KR20110102612A - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner that can add or remove a distribution unit module as necessary by modularizing a distribution unit connecting the outdoor unit and the indoor unit to be detachably connected to each other.

Description

Air Conditioning Equipment {AIR CONDITIONER}

The present invention relates to an air conditioner that maintains indoor air in a comfortable state by adjusting a certain space to a temperature, humidity, and airflow distribution suitable for human activity. More specifically, the present invention relates to an air conditioner that can add or remove a distribution unit module as needed by modularizing the distribution unit connecting the outdoor unit and the indoor unit to be detachably connected to each other.

An air conditioner is a cooling / heating system that cools a room by a repetitive action of sucking indoor air and exchanging heat with a low temperature refrigerant and then discharging it into a room. -Expansion valve-A device that forms a series of cycles consisting of an indoor heat exchanger.

In addition, the air conditioner of recent years has been dehumidified after performing a dehumidification process while circulating the humid air and the air purifying function to suck and filter the polluted air in the room in addition to the heating and cooling of the air conditioning space and re-supplied into the air conditioning space. It has several additional functions, such as a dehumidification function that supplies air back to the air conditioning space.

The air conditioner may be classified into a separate type air conditioner in which the outdoor unit and the indoor unit are separately installed, and an integrated air conditioner in which the outdoor unit and the indoor unit are integrally provided.

In addition, recently, a multi-air conditioner is used to connect a plurality of indoor units to one outdoor unit to share the outdoor unit.

The multi air conditioner as described above can obtain the effect of installing a plurality of separate air conditioners including one conventional outdoor unit and one indoor unit, and may add an indoor unit according to a user's needs.

The outdoor unit constituting the air conditioner includes an outdoor heat exchanger and a compressor for heat-exchanging air and refrigerant outside the air conditioning space in which the outdoor unit is installed.

Therefore, the refrigerant circulated in each indoor unit is collected in the same outdoor unit, and the process of distributing the indoor unit through the compression process and the condensation process (at the time of indoor cooling) may be repeated.

Such a distribution process of the refrigerant may be performed through a distribution device that is responsible for the collection and distribution of the separate refrigerant rather than having a distribution pipe branched according to the number of indoor units in the compressor or outdoor heat exchanger.

Such a distribution device connects the indoor unit and the outdoor unit, collects the refrigerant to a compressor or an outdoor heat exchanger inside the outdoor unit, and distributes the refrigerant to the indoor unit having respective cooling conditions.

Therefore, in the case of a multi-air conditioner that connects a plurality of indoor units to one outdoor unit and shares the outdoor unit, a distribution device may be provided to collect the refrigerant into the outdoor unit and distribute the refrigerant to the plurality of indoor units. The number of indoor units (number of indoor units that can be connected to the distribution device) that the distribution device can cover is made to be fixed.

However, if the distribution device is manufactured in such a way that the number of indoor units that can be connected to the distribution device is not variable, if the user later wants to add the indoor unit within the capacity of the outdoor unit, more indoor devices can be connected. A separate dispensing device manufactured in form must be purchased and replaced with an existing dispensing device.

For example, if you initially purchased an air conditioner that includes four indoor units and a distribution unit that can cover four indoor units, and you want to purchase and install one more indoor unit as needed, It must be replaced with a distribution device that can cover two indoor units. Therefore, in such a case, it is unreasonable to bear double costs from the user's point of view.

Alternatively, when it is difficult to specify the number of indoor units to be used from the time of purchasing an air conditioner for the first time, in order to avoid the double burden of the above costs, there is no choice but to purchase a distribution device that can be connected to as many indoor units as possible. There is a high possibility of wasting unnecessary.

The present invention provides an air conditioner that can add or remove a distribution unit module according to a user's needs by modularizing a distribution unit that delivers refrigerant by connecting an outdoor unit to an indoor unit and allowing the modular distribution unit to be detachably connected to each other. The task is to solve the problem.

However, the technical problem to be solved by the present invention is not limited to the technical problem mentioned above, another technical problem that is not mentioned will be clearly understood by those skilled in the art from the following description. Could be.

In order to solve the above problems, the present invention provides at least one or more indoor units, an outdoor unit having a compressor, an outdoor heat exchanger and a blower fan, and at least one or more having a distribution unit housing connecting the indoor unit and the outdoor unit, respectively. A distribution unit assembly comprising a distribution unit module, wherein the distribution unit module provides an air conditioner having at least one or more indoor connection parts connected to the indoor unit.

Here, the basic distribution unit module of the distribution unit module constituting the distribution unit assembly may include an outdoor side connection part connected to the compressor and the outdoor heat exchanger of the outdoor unit.

In addition, the additional distribution unit module of the distribution unit module constituting the distribution unit assembly, except for the basic distribution unit module may be provided with a distribution unit connection for detachably connected with the basic distribution unit module or another additional distribution unit module. have.

In addition, the basic distribution unit module and the additional distribution unit module may have an additional connection portion connectable to the distribution unit connection portion of the additional distribution unit module continuously mounted.

Here, the distribution unit module constituting the distribution unit assembly may include a liquid refrigerant pipe, a gaseous refrigerant pipe, and an electronic expansion valve corresponding to the number of each indoor connection part.

