KR200490115Y1 - Refrigerant Distributor of Air conditioner - Google Patents

Abstract

The present invention can easily assemble the dispensing guide by maintaining the exact concentricity of the dispensing base, and can improve the brazing bonding strength of the dispensing base and the dispensing guide to ensure excellent assembly strength. And a refrigerant distributor of an air conditioner so that the liquid refrigerant can be stably and evenly mixed and distributed.
The present invention is connected to the condenser by the connection pipe 21 to the inlet (2) of the distribution base (1) and the distribution guide (3) is coupled to the opposite side to distribute the refrigerant through the distribution holes (4, 4 '), In the refrigerant distributor of the air conditioner to be supplied, the distribution main body (1) and the distribution guide (3) are formed in the assembly pipe portion (11) (31) having a diameter corresponding to each other to distribute the distribution guide (3) Inclined portions 12 and 32 extending in diameter in the direction of the distribution holes 4 and 4 'in series with the assembling pipe portions 11 and 31 in the distribution main body 1 and the distribution guide 3, respectively. ), It is characterized in that the refrigerant distributor of the air conditioner is configured to be able to couple the distribution guide (3) in the distribution main body (1) with correct concentricity and correct straightness.

Description

Refrigerant Distributor of Air Conditioner

The present invention relates to a refrigerant distributor of an air conditioner, and more particularly, the distribution guide can be easily assembled by maintaining accurate concentricity on the distribution main body, and the brazing bonding strength of the distribution main body and the distribution guide can be improved. The present invention relates to a refrigerant distributor of an air conditioner capable of ensuring assembly strength and allowing a gaseous and liquid refrigerant entering the distribution body to be stably and evenly distributed.

In general, an air conditioner is configured to dissipate high-temperature and high-pressure refrigerant supplied from a compressor into air in a condenser to liquidize it, and the refrigerant of the condenser is distributed through a plurality of distribution pipes in a refrigerant distributor to absorb and evaporate external heat from the evaporator. do.

The refrigerant distributor of such an air conditioner; A plurality of distribution pipes are coupled to the distribution holes of the distribution body, and through this, the refrigerant supplied from the condenser is distributed and supplied to obtain a uniform distribution effect of the refrigerant.

Such a refrigerant distributor can be identified through the following references.

In Reference 1; The refrigerant introduced from the inlet pipe flows into the distribution channel of the distributor and is delivered to the distribution channel of the distributor. The refrigerant flows through the distribution channel so as to be evenly distributed into the plurality of extraction pipes. Refrigerant distributors are disclosed that allow for even distribution.

In Reference 2; Disclosed is a refrigerant distributor in which a refrigerant distributor is divided into a distributor head and a distributor body, and the divided distributor head and the distributor body can be disassembled and coupled by a screw coupling method.

In addition, in references 3 and 4; Refrigerant distributor which guides the refrigerant from the condenser to the guide groove of the distribution body inside the distributor and supplies it to a plurality of capillaries to achieve uniform distribution of refrigerant and to improve the performance of the air conditioner. Is disclosed.

Else in Ref. 5; Disclosed is a fluid distributor in which a distributor for a plurality of outlet holes is formed in a distributor used in a heat exchanger, such that a two-phase fluid (gas / liquid) distributor is reduced in size and weight and improved in equal distribution performance. A refrigerant distributor for distributing a two-phase fluid by stacking and arranging the porous plate and the collecting plate inside the distributor is disclosed.

As described above, the refrigerant distributor includes a coupling hole in which a connection pipe connected to the condenser is coupled to one side of the distribution body, and a plurality of distribution holes in which the distribution pipe for distributing and supplying the refrigerant to the other side is formed.

By the way, the plurality of distribution holes formed on one side of the distribution main body are assembled by inserting a small distribution pipe with a small diameter and being joined by welding, and the distribution engine is welded without maintaining the straightness of the distribution holes. Due to poor sealing due to the leakage of the refrigerant generated in the distribution hole coupled to the distribution pipe, or the fixed tube is not securely fixed, such a problem that the distribution pipe is separated from the distribution hole.

In addition, there is a problem that the heat exchange efficiency is lowered because the gaseous refrigerant and the liquid refrigerant of the incoming refrigerant is not evenly mixed.

(Reference 1) Republic of Korea Patent Publication No. 10-2010-0052346, 2010.05.19. (Reference 2) Korean Utility Model Registration Publication No. 20-0368448, November 20, 2004. (Reference 3) Korean Utility Model Publication No. 20-1999-24051, 1999.07.05. (Reference 4) Republic of Korea Patent Publication No. 10-2005-072250, 2005.07.11. (Reference 5) Japanese Patent Laid-Open No. 1-59043, June 22, 1989. (Reference 6) Japanese Patent Laid-Open No. 6-229651, 1984.08.19.

The present invention forms an inclined portion in the dispensing main body and the dispensing guide coupled to the dispensing main body so that they can be stably assembled with each other, so that they can be assembled at the right straightness while maintaining accurate concentricity relatively easily.

