KR101949436B1 - Connecting structure of refrigerant pipe - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connection structure of a refrigerant pipe for connecting each end portion of a refrigerant pipe leading to advancement of a refrigerant gas between an indoor unit and an outdoor unit forming a cooling or heating device and a cooling / A valve installed in the outdoor unit; a nut screwed into the valve; a refrigerant pipe formed with a tube portion at the front end thereof and a resin coating layer formed at the outer circumferential surface thereof; And a sealing member for preventing the refrigerant pipe from contacting with the refrigerant pipe,
The sealing member is internally provided with an inner tube whose upper portion is tightly fitted to the refrigerant passage and a lower portion is fitted to the inside of the refrigerant tube. One side of the inner tube is tightly coupled to the inclined surface of the valve And the other side of the refrigerant tube is tightly coupled with the inner surface of the expanded portion of the refrigerant tube. An upper portion of the airtight plate closely surrounds the outer circumferential surface of the lower portion of the valve and a lower portion thereof closely contacts the distal end of the expanded portion. And an expanding portion that is tightly coupled to the outer peripheral surface of the expanded portion is formed at one end of the upper sealed body. The inner surface of the expanded portion is tightly coupled with the outer peripheral surface of the refrigerant tube The outer circumferential surface is a lower sealing member formed with a sleeve which is tightly coupled with the inner circumferential surface of the refrigerant pipe coupling hole .

Description

[0001] CONNECTING STRUCTURE OF REFRIGERANT PIPE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a connection structure of a refrigerant pipe for connecting each end portion of a refrigerant pipe leading to advancement of a refrigerant gas between indoor and outdoor units forming a cooling or heating device and a cooling / heating device so as to maintain airtightness.

Generally, refrigerators and heaters are divided into indoor and outdoor units, and the refrigerant pipes are connected to each other so that refrigerant gas progresses between the indoor and outdoor units. Airtightness between each end portion of the refrigerant pipe and the indoor / Is essential.

Conventional refrigerant tubes installed to maintain the airtightness as described above mostly use copper (Cu) pipes. In the prior art in which the respective end portions of the refrigerant pipes are connected to each other using the copper tubes, In this case, a screw-fastening fastener is inserted into an end portion of the fastener, and a trumpet-shaped expansion portion is formed at the end of the fastener. Then, the fastener is inserted into a connector 3 ) To connect to each other.

However, since the copper tube, the fastening hole and the connecting hole forming the above-mentioned tube-expanding portion are both made of metal, there is a limit in maintaining the airtightness due to the bonding between the metals. Especially, the cost of the copper tube is high.

Therefore, in recent years, aluminum (Al) pipes have been used in place of the above-mentioned rising cost factors. However, since such aluminum pipes are vulnerable to corrosion, a resin coating is applied to overcome the weakness of corrosion At the same time, it enjoys the effect of warming.

The connection structure of the refrigerant tube using the resin-coated aluminum (Al) tube is described in the registered patent No. 10-1195425 shown in FIG. 1, invented and registered by the present inventor.

A valve 10 installed at a corresponding position of the outdoor unit and the indoor unit of the air conditioner and having a bolt portion 11 at the rear and a slope 12 formed at a rear end of the toothed portion to gradually decrease in outer diameter toward the end portion;

A refrigerant pipe (20) having a trumpet-shaped expansion part (21) formed at the front thereof so as to be coupled to an inclined surface of the valve and having an outer surface coated with resin;

The distal end of the inner expanding part is formed with a protecting part 52 which closely surrounds and protects the distal end of the expanding part so as to be tightly fitted into the inside of the expanding part. An inner sleeve 50 formed at an inner side of the inner expanding portion and having an inner fitting pipe 54 inserted into the refrigerant pipe at the rear of the inner expanding portion;

The distal end of the outer expanding portion is formed in the same shape as the expanded portion of the expanded portion so that the distal end of the outer expanded portion is in contact with the protective portion 52 so as to be hermetically sealed And an outer sleeve 30 formed on the rear of the outer expanding portion to form an outer fitting pipe 35 fitted to the outside of the refrigerant pipe;

And a nut 40 that is inserted into the refrigerant pipe and is screwed to the bolt portion 11 and tightly coupled to the valve 10 to fix the refrigerant pipe.

