KR101195560B1 - A multi air conditioner system and method for controlling operation thereof - Google Patents

Abstract

The present invention relates to a multi-air conditioner system for both air conditioning and heating, in which a plurality of indoor units are connected to one outdoor unit, and an operation control method thereof. The present invention optimally controls the amount of refrigerant flowing to an indoor unit by transferring an operating state of the indoor unit to an outdoor unit using a compressor signal. Its purpose is to.

To this end, the present invention provides a multi-air conditioner system, which connects a plurality of indoor units to one outdoor unit and at least one of the plurality of indoor units does not communicate with the outdoor unit, comprising: an electric valve configured to adjust the amount of refrigerant flowing into the plurality of indoor units; A signal unit which receives a compressor signal transmitted from an indoor unit not communicating with an outdoor unit among the plurality of indoor units, and transmits an operating state of the indoor unit to the outdoor unit; And a control unit for controlling the opening degree of the electric valve in accordance with the operating state of the indoor unit transmitted with the compressor signal through the signal unit.

Description

Multi air conditioner system and method for controlling operation

1 is a refrigerant flow diagram of a multi-air conditioner system according to an embodiment of the present invention;

2 is a control block diagram of a multi-air conditioner system according to an embodiment of the present invention;

3 is an operation flowchart of an operation control method of a multi-air conditioner system according to the present invention;

Explanation of symbols on the main parts of the drawings

10: outdoor unit 12a, 12b: compressor

26: electric valve 28: solenoid valve

32: outdoor unit controller 34: compressor signal receiver

50,70 indoor unit 62,82 indoor unit control unit

64: communication unit 84: compressor signal transmission unit

The present invention relates to a multi-air conditioning system for both air conditioning and heating, in which a plurality of indoor units are connected to one outdoor unit, and in particular, a multi-air conditioning system for optimally controlling the amount of refrigerant flowing to the indoor unit by transferring the operating state of the indoor unit to the outdoor unit using a compressor signal. System and its operation control method.

In general, an air conditioner is a device used for cooling or heating indoors, and circulates a refrigerant between an indoor unit and an outdoor unit to absorb ambient heat when the liquid refrigerant evaporates and absorbs the heat when liquefied. Cooling or heating is performed by the releasing property, and cooling or heating of the air conditioner is determined according to the circulation direction of the refrigerant.

A common air conditioner is to install one indoor unit in one outdoor unit, but recently, one indoor unit has a plurality of indoor units having different types (stand type or wall-mounted type) and capacity. Increasingly, user demands for home multi-system air conditioners that are connected and installed in homes such as apartments are increasing.

The multi-air conditioner is equipped with two compressors of different capacities, and can be operated only when communication between the stand indoor unit and the outdoor period is made. When the wall-mounted compressor on signal is input in the state where the indoor unit is communicated with the stand indoor unit, two compressors selectively operate according to the conditions.

However, the conventional multi-air conditioner is a wall-mounted indoor unit and the outdoor period is communicated, and the wall-mounted indoor unit and the outdoor period is a wall-mounted indoor unit in the state in which only the compressor on / off signal is transmitted to the outdoor unit by the outdoor unit wall-hung Since the operation state of the indoor indoor unit is not known at all, there is no way to control the amount of refrigerant flowing to the indoor unit even when the cooling capability of the wall-mounted indoor unit is insufficient.

In addition, since the operation state of the wall-mounted indoor unit is not known, it is difficult to control the compressor smoothly in the outdoor unit, and when the wall-mounted indoor unit is connected to the long pipe, there is a problem in that the cooling (heating) ability is reduced.

Therefore, the present invention is to solve the conventional problems as described above, the object of the present invention is to configure the outdoor unit by transmitting the operation state of the wall-mounted indoor unit to the outdoor unit using the compressor on / off signal without configuring a separate communication circuit The present invention provides a multi-air conditioner system and an operation control method thereof, which can smoothly control.