In addition, to prevent the leakage of brazing solder and improve the brazing bonding strength of the distribution base and the distribution guide, it is possible to increase the assembly strength with a more reliable brazing combination.

The present invention aims to increase the heat exchange efficiency by allowing the gaseous and liquid refrigerants into the distribution body to be evenly mixed, and to distribute and supply more uniformly and stably through the distribution guide.

The present invention for solving the above problems;

According to the invention described in [claim 1]; An inclined portion extending in the direction of the distribution hole is formed in the assembling tube of the distribution base and the distribution guide, and the inlet hole of the distribution base connects the condenser to the connection pipe to distribute and supply the refrigerant through the distribution hole of the distribution guide. In the refrigerant distributor of the conditioner, a straight portion is formed at each of the inclined portion of the distribution base and the inclined portion of the distribution guide, the straight portion of the distribution body is formed higher than the straight portion of the distribution guide, the brazing between the two straight portions It is characterized by forming a space portion that can be welded by putting a brazing material.

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The present invention is formed by assembling and distributing the inclined portion in the dispensing main body and the dispensing guide coupled to the dispensing main body, so that the concentricity can be easily maintained by maintaining the correct concentricity, and the brazing bonding of the dispensing main body and the dispensing guide is carried out. Excellent assembly strength can be guaranteed by improving the strength.

The present invention prevents the leakage of brazing brazing material, prevents the brazing defects such as welding defects with more reliable brazing force, and improves the brazing quality to ensure the sealing.

The gaseous and liquid refrigerant entering into the distribution base are mixed evenly to provide excellent heat exchange efficiency, and can be expected to benefit from more uniform and stable distribution and supply of the refrigerant.

1 is a cross-sectional view showing an embodiment of the present invention
Figure 2 is an enlarged cross-sectional view of the extract of the present invention
3 is a cross-sectional view of the distribution guide of the present invention
Figure 4 is an overall cross-sectional view showing another embodiment of the present invention

The present invention is formed in the inlet hole on one side of the distribution main body is connected to the condenser by the connecting pipe and the opposite side coupled to the distribution guide in the refrigerant distributor of the air conditioner for distributing and supplying the refrigerant through the distribution hole of the distribution guide,

The dispensing base and the dispensing guide coupled to the dispensing main body can be easily combined with the correct straightness by maintaining the accurate concentricity relatively easily, provide improved brazing bonding force of the dispensing main body and the dispensing guide, and smooth welding operation. It is characterized in that the refrigerant distributor of the air conditioner is configured to combine the distribution guide with a solid and completely sealed.

The distribution main body is connected to the condenser, and an inlet hole into which the refrigerant flows is formed on one side, and a distribution guide for distributing the refrigerant is coupled to the opposite side, and the refrigerant is distributed through the distribution hole of the distribution guide.

The dispensing main body and the dispensing guide are inserted into and coupled to an assembly pipe part coupled to a diameter corresponding to each other, and an inclined part extending outwardly to the dispensing hole side is formed so that the distributing guide has the correct concentricity in the dispensing main body. To make it more secure and firm.

In addition, at the end of the inclined portion of the dispensing body, the distribution guide and the space portion of the predetermined space are formed so that the brazing solder is filled and welded therebetween, thereby ensuring an improved brazing bonding force.

The distribution main body is connected to the condenser to form an arc-shaped concave-convex portion at the inlet hole side into which the refrigerant is introduced, so that the refrigerant introduced into the inlet hole is evenly mixed.

Hereinafter, a detailed description of the present invention with reference to the accompanying drawings.

1 is an overall cross-sectional view showing an embodiment of the present invention, Figure 2 is an enlarged cross-sectional view of the extract of the main part of the present invention, Figure 3 is a cross-sectional view of the distribution guide of the present invention.

Distribution main body (1) is connected to the condenser and the connecting pipe (21) to form an inlet (2) through which the refrigerant flows, the inlet hole (2) opposite side coupled to the distribution guide (3) for evenly distributing the refrigerant do.

In the distribution guide 3, a plurality of distribution holes 4, 4 'are formed around the central distribution unit 34 for distributing the refrigerant, and each distribution hole 4, 4' has a distribution pipe (not shown). Connect.

The dispensing guide 3 and the dispensing main body 1 are formed with assembly pipe parts 11 and 31 having diameters corresponding to each other so that the distributing guide 3 is integrally coupled to the dispensing main body 1.

That is, the outer diameter of the assembly pipe part 31 of the distribution guide 3 is formed in a size corresponding to the inner diameter of the assembly pipe part 11 of the distribution base body 1 so that the distribution guide 3 into the assembly tube part 11 of the distribution base body 1 can be obtained. ).

In addition, in the direction of the assembly pipe 31 of the distribution guide 3, that is, in the direction of the distribution holes (4, 4 '), the inclined portion 32 is formed in succession, and the straight portion at the end of the inclined portion (32) 33 is formed.