In the refrigerant pipe connection structure of the above-described Patent No. 10-1195425, the outer sleeve 30 and the inner sleeve 50 are made of stainless steel, the refrigerant pipe 20 is made of aluminum, and the valve 10 and the nut Since the components of different materials are different from each other in thermal expansion coefficient, the air conditioner is repeatedly operated and stopped, so that the shrinkage and expansion rates of the components are different from each other, The airtightness of the air conditioner may be deteriorated due to the leakage of the refrigerant gas.

Further, when the valve 10 and the nut 40 are tightly fastened, problems such as breakage or cracks occur in the expanded portion 21 of the refrigerant pipe 20 as shown in FIG. 3, And the cooling / heating efficiency of the air conditioner deteriorates due to the leakage of the refrigerant gas.

Japanese Utility Model Publication No. 50-045946 Korean Patent No. 10-1195425 Korean Registered Patent No. 10-1879248

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems,

First, the structure of the connection structure of the refrigerant pipe is simplified to reduce the manufacturing cost as well as the workability,

Second, the connection part of the refrigerant pipe can be maintained in a circular shape without being deformed or damaged during bonding,

Thirdly, it is an object of the present invention to provide a connection structure of a refrigerant pipe, which is capable of improving the cooling / heating efficiency of the cooling / heating device by preventing the leakage of the refrigerant gas by maintaining airtightness at the connection portion between the valve and the nut.

According to an aspect of the present invention,
A valve 100 is formed at an inner center thereof with a refrigerant passage 110 formed along a longitudinal direction thereof and a female screw portion 130 formed at an inner peripheral surface thereof. A space 230 is formed at the rear of the female threaded portion and an inclined surface 240 is formed at the rear of the space. A nut 200, which forms a coolant tube coupling hole 220 from the end of the inclined surface to the rear end, A refrigerant pipe 300 formed with a resin coating layer 310 on the outer peripheral surface thereof and a tube portion 320 at the tip thereof and a sealing member 300 coupled to a portion where the valve and the nut meet, (400), the connection structure of the refrigerant pipe
The sealing member 400 has an inner tube 411 in which an upper portion is closely fitted to the refrigerant passage and a lower portion is closely fitted to the inside of the refrigerant tube, A sealing plate 412 which is tightly coupled to the inclined surface 120 of the valve and whose other side is slid downward toward the inner tube 411 in the outer tube 413 so as to be tightly coupled with the inner tube of the refrigerant tube, The upper portion of the airtight plate is closely coupled to the outer circumferential surface of the lower portion of the valve 100, and the lower portion thereof is formed with an outer tube 413, which is closely coupled with the distal end of the expanded portion 320, Body 410,
An expansion part 421 is formed at one end of the expansion pipe 420 and is formed in the same shape as the expansion part 320 of the refrigerant pipe 300 and tightly coupled with the outer surface of the expansion part 320, A sleeve 422 which is tightly coupled with the outer circumferential surface of the refrigerant pipe 300 and whose outer circumferential surface is tightly coupled with the inner circumferential surface of the refrigerant pipe coupling hole 220 is formed. At an end of the sleeve 422, A lower sealing member 420 formed on the lower sealing member 420,
And a connection hole 430 for interconnecting the upper sealing member 410 and the lower sealing member 420.

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The connection structure of the refrigerant pipe according to the present invention having the above-described structure can simplify the structure of the connection structure of the refrigerant pipe as described above, thereby reducing the manufacturing cost as well as the workability. Further, It maintains the original shape without being damaged and can prolong the service life. Airtightness is maintained in the connection part between the valve and nut connecting the refrigerant pipes, thereby preventing the refrigerant gas from leaking, thereby improving the cooling and heating efficiency of the air conditioner There is an effect that can be made.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view showing a conventional refrigerant tube connection structure,
2 is an exploded cross-sectional view for explaining the refrigerant pipe connection structure of the present invention,
3 is a cross-sectional view illustrating a connection structure of a refrigerant pipe of the present invention,
4 is an exploded perspective view of a first embodiment in which an upper sealing member, a lower sealing member, and a refrigerant pipe are extracted from the refrigerant pipe connecting structure of the present invention,
5 is an exploded perspective view of a second embodiment in which the upper sealing member, the lower sealing member, and the refrigerant pipe are extracted in the refrigerant pipe connection structure of the present invention,
6 is a partial sectional view of the refrigerant pipe connection structure of the present invention in a state where the upper sealing body, the lower sealing body, and the refrigerant tube are coupled.

