KR101327910B1 - Capacity control method of multi type air-conditioner - Google Patents

Abstract

The present invention relates to a capacity control method of a multi-air conditioner for varying the capacity of the multi-air conditioner by selectively driving the variable compressor and the constant speed type compressor provided in the multi-air conditioner according to a plurality of indoor unit operating conditions, Receiving operation conditions of the indoor indoor unit; And driving a combination of the maximum capacity of the variable compressor and the minimum capacity and the capacity of the constant speed compressor such that the cooling capacity is varied according to the operating conditions of the indoor unit.

Description

CAPACITY CONTROL METHOD OF MULTI TYPE AIR-CONDITIONER}

The present invention relates to a capacity control method for a multi-air conditioner, and more particularly, to a variable air conditioner for varying the capacity of a multi-air conditioner by selectively driving a variable compressor and a constant speed type compressor provided in a multi-air conditioner according to a plurality of indoor unit operating conditions. It relates to a capacity control method.

In general, a separate air conditioner using a cooling cycle liquefies a refrigerant compressed in a compressor of an outdoor unit in a condenser and vaporizes it again in an evaporator of an indoor unit through an expansion valve. By cooling the room.

The multi-type air conditioner, which is a kind of the separate air conditioner, installs a plurality of compressors outdoors, and installs a plurality of spaces for cooling a plurality of indoor units, respectively, to cool the room.

The above description refers to the background of the technical field to which the present invention belongs, and does not mean the prior art.

As such, in the case of a multi-type air conditioner, there is a need to selectively drive a plurality of compressors for the most efficient performance distribution according to a plurality of indoor unit operating conditions.

Accordingly, an object of the present invention is to provide a capacity control method of a multi-air conditioner for varying the capacity of a multi-air conditioner by selectively driving the variable compressor and the constant speed compressor according to a plurality of indoor unit operating conditions.

A capacity control method of a multi-air conditioner according to an aspect of the present invention includes the steps of receiving the operating conditions of the indoor indoor unit and the plurality of wall-mounted indoor unit; And driving a combination of the maximum capacity of the variable compressor and the minimum capacity and the capacity of the constant speed compressor such that the cooling capacity is varied according to the operating conditions of the indoor unit.

In the present invention, the step of selectively driving the compressor is the maximum capacity of the variable compressor corresponds to the driving conditions of one stand type indoor unit, the minimum capacity corresponds to the driving conditions of one wall-mounted indoor unit, the capacity of the constant speed compressor It characterized in that it comprises a process of setting to correspond to the driving conditions of the two indoor wall-mounted indoor unit.

In the present invention, the step of selectively driving the compressor is the driving condition of the indoor unit, if the driving conditions of one of the wall-mounted indoor unit is driven with the minimum capacity of the variable compressor, if the driving conditions of the two wall-mounted indoor unit the constant speed type It is driven by the capacity of the compressor, and if the driving conditions of one stand type indoor unit is driven at the maximum capacity of the variable compressor, and if the driving conditions of one stand type indoor unit and one wall-mounted indoor unit, the minimum capacity and the constant speed type of the variable compressor It is driven by the capacity of the compressor, and if the driving conditions of the one of the stand-type indoor unit and the two wall-mounted indoor unit is characterized in that the drive with the maximum capacity of the variable compressor and the capacity of the constant speed compressor.

In the present invention, the step of selectively driving the compressor, the minimum capacity of the variable compressor corresponds to the driving conditions of one wall-mounted indoor unit, the capacity of the constant speed compressor corresponds to the driving conditions of two wall-mounted indoor unit, the variable compressor The combination of the minimum capacity and the capacity of the constant speed compressor corresponds to the driving condition of one stand type indoor unit, and the maximum capacity of the variable compressor and the capacity of the constant speed type compressor corresponds to the driving condition of one stand type indoor unit and one or two wall-mounted indoor units. It characterized in that it comprises a step of setting to correspond.

