KR20030061198A - Multi airconditioner - Google Patents

Abstract

PURPOSE: A multi air conditioner is provided to synthetically control all of indoor units and outdoor units with a main outdoor unit. CONSTITUTION: An indoor unit has a plurality of indoor units. The indoor units are connected with each other by tubes to allow refrigerant to flow. The outdoor unit is set as a main outdoor unit. A plurality of subordinate outdoor units are controlled by the main outdoor unit, and connected in series to allow refrigerant to flow through a single tube. The indoor units are connected with each other through communication lines to transmit and receive signal to and from each other. One of the indoor units is connected with the main outdoor unit to be representative of the indoor units. The main outdoor unit includes a first communication part for communication with the indoor units; a second communication part for communication with the subordinate outdoor units; a main outdoor unit control part(1) calculating information inputted by the first communication part and the second communication part, and controlling the indoor units and the subordinate outdoor units; and an actuator(3) controlling the main outdoor unit. The indoor units and the subordinate outdoor units includes communication parts for communication with the main outdoor unit; indoor unit control part(4) and subordinate outdoor unit control parts(2) analyzing control signal output by the main outdoor unit; and actuators(3,5) executing control signal analyzed by the indoor unit control parts and the subordinate outdoor unit control parts, respectively.

Description

Multi air conditioner {MULTI AIRCONDITIONER}

The present invention relates to a multi air conditioner, and more particularly, to a multi air conditioner having one indoor unit as a main unit in a multi air conditioner having a plurality of indoor units and a plurality of outdoor units so as to optimally control all indoor units and outdoor units in the main outdoor unit. will be.

In general, the outdoor unit is composed of a compressor, a valve connected to an outdoor side heat exchanger, and a refrigerant pipe, and the indoor unit is composed of an indoor side heat exchanger, a capillary tube, an expansion valve, and a valve. After the compressed refrigerant is discharged to the outdoor side heat exchanger, the outdoor side heat exchanger exchanges the gas refrigerant compressed at high temperature and high pressure with air blown by a cooling fan to forcibly cool the refrigerant to liquefy.

Subsequently, the high-pressure liquid refrigerant whose temperature is reduced to about 35 ° C.-40 ° C. in the outdoor side heat exchanger is introduced into the indoor heat exchanger as a refrigerant that coexists with gas and liquid of low temperature and low pressure while passing through a capillary tube that expands to the evaporation pressure. .

Meanwhile, the refrigerant introduced into the indoor heat exchanger takes heat from the air blown by the indoor fan when evaporated while passing through the indoor heat exchanger, cools the indoor air, and then discharges the cooled air (cold air) into the room to cool it. The low temperature and low pressure gas refrigerant, which is changed in phase in the indoor side heat exchanger, is again sucked by the compressor to form a recirculating refrigeration cycle.

However, the air conditioner that performs cooling by such a refrigeration cycle has the disadvantage that it is not possible to cool several rooms at the same time because it controls individual indoor units by one outdoor unit to perform individual cooling, and many rooms with multiple indoor units. In the case of cooling, it is difficult to secure the installation space because it requires the installation of a plurality of outdoor units, and the aesthetics were also poor.

In order to solve this problem, a multi air conditioner has been developed, and the multi air conditioner is composed of one outdoor unit and a plurality of indoor units.

The outdoor unit includes a condenser for radiating heat generated by condensation of a refrigerant, a compressor for compressing a refrigerant to a high pressure, and a blower for flowing air to cool the condenser.

The indoor unit includes a blower that sucks and discharges indoor air, and a heat exchanger on an air flow path to cool the suction air.

If a plurality of outdoor units each connected to a plurality of indoor units is connected through a pipe, a central controller is provided to control each outdoor unit and the indoor units connected to the outdoor unit.

In this case, installation is not easy because each outdoor unit and indoor unit are connected to the central controller at all times, and the economical efficiency is lowered due to the expensive central controller. If there is no central controller or there is a failure, the outdoor unit itself controls the indoor unit. There is a problem that can not perform the operation.

If a plurality of outdoor units are connected to the indoor units independently, and each outdoor unit controls only the indoor units connected to the indoor unit, control cannot be optimally performed as a multi-air conditioning system, and the control directions or methods of each outdoor unit collide with each other. There is a problem that causes.

The present invention has been made to solve the above problems, in the multi-air conditioner having a plurality of indoor units and a plurality of outdoor units to set one outdoor unit as the main to optimally control all the indoor unit and outdoor unit in the main outdoor unit. Its purpose is to provide a multi air conditioner.

Figure 1 is a schematic diagram showing the configuration of the present invention multi air conditioner

***** Description of the symbols for the main parts of the drawings *****

1: Main outdoor unit control unit 2: Subordinate outdoor unit control unit

3, 5: Actuator 4: Indoor control unit

In order to achieve the above object, the present invention includes an outdoor unit having a plurality of indoor units, and the plurality of indoor units are connected to each other by a pipe and have a structure in which a refrigerant flows. After setting to, a plurality of subordinate outdoor units controlled by the main outdoor unit are connected in series so that refrigerant flows through a single pipe, and the plurality of indoor units are connected to each other by a communication line to exchange signals with each other. The indoor unit of the representative is characterized in that connected to the main outdoor unit.