In this case, the liquid refrigerant pipe and the gaseous refrigerant pipe provided in each of the distribution unit modules may be connected to each other through a connected distribution unit connection part and an additional connection part, and may be connected to the outdoor unit through an outdoor connection part of the basic distribution unit module.

In addition, the liquid refrigerant pipes provided in each of the distribution unit modules may include a liquid branch pipe branched to each of the electronic expansion valve and a liquid connection pipe connecting the electronic expansion valve and the indoor connection.

Here, the gaseous phase refrigerant pipes provided in each of the distribution unit modules may include a gaseous phase branch pipe branched to each indoor side connection portion.

On the other hand, the additional connection portion of the basic distribution unit module and the additional distribution unit module may be selectively opened and closed by the blocking member.

In addition, the distribution unit connection portion or the additional connection portion may have a fastening socket structure.

The distribution unit assembly may be connected to each other in a state in which a plurality of distribution unit modules are stacked.

On the other hand, the distribution unit assembly may be detachably mounted to the outdoor unit.

In the air conditioner according to the present invention, since the distribution unit is modularized and the distribution unit modules are detachably connected to each other, the distribution unit module can be added or removed as necessary.

That is, from the user's point of view, there is no need to purchase a distribution unit that can be connected to more than the required number of indoor units from the beginning when the air conditioner is purchased, and it is sufficient to purchase a modular distribution unit according to the additional needs of the indoor unit. This reduces costs and expands your options for purchasing products.

In addition, from the producer's point of view, only a distribution unit module having a small number of indoor side connections can be manufactured, thereby reducing the material cost and increasing profits.

1 illustrates various mounting positions of a distribution unit assembly when the distribution unit assembly 200 is not mounted in a mounting space inside the outdoor unit 100 but is mounted on a separate installation surface.
2 is a conceptual view schematically showing the flow of the refrigerant between the outdoor unit and the indoor unit through the distribution unit assembly as an embodiment of the air conditioner according to the present invention.
3 is a perspective view illustrating a state in which a distribution unit assembly according to the present invention is mounted to an outdoor unit.
4 shows an embodiment of a distribution unit assembly according to the invention.
5 is a perspective view of the piping structure inside the distribution unit module according to the present invention separated according to the nature of the refrigerant.
6 is a perspective view showing a state in which the piping structure is assembled inside the distribution unit module according to the present invention.
Figure 7 shows another embodiment of a distribution unit assembly according to the invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.

The air conditioner according to the present invention includes at least one outdoor unit 100 including at least one indoor unit (not shown), a compressor (not shown), and an outdoor unit housing 110, and at least one unit connected to the indoor unit 100. And a distribution unit assembly 200 having an indoor side connection part and an outdoor side connection part connected to the outdoor unit, and a distribution unit housing, wherein the distribution unit assembly 200 is detachable from a mounting space inside the outdoor unit housing 110. It includes an air conditioner that can be mounted or mounted in a separate installation space.

1 illustrates various mounting positions of a distribution unit assembly when the distribution unit assembly 200 is not mounted in a mounting space inside the outdoor unit 100 but is mounted on a separate installation surface.

The indoor unit (not shown) of the air conditioner may be installed at various locations according to the location of the air conditioner and the direction in which the outdoor unit 100 of the air conditioner is installed.

The outdoor unit 100 sucks and exchanges the outdoor air and then discharges the heat-exchanged air in a specific direction (from the outdoor heat exchanger to the blowing fan), and a connection part connected to the indoor unit is also provided in a specific part of the outdoor unit housing. When the indoor unit is connected to the outdoor unit and each pipe, the aesthetics of the space in which the outdoor unit is installed may be damaged. As shown in FIG. 1, the outdoor unit 100 and each indoor unit are provided through the distribution unit assembly 200. By connecting the length of the pipe proportional to the distance between the outdoor unit 100 and the distribution unit assembly 200 can be reduced.

However, when the distance between the installation position of the outdoor unit 100 and the air conditioning space in which each indoor unit is mounted is short, it may be assumed that it is not necessary to be connected via the distribution unit assembly 200.

2 is a conceptual view schematically showing the flow of the refrigerant between the outdoor unit and the indoor unit through the distribution unit assembly as an embodiment of the air conditioner according to the present invention.

As shown in FIG. 2, the distribution unit assembly 200 connects the outdoor unit 100 and at least one indoor unit 300A-1, 300A-2, 300B-1, 300B-2 to the outdoor unit 100. The refrigerant supplied from the air is distributed to the indoor units 300A-1, 300A-2, 300B-1, and 300B-2, and the refrigerant collected from the indoor units 300A-1, 300A-2, 300B-1, and 300B-2. May be recovered to the outdoor unit 100 again. In FIG. 2, the arrows schematically show the flow of the refrigerant delivered through the distribution unit assembly 200.

The indoor units 300A-1, 300A-2, 300B-1, and 300B-2 may be divided into two groups, the indoor unit 300A and the indoor unit 300B. Reference numeral 300A denotes an indoor unit that is basically provided at the time of initial installation of the air conditioner, and in that sense, the basic indoor unit 300A will be referred to below. Reference numeral 300B denotes an indoor unit additionally provided by a user's needs according to the use of the air conditioner, and in that sense, it will be referred to as an additional indoor unit 300B.

