KR101485848B1 - Control method of multi system air conditioner - Google Patents

Abstract

An object of the present invention is to provide a control method of a multi-type air conditioner in which a plurality of indoor units are connected to one outdoor unit and a part And a controller for controlling the amount of opening of the electronic expansion valve provided in the indoor unit that does not communicate with the outdoor unit through comparison of the suction temperature of the compressor provided in the outdoor unit with the target suction temperature to improve the performance and reliability of the indoor unit not communicating with the outdoor unit And a control method of the harmonics.

To this end, the present invention provides a control method for a multi-type air conditioner in which a plurality of indoor units are connected to one outdoor unit and a part of the plurality of indoor units does not communicate with the outdoor unit, The suction temperature is compared with a predetermined target suction temperature, and the amount of opening of the electronic expansion valve provided in the indoor unit, which does not communicate with the outdoor unit, is adjusted according to the comparison result.

Description

TECHNICAL FIELD [0001] The present invention relates to a multi-type air conditioner,

The present invention relates to a control method of a multi-type air conditioner, and more particularly, to a control method of a multi-type air conditioner that adjusts an opening amount of an electronic expansion valve provided in an indoor unit that does not communicate with an outdoor unit among a plurality of indoor units connected to one outdoor unit ≪ / RTI >

The air conditioner is a device used for cooling or heating the room, circulates the refrigerant between the indoor unit and the outdoor unit, absorbs the surrounding heat when the liquid refrigerant vaporizes, and emits the heat when liquefied And the cooling or heating action of the air conditioner is determined according to the circulation direction of the refrigerant.

Conventional air conditioners generally have one indoor unit installed in one outdoor unit. Recently, a plurality of indoor units (for example, two indoor units) having different capacities (stand type or wall-mounted type) The user's demand for a multi-system air conditioner installed in an apartment such as an apartment is increasing.

In the operation of the home multi-type air conditioner, the stand type indoor unit receives the indoor / outdoor conditions through communication with the outdoor unit to set the initial opening degree, and then controls the opening degree of the electronic expansion valve through the superheat degree control. Since it does not communicate with the outdoor unit, the opening of the electronic expansion valve is controlled simply by the outdoor temperature. Accordingly, the performance and reliability of the wall-mounted type indoor unit vary depending on the type of the indoor unit, the components of the electronic expansion valve, and indoor / outdoor conditions.

In addition, when the stand type indoor unit and the wall-mounted type indoor unit are operated at the same time, the amount of the refrigerant flowing into the other indoor unit (wall-mounted type indoor unit) becomes insufficient due to a large amount of refrigerant flowing into one indoor unit Type indoor unit is deteriorated.

And, under the overload condition that occurs due to the insufficient amount of refrigerant, the discharge temperature of the compressor rises too high and the discharge temperature of the compressor becomes too low at the low temperature condition where the refrigerant amount is excessive.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a control method of a multi-type air conditioner, which is designed to solve the above-described problems and in which a plurality of indoor units are connected to one outdoor unit and a part of the plurality of indoor units does not communicate with an outdoor unit, A control method of a multi-type air conditioner capable of enhancing the performance and reliability of an indoor unit that does not communicate with an outdoor unit by adjusting an opening amount of an electronic expansion valve provided in an indoor unit that does not communicate with the outdoor unit through comparison between the suction temperature and the target intake temperature The purpose is to provide.

According to an aspect of the present invention, there is provided a control method for a multi-type air conditioner that connects a plurality of indoor units to one outdoor unit and a plurality of indoor units does not communicate with an outdoor unit, Compares the suction temperature of the compressor with a preset target suction temperature, and adjusts the amount of opening of the electronic expansion valve provided in the indoor unit which does not communicate with the outdoor unit according to the comparison result.

Here, the amount of opening of the electronic expansion valve is controlled such that the amount of opening of the electronic expansion valve provided in the indoor unit not communicating with the outdoor unit is controlled to be larger than the reference opening amount when the suction temperature of the compressor is equal to or higher than the target intake temperature.

The amount of opening of the electronic expansion valve is controlled by controlling the amount of opening of the electronic expansion valve provided in the indoor unit not communicating with the outdoor unit smaller than the reference opening amount when the suction temperature of the compressor is lower than the target intake temperature.

The opening amount of the electronic expansion valve is adjusted in accordance with the temperature difference between the suction temperature of the compressor and the target suction temperature.

As described above, according to the method for controlling a multi-type air conditioner of the present invention, a method of controlling a multi-type air conditioner that connects a plurality of indoor units to one outdoor unit and does not communicate with some outdoor units, It is possible to improve the performance and reliability of the indoor unit that does not communicate with the outdoor unit by adjusting the opening amount of the electronic expansion valve provided in the indoor unit that does not communicate with the outdoor unit through comparison between the intake temperature of the outdoor unit and the target intake temperature.

