KR100514925B1 - Multi-type air conditioner and installation method thereof - Google Patents

Abstract

Disclosed are a multi-type air conditioner and a method of installing the same. The multi-type air conditioner of the multi-pipe structure according to the present invention has an object to provide a multi-type air conditioner of the piping structure that can flexibly respond to the capacity change of the indoor unit or the load change of the indoor unit even after the system installation. The multi-type air conditioner according to the present invention for this purpose has a multi-pipe structure in which a plurality of indoor units are connected to one outdoor unit through separate refrigerant cycles. In addition, each of the refrigerant cycles has a refrigerant supplying capacity of a size required by the indoor unit of the first capacity, and at least one indoor unit of the plurality of indoor units is among the refrigerant cycles when the indoor unit of the second capacity is larger than the first capacity. Part of the parallel structure is converted so that the indoor unit of the second capacity is connected to the outdoor unit.

Description

MULTI-TYPE AIR CONDITIONER AND INSTALLATION METHOD THEREOF

The present invention relates to an air conditioner, and more particularly, to a multi-type air conditioner having a multi-pipe structure in which a plurality of indoor units are connected through separate refrigerant pipes to one outdoor unit.

The air conditioner includes a basic type in which one indoor unit is connected to one outdoor unit and a multi type in which a plurality of indoor units are connected to one outdoor unit. The basic type is mainly used for home use, and the multi type is installed in a built-in type in a large building, and a large outdoor unit is installed on the roof of the building, and a separate indoor unit is installed in each section of the building for air conditioning.

The multi-type air conditioner is divided into a single pipe structure and a multi pipe structure. The single pipe structure is provided with a single main pipe from an outdoor unit, and sub pipes are installed in each indoor unit through a branch device from the main pipe. to be. In contrast, the multi-pipe structure is a structure in which each indoor unit is connected to the outdoor unit through a separate pipe.

In the multi-type air conditioner of the multi-pipe structure, the pipe connecting each outdoor unit and each indoor unit requires a control valve for controlling the amount of refrigerant and a pipe connecting member for pipe connection. The size of this control valve and piping connection member is determined by the capacity of the indoor unit when the system is initially installed.

In the conventional multi-pipe type air conditioner, since it is impossible to change the size of the control valve and the pipe connecting member after the system is installed, it cannot flexibly cope with the capacity change of the indoor unit or the variation of the indoor unit load.

The multi-type air conditioner of the multi-pipe structure according to the present invention has an object to provide a multi-type air conditioner of the piping structure that can flexibly respond to the capacity change of the indoor unit or the load change of the indoor unit even after the system installation.

The multi-type air conditioner according to the present invention for this purpose has a multi-pipe structure in which a plurality of indoor units are connected to one outdoor unit through separate refrigerant cycles. In addition, each of the refrigerant cycles has a refrigerant supplying capacity of a size required by the indoor unit of the first capacity, and at least one indoor unit of the plurality of indoor units is among the refrigerant cycles when the indoor unit of the second capacity is larger than the first capacity. A part of the indoor capacity of the second capacity is connected to the outdoor unit by switching to a structure connected in parallel to correspond to the second capacity.

A multi-pipe type multi air structure having a compressor, and a plurality of indoor units connected to each outdoor unit through separate refrigerant cycles, each refrigerant cycle having a refrigerant supplying capacity of a size required by the indoor unit having a first capacity. When the indoor unit of the second capacity larger than the first capacity is installed, the installation method of the conditioner is converted to a structure in which some of the refrigerant cycles are connected in parallel to correspond to the second capacity, and connected in parallel to correspond to the second capacity. The refrigerant cycle converted into a structure connects the indoor unit and the outdoor unit of the second capacity.

When described with reference to Figures 1 to 3 a preferred embodiment of the present invention made as described above. First, FIG. 1 is a diagram illustrating a multi-type air conditioner having a multi-pipe structure according to an exemplary embodiment of the present invention, in which a pipe having a standard corresponding to a small capacity (first capacity) indoor unit is uniformly provided.

