of the low temperature refrigerant with a high temperature refrigerant, the room indoor unit 1, and a gas-liquid separator 2 separating gas and liquid from the high temperature refrigerant heat exchanged in the package indoor unit 6; And collecting the first and second compressors 7 and 3 compressing the refrigerant separated by gas in the gas-liquid separator 2 and the high pressure refrigerant compressed by the first and second compressors 7, 3 and liquid. First and second condensers (8,4) condensing with a second and the second capillary tube to physically convert the liquid refrigerant condensed in the second condenser (4) into a low-temperature liquid refrigerant to the room indoor unit (1) (5) and the liquid refrigerant condensed in the first condenser 8 physically as a low temperature liquid refrigerant First and third capillaries (9, 10) to be converted and introduced into the package indoor unit (6), and a first blowing fan for blowing hot air to cool the heat exchanger in the package indoor unit (6) to cool the air ( 12), a second blowing fan 13 for blowing hot air to cool the air to heat exchange the refrigerant in the room indoor unit (1), and the high-pressure refrigerant in the first and second condensers (8, 4) A third blowing fan 14 which blows and blows heat-exchange air to condense the liquid, a reverse valve 11 positioned between the gas-liquid separator 2 and the first compressor 7 to prevent a backflow of the refrigerant; A mixer 15 for mixing the high pressure refrigerant of the first condenser 8 and the high pressure refrigerant of the second condenser 4 and feeding the mixture to the first capillary tube 9, and the second condenser 4 and the second capillary tube ( 5) the first electronic bell which is located between the conveying or blocking of the refrigerant of the second condenser 4 by a controller (not shown) A second solenoid valve positioned between the SV1 and the second condenser 4 and the mixer 15 so as to transfer and block the refrigerant of the second condenser 4 by the controller (not shown); SV3), a third solenoid valve (SV3) positioned between the package indoor unit (6) and the gas-liquid separator (2) to transfer and block the refrigerant of the package indoor unit (6), and the first capillary tube (9) And a fourth solenoid valve SV4 for directing or blocking the refrigerant of the mixer 15 directly to the third capillary 10.

All the solenoid valves SV1, SV2, SV3, SV4 are typically implemented by solenoid valves.

The complex multi air conditioner configured as described above controls each of the air conditioners in a cooling and heating mode in a main control unit (not shown).

When applying the description of the operation method according to the prior art by using the device having the above configuration as an embodiment when the room indoor unit is operated alone, first, by opening the third electronic valve (SV3) to be operated in the room cycle refrigerant The second compressor (3) is driven in order to enable the flow of and to change the physical state of the circulation and refrigerant in this flow state.

In this case, the compressed refrigerant passing through the second compressor (3) passes through the second condenser (4), and passes through a first capillary tube (9) for adjusting the pressure and temperature of the refrigerant, and a connecting pipe connecting the indoor unit and the outdoor unit. do.

At this time, since the second condenser 4 is installed on the first condenser 8 according to the package cycle, relatively little refrigerant is stored due to physical gravity.

The small amount of refrigerant passing through the connection pipe is heat-exchanged with the air blown by the second blowing fan 13 while passing through the room indoor unit 1, and thus the room is ventilated with cold air.

Thereafter, the heat exchanged refrigerant is gradually changed to a refrigerant containing a large amount of gas, and such a refrigerant is separated by states in the gas-liquid separator 2 to filter only gas.

The filtered refrigerant is delivered to the second compressor 3 again to perform the same circulation as above.

If the air conditioner is left unused for a long time or the operation is performed in the initial state of the air conditioner, since the amount of the refrigerant circulated to the room cycle is small, the refrigerant is stored in the room indoor unit 1. Before passing through, the pipes of the heat exchanger (not shown) are frozen while initiating vaporization.

At this time, the smaller the amount of the circulating refrigerant is, the faster the vaporization occurs, but the freezing shape appears faster.

The combined multi air conditioner according to the prior art has a small amount of circulating refrigerant for a room cycle when the room indoor unit is operated in an initial operation or a non-operation state for a long time, so that vaporization occurs more quickly than a relatively large amount of refrigerant. There is a problem in that freezing occurs in the piping of the heat exchanger in the room indoor unit.

The present invention has been made to solve the above problems and the uniformity of the refrigerant in the multi-air conditioner that maintains the normal operation while achieving the refrigerant balance of the system by performing the operating cycle of the package indoor unit for a predetermined time at the same time as the operation of the room indoor unit The purpose is to provide a control method.

1 is a configuration diagram of a refrigerant circulation cycle showing a general multi air conditioner

2 is a flow chart showing a method of controlling the uniformity of the refrigerant in the multi-air conditioner according to the present invention.