Since the performance and reliability of the indoor unit not communicating with the outdoor unit does not depend on the type of the indoor unit, the components of the electronic expansion valve and the indoor / outdoor conditions, it is necessary to newly develop an indoor unit which does not communicate with the outdoor unit, It is possible to control the amount of opening of the electronic expansion valve flexibly when changing, and there is no need to separately set the control specification of the indoor unit that does not communicate with the outdoor unit.

Further, there is an advantage that the cooling efficiency of all the indoor units can be improved by preventing a lot of refrigerant from flowing to one side during the simultaneous operation of the indoor unit communicating with the outdoor unit and the indoor unit not communicating.

Further, there is an advantage that a phenomenon that the discharge temperature of the compressor rises too high or the discharge temperature of the compressor excessively decreases as the refrigerant does not flow to one side is prevented.

FIG. 1 is a refrigerant flow chart of a multi-type air conditioner according to an embodiment of the present invention. Referring to FIG. 1, cooling or heating can be performed according to a flow direction of a refrigerant. In the present invention, a cooling cycle and a cooling mode will be mainly described.

1, the air conditioner of the present invention includes one outdoor unit 10 forming a normal refrigerant cycle, a first indoor unit 50 (stand type indoor unit) and a second indoor unit 70 (wall-mounted type) connected to the outdoor unit 10 Indoor unit).

The outdoor unit 10 includes compressors 12a and 12b for compressing the refrigerant into a gas state at a high temperature and a high pressure and a compressor 12a and 12b for compressing the flow direction of the high temperature and high pressure gas refrigerant compressed by the compressors 12a and 12b in an operation mode (cooling operation or heating operation) An outdoor heat exchanger 16 which receives the high temperature and high pressure gas refrigerant compressed by the compressors 12a and 12b and performs heat exchange with the outdoor air and the outdoor heat exchanger 16 performs heat exchange An outdoor fan 18 for forcibly blowing out the outdoor air by the outdoor fan motor 20 so as to discharge the refrigerant, and a capillary tube 22 for decompressively expanding the heat exchanged refrigerant.

The suction side of the compressors 12a and 12b includes an accumulator 24 that converts the refrigerant flowing into the compressors 12a and 12b into a gas in a fully gaseous state.

Of the piping connected to the outdoor heat exchanger 16, the first and second electronic expansion valves (50, 70) for controlling the flow rate of the refrigerant flowing through the first and second indoor units (50, 70) (Hereinafter referred to as " motorized side ") 26 and 28 are provided.

The first and second indoor units 50 and 70 include first and second indoor heat exchangers 52 and 72 for receiving refrigerant and exchanging heat with indoor air and first and second indoor heat exchangers 52 and 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 that heat exchange is performed.

The first and second indoor heat exchangers 52 and 72 are provided with indoor heat exchanger temperature sensors 58 and 78 for sensing the temperatures of the first and second indoor heat exchangers 52 and 72, 12a, 12b are provided with a suction temperature sensor 80 for measuring the suction temperature of the compressors 12a, 12b.

FIG. 2 is a block diagram illustrating a control structure of a multi-type air conditioner according to an embodiment of the present invention. The signal input unit 110, the indoor temperature sensors 58 and 78, the suction temperature sensor 80, the control unit 120, A compressor driving unit 140, an outdoor fan motor driving unit 150, an indoor fan motor driving unit 160, and a valve driving unit 170.

The signal input unit 110 is constituted by an operation unit or the like for inputting operation information such as the operation mode (cooling operation or heating operation) selected by the user, the set temperature, the set air volume, the set air direction, etc., and the room temperature sensors 58, And senses the temperatures of the first and second indoor heat exchangers (52, 72).

The suction temperature sensor 80 is provided on the suction side of the compressors 12a and 12b to measure the suction temperature of the compressors 12a and 12b. That is, the suction temperature sensor 80 is provided outside the refrigerant pipe provided between the suction side of the compressors 12a and 12b and the outlet side of the first and second indoor heat exchangers 52 and 72, and is connected to the compressors 12a and 12b The temperature of the refrigerant inhaled is measured.

The control unit 120 compares the intake temperature of the compressors 12a and 12b with a predetermined target intake temperature and compares the intake air temperature of the compressor 12a and the intake air temperature of the electronic expansion valve (not shown) provided in the second indoor unit 70, which is an indoor unit that does not communicate with the outdoor unit 10 28).

More specifically, when the intake temperature of the compressors 12a and 12b is equal to or higher than the target intake temperature, the control unit 120 determines that the opening amount of the electronic expansion valve 28 provided in the second indoor unit 70 is larger than the reference opening amount And the opening amount of the electronic expansion valve 28 provided in the second indoor unit 70 is adjusted to be smaller than the reference opening amount when the intake temperature of the compressors 12a and 12b is lower than the target intake temperature.

