KR20080059907A - Control method of multi type air conditioner - Google Patents

Abstract

A method for controlling a multi air conditioner is provided to prevent irregular amount of coolant from being discharged from different outdoor devices by regulating opening rate of an electronic expansion valve of the outdoor device for controlling discharging temperature of a constant speed compressor to be within a predetermined a temperature range. A method for controlling a multi air conditioner comprises the steps: sensing discharging temperature of a coolant discharged from an inverter compressor and a constant speed compressor(S10); judging whether discharging temperature of the constant speed compressor is within a predetermined temperature range or not(S40); and reducing a predetermined opening rate of an electronic expansion valve when the discharging rate is within the predetermined temperature range(S50).

Description

Control process of multi-type air conditioner

1 is a schematic perspective view showing a multi-type air conditioner according to the present invention;

2 is a configuration diagram of the multi-type air conditioner illustrated in FIG. 1,

3 is a flowchart illustrating a compressor control method of the multi-type air conditioner illustrated in FIG. 2.

<Explanation of symbols on main parts of the drawings>

11, 12, 13, 14: indoor unit 21, 22, 23: outdoor unit

51: indoor heat exchanger 54: indoor expansion valve

61: accumulator 62: inverter compressor

63: constant speed compressor 64: oil separator

65: four-way valve 66: capillary tube

70: outdoor heat exchanger 74: outdoor electromagnetic expansion valve

80: supercooling device 90: liquid injection device

The present invention relates to a control method of a multi-type air conditioner, and more particularly, multi-type air for equalizing the amount of refrigerant discharged from each outdoor unit by forming the discharge temperature of the constant speed compressor within a predetermined range with respect to the discharge temperature of the inverter compressor. It relates to a control method of the harmonic.

The multi-type air conditioner is operated by connecting a plurality of indoor units to one or more outdoor units. When at least one indoor unit is operated, the outdoor unit calculates a load accordingly and supplies refrigerant to the operated indoor unit.

Here, the outdoor unit is a large-capacity compressor is used to supply a sufficient amount of refrigerant to a plurality of indoor units, the compressor is composed of an inverter compressor in which the compression capacity of the refrigerant is varied according to the load of the room and a constant speed compressor having a predetermined amount of compression capacity do.

In addition, the outdoor unit of the multi-type air conditioner may be composed of the inverter compressor and the constant speed compressor, or a plurality of the constant speed compressor.

An object of the present invention is to provide a control method of a multi-type air conditioner that equalizes the amount of refrigerant discharged from each outdoor unit by forming the discharge temperature of the constant speed compressor within a predetermined range with respect to the discharge temperature of the inverter compressor.

A control method of a multi-type air conditioner according to the present invention includes an inverter compressor having a variable compression capacity of a refrigerant; A constant speed compressor for compressing a predetermined amount of refrigerant; An electronic expansion valve through which the refrigerant discharged from the inverter compressor and the constant speed compressor flows;

Detecting discharge temperatures (TA, TB) of the refrigerant discharged from the inverter compressor and the constant speed compressor; Determining whether the discharge temperature TA of the constant speed compressor is formed within a predetermined temperature range based on the discharge temperature TB of the inverter compressor; When the discharge temperature (TA) of the constant speed compressor is formed in the temperature range, it may include a step of reducing the opening amount of the electromagnetic expansion valve (B%).

Herein, the discharge temperature TA of the constant speed compressor is TB-T2 <TA <TB + T1, and T1 and T2 are constants other than 0, and the discharge temperature TA of the constant speed compressor is the discharge temperature of the inverter compressor. If greater than (TB), the method may further include increasing the opening amount of the electromagnetic expansion valve at a predetermined ratio (A%).

In particular, a plurality of outdoor units including the constant speed compressor, the inverter compressor, and the electromagnetic expansion valve are disposed, and the discharge temperature TA of the constant speed compressor is based on the discharge temperature TB of the inverter compressor. TB-T2 "<TA <" TB + T1 ") may be performed in each outdoor unit, respectively.