In addition, an inclined portion 12 corresponding to the inclined portion 32 of the dispensing guide 3 is formed on the dispensing base 1 so that the distributing guide 3 is along the inclined portion 12 of the dispensing base 1. By inserting the distribution guide (3) to maintain the correct concentricity to have the correct straightness to the built-in, coupled to the distribution base (1) to increase the assembly strength and improve the brazing bonding force.

This will be described in more detail later.

Further, at the end of the inclined portion 32 of the dispensing base 1, a straight portion 13 is formed parallel to the straight portion 33 of the dispensing guide 3, and the straight portion 13 is a straight line of the dispensing guide 3. It is formed higher than the portion 33 and formed with a straight portion 33 and a constant space portion (A) of the distribution guide (3) to put the brazing solder into the space portion (A) therebetween to be welded.

The space A enables to ensure an improved brazing bonding force, which will be described later.

In addition, the distribution main body 1 is connected to a condenser to form an arc-shaped concave-convex portion 5 toward the inlet hole 2 side into which the refrigerant is introduced so that the refrigerant introduced therein is evenly mixed.

The arc-shaped concave-convex portion 5 increases the cross-sectional area in which the introduced refrigerant is narrowed, that is, decreases in the cross-sectional area, so that the liquid and gaseous refrigerants are evenly mixed and distributed evenly, and the arc-shaped concave-convex portion 5 and the distribution guide 3 are provided. A strainer 7 is provided between the liquid and gaseous refrigerants already mixed by the arc-shaped concave-convex portion 5 so as to be mixed once more evenly through the strainer 7.

The arc-shaped concave-convex portion 5 sharply reduces the cross-sectional area of the inner space of the distribution main body 1 into which the refrigerant is introduced, as shown in the example, by 1/3 or more so that the liquid and gaseous refrigerants are mixed well with each other. The arc-shaped concave-convex portion 5 may be implemented by repeatedly installing a plurality of arc-shaped concave-convex portions 5 and 5 'as shown in FIG. 4 to more evenly mix the liquid and gaseous refrigerants. have.

The present invention of the above-described configuration allows the dispensing base 1 and the dispensing guide 3 coupled in the dispensing main body 1 to be relatively easily and precisely concentrically coupled and to the dispensing main body 1. And the improved brazing bonding power of the distribution guide (3), and provides the benefits of allowing a smooth welding operation to be coupled to the distribution pipe in a solid and completely sealed. This will be described in more detail below.

The distribution guide (3) and the distribution body (1) can be assembled with concentricity relatively easily and accurately by assembling pipe parts (11) (31) of diameters matching each other through the inclined parts (12) (32). Can be easily combined into the dispensing base 1.

That is, the space A between the straight portion 13 of the dispensing base 1 and the straight portion 33 of the dispensing guide 3 that is formed high is provided with a dispensing guide 3 embedded in the dispensing base 1. By assembling and securing fluidity to accurately match concentricity in the assembly process, accurate concentricity can be matched and it can be assembled relatively easily with the correct straightness.

In addition, the space A formed between the straight portion 13 of the distribution base body 1 and the straight portion 33 of the distribution guide 3 is filled with brazing filler metal so that welding is performed to provide a very firm bonding force. At this time, the straight portion 13 of the dispensing base 1 is formed higher than the straight portion 33 of the dispensing guide 3 to prevent the brazing lead material from overflowing.

In particular, the brazing filler metal is filled in the space A and is sucked and filled by the capillary phenomenon between the distribution base 1 and the inclined portions 12 and 32 of the distribution guide 3, thereby eliminating welding defects. It can be minimized, by forcing the dispensing base (1) and the dispensing guide (3) to be in close contact with each other can greatly improve the brazing banding force.

In addition, the arc-shaped concave-convex portion 5, 5 'induces even mixing by using a reduced cross-sectional area of the gaseous and liquid refrigerant, and is more stably and evenly mixed in a second manner while passing through the strainer 7 installed in the distribution body 1. Heat exchange efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS The following briefly describes the symbols used in the accompanying drawings in order to describe the embodiments of the present invention in detail.
1: Distribution basic body 11: Assembly tube part
12: Tilt portion 13: Straight portion
2: inflow hole
3: Distribution guide 31: Assembly tube
32: inclined portion 33: straight portion
4,4 ': distribution hole
5,5 ': Arc-shaped uneven part 7: Strainer

Claims (4)

In the assembling pipe parts 11 and 31 of the dispensing base 1 and the dispensing guide 3, inclined portions 12 and 32 are formed which extend in diameter in the dispensing holes 4 and 4 '. In the inlet hole (1) of the refrigerant distributor of the air conditioner that connects the condenser to the connecting pipe 21 to distribute and supply the refrigerant through the distribution holes (4, 4 ') of the distribution guide (3) ,
Straight portions 13 and 33 are respectively formed at the end of the inclined portion 12 and the inclined portion 32 of the distribution guide 3, respectively.
The straight portion 12 of the dispensing base 1 is formed higher than the straight portion 33 of the dispensing guide 3, and the space between the straight portions 13 and 33 can be welded by brazing solder. A refrigerant distributor of an air conditioner, characterized in that the portion (A) is formed. delete delete delete

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