KR102589634B1 - Condensing unit for air conditioner - Google Patents

Abstract

The present invention relates to a condensing unit for an air conditioner, and the configuration of the present invention includes a compressor for compressing the refrigerant into a high-pressure gas, a condenser for condensing the refrigerant into a high-pressure liquid, a blowing fan for cooling the condenser, and a refrigerant. A condensing unit comprising a refrigerant pipe for inflow and outflow, a housing in which the compressor, a condenser, a blowing fan, and a refrigerant pipe are mounted, and a refrigerant pipe connection part installed on the outer side of the enclosure, the refrigerant pipe The connection part includes a first connector that is fixedly installed on the outer side of the enclosure and connected to the condensing refrigerant pipe passing through the enclosure, and a second connector that covers the outside of the first connector and is connected to the first connector and the evaporator refrigerant pipe. 2 connectors, a first support member and a second support member that are inserted and coupled to the first connector and installed on both outer sides of the second connector, and are assembled and installed on the first support member and the second support member and the first support member It includes a support member to pressurize the connection between the connector and the second connector to prevent separation.

Description

Condensing unit for air conditioner}

The present invention relates to a condensing unit for an air conditioner. More specifically, the condensing unit installer not only can easily connect the refrigerant pipe to the condensing unit, but also prevents refrigerant gas from leaking from the connection between the condensing unit and the refrigerant pipe. It relates to a condensing unit for an air conditioner that can increase refrigerant circulation efficiency and cooling efficiency by preventing

Air conditioners are installed to provide indoor cooling, heating, dehumidification, humidification, and purification.

The cooling cycle in the air conditioner repeats the following four processes sequentially: compression → condensation → expansion → evaporation. As the refrigerant passes through the compressor, it changes into a high-pressure gas, and as it passes through the condenser, it changes into a high-pressure liquid and expands. As it passes through the valve, it changes into a low-pressure liquid, and as it passes through the evaporator, it changes into a low-pressure gas, repeating the cycle.

An air conditioner using this cooling cycle is structured so that the expansion valve and evaporator are installed indoors, and the compressor and condenser are installed outdoors.

A condensing unit is a compressor and condenser that are installed outdoors like this and are installed together inside the enclosure, including an accumulator to filter liquid refrigerant before it flows into the compressor, a blowing fan to cool the condenser, Refrigerant pipes for inflow and outflow of refrigerant are additionally installed.

For reference, in Korea Registered Utility Model Publication No. 20-0115223 (publication date August 17, 1996), a heat exchanger, fan, and motor are installed on the upper side of the blocking plate that divides the inside of the main body into upper and lower spaces, and also on the lower side of the blocking plate. The bottom plate of the bottom plate is provided with a connection valve to which the compressor and the refrigerant pipe connected to the compressor and the heat exchanger are connected, and the connection valves (22) are installed at the upper and lower sides in an alternating manner. A bracket is installed at the rear of one side of the bottom plate (16). A refrigerant pipe connection device for an outdoor unit for an air conditioner is disclosed, wherein (21) is positioned upright and an outlet (18) is formed so that the connection valve (22) is exposed to the back plate (17) constituting the main body (10). there is.

However, the conventional condensing unit for air conditioners, including the registration number 20-0115223, not only takes a long time to connect the refrigerant pipe to the condensing unit, but also causes refrigerant gas to leak from the connection between the condensing unit and the refrigerant pipe. As a result, there is a problem in that refrigerant circulation efficiency and cooling efficiency are reduced.

Registered Utility Model Gazette registration number 20-0115223

The purpose of the present invention is to solve the conventional problems as described above, and not only allows the condensing unit installer to easily connect the refrigerant pipe to the condensing unit, but also allows the refrigerant gas to escape from the connection area between the condensing unit and the refrigerant pipe. The object is to provide a condensing unit for an air conditioner that can increase refrigerant circulation efficiency and cooling efficiency by preventing leakage.

