KR100246894B1 - Multi type air conditioner and control method therefor - Google Patents

Abstract

The present invention relates to a multi-type air conditioner having a compressor, an outdoor heat exchanger for exchanging refrigerant from the compressor, and a plurality of indoor heat exchangers, and a control method thereof, comprising: a compressor pipe temperature sensor for detecting an inlet pipe temperature of the compressor; And an outdoor expansion valve for controlling the expansion amount of the refrigerant from the outdoor heat exchanger, a plurality of inlet pipe temperature sensors for sensing the temperature of each branch inlet pipe branched to allow the refrigerant to flow into the indoor heat exchanger, and A plurality of outlet pipe temperature sensors for sensing the temperature of each branch outflow pipe flows through the refrigerant flowing from each indoor heat exchanger, and a plurality of indoor side expansion valves for controlling the opening degree of the branch inlet pipe to the indoor heat exchanger And the outdoor side electric expansion bell according to the detected values from the compressor pipe temperature sensor and the outflow pipe temperature sensor. And controlling the opening degree of the valve and adjusting the opening degree of the indoor expansion valve in accordance with the detected value from the inflow pipe temperature sensor and the outflow pipe temperature sensor. As a result, a multi-type air conditioner and a control method thereof are provided which can achieve stable operation of the device and maintain an optimal cooling and heating state.

Description

Multi-type air conditioner and control method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-type air conditioner and a control method thereof. In particular, by controlling the amount of refrigerant expansion and the amount of refrigerant flowing into each indoor unit, the air conditioner and the air conditioner which improve the cooling and heating efficiency can be operated. It relates to a control method.

The air conditioner includes an indoor unit which is installed indoors and heat-exchanges indoor air, and an outdoor unit which is installed outdoors and heat-exchanging refrigerant. Among these air conditioners, as shown in FIG. 3, the multi-type air conditioner includes a single outdoor unit 52 and a plurality of indoor units 51. Here, the outdoor unit 52 includes a compressor 53 for compressing a gaseous refrigerant at high temperature and high pressure, and an outdoor heat exchanger for condensing the refrigerant compressed by the compressor 53 with outdoor air by condensing the liquid refrigerant at low temperature and high pressure ( 54). On the other hand, the indoor unit 51 is provided with an indoor heat exchanger 55 for heat-exchanging the indoor air by heat-exchanging the refrigerant from the outdoor heat exchanger (54).

Here, each of the indoor heat exchanger 55, the compressor 53, and the outdoor heat exchanger 54 are connected by the refrigerant flow pipe 58, and the compressor 53 is bypass pipe bypassed from the refrigerant flow pipe 58. It is provided on the (68), the connection portion between the refrigerant flow pipe 58 and the bypass pipe 68 for guiding the refrigerant from the compressor 53 to the indoor heat exchanger 55 or the outdoor heat exchanger (54). A switching valve 64, which is a four-way valve, is provided.

On the other hand, the refrigerant flow pipe (58) connecting the outdoor heat exchanger (54) and the indoor heat exchanger (55) is branched into a plurality of branch inlet pipes (65), and the compressor (53) and the indoor heat exchanger (55). The refrigerant flow pipe 58 to be connected is branched into a plurality of branches to form a branch outlet pipe 75. In addition, the solenoid valve 61 which opens and closes the refrigerant flow tube 58 is installed on the refrigerant flow tube 58 connecting the outdoor heat exchanger 54 and the indoor heat exchanger 55, and the on / off valve on the refrigerant flow tube 58. Bypass pipes connecting both sides of the refrigerant flow pipe 58 are formed around 59, and the main capillary pipe 62 is formed in the bypass pipe.

Here, on each branch inlet pipe (65), an opening and closing valve (59) and an auxiliary capillary tube (63) for opening and closing the branch inlet pipe (65) to control the flow of refrigerant to each indoor unit (51) are provided, respectively. The open / close valve 59 is opened and closed by an operation temperature signal from each indoor unit 51, and serves to guide the refrigerant to the indoor unit 51 that has been driven. And, between the auxiliary capillary tube 63 and the indoor heat exchanger 55, an on-off valve 59 for controlling the flow of the refrigerant during the heat pump driving is provided.

As shown in FIG. 4, the control unit of the air conditioner receives a signal from the power supply unit 80 and the operation panel unit 81 of each indoor unit, supplies power to the compressor driving circuit 83, and supplies the compressor. A 53 is driven, the solenoid valve 61 and the opening / closing valve 59 in each indoor unit are controlled to open and close, and the switching valve 64 is switched.

