KR101064372B1 - Apparatus for controlling a refrigerant of multi air conditioner - Google Patents

Abstract

In order to apply a single pipe system designed to realize a connection between one outdoor unit and a plurality of indoor periods through a distributor control system, in a multi air conditioner in which a plurality of indoor units are connected to one outdoor unit, Is capable of communicating with an indoor unit, comprising a distributor for controlling the supply of refrigerant to the plurality of indoor units in accordance with a control signal transmitted from the outdoor unit, the distributor controls the amount of refrigerant supplied to each of the plurality of indoor units, A plurality of electromagnetic expansion sides provided in the same number as the number of the indoor units, and a distributor control unit for controlling opening / closing of each of the plurality of electronic expansion sides through communication with the outdoor unit, and according to the cooling capability of the plurality of indoor units. , The amount of refrigerant controlled by the electromagnetic expansion side corresponding to each indoor unit is controlled. In the conventional multi-pipe system that connects the indoor unit of the outdoor unit in the multi-air conditioner, it is possible to control between the outdoor unit and the plurality of indoor units by the single pipe method through the distributor control system. In addition, the manufacturing cost can be lowered, and since the distance between the outdoor unit and the indoor period is separated by several M or more, the installability such as increasing the number of connecting pipes is poor. Equipped with a distributor, thereby shortening the connection pipe has the effect of convenient installation.

Multi Air Conditioner / Distributor

Description

Refrigerant control device for multi air conditioners {Apparatus for controlling (a) refrigerant of multi air conditioner}

1 is a state diagram showing a cooling cycle of a typical single air conditioner

2 is a state diagram showing a heating cycle of a typical single air conditioner

3 is a view showing the installation state of the multi-air conditioner according to the prior art

4 is a view showing the outdoor unit / indoor connection relationship of the multi-air conditioner according to the prior art

Figure 5 is a block diagram showing a multi air conditioner according to the prior art

6 is a view showing the installation state of the multi-air conditioner according to the present invention

7 is a block diagram showing a refrigerant control device of a multi-air conditioner according to the present invention.

Explanation of symbols for main parts of the drawings

300: outdoor unit 310: outdoor unit control unit

400: divider 410: first divider

411: outdoor unit communication control unit

412: power supply unit 413: display unit

414: splitter micom 415: indoor unit communication control unit

416: electronic expansion control unit                 

417: electronic expansion valve

420: second distributor 500: indoor unit

501 to 506: first to sixth indoor units

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to a refrigerant control apparatus of a multi-air conditioner, in which a multi-air conditioner in which a plurality of indoor units are connected to one outdoor unit can control a refrigerant in each room of the indoor unit.

In general, air conditioners are home appliances for maintaining indoor air in a state most suitable for use and purpose. For example, in the summer, the room is cooled to a cool state, in winter, the room is heated to a warm state, and also the humidity of the room, and the air in the room to a clean state. As life convenience products such as air conditioners are gradually expanded and used, consumers are demanding high energy use efficiency, performance improvement and convenience products.

These air conditioners are separate type air conditioners separated from indoor units and outdoor units, integral air conditioners combined with indoor units and outdoor units as a unit, wall-mounted air conditioners and frame type air conditioners configured to be mounted on a wall, and set up in a living room. Slim air conditioner configured to be able to operate, single air conditioner configured to be used in a small place such as home, composed of capacity to drive one indoor unit, and medium to large air conditioner composed of very large capacity for use in a company or restaurant And a multi-air conditioner having a capacity capable of sufficiently driving a plurality of indoor units.

Here, the separate type air conditioner is configured to be installed indoors to supply hot air or cold air into the air conditioning space, and an outdoor unit for compressing, expanding, etc. the refrigerant so that sufficient heat exchange operation can be performed in the indoor unit.

In addition, the multi-air conditioner includes a plurality of indoor units and one or more outdoor units so that sufficient hot air or cold air can be individually supplied into each air-conditioning space in a place having a plurality of air-conditioning spaces separated like a school.

However, the multi-air conditioner must have a capacity of an outdoor unit capable of driving all of the plurality of indoor units even if the plurality of indoor units are all operated at 100% output state. That is, the outdoor unit of the multi-air conditioner should have a capacity proportional to that when the plurality of indoor units are all operated at 100% output state.

Hereinafter, an air conditioner and a control apparatus according to the related art will be described with reference to the accompanying drawings.

1 is a state diagram showing a cooling cycle of the air conditioner according to the prior art, Figure 2 is a state diagram showing a heating cycle of the air conditioner according to the prior art.

