KR101500728B1 - Cooling and heating apparatus - Google Patents

Abstract

The present embodiment relates to an air conditioner.

The cooling / heating apparatus of this embodiment includes a plurality of indoor units; A controller connected in parallel with the plurality of indoor units, and receiving operational load information of the indoor units; And an outdoor unit that receives the total operation load information of each indoor unit from the control device and operates in accordance with the received load information.

Air-conditioning system

Description

[0001] Cooling and heating apparatus [0002]

The present embodiment relates to an air conditioner.

In general, a cooling apparatus is an apparatus for forming a system in a low-temperature atmosphere. For example, an air conditioner may be used, and a heating apparatus may be a device for forming a system in a high temperature atmosphere. Of course, the air conditioner can perform the heating function in addition to the cooling.

In the case of the air conditioner, the indoor air is heat-exchanged to be discharged into the room, and in the case of the boiler, the indoor floor is heated.

It is an object of the present invention to propose a cooling / heating apparatus capable of cooling or heating indoor air and floor simultaneously.

Further, the present embodiment is intended to propose a cooling / heating apparatus capable of effectively controlling a configuration for cooling or heating indoor and air.

According to an aspect of the present invention, there is provided an air conditioner comprising: a plurality of indoor units; A controller connected in parallel with the plurality of indoor units, and receiving operational load information of the indoor units; And an outdoor unit that receives the total operation load information of each indoor unit from the control device and operates in accordance with the received load information.

The cooling / heating device according to another aspect includes at least one indoor unit; A control device connected to the indoor unit and receiving operating load information from the indoor unit; And an outdoor unit that receives operating load information from the control unit and operates in response to the received load, wherein the first fluid flows into the indoor unit and the second fluid flows into the outdoor unit, And the first fluid and the second fluid are heat-exchanged.

According to another aspect, an air conditioning apparatus includes at least one first indoor unit; A control device for receiving operating load information from the first indoor unit; An outdoor unit receiving the operating load information from the control unit; And at least one second indoor unit connected to the outdoor unit in parallel with the control unit, wherein the outdoor unit operates in response to a sum load of a load received from the control unit and a load received from the second indoor unit .

According to the proposed embodiment, the indoor air and the floor can be cooled and heated at the same time, which is advantageous in that more efficient cooling and heating can be performed.

In addition, there is an advantage that the control of the cooling and heating apparatus is simplified by the hierarchical control of the outdoor unit, the control unit, and the first indoor unit.

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

1 is a configuration diagram of an air conditioner according to the present embodiment.

1, the heating and cooling apparatus 1 of the present embodiment includes an outdoor unit 10, a plurality of first indoor units 20, a controller 30 connected to the plurality of first indoor units 20, And a plurality of second indoor units 40 connected in parallel with the outdoor unit 10.

In detail, the plurality of second indoor units 40 and the controller 30 are connected in parallel to the outdoor unit 10. The plurality of first indoor units 20 are connected to the controller 30 in parallel.

In the present embodiment, three first indoor units and a second indoor unit are provided.

The plurality of first indoor units 20 cool or heat the indoor floor. That is, the pipe constituting the first indoor unit 20 is provided on the floor of the room, and the floor of the room is cooled or heated by the fluid flowing along the pipe.

The plurality of first indoor units 20 are independently operable. That is, some or all of the plurality of first indoor units 20 may operate, or some or all of them may not operate.

The first fluid flows in the plurality of first indoor units (20). The first fluid may be water, for example.

The plurality of second indoor units (40) are installed in a room to suck indoor air, exchange heat of the inhaled indoor air, and then discharge the indoor air to the room to enable cooling or heating of the indoor space. The plurality of second indoor units (40) can be independently operated as in the first indoor unit (20).

The second fluid flows to the plurality of second indoor units (40) and the outdoor unit (10). The second fluid may be, for example, a refrigerant.

That is, in this embodiment, the working fluid of the first indoor unit 20 and the second indoor unit 40 are different from each other.

The controller 30 controls the plurality of first indoor units 20. The controller 30 controls the sum of the loads of the first indoor unit 20 operated among the plurality of first indoor units 20, (10).