Another object of the present invention is to provide a multi-air conditioner system and an operation control method for improving air-conditioning performance by detecting a cooling (heating) capability state of a wall-mounted indoor unit and adjusting the amount of refrigerant flowing to the indoor unit.

In order to achieve the above object, the present invention provides a multi-air conditioner system including an outdoor unit, a first indoor unit having a communication unit for communication with the outdoor unit, and a second indoor unit without the communication unit, wherein the first indoor unit and the second indoor unit. An electric valve for controlling the amount of refrigerant flowing to the indoor unit; A transmitter configured to transfer an operating state of the second indoor unit to a compressor signal transmitted from the second indoor unit to the outdoor unit; And determining the cooling capacity of the second indoor unit according to the operating state of the second indoor unit loaded on the compressor signal transmitted from the transmission unit, and controlling the opening degree of the electric valve based on the determined cooling capacity of the second indoor unit. It includes a control unit.

The operating state of the second indoor unit may include an indoor temperature detected through an indoor temperature sensor provided to detect an indoor temperature of the second indoor unit, and the control unit may detect the indoor temperature detected by the indoor temperature sensor. And calculating a rate of change, comparing the calculated room temperature change rate with a predetermined reference temperature change rate, and determining a cooling capacity of the second indoor unit according to the comparison result.

In addition, the operation state of the second indoor unit includes a pipe temperature of the indoor heat exchanger detected by the indoor heat exchanger temperature sensor provided to detect the pipe temperature of the indoor heat exchanger of the second indoor unit, and the control unit Compute the indoor heat exchanger pipe temperature change rate detected by the indoor heat exchanger temperature sensor, compare the calculated indoor heat exchanger pipe temperature change rate with a predetermined reference temperature change rate and compare the cooling capacity of the second indoor unit according to the comparison result. It is characterized by judging.

The control unit may control the opening degree of the electric valve so that a large amount of refrigerant flows into the indoor unit having insufficient cooling capacity according to the determined cooling capacity of the second indoor unit.

The present invention provides a multi-air conditioner system including an outdoor unit, a first indoor unit having a communication unit for communication with the outdoor unit, and a second indoor unit without the communication unit, wherein the compressor signal transmitted from the second indoor unit to the outdoor unit. Conveying the driving state of the second indoor unit to the vehicle; Determining a cooling capacity of the second indoor unit according to an operating state of the second indoor unit loaded on the transmitted compressor signal; And controlling the amount of refrigerant flowing in the first indoor unit and the second indoor unit based on the determined cooling capacity of the second indoor unit.

In addition, the carrying of the operating state of the second indoor unit, the transfer includes sensing the room temperature of the second indoor unit, and transfers the detected room temperature to the compressor signal, the cooling capacity of the second indoor unit The determining may include calculating a rate of change of the room temperature of the second indoor unit loaded on the transmitted compressor signal, comparing the calculated rate of change of the room temperature with a predetermined reference temperature change rate, and according to the comparison result. Characterized in that it includes determining the cooling capacity of.

In addition, the carrying of the operation state of the second indoor unit to convey, the sensing of the indoor heat exchanger pipe temperature of the second indoor unit includes the transfer of the detected indoor heat exchanger pipe temperature to the compressor signal, Determining the cooling capacity of the second indoor unit, the rate of change of the indoor heat exchanger pipe temperature of the second indoor unit carried on the transmitted compressor signal, and calculates the rate of change of the calculated indoor heat exchanger pipe temperature of the predetermined reference temperature change rate And determining the cooling capacity of the second indoor unit according to the comparison result.

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

1 is a refrigerant flow path diagram of a multi-air conditioner system according to an exemplary embodiment of the present invention, which may perform cooling or heating according to a flow direction of a refrigerant, and the present invention will be described based on a cooling cycle.