A general air conditioner is a device that lowers the indoor temperature by discharging cold air generated through a process of compressing, condensing, expanding, and evaporating a refrigerant into an interior, and is classified into an outdoor unit installed in an outdoor side and an indoor unit installed in an indoor side. The outdoor unit includes a compressor 10 and an accumulator 20, a four-way valve 11, an outdoor heat exchanger 12, and an outdoor fan 13. The indoor unit includes an expansion valve 14 and an indoor heat exchanger. It consists of 15 and the indoor fan 16. As shown in FIG.

In addition, in the case of the air conditioner, a plurality of indoor units may be used in a multi form in which a plurality of indoor units are connected to one outdoor unit to cool or heat a plurality of indoor spaces.

Looking at the cooling process of the air conditioner configured as described above, as shown in Figure 1, the low-temperature low-pressure gas phase refrigerant introduced into the compressor 10 from the indoor heat exchanger 15 through the pressurizing action of the compressor 10 While being pressurized to a gaseous state of high temperature and high pressure, it is discharged to the outdoor heat exchanger 12 through a four-way valve 11 switched to achieve a cooling cycle, and the refrigerant discharged to the outdoor heat exchanger 12 is the outdoor heat exchanger. While the inside of the air (12) flows through the outdoor fan 13 to drive the heat exchanged with the outside air sucked into the outdoor unit to achieve a phase change to a liquid state of room temperature and high pressure.

The refrigerant changed in phase as described above is discharged to the expansion valve 14 and at the same time, it is reduced in a liquid state of low temperature and low pressure so as to easily evaporate while flowing inside the expansion valve 14 to the indoor heat exchanger 15. The refrigerant discharged to the indoor heat exchanger (15) undergoes heat exchange with the ambient air of the indoor heat exchanger (15) to form a phase change to a low temperature low pressure gas phase state, and then again through the four-way valve (11). It is introduced into the compressor (10).

As described above, the ambient air heat-exchanged with the refrigerant decompressed through the expansion valve 14 in the indoor heat exchanger 15 is changed into cold cold while depriving heat of the refrigerant, and the cold air passes through the indoor fan 16. As it is discharged into the room, the cooling process of the air conditioner is completed.

In addition, the heating process of the air conditioner, which forms a cycle opposite to the above-described cooling process, as shown in Figure 2, the low-temperature low-pressure gas phase refrigerant introduced into the compressor 10 from the outdoor heat exchanger 12 is a compressor (10). Pressurized to a gaseous state of high temperature and high pressure through the pressurizing action, and is discharged to the indoor heat exchanger 15 through the four-way valve 11 switched to achieve a heating cycle to exchange heat with ambient air of the indoor heat exchanger 15. After the phase change to the liquid phase of the room temperature and high pressure through the discharge valve 14, the ambient air heat-exchanged with the gaseous refrigerant of high temperature and high pressure is changed to hot air by the heat of the refrigerant, and the indoor fan ( 16) is discharged to the room to increase the temperature of the room.

In addition, the refrigerant discharged to the expansion valve 14 is reduced to a liquid state of low temperature and low pressure so that the evaporation operation can be smoothly performed in the outdoor heat exchanger 12 and then discharged to the outdoor heat exchanger 12, the outdoor heat exchange The refrigerant discharged to the air 12 is phase-changed to a low-temperature, low-pressure gas phase state by heat exchange with external air introduced into the outdoor unit, and then flows back into the compressor 10 through the four-way valve 11.

However, in the air conditioner configured as described above, one or more compressors 10 are installed in the outdoor unit according to the load capacity of the indoor unit, and the variable load of the indoor unit in the state where the one or more compressors 10 are installed in the outdoor unit as described above. When one or more compressors 10, that is, a plurality of compressors 10 are operated simultaneously according to (cooling / heating load), the oil in the compressor 10 is discharged together with the pressurized refrigerant to form a cycle, and then gaseous liquid Through the accumulator 20, which is a separator, it is re-suctioned into each compressor 10. At this time, in the case of oil, the oil is introduced into the compressor 10 having a large capacity in the process of being re-sucked with the refrigerant. As a result, a small amount flows into the compressor 10 having a smaller capacity, resulting in a shortage of oil.

These air conditioners are classified into various types according to the function or the configuration of the unit. In terms of function, the air conditioners can be classified into cooling only, cooling and dehumidification only, and cooling and heating. It is divided into an integrated type installed in a window, etc., and a separate type for separately installing a cooling device on an indoor side and a heat dissipation and compression device on an outdoor side.

The separate air conditioner also includes a multi that connects two or more indoor units to one outdoor unit to air-condition a plurality of indoor spaces, respectively.