As a means to achieve the above object, the present invention includes a compressor for compressing the refrigerant into a high-pressure gas, a condenser for condensing the refrigerant into a high-pressure liquid, a blowing fan for cooling the condenser, and the inflow and outflow of the refrigerant. In the condensing unit including a refrigerant pipe for cooling, a housing in which the compressor, a condenser, a blowing fan, and a refrigerant pipe are mounted inside, and a refrigerant pipe connection part installed on the outer side of the enclosure, the refrigerant pipe connection part includes, A first connector fixed to the outer side of the enclosure and connected to the condensing refrigerant pipe passing through the enclosure, a second connector installed covering the outside of the first connector and connected to the first connector and the evaporator refrigerant pipe; , a first support member and a second support member that are inserted and coupled to the first connector and installed on both outer sides of the second connector, and are assembled and installed on the first support member and the second support member and the first connector and the second support member. 2 It is desirable to include a support member to pressurize the connector so that it does not become disconnected.

The configuration of the present invention is that a first socket is formed on the back of the first connector for connection to the second connector, a fixture fixed to the outer side of the enclosure is installed on the front, and the fixture includes the first support member. And it is preferable if a first fitting hole and a second fitting hole into which the second support member is assembled are formed.

The configuration of the present invention is that the second connector has an "L" shape, is made of a horizontally expandable material, and a refrigerant pipe plug assembled and connected to the first socket of the first connector is formed therein, , It is preferable if a second socket is formed on the lower surface to be assembled and connected to the evaporator refrigerant pipe.

In the configuration of the present invention, it is preferable that the first support member and the second support member have a structure in which a stainless steel plate is insert-injected into a molding portion made of synthetic resin.

In the configuration of the present invention, the first support member and the second support member each have a bent engaging portion formed at the front end, a first engaging uneven portion and a second engaging uneven portion are formed at the rear, respectively, and the first engaging uneven portion is formed at the rear. It is preferable that the portion and the second engaging concave-convex portion have a structure having an inclined surface and a right-angled surface, respectively.

The configuration of the present invention is to form a triangular ear-shaped first elastic part and a second elastic part in the middle of the first support member and the second support member, and then the first support member and the second support member are coupled to the support member. , It is preferable if the front of the support member elastically presses the rear surface of the second connector.

In the configuration of the present invention, the support member has a non-slip uneven portion formed on the front, a first engaging portion and a second engaging portion are formed to protrude on both sides, respectively, and the first engaging portion and the second engaging portion are formed respectively. A first fastening hole and a second fastening hole are formed in the center of the portion, respectively, and a first elastic locking protrusion and a second elastic locking protrusion are formed inside the first fastening hole and the second fastening hole, respectively, and the first elastic locking protrusion is formed inside the first fastening hole and the second fastening hole, respectively. It is preferable that the locking protrusion and the second elastic locking protrusion each have an inclined surface.

In the configuration of the present invention, the support member is formed in the form of a cap so that it can be assembled to the rear surface of the second connector, and a shock absorbing spring is installed in the inner middle groove to absorb and relieve external shock transmitted to the second connector. It is advisable to do so.

The present invention not only allows condensing unit installers to easily connect the refrigerant pipe to the condensing unit, but also improves refrigerant circulation efficiency and cooling efficiency by preventing refrigerant gas from leaking from the connection between the condensing unit and the refrigerant pipe. Yes, it has an effect.

1 is an external perspective view of a condensing unit for an air conditioner according to an embodiment of the present invention.
Figure 2 is a perspective view of the refrigerant pipe connection part of the condensing unit for an air conditioner according to the first embodiment of the present invention.
Figure 3 is a plan cross-sectional view of the refrigerant pipe connection part of the condensing unit for an air conditioner according to the first embodiment of the present invention.
Figure 4 is a plan cross-sectional view of the refrigerant pipe connection part of the condensing unit for an air conditioner according to the second embodiment of the present invention.

Hereinafter, in order to explain the present invention in detail so that a person skilled in the art can easily practice the present invention, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Other purposes, features, and operational advantages, including the purpose, operation, and effect of the present invention, will become clearer through the description of the preferred embodiment.

