KR101622619B1 - Air conditioner - Google Patents

Abstract

An air conditioner according to the present invention includes: a plurality of indoor units; An outdoor unit connected to a plurality of indoor units and a refrigerant pipe; An operation unit for inputting a plurality of capacity distributions of the indoor units; And a controller for controlling the degree of superheat of each of the plurality of indoor units based on the input capability distribution when the plurality of indoor units are simultaneously operated through the operation unit and the capability distribution of the plurality of indoor units is input through the operation unit, It is possible to vary the capacity of each indoor unit, to prevent the cold / cold cooling of a specific room which may be generated when the air conditioner is installed or reinstalled, and the advantage that the room can be cooled quickly or slowly according to the user's desire have.

Air conditioner, indoor unit, outdoor unit, control unit, control unit, capacity distribution, superheat degree

Description

Air conditioner and its operation method [

The present invention relates to an air conditioner and a method of operating the same. More particularly, the present invention relates to an air conditioner and a method of operating the same.

Background Art [0002] Generally, an air conditioner is divided into a monolithic type and a separable type by which a room is cooled or cleaned by using a refrigeration cycle of a refrigerant composed of a compressor, a condenser, an expansion device, and an evaporator in order to create a more comfortable indoor environment for a user .

In the integrated type, a compressor, an indoor heat exchanger, an evaporator, and an outdoor heat exchanger are installed in a single case, a separate type indoor heat exchanger is installed in an indoor unit, an evaporator, an outdoor heat exchanger and a compressor are installed in an outdoor unit, and an indoor unit and an outdoor unit are connected to a refrigerant pipe .

The air conditioner includes a multi-type air conditioner in which a plurality of indoor units are connected to one outdoor unit. In the multi-type air conditioner, when the cooling capacity or the heating capacity of each of the plurality of indoor units is fixed, , And each indoor unit is operated / stopped according to the operation / stop command inputted from each indoor unit.

However, in the conventional air conditioner configured as described above, since each indoor unit is cooled / heated only by the capability determined by the manufacturer, the capacity of any one of the indoor units is small, And the capacity of the other is larger than the size of the room, so that the indoor unit frequently turns on and off.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner in which a user can select a plurality of capacity distributions of indoor units.

It is another object of the present invention to provide an operating method of an air conditioner in which the capacity of a plurality of indoor units is changed by a user's input.

According to an aspect of the present invention, there is provided an air conditioner comprising: a plurality of indoor units; An outdoor unit connected to the plurality of indoor units through a refrigerant pipe; An operation unit for inputting the capability distribution of the plurality of indoor units; And a control unit for controlling the degree of superheat of each of the plurality of indoor units based on the input capability distribution if the plurality of indoor units are operated simultaneously through the operation unit.
Each of the indoor units is provided with respective expansion valves whose opening degree is adjusted to control the degree of superheat, and the controller can adjust the opening degree of each of the expansion valves according to the input capability distribution.
Wherein the control unit increases the degree of opening of the expansion valve for controlling the degree of superheat of the indoor unit when the inputted ability distribution is higher than the reference ability distribution and increases the degree of superheat of the indoor unit when the inputted ability distribution is lower than the reference ability allocation The opening degree of the expansion valve to be adjusted can be lowered.
A method of operating an air conditioner according to the present invention is a method of operating an air conditioner in which a plurality of indoor units are connected to one outdoor unit, the method comprising: inputting an ability distribution to each indoor unit through an operation unit; Wherein the control unit controls the degree of superheat of each of the indoor units according to the capability distribution inputted in the indoor unit capability distribution input step and controls the degree of superheat of each of the indoor units when the indoor units are simultaneously operated, And an indoor unit capability distribution control step of controlling the expansion valve of each angle.
The indoor unit capability distribution input step may display a plurality of predetermined capability allocations on a display for displaying information of the air conditioner.
In the indoor device capability distribution input step, when the user selects and inputs one of a plurality of predetermined capacity allocations through the operation unit, the indoor device capability distribution control step controls the expansion valves according to the inputted ability distribution .
The indoor capability distribution adjustment step may display the capability distribution inputted to the display.
Wherein the indoor capacity allocation control step comprises: a target superheat degree changing step of changing the target superheat degree of each indoor unit according to the input capability distribution; Detecting an overheating degree of each indoor unit; The degree of superheat of each of the indoor units is adjusted so that the detected superheat degree of each indoor unit reaches the target superheat degree changed in the target superheat degree changing process, And an expansion valve control process for controlling the expansion valve.
The target superheat degree changing process may lower the target superheat degree when the capability is higher than the reference capability allocation and increase the target superheat degree when the capability is lower than the reference capability allocation.