Hereinafter, with reference to the accompanying drawings, the operation and effects of the multi-air conditioner according to the present invention will be described in detail.

1 is a block diagram showing an embodiment of a multi-air conditioner according to the present invention. As shown in FIG. 1, an outdoor unit having a plurality of indoor units is provided, and the plurality of indoor units are connected to each other by a pipe and a refrigerant flows therein. After the outdoor unit is set as the main outdoor unit, a plurality of subordinate outdoor units controlled by the main outdoor unit are connected in series so that refrigerant flows through one pipe, and the plurality of indoor units are connected to each other by a communication line. They send and receive signals to each other, and one indoor unit is connected to the main outdoor unit as a representative.

The main outdoor unit includes a first communication unit (not shown) for communicating with a plurality of indoor units, a second communication unit (not shown) for communicating with a plurality of subordinate outdoor units, and the first and second communication units. A main outdoor unit controller 1 for calculating various types of information input through (not shown) and controlling the indoor unit and the subordinate outdoor unit accordingly, and an actuator 3 for controlling the main outdoor unit itself.

The plurality of indoor units and the subordinate outdoor units may include a communication unit (not shown) for communicating with the main outdoor unit, an indoor unit controller 4 and a subordinate outdoor unit controller 2 for interpreting a control signal output from the main outdoor unit. And actuators 5 and 3 for performing the control signals analyzed by the indoor unit controller 4 and the dependent outdoor unit controller 2, respectively. The operation of the present invention will be described.

First, in an outdoor unit having a plurality of indoor units, the plurality of indoor units are connected to each other by a pipe and have a structure in which a refrigerant flows.

At this time, after setting the outdoor unit as the main outdoor unit, a plurality of subordinate outdoor units are connected in series so that refrigerant flows through a single pipe, and the main outdoor unit communicates with the plurality of subordinate outdoor units by using an internal communication device. The main outdoor unit controller 1 transmits a command for controlling various valves and compressors of each outdoor unit based on the state information of each outdoor unit.

In addition, the main outdoor unit, a plurality of indoor units are connected in series, the plurality of indoor units are connected to each other by a communication line to send and receive signals, one of the indoor unit is connected to the main outdoor unit as a representative.

Here, the plurality of indoor units may continue to be connected regardless of the subordinate outdoor units that are additionally connected.

In this case, the main outdoor unit receives a capacity change and a temperature change of each indoor unit through a device for communicating with the plurality of indoor units, and based on this, the main outdoor unit controller 1 transmits a command for controlling each indoor unit. do.

Here, the main outdoor unit and the subordinate outdoor unit and the plurality of indoor units are provided with actuators 3 and 5 for performing commands by themselves.

In other words, the present invention is a multi-room air-conditioning apparatus having a plurality of indoor units and a plurality of outdoor units connected to each other by a pipe, wherein one outdoor unit is a main unit, and the other outdoor unit is a subordinate unit. The control of the outdoor units is done via the main outdoor unit.

The specific embodiments or examples made in the detailed description of the present invention are intended to clarify the technical contents of the present invention to the extent that they should not be construed as limited to these specific embodiments and should not be construed in consultation. Various changes can be made within the scope of.

As described in detail above, the present invention has an effect of optimally controlling and controlling all indoor and outdoor units in the main outdoor unit by setting one outdoor unit as a main unit in a multi-air conditioner having a plurality of indoor units and a plurality of outdoor units.

Claims (4)

In the multi-air conditioner having an outdoor unit having a plurality of indoor units, the plurality of indoor units are connected to each other by a pipe and the refrigerant flows, After setting the outdoor unit as a main outdoor unit, a plurality of subordinate outdoor units controlled by the main outdoor unit are connected in series so that refrigerant flows through one pipe, The plurality of indoor units are connected to each other by a communication line to exchange signals with each other, one of the indoor unit is a multi-air conditioner, characterized in that connected to the main outdoor unit. The method of claim 1, wherein the main outdoor unit, First communication means for performing communication with a plurality of indoor units; Second communication means for performing communication with a plurality of subordinate outdoor units; Control means for calculating various types of information input through the first and second communication means and controlling the indoor unit and the dependent outdoor unit accordingly; An air conditioner comprising an actuator for controlling the main outdoor unit itself. The method of claim 1, wherein the plurality of indoor units and the dependent outdoor unit, Communication means for performing communication with the main outdoor unit; Calculating means for analyzing a control signal output from the main outdoor unit; And an actuator for carrying out the control signal interpreted by said calculating means. The main outdoor unit according to claim 1 or 2, And a command for controlling each indoor unit based on capacity change of each indoor unit, temperature change, and status information of each outdoor unit, and a command for controlling various valves and compressors of each outdoor unit.