Meanwhile, in the distribution unit assembly 200 connected to the basic indoor unit 300A and the additional indoor unit 300B, two distribution unit modules are stacked and assembled with each other. In more detail, the distribution unit assembly 200 includes a distribution unit module 200A and the additional indoor unit 300B and the distribution unit module 200B connected to the basic indoor unit 300A and the outdoor unit 100. It is composed of a distribution unit module 200B connected.

The distribution unit module 200A is connected to the basic indoor unit 300A and directly connected to the outdoor unit 100 without passing through another distribution unit module. That is, the distribution unit module 200A directly receives the refrigerant from the outdoor unit 100 to distribute the refrigerant to the basic indoor unit 300A, and directly transfers the refrigerant collected from the basic indoor unit 300A to the outdoor unit 100. In terms of recovery, it is an essential distribution unit module constituting the distribution unit assembly 200. In this sense, the distribution unit module 200A is hereinafter referred to as a basic distribution unit module.

Meanwhile, the distribution unit module 200B is connected to the additional indoor unit 300B and is connected to one end of the basic distribution unit module 200A to receive the refrigerant delivered from the outdoor unit 100 or to the outdoor unit 100. do. That is, the distribution unit module 200B does not directly receive or transfer refrigerant from the outdoor unit 100, but instead of the basic distribution unit module 200A between the additional indoor unit 300B and the outdoor unit 100. The refrigerant is transferred through the intervening refrigerant. In this sense, the distribution unit module 200B will hereinafter be referred to as an additional distribution unit module.

Hereinafter, the flow of the refrigerant will be described in detail on the assumption that the additional distribution unit module 200B is additionally mounted in a state in which the basic distribution unit module 200A is provided.

First, an initial state of purchasing and installing a multi-type air conditioner is assumed. In this case, the outdoor unit 100 and the basic indoor units 300A-1 and 300A-2 will be provided, and the basic distribution unit module 200A for connecting the outdoor unit 100 and the basic indoor unit 300A to deliver the refrigerant is provided. Can be. In the current state in which the additional distribution unit module 200B is not yet added, the refrigerant supplied from the outdoor unit 100 is transferred to each of the basic indoor units 300A-1 and 300A-2 through the basic distribution unit module 200A. The refrigerant heat exchanged in each of the basic indoor units 300A-1 and 300A-2 is recovered to the outdoor unit 100 again through the basic distribution unit module 200A to circulate the refrigerant.

Here, it is assumed that there is a need to add two more indoor units for the air conditioner having the above configuration. In other words, additional indoor units 300B-1 and 300B-2 need to be mounted to the air conditioner. In this case, as shown in FIG. 2, since only two indoor units that can be connected to the basic distribution unit module 200A are limited, additional distribution unit modules are required. Due to this necessity, an additional distribution unit module 200B connected to the additional indoor unit 300B is detachably mounted to the basic distribution unit module 200A.

When the additional distribution unit module 200B is mounted on the basic distribution unit module 200A as described above, the refrigerant starting from the outdoor unit 100 is transferred to the respective basic indoor units 300A-1 through the basic distribution unit module 200A. , 300A-2) or delivered to an additional distribution unit module 200B connected to the basic distribution unit module 200A. The refrigerant delivered from the basic distribution unit module 200A is distributed to the respective additional indoor units 300B-1 and 300B-2 connected to the additional distribution unit module 200B through the additional distribution unit module 200B.

When the refrigerant having undergone heat exchange in each of the indoor units 300A-1, 300A-2, 300B-1, and 300B-2 is recovered to the outdoor unit 100 again, the refrigerant of the basic indoor unit 300A is respectively supplied to the basic distribution unit. The module 200A is collected and the refrigerant of the additional indoor unit 300B is collected by the additional distribution unit module 200B. Here, the refrigerant collected by the additional distribution unit module 200B is sent to the basic distribution unit module 200A and merged with the refrigerant collected by the basic distribution unit module 200A. The refrigerant combined in the basic distribution unit module 200A is recovered to the outdoor unit 100 again, and the refrigerant is circulated.

Until now, FIG. 1 illustrates that the distribution unit assembly 200 is mounted in a separate mounting space outside the outdoor unit 100. In FIG. 2, the distribution unit assembly 200 is an outdoor unit 100 for convenience of description. Although shown to be located outside, the distribution unit assembly 200 may be detachably mounted to a mounting space inside the outdoor unit 100. Hereinafter, a state in which the distribution unit assembly 200 is mounted inside the outdoor unit 100 will be described with reference to FIG. 3.

3 is a perspective view illustrating a state in which a distribution unit assembly according to the present invention is mounted to an outdoor unit.

3 shows a state in which a part (side portion) of the outdoor unit housing 110 of the outdoor unit 100 is opened. A portion of the outdoor unit housing 110 may be opened or separated to selectively mount or remove the distribution unit assembly 200.

The distribution unit assembly 200 includes a plurality of indoor connection parts 270. Each indoor connection part 270 may be connected to each indoor unit 300 (refer to FIG. 2) by a pair of refrigerant pipes.

The distribution unit assembly 200 includes a plurality of indoor connection parts 270 on one side and an outdoor connection part 250A connected to the compressor 170 and the outdoor heat exchanger 140, respectively. Can be.

In the state in which the outdoor unit housing 110 is separated, since the outdoor heat exchanger 140 is disposed in a path through which outdoor air is sucked and discharged, the space inside the outdoor unit 100 is mounted, and thus the distribution unit assembly 200 is mounted. The mounting space is quite limited.

