KR20100030741A - Joint structure of refrigerants pipe of air conditioning system and jointing method of refrigerants pipe comprised in air conditioning system - Google Patents

Abstract

PURPOSE: A joint structure for a pipe of an air conditioning system and a method for connecting the pipe which is included in the air conditioning system are provided to a manufacturing cost by not including a welding unit and to prevent leakage of a refrigerant due to a crack generated in the welding unit. CONSTITUTION: A joint structure(200) for a pipe of an air conditioning system is composed of a nipple(210) and a flare nut(220). The joint structure interlinks a first connection part(60-1) and a second connection part(60-2) of the air conditioning system pipe. A through-hole(217) is formed in the inner side of the nipple and a polygonal portion(211) and a male screw part(213) are formed in the outside of the nipple. A first slope(215) is formed in one side of the male screw part. The polygonal portion(221) is formed in the outside of the flare nut. A female screw part(223) which is screwed up in the male screw part is formed on the inner radius face of the flare nut. A second slope(225) is formed in one side of the female screw part. The first connection part is inserted into the through-hole of nipple and comprises a first expanding portion(61). The first expanding portion locates between the first slope and the second slope. One side of the first expanding portion touches with the first slope and the other side touches with a second expanding portion(63). The second connection part is inserted into the flare not and comprises the second expanding portion.

Description

Joint Structure of Refrigerants Pipe of Air Conditioning System And Jointing Method of Refrigerants Pipe Comprised in Air Conditioning System}

The present invention relates to a pipe connection structure and a pipe connection method of an air conditioning system, and more particularly, since no welding part is required, expensive welding equipment is not required, and durability is improved because there is no welding part that is easily cracked. , The assembly is simple, and relates to a pipe connection structure of the air conditioning system that can use a pipe of various materials and a pipe connection method provided in the air conditioning system.

1 is a structural diagram showing a general air conditioning system. As shown in FIG. 1, the air conditioning system includes a condenser 10 for dissipating heat from a refrigerant having a high temperature and high pressure liquid state to form a liquid at medium temperature and low pressure, and a refrigerant having a low temperature and low pressure liquid, which has been brought through the condenser 10. The high-temperature low-pressure refrigerant from the cooler 30 and the cooler 30 made of a low-temperature low-pressure liquid while exchanging heat with the capillary tube 20 and the refrigerant passing through the capillary tube 20 Compressor 40 is pressurized to a high pressure, the components are connected to the refrigerant pipe 60 through which the refrigerant flows. 1 is an example for explaining the air conditioning system, the pipe connection structure or the connection method according to the present invention is not limited to the air conditioning system as shown in FIG.

In the cooling system, the condenser 10 is used as an outdoor unit, and the cooler 30 is used as an indoor unit to lower the temperature of the room.

A conventional method of connecting a pipe to the above configurations or a pipe to a pipe will be described with reference to FIGS. 2 to 5. 2 to 5 is not limited to a specific part of the air conditioning system shown in FIG. 1, but is conventionally connected to the connection portion of the pipe by the method shown in FIGS. In the following description, the first connection part and the second connection part mean portions connected to each other in the pipe 60 shown in FIG. 1 and are not limited to the specific portions.

In the part where the pipes are connected to each other, the first connection part 60-1 and the second connection part 60-2 to be connected are mainly used by using the nipple 110 and the flan nut 120 as shown in FIGS. 2 to 5. ) To each other.

As shown in FIGS. 2 to 5, the nipple 110 communicates with the through hole 119 and the through hole 119 inward and has an insertion hole 117 having a step. Therefore, the nipple 110 is a hollow body. A polygonal portion 111 formed of a polygon is formed outside the nipple 110, and a male screw portion 113 is formed adjacent to the polygonal portion 111. A first inclined portion 115 is formed in which an outer diameter decreases toward one end of the male screw portion 113. Conventionally, the first connecting portion 60-1 is inserted into the insertion hole 117 of the nipple 110, and the opposite end of the inclined portion 115 and the outer diameter of the first connecting portion 60-1 are welded. The first connection part 60-1 was fixed to the nipple 110 by forming the contact part 130.

As shown in FIGS. 2 to 3 and 5, the flannel 120 is a penetrated hollow body, and the female thread part 123 screwed to the male thread part 113 of the nipple 110 is disposed on an inner diameter surface thereof. The second inclined portion 125 is formed to decrease the inner diameter toward the end of the female screw portion 123. A cylindrical through hole 127 is formed between the second inclined portion 125 and the end.