As shown in FIG. 1, the first to fourth small capacity (first capacity) indoor units 104a to 104d are connected to one outdoor unit 102 to the first to fourth refrigerant pipes 120a to 120d and 112a to 112d, respectively. Connected through. The outdoor unit 102 is provided with a compressor 106 for compressing a refrigerant and an outdoor heat exchanger 108 for performing heat exchange with outdoor air. The refrigerant discharged from the compressor 106 is supplied to the indoor unit 104 through the outdoor heat exchanger 108.

The first service valve 128 and the refrigerant passing through the outdoor heat exchanger 108 are selectively supplied to the first to fourth small capacity (first capacity) indoor units 104a to 104d at the outlet side of the outdoor heat exchanger 108. First to fourth control valves 110a to 110d for opening and closing the first to fourth refrigerant pipes 102a to 102d are connected to each other. The control unit (not shown) of the outdoor unit 102 corresponds to the indoor units 104a-104d among the first to fourth control valves 110a-110d so that the refrigerant is supplied to the desired indoor units 104a-104d. Open the valve at the address.

The refrigerant passing through the first to fourth control valves 110a to 110d is expanded under reduced pressure in the expansion device (for example, capillary tubes 112a to 112d) to each indoor unit 104a to 104d through the refrigerant pipes 120a to 120d. Supplied. The outdoor unit 102 and each refrigerant pipe 120a to 120d are mechanically bound through the first to fourth pipe connection members 114a to 114d. The service valve 128 is installed between the outdoor heat exchanger 108 and the first to third control valves 110a to 110d.

The refrigerant passing through the first to fourth small capacity (first capacity) indoor units 104a to 104d flows into the outdoor unit 104 through the fifth to eighth refrigerant pipes 122a to 122d. The fifth to eighth refrigerant pipes 122a to 122d are mechanically bound to the outdoor unit 102 through the fifth to eighth pipe connecting members 116a to 116d, and the compressor (through the second service valve 118). To the inlet of 106).

The multi-type air conditioner shown in FIG. 1 includes first to fourth control valves 110a to 110d, first to eighth pipe connection members 114a to 114d, and 116a to 116d, and first to eighth refrigerant pipes 120a to. The standard of 120d and 122a-122d has a uniform standard suitable for the small capacity (1st capacity) indoor unit 104a-104d.

That is, the maximum refrigerant amount control capability of the first to fourth control valves 110a to 110d and the internal diameters of the first to eighth refrigerant pipes 120a to 120d and 122a to 122d are small capacity (first capacity) indoor units 104a to 104d. ) Has a standard to support the refrigerant supply capacity required by the), and the specifications of the pipe connection members (114a ~ 114d, 116a ~ 116d) also has a specification that can be installed this refrigerant pipe (114a ~ 114d, 116a ~ 116d) Have

If some of the indoor units constituting the indoor unit 104 have to be installed as a large capacity (second capacity) indoor unit, some of the small capacity (first capacity) indoor units already installed have to be replaced with a large capacity (second capacity) indoor unit. In this case, by connecting the plurality of refrigerant pipes in parallel, the amount of refrigerant required by the large-capacity (second capacity) indoor unit can be supplied, which will be described below with reference to FIG. 2.

2 is a view showing a multi-type air conditioner having a multi-pipe structure according to another embodiment of the present invention. As shown in FIG. 2, when the large capacity (second capacity) indoor unit 202 is installed together with the small capacity (first capacity) indoor units 104c to 104d, a separate large capacity control valve and a refrigerant pipe are not used. Of the two small capacity control valves 110a and 110b, the expansion devices 112a and 112b, the pipe connection members 114a and 114b, and a part of the refrigerant pipes 120a and 120b. The branch device 224a is connected to the 120a and 120b, and the large capacity refrigerant pipe 220 is connected thereto. In addition, the large capacity refrigerant pipe 222 is connected to the outlet of the large capacity (second capacity) indoor unit 202, but the small capacity refrigerant pipes 122a and 122b are connected in parallel to the large capacity refrigerant pipe 222 through the branching device 224b. do. Thus, even when the large capacity (second capacity) indoor unit 202 is installed, the refrigerant supply devices used in the existing small capacity (first capacity) indoor units 104a to 104 can be used as they are.

However, when the large-capacity (second capacity) indoor unit 202 is installed and operated as described above, the control unit (not shown) of the outdoor unit 102 is a control valve corresponding to the existing small-capacity (first capacity) indoor units 104a and 104b. The new addresses are set and operated so as to correspond to the large capacity (second capacity) indoor unit 202 (110a, 110b). The control system of the multi-type air conditioner according to the present invention will be described with reference to FIG. 3 as follows.