That is, the outdoor unit housing 110 has an opening for the flow of outdoor air is formed in front and rear of the outdoor unit housing 110, the mounting space does not block the flow path of the intake air passing through the outdoor heat exchanger (140). It is preferable to be provided in the area | region which does not.

Therefore, the mounting space may be provided in the vicinity of any one side of both sides of the outdoor unit housing of the space inside the outdoor unit housing 110. In addition, the mounting space may be a space near the compressor 170.

In addition, the position of the compressor 170 provided in the outdoor unit 100 is also provided at a position that does not interfere with the flow of outdoor air.

The location of the compressor 170 and the outdoor heat exchanger 140 or the like that does not interfere with the flow of air may be a side edge region of the outdoor unit housing 110 in the space inside the outdoor unit housing 110. Since the distribution unit housings 210A and 210B preferably have a proper length in order to include a plurality of indoor unit connection parts 270 in the unit assembly 200, the mounting space in which the distribution unit assembly 200 is mounted is the outdoor unit. The space inside the housing 110 may be an area near a side surface of the outdoor unit housing 110.

When the mounting space in which the distribution unit assembly 200 is mounted is determined as an area near the side surface of the outdoor unit housing 110 among the spaces inside the outdoor unit housing 110, for connection with the inside of the outdoor unit 100. The outdoor connection part 250A of the distribution unit assembly 200 may also be connected to the compressor 170 or the outdoor heat exchanger 140 with a minimum pipe length.

As shown in FIG. 3, the distribution unit assembly 200 according to the present exemplary embodiment may be mounted with each other by stacking the basic distribution unit module 200A and the additional distribution unit module 200B. Here, one side of each distribution unit housing including the interior connection part 270A (see FIG. 4) of the basic distribution unit module 200A and the interior connection part 270B (see FIG. 4) of the additional distribution unit module 200B is the same. It is preferable to stack to form a plane. That is, it is preferable that both the indoor connection part 270A of the basic distribution unit module 200A and the indoor connection part 270B of the additional distribution unit module 200B face the rear side of the outdoor unit 100.

In addition, since the basic distribution unit module 200A constituting the distribution unit assembly 200 is directly connected to the outdoor unit 100, the basic distribution unit module 200A may be provided with an outdoor side connection part 250A. Here, the outdoor unit 100 may be provided with a pipe connection unit 150 to be connected to the distribution unit assembly 200. As shown in FIG. 3, the outdoor connection part 250A of the basic distribution unit module 200A and the pipe connection part 150 of the outdoor unit 100 may be fastened at an upper portion of the basic distribution unit module 200A. have. When fastened in this way, the outdoor side connection portion 250A is preferably provided on the upper portion of the basic distribution unit module 200A.

Detailed description of the structure of the distribution unit assembly 200 will be described with reference to FIG. For convenience of explanation. The names of the sockets and the like are based on the cooling of the air conditioner.

4 shows an embodiment of a distribution unit assembly according to the invention. More specifically, Figure 4 (a) is a perspective view showing a state in which the distribution unit assembly of one embodiment according to the present invention is assembled. Figure 4 (b) is a perspective view showing a state in which the distribution unit assembly of the embodiment according to the present invention is separated. Figure 4 (c) is a right side view showing the distribution unit module constituting the distribution unit assembly of one embodiment according to the present invention. Figure 4 (d) is a bottom view showing the distribution unit module constituting the distribution unit assembly of one embodiment according to the present invention.

As shown in Figure 4 (a), the distribution unit assembly 200 of the present embodiment is a further distribution that is detachably coupled to the basic distribution unit module 200A and the basic distribution unit module 200A directly connected to the outdoor unit. It may be made of a unit module 200B.

The basic distribution unit module 200A is connected to the outdoor unit 100, the basic indoor unit 300A and the additional distribution unit module 200B to receive refrigerant from the outdoor unit 100, and to receive the indoor unit 300A and the additional distribution. The refrigerant is distributed to the unit module 200B. In addition, the basic distribution unit module 200A collects refrigerant from the indoor unit 300A and the additional distribution unit module 200B, and recovers the refrigerant to the outdoor unit 100.

Meanwhile, the additional distribution unit module 200B is connected to the basic distribution unit module 200A and is connected to the additional indoor unit 300B added to the basic indoor unit 300A. Therefore, the additional distribution unit module 200B receives the refrigerant supplied from the outdoor unit 100 through the basic distribution unit module 200A and distributes the refrigerant to the additional indoor unit 300B. In addition, the additional distribution unit module 200B collects the refrigerant from the additional indoor unit 300B and transfers the refrigerant to the basic distribution unit module 200A to recover the refrigerant to the outdoor unit 100.

In addition, the distribution unit assembly 200 is formed of a substantially rectangular shape having a long vertical direction, the appearance of the housing 210A and the additional distribution unit module of the basic distribution unit module constituting the distribution unit assembly 200. The housing 210B may be mounted in a stacked form. In addition, each interior connection part 270A-1 and 270A-2 of the basic distribution unit module and each interior connection part 270B-1 and 270B-2 of the additional distribution unit module are provided on the same side of the distribution unit housing. The indoor connection parts 270A-1, 270A-2, 270B-1, and 270B-2 may be spaced apart from each other in the longitudinal direction to form a predetermined gap.

