KR101889960B1 - Connecting structure of refrigerant pipe - Google Patents

Abstract

The present invention relates to a connecting structure of a refrigerant pipe which can simplify connection of a refrigerant pipe used in an air conditioner, thereby improving workability and ensuring airtightness. A connecting structure of a refrigerant pipe according to the present invention includes: a valve having a sloped surface formed on an outer end portion thereof from an inner side to an outer side, a male thread portion formed following the inclined surface, and a refrigerant passage formed along a longitudinal direction at an inner center thereof; a nut having a female thread portion and a sealing member receiving portion formed therein, a tapered portion formed in a rear portion of the sealing member receiving portion, and a refrigerant pipe coupling hole formed at a rear portion of the tapered portion and coupled to a refrigerant pipe having an inner diameter smaller than the inner diameter of the sealing member receiving portion; a sleeve having a tube portion tightly fitted in a front portion of the refrigerant tube to prevent shrinking deformation when a pressure is applied to the refrigerant tube and an extension portion formed in front of the tube portion to prevent an end portion of the refrigerant tube from being deformed; an airtight member formed with a refrigerant traveling tube fitted into the tube and having an airtight portion formed by forming a front airtight surface having an inclined surface and a rear airtight surface at the front end and the rear end of the refrigerant traveling tube, the front airtight surface and the rear airtight surface having inclined surfaces from the outside to the inside, respectively; and a sealing member located in the sealing member receiving portion, wherein an inner circumferential surface surrounds the refrigerant pipe, an outer circumferential surface contacts an inner circumferential surface of the sealing member receiving portion of the nut, and, when the nut is tightened along the male thread portion of the valve, the sealing member shrinks to maintain the airtightness between the valve and the nut.

Description

[0001] CONNECTING STRUCTURE OF REFRIGERANT PIPE [0002]

The present invention relates to a connection structure of a refrigerant pipe which can simplify connection of a refrigerant pipe used in an air conditioner, thereby improving workability and minimizing the number of parts, thereby ensuring airtightness while reducing costs.

Generally, the air conditioner is divided into indoor / outdoor units, and the refrigerant pipes are connected to each other so that the refrigerant gas progresses between the indoor / outdoor units. Airtightness should be maintained between each end of the refrigerant pipe and the indoor / It is essential.

A conventional structure in which the airtightness between each end portion of the refrigerant tube and the indoor / outdoor air is maintained is as described in Korean Patent No. 10-1561257 as shown in FIG. 1, A refrigerant pipe 30 in which a trumpet-shaped expansion portion 31 is formed at a front portion thereof and an inner sleeve portion 40 formed with an inner expansion portion 41 to be fitted inside the expansion portion 40 An outer sleeve 50 having an outer tube portion 51 coupled to an outer side of the tube portion and a nut screwed to the valve 20 in a state of accommodating the tube portion, 30. The refrigerant pipe connecting structure according to claim 1,

A first sealing member (60) is formed between the lower portion of the valve (20) and the inner tube portion (41) to secure airtightness and protect the inner tube portion The first sealing member includes an extension portion 61 whose inner surface is in intimate contact with the lower portion of the valve and whose outer surface is in intimate contact with the inner expanding portion, And an upper extension part (62) vertically upwardly formed on the upper part of the expansion part and having an upper end contacting the lower part of the valve,

A second sealing member 70 having a shape conforming to the outer expanded portion is provided between the inside of the nut 30 and the outer expanded portion 51 to secure airtightness and protect the outer expanded portion, And the upper portion of the two sealing members is formed with a vertically upward extending portion 71 whose upper end is in contact with the extended portion of the first sealing member.

The connection structure of the conventional refrigerant pipe having the above-described structure is so numerous that not only the workability of the refrigerant pipe is reduced, but also the cost of the refrigerant pipe is raised and the manufacturing cost is lowered. In addition, the end of the refrigerant pipe 30 is shaped like a trumpet It is necessary to expand it.