3 is a block diagram showing a control system of a multi-type air conditioner having a multi-pipe structure according to an embodiment of the present invention. As shown in FIG. 3, an input unit 304 is connected to an input terminal of the controller 302. The input unit 304 may set a cooling / heating mode and a target temperature, and the manager may control the indoor unit through the input unit 304. Address setting and the like can be performed. The input unit 304 may be provided directly in the outdoor unit 102, or when provided in the indoor unit 104, it is preferable to communicate with the control unit 302 of the outdoor unit 102 through a separate communication line.

The compressor driving unit 306 and the first to fourth control valves 110a to 110d are connected to the output terminal of the control unit 302. The first and second control valves 110a and 110b are connected in parallel to the large capacity (second capacity) indoor unit 202 so that a large amount of refrigerant can be supplied to the large capacity (second capacity) indoor unit 202. When the large capacity (second capacity) indoor unit 202 is installed, the installer inputs the addresses of the first and second control valves 110a and 110b to correspond to the addresses of the large capacity (second capacity) indoor unit 202. Set to the control unit 302 through.

The multi-type air conditioner of the multi-pipe structure according to the present invention provides a multi-type air conditioner of the pipe structure that can flexibly cope with a change in the capacity of the indoor unit or a load change of the indoor unit even after installing the system.

1 is a view showing a multi-type air conditioner of a multi-pipe structure according to an embodiment of the present invention.

2 is a view showing a multi-type air conditioner of a multi-pipe structure according to another embodiment of the present invention.

3 is a block diagram showing a control system of a multi-type air conditioner having a multi-pipe structure according to an embodiment of the present invention.

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

102: outdoor unit

104: indoor unit

106: compressor

108: outdoor heat exchanger

110a ~ 110d: control valve

112a ~ 112d: capillary

114a ~ 114d, 116a ~ 116d: piping connection member

Claims (7)

In the multi-type air conditioner having a multi-pipe structure in which a plurality of indoor units are connected to one outdoor unit through separate refrigerant cycles, Each of the refrigerant cycles has a refrigerant supply capacity of a size required by the indoor unit of the first capacity; When at least one indoor unit of the plurality of indoor units is an indoor unit having a second capacity larger than the first capacity, a part of the refrigerant cycles is switched to a structure in which the refrigerant cycles are connected in parallel so as to correspond to the second capacity. A multi-type air conditioner for connecting an indoor unit to the outdoor unit. The method of claim 1, wherein the refrigerant cycle, A refrigerant pipe connecting the outdoor unit and the indoor unit; A valve installed on a flow path of the refrigerant pipe to control the amount of refrigerant supplied through the refrigerant pipe; A multi-type air conditioner, wherein said refrigerant pipe and said valve have a specification corresponding to said first capacity. The method of claim 2, wherein each of the refrigerant cycle, And an expansion means installed between the valve and the pipe connection member to reduce the pressure of the refrigerant. The method of claim 2, wherein each of the refrigerant cycle, And a pipe connection member for connecting the refrigerant pipe to the outdoor unit. The method of claim 2, A control unit for controlling overall operation of the air conditioner; And the control unit simultaneously controls the refrigerant cycles converted to the parallel structure so that the refrigerant amount required by the indoor unit of the second capacity is supplied. A multi-pipe type multi-type structure having a compressor, and a plurality of indoor units connected to one outdoor unit through separate refrigerant cycles, each of which has a refrigerant supplying capacity of a size required by the indoor unit having a first capacity. In the installation method of the air conditioner, When the indoor unit having a second capacity larger than the first capacity is installed, some of the refrigerant cycles are converted into a structure in parallel to correspond to the second capacity, and a structure is connected in parallel to correspond to the second capacity. A method of installing a multi-type air conditioner for connecting the indoor unit and the outdoor unit of the second capacity through a refrigerant cycle. The method of claim 6, A control unit for controlling the refrigerant cycle converted to the parallel structure so that the refrigerant amount required by the indoor unit of the second capacity is supplied; And a corresponding relationship between the refrigerant cycle switched to the parallel structure and the indoor unit of the second capacity is set in the controller.