The reason why the amount of opening of the electronic expansion valve 28 provided in the second indoor unit 70 can be controlled by using the suction temperature of the compressors 12a and 12b will now be described. The amount of refrigerant flowing into the second indoor unit 70 is 50, the amount of refrigerant in the second room heat exchanger 72 is rapidly increased, The indoor temperature of the indoor unit is higher than that of the indoor unit because the indoor unit is operated in the cooling mode), the suction temperature of the compressors 12a and 12b is increased.

Therefore, when the amount of the refrigerant flowing into the second indoor unit 70 is insufficient, the suction temperature of the compressors 12a and 12b naturally rises. Therefore, the controller 120 uses the suction temperatures of the compressors 12a and 12b The amount of opening of the second indoor unit 70 can be adjusted.

Also, the controller 120 adjusts the opening amount corresponding to the temperature difference between the suction temperature of the compressors 12a and 12b and the target suction temperature. For example, when the intake temperature of the compressors 12a and 12b is 3 ° C or more than the target intake temperature, the controller 120 sets the opening amount of the electronic expansion valve 28 of the second indoor unit 70 to 3 The opening amount of the electronic expansion valve 28 of the second indoor unit 70 is adjusted to be one step larger than the standard opening amount when the intake temperature of the compressors 12a and 12b is 1 ° C or more than the target intake temperature .

The storage unit 130 stores a preset target intake temperature.

The storage unit 103 may be a predetermined storage medium such as a DRAM, an SDRAM, an RDRAM, a DDRAM, or an SRAM, And the target intake temperature may have various values depending on the type and characteristics of the indoor unit.

The compressor driving unit 140 controls the driving of the compressors 12a and 12b in accordance with the compressor control signal of the controller 120. The outdoor fan motor driving unit 150 drives the outdoor fan motor 120 in accordance with the outdoor fan control signal of the controller 120, And the indoor fan motor driving unit 160 controls the driving of the indoor fan motors 54 and 74 according to the indoor fan control signal of the control unit 120. [

The valve driving unit 170 controls the amounts of opening of the four-way valve 14, the capillary tube 22, and the first and second electronic expansion valves 26 and 28 in accordance with the valve control signal of the control unit 120.

Hereinafter, a method of controlling a multi-type air conditioner according to an embodiment of the present invention will be described in detail.

Referring to FIG. 3, it is determined whether the indoor unit that does not communicate with the outdoor unit is currently in the cooling mode (operation 300).

The control unit 120 measures the suction temperature of the compressors 12a and 12b at the suction temperature sensor 80 and determines that the compressors 12a and 12b, which are measured by the suction temperature sensor 80, 12b.

Next, the control unit 120 compares the intake temperature of the compressors 12a and 12b with a predetermined target intake temperature 302. If the intake temperature of the compressors 12a and 12b is equal to or higher than the target intake temperature, The opening amount of the electronic expansion valve provided in the indoor unit is adjusted to be larger than the reference opening amount (303).

At this time, the opening amount of the electronic expansion valve provided in the indoor unit not communicating with the outdoor unit is adjusted in accordance with the temperature difference between the suction temperature of the compressor and the target suction temperature.

Conversely, when the intake temperature of the compressors 12a and 12b is lower than the target intake temperature, the control unit 120 adjusts the opening amount of the electronic expansion valve provided in the indoor unit not communicating with the outdoor unit to be smaller than the reference opening amount.

1 is a refrigerant flow chart of a multi-type air conditioner according to an embodiment of the present invention.

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

3 is a control flowchart for explaining a control process of the multi-type air conditioner according to the embodiment of the present invention.

Description of the Related Art [0002]

50, 70 ... first and second indoor units 80 ... suction temperature sensor

120 ... control unit 130 ... storage unit

Claims (4)

1. A control method for a multi-type air conditioner, which connects a plurality of indoor units to one outdoor unit and does not communicate with the outdoor units, A suction temperature of the compressor provided in the outdoor unit is measured, And controlling an amount of opening of an electronic expansion valve provided in an indoor unit that does not communicate with the outdoor unit based on a comparison result between the intake temperature of the compressor and a predetermined target intake temperature. 2. The electronic expansion valve according to claim 1, wherein adjusting the amount of opening of the electronic expansion valve comprises: Wherein the amount of opening of the electronic expansion valve provided in the indoor unit not communicating with the outdoor unit is controlled to be larger than the reference opening amount when the suction temperature of the compressor is equal to or higher than the target intake temperature. 2. The electronic expansion valve according to claim 1, wherein adjusting the amount of opening of the electronic expansion valve comprises: And controlling the opening amount of the electronic expansion valve provided in the indoor unit not communicating with the outdoor unit to be smaller than the reference opening amount when the suction temperature of the compressor is lower than the target intake temperature. The electronic expansion valve according to claim 1, Wherein the control is performed in accordance with a temperature difference between the suction temperature of the compressor and the target suction temperature.

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