The first fluid and the second fluid simultaneously flow into the control device (30). The first fluid and the second fluid are partitioned and flowed in the control device (30). That is, the control device 30 is formed with a flow path through which the first fluid flows and a flow path through which the second fluid flows.

In the control device (30), the first fluid and the second fluid exchange heat with each other.

Therefore, the first fluid flowing in the second indoor unit (40) and the control device (30) becomes a low temperature state during the cooling operation of the cooling / heating device. Then, the air sucked into the second indoor unit (40) by the first fluid at a low temperature is discharged to the room while the temperature is lowered to cool the room.

The first fluid flowing in the first indoor unit (20) is heat-exchanged with the second fluid in a state of being introduced into the controller (30) Thereby cooling the floor of the room.

On the other hand, during the heating operation of the cooling / heating apparatus, the first fluid flowing through the second indoor unit (40) and the controller (30) is in a high temperature state. Then, the air sucked into the second indoor unit (40) by the refrigerant in the high temperature state is discharged to the room in a state where the temperature is raised to heat the room. The first fluid flowing through the first indoor unit 20 is heat-exchanged with the second fluid in a state where the first fluid flows into the controller 30, Thereby heating the floor of the room.

2 is a control block diagram of the air conditioner.

2, the cooling / heating apparatus includes an outdoor unit control unit 100 for controlling the operation of the outdoor unit 10, a first control unit 200 for controlling the operation of the first indoor unit 20, An integrated control unit 300 for receiving the operating load information of the first indoor unit 20 from the first control unit 200 and a second control unit 400 for controlling the operation of the second indoor unit 40 do.

In detail, the first controller 200 and the second controller 400 are provided to the first indoor unit 20 and the second indoor unit 40, respectively. In FIG. 2, one first control unit 200 and a second control unit 400 are shown for the sake of convenience.

The first control unit 200 transmits the load information of the first indoor unit 20 to be operated to the integrated control unit 300.

The integrated control unit 300 receives the load information of the first indoor unit 20 to be operated from each of the first control units 20 and adds the received loads. Then, the combined load information is transmitted to the outdoor unit control unit (100).

Each of the second control units 400 individually transmits the load information of the second indoor unit 40 to be operated to the outdoor unit control unit 100.

Therefore, the outdoor unit control unit 100 receives the individual load information of the second indoor unit 400 and the total load information of the first indoor unit 200.

Then, the outdoor unit controller 100 sums all the received loads, and causes the outdoor unit 10 to operate in response to the summed load.

Then, energy corresponding to the total load summed in the outdoor unit control unit 100 is generated, and the generated energy is distributed corresponding to the load amount required for the second indoor unit 40 and the control device 30 to be operated . The energy distributed to the controller 30 is supplied to the first indoor unit 20 corresponding to the required load of the first indoor unit 20.

The plurality of first indoor units 20 communicate with the control device 30 without communicating with the outdoor device 10 individually and the outdoor device 10 communicates with the control device 30 . Therefore, in the present embodiment, hierarchical control is performed between the outdoor unit 10, the control unit 30, and the first indoor unit 20.

As described above, according to the present embodiment, the indoor air and the floor can be cooled and heated at the same time, which is advantageous in that more efficient cooling and heating can be performed.

In addition, there is an advantage that the control of the cooling and heating apparatus can be simplified by the hierarchical control.

1 is a configuration diagram of an air conditioner according to the present embodiment.

2 is a block diagram showing the control of the air conditioner.

Claims (8)

At least one first indoor unit in which a first fluid flows and whose operation is controlled by a first control unit; One or more second indoor units in which a second fluid flows and whose operation is controlled by a second control unit; A control unit having a flow path formed therein to allow the first fluid and the second fluid to flow in a compartment and to exchange heat between the first fluid and the second fluid; And And an outdoor unit that is connected in parallel with the second indoor unit and the control unit, exchanges heat with the outdoor air, and is controlled to be operated by the outdoor unit controller, The integrated control unit is connected to the first control unit and the outdoor unit control unit, receives the load information of the first indoor unit from each of the first control units, adds the received load information, and transmits the sum to the outdoor unit control unit, The second control unit individually transmits the load information of the second indoor unit to the outdoor unit control unit, And the outdoor unit control unit operates the outdoor unit based on the load received from the integrated control unit and the second control unit. delete delete delete delete delete delete delete

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