In addition, a piping apparatus for an air conditioner provided recently is disclosed in Korean Patent Laid-open Publication No. 10-2017-0124178 as shown in Fig. 2, and its constitution is composed of a first piping P1 in which a front end made of an aluminum alloy is expanded, A connecting block (11) arranged to surround the outer periphery of one end of the first pipe and formed in a ring shape and slidably fitted on an outer circumferential surface of the first pipe, and a connecting block (11) disposed at the rear end of the connecting block A second pipe (P2) disposed coaxially with the first pipe, and a second pipe (12) coupled to one end of the second pipe and having a male threaded portion (13) on an outer peripheral surface thereof, (14), a second packing member (80) disposed at a portion where the tip of the nipple member faces the first pipe, and a second packing member By accepting the connection block, And a nut member (60) screwed to the nipple member, wherein the nut member plastically deforms the tip of the first pipe in the process of screwing the nut member to the connection block, so that the connection block is not separated from the first pipe .

The conventional piping system for the air conditioner having the above-described structure also has a problem that the piping system has a problem that the piping system has a large number of components, Therefore, there is a problem that the expansion part becomes weak.

Korean Patent No. 10-1561257: Connection structure of refrigerant pipe Korean Patent Laid-Open No. 10-2017-0124178: Piping device for air conditioner

The present invention has been made to solve the above-mentioned 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, airtightness is ensured while the connecting portion or the end portion of the refrigerant tube is used without being expanded,

Third, the connection structure of the refrigerant pipe is provided in which the connection part of the refrigerant pipe is maintained in a circular shape without being deformed or damaged during the connection, thereby extending service life.

"형상의 기밀구(152)와, 상기 후방기밀 면(152b)의 끝단부와 상기 냉매진행 관(151) 사이에 상기 슬리브의 확장부(132)가 수용되는 수용 홈(153)을 형성시켜 된 기밀부재(150);
상기 씰링부재수용부(123)에 위치되어 내주면은 냉매 관을 감싸고 외주면은 너트의 씰링부재수용부 내주면과 접촉되어 상기 밸브의 숫 나사부를 따라 너트를 조이게 되면 수축되면서 상기 밸브와 너트 사이의 기밀성을 유지시키도록 상기 냉매 관을 감싸는 내주 면의 면적이 상기 씰링부재수용부 내주면과 접촉되는 외주면의 면적보다 크게 형성되어 단면상 사다리꼴 형태를 이루고, 그 사다리꼴 형태의 일측단면(141) 경사각은 상기 기밀구의 후방기밀 면(152b) 경사각과 준하는 경사각을 갖도록 형성되며 타측단면(142) 경사각은 상기 너트의 테이퍼부(124) 경사각과 준하는 경사각을 갖도록 형성되어 상호 긴밀히 접촉되게 구성된 씰링부재(140); 를 포함하는 구성으로 이루어진다.According to an aspect of the present invention, there is provided a refrigerant pipe connection structure, comprising: a slant face formed in an outer end portion of an outer end portion of the outer end of the slant face; A valve 110 formed at the center thereof with a refrigerant passage 111 formed in a longitudinal direction thereof;
A tapered portion 124 is formed at a rear portion of the sealing member receiving portion and a rear end of the tapered portion is provided with a female screw 121 and a sealing member receiving portion 123, A nut 120 formed with a coolant pipe coupling hole 122 to which the pipe 160 is coupled;
A tube portion 131 which is tightly fitted in the front of the refrigerant tube and is prevented from being shrunk and deformed when pressure is applied to the refrigerant tube is formed and an extension portion 132 for preventing the end portion deformation of the refrigerant tube is formed in front of the tube portion The expansion part 132 is formed to be bent 90 degrees outwardly from the tube part 131 and the width W of the 90 degree bent extension part is formed to be equal to the thickness of the end portion of the refrigerant pipe, 130);
A front airtight surface 152a having an inclined surface from the outside to the outside so as to have an inclination angle corresponding to the inclination angle of the inclined surface 112 of the nut is formed at the tip of the refrigerant traveling tube, And a rear airtight surface 152b having an inclined surface from the outside to the inside in the rear end of the refrigerant traveling pipe,

And a receiving groove 153 is formed between the end of the rear airtight surface 152b and the refrigerant traveling pipe 151 to receive the extension portion 132 of the sleeve. A hermetic member 150;
The inner circumferential surface of the sealing member accommodating portion 123 surrounds the refrigerant pipe and the outer circumferential surface thereof is in contact with the inner circumferential surface of the sealing member accommodating portion of the nut so that when the nut is tightened along the male screw portion of the valve, And the inclined angle of one side surface (141) of the trapezoidal shape is larger than an area of an inner circumferential surface surrounding the refrigerant tube to be larger than an area of an outer circumferential surface contacting the sealing member accommodating portion inner peripheral surface, A sealing member 140 formed to have an inclination angle that is equal to the inclination angle of the airtight surface 152b and the inclination angle of the other end face 142 is formed to have an inclination angle that is equal to the inclination angle of the tapered portion 124 of the nut, .