In the air conditioner according to this configuration, when only a single indoor unit 51 is turned on among the plurality of indoor units, the control unit 60 first drives the compressor 53, and as long as the air conditioner is installed in the indoor unit in which the solenoid valve 61 and the operation are turned on. The pair of on / off valves 59 is opened. Then, the refrigerant compressed by the compressor 53 passes through the open solenoid valve 61 and the main capillary tube 62, and only the refrigerant having passed through the main capillary tube 62 expands and expands to the indoor unit along the branch inlet pipe 65. Flows into. The introduced refrigerant passes through the auxiliary capillary tube 63 and expands to enter the indoor heat exchanger 55 to exchange heat with the indoor air.

On the other hand, when the plurality of indoor units are turned on, the control unit 60 first drives the compressor 53 and closes the solenoid valve 61. Then, when the pair of on-off valves 59 of the indoor unit turned on, the refrigerant from the compressor 53 expands through the main capillary tube 62 and flows into the indoor unit along each branch inlet pipe 65. do. The introduced refrigerant passes through each of the auxiliary capillaries 63 and expands to enter each indoor heat exchanger 55, and then heat exchanges with the indoor air.

In the heating operation of such an air conditioner, the controller 60 supplies power to the switching valve 64 to switch the switching valve 64 to reverse the flow of the refrigerant, and the following process is the same as in the cooling operation.

However, in the conventional air conditioner, when the plurality of indoor units are selectively or simultaneously driven, the amount of expansion of the refrigerant is determined only by the main capillary tube 62, and the control is not performed according to the indoor incubation fluctuation or the change in the outside air temperature. Accordingly, the liquid refrigerant flows into the compressor 53 to achieve liquid compression, or overheating compression. Therefore, the compressor 53 may be damaged, and in the case of a combined cooling and heating system, an opening / closing valve 59 for controlling both directions should be provided, thereby increasing the cost.

Accordingly, an object of the present invention is to provide an air conditioner and a control method thereof, which can achieve stable operation and improve cooling and heating efficiency.

1 is a schematic configuration diagram of a multi-type air conditioner according to the present invention;

2 is a control block diagram of a control unit for controlling the air conditioner of FIG.

3 is a schematic configuration diagram of a conventional multi-type air conditioner,

4 is a control block diagram of a controller for controlling the air conditioner of FIG. 3.

<Description of the symbols for the main parts of the drawings>

1: indoor unit 2: outdoor unit

3: compressor 4: outdoor heat exchanger

5: indoor heat exchanger 9: indoor expansion valve

10 control unit 11 outdoor expansion valve

13: compressor temperature sensor 14: switching valve

15: branch inlet pipe 16: inlet pipe temperature sensor

25: branch outlet pipe 26: outlet pipe temperature sensor

The object of the present invention is a multi-type air conditioner having a compressor, an outdoor heat exchanger for exchanging refrigerant from the compressor, and a plurality of indoor heat exchangers, comprising: a compressor pipe temperature sensor for detecting an inlet pipe temperature of the compressor; And an outdoor expansion valve for controlling the expansion amount of the refrigerant from the outdoor heat exchanger, a plurality of inlet pipe temperature sensors for sensing the temperature of each branch inlet pipe branched to allow the refrigerant to flow into the indoor heat exchanger, and A plurality of outlet pipe temperature sensors for sensing the temperature of each branch outflow pipe flows through the refrigerant flowing from each indoor heat exchanger, and a plurality of indoor side expansion valves for controlling the opening degree of the branch inlet pipe to the indoor heat exchanger And, according to the detected values from the compressor piping temperature sensor and the outlet piping temperature sensor, It is achieved by a multi-type air conditioner, characterized in that it has a control unit for adjusting the opening degree, and adjusts the opening degree of the indoor-side electric expansion valve in accordance with the detection value from the inlet pipe temperature sensor and the outlet pipe temperature sensor.

Here, the control unit, it is preferable to adjust the opening degree of the outdoor-side electric expansion valve so that the temperature of the refrigerant sucked into the compressor is a predetermined higher than the temperature of the refrigerant flowing out of the indoor heat exchanger. The control unit may adjust the opening degree of the indoor expansion valve so that the temperature of the refrigerant flowing out of the indoor heat exchanger is higher than a temperature of the refrigerant flowing into the indoor heat exchanger. In addition, the control unit may be configured to adjust the opening degree of the indoor-side electric expansion valve to maintain the temperature difference of each indoor heat exchange period to a predetermined or less.