For reference, the embodiments disclosed herein are merely presented by selecting the most preferred embodiments from among various possible embodiments to aid the understanding of those skilled in the art, and the technical idea of the present invention is not necessarily limited or restricted only to the presented embodiments. Rather, various changes, additions, and changes, including equivalents and substitutes, are possible without departing from the technical spirit of the present invention.

In addition, the terms and expressions of words used in the specification and claims of the present application are defined based on the principle that the inventor can appropriately define the concept of the term in order to explain the invention in the best way. , it should not be construed as limited to the usual or dictionary meaning, but should be interpreted as meaning and concept consistent with the technical idea of the present invention. As an example, singular expressions include plural expressions unless the context clearly indicates otherwise, and expressions regarding direction are set based on the position expressed in the drawing for convenience of explanation, and are set as “connected” or “installed.” The expression “becomes” includes not only direct connection or connection, but also connection or installation through other intermediate components.

Figure 1 is an external perspective view of a condensing unit for an air conditioner according to a first embodiment of the present invention, Figure 2 is a perspective view of a refrigerant pipe connection part of a condensing unit for an air conditioner according to a first embodiment of the present invention, and Figure 3 is a flat cross-sectional view of the refrigerant pipe connection part of the condensing unit for an air conditioner according to the first embodiment of the present invention.

As shown in Figures 1 to 3, the configuration of the condensing unit for an air conditioner according to an embodiment of the first invention includes a compressor (1) for compressing the refrigerant into a high-pressure gas, and a compressor (1) for condensing the refrigerant into a high-pressure liquid. A condenser (2), a blower fan (3) for cooling the condenser (2), a refrigerant pipe (4) for flowing in and out the refrigerant, the compressor (1), the condenser (2), and a blower fan ( 3) and an enclosure (6) in which the refrigerant pipe (4) is mounted inside, and a refrigerant pipe connection portion (5) installed on the outer side of the enclosure (6).

The refrigerant pipe connection portion 5 includes a first connector 30 that is fixedly installed on the outer side of the enclosure 6 and is connected to the condensing refrigerant pipes 50a and 50b passing through the enclosure 6, and the first connector It is installed to cover the outside of (30) and is inserted into and coupled to the first connector 30 and a second connector 20 connected to the first connector 20 and the evaporator refrigerant pipes 60a and 60b. It is assembled and installed on the first support member 110 and the second support member 120 installed on both sides of the outside of the second connector 20, and the first support member 110 and the second support member 120. It includes a support member 130 to pressurize the connection between the first connector 30 and the second connector 20 to prevent separation.

The first connector 30 has a first socket 31 formed on the rear side for connection to the second socket 20 of the second connector 20, and is fixed to the outer side of the enclosure 6 on the front side. A fixture 32 is installed.

The fixture 32 of the first connector 30 is formed with a first fitting hole 32a and a second fitting hole 32b into which the first support member 110 and the second support member 120 are assembled. there is.

The second connector 20 has an “L” shape and is made of a horizontally expandable material, with refrigerant pipe plugs 21a and 21b formed inside, and a second socket 22 on the lower surface. ) is formed.

The refrigerant pipe plugs 21a and 21b of the second connector 20 are assembled and connected to the first socket 31 of the first connector 30.

Evaporator refrigerant pipes 60a and 60b are assembled and connected to the second socket 22 of the second connector 20.

The first support member 110 and the second support member 120 have a structure in which stainless steel plates 110A and 120A are insert-injected into molding parts 110B and 120B made of synthetic resin.

The first support member 110 and the second support member 120 are each formed with bent engaging portions 112 and 122 at the front end, and a first engaging uneven portion 111 and a second engaging uneven portion ( 121) are formed respectively.

The bent locking portions 112 and 122 of the first support member 110 and the second support member 120 include a first insertion hole 32a formed in the fixture 32 of the first connector 30, and Each is inserted and coupled to the second fitting hole (32b).