The refrigerant pipe connection structure of the present invention simplifies the structure of the connection structure of the refrigerant pipe, thereby reducing the workability as well as the workability. Further, since the connection portion of the refrigerant pipe is maintained in a circular shape without being deformed or damaged, And airtightness is maintained in the connecting portion of the valve and the nut for interconnecting the refrigerant pipes so as to prevent the refrigerant gas from leaking, thereby improving the cooling and heating efficiency of the air conditioner. The embodiment will be described as follows.

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FIG. 2 is a cross-sectional view illustrating a connection structure of a refrigerant pipe according to the present invention, FIG. 3 is a cross-sectional view illustrating a refrigerant pipe connection structure of the present invention, 5 is an exploded perspective view of a second embodiment in which the upper sealing member, the lower sealing member, and the refrigerant pipe are extracted from the refrigerant pipe connecting structure of the present invention. And FIG. 6 is a partial sectional view of the refrigerant pipe connecting structure of the present invention, in which the upper sealing body, the lower sealing body, and the refrigerant pipe are coupled.

As shown in FIGS. 2 and 3, the refrigerant pipe connection structure of the present invention has an inclined surface 120 formed at an outer end portion of the refrigerant pipe, a male screw portion 130 formed after the inclined surface 120, The valve 100 having the flow path 110 formed thereon is provided.

A female thread 210 is formed on the inner circumferential surface to be screwed with the male thread 130. A space 230 is formed in the rear of the female thread 210. An inclined surface 240 is formed behind the space 230, And a nut 200 having a coolant pipe coupling hole 220 formed from the end to the rear end of the inclined surface 240 is formed.

A refrigerant pipe 300 fitted to the refrigerant pipe coupling hole 220 and having an expansion portion 320 formed at the tip end thereof and a resin coating layer 310 formed at the outer peripheral surface thereof; And a sealing member (400) for preventing leakage of the refrigerant.

The valve 100 is connected to the nut 200 and the refrigerant pipe 300 and the sealing member 400 at a portion where the valve 100 and the nut 200 meet to prevent leakage of the refrigerant. The first embodiment of the member 400 will be described with reference to FIG.

The sealing member 400 of the first embodiment has an inner tube 411 in which a part of an upper portion is tightly fitted to the refrigerant passage 110 and a lower portion thereof is tightly fitted to the inside of the refrigerant tube 300 And the outer surface of the inner tube 411 is tightly coupled to the inclined surface 120 of the valve 100 and the other surface is tightly coupled to the inner surface of the expanded portion 320 of the refrigerant tube 300. [ And an upper portion of the airtight plate 412 is tightly coupled to the outer circumferential surface of the lower portion of the valve 100 and a lower portion thereof is tightly received and coupled to the distal end of the expanding portion 320 An upper sealing member 410 having an outer pipe 413 is provided.

One end of the lower sealing member 420 is formed with an expansion part 421 which is tightly coupled with the outer surface of the expansion part 320. The inner side of the expansion part 421 is connected to the refrigerant pipe 300 And the outer circumferential surface of the sleeve 422 is closely coupled with the inner circumferential surface of the coolant pipe coupling hole 220. [

The airtightness maintenance for preventing leakage of cold air due to the mutual coupling of the valve 100, the nut 200 and the refrigerant pipe 300 using the upper sealing body 410 and the lower sealing body 420 is shown in FIG. 3 A part of the upper portion of the inner tube 411 of the upper sealing member 410 is tightly fitted to the refrigerant passage 110 and a lower portion of the inner tube 411 is closely fitted into the inside of the refrigerant tube 300 .