On the other hand, the above object, according to another field of the present invention, in the control method of a multi-type air conditioner having a compressor, an outdoor heat exchanger for exchanging a refrigerant from the compressor and a plurality of indoor heat exchanger, the compressor introduced into the compressor Detecting an inlet pipe temperature, detecting an inlet pipe temperature and an outlet pipe temperature connected to each indoor heat exchanger, and expanding the refrigerant from the outdoor heat exchanger according to the compressor inlet pipe temperature and the outlet pipe temperature And controlling the opening degree of the inlet pipe into which the refrigerant is introduced into each indoor heat exchanger according to the inlet pipe temperature and the outlet pipe temperature. Is achieved.

Here, the adjusting of the expansion amount of the refrigerant from the outdoor heat exchanger may include adjusting the expansion amount of the refrigerant so that the temperature of the refrigerant sucked into the compressor is higher than a temperature of the refrigerant flowing out of the indoor heat exchanger. Can be. And, the step of adjusting the opening degree of the inlet pipe, may be adjusted so that the temperature of the refrigerant flowing out of the indoor heat exchanger higher than the temperature of the refrigerant flowing into the indoor heat exchanger. The method may further include controlling the temperature difference of each indoor heat exchange period to be below a predetermined value.

Hereinafter, the present invention will be described in detail with reference to the drawings.

The multi-type air conditioner according to the present invention includes a single outdoor unit and a plurality of indoor units, as shown in FIG. 1. Here, the outdoor unit has a compressor (3) for compressing the refrigerant at a high temperature and high pressure, and an outdoor heat exchanger (4) for heat-exchanging the refrigerant from the indoor heat exchanger to be described later when heating the refrigerant from the compressor (3) for cooling. The indoor unit has an indoor heat exchanger (5) which heat-exchanges the refrigerant from the outdoor heat exchanger (4) during cooling and the refrigerant from the compressor (3) when heating.

Here, each indoor heat exchanger (5), compressor (3), outdoor heat exchanger (4) is connected by a refrigerant flow tube (8), the compressor (3) bypass pipe bypassed from the refrigerant flow tube (8) It is provided on (18), the connection between the refrigerant flow pipe (8) and the bypass pipe (18) for guiding the refrigerant from the compressor (3) to the indoor heat exchanger (5) or outdoor heat exchanger (4) A switching valve 14, which is a four-way valve, is provided. A compressor temperature sensor 13 is attached on the bypass pipe 18 through which the refrigerant flows into the compressor 3 to detect the temperature of the refrigerant flowing into the compressor 3.

On the other hand, the refrigerant flow pipe (8) connecting the outdoor heat exchanger (4) and the indoor heat exchanger (5) is branched into a plurality of branch inlet pipe 15, the compressor (3) and the indoor heat exchanger (5) The refrigerant flow pipes 8 to be connected are branched into plural branches to form branch outlet pipes 25. Then, on the refrigerant flow pipe (8) connecting the outdoor heat exchanger (4) and the indoor heat exchanger (5), the outdoor electric expansion valve (11) for controlling the opening degree of the refrigerant flow pipe (8) so as to adjust the amount of expansion of the refrigerant. ) Is installed.

On the other hand, each branch inlet pipe 15 is provided with an indoor expansion valve (9) for controlling the opening degree of the branch inlet pipe (15), and the branch inlet pipe (15) adjacent to the indoor heat exchanger (5) The branch outflow pipe 25 is provided with an inlet pipe temperature sensor 16 and an outlet pipe temperature sensor 26 for sensing the temperature of the refrigerant flowing through each pipe.

As shown in FIG. 2, the controller for controlling the air conditioner includes a power supply unit 30, a signal from the operation panel unit 31, a compressor temperature sensor 13, and an inlet pipe temperature sensor 16. And a sensed value detected from the outlet pipe temperature sensor 26. Then, according to the input value, power is supplied to the compressor drive circuit 33 to drive the compressor 3, and the indoor electric expansion valve 9, the outdoor electric expansion valve 11, and the switching valve 14 are driven. ) To control the operation.