The first engaging portion 111 and the second engaging portion 121 of the first support member 110 and the second support member 120 have inclined surfaces 111' and 121' and a right angle surface 111", respectively. , 121").

The support member 130 has a non-slip uneven portion 130A formed on the front, and a first engaging portion 131 and a second engaging portion 132 are formed to protrude on both sides, respectively.

A first fastening hole 131A and a second fastening hole 132A are formed in the middle of the first fitting portion 131 and the second engaging portion 132 of the support member 130, respectively, and the first fastening hole 131A The fastening hole 131A and the second fastening hole 132A have a structure in which a first elastic locking protrusion 131A' and a second elastic locking protrusion 132A' are formed, respectively.

The first elastic locking protrusion 131A' and the second elastic locking protrusion 132A' have a structure in which inclined surfaces 131A" and 132A" are formed, respectively.

The operation of the condensing unit for an air conditioner according to the first embodiment of the present invention with the above configuration is as follows.

The condensing unit installation worker sets the installation location of the enclosure (6) in which the compressor (1), condenser (2), blower fan (3), and refrigerant pipe (4) are mounted.

Once the installation position of the enclosure 6 is set, the condensing unit installer fixes and installs the first connector 30 on the outer side of the enclosure 6 by installing the fixture 32 on the outer side of the enclosure 6. Afterwards, the condensing refrigerant pipes (50a, 50b) are connected to the first connector (30) by passing through the housing (6) and the fixture (32).

Next, the condensing unit installation worker connects the evaporator refrigerant pipes 60a and 60b to the second socket 22 of the second connector 20, and then connects the refrigerant pipes formed inside the second connector 20. The plugs 21a and 21b are connected to the first socket 31 of the first connector 30.

Subsequently, the condensing unit installation worker inserts the bent locking portions 112 and 122 of the first support member 110 and the second support member 120 into the first fitting hole 32a of the fixture 32 of the first connector 30. ) and after inserting and assembling into the second fitting hole 32b, support the first engaging uneven portion 111 and the second engaging uneven portion 121 of the first supporting member 110 and the second supporting member 120. The member 130 is inserted and assembled into the first fastening hole 131A and the second fastening hole 132A of the first and second fitting parts 131 and 132, respectively.

A first elastic locking protrusion (131A') and a second elastic locking protrusion (132A') are formed inside the first fastening hole (131A) and the second fastening hole (132A), and the elastic locking protrusion (131A') , 132A') are formed with inclined surfaces 131A" and 132A", so that the inclined surfaces 131A" and 132A" of the elastic locking protrusions 131A' and 132A' are aligned with the first and second support members 110, As it moves forward along the inclined surfaces 111' and 121' of the catching uneven portions 111 and 121 of 120, the front of the support member 130 is in contact with the rear surface 20a of the second connector 20. It puts pressure on you.

In addition, the first elastic locking protrusion (131A') and the second elastic locking protrusion (132A') are perpendicular surfaces ( 111", 121") and prevents it from moving backwards, so that the front of the support member 130 continuously presses the rear surface 20a of the second connector 20, causing the first connector 30 to The refrigerant pipe plugs 21a and 21b of the second connector 20 connected to the first socket 31 are prevented from being separated by external shock.

Therefore, the condensing unit installer can not only easily connect the refrigerant pipe to the condensing unit, but also improve refrigerant circulation efficiency and cooling efficiency by preventing refrigerant gas from leaking from the connection between the condensing unit and the refrigerant pipe. .

Figure 4 is a plan cross-sectional view of the refrigerant pipe connection part of the condensing unit for an air conditioner according to the second embodiment of the present invention.

As shown in FIG. 4, the refrigerant pipe connection portion 5 of the condensing unit for an air conditioner according to the second embodiment of the present invention has a triangular shape in the middle of the first support member 110 and the second support member 120. The ear-shaped first elastic part 112 and the second elastic part 122 are formed so that the first support member 110 and the second support member 120 are connected to the first fitting engaging part 131 of the support member 130. ) and the second engaging portion 132, the front of the support member 130 can elastically press the rear surface 20a of the second connector 20.