As shown in FIG. 4 (b), the basic distribution unit module 200A includes a basic distribution unit housing 210A forming an external shape of the distribution unit, an outdoor side connection part 250A connected to the outdoor unit 100, and a basic structure. An indoor connection part 270A connected to the indoor unit, and an additional connection part 290A connected to the additional distribution unit module 200B (see FIG. 5).

Here, the basic distribution unit housing 210A may have a shape of a substantially rectangular shape having a long longitudinal direction. The outdoor connection part 250A may be formed to be exposed to the upper surface of the basic distribution unit housing 210A, and the indoor connection part 270A may be formed to be exposed to the right side of the basic distribution unit housing 210A. The indoor connection part 270A includes a first indoor connection part 270A-1 and a second indoor connection part 270A-2, and may be connected to two indoor units. In addition, each of the first and second indoor connection parts 270A-1 and 270A-2 may include an indoor high pressure socket 271A and 271B and an indoor low pressure socket 275A and 275B, respectively. Detailed description will be described later.

In addition, the additional distribution unit module 200B is connected to an additional distribution unit housing 210B forming an outer shape, a distribution unit connection part 230B connected to the basic distribution unit module 200A, and an additional indoor unit 300B. And an indoor side connection portion 270B.

In this embodiment, the case where there is one additional distribution unit module 200B additionally connected to the basic distribution unit module 200A, but if the indoor unit to be connected to the outdoor unit 100 is added as needed, the additional distribution unit accordingly Module 200B may be further provided separately. Therefore, the additional distribution unit module 200B may further include an additional connection part 290B (see FIG. 6) for connecting to another additional distribution unit module to be added.

Here, the distribution unit connection part 230B may be formed to be exposed to the upper surface of the additional distribution unit housing 210B, and the indoor connection part 270B may be formed to be exposed to the right side of the additional distribution unit housing 210B. . As in the case of the basic distribution unit module 200A, the interior connection parts 270B-1 and 270B-2 of the additional distribution unit module 200B also have an indoor high pressure socket 271B-1 and 271B-2. Side low pressure socket (275B-1, 275B-2) may be configured, the detailed description will be described later.

As shown in FIG. 4C, the additional connection portion 290A of the basic distribution unit module 200A is housed inside the basic distribution unit housing 210A without being exposed to the outside. Similarly, the additional connection unit 290B of the additional distribution unit module 200B is also accommodated inside the additional distribution unit housing 210B and is not exposed to the outside.

As such, the additional connection portion 290A of the basic distribution unit module 200A is accommodated in the basic distribution unit housing 210A, and the distribution unit connection portion 230B of the additional distribution unit module 210B is the additional distribution unit housing. Since it is exposed to the outside of the 210B, when the basic distribution unit module 200A and the additional distribution unit module 200B are laminated and combined, a space is formed between the two distribution unit housings 210A and 210B so as not to be spaced apart from each other. Can be mounted. That is, since the distribution unit connection part 230B exposed to the outside may be connected to the additional connection part 290A accommodated inside the housing and the basic distribution unit housing 210A, as shown in FIG. The basic distribution unit module 200A and the additional distribution unit module 200B may be connected in series so that the lower surface of the distribution unit housing 210A and the upper surface of the additional distribution unit housing 210B abut.

Herein, only the case where the basic distribution unit module 200A and the additional distribution unit module 200B are stacked and coupled is described. However, when there are a plurality of additional distribution unit modules 200B, the additional distribution unit modules all have the same structure and shape. Of course, the above description can also be applied when the stack is coupled between the additional distribution unit module (200B).

However, the outdoor connection part 250A, the additional connection part 290A, the distribution unit connection part 230B, and the additional connection part 290B are not limited to the above whether they are exposed to the outside of the distribution unit housing or accommodated therein. For example, even if the outdoor connection part 250A, the additional connection part 290A, the distribution unit connection part 230B, and the additional connection part 290B are arranged to be exposed to the upper and lower surfaces of the distribution unit housing, the upper and lower surfaces of the distribution unit housing If a rib having a predetermined height is installed to extend in the longitudinal direction, an empty gap is formed when the base distribution unit module 200A and the additional distribution unit module 200B or the additional distribution unit module 200B are stacked and connected. It can be connected smoothly so that it is not exposed.

On the other hand, as shown in Figure 4 (d), the distribution unit connecting portion 230B is inserted into the interior of the basic distribution unit housing 210A so that the lower surface of the basic distribution unit housing 210A to be connected to the additional connection (290A) The connection portion receiving hole 215A may be formed. Although not shown, a connection portion receiving hole may be formed on the bottom surface of the additional distribution unit housing 210B so that the distribution unit connection portion of the other additional distribution unit module may be inserted.

If the additional indoor unit 300B is not required and the additional distribution unit module 200B does not need to be further provided, foreign matter from outside should be prevented from penetrating into the basic distribution unit housing 210A. Therefore, when the additional distribution unit module 200B is not mounted on the basic distribution unit module 200A, the connection part receiving hole 215A is preferably closed by a shielding member 217A such as rubber packing. Likewise, a shield member may be provided in the connection receiving hole of the additional distribution unit housing.