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According to the present invention configured as described above, when the user varies the capacity distribution of a plurality of indoor units through the operation unit, the capacity of each indoor unit is varied by adjusting the degree of superheat of the expansion valve during the simultaneous operation, There is an advantage that the capacity of each indoor unit can be varied.

In addition, it is possible to prevent the cold / cold cooling of a specific room, which may occur at the time of initial installation or reinstallation of the air conditioner.

In addition, there is an advantage that the room can be cooled quickly or slowly according to the user's desire.

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

FIG. 1 is a perspective view of one embodiment of an air conditioner according to the present invention, FIG. 2 is a schematic block diagram of an air conditioner according to the present invention, FIG. 3 is a control block diagram of an air conditioner according to an embodiment of the present invention to be.

The air conditioner according to the present embodiment includes a plurality of indoor units 2 and 4, an outdoor unit 10 connected by a plurality of indoor units 2 and 4 and a refrigerant pipe 6 and 8, An operation unit 12 and 14 for inputting operation commands of the indoor unit 2 and the outdoor unit 10 and the outdoor units 10 and 14 for controlling the indoor units 2 and 4 and the outdoor unit 10 according to the operation of the operation units 12 and 14, And a control unit 16.

The indoor units 2 and 4 are provided with a main body 22 and 24 each having an indoor air inlet and an indoor air outlet formed therein and an indoor air inlet / And the air blown from the indoor blowers 26 and 28 installed inside the main bodies 22 and 24 is supplied to the expansion valve 44 (described later) And an indoor heat exchanger (30) (32) for exchanging heat with the refrigerant expanded in the outdoor heat exchanger (46).

 The outdoor unit 10 includes a main body 34 having an outdoor air inlet and an outdoor air outlet formed therein and an outdoor air blower installed inside the main body 34 to discharge outdoor air through an outdoor air inlet, (38) and (40) in which the refrigerant evaporated in the indoor heat exchangers (30) and (32) is sucked and the refrigerant is compressed and discharged, and a refrigerant discharged from the compressors (38) And an outdoor heat exchanger 42 which is heat-exchanged and condensed.

The compressors 38 and 40 are capacity variable compressors capable of varying the compression capacity. The compressors 38 and 40 are composed of a plurality of constant-speed compressors connected in parallel with each other, or composed of one inverter compressor, It may be composed of a compressor and a constant speed compressor.

 The air conditioner is connected in parallel with the refrigerant pipes in which refrigerant is sucked by the compressors 38 and 40 between the outdoor heat exchanger 42 and the compressors 38 and 40 and the indoor heat exchangers 30 and 32 are connected in parallel One on each of the connected refrigerant pipes.

The air conditioner is provided with expansion valves 44 and 46 for expanding the refrigerant condensed in the outdoor heat exchanger 42 in the plurality of indoor units 2 and 4 or the outdoor unit 10.

The expansion valves 44 and 46 are provided between the branch points 48 and the respective indoor heat exchangers 30 and 32 in the refrigerant passage.

The expansion valves 44 and 46 are electronic expansion valves capable of controlling the degree of opening and regulate the degree of opening of the indoor units 2 and 4 to control the degree of superheat of the indoor units 2 and 4.

The superheat degree of the indoor units 2 and 4 is a superheat degree of suction which is a difference between the evaporation temperature of the indoor heat exchangers 30 and 32 and the suction temperature of the compressors 38 and 40. For example, The expansion valves 44 and 46 regulate the opening degree of the superheating degree sensed during the operation to reach the target superheat degree.

The air conditioner further includes a suction superheat degree sensor (50) (52) (54) for sensing the suction superheat degree. The suction superheat degree is determined by the indoor heat exchanger (30) Temperature sensors 50 and 52, and a compressor suction temperature sensor 54 provided on the compressor suction side. Hereinafter, for convenience of explanation, the suction superheat degree will be referred to as an overheat.

The air conditioner is designed to minimize the capacity and size of the outdoor unit 10 including the compressors 38 and 40 while simultaneously minimizing the power consumption when any one of the plurality of indoor units is operated alone and the plurality of indoor units 2 and 4 are operated simultaneously The cooling capacity of the plurality of indoor units 2 and 4 is differently operated.

That is, in the case of stand-alone operation, the indoor unit operating at 100% is operated, and at the same time, each of the indoor units 2 and 4 is operated at 80% and 80% The power consumption of the air conditioner can be reduced compared with the case where the indoor units 2 and 4 are all operated at 100% capacity during the simultaneous operation, (10) can be reduced in size.

The operation units 12 and 14 may be constituted by a control panel installed in each of the indoor units 2 and 4 and may be constituted by a remote controller for remotely controlling the indoor units 2 and 4. [

The operating portions 12 and 14 further include a display 13 (15) for displaying information of the air conditioner.

