KR20050034078A - By-pass apparatus and method for controlling of multi type air-conditioner thereof - Google Patents

Abstract

A compressor for compressing a low pressure gas refrigerant, an outdoor heat exchanger for liquefying a high pressure gas refrigerant through the compressor, an electronic expansion valve for reducing the high pressure liquid refrigerant through the outdoor heat exchanger, and a low pressure through the electromagnetic expansion valve A multi-air conditioner having an indoor heat exchanger for vaporizing a liquid refrigerant and having a plurality of indoor units corresponding to one outdoor unit, comprising: a solenoid valve for bypassing the discharge gas of the compressor to a suction port of the compressor; By combining the bypass pipe for connecting the solenoid valve and the control unit for controlling the opening and closing of the solenoid valve by determining the difference between the inlet and outlet temperature of the indoor heat exchanger and the number of indoor units in operation, the indoor unit operation combination Compressor suction caused by a change in compressor operating frequency due to change A multi-air conditioner can prevent pressure drop and prevent compressor burnout caused by temporary flow loss in advance, as well as prevent the sudden change of refrigerant flow rate in advance, enabling stable system control of the electromagnetic expansion valve. A bypass device and a control method thereof.

Description

BY-PASS APPARATUS AND METHOD FOR CONTROLLING OF MULTI TYPE AIR-CONDITIONER THEREOF}

The present invention relates to pressure control of a compressor of a multi-air conditioner, and in particular, a compressor for compressing a low pressure gas refrigerant, an outdoor heat exchanger for liquefying a high pressure gas refrigerant through the compressor, and a high pressure liquid refrigerant through the outdoor heat exchanger. A multi-air conditioner having an electronic expansion valve for reducing the pressure and an indoor heat exchanger for vaporizing a low pressure liquid refrigerant through the electromagnetic expansion valve, and having a plurality of indoor units corresponding to one outdoor unit, wherein the operation combination of the indoor units is changed. By bypassing the high temperature and high pressure gas discharged from the compressor through the solenoid valve to the inlet of the compressor, it prevents the temporary pressure drop and prevents the compressor from being burned in advance and changes the refrigerant flow rate to stabilize the system. Compressor discharge gas bypass device for multi-air conditioner It relates to a method.

In general, a multi-air conditioner compresses a gas refrigerant of high temperature and low pressure into a gas refrigerant of high temperature and high pressure by a compressor, and the gas refrigerant of high temperature and high pressure compressed by the compressor is radiated through an outdoor heat exchanger to condense into a liquid refrigerant of low temperature and high pressure. The low temperature and high pressure liquid refrigerant condensed above flows through a single pipe, passes through the electronic expansion valve of each indoor unit, and is decompressed back into the low temperature low pressure liquid refrigerant, and absorbs thermal energy from each room through each indoor heat exchanger. It becomes a superheated gas refrigerant to form a refrigeration cycle that is re-suctioned into the compressor.

In addition, the multi-air conditioner generally uses an inverter type compressor that can adjust the capacity of most compressors because the capacity difference between the indoor units occurs when a plurality of indoor units are all operated and when only one indoor unit having a minimum capacity is operated.

Therefore, as the number of operating units of the indoor units increases, the operating frequency of the compressor increases, and when the user stops the command or reaches the indoor set temperature, the electronic expansion valve of the indoor units is completely closed to block the flow rate of the refrigerant.

Therefore, if the number of operation of indoor units in a multi-air conditioner is large and the electronic expansion valves of several indoor units are blocked at the same time, that is, if the number of operation of the indoor units is drastically reduced, the operating frequency of the inverter compressor is drastically decreased at the time of operation. do.

However, since the electronic expansion valve of the indoor unit under control of the opening amount does not respond to a sudden change in refrigerant flow rate, the indoor heat exchanger inlet temperature is low and the outlet temperature is excessively increased.

Thereafter, the electronic expansion valve increases the opening amount in order to control the difference between the outlet temperature and the inlet temperature of the indoor heat exchanger to a specific reference value, but it takes some time, so that the compressor suction pressure tends to be excessively reduced temporarily. It is.

Accordingly, an object of the present invention is to devise in view of such a problem, the operation is generated when a large number of indoor units are in operation and all of them are turned off except for a few indoor units instantaneously by users in each room or due to reaching the indoor set temperature. It is an object of the present invention to provide a bypass device for a multi-air conditioner and a control method thereof, which prevent an instantaneous system loss caused by a pressure drop in a system that occurs frequently when a sudden drop in frequency.