2 to 3 and 5, the second connecting portion 60-2 is inserted through the through hole 127, exposed through the female screw portion 123, and a part of the end of the exposed portion is a bugle shape The expansion pipe portion 62 is formed at a portion of the end of the second connection portion 60-2.

In the state in which the expansion pipe 62 is formed in the second connecting portion 60-2 as described above, the female screw portion 123 of the flannel 120 and the male screw portion 113 of the nipple 110 are screwed together. When the screw is coupled, the expansion portion 62 of the second connecting portion 60-2 is compressed between the first inclined portion 115 and the second inclined portion 125. Therefore, the first connector 60-1 and the second connector 60-2 are connected to each other through the nipple 110 and the flannel 120.

Since the pipe connection structure of the air conditioning system as described above requires welding the nipple 110 and the first connection part 60-1, an expensive welding facility is generally required and a highly skilled welder is required. In addition, the welding part is easily cracked, and there is a problem in that the quality of the welding worker does not guarantee the durability of the welding part, and a material that is difficult to weld cannot be used as a pipe. In addition, when a material having less ductility than the copper pipe is used, cracks are generated due to the pressurization of the flannel nut in the expansion pipe, thereby increasing the thickness of the expansion pipe.

The present invention has been proposed to solve the above problems, it does not require expensive welding equipment because it is a structure that does not weld, it is possible to use a material difficult to weld as a refrigerant pipe, because the expansion pipe overlap flannel nut It is an object of the present invention to provide a pipe connection structure of an air conditioning system and a pipe connection method provided in the air conditioning system, which are less likely to leak refrigerant from the expansion pipe by pressurization.

Piping connection structure of the air conditioning system according to the present invention for achieving the above object consists of a nipple and a flange nut screwed to the nipple connects the first connection portion and the second connection portion of the refrigerant pipe provided in the air conditioning system, the nipple The through hole is formed in the inner side, the outer side is formed with a polygonal portion and a male screw portion adjacent to the polygonal portion, the first inclined portion is formed to decrease the outer diameter toward one end of the male screw portion; The flannel is formed with a polygonal portion on the outside, a female threaded portion is screwed to the male screw portion formed on the inner diameter surface, a second inclined portion is formed to decrease the inner diameter toward one end of the female screw portion, the screw on the nipple A gap is formed between the first inclined portion and the second inclined portion while being fastened; The first connecting portion is inserted into the through hole of the nipple, is formed in a portion of the end is located between the first inclined portion and the second inclined portion, in contact with the first inclined portion on one side and the second expansion pipe on the other side A first expanding portion contacting the; The second connecting portion is inserted into the flannel, is formed at a portion of the end portion and is located between the first inclined portion and the second inclined portion to contact the first expanding portion on one side and the second inclined portion on the other side. It is characterized by including the second expansion pipe portion 63 in contact with the.

In the above, the first expansion pipe portion is formed to face the inclined direction of the first inclined portion while being pressed when the flannel is fastened to the nipple to contact the first inclined portion.

On the other hand, the refrigerant pipe connection method provided in the air conditioning system according to the present invention is formed with a through hole in the inner side, the outer side is formed with a male screw portion adjacent to the polygonal portion and the polygonal portion, the outer diameter toward the end toward one end of the male screw portion A nipple having a decreasing first inclined portion and a female screw portion screwed to the male screw portion are formed on an inner diameter surface thereof, and a second inclined portion having an inner diameter decreases toward one end of the female screw portion is screwed to the nipple. Connection using a flannel nut; The first connecting portion is inserted into the through hole of the nipple in the first connecting portion and the second connecting portion to be connected to each other to form a first expansion portion at the end exposed through the first inclined portion, and the second connecting portion connected to the first connecting portion. An expansion pipe forming step of inserting a connecting portion into the flannel and forming a second expansion pipe at an end exposed through the female screw; The male screw portion and the female screw portion are screwed so that the first enlarged portion and the second expanded portion are pressed between the first inclined portion and the second inclined portion so as to overlap between the first inclined portion and the second inclined portion. Characterized in that consisting of a pressure tightening step.

Between the expansion pipe forming step and the pressure tightening step, characterized in that it further comprises a plastic deformation step of plastic deformation so that the inclination direction of the first expansion pipe portion toward the inclination direction of the first inclined portion.