On the other hand, the air conditioner can vary a plurality of capacity distributions of the indoor units (2) and (4) differently from the standard capacity distribution during the simultaneous operation by the operation portions (12) and (14) The control unit 16 controls the operation of the indoor units 2 and 4 while the indoor units 2 and 4 are operating simultaneously after the variable operation, ) Adjust the degree of superheat of (4).

That is, the operating units 12 and 14 are configured to input a plurality of capacity distributions of the indoor units (2) and (4) in addition to the functions of inputting the operation / stop input and the desired temperature of the air conditioner.

The operation units 12 and 14 are configured so that the user can select any one of a plurality of capability distributions and input the same.

Here, the plurality of capability allocations are the first, second, and N power allocation, for example, the first capability allocation is 80%, the 80% capacity drive, the second capability allocation is 70% . If the Nth capability allocation is 90% and 65% capacity driving, the user is allocated one capability distribution among the plurality of capability allocations (i.e., the first, second, .... N capability allocations) 2 capability distribution) are selected and input, the air conditioner controls the respective expansion valves 44 and 46 separately in accordance with the input capability distribution (for example, 70% and 95%).

When the user selects the new capability distribution through the operation units 12 and 14 and inputs the new capability distribution, the controller 16 determines whether or not the new capability distribution is input During the simultaneous operation, the superheating degree of each expansion valve (44) (46) is controlled so that the plurality of indoor units (2) and (4) Control overheating of each expansion valve (44) (46) so as to operate with the ability of reference capacity allocation before inputting the distribution (e.g., second capability distribution).

Here, the control unit 16 controls the operation of the indoor unit 2 whose capacity distribution is lower than the reference capacity allocation (80%), so that a small amount of refrigerant flows through the indoor unit 2 The degree of opening of the expansion valve 44 for controlling the degree of the refrigerant is reduced and the reference capacity distribution 80 (for example, 80%) is set such that a larger amount of refrigerant flows through the indoor unit 4 having the capacity distribution higher than the reference capacity distribution %) Of the indoor heat exchanger (2).

Hereinafter, for the sake of convenience of description, the description will be made as to a specific case only when the two indoor units 2, 4 are connected to one outdoor unit 10.

First, if the user does not input a separate capability distribution through the first and second operating portions 12 and 14 of the first and second indoor units 2 and 4, (For example, 5 [deg.] C, 5 [deg.] C) is set for each of the first and second indoor units 2 and 4, And controls the first and second expansion valves (44, 46) to reach the superheat degree.

On the other hand, when the user inputs a new capability distribution (for example, 70%, 95%) through the first and second operating portions 12 and 14, the first indoor unit 2, The first expansion valve 44 which controls the degree of superheat of the first indoor unit 2 whose capacity distribution is reduced is changed to the target superheat degree (for example, 7 deg. C) higher than the initial target superheat degree, . The second indoor unit 4 having the increased capacity distribution changes the target superheat degree to the target superheat degree (for example, 3 占 폚) lower than the initial target superheat degree, The opening degree of the second expansion valve 46 for controlling the degree of opening is increased.

4 is a flowchart of an operation method of an air conditioner according to an embodiment of the present invention.

The operation method of the air conditioner according to the present embodiment includes an indoor unit capability distribution input step and an indoor unit ability distribution control step.

The indoor unit capability distribution input step is a step of inputting a plurality of capacity distributions of the indoor units 2 and 4 via the operation units 12 and 14. The displays 13 and 15 display a plurality of predetermined capacity allocations And the user selects and inputs a specific capability distribution through one of the operating units 12 and 14 while looking at the display 13 and 15. (S1)

The indoor unit capability distribution control step may include an expansion step of adjusting the degree of superheat of each indoor unit (2) (4) according to the capability distribution inputted in the indoor unit capability distribution operation step (S1) (46). When the user selects one of the predetermined plurality of capability allocations through the operation unit (12), the expansion valves (44) and (46) are controlled according to the input capability distribution, (S2) (S3) (S4) (S5)

 In the indoor capacity distribution control step, if the plurality of indoor units (2) and (4) are operated simultaneously, a target superheat degree changing process for changing the target superheat degree of each of the indoor units (2) and (4) (S2) (S3)

The target superheat change process lowers the superheat of the indoor unit (4), which is higher than the reference capacity allocation, and increases the superheating degree of the indoor unit (2) which is lower in capability than the reference capacity allocation.

For example, if the reference ability distribution is set to 80% and 80%, and the target superheat degree at that time is set to 5 ° C and 5 ° C, the user may set a plurality of predetermined capability allocations (for example, 2, .. N capability allocation) is 70% and 95%, the target superheat is changed from 5 ℃, 5 ℃ to 7 ℃ and 3 ℃.