A control method of a multi-type air conditioner according to the present invention includes an inverter compressor having a variable compression capacity of a refrigerant; A constant speed compressor for compressing a predetermined amount of refrigerant; An electronic expansion valve through which the refrigerant discharged from the inverter compressor and the constant speed compressor flows;

Detecting discharge temperatures (TA, TB) of the refrigerant discharged from the inverter compressor and the constant speed compressor; A first comparing step of comparing whether the discharge temperature TA of the constant speed compressor is greater than a predetermined temperature T1 based on the discharge temperature TB of the inverter compressor; When the discharge temperature TA of the constant speed compressor does not satisfy the first comparison step, the discharge temperature TA of the constant speed compressor is smaller than a predetermined temperature T2 based on the discharge temperature TB of the inverter compressor. A second comparison step of comparing the indexes; When the discharge temperature TA of the constant speed compressor satisfies the second comparison step, the opening amount of the electromagnetic expansion valve may be reduced by a predetermined ratio (B%).

Here, when the discharge temperature TA of the constant speed compressor satisfies the first comparison step, the opening amount of the electromagnetic expansion valve is increased at a predetermined ratio (A%), and the discharge temperature TA of the constant speed compressor is If the second comparison step is not satisfied, the opening amount of the electromagnetic expansion valve can be maintained.

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

1 is a schematic perspective view showing a multi-type air conditioner according to the present invention, and FIG. 2 is a configuration diagram of the multi-type air conditioner shown in FIG. 1.

As shown in FIG. 1 or 2, the multi-type air conditioner according to the present invention includes a plurality of indoor units 11, 12, 13, 14 installed in the interior of a building, and the indoor units 11, 12. And an outdoor unit (21) 22 (23) connected to (13) (14), wherein the indoor unit (11) (12) (13) (14) and the outdoor unit (21) (22) (23) Refrigerant pipes 30 and 40 are connected through.

The outdoor units 21, 22, 23 are driven by the request of at least one of the indoor units 11, 12, 13, 14, and the indoor units 11, 12, 13, ( As the cooling / heating capacity required by 14 increases, the number of operations of the outdoor units 21, 22, 23 and the number of operations of the compressors disposed in the outdoor units 21, 22, 23 increase.

Here, the indoor units 11, 12, 13, and 14 are indoor heat exchangers 51 for exchanging refrigerant and indoor air, and indoor blowers installed near the indoor heat exchangers 51 to circulate indoor air. 52 and an indoor expansion valve 54 for expanding the refrigerant flowing to the indoor heat exchanger 51 when cooling.

As illustrated in FIG. 2, the outdoor units 21, 22, and 23 receive an accumulator 61 extracting only a gas refrigerant from the refrigerant supplied from the indoor unit, and a gas refrigerant extracted from the accumulator 61. Compressors 62, 63 and 67 to compress, a four-way valve 65 connected to the compressors 62 and 63 to select a flow path of the compressed refrigerant, and a refrigerant supplied from the four-way valve 65. And an outdoor heat exchanger 70 for heat-exchanging outdoor air.

Here, the first outdoor unit 21 is provided with an inverter compressor 62 and a constant speed compressor 63, and the second and third outdoor units 22 and 23 are provided with only a plurality of constant speed compressors 67, and the inverter compressor 62 Is a compressor capable of varying the compression capacity of the refrigerant, and the constant speed compressors 63 and 67 are compressors having a constant compression capacity of the refrigerant.

In addition, the inverter compressor 62 is responsible for 70% of the compression capacity of the first outdoor unit 21, the constant speed compressor 63 installed in the first outdoor unit 21 is responsible for the remaining 30%, the remaining outdoor unit 22 The constant speed compressor (67) of the (23) is responsible for a compression capacity of 50% each.

On the other hand, an oil separator 64 is installed in a pipe connecting the compressors 62 and 63 and the four-way valve 65, and the oil separator 64 is provided at the suction side of the compressors 62 and 63. Connected.

In addition, a pressure sensor 107 is installed between the oil separator 64 and the compressors 62, 63, 67 to sense the pressure of the refrigerant discharged from the compressors 62, 63, 67.

In particular, the oil separator 64 separates oil from the refrigerant discharged from the compressors 62 and 63, and supplies the separated oil to the compressors 62 and 63 to supply the compressors 62 and 63. Maintain an appropriate amount of oil inside. And the suction side pipe of the oil separator 64 and the compressor 62, 63 is connected through a capillary tube 66, the oil is moved through the capillary tube 66.

The refrigerant pipe 30 for guiding the refrigerant discharged from the outdoor heat exchanger 70 to the indoor heat exchanger 51 includes an outdoor electromagnetic expansion valve lev and 74 for expanding the refrigerant upon heating and the indoor during cooling. Sub-cooling device 80 for cooling the refrigerant moved to the heat exchanger 51, and a liquid injection device 90 for lowering the temperature of the compressor (62, 63) is provided.