In addition, the multi air conditioner is provided with a cooling capacity control system for automatically controlling the cooling capacity to maintain the room temperature close to the set value, the cooling capacity control system is a simple control type using a constant speed compressor, variable It is divided into variable control type using a compressor.

The simple control type is a method in which the compressor is stopped when the room temperature is lower than the limit range (about 1 ° C) based on the set temperature, and the compressor is restarted when the room temperature is higher than the limit range (about 1 ° C). Since the room temperature rises and falls by the upper and lower limit ranges (about 2 ° C.) around the set temperature, the user may not feel comfortable, and the compressor is repeatedly operated / stopped to increase power consumption.                         

In recent years, inverter type air conditioners that convert a cooling capacity of an air conditioner by controlling a number of revolutions of the compressor by installing a converter and an inverter in an air conditioner have been widely used.

Here, the converter receives a commercial AC power supply (typically 220V / 60Hz) and converts it into direct current to rectify it from direct current to direct current (DC), and the inverter converts the direct current into voltage / frequency of the desired alternating current. Say the device.

Hereinafter, multi air conditioners according to the prior art will be described with reference to the accompanying drawings.

3 is a view showing a state of installation of a multi-air conditioner according to the prior art, Figure 4 is a view showing a multi-air conditioner according to the prior art, Figure 5 is a view of the outdoor unit controller of the multi-air conditioner according to the prior art A block diagram showing the configuration.

As shown in FIG. 3, the multi-air conditioner according to the related art is connected to two or more indoor units in one outdoor unit. That is, the conventional multi-air conditioner is connected to the first and second indoor units 210 and 220 installed in one outdoor unit 100, and the refrigerant supplied to the first and second indoor units 210 and 220, respectively. A flow path switching valve (not shown) for opening and closing is provided, and the flow path switching valve (not shown) is controlled by the control unit described later.

In general, a multi-air conditioner is provided with an indoor unit having a corresponding capacity even when a plurality of indoor units are all operated at 100% output state. However, in the single type air conditioner proposed in the present invention, although the first and second indoor units 210 and 220 are connected to one outdoor unit 100, the outdoor unit 100 operates with one indoor unit at 100% capacity. When it is configured to the corresponding capacity.

Thus, although it is impossible for both the first and second indoor units 210 and 220 to be operated at 100% capacity, the first and second indoor units 210 and 220 may be selectively operated at 100% capacity, or some It is possible to operate simultaneously at the capacity.

That is, in the air conditioner of the present invention, one indoor unit is additionally installed in a separate space according to a user's option in the state in which only one indoor unit corresponding to the outdoor unit is installed to configure the system.

As illustrated in FIG. 5, the outdoor unit controller of the multi-air conditioner includes a first PCB 100 that receives commercial power and rectifies the power, and receives a rectified power through the first PCB 100. According to the second PCB 120 for supplying driving power to the compressor 140, the power is supplied through the first PCB 110, the communication with the first and second indoor units (210, 220) According to the result is composed of a third PCB 130 for outputting a control signal for controlling the cooling capacity. At this time, the compressor 140 is an AC or DC driven inverter compressor.

The first PCB 110 includes a power input unit 111 for receiving commercial power and a noise filter 112 for filtering noise from commercial power input through the power input unit 111.                         

The second PCB 120 receives the power outputted through the first PCB 110 and receives a converter unit 121 to compensate for the power factor and the power factor whose power factor is compensated by the converter unit 121. The inverter unit 122 is configured to differentially drive the compressor 140 according to the cooling capacity of the indoor units 210 and 220.

The third PCB 130 includes a detector 131 for detecting various conditions, a microcomputer 42 for outputting a control signal according to a condition detected by the detector 131, and a user's request, and the microcomputer A load driver 134 for driving a load according to the control signal of 42, a communication control unit 133 for outputting a control signal to the first and second indoor units 210, 220, and the microcomputer ( The PSC control unit 135 outputs a control signal so that the power factor can be compensated in the converter 121 according to the control signal of 42.

Referring to the control device operation of the multi-air conditioner according to the prior art configured as described above, according to the operating state of the first and second indoor unit (210, 220), the microcomputer (42) is the detection unit 131 According to various conditions sensed through and the cooling capacity of the indoor unit to be operated by subdividing the compression capacity of the compressor 140 can be driven to maintain a stable indoor temperature.

However, the multi-air conditioner according to the prior art is difficult to manufacture when the outdoor unit is manufactured by being connected to a plurality of indoor units in a multi-pipe method, and since the indoor and outdoor spaces are more than a predetermined distance, the connection pipe becomes long and the manufacturing cost increases. There was this.

