KR20090079077A - The control method of a multi-model air-conditioner - Google Patents

Abstract

A control method of a multi air-conditioner is provided to ensure normal oil recovery, avoiding flux change within the pipe due to excessive on/off of the first compressor. A control method of a multi air-conditioner comprises a step of measuring the pressure of first and second compressors during oil recovery operation of the first and second compressors(S200), a step of executing a high pressure control operation to switch off the first compressor and change the operation frequency of the second compressor when the measured pressure is equal to or greater than a first set pressure(S202,S204), and a step of executing an oil recovery operation by maintaining the first set pressure after the high pressure control operation(S206).

Description

Control method of a multi-type air conditioner

The present invention relates to a control method of a multi-type air conditioner, and more particularly, to a control method of a multi-type air conditioner that is easy to maintain a constant pressure of the first and second compressors during an oil recovery operation.

In general, an air conditioner is a device that is disposed in a room, a living room, an office, or a business store to control a temperature, svo, cleanliness, and airflow of an air to maintain a comfortable indoor environment. It is largely divided into separate type or split type.

The integrated type and the separate type are functionally the same, but the integrated type integrates the functions of cooling and heat dissipation to install a hole in the wall of the house or hang the device on the window, and the separate type installs an indoor unit that performs cooling / heating on the indoor side and outdoor. On the side, an outdoor unit that performs heat dissipation and compression functions was installed, and two separate devices were connected by refrigerant pipes.

In general, one outdoor unit is installed corresponding to one indoor unit. However, in the case of a building having multiple rooms, multiple outdoor units must be purchased to correspond to the indoor unit installed in each room. A certain area of space must be secured for each outdoor unit, so it is not efficient in terms of space usage.

Therefore, development of a multi-type air conditioner capable of cooling and heating several rooms at once by connecting several indoor units to one outdoor unit is actively underway.

In addition, when the number of connected units of the indoor unit is long and the length of the pipe is long, the multi-type air conditioner has a portion of oil discharged from the first and second compressors included in the outdoor unit toward the indoor unit due to the structure of the pipe and the refrigerant flow rate in the pipe. It is stagnant, and there is insufficient oil in the 1st, 2nd compressor, and lubrication defect generate | occur | produces, and an oil return operation is performed.

However, since the pressure change of the first and second compressors is high during the oil recovery operation, the multi-type air conditioner has recently been studied to make the pressure change of the first and second compressors constant.

An object of the present invention is to provide a control method of a multi-type air conditioner that is easy to maintain a constant pressure of the first and second compressors during an oil recovery operation.

The multi-type air conditioner according to the present invention measures the pressure of the first and second compressors during the oil recovery operation of the first and second compressors. Performing a high pressure control operation for varying an operating frequency of the two compressors, and performing the oil recovery operation by maintaining the pressure at the first set pressure after executing the high pressure control operation.

The multi-type air conditioner according to the present invention and a control method thereof include a state in which the first compressor is turned off through a high pressure limit operation when the pressures of the first and second compressors are equal to or greater than the first set pressure during the oil recovery operation of the first and second compressors. By varying the operating frequency of the second compressor to maintain lower than the second set pressure, it is possible to ensure the normal oil recovery without changing the flow rate in the pipe due to excessive on / off of the first compressor to ensure the reliability, the user There is an effect of improving convenience and marketability.

A control method of a multi-type air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

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

Referring to FIG. 1, the multi-type air conditioner of the present invention includes a plurality of indoor units 11, 12, 13, and 14, and an outdoor unit 21, 22 connected to a plurality of indoor units 11, 12, 13, and 14. do.

Here, the plurality of indoor units (11, 12, 13, 14) and the outdoor unit (21, 22) is connected through a refrigerant pipe (not shown), the outdoor unit (21, 22) is a plurality of indoor units (11, 12, 13, 14) and the outdoor unit 21, 22 is driven by the request of at least any one, the operation of the outdoor unit (21, 22) as the cooling / heating capacity required by the plurality of indoor units (11, 12, 13, 14) increases The number and operation number of the compressors installed in the outdoor units 21 and 22 are increased.

Here, the plurality of indoor units 11, 12, 13, and 14 are an indoor heat exchanger 51 for exchanging refrigerant and indoor air, and an indoor blower 52 disposed near the indoor heat exchanger 51 to circulate indoor air. And an indoor expansion valve 54 for expanding the refrigerant flowing to the indoor heat exchanger 51 during cooling.

The outdoor units 21 and 22 may include an accumulator 61 which extracts only a gas refrigerant from the refrigerants supplied from the plurality of indoor units 11, 12, 13, and 14, and an agent that receives and compresses the gas refrigerant extracted from the accumulator 61. The first and second compressors 62 and 63, the four-way valve 65 connected to the first and second compressors 62 and 63 to select the compressed refrigerant flow path, and the refrigerant supplied from the four-way valve 65 and the outdoor unit. And an outdoor heat exchanger 70 for heat-exchanging air.