In the present invention, the step of selectively driving the compressor is the driving condition of the indoor unit, if the driving conditions of one of the wall-mounted indoor unit is driven with the minimum capacity of the variable compressor, if the driving conditions of the two wall-mounted indoor unit the constant speed type Drive at the capacity of the compressor, and if the driving conditions of one stand type indoor unit is driven with the minimum capacity of the variable compressor and the capacity of the constant speed compressor, and if the one of the stand type indoor unit and the wall-mounted indoor unit or two driving conditions It is characterized by driving at the maximum capacity of the variable compressor and the capacity of the constant speed compressor.

In the present invention, the capacity of the constant speed compressor is characterized in that the capacity smaller than the maximum capacity of the variable compressor and larger than the minimum capacity.

As described above, the present invention can selectively drive the capacity of the variable type compressor and the constant speed type compressor provided in the multi-air conditioner according to the driving conditions of the indoor unit, thereby exhibiting the optimal cooling ability with efficient performance distribution.

1 is a block diagram showing a multi-air conditioner according to an embodiment of the present invention.
2 and 3 are diagrams illustrating the compressor capacity of the multi-air conditioner according to an embodiment of the present invention.
4 is a diagram illustrating the operation of the compressor according to the operating conditions of the multi-air conditioner according to an embodiment of the present invention.
5 is a flowchart illustrating a capacity control method of a multi-acon according to an embodiment of the present invention.

Hereinafter, an embodiment of a capacity control method of a multi-air conditioner according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a block diagram showing a multi-air conditioner according to an embodiment of the present invention.

As shown in FIG. 1, the multi-air conditioner according to an exemplary embodiment of the present invention absorbs heat from a room, discharges cold air, and evaporates to a high temperature low pressure state, and a first to second wall-mounted indoor unit (a). 30b) 30c includes the indoor unit 30 connected in parallel.

In addition, the variable compressor 20a and the constant speed compressor 20b for receiving the refrigerant from the indoor unit 30 and compressing the high temperature and high pressure include a compressor 20 connected in parallel.

In addition, the condenser 10 for condensing the refrigerant conveyed from the compressor 20 to a low temperature and high pressure state, and the refrigerant condensed in the condenser 10 selectively stand-type indoor unit (30a) and the first to second wall-mounted indoor unit (30b) And first to third selector valves 40a, 40b, and 40c for conveying to (c) 30c.

In addition, the first to third expansion portions (50a, 50b, 50c) to rapidly expand the refrigerant branched from the first to third selection valve (40a, 40b, 40c) to the low-temperature low-pressure state to discharge to the indoor unit 30, respectively ).

In the multi-air conditioner according to the exemplary embodiment of the present invention, the refrigerant compressed by operating the selected compressor 10 according to the operating conditions of the indoor unit 30 is controlled by the first to third selection valves 40a, 40b, and 40c. Branched and transferred to the indoor unit (10).

Referring to the capacity control method of the multi-air conditioner made as described above is as follows.

2 and 3 are views illustrating the compressor capacity of the multi-air conditioner according to an embodiment of the present invention, Figure 4 is a view illustrating the operation of the compressor according to the operating conditions of the multi-air conditioner according to an embodiment of the present invention 5 is a flowchart for describing a capacity control method of a multi-acon according to an embodiment of the present invention.

2 to 4, first, the maximum capacity of the variable compressor 20a corresponds to one driving condition of the stand type indoor unit 30a, and the minimum capacity corresponds to one driving condition of the wall-mounted indoor unit 30b and 30c. The capacity of the constant speed compressor 20b is set to correspond to the driving conditions of two wall-mounted indoor units 30b and 30c.

Here, the capacity of the constant speed compressor 20b is set to be smaller than the maximum capacity of the variable compressor 20a and larger than the minimum capacity.