The present invention for achieving the above object is a compressor for compressing a low-pressure gas refrigerant, an outdoor heat exchanger for liquefying high-pressure gas refrigerant through the compressor, and an electronic expansion for reducing the high-pressure liquid refrigerant through the outdoor heat exchanger In the multi-air conditioner comprising a valve and an indoor heat exchanger for vaporizing low-pressure liquid refrigerant through the electromagnetic expansion valve, and having a plurality of indoor units corresponding to one outdoor unit,

A solenoid valve for bypassing the discharge gas of the compressor to the inlet of the compressor, a bypass pipe for connecting the compressor and the solenoid valve, a difference value between the inlet temperature and the outlet temperature of the indoor heat exchanger and an operation The bypass unit for a multi-air conditioner is further provided with a control unit for determining whether the indoor unit is in use and controlling whether the solenoid valve is opened or closed.

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

In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only and the same parts as in the conventional configuration using the same reference numerals and names.

1 is a diagram for illustrating a bypass device of a multi-air conditioner according to the present invention.

As shown in FIG. 1, the present invention is a component that a conventional multi-air conditioner includes, an inverter compressor 10 installed inside an outdoor unit 25 and varying an operating frequency according to the number of driving units of an indoor unit 45; There is an outdoor heat exchanger (20) for converting the high temperature and high pressure gas refrigerant discharged from the inverter compressor (10) into a liquid state of low temperature and high pressure through heat exchange with ambient air, and is connected to the outlet of the outdoor heat exchanger (20) The plurality of indoor units 45 include an electronic expansion valve 30 for lowering the liquid refrigerant of low temperature and high pressure into a liquid refrigerant of low temperature and low pressure, and an indoor heat exchanger for vaporizing the low temperature and low pressure liquid refrigerant with a high temperature and low pressure gas refrigerant. 40, a heat exchanger inlet temperature sensor 41 for measuring the inlet temperature of the indoor heat exchanger 40 and a heat exchanger outlet temperature sensor 42 for measuring the outlet temperature of the indoor heat exchanger 40; , Indoor unit (45) The electronic expansion valve 30 for determining whether the operation of the.

In addition, the present invention is a solenoid valve 11 for bypassing the high-temperature, high-pressure discharge gas from the inverter compressor 10 to the inlet of the inverter compressor 10, the inverter compressor 10 and the solenoid valve 11 Calculate the difference value between the inlet temperature and the outlet temperature of the bypass tube 15 and the indoor heat exchanger 40 for connecting the bypass tube 15 and communication between one outdoor unit 25 and each indoor unit 45. It characterized in that the configuration further comprises a control unit 100 for controlling the opening or closing of the solenoid valve 11 by measuring the number of the indoor unit 45 in operation.

According to the present invention, the bypass control method of the multi-air conditioner made as described above will be described in more detail with reference to FIG.

While the system is operating (S10), it detects how many indoor units 45 are in operation (S20), and calculates what percentage of the total indoor units 45 is in the number of indoor units 45 in operation (S30). It is determined whether the calculated value falls below 20% (first set value) (S40).

Upon detecting the number of indoor units 45 in operation, the operation of the indoor unit 45 may be determined according to whether the electronic expansion valve 30 is opened or closed.

That is, when the electromagnetic expansion valve 30 is open, the indoor unit 45 is driven. When the electromagnetic expansion valve 30 is closed, the indoor unit 45 is also not driven.

20% is an arbitrary predetermined value, and it considers it as the time when the operation frequency of the inverter compressor 10 falls rapidly.

If the determination value is less than 20% (the first set value), the operating frequency of the inverter compressor 10 is drastically reduced, and the electromagnetic expansion valve 30 of the indoor units 45 in operation does not respond to a sudden change in refrigerant flow rate. The inlet temperature of the indoor heat exchanger 40 is low and the outlet temperature is excessively increased.

Thereafter, the electronic expansion valve 30 of the indoor unit 45 in operation increases the opening amount in order to control the difference between the inlet temperature and the outlet temperature of the indoor heat exchanger 40 to a specific reference value, but it takes a little time and is instantaneously. As a result, the suction pressure of the inverter compressor 10 is excessively reduced.

Therefore, when the number of indoor units 45 in operation is less than 20% of the total number of indoor units 45 to prevent such a pressure drop of the inverter compressor 10, the solenoid valve 11 is opened to open the inverter compressor 10 at the outlet of the inverter compressor 10. Starting discharge of the discharged gas to the suction port of the inverter compressor 10 (S50).