In addition, the refrigerant pipe connection portion 5 of the condensing unit for an air conditioner according to the second embodiment of the present invention has a cap shape so that the support member 130 can be assembled to the rear surface 20a of the second connector 20. However, a shock absorbing spring (S) is installed in the inner intermediate groove (130-1) to absorb and relieve the external shock transmitted to the second connector (20), so that the first socket ( The refrigerant pipe plugs 21a and 21b of the second connector 20 connected to 31) are kept safely connected without being separated by external shock.

Except for these two configurations, the remaining configuration and effects of the second embodiment are the same as those of the first embodiment, so additional description of the second embodiment will be omitted to avoid duplication.

1: Compressor 2: Condenser
3: blowing fan 4: refrigerant pipe
5: Refrigerant pipe connection 6: Enclosure
20: second connector 30: first connector
110: first support member 120: second support member
130: Support member

Claims (8)

A compressor for compressing the refrigerant into a high-pressure gas, a condenser for condensing the refrigerant into a high-pressure liquid, a blower fan for cooling the condenser, a refrigerant pipe for flowing the refrigerant in and out, the compressor, the condenser, the blower fan, and the refrigerant. In the condensing unit including a housing in which a tube is mounted inside, and a refrigerant pipe connection part installed on the outer side of the housing,
The refrigerant pipe connection is,
A first connector fixed to the outer side of the enclosure and connected to the condensing refrigerant pipe passing through the enclosure,
a second connector that is installed to cover the outside of the first connector and is connected to the first connector and the evaporator refrigerant pipe;
A first support member and a second support member inserted into and coupled to the first connector and installed on both outer sides of the second connector;
A condensing unit for an air conditioner, which is assembled and installed on the first and second support members and includes a support member for pressing the first connector and the second connector so that the connection is not separated. According to clause 1,
A first socket is formed on the back of the first connector for connection to the second connector, and a fixture fixed to the outer side of the housing is installed on the front,
A condensing unit for an air conditioner, characterized in that the fixture is formed with a first fitting hole and a second fitting hole into which the first support member and the second support member are assembled. According to clause 2,
The second connector has an “L” shape,
It is made of horizontally stretchable material,
A refrigerant pipe plug assembled and connected to the first socket of the first connector is formed inside,
A condensing unit for an air conditioner, characterized in that a second socket is formed on the lower surface and is assembled and connected to the evaporator refrigerant pipe. According to clause 1,
A condensing unit for an air conditioner, wherein the first support member and the second support member have a structure in which a stainless steel plate is insert-injected into a molding portion made of synthetic resin. According to clause 1,
The first support member and the second support member each have a bent engaging portion formed at the front end, and a first engaging concave-convex portion and a second engaging concavo-convex portion are formed at the rear, respectively.
A condensing unit for an air conditioner, wherein the first engaging concave-convex portion and the second engaging concave-convex portion have an inclined surface and a right-angled surface, respectively. According to clause 1,
After forming the first elastic part and the second elastic part in the shape of a triangular ear in the middle of the first support member and the second support member, the first support member and the second support member are coupled to the support member, and then the front surface of the support member. A condensing unit for an air conditioner, characterized in that the rear surface of the second connector is elastically pressed. According to clause 1,
The support member has a non-slip uneven portion formed on the front, and a first insertion portion and a second insertion portion protruding from both sides, respectively.
A first fastening hole and a second fastening hole are formed in the center of the first fitting and second fitting parts, respectively,
A first elastic locking protrusion and a second elastic locking protrusion are formed inside the first fastening hole and the second fastening hole, respectively,
A condensing unit for an air conditioner, wherein the first elastic locking protrusion and the second elastic locking protrusion are each formed with an inclined surface. According to clause 1,
The support member is formed in a cap shape so that it can be assembled to the rear surface of the second connector, and a shock absorbing spring is installed in the inner middle groove to absorb and relieve external shock transmitted to the second connector. Condensing unit for conditioner.

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