In addition, since the length of the power supply and communication lines of the indoor unit and the outdoor period is limited, there is a problem in installation.

The present invention has been made to solve the above problems, and an object thereof is to control the connection between one outdoor unit and a plurality of indoor periods in a short pipe method.

In addition, the multi-air conditioner according to the present invention has another object to be designed to be realized through the distributor control system.

As described above, the multi-air conditioner according to the present invention includes a multi-air conditioner connected to a plurality of indoor units in one outdoor unit, and a multi-air conditioner connected to a plurality of indoor units in one outdoor unit. Communication is possible, and comprises a distributor for controlling the supply of refrigerant to the plurality of indoor units in accordance with a control signal transmitted from the outdoor unit, the distributor controls the amount of refrigerant supplied to each of the plurality of indoor units, the indoor unit And a distributor controller configured to control the opening / closing of each of the plurality of electronic expansion valves through communication with the outdoor unit, the plurality of electronic expansion edges being provided in the same number as the number of? Characterized in that the amount of refrigerant is controlled by the expansion expansion corresponding to the indoor unit do.

Preferably, the distributor controller controls the operation of the distributor according to information input through the indoor unit communication control unit for communicating with the plurality of indoor units, the outdoor unit communication control unit for communicating with the outdoor unit, and the indoor unit communication control unit and the outdoor unit communication control unit. And a display unit for displaying an operating state of the distributor according to the control signal of the microcomputer, a distributor microcomputer, an electronic expansion valve control unit for controlling opening / closing of the electronic expansion valve according to the control signal of the microcomputer. There is this.

More preferably, the electron expansion valve is mounted in the same number as the number of indoor units.

Hereinafter, a refrigerant control apparatus of a multi-air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

6 is a view showing an installation state of the multi-air conditioner according to the present invention, Figure 7 is a block diagram showing a refrigerant control device of the multi-air conditioner according to the present invention.

As shown in FIG. 6, the multi-air conditioner according to the present invention may be similar to the conventional one in which two or more indoor units are connected to one outdoor unit. However, the present invention may control a plurality of indoor units through the distributor 400. will be.

That is, in the conventional multi-air conditioner, a plurality of first to sixth indoor units 501 to 506 are not directly connected to one outdoor unit 100, and the first to sixth indoor units 501 to 506 are installed. In order to efficiently open and close the refrigerant according to a place, the distributor 400 for opening and closing the refrigerant supplied to the first to sixth indoor units 501 to 506, respectively, is the outdoor unit 300 and the first to sixth indoor units 501. To 506).

In this case, the distributor 400 includes a first distributor 401 for controlling the opening and closing of the refrigerant of the first to third indoor units 501 to 503 and the refrigerant of the fourth to sixth indoor units 504 to 506. And a second distributor 402 for controlling the opening and closing. Here, the number of indoor units connected to the first distributor 401 and the second distributor 402 may vary depending on the installation distance or position.

The distributor 400 configured as described above includes a distributor controller 410 to control the refrigerant of the plurality of indoor units 501 to 506 according to a command transmitted from the outdoor unit 100.

As described above, in the refrigerant control apparatus of the multi-air conditioner according to the present invention, only the first to third indoor units 501 to 503 are connected to the distributor in the first to sixth indoor units 510 to 506 illustrated in FIG. For example, as follows.

That is, as shown in Figure 7, the control unit receives a control signal transmitted from the outdoor unit controller 310, the distributor control unit 410 for adjusting the amount of refrigerant distributed to the plurality of indoor units (501 ~ 506), and the distributor control unit The electronic expansion valve 417 controls the amount of refrigerant supplied to the plurality of indoor units 501 to 506 according to the control signal of 410.

The distributor control unit 410 is an outdoor unit communication control unit 411 communicating with the control signal transmitted from the outdoor unit control unit 310, the power supply unit 412 for supplying power to the distributor 400 and a plurality of indoor units and A display unit 413 for displaying an operation state of the distributor 400, an indoor unit communication control unit 415 for controlling operations of the plurality of indoor units 501 to 503, and the outdoor unit communication control unit 415. And an operation of the distributor microcomputer 414 controlling the operation of the electronic expansion valve 417 according to the communication with the indoor unit communication control unit 415, and the operation of the electronic expansion valve 417 according to the control signal of the distributor microcomputer 414. Electronic expansion valve control unit 416 to control.

The indoor unit communication control unit 415 may include a first indoor unit communication control unit 415a for communicating with the first indoor unit 501 and a second indoor unit communication control unit for communicating with the second indoor unit 502. 415b and a third indoor unit communication control unit 415c for communicating with the third indoor unit 503.