One side of the airtight plate 412 of the upper sealing member 410 is tightly coupled to the slant surface 120 of the valve 100 and the other side of the airtight plate 412 is connected to the expansion / Which is inclined downward from the outer tube 413 toward the inner tube 411 so as to be tightly coupled with the inner surface of the inner tube 411.

A part of the upper portion of the outer tube 413 of the upper sealing body 410 closely couples the lower outer circumferential surface of the valve 100 and a lower portion of the outer tube 413 is connected to the front end of the tube portion 320, Tightly receiving the tip of the tube (300).

The expansion portion 421 of the lower sealing member 420 is tightly coupled to the outer surface of the expansion portion 320 of the refrigerant pipe 300 and is inserted into the lower sleeve 422 of the expansion portion 421 And the outer circumferential surface of the sleeve 422 is tightly coupled with the inner circumferential surface of the coolant pipe coupling hole 220. The outer circumferential surface of the sleeve 422 is closely coupled with the inner circumferential surface of the coolant pipe coupling hole 220. [

The outer tube 413 is tightly coupled to the periphery of the space 230 formed inside the nut 200.

When the nut 200 is tightened toward the valve 100 in the above state, the expansion portion 421 of the lower sealing member 420 and the airtight plate 412 of the upper sealing member 410 are compressed, And the other side of the airtight plate 412 generates a strong contact force with the inner surface of the expanded portion 320 of the refrigerant pipe 300, The side surface of the extension part 421 of the lower sealing member 420 generates a strong contact force with the outer surface of the expansion part 320 of the refrigerant pipe 300 and the other side surface of the expansion part 421 of the lower sealing member 420 ' (240).

A strong and strong contact force is generated between the inclined surface 120 of the valve 100 and the expanded portion 320 of the refrigerant pipe 300 and the inclined surface 240 of the nut 200 depending on the tightness of the nut 200 It is possible to prevent the refrigerant from leaking and improve the cooling / heating efficiency of the cooling / heating unit.

5, the sealing member 400 of the second embodiment of the present invention includes an upper sealing member 410 and a lower sealing member 420 on one side of the upper sealing member 410 and the lower sealing member 420, The upper sealing member 410 and the lower sealing member 420 are connected to each other so that the upper sealing member 410 and the lower sealing member 420 are connected to each other, (420) is lost.

The sealing member 400 of the second embodiment has the same structure as that of the first embodiment except for the connecting hole 430 connecting the upper sealing member 410 and the lower sealing member 420, Explanation of the action effect is replaced with that described in the first embodiment.

When the refrigerant pipes 300 are connected to each other by using the sealing member 400 of the second embodiment, the upper sealing member 410 and the lower sealing member 420 are connected to the valve 100 and the nut 200, The thermal coupling 430 is separated from the upper sealing member 410 and the lower sealing member 420 and then the nut 200 is tightened to strengthen the coupling force between the valve 100 and the nut 200.

In order to easily remove the thermal coupling 430 from the upper sealing member 410 and the lower sealing member 420, a perforated line is formed at each end of the thermal coupling 430, It is sufficient to cut off each end of the thermal coupling 430.

3 and 6, when the nut 200 is tightened to tighten the coupling force between the valve 100 and the nut 200 through the sealing member 400, the outer tube 413 is fastened to the nut 200, And the space 230 is firmly and stably sealed, thereby preventing the refrigerant from leaking.

3 and 6, the inner tube 411 of the sealing member 400 is tightly fitted to a part of the inner diameter front end of the refrigerant passage 110 of the valve 100 and a part of the inner diameter front end of the refrigerant tube 300 The refrigerant can be prevented from leaking.

A step 423 is formed at an end of the sleeve 422 because the lower sealing member 420 is inserted into the valve body 100 before the nut 200 is fastened to the valve 100, When the end sealing member 420 is engaged with the tube coupling hole 220, the step 423 is caught by the outer end of the nut 200 to confirm that the coupling of the lower sealing member 420 is completed.

The method of fitting the lower sealing member 420 to the refrigerant pipe coupling hole 220 of the nut 200 is to fit or contract the sleeve 422 of the lower sealing member 420, And the pushing range is until the step 423 is caught by the outer end of the nut 200. In this case,

The airtight plate 412 formed on the upper sealing body 410 of the present invention is formed in a plate shape that is inclined downward toward the inner tube 411 from the outer tube 413. The angle of inclination of the plate airtight plate 412 The slope angle of the slope 120 of the valve 100 and the slope angle of the expansion part 320 of the refrigerant pipe 300 are equal to each other.