In FIG. 1, the multi-air conditioner system of the present invention includes one outdoor unit 10 forming a conventional refrigerant cycle, a first indoor unit 50 (stand-type indoor unit) and a second indoor unit 70 connected to the outdoor unit 10. Type indoor unit).

The outdoor unit 10 includes a compressor (12a, 12b) for compressing the refrigerant into a gas state of high temperature and high pressure, and the flow direction of the high temperature and high pressure gas refrigerant compressed by the compressor (12a, 12b) to the operation mode (cooling or heating) Four-way valve 14 to adjust according to, the outdoor heat exchanger 16 for receiving a high-temperature, high-pressure gas refrigerant compressed by the compressor (12a, 12b) and heat exchange with the outdoor air, and the heat exchanger in the outdoor heat exchanger (16) In order to achieve this, it includes an outdoor fan 18 forcibly blowing outdoor air by the outdoor fan motor 20 and a capillary tube 22 for decompressively expanding the heat exchanged refrigerant.

The suction side of the compressor (12a, 12b) includes an accumulator 24 for converting the refrigerant flowing into the compressor (12a, 12b) into a gas of a complete gas state.

In addition, an outlet expansion pipe for discharging the refrigerant during the cooling operation among the pipes connected to the outdoor heat exchanger 16 has an electronic expansion valve 26 for controlling the flow rate of the refrigerant flowing through the first and second chambers 50 and 70. An electronic expansion valve (hereinafter referred to as an electric valve) and a solenoid valve 28 for supplying or blocking a refrigerant to the second chamber 70 among the first and second chambers 50 and 70 are provided.

The first and second indoor units (50, 70) are the first and second indoor heat exchangers (52, 72) for receiving heat and heat exchange with the indoor air, and the first and second indoor heat exchangers (52, 72) And first and second indoor fans 56 and 76 for forcibly blowing indoor air by the first and second indoor fan motors 54 and 74 so as to perform heat exchange at the same.

In addition, the first and second indoor heat exchangers 52 and 72 are provided with indoor heat exchanger temperature sensors 58 and 78 for sensing pipe temperatures of the first and second indoor heat exchangers 52 and 72.

2 is a control block diagram of a multi-air conditioner system according to an exemplary embodiment of the present invention, in which the outdoor unit 10 communicates data between the first indoor unit 50 and the outdoor unit 10 in addition to the apparatus shown in FIG. 1. 30, an outdoor unit controller 32 for controlling the devices of the outdoor unit 10, and a compressor signal receiver 34 which receives a compressor signal transmitted from the second indoor unit 70 and inputs it to the outdoor unit controller 32. It further includes.

The first indoor unit 50 is an indoor temperature sensor 60 that senses the indoor air temperature sucked into the first indoor room 50 in addition to the device shown in FIG. 1, and the first indoor room 50 controls the devices of the first indoor room 50. The first indoor control unit 62 and the first indoor unit 50 and the outdoor unit 10 while performing data communication further includes a communication unit 64 for transmitting the operating state of the first indoor unit 50 to the outdoor unit 10.

In addition to the apparatus shown in FIG. 1, the second indoor unit 70 includes an indoor temperature sensor 80 that senses indoor air temperature sucked into the second indoor unit 70, and a second indoor unit 70. Compressor signal for transmitting the indoor temperature and the indoor heat exchanger temperature of the second indoor unit 70 to the outdoor unit 10 together with the compressor on / off signal generated according to the comparison between the indoor control unit 82 and the indoor temperature and the set temperature. The transmission unit 84 further includes.

In addition, the first and second indoor rooms (50, 70) are provided with a key operation unit for inputting the operation mode (cooling or heating) selected by the user and operation information, such as set temperature, set air volume, set wind direction, Since it is the same as the conventional one, a detailed description thereof will be omitted.

Hereinafter, the operation process and effect of the multi-air conditioner system and its operation control method configured as described above will be described.