Hereinafter, the piping structure inside the basic distribution unit module 200A will be described in detail with reference to FIG. 5. Since the piping structure of the distribution unit module is similar to that of the basic distribution unit module 200A or the additional distribution unit module 200B, the description of the piping structure of the additional distribution unit module 200B is omitted in FIG. 5.

5 is a perspective view of the piping structure inside the distribution unit module according to the present invention separated according to the nature of the refrigerant.

Specifically, FIG. 5 (a) shows a piping structure centered on a liquid refrigerant pipe for distributing or decompressing (expanding) the refrigerant supplied from the outdoor unit side. For convenience of explanation, a set of pipes supplied to the indoor unit by distributing or decompressing (expanding) the refrigerant supplied from the outdoor unit based on the cooling time is called a high pressure part, and collects the refrigerant recovered from the indoor unit to supply the outdoor unit. The set of refrigerant pipes to be referred to as a low pressure part.

As shown in FIG. 5 (a), one end of the liquid refrigerant pipe 220A, which is the main refrigerant pipe, is provided with an outdoor high pressure socket 251A to form a pipe connection part 150 on the compressor side. And (see FIG. 3).

The other end of the liquid refrigerant pipe 220A is provided with an additional high pressure socket 291A for connecting with a distribution unit high pressure socket 231B (see FIG. 4 (b)) constituting the distribution unit connection part 230B of the additional distribution unit module. Can be.

Meanwhile, first and second electromagnetic expansion valves 260A-1 and 260A-2 may be provided at the side of the liquid refrigerant pipe 220A to depressurize or expand the refrigerant supplied to the respective indoor connection parts.

In addition, the liquid refrigerant pipe 220A is a plurality of gas phase branch pipes 241A-1 and 241A-2 branched from the liquid refrigerant pipe 220A to the electromagnetic expansion valves 260A-1 and 260A-2 at predetermined intervals. ) May be included. That is, the first and second liquid branch pipes 241A-1 and 241A-2 may be branched from the liquid refrigerant pipe 220A and connected to the respective electromagnetic expansion valves 260A-1 and 260A-2. .

Therefore, when the refrigerant is supplied from the high pressure socket 151 side of the outdoor unit through the outdoor high pressure socket 251A, the refrigerant is supplied through the liquid refrigerant pipe 220A to the first and second liquid branch pipes 241A-. 1, 241A-2, or may be supplied to the additional distribution unit module 200B side through the additional high pressure socket 291A.

The refrigerant supplied through the first and second liquid branch pipes 241A-1 and 241A-2 is decompressed or expanded in the first and second electromagnetic expansion valves 260A-1 and 260A-2, respectively, First and second indoor units 300A-1 and 300A- provided in respective air conditioning spaces through respective first and second indoor high pressure sockets 271A-1 and 271A-2 constituting the side connection portion 270A. 2) can be supplied to the side.

In this case, one end of each of the electromagnetic expansion valves 260A-1 and 260A-2 may include the first and second indoor high pressure sockets 271A-1 and 271A-2 and the first and second electromagnetic expansion valves ( First and second liquid connection tubes 265A-1 and 265A-2 may be provided to connect the 260A-1 and 260A-2, respectively.

Each of the first and second electromagnetic expansion valves 260A-1 and 260A-2 is controlled by a controller (not shown) to adjust the flow rate of the refrigerant and expand (depressurize) the refrigerant according to a control command.

Figure 5 (b) shows a low pressure portion that is a piping structure centered on the gas phase refrigerant pipe to collect the refrigerant recovered from the indoor unit side.

As shown in FIG. 5 (b), one end of the gas phase refrigerant pipe 280A is provided with an outdoor low pressure socket 255A to be coupled with the low pressure socket 155 constituting the pipe connection part 150 on the compressor side. (See FIG. 3).

The other end of the gas phase refrigerant pipe 280A is provided with an additional low pressure socket 295A for connection with a distribution unit low pressure socket 235B (see FIG. 4 (b)) constituting the distribution unit connection portion 230B of the additional distribution unit module. Can be.

In addition, the gas phase refrigerant pipe 280A is a plurality of gas phase branch pipes branched from the gas phase refrigerant pipe 280A to the interior low pressure sockets 275A-1 and 275A-2 of the indoor connection portion 270A at predetermined intervals. (277A-1, 277A-2). That is, the first and second gas phase branch pipes 277A-1 and 277A-2 may connect the indoor low pressure sockets 275A-1 and 275A-2 and the gas phase refrigerant pipe 280A.

In the gas phase refrigerant pipe 280A illustrated in FIG. 5B, the refrigerants recovered from the first and second indoor units 300A-1 and 300A-2 provided in the respective air conditioning spaces are first and second through the refrigerant pipe. 2 is recovered through the indoor low pressure sockets 275A-1 and 275A-2 and the first and second gas phase branch pipes 277A-1 and 277A-2, and the additional low pressure socket from the additional distribution unit module 200B side. When the refrigerant is recovered through 295A, the refrigerant may be collected and converged to the outdoor high pressure socket 255A.

Meanwhile, when the additional distribution unit module 200B is not connected to the basic distribution unit module 200A, the additional high pressure socket 291A and the additional low pressure socket 295A may be a blocking member 297A such as a cap 297A (see FIG. 6). It is preferable to close by. Basically, the additional high pressure socket 291A and the additional low pressure socket 295A are formed to be open to deliver the refrigerant, so if no further action is taken even if the additional distribution unit module 200B is not connected, the additional high pressure socket This is because the refrigerant may leak through the 291A and the additional low pressure socket 295A.