Explanation of symbols for main parts of the drawings

One ; Room indoor unit 2; Gas-liquid separator

3; Second compressor 4; Second condenser

5; Second capillary tube 6; Package indoor unit

7; First compressor 8; First condenser

9; First capillary tube 10; Third capillary

11; Reverse displacement 12; 1st blowing fan

13; Second blowing fan 14; 3rd blowing fan

15; Mixer SV1; 1st solenoid valve

SV2; Second solenoid valve SV3; Third solenoid valve

SV4; 4th solenoid valve

The present invention provides a method for balancing a refrigerant of a multi-air conditioner, the method comprising: driving a room indoor unit alone in the air conditioner, determining whether the operation is an initial operation or an operation after being stopped for a long time. Sequentially operating a first time interval so that the refrigerant is circulated to the room indoor unit and the package indoor unit of the air conditioner, and stopping the circulation of the refrigerant after the second time by the cycle of the package indoor unit, Blocking the flow path of the refrigerant circulation, and opening the flow path such that the refrigerant circulated into the cycle of the room indoor unit flows into the cycle of the package indoor unit for the third time after the second time at the stop of the refrigerant circulation. Characterized in that made.

Hereinafter, with reference to the accompanying drawings will be described in detail the refrigerant homogenization control method of a multi-complex air conditioner according to the present invention.

2 is a flow chart illustrating a method for controlling a refrigerant uniformity of a multi-component air conditioner according to the present invention.

The theoretical concept of the present invention is to determine whether the operation in the initial state of the room indoor unit or the operation in the stationary state left for a long time by performing the operation mode by interlocking the room indoors and the package indoor unit at the same time, so that the entire air conditioner Balance the refrigerant in the cycle.

According to the present invention, as shown in Figure 2, first in the multi-air conditioner combined with a room indoor unit and a package indoor unit when the user operates only the room indoor unit in the control unit (not shown) to control the air conditioner It is determined whether the operating state is the single operation of the room indoor unit (S10).

If the determination is not a stand-alone operation, the algorithm is terminated, and if it is a stand-alone operation, it is determined whether the air conditioner is the initial operation after the air conditioner is installed (S20). Determine (S30).

That is, if the air conditioner is the initial operation or the operation in the stationary state left for a long time, the algorithm is terminated, and if the air conditioner is the initial operation or the operation in the stationary state left for a long time, the control unit controls the refrigerant in the room cycle. The third electromagnetic valve SV3 is opened to circulate, and the fourth electromagnetic valve SV4 is opened to circulate the refrigerant in the package cycle.

Then, the second compressor 3 for circulating the refrigerant in the room cycle and the first compressor 7 for circulating the refrigerant in the package cycle at intervals of about 2 to 5 seconds (hereinafter referred to as t ₁ ). Operate sequentially (S40).

Subsequently, during the time when the entire refrigerant of the air conditioner is uniformly balanced by the operation of the first compressor 7, that is, the operation of the first compressor 7 is performed for 2 to 5 minutes (hereinafter, t ₂ After (S50), it is determined that the balance of the refrigerant has been made to stop the first compressor (7), the stop of the first compressor (7) to prevent the lack of refrigerant of the room indoor unit At the time point, the fourth electromagnetic valve SV4 is closed after further delaying the time t ₁ (S60).

In this manner, after the room indoor unit of the multi-air conditioner is operated with sufficient refrigerant to prevent freezing, that is, at a time when the first compressor 7 is stopped for t ₂ (S70), the room cycle The second electronic valve SV2 allowing the and package cycles to operate simultaneously is opened only for the time t ₁ to block the flow path (S80), and the algorithm is terminated.

If the algorithm described above is performed, the refrigerant may be balanced even if the room indoor unit is operated alone in the complex multi air conditioner.

The present invention prevents the freezing phenomenon of the pipe generated during the operation of the room indoor unit alone, and thus has the effect of improving the performance of the air conditioner and extending the life.

Claims (4)

A method for balancing a refrigerant of a complex multi air conditioner; Driving only a room indoor unit in the air conditioner; Determining whether the operation is an initial operation or an operation in a state after being stopped for a long time and sequentially operating the first and second intervals so that the refrigerant is circulated to the room indoor unit and the package indoor unit of the air conditioner; Stopping the circulation of the refrigerant after a second time with the cycle of the package indoor unit, and blocking the flow path of the refrigerant circulation at this stop time; And a step of opening a flow path such that the refrigerant circulated into the cycle of the room indoor unit is introduced into the cycle of the package indoor unit for the third time after the second time at the stop of the refrigerant circulation. Refrigerant homogenization control method. The method of claim 1; The step of sequentially operating the first and second intervals so that the refrigerant is circulated to the room indoor unit and the package indoor unit, the third and fourth electromagnetic valves are opened, and the second compressor and the second compressor have a time interval of about 2 to 5 seconds. Refrigerant homogenization control method of a composite multi air conditioner, characterized in that for operating one compressor sequentially. The method of claim 1; The step of blocking the flow path of the refrigerant circulated to the cycle of the package indoor unit is to stop the first compressor after a time period of about 2 minutes to 5 minutes, and at this stop time, the second electronic device has a time interval of about 2 seconds to 5 seconds. Refrigerant uniformity control method of a composite multi air conditioner characterized by closing the valve to shut off the refrigerant passage. The method of claim 1; The step of opening the flow path such that the refrigerant circulated into the cycle of the room indoor unit is introduced into the cycle of the package indoor unit for the third time after the second time from the stop of the refrigerant circulation, the second electronic valve is about 2 to 5 seconds Refrigerant uniformity control method of a composite multi air conditioner, characterized in that opening for a time.

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