For example, in the case of a 15-flat 3-room multi-air conditioner, the capacity of the stand type indoor unit 30a is 6,000 W, the wall-mounted indoor units 30b, 30c are 2,300 W, respectively, and the maximum capacity of the variable compressor 20a is 6,007. W, the minimum capacity is 3,077W, and the capacity of the constant speed type compressor 20b is 4,660, the capacity of the compressor 20 according to the driving conditions of the indoor unit 30 can be set as shown in FIG.

4 to 5, first, an operating condition of the indoor unit 30 is received (S5).

At this time, if the driving condition of the indoor unit 30 is the driving condition of one of the wall-mounted indoor unit (S10) is driven to the minimum capacity of the variable compressor (20a) (S15). That is, when the driving condition of the indoor unit 30 is determined (S5) and the driving condition of one of the first wall-mounted indoor unit 30b or the second wall-mounted indoor unit 30c (S10), the required cooling load is variable to 2,300W. The compressor 20a is driven to the minimum capacity and supplied as 3,077W (S15).

In addition, if the driving condition of the indoor unit 30 is the driving condition of two wall-mounted indoor units (S20), it is driven by the capacity of the constant speed compressor 20b (S25). That is, in the case of driving conditions of the two first wall-mounted indoor units 30b and the second wall-mounted indoor units 30c (S20), the required cooling load is driven at 4,600W to supply 4,660W by the constant speed compressor 20b. (S25).

In addition, if the driving condition of the indoor unit 30 is one driving condition of the stand type indoor unit 30a (S30), it is driven at the maximum capacity of the variable compressor 20a. That is, in the case of a driving condition of one stand type indoor unit 30a (S30), the required cooling load is driven at 6,000W and the variable compressor 20a is driven at the maximum capacity and supplied at 6,007W (S35).

In addition, if the driving condition of the indoor unit 30 is the driving condition of one stand-type indoor unit 30a and one wall-mounted indoor unit (S40), it is driven by the minimum capacity of the variable compressor 20a and the capacity of the constant speed compressor 20b. That is, in the case of driving conditions of one stand indoor unit 30a, one first wall-mounted indoor unit 30b, or one second wall-mounted indoor unit 30c (S40), the required cooling load is 8,300W at a constant speed compressor 20b. ) And the variable compressor 20a are driven to a minimum capacity and supplied as 7,737W (S45).

In addition, if the driving condition of the indoor unit 30 is a driving condition of one stand type indoor unit 30a and two wall-mounted indoor units (S50), the driving capacity is driven by the maximum capacity of the variable compressor 20a and the capacity of the constant speed compressor 20b. That is, in the case of driving conditions of one stand indoor unit 30a, the first wall-mounted indoor unit 30b and the second wall-mounted indoor unit 30c (S50), the required cooling load is 10.600W at a constant speed compressor 20b. And drives the variable compressor 20a at maximum capacity and supplies 10,667 W (S55).

Thus, by selectively controlling the operation of the variable compressor 20a and the constant speed compressor 20b according to the capacity of the required cooling load corresponding to the operating conditions of the indoor unit 30, it is possible to exhibit the optimal cooling ability with efficient performance distribution. .

Meanwhile, as shown in FIGS. 2 and 3, in the case of the 18-ply three-room multi-air conditioner, the capacity of the stand type indoor unit 30a is 7,200W, and the wall-mounted indoor units 30b and 30c are 2,300W, respectively. The maximum capacity of 20a is 6,007W, the minimum capacity is 3,077W, and the capacity of the compressor 20 according to the driving conditions of the indoor unit 30 is 4 and 660 when the capacity of the constant speed compressor 20b is 4,660. It can be set together.

Referring to FIG. 4, in the case of an 18-ply 3-room multi-air conditioner, when the driving condition of the indoor unit 30 is one driving condition of the wall-mounted indoor unit, 3,077W is supplied by driving with the minimum capacity of the variable compressor 20a.