3 is a flowchart illustrating an operation control method of a multi-air conditioner system according to the present invention, in which a communication is performed between the first indoor unit 50 and the outdoor unit 10 and a communication between the second indoor unit 70 and the outdoor unit 10. This relates to the operation of a home multi-type air conditioner having a configuration that does not occur.

First, when power is supplied to the outdoor unit 10, the outdoor unit control unit 32 determines whether the operation is on by checking the operation state of the first indoor unit 50 while performing data communication with the first indoor control unit 62 (S100). ).

When the operation is on (YES), the outdoor unit 10 selectively operates the two compressors 12a and 12b according to the operation selection of the first indoor unit 50 by the communication between the first indoor unit 50 and the outdoor unit 10. (S110).

At this time, the second indoor unit 70 transmits the operating state (cooling, dehumidification, indoor temperature, indoor heat exchanger temperature, etc.) of the second indoor unit 70 to the outdoor unit 10 by using the compressor signal. In operation S120, the compressor signal received through the compressor signal transmitter 84 of the second indoor unit 70 is received through the compressor signal receiver 34 to determine an operating state of the second indoor unit 70 (S120).

That is, since the compressor signal of the second indoor unit 70 does not directly drive the compressors 12a and 12b, the AC signal is converted into a DC signal and transmitted to the outdoor unit controller 32, so that the compressor signal of the second indoor unit 70 is transmitted. The compressor 12a and 12b are driven by the outdoor unit controller 32.

Therefore, the second indoor unit 70 carries a certain signal such as "on-off-on-off" to the compressor signal transmitted to the outdoor unit controller 32 through the compressor signal transmission unit 84 to perform the second indoor ( The operating state (for example, the indoor temperature of the second indoor side or the indoor heat exchanger temperature) of 70 is transmitted to the outdoor unit 10.

Accordingly, the outdoor unit controller 32 receives the operating state of the first indoor unit 50 transmitted through the communication unit 64 and the operating state of the second indoor unit 70 input through the compressor signal receiver 34. And smoothly controlling the operation of the second compressors 12a and 12b (S130).

Subsequently, the outdoor unit controller 32 calculates an indoor temperature change rate or an indoor heat exchanger temperature change rate of the second indoor unit 70 inputted through the compressor signal receiver 34 to operate the cooling capacity of the second indoor unit 70 (operation capability). ) Is detected (S140).

The outdoor unit controller 32 calculates a slope of an indoor temperature that is changed according to the operation of the compressors 12a and 12b, that is, an indoor temperature change rate, or calculates a slope of an indoor heat exchanger temperature, that is, an indoor heat exchanger temperature change rate. The cooling rate (driving ability) of the second indoor unit 70 is detected by comparing the rate of change of the indoor temperature or the rate of change of the temperature of the indoor heat exchanger with a predetermined reference temperature change rate.

When the cooling capacity of the second indoor unit 70 is detected, the outdoor unit controller 32 controls the opening degree of the electric valve 26 according to the cooling capacity of the second indoor unit 70 to control the first and second indoor rooms 50,. It is possible to optimally change the amount of refrigerant flowing through 70 (S150).

Therefore, when cooling is concentrated in either the first indoor room 50 or the second indoor room 70 or when the second indoor room 70 is connected to the long pipe, the cooling power may be more concentrated toward the second indoor room 70. Can be controlled.

Subsequently, the outdoor unit controller 32 continuously checks the compressor signal received through the compressor signal receiver 34 to determine a change in the operating state of the second indoor unit 70 (S160), thereby operating the second indoor unit 70. When is changed to the feedback to the step S140 to repeat the operation of S140 or less.

As described above, according to the multi-air conditioner system and the operation control method according to the present invention, the outdoor unit by transmitting the operation state of the wall-mounted indoor unit to the outdoor unit by using the compressor on / off signal without configuring a separate communication circuit In this case, the compressor can be more smoothly controlled.