The indoor power distribution control step performs a superheating degree sensing process of sensing the degree of superheat of each of the plurality of indoor units 2 and 4. In operation S4,

The indoor capacity distribution control step may be performed in such a manner that the detected superheat degrees of each of the plurality of indoor units 2 and 4 are the target superheat degrees (for example, 7 ° C and 3 ° C) changed in the target superheat degree change steps S2 and S3, An expansion valve control process is performed to control the expansion valves 44 and 46 for controlling the degree of superheat (2) and (4)

The expansion valve control process includes the steps of increasing the expansion valve opening degree 46 for controlling the degree of superheat of the indoor unit 4 whose capacity is higher than the reference capacity distribution and increasing the degree of superheat of the indoor unit ) Lowering the opening.

In step S6, the indoor capacity allocation control step changes the capacity distribution and the capacity allocation of the display 13 or 15 is controlled when the expansion valve 44 or 46 is controlled.

 On the other hand, the operation method of the air conditioner according to the present embodiment is characterized in that when a plurality of distributions of the functions of the indoor units 2, 4 are not inputted through the operation units 12, 14, ) Is the simultaneous operation, the target superheat degree according to the reference ability distribution is determined (S7) (S8)

The control unit 16 senses the degree of superheat of the plurality of indoor units 2 and 4, respectively, and controls the expansion valves 44 and 46 so that the detected superheat degree reaches the target superheat degree.

For example, if the reference capability distribution is set to 80% and 80%, and the target superheat degree at that time is set to 5 ° C and 5 ° C, the control unit 16 determines whether the detected superheat degree is 5 ° C Lt; RTI ID = 0.0 > C, < / RTI >

It should be understood that the present invention is not limited to the above-described embodiment, but may be applied to a case where three or more indoor units are connected to one outdoor unit, and various embodiments may be implemented within the technical scope of the present invention.

1 is a perspective view of an embodiment of an air conditioner according to the present invention,

2 is a schematic configuration diagram of an embodiment of an air conditioner according to the present invention,

FIG. 3 is a control block diagram of an embodiment of an air conditioner according to the present invention.

4 is a flow chart of an embodiment of an air conditioner according to the present invention.

Claims (10)

A plurality of indoor units; An outdoor unit connected to the plurality of indoor units through a refrigerant pipe; An operation unit for inputting the capability distribution of the plurality of indoor units; And a control unit for controlling the degree of superheat of each of the plurality of indoor units according to the input capability distribution when the plurality of indoor units are operated simultaneously through the operation unit. The method according to claim 1, Wherein each of the indoor units is provided with respective expansion valves whose opening degree is controlled to control the degree of superheat of the indoor units, and the control unit adjusts the opening degree of each of the expansion valves according to the input capability distribution. The method according to claim 1, Wherein, When the inputted ability distribution is higher than the reference ability distribution, the expansion valve opening degree of the superheat degree of the indoor unit is increased, An air conditioner for lowering the opening degree of the expansion valve for controlling the degree of superheat of the indoor unit when the input ability distribution is lower than the reference ability distribution. A method of operating an air conditioner in which a plurality of indoor units are connected to one outdoor unit, An indoor unit capability distribution input step of inputting a capability distribution for each indoor unit through an operation unit; When the plurality of indoor units are operated simultaneously, An indoor unit capacity distribution control unit for controlling the degree of superheat of each of the indoor units in accordance with the capability distribution inputted in the indoor unit capability distribution input step and controlling the respective expansion valves of the respective indoor units to control the degree of superheat of the indoor units; And operating the air conditioner. 5. The method of claim 4, Wherein the indoor unit capability distribution input step displays a plurality of predetermined capability allocations on a display that displays information of the air conditioner. 6. The method of claim 5, When the user selects and inputs one of a plurality of predetermined capability allocations through the operation unit in the indoor unit capability distribution input step, Wherein the indoor unit capability distribution control step controls each of the expansion valves according to the input capability distribution. The method according to claim 6, Wherein the indoor capacity allocation control step displays the capability distribution inputted to the display. 8. The method according to any one of claims 4 to 7, Wherein the step of adjusting the indoor capability distribution comprises: A target superheat degree changing step of changing a target superheat degree of each of the indoor units according to the input capability distribution; Detecting an overheating degree of each indoor unit; The degree of superheat of each of the indoor units is adjusted so that the detected superheat degree of each indoor unit reaches the target superheat degree changed in the target superheat degree changing process, And an expansion valve control step of controlling the expansion valve. 9. The method of claim 8, The target superheat degree changing process includes: When the capability is higher than the reference ability distribution, the target superheat degree is lowered, And increases the target superheat degree when the capability is lower than the reference ability distribution. delete

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