Similarly, the additional connection portion 290B (see FIG. 6) of the additional distribution unit module 200B is also selected by the blocking member 297B (see FIG. 6) such as the cap in case another additional distribution unit module is not connected. It is preferable to be configured to open and close.

Up to now, the refrigerant pipe was described with reference to FIG. 5 based on the basic distribution unit module 200A. That is, the refrigerant is supplied from the outdoor unit 100 to deliver the refrigerant to the indoor unit 300A and the additional distribution unit module 200B, and conversely, the refrigerant recovered from the indoor unit 300A and the additional distribution unit module 200B is again returned to the outdoor unit. It looked at the process of passing to the (100) side. However, in the case of the additional distribution unit module 200B, except that the refrigerant is supplied from the basic distribution unit module 200A instead of the outdoor unit 100 and also transfers the refrigerant to the basic distribution unit module 200A. Since the configuration is similar to that of the basic distribution unit module 200A, a detailed description thereof will be omitted.

Hereinafter, the piping structure inside the basic distribution unit module 200A will be described in detail with reference to FIG. 6. However, even in the case of the additional distribution unit module 200B, since the internal piping structure is the same as that of the basic distribution unit module 200A, the additional distribution unit module next to the reference numerals representing the respective piping elements of the basic distribution unit module 200A. Reference numerals of the corresponding piping elements of 200B are given together.

6 is a perspective view showing a state in which the piping structure is assembled inside the distribution unit module according to the present invention.

The basic distribution unit module 200A includes a basic distribution unit housing 210A, and the gas phase refrigerant pipe 280A and the liquid refrigerant pipe 220A are disposed therein in the longitudinal direction of the basic distribution unit housing 210A. Can be arranged. The outdoor connection part 250A may be provided at one end of the gaseous refrigerant pipe 280A and the liquid refrigerant pipe 220A which extends to the outside through the upper or lower surface of the basic distribution unit housing 210A. On the other hand, the additional connection portion 290A may be arranged in a shape accommodated inside the basic distribution unit housing 210A. However, as described above, the position where the outdoor connection part 250A and the additional connection part 290A are disposed outside or inside the basic distribution unit housing 210A is not limited thereto.

The high pressure part including the liquid refrigerant pipe 220A and the low pressure part including the gaseous refrigerant pipe 280A are disposed in close proximity to minimize the volume of the basic distribution unit housing 210A containing the liquid refrigerant pipe 220A.

In addition, the outdoor high pressure socket 251A and the outdoor low pressure socket 255A constituting the outdoor connection part 250A are connected to the high pressure socket 151 and the low pressure socket 155 constituting the outdoor unit 100, respectively. . Further, the additional high pressure socket 291A and the additional low pressure socket 295A constituting the additional connection portion 290A are each the distribution unit high pressure socket 231B constituting the distribution unit connection portion 230B of the additional distribution unit module 200B. And a distribution unit low pressure socket 235B.

Similarly, the additional high pressure socket 291B and the additional low pressure socket 295B constituting the additional connection part 290B of the additional distribution unit module 200B are the distribution unit high pressure constituting the distribution unit connection part 230B of another additional distribution unit module. It may be connected to the socket 231B and the distribution unit low pressure socket 235B.

As shown in FIG. 6, at least one of the outdoor connection part 250A, the additional connection part 290A, the distribution unit connection part 230B, and the additional connection part 290B is formed to extend from the refrigerant pipe, and the inner diameter thereof is It may have an enlarged dilated structure. As such, if any of the connection portions has an expansion pipe structure, the other connection portion connected to the connection portion can be easily inserted into the connection portion having an enlarged diameter, thereby providing convenience of coupling between the distribution unit modules.

So far, the distribution unit assembly 200 has been described with reference to the embodiment consisting of a basic distribution unit module 200A and one additional distribution unit module 200B detachably coupled thereto. However, in some cases, a plurality of additional distribution unit modules may be further connected.

In addition, so far the center has been described with reference to the embodiment having a structure in which each distribution unit module constituting the distribution unit assembly 200 can be connected to the same two indoor units, the number of indoor units that can be connected to the distribution unit modules It may be different for each distribution unit module.

Therefore, hereinafter, another modification of the distribution unit assembly according to the present invention will be described in detail with reference to FIG. 7.

Figure 7 shows another embodiment of a distribution unit assembly according to the invention. More specifically, Figure 7 (a) is a perspective view showing a state in which the distribution unit assembly of one embodiment according to the present invention is assembled. Figure 7 (b) is a perspective view showing a state in which the distribution unit assembly of the embodiment according to the present invention is separated.

As shown in FIG. 7 (a), the distribution unit assembly 200 of the present embodiment includes a basic distribution unit module 200A, an additional distribution unit module 200B detachably connected to the basic distribution unit module 200A, and It consists of another additional distribution unit module (200C) detachably connected to the additional distribution unit module (200B).