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The refrigerant pipe connection structure according to the present invention having the above-described structure can simplify the construction to improve the workability, reduce the manufacturing cost, and secure the airtightness while using the connection portion or end portion of the refrigerant pipe without enlarging And the connection part of the refrigerant pipe is kept in a circular shape without being deformed or damaged in the jointing degree, thereby extending service life.

1 is an exploded cross-sectional view of a connection structure of a conventional refrigerant pipe,
FIG. 2 is an assembled cross-sectional view of a conventional piping system for an air conditioner,
3 is an exploded perspective view for explaining the refrigerant pipe connection structure of the present invention,
4 is a cross-sectional view illustrating a connection structure of a refrigerant pipe of the present invention,
FIG. 5 is an exploded perspective view of a refrigerant pipe connecting structure according to the present invention. FIG.

The refrigerant pipe connection structure according to the present invention will be described in detail with reference to the accompanying drawings.

3, an inclined surface 112 is formed in the outer end portion from the inner side to the outer side, and a male screw portion 113 is formed after the inclined surface 112, and a refrigerant passage 111 A valve 110 is formed through the valve 110. The configuration of the valve 110 is generally the same as that of the valve 110, and a detailed description thereof will be omitted.

The inclination angle of the inclined surface 112 formed at the outer end of the valve 110 is preferably 45 ± 5 °. The reason for this is that the inclination angle is the most stable angle and is easily processed.

A female screw portion 121 is formed on the inner circumferential surface so as to be screwed with the male screw portion 113. A sealing member accommodating portion 123 is provided on the rear side of the female screw portion 121, And a coolant pipe coupling hole 122 which is connected to the tapered portion 124 of the inlet and has an inner diameter smaller than the inner diameter of the sealing member receiving portion 123 is fitted to the rear side, ).

The reason why the sealing member receiving portion 123 is formed between the refrigerant pipe coupling hole 122 and the female screw portion 121 is that the airtightness between the valve 110 and the nut 120 is maintained The refrigerant pipe 160 is inserted into the refrigerant pipe coupling hole 122 to receive the sealing member 140 and then the nut 120 coupled with the male screw portion 113 of the valve 110 is tightened The sealing member 140 provided in the sealing member accommodating portion 123 is compressed and the airtightness between the valve 110 and the nut 120 is more strongly maintained.

3 to 5, the present invention is characterized in that a tube portion 131 which is tightly fitted in the front of the refrigerant tube 160 to prevent the refrigerant tube 160 from being shrunk and deformed inward is formed, A sleeve 130 is formed in front of the refrigerant pipe 131 to form an expanded portion 132 bent to the outside of the refrigerant pipe 160.

The tube portion 131 is closely inserted into the inlet of the refrigerant tube 160 because the end of the refrigerant tube 160 is not expanded and the diameter of the refrigerant tube 160 is maintained. The sealing member 140 is compressed and pressure is applied to the refrigerant pipe 160 so that the refrigerant pipe 160 is deformed to prevent the deformation of the refrigerant pipe 160. [

The present invention provides a refrigerant tube connection structure that prevents leakage of a refrigerant while using a tip of a refrigerant tube (160) without expanding. The refrigerant tube connection structure is characterized in that a tip portion of the refrigerant tube (160) It is difficult to ensure the airtightness if deformation occurs in the refrigerant pipe 111. Therefore, in the present invention, the refrigerant pipe 160 is prevented from being deformed at the front end thereof, Thereby allowing the flow of the refrigerant to flow smoothly without leaking.