Therefore, the inclined surface 120 of the valve 100 and the expansion portion 320 of the refrigerant pipe 300 maintain a tight coupling force with the hermetic plate 412.

Since the upper sealing body 410 and the lower sealing body 420 are made of one material selected from the group consisting of Teflon, silicone and rubber having elasticity, when the nut 200 is tightened toward the valve 100, (412) is compressed to maintain a firm bonding force.

The extension part 421 of the lower sealing member 420 is formed to have the same shape as the expansion part 320 of the refrigerant pipe 300 and the inclination angle of the expansion part 421 and the inclination angle of the expansion part 420 And the tilting angle is made equal to each other, so that a tight and rigid coupling between the extension portion 421 and the expansion portion 320 is achieved.

Since the resin coating layer 310 is formed by resin coating the outer circumferential surface of the refrigerant tube 300 of the present invention, the sleeve 422 of the lower sealing member 422 made of any one of Teflon, silicone, Good confidentiality is secured.

As described above, the connection structure of the refrigerant pipe of the present invention can simplify the structure of the connection structure of the refrigerant pipe, thereby reducing the manufacturing cost as well as the workability. Also, the connection part of the refrigerant pipe is deformed or damaged And it is possible to extend the service life by keeping it in a circular shape, and airtightness is maintained in the connection portion of the valve and the nut connecting the refrigerant pipes, thereby preventing the refrigerant gas from leaking, thereby improving the cooling / There is an advantage that it has.

100: valve 110: refrigerant passage
120: inclined surface 130: male threads
200: nut 210: female thread
220: Refrigerant pipe joint hole 230: Space
240: slope 300: refrigerant tube
310: Resin coating layer 320: Expansion part
400: sealing member 410: upper sealing member
411: inner tube 412: airtight plate
413: outer tube 420: lower sealing element
421: extension part 422: sleeve
423: step 430: connector

Claims (7)

A valve 100 is formed at an inner center thereof with a refrigerant passage 110 formed along a longitudinal direction thereof and a female screw portion 130 formed at an inner peripheral surface thereof. A space 230 is formed at the rear of the female threaded portion and an inclined surface 240 is formed at the rear of the space. A nut 200, which forms a coolant tube coupling hole 220 from the end of the inclined surface to the rear end, A refrigerant pipe 300 formed with a resin coating layer 310 on the outer peripheral surface thereof and a tube portion 320 at the tip thereof and a sealing member 300 coupled to a portion where the valve and the nut meet, (400), the connection structure of the refrigerant pipe
The sealing member 400 has an inner tube 411 in which an upper portion is closely fitted to the refrigerant passage and a lower portion is closely fitted to the inside of the refrigerant tube, A sealing plate 412 which is tightly coupled to the inclined surface 120 of the valve and whose other side is slid downward toward the inner tube 411 in the outer tube 413 so as to be tightly coupled with the inner tube of the refrigerant tube, The upper portion of the airtight plate is closely coupled to the outer circumferential surface of the lower portion of the valve 100, and the lower portion thereof is formed with an outer tube 413, which is closely coupled with the distal end of the expanded portion 320, Body 410,
An expansion part 421 is formed at one end of the expansion pipe 420 and is formed in the same shape as the expansion part 320 of the refrigerant pipe 300 and tightly coupled with the outer surface of the expansion part 320, A sleeve 422 which is tightly coupled with the outer circumferential surface of the refrigerant pipe 300 and whose outer circumferential surface is tightly coupled with the inner circumferential surface of the refrigerant pipe coupling hole 220 is formed. At an end of the sleeve 422, A lower sealing member 420 formed on the lower sealing member 420,
And a connection hole (430) for connecting the upper sealing member (410) and the lower sealing member (420) to each other. delete The method according to claim 1,
Wherein the upper sealing member (410) and the lower sealing member (420) are made of one material selected from Teflon, silicone, and rubber materials having elasticity. delete delete delete delete

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