In addition, the electronic expansion side control unit 416 may include a first LEV control unit 416a for outputting a control signal to a first electromagnetic expansion side (LEV) 417a for controlling the amount of refrigerant supplied to the first indoor unit 501, To the second LEV control unit 416b and the third indoor unit 503 for controlling the amount of refrigerant supplied to the second electronic expansion edge (LEV) 417b for controlling the amount of refrigerant supplied to the second indoor unit 502. A third LEV control unit 416c for controlling the amount of refrigerant supplied to the third LEV 417c for controlling the amount of refrigerant supplied.

Referring to the operation of the refrigerant control device of the multi-air conditioner according to the present invention configured as described above are as follows.

When the user inputs a power-on command, the indoor unit and the outdoor unit 300 of the plurality of indoor units are driven, and as the outdoor unit 300 is driven, the indoor unit 500 communicates with the distributor 400. The control signal for controlling the amount of the refrigerant supplied to the output to control the opening / closing of the electronic expansion edge 417.

A single pipe is connected between the outdoor unit 300 and the distributor 400, and the outdoor unit 300 and the distributor 400 communicate with each other to transmit information, and the distributor 400 and the plurality of indoor units 500 communicate with each other. As a result, refrigerant control may be performed through the distributor control system.

That is, the outdoor unit communication unit 310 of the outdoor unit and the outdoor unit communication control unit 411 of the distributor control unit 410 communicate with each other, the indoor unit communication control unit 415 of the distributor control unit 410 and the plurality of indoor units 501. Communication with 503).

Accordingly, the distributor controller 410 selectively drives the first to third LEVs 417a to 417c of the electronic expansion edge 417 through communication between the outdoor unit communication controller 411 and the distributor microcomputer 414. And a dispenser microcomputer 414 is also communicated with the first to third indoor unit communication control units 415a to 415c to communicate with the first to third indoor units 501, 502 and 503. The control signal is output to the electronic expansion side control unit 416 according to the cooling capacity of the).

The first and third LEV controllers 416a to 416c may open / close the first to third LEVs 417a to 417c according to the control signal of the distributor microcomputer 414. Selective control of the lungs.

Therefore, the multi-air conditioner according to the present invention is designed by connecting the outdoor unit to the indoor period through the distributor control system, thereby the first to third LEVs 417a to 417c from the outdoor unit controller 310 in the distributor controller 410. In response to the driving command, the distributor controller 410 may control the amount of refrigerant supplied to the first to third indoor units 501 to 503.

As described above, the multi-air conditioner according to the present invention has the following effects.

First, in the multi-air conditioner in the conventional multi-pipe system connecting the indoor unit of the outdoor unit can be controlled in a single pipe method through the distributor control system between the outdoor unit and the plurality of indoor units.

Secondly, unlike the conventional method in which a plurality of connecting pipes are applied by controlling in a single pipe method, manufacturing costs can be reduced.

Third, since the distance between the outdoor unit and the indoor period is more than a few meters long, the installation is bad, such as increasing the number of connecting pipes. Shorter piping makes installation easier.

Claims (4)

In a multi air conditioner in which a plurality of indoor units are connected to one outdoor unit, It is possible to communicate with the outdoor unit and the plurality of indoor units, and comprises a distributor for controlling the supply of refrigerant to the plurality of indoor units in accordance with a control signal transmitted from the outdoor unit, The distributor may control the amount of refrigerant supplied to each of the plurality of indoor units, and the plurality of electromagnetic expansion sides provided in the same number as the number of the indoor units; A distributor controller configured to control opening / closing of each of the plurality of electronic expansion valves through communication with the outdoor unit; Refrigerant control apparatus of the multi-air conditioner according to the cooling capacity of the plurality of indoor units, the amount of refrigerant by the electronic expansion side corresponding to each indoor unit is controlled. The method of claim 1, The distributor controller An indoor unit communication control unit for communicating with the plurality of indoor units, An outdoor unit communication control unit for communicating with the outdoor unit, A distributor micom for controlling driving of the distributor according to the information input through the indoor unit communication control unit and the outdoor unit communication control unit; An electronic expansion valve control unit for controlling opening / closing of the electronic expansion valve according to the control signal of the microcomputer; And a display unit for displaying an operation state of the distributor according to the control signal of the microcomputer. delete The method of claim 1, The distributor is a refrigerant control device of the multi-air conditioner, characterized in that mounted to one or more plural according to the number of the indoor unit and the indoor unit installation position.

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