On the other hand, if the number of indoor units 45 in operation is 20% or more of the total number of indoor units 45, the flow returns to step S20 to continuously check the number of indoor units 45 in operation.

After the step (S50) through the heat exchanger inlet temperature sensor 41 and the heat exchanger outlet temperature sensor 42 of each indoor unit 45, the indoor heat exchanger 40 inlet temperature and outlet temperature of the indoor units 45 in operation. (S60) and determine whether the difference between the indoor heat exchanger inlet temperature and the outlet temperature of the indoor units 45 in operation is smaller than a specific reference value (n ° C.) (S70), and after the determination, the indoor unit in operation 45 ), The solenoid valve 11 is closed when the difference value (| inlet temperature-outlet temperature |) between the inlet temperature and the outlet temperature of the indoor heat exchanger 40 is smaller than a specific reference value (n ° C.) (S80).

The difference between the inlet temperature and the outlet temperature of the indoor heat exchanger 40 refers to an absolute value.

Also, in the above, the difference between the inlet temperature and the outlet temperature of the indoor heat exchanger 40 being smaller than the specific reference value (n ° C.) is regarded as the reduction of the refrigerant flow rate in the system at the initial stage of the frequency change of the inverter compressor 10 is released. It is possible to set any one of the indoor units 45 in operation, which means that the flow rate reduction is being started, so that the solenoid valve 11 is closed at this time.

By bypassing the discharge gas of the compressor to the inlet of the compressor in the above manner, it is possible to prevent the inverter compressor suction pressure drop caused by the inverter compressor operation frequency decrease by the indoor unit operation combination change, and the inverter caused by the temporary flow rate decrease. Not only can the compressor be burned out in advance, but it can also prevent a sudden change in refrigerant flow rate.

The bypass device and control method of the multi-air conditioner according to the present invention can prevent the inverter compressor suction pressure drop caused by the inverter compressor operation frequency decrease by the indoor unit operation combination change, and can prevent the inverter compressor burnout caused by the temporary flow rate decrease. In addition to being able to shut off in advance, there is an advantage that it is possible to prevent a sudden change in the refrigerant flow in advance to achieve a stable system control of the electronic expansion valve.

1 is a view showing a bypass device for a multi-air conditioner according to the present invention.

2 is a flowchart illustrating a bypass control method of a multi-air conditioner according to the present invention.

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

10 compressor 11 solenoid valve

15: bypass tube 20: outdoor heat exchanger

25: outdoor unit 30: electromagnetic expansion valve

40: indoor heat exchanger 41: heat exchanger inlet temperature sensor

42 heat exchanger outlet temperature sensor 45 indoor unit

100: control unit

Claims (3)

A compressor for compressing a low pressure gas refrigerant, an outdoor heat exchanger for liquefying a high pressure gas refrigerant through the compressor, an electronic expansion valve for reducing the high pressure liquid refrigerant through the outdoor heat exchanger, and a low pressure through the electromagnetic expansion valve In the multi-air conditioner including an indoor heat exchanger for vaporizing the liquid refrigerant, and having a plurality of indoor units corresponding to one outdoor unit, A solenoid valve for bypassing the discharge gas of the compressor to the inlet of the compressor, a bypass pipe for connecting the compressor and the solenoid valve, a difference value between the inlet temperature and the outlet temperature of the indoor heat exchanger and an operation Control unit to control whether the solenoid valve is opened or closed by judging the number of indoor units Bypass device for a multi-air conditioner, characterized in that further attached. While the system is running Detecting (A) how many indoor units are in operation; Determining (B) what percentage of the indoor units the driving indoor unit occupies; Determining whether the determination value falls below a first predetermined value (C); (D) opening the solenoid valve if the determined value of step (C) is less than the first set value; (E) returning to step (A) if the determined value of step (C) is greater than or equal to the first set value; Detecting (F) the indoor heat exchanger inlet and outlet temperatures of the indoor units in operation after step (D); (G) determining whether the difference value between the indoor heat exchanger inlet temperature and the outlet temperature of the indoor units in operation is smaller than a specific reference value using the value detected through the step (F); (H) closing the solenoid valve if there is at least one indoor unit having a difference value between the inlet and the outlet temperature of the indoor units under operation according to the determination of the step (G), After step (G), if it is determined that none of the indoor units in operation that the difference between the entry and exit temperatures is smaller than a specific reference value is returned to step (F), step (I) Bypass control method for a multi-air conditioner comprising a. The bypass control method of claim 2, wherein the operation of the indoor unit is determined according to whether the electronic expansion valve is opened or closed when the number of indoor units in operation is determined.