Here, the first compressor 62 is a constant speed compressor having a constant compression capacity of the refrigerant, and the second compressor 63 is an inverter compressor capable of varying the compression capacity of the refrigerant.

Meanwhile, an oil separator 64 is installed in a pipe connecting the first and second compressors 62 and 63 and the four-way valve 65, and the oil separator 64 is suctioned by the first and second compressors 62 and 63. Is connected to the side.

In particular, the oil separator 64 separates oil from the refrigerant discharged from the first and second compressors 62 and 63, and supplies the separated oil to the first and second compressors 62 and 63, thereby providing the first and second compressors. 2 Maintain an appropriate amount of oil in the compressors 62 and 63. Then, the suction side pipes of the oil separator 64 and the compressors 62 and 63 are connected through the capillary tube 66, and the oil is moved through the capillary tube 66.

In addition, the refrigerant pipes guiding the refrigerant discharged from the outdoor heat exchanger 70 to the indoor heat exchanger 51 include outdoor electromagnetic expansion valves lev and 74 for expanding the refrigerant during heating, and an indoor heat exchanger 51 for cooling. Subcooling apparatus 80 for cooling the refrigerant moved to the liquid, 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 70 to pass through without expansion, but when heated, it is opened to a predetermined size and condensed in the indoor heat exchanger 51. Before expanding to the outdoor heat exchanger (70) to the liquid in the spray state.

Here, the indoor electromagnetic expansion valve 54 and the outdoor electromagnetic expansion valve 74 is provided with a step motor (not shown) therein, and operates under control from a controller (not shown).

At this time, during the cooling and heating, the step motors of the indoor electromagnetic expansion valve 54 and the outdoor electromagnetic expansion valve 74 operate under the control of the controller.

2 is a block diagram schematically showing the configuration of an outdoor unit of the multi-type air conditioner according to the present invention.

Referring to FIG. 2, the outdoor unit 100 of the multi-type air conditioner of the present invention includes a sensor unit 110 and first and second compressors 102 and 104 that measure pressures of the first and second compressors 102 and 104. Compressor drive unit 112 for controlling the operation of the and based on the pressure, the control unit 120 to control the operation of the first and second compressors 102, 104 to the compressor drive 112.

Here, the sensor unit 110 includes at least one pressure sensor that measures the internal pressure and the discharge pressure of the first and second compressors 102 and 104.

The compressor driver 112 simultaneously or individually operates the first and second compressors 102 and 104 based on an operation control signal applied from the controller 120.

In addition, the control unit 120 compares the pressure applied through the sensor unit 110 and the set first and second set pressure for the oil recovery operation of the first and second compressors 102 and 104 ( 122 and the driving control signal are applied to the compressor driving unit 112 based on the determination result of the determination unit 122.

Here, the determination unit 122 determines the normal operation and the high pressure control operation of the first and second compressors 102 and 104 for the oil recovery operation by comparing the first set pressure with the pressure.

That is, the determination unit 122 determines that the normal operation is performed when the pressure is equal to or less than the first set pressure, and generates a first determination signal. When the pressure is equal to or greater than the first set pressure, the determination unit 122 determines that the high pressure control operation is a second determination signal. Create

The signal generator 124 transmits the first and second control signals of the operation control signals for the operation of the first and second compressors 102 and 104 to the compressor driver 112 based on the first and second determination signals. Is authorized.

That is, the signal generator 124 generates the first control signal for the normal operation based on the first determination signal. Here, the first control signal is to lower the operating frequency of the second compressor 104 for a predetermined time, and to turn on the first compressor 102 when the operating frequency of the second compressor 104 is lowered by a set value. .

In addition, the signal generator 124 generates the second control signal for the high pressure control operation based on the second determination signal. Here, the second control signal causes the operating frequency of the second compressor 104 to vary at a time when the first compressor 102 is turned off after the first compressor 102 is turned on for a predetermined time.

3 is a view showing the operating frequency of the first and second compressors according to the high pressure control operation during the oil return operation of the multi-type air conditioner according to the present invention.

3 is a block diagram illustrating the configuration of FIG. 2.

3, the 1st, 2nd compressors 102 and 104 show high pressure control operation at the time of oil recovery operation. Here, (1) represents the operating frequency of the first compressor, (2) represents the operating frequency of the second compressor 102, and (3) represents the pressure change of the first and second compressors (102, 104). .

Here, it will be described with reference to (1), (2), (3) as follows.