By this configuration, when power is supplied to the air conditioner and the operation on signal is input from the indoor unit, the control unit 10 first drives the compressor 3, and according to the number of indoor units in which the operation on signal is input, the outdoor side electric expansion is performed. The opening degree of the valve 11 is adjusted. At this time, the larger the number of indoor units to which the operation on signal is input, the lower the opening degree of the outdoor-side electric expansion valve 11 is, thereby increasing the expansion rate of the refrigerant. Then, the opening degree of the indoor expansion valve 9 of the indoor unit in which the operation ON signal is input is adjusted to adjust the amount and expansion rate of the refrigerant flowing into the indoor heat exchanger 5. By this process, during the cooling operation, the controller 10 continuously receives the detected values by the compressor temperature sensor 13, the inlet pipe temperature sensor 16, and the outlet pipe temperature sensor 26. According to the detected value input, the controller 10 adjusts the outdoor-side electric expansion valve 11 so that the temperature of the refrigerant flowing into the compressor 3 is higher than the temperature of the refrigerant flowing out of the indoor heat exchanger 5. do. In addition, the controller 10 adjusts the indoor-side electric expansion valve 9 so that the temperature of the refrigerant flowing out is higher than the refrigerant flowing into the indoor heat exchanger 5, and at this time, when the temperature difference is not substantially different. In this case, the opening degree of the electric expansion valve is throttled to increase the expansion rate of the refrigerant. On the other hand, the controller 10 measures the difference between the branch inlet pipe temperature and the branch outlet pipe temperature of any indoor heat exchanger (5), the difference between the branch inlet pipe temperature and branch outlet pipe temperature of the other indoor heat exchanger (5) By measuring the temperature difference between each room is adjusted to the indoor side expansion valve 9 so that the temperature difference does not differ by more than a predetermined temperature, for example, 2 ℃.

Accordingly, by controlling the outdoor expansion valve 11 by measuring the temperature of the refrigerant flowing into the compressor 3, the amount of refrigerant is controlled to prevent the liquid refrigerant from flowing into the compressor 3 to prevent the compressor. (3) drives stably, and the lifetime of the compressor 3 is extended. In addition, by adjusting the expansion amount of the refrigerant using the indoor electric expansion valve 9 and the outdoor electric expansion valve 11, it is possible to smoothly distribute the refrigerant during each indoor period, and according to the detected value from each sensor. Optimum cooling operation can be maintained. In addition, the use of the motor-expansion valve can reduce the number of component parts, thereby reducing the cost.

In the above-described embodiment, the cooling operation has been described. However, in the heating operation, only the flow of the refrigerant is switched by supplying power to the switching valve 14 to switch, and the rest of the process is the same as the cooling operation.

As described above, according to the present invention, there is provided a multi-type air conditioner and a control method thereof capable of achieving stable operation of the device and maintaining an optimal cooling and heating state.

Claims (8)

A multi-type air conditioner having a compressor, an outdoor heat exchanger for exchanging a refrigerant from the compressor, and a plurality of indoor heat exchangers, Compressor piping temperature sensor for detecting the inlet pipe temperature of the compressor; An outdoor-side electric expansion valve for controlling an expansion amount of the refrigerant from the outdoor heat exchanger; A plurality of inlet pipe temperature sensors for sensing a temperature of each branch inlet pipe branched such that refrigerant is introduced into each of the indoor heat exchangers; A plurality of outlet pipe temperature sensors for sensing a temperature of each branch outlet pipe through which the refrigerant flowing out of each indoor heat exchanger flows; A plurality of indoor side electric expansion valves for controlling the degree of opening of the branch inlet pipes directed to the indoor heat exchangers; The opening degree of the outdoor expansion motor expansion valve is adjusted according to the detection values from the compressor piping temperature sensor and the outflow piping temperature sensor, and the indoor side according to the detection values from the inflow piping temperature sensor and the outflow piping temperature sensor. Multi-type air conditioner having a control unit for adjusting the opening degree of the electric expansion valve. (delete) (delete) (correction) The method of claim 1, The control unit is a multi-type air conditioner, characterized in that for controlling the opening degree of the indoor-side expansion valve to maintain the temperature difference of each indoor heat exchange period to less than a predetermined. A control method of a multi-type air conditioner having a compressor, an outdoor heat exchanger for exchanging refrigerant from the compressor, and a plurality of indoor heat exchangers, Detecting a compressor inlet pipe temperature flowing into the compressor; Detecting an inlet pipe temperature and an outlet pipe temperature connected to each of the indoor heat exchangers; Adjusting the amount of expansion of the refrigerant from the outdoor heat exchanger according to the compressor inlet pipe temperature and the outlet pipe temperature; And controlling the opening degree of the inlet pipe into which the refrigerant is introduced into each of the indoor heat exchangers according to the inlet pipe temperature and the outlet pipe temperature. (delete) (delete) (correction) The method of claim 5, And controlling the temperature difference between the indoor heat exchange periods to be below a predetermined value.

Images