Here, the outdoor electromagnetic expansion valve 74 is fully open during cooling to allow the refrigerant condensed in the outdoor heat exchanger to pass through without expansion, but when heated, the outdoor electromagnetic expansion valve 74 is opened to a predetermined size to convey the refrigerant condensed in the indoor heat exchanger 51. Before entering the outdoor heat exchanger 70 is expanded to a liquid in a spray state.

Meanwhile, in the refrigerant pipe 30 in which the outdoor electromagnetic expansion valve 74 is installed, a bypass flow path is formed for smooth movement of the refrigerant moved through the outdoor electromagnetic expansion valve 74 when cooling, and a check valve is provided in the bypass flow path. It is arranged to move the refrigerant to the outdoor electromagnetic expansion valve 74 when heating.

In addition, a dryer 110 is installed in the refrigerant pipe 30 ″ to remove moisture in the refrigerant pipe 30 ″, and the refrigerant passing through the dryer 110 is bypassed in the refrigerant pipe 30 ″. And flows to the indoor heat exchanger (51) side.

Hereinafter, the operation of the outdoor unit according to the present invention will be described in more detail with reference to FIG. 3.

3 is a flowchart illustrating a compressor control method of the multi-type air conditioner illustrated in FIG. 2.

First, when at least one of the indoor unit is operated, the control unit of the multi-type air conditioner takes into account the indoor temperature (11, 12) (13) (14) in consideration of the temperature difference between the desired temperature and the set temperature and the temperature difference between the outdoor temperature and the indoor temperature. Calculate the load.

The number of operations of the outdoor units 21, 22, 23 is determined according to the load of the indoor unit, and the control unit operates the outdoor units 21, 22, 23.

Herein, when the outdoor units 21, 22 and 23 are operated, the controller may control the inverter compressor through the respective temperature sensors 108 disposed on the discharge side of the outdoor units 21, 22 and 23. The discharge temperature TA of 62 and the discharge temperature TB of the constant speed compressor 63 are measured. (S10)

The controller compares the discharge temperature TA and TB (S20), and compares whether the discharge temperature TA of the constant speed compressor is greater than the discharge temperature TB of the inverter compressor.

In particular, the present embodiment compares whether the first comparison formula "TA> TB + T1 ° C" of the first comparison step S20 is satisfied.

Thus, when the discharge temperature TA satisfies the conditional expression of S20, the electronic expansion valve 74 of the main outdoor unit 21 in which the inverter compressor 62 is disposed is opened by A% (S30), and the controller detects the discharge temperature. Return to step S10.

On the other hand, if the first comparison formula of the first comparison step (S20) does not satisfy, the control unit performs a second comparison step (S40) for comparing the case of the discharge temperature TA, TB.

The second comparison formula of the second comparison step S40 is

TA <TB -T2 ℃

When the second comparison formula is satisfied, the electronic expansion valve 74 of the main outdoor unit 21 is closed by B% (S50), otherwise the electronic expansion valve 74 is kept in the current state. (S60)

When the electromagnetic expansion valve 74 is opened at a predetermined ratio (A%) through the electromagnetic expansion valve opening step (S30), the pressure on the discharge side of the inverter compressor 62 and the constant speed compressor 63 is lowered. As a result, as the refrigerant flows smoothly through the constant speed compressor 63, the temperature of the constant speed compressor 63 is lowered.

On the other hand, when the electromagnetic expansion valve 74 is closed at a predetermined ratio (B%) through the electromagnetic expansion valve closing step (S50), the refrigerant flowing between the constant speed compressor 63 and the electromagnetic expansion valve 74 As the flow resistance increases, the discharge side pressure of the constant speed compressor 63 is increased, thereby raising the temperature of the constant speed compressor 63.

That is, the discharge temperature of the constant speed compressor 63 is affected by the opening and closing degree of the electromagnetic expansion valve 74, the present invention is the discharge temperature (TA,) of the constant speed compressor (63) and the inverter compressor (62) By adjusting the opening amount of the electromagnetic expansion valve 74 through TB), the amount of refrigerant discharged from the outdoor units 21, 22, 23 is adjusted.