The basic distribution unit module 200A is connected to the outdoor unit 100 and has a structure for connecting with the additional distribution unit module, and the additional distribution unit module 200B detachably connected to the basic distribution unit module 200A. Also, the configuration of the connection part and the refrigerant pipe is similar to that of the basic distribution unit module 200A, and has connection parts 230B and 290B for connection with other distribution unit modules as described above. That is, since the distribution unit module according to the present invention has the same structure for connecting with other distribution unit modules, it is apparent that the distribution unit modules constituting the distribution unit assembly 200 may be connected indefinitely. However, as a matter of fact, it should be noted that the distribution unit module may be limited within the range allowed by the capacity of the compressor 170 of the outdoor unit 100.

The detailed configuration of the additional distribution unit module 200C is the same as that of the additional distribution unit module 200B connected to the basic distribution unit module 200A. Therefore, a detailed description of the additional distribution unit module 200C newly added in the present embodiment will be omitted.

In the present embodiment, the basic distribution unit module 200A includes one indoor side connection portion 270A so as to be connected to one indoor unit. In this case, the piping structure inside the basic distribution unit module 200A is connected to the indoor connection part 270A-2, the liquid branch pipe 241A-2, the electronic expansion valve 260A-2, the liquid phase connection in the above-described embodiment. It can be implemented simply by omitting the tube 265A-2 and the gas phase branch tube 277A-2. Therefore, a detailed description of the basic distribution unit module 200A of the present embodiment having one indoor connection part 270A will be omitted.

Meanwhile, in the distribution unit modules 200A, 200B, and 200C of the present embodiment, an outdoor side connection part 250A, an additional connection part 290A (see FIG. 6), and a distribution unit connection part 230B for connection with outdoor units or other distribution unit modules. ), The additional connection portion 290B (see FIG. 6), the distribution unit connection portion 230C, the distribution unit connection portion (not shown) may be a fastening socket structure.

In the above-described embodiment, each of the connection parts has an expansion pipe structure, but as in the present embodiment, each of the connection parts may be formed as a socket structure having short tubular pipe fittings with female threads cut at both ends. . In this case, the expansion pipe structure is advantageous in that the connection and release method is simpler than the welding method when the connection part is connected.

As described above, the air conditioner according to the present invention has the advantage that the distribution unit is modularized so that the distribution unit modules are detachably connected to each other, so that the distribution unit module can be added or removed as necessary.

That is, from the user's point of view, there is no need to purchase a distribution unit that can be connected to more than the required number of indoor units from the beginning when the air conditioner is purchased, and it is sufficient to purchase a modular distribution unit according to the additional needs of the indoor unit. This reduces costs and expands your options for purchasing products.

In addition, from the producer's point of view, only a distribution unit module having a small number of indoor side connections can be manufactured, thereby reducing the material cost and increasing profits.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims. . It is therefore to be understood that the modified embodiments are included in the technical scope of the present invention if they basically include elements of the claims of the present invention.

100: outdoor unit 110: outdoor unit housing
200: distribution unit assembly 200A: basic distribution unit module
200B, 200C: Additional Distribution Unit Module
300A: Basic room 300B: Additional room

Claims (12)

At least one indoor unit;
An outdoor unit having a compressor, an outdoor heat exchanger, and a blowing fan; And,
A dispensing unit assembly comprising at least one dispensing unit module connecting the indoor unit and the outdoor unit and each having a dispensing unit housing;
The distribution unit module has at least one indoor side connection portion connected to the indoor unit air conditioning apparatus. The method of claim 1,
The basic distribution unit module of the distribution unit module constituting the distribution unit assembly is characterized in that it comprises an outdoor side connection portion connected to the compressor and the outdoor heat exchanger of the outdoor unit. The method of claim 2,
Among the distribution unit modules constituting the distribution unit assembly, the additional distribution unit module except for the basic distribution unit module includes a distribution unit connection part for detachably connecting with the basic distribution unit module or another additional distribution unit module. Air conditioning system. The method of claim 3,
And the basic dispensing unit module and the additional dispensing unit module have an additional connection portion connectable with the dispensing unit connection portion of the further dispensing unit module continuously installed. The method of claim 4, wherein
Dispensing unit module constituting the distribution unit assembly is an air conditioner, characterized in that it comprises a liquid refrigerant pipe, a gaseous refrigerant pipe and an electronic expansion valve corresponding to the number of each of the indoor connection. The method of claim 5,
The liquid refrigerant pipe and the gaseous refrigerant pipe provided in each of the distribution unit modules are connected to each other through a connected distribution unit connection part and an additional connection part, and air is connected to the outdoor unit via an outdoor connection part of the basic distribution unit module. Conditioner. The method of claim 5,
The liquid refrigerant pipes provided in each of the distribution unit modules include a liquid branch pipe branched to each of the electromagnetic expansion valves, and a liquid connection pipe connecting the electromagnetic expansion valve and the indoor side connection part. The method of claim 5,
The gas phase refrigerant pipe provided in each of the distribution unit modules comprises a gas phase branch pipe branched to the respective indoor side connection. The method of claim 4, wherein
And an additional connection portion of the basic distribution unit module and the additional distribution unit module is selectively opened and closed by a blocking member. The method of claim 4, wherein
The distribution unit connection unit or the additional connection unit is characterized in that it has a fastening socket structure. The method of claim 1,
The distribution unit assembly is an air conditioning apparatus, characterized in that configured to be connected to each other in a state in which a plurality of distribution unit modules are stacked. The method of claim 1,
And the distribution unit assembly is detachably mounted to the outdoor unit.

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