In addition, the present invention has the effect of improving the cooling and heating performance because it is possible to optimally control the amount of refrigerant flowing to the indoor unit by detecting the cooling (heating) capability state of the wall-mounted indoor unit by controlling the electric shift degree.

What has been described above is just one embodiment for implementing the multi-air conditioner system and its operation control method according to the present invention, the present invention is not limited to the above-described embodiment, the technical spirit of the present invention Various modifications are possible by those skilled in the art.

Claims (7)

A multi-air conditioner system including an outdoor unit, a first indoor unit having a communication unit for communicating with the outdoor unit, and a second indoor unit without the communication unit, An electric valve configured to adjust the amount of refrigerant flowing into the first indoor unit and the second indoor unit; A transmitter configured to transfer an operating state of the second indoor unit to a compressor signal transmitted from the second indoor unit to the outdoor unit; And The cooling capacity of the second indoor unit is determined according to the operating state of the second indoor unit loaded on the compressor signal transmitted from the transmission unit, and the opening degree of the electric valve is controlled based on the determined cooling capacity of the second indoor unit. Multi air conditioner system comprising a. The method of claim 1, The operating state of the second indoor unit includes an indoor temperature detected by an indoor temperature sensor provided to detect an indoor temperature of the second indoor unit, The control unit calculates a rate of change of room temperature detected by the room temperature sensor, compares the calculated room temperature change rate with a predetermined reference temperature change rate, and determines the cooling capacity of the second indoor unit according to the comparison result. Multi air conditioning system characterized by. The method of claim 1, The operating state of the second indoor unit includes a pipe temperature of the indoor heat exchanger detected by the indoor heat exchanger temperature sensor provided to detect the pipe temperature of the indoor heat exchanger of the second indoor unit, The control unit calculates a rate of change of the indoor heat exchanger pipe temperature detected by the indoor heat exchanger temperature sensor, compares the calculated indoor heat exchanger pipe temperature change rate with a predetermined reference temperature change rate and according to the comparison result of the second indoor unit Multi-air conditioning system, characterized in that for determining the cooling capacity. The method of claim 2 or 3, The control unit is a multi-air conditioner system, characterized in that for controlling the opening degree of the electric valve so that a large amount of refrigerant flows into the indoor unit lacking the cooling capacity in accordance with the cooling capacity of the second indoor unit. A multi-air conditioner system including an outdoor unit, a first indoor unit having a communication unit for communicating with the outdoor unit, and a second indoor unit without the communication unit, Delivering a driving state of the second indoor unit to a compressor signal transmitted from the second indoor unit to the outdoor unit; And Determining a cooling capacity of the second indoor unit according to the operating state of the second indoor unit loaded on the transmitted compressor signal; And controlling the amount of coolant flowing in the first indoor unit and the second indoor unit based on the determined cooling capacity of the second indoor unit. 6. The method of claim 5, Carrying and transmitting the operating state of the second indoor unit includes detecting the room temperature of the second indoor unit, and delivering the detected room temperature to the compressor signal, Determining the cooling capacity of the second indoor unit, calculating the rate of change of the room temperature of the second indoor unit carried on the transmitted compressor signal, compares the calculated rate of change of the room temperature with a predetermined reference temperature change rate and compare And controlling the cooling capacity of the second indoor unit according to the result. 6. The method of claim 5, The conveying of the operating state of the second indoor unit includes: detecting an indoor heat exchanger pipe temperature of the second indoor unit and transferring the detected indoor heat exchanger pipe temperature to the compressor signal, Determining the cooling capacity of the second indoor unit is to calculate the rate of change of the indoor heat exchanger pipe temperature of the second indoor unit carried on the transmitted compressor signal, and the predetermined rate of change of the calculated indoor heat exchanger pipe temperature And comparing the rate of change and determining the cooling capacity of the second indoor unit according to the comparison result.

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