Thus, the present embodiment causes the discharge temperature TA of the constant speed compressor 63 to be formed within a predetermined temperature range ("TB-T2" <TA <"TA-T1"), so that each of the outdoor units 21 (22) The amount of the refrigerant discharged from the 23) is controlled to be equal to each other.

As described above, the control method according to the embodiment of the present invention controls the amounts of the refrigerant discharged from the outdoor units 21, 22 and 23 to be equal to each other, so that the refrigerant supplied to the indoor units 11 to 14 is equally distributed. By supplying, it is possible to effectively eliminate the unbalance of the amount of refrigerant between each indoor unit or outdoor unit of the multi-type air conditioner.

On the other hand, unlike the control method of the first embodiment, instead of comparing the discharge temperature of the constant speed compressor and the discharge temperature of the inverter compressor in the first and second comparative expressions, the discharge temperature of each constant speed compressor 67 disposed in the second and third outdoor units By comparing this, the electromagnetic expansion valve 74 of each of the second and third outdoor units can be controlled, and the amount of opening of the electromagnetic expansion valve of each outdoor unit can be adjusted regardless of the type of constant speed or inverter compressor.

In addition, the present invention is not limited to the embodiments and drawings disclosed herein, and may be applied by those skilled in the art within the scope of the technical idea of the present invention.

In the control method of the multi-type air conditioner according to the present invention, the opening temperature of the electronic expansion valve of the outdoor unit is adjusted so that the discharge temperature TA of the constant speed compressor is formed within a predetermined range with respect to the inverter compressor TB, and is discharged from each outdoor unit. The amount of the coolant is uniformed, thereby effectively eliminating the unbalance of the coolant amount between the outdoor units.

Claims (7)

An inverter compressor having a variable compression capacity of the refrigerant; A constant speed compressor for compressing a predetermined amount of refrigerant; An electronic expansion valve through which the refrigerant discharged from the inverter compressor and the constant speed compressor flows; Detecting discharge temperatures (TA, TB) of the refrigerant discharged from the inverter compressor and the constant speed compressor; Determining whether the discharge temperature TA of the constant speed compressor is formed within a predetermined temperature range based on the discharge temperature TB of the inverter compressor; If the discharge temperature (TA) of the constant speed compressor is formed in the temperature range, the control method of the multi-type air conditioner, comprising the step of reducing the opening amount of the electromagnetic expansion valve (B%). The method according to claim 1, The discharge temperature (TA) range of the constant speed compressor is TB-T2 <TA <TB + T1 And wherein T1 and T2 are constants other than zero. The method according to claim 1, When the discharge temperature (TA) of the constant speed compressor is larger than the discharge temperature (TB) of the inverter compressor, increasing the opening amount of the electromagnetic expansion valve by a predetermined ratio (A%) of the multi-type air conditioner Control method. The method according to any one of claims 1 to 3, A plurality of outdoor units including the constant speed compressor, the inverter compressor, and the electromagnetic expansion valve are disposed, The step of determining whether the discharge temperature (TA) of the constant speed compressor is formed within a predetermined temperature range ("TB-T2" <TA <"TB + T1") on the basis of the discharge temperature (TB) of the inverter compressor is each outdoor unit Control method of the multi-type air conditioner respectively performed in. An inverter compressor having a variable compression capacity of the refrigerant; A constant speed compressor for compressing a predetermined amount of refrigerant; An electronic expansion valve through which the refrigerant discharged from the inverter compressor and the constant speed compressor flows; Detecting discharge temperatures (TA, TB) of the refrigerant discharged from the inverter compressor and the constant speed compressor; A first comparing step of comparing whether the discharge temperature TA of the constant speed compressor is greater than a predetermined temperature T1 based on the discharge temperature TB of the inverter compressor; When the discharge temperature TA of the constant speed compressor does not satisfy the first comparison step, the discharge temperature TA of the constant speed compressor is smaller than a predetermined temperature T2 based on the discharge temperature TB of the inverter compressor. A second comparison step of comparing the indexes; And if the discharge temperature (TA) of the constant speed compressor satisfies the second comparison step, reducing the opening amount of the electromagnetic expansion valve by a predetermined ratio (B%). The method according to claim 5, And if the discharge temperature TA of the constant speed compressor satisfies the first comparison step, increasing the opening amount of the electromagnetic expansion valve at a predetermined ratio (A%). The method according to claim 5, And controlling the opening degree of the electromagnetic expansion valve when the discharge temperature TA of the constant speed compressor does not satisfy the second comparison step.

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