The expansion portion 132 of the sleeve 130 is bent 90 degrees outward from the tube portion 131. The expansion portion 132 not only protects the tip of the refrigerant tube 160, And also prevents the flow of the refrigerant flowing to the tube portion 131 through the refrigerant passage 111 of the valve 110 smoothly without leaking.

The sleeve 130 is preferably made of stainless steel, but may be made of copper if necessary.

The sealing member 140 of the present invention is a cylindrical elastic body having a hollow interior and in one embodiment the area of the inner circumferential surface surrounding the refrigerant pipe 160 is larger than the area of the nut 120 that is the sealing member accommodating portion 123 The sealing member 140 is compressed when the nut 120 is tightened so that the compression force is exerted toward the refrigerant pipe 160 and the refrigerant is discharged from the refrigerant pipe 160. As a result, This is to strengthen the sealing of the pipe.

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In order to strengthen the sealing of the refrigerant tube, an inclination angle of one end surface 141 of the sealing member 140 is formed to have an inclination angle that is equal to an inclination angle of the rear airtight surface 152b of the airtight hole 152, And the inclination angle of the other end face 142 of the sealing member 140 is formed to have an inclination angle that is equal to the inclination angle of the tapered portion 124 of the nut 120, 110 and the nut 120 is more strongly secured.

The airtightness of the airtightness hole 152 is formed so as to have a tilt angle that is equal to the tilt angle of the inclined surface 112 of the nut 120 so as to be in intimate contact with each other, The airtightness is strongly maintained.

The refrigerant tube 151 of the hermetic member 150 is closely inserted into the tube portion 131 and the front end of the refrigerant tube 151 is connected to the front airtight surface 151 having an inclination angle similar to the inclined surface 112 And an airtight hole 152 formed at a rear portion of the sealing member 140 to form a rear airtight surface 152b which closely contacts one end surface 141 of the sealing member 140 is formed integrally with the refrigerant traveling pipe 151 .

The hermetic sealing member 152 of the hermetic member 150 is preferably made of the same material as the valve 110. Since the valve 110 is generally made of copper, It is preferable that the spheres 152 are also synchronized. The reason for this is to make the inclined surface 112 of the valve 110 and the front airtight surface 152a of the airtight hole 152 the same material so as to increase the contact property so as to secure airtightness.

The airtightness between the rear airtight surface 152b and the one end surface 141 is determined by making the inclination angle of the rear airtight surface 152b of the airtightness member 152 and the inclination angle of the one side surface 141 of the sealing member 140 to be the same Respectively.

The material of the sealing member 140 may be any material as long as the sealing member 140 can be made of an elastic material, such as rubber or silicon, which can shrink when pressed and pressurized to maintain the airtightness.

As described above, by inserting the tube portion 131 of the sleeve 130 into the refrigerant tube 160 and inserting the refrigerant advancing tube 151 into the tube portion 131, the nut 200 is tightened, Even if a compressive force is transmitted to the refrigerant pipe 160 through the refrigerant pipe 140, the front end portion of the refrigerant pipe 160 having no expanded end portion is not deformed such as being collapsed.

When the nut 200 is tightened, the sealing member 140 is compressed and the tapered portion 124 of the nut 200 and the other end surface 142 of the sealing member 140 and the rear airtight surface The contact force between the sealing member 152b and the one end face 141 of the sealing member 140 becomes strong, and the airtightness becomes strong.

Further, since the sealing member 140 has a large area in contact with the refrigerant pipe 160 and a large area in contact with the nut 200 in the form of a trapezoidal shape having a small area, when the nut 200 is tightened, The compressive force of the member 140 is transmitted from the nut 200 side to the refrigerant pipe 160 so that the airtightness between the tapered portion 124 and the other end surface 142 and between the rear airtight surface 152b and the one end surface 141 becomes strong, Confidentiality is ensured.

The refrigerant pipe 160 may be any one selected from a copper pipe and an aluminum pipe. However, it is preferable to use an aluminum pipe whose cost is reduced. Since the aluminum pipe is weak in durability, that is, It is good to use a resin coating to prevent corrosion on the surface and increase the warmth.