Section (A) is a section in which the first and second compressors 102 and 104 are operating normally during oil recovery operation, and (B) section is a section in which the first and second compressors 102 and 104 perform a high pressure control operation. to be.

Here, the section (A) is a section in which the pressure is lower than the first set pressure to perform the normal operation, the first compressor 102 is kept off, the second compressor 104 is the operating frequency is Progressively lower.

In the section (B), when the pressure is higher than the first set pressure, the first compressor 102 is turned on, and the second compressor 104 maintains the operating frequency in the normal operation section for a predetermined time.

And, in the section (B), when the first compressor 102 is turned off in the on state, the operating frequency of the second compressor 104 is set such that the pressure is constant between the first set pressure and the second set pressure. Variable so that it is maintained.

That is, the high pressure control operation in the section (B) prevents the pressure from being higher than the second set pressure to prevent the first and second compressors 102 and 104 from being stopped. To be maintained.

4 is a flowchart illustrating a control method of a multi-type air conditioner according to the present invention.

Referring to FIG. 4, the multi-type air conditioner of the present invention measures the pressures of the first and second compressors during the oil recovery operation (S200).

That is, the control unit 120 controls the sensor unit 110 to measure the pressure of the first and second compressors 102 and 104 during the oil recovery operation, and the sensor unit 110 measures the pressure to control the control unit ( 120).

It is determined whether the pressure is equal to or greater than the set first set pressure (S202). If the pressure is lower than the first set pressure, the first and second compressors are normally operated to continuously perform oil recovery operation (S204).

That is, the control unit 120 determines whether or not the pressure and the set first set pressure.

At this time, when the pressure is lower than the first set pressure, the control unit 120 generates a second operation control signal and applies the compressor driving unit 112 to the normal operation of the first and second compressors 102 and 104. The oil recovery operation is continued.

When the pressure is equal to or greater than the first set pressure, the first and second compressors perform a high pressure control operation (S206), keep the oil recovery operation lower than the second set pressure higher than the first set pressure (S206). S208)

That is, the control unit 120 generates a first operation control signal and applies it to the compressor driver 112 when the pressure is equal to or greater than the first set pressure.

Here, the compressor driver 112 turns on the first compressor 102 for a predetermined time when the pressure is higher than the first set pressure based on the first operation control signal, and the first compressor 102 is turned on. While on, the operating frequency of the second compressor 104 is maintained at a constant level.

In addition, the compressor driver 112 varies the operating frequency of the second compressor 104 at the time when the first compressor 102 is turned off, so that the pressure is higher than the first set pressure and the first set pressure. The oil recovery operation is performed between two set pressures.

Here, the second set pressure refers to a time point at which the first and second compressors 102 and 104 are stopped. That is, the control unit 120 is a limit pressure that stops the oil recovery operation and stops the operation of the first and second compressors 102 and 104 when the pressure is higher than the second set pressure.

The multi-type air conditioner of the present invention measures the pressure of the first and second compressors during the oil recovery operation and prevents the pressure of the first compressor from rising above the second set pressure in comparison with the first set pressure, thereby repeating the on or off of the first compressor. By varying the operating frequency of the second compressor without causing the first and second compressors to stop during the oil recovery operation, there is an advantage of increasing the reliability of the product.

Although a preferred embodiment of the present invention has been described in detail above, those skilled in the art to which the present invention pertains can make various changes without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made to the branches. Accordingly, modifications to the embodiments of the present invention will not depart from the techniques of the present invention.

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

2 is a block diagram schematically showing the configuration of an outdoor unit of the multi-type air conditioner according to the present invention.

3 is a view showing the operating frequency of the first and second compressors according to the high pressure control operation during the oil return operation of the multi-type air conditioner according to the present invention.

4 is a flowchart illustrating a control method of a multi-type air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

100: outdoor unit 110: sensor unit

112: compressor driving unit 120: control unit

Claims (5)

Measuring pressure of the first and second compressors during an oil recovery operation of the first and second compressors; If the pressure is equal to or greater than a first set pressure, performing a high pressure control operation to turn off the first compressor and vary the operating frequency of the second compressor; And And after the high pressure control operation is executed, maintaining the pressure at the first set pressure to execute the oil recovery operation. The method of claim 1, If the pressure is less than the first set pressure, the control method of the multi-type air conditioner to lower the operating frequency of the second compressor for a predetermined time and to turn on the first compressor to operate normally. The method of claim 1, wherein the pressure is The control method of the multi-type air conditioner which is the pressure inside or discharge side of the compressor which is operating among the said 1st, 2nd compressor. The method of claim 1, wherein the high pressure control operation, And the pressure does not reach a second set pressure higher than the first set pressure. The method of claim 1, wherein the second compressor, And a control frequency of the multi-type air conditioner until the pressure is lowered below the first set pressure.

Images