In addition, if the driving condition of the indoor unit 30 is a driving condition of two wall-mounted indoor units, it is driven by the capacity of the constant speed compressor 20b and supplies 4,660W.

In addition, if the driving condition of the indoor unit 30 is one driving condition of the stand type indoor unit 30a (S30), it is driven at the minimum capacity of the variable compressor 20a and the capacity of the constant speed compressor 20b and supplied to 7,737W.

In addition, if one of the stand type indoor unit (30a) and one or two wall-mounted indoor unit driving conditions are driven to the maximum capacity of the variable compressor (20a) and the capacity of the constant speed compressor (20b) to supply 10,667W.

As described above, the present invention can selectively drive the capacities of the variable compressor and the constant speed compressor provided in the multi-air conditioner according to the driving conditions of the indoor unit, thereby exhibiting optimal cooling capability with efficient performance distribution.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

10 condenser 20 compressor
20a: variable compressor 20b: constant speed compressor
30: indoor unit 30a: stand type indoor unit
30b: 1st wall-mounted indoor unit 30b: 2nd wall-mounted indoor unit
40a, 40b, 40c: first to third selector valves
50a, 50b, 50c: first to third inflation portions

Claims (6)

Receiving operation conditions of the indoor indoor unit and the plurality of wall-mounted indoor units; And
And driving a combination of the maximum capacity and the minimum capacity of the variable compressor and the capacity of the constant speed compressor such that the cooling capacity is variable according to the operating conditions of the indoor unit.
The capacity of the constant speed compressor is a capacity smaller than the maximum capacity of the variable compressor and larger than the minimum capacity, or capacity corresponding to the maximum capacity or the minimum capacity of the variable compressor characterized in that the air conditioner.
The method of claim 1, wherein selectively driving the compressor
The maximum capacity of the variable compressor corresponds to the driving condition of one stand type indoor unit, the minimum capacity corresponds to the driving condition of one wall type indoor unit, and the capacity of the constant speed compressor is set to correspond to the driving condition of two wall type indoor units. Capacity control method of a multi-air conditioner comprising a process.
3. The method of claim 2, wherein selectively driving the compressor
The operating conditions of the indoor unit,
If the driving conditions of the wall-mounted indoor unit is driven by the minimum capacity of the variable compressor,
If the driving conditions of the two wall-mounted indoor unit is driven by the capacity of the constant speed compressor,
If the driving conditions of the stand type indoor unit is driven by the maximum capacity of the variable compressor,
If the driving conditions of the stand-type indoor unit and one of the wall-mounted indoor unit is driven by the minimum capacity of the variable compressor and the capacity of the constant speed compressor,
And a drive capacity of the variable type compressor and the capacity of the constant speed type compressor if the driving conditions of the stand type indoor unit and the wall type indoor unit are two.
The method of claim 1, wherein selectively driving the compressor
The minimum capacity of the variable compressor corresponds to the driving conditions of one wall-mounted indoor unit, the capacity of the constant speed compressor corresponds to the driving conditions of two wall-mounted indoor units, the combination of the minimum capacity of the variable compressor and the capacity of the constant speed compressor is a stand type Corresponding to the driving conditions of one indoor unit, the combination of the maximum capacity of the variable type compressor and the constant speed type compressor includes a step of setting to correspond to the driving conditions of one or two indoor units and one wall-mounted indoor unit. How to control the capacity of air conditioners.
The method of claim 1, wherein selectively driving the compressor
The operating conditions of the indoor unit,
If the driving conditions of the wall-mounted indoor unit is driven by the minimum capacity of the variable compressor,
If the driving conditions of the two wall-mounted indoor unit is driven by the capacity of the constant speed compressor,
If the driving conditions of one stand type indoor unit is driven by the minimum capacity of the variable compressor and the capacity of the constant speed compressor,
And one or two wall-mounted indoor units and one or two wall-mounted indoor units to drive at the maximum capacity of the variable compressor and the capacity of the constant speed compressor.
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