The present invention is characterized in that a receiving groove 153 for receiving the extension portion 132 of the sleeve 130 is formed between the end portion of the rear airtight surface 152b of the airtightness 152 and the refrigerant traveling pipe 151 So that the extension part 132 is seated tightly in the receiving groove 153, so that a firm and stable coupling force between the sleeve 130 and the hermetic member 150 is maintained.

The expansion portion 132 of the sleeve 130 is formed to be bent 90 degrees outward from the tube portion 131 and the width W of the expansion portion 132 bent at 90 degrees corresponds to the thickness of the end portion of the refrigerant tube 160 So as to stably support and protect the front end of the refrigerant pipe 160 and to prevent the distal end portion of the refrigerant pipe 160 from being deformed.

In an embodiment of the present invention, the refrigerant pipe 160 is made of a low-cost and light-weight aluminum pipe 161. The aluminum pipe 161 is resistant to oxidation and corrosion, It is preferable to use the resin coating layer 162 after forming the resin coating layer 162 by resin coating on the surface of the tube 161. However, a copper tube may be used according to user's order or installation site conditions and working conditions.

The refrigerant pipe connection structure of the present invention as described above can simplify the construction to improve the workability and reduce the manufacturing cost and secure the airtightness while using the connection portion or the end portion of the refrigerant pipe as it is, The connection portion of the refrigerant pipe is maintained in a circular shape without being deformed or damaged during the connection, thereby extending service life.

110: valve 111: refrigerant passage
112: inclined surface 113: male threads
120: Nut 121: Female thread
122: coolant pipe fitting hole 123: sealing member accommodating portion
124: tapered portion 130: sleeve
131: tube portion 132:
140: sealing member 141: one side section
142: other end face 150: airtight member
151: Refrigerant advance pipe 152:
152a: front airtight surface 152b: rear airtight surface
153: receiving groove 160: refrigerant tube
161: aluminum tube 162: resin coating layer

Claims (8)

A valve 110 formed with an inclined surface 112 in the outer tip portion from the inner side to the outer side and a male screw portion 113 formed at an inclined surface thereof and having a refrigerant passage 111 formed in its longitudinal direction along the longitudinal direction;
A tapered portion 124 is formed at a rear portion of the sealing member receiving portion and a rear end of the tapered portion is provided with a female screw 121 and a sealing member receiving portion 123, A nut 120 formed with a coolant pipe coupling hole 122 to which the pipe 160 is coupled;
A tube portion 131 which is tightly fitted in the front of the refrigerant tube and is prevented from being shrunk and deformed when pressure is applied to the refrigerant tube is formed and an extension portion 132 for preventing the end portion deformation of the refrigerant tube is formed in front of the tube portion The expansion part 132 is formed to be bent 90 degrees outwardly from the tube part 131 and the width W of the 90 degree bent extension part is formed to be equal to the thickness of the end portion of the refrigerant pipe, 130);
A front airtight surface 152a having an inclined surface from the outside to the outside so as to have an inclination angle corresponding to the inclination angle of the inclined surface 112 of the nut is formed at the tip of the refrigerant traveling tube, And a rear airtight surface 152b having an inclined surface from the outside to the inside in the rear end of the refrigerant traveling pipe,

And a receiving groove 153 is formed between the end of the rear airtight surface 152b and the refrigerant traveling pipe 151 to receive the extension portion 132 of the sleeve. A hermetic member 150;
The inner circumferential surface of the sealing member accommodating portion 123 surrounds the refrigerant pipe and the outer circumferential surface thereof is in contact with the inner circumferential surface of the sealing member accommodating portion of the nut so that when the nut is tightened along the male screw portion of the valve, And the inclined angle of one side surface (141) of the trapezoidal shape is larger than an area of an inner circumferential surface surrounding the refrigerant tube to be larger than an area of an outer circumferential surface contacting the sealing member accommodating portion inner peripheral surface, A sealing member 140 formed to have an inclination angle that is equal to the inclination angle of the airtight surface 152b and the inclination angle of the other end face 142 is formed to have an inclination angle that is equal to the inclination angle of the tapered portion 124 of the nut, And a refrigerant pipe connected to the refrigerant pipe. delete delete delete delete delete delete The method according to claim 1,
Wherein the refrigerant pipe (160) is resin coated on an outer surface of the aluminum pipe (161) to form a resin coating layer (162).

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