According to the pipe connection structure of the air conditioning system and the pipe connection method provided in the air conditioning system according to the present invention, since there is no welded portion, the manufacturing cost is reduced, there is no need to provide expensive welding equipment, and brittleness is caused because of the brittleness. Since there is no easy welding part, there is no risk of leakage of refrigerant due to cracks generated in the welding part, and it is possible to use a material such as aluminum, which is difficult to weld, as a pipe, the connection method is simple, and the expansion part of pipes connected to each other is overlapped. Since the contact is pressed by the flannel and the nipple while contacting, even if the thickness of the pipe is thin or the ductility of the pipe material is insufficient, there is an effect of reducing the risk of leakage of the refrigerant through the expansion pipe.

Hereinafter, with reference to the drawings will be described in detail a preferred embodiment of the present invention. In the detailed description, the same name is used for the configuration equivalent to the prior art.

6 is a perspective view showing a piping connection structure of the air conditioning system according to the present invention, Figure 7 is a cross-sectional view showing a pipe connection structure of the air conditioning system according to the present invention, Figures 8 and 9 is an air conditioning system according to the present invention This section is for explaining the connection process in pipe connection structure.

6 and 7, the piping connection structure 100 of the air conditioning system according to the present invention has a refrigerant having a first connection part 60-1 and a second connection part 60-2 forming the piping of the air conditioning system. As a structure to connect so as not to leak, it is configured to include a nipple (210) and flannel 220.

As shown in FIGS. 6 to 9, the nipple 210 has a hollow body 217 formed inwardly, a polygonal part 211 is formed outward, and may be adjacent to the polygonal part 211. The threaded portion 213 is formed. A first inclined portion 215 having an outer diameter reduced toward one end of the male screw portion 213 is formed.

The flannel 220 screwed to the nipple 210 is a female threaded portion 223 which is screwed to the male threaded portion 213 of the nipple 210 inwardly as a hollow body as shown in FIGS. 6 to 9. Is formed, and the second inclined portion 225 having an inner diameter decreases toward one end of the female screw portion 223.

In the above, the polygonal portion is configured to rotate when the nipple 210 and the flange nut 220 are screwed to each other, and are not limited to polygons, and include a structure that can be rotated for screwing.

When the flannut 220 connects the first connector 60-1 and the second connector 60-2 and is screwed to the nipple 210, the first expansion part of the first connector 60-1 ( 61 and the second expansion portion 63 of the second connecting portion 60-2 overlap each other to the second inclined portion 225 of the flannel 220 and the first inclined portion 215 of the nipple 210. Is pressed.

As shown in FIG. 7, the first connection part 60-1 has a first expansion part 61 inserted into the through hole 217 of the nipple 210 and extended to a part of the end thereof. One side of the first expansion tube 61 contacts the first inclined portion 215 of the nipple 210 and the other side contacts the second expansion tube 63 of the second connection unit 60-2.

As shown in FIG. 7, the second connection part 60-2 is inserted into the flannel 220 and has a second expansion part 63 extended to a part of the end. One side of the second expansion portion 63 contacts the second inclined portion 225 of the flannel 220, and the other side contacts the second expansion portion 61 of the first connection portion 60-1.

As described above, the first expansion part 61 of the first connection part 60-1 and the second expansion part 63 of the second connection part 60-2 overlap each other to form the second inclined part of the flan nut 220. Since the first connection portion 60-1 and the second connection portion 60-2 are pressed by the first inclined portion 215 of the 225 and the nipple 210, the welding process is not necessary. And since the 1st expansion part 61 and the 2nd expansion part 63 overlap, the possibility of the leak from an expansion part reduces even if the thickness of an expansion part is thin.

Hereinafter, a pipe connecting method of an air conditioning system according to the present invention will be described with reference to FIGS. 8 and 9.

As shown in FIG. 8, the first connecting portion 60-1 is inserted into the through hole 217 of the nipple 210, and the exposed portion of the first connecting portion 60-1 passes through the first inclined portion 215. A first enlarged pipe portion 61 having a diameter increased in the shape of a trumpet is formed at an end portion, and the second connection portion 60-2 is inserted into the flannel 220 and a portion of the end portion exposed through the female screw portion 223. In the trumpet shape, a second expansion pipe portion 63 having a radius is formed (expansion pipe forming step).

As described above, the first expansion pipe portion 61 may be formed to face the inclination direction of the first inclination portion 215 as shown by a dotted line in FIG. 8. In FIG. 8, the angle of inclination of the first inclined portion 215 is not limited, but the angle formed by the center line of the first connection portion 60-1 and the first inclined portion 215 may be in a range of 30 ° to 60 °. When the angle between the center line of the first connecting portion 60-1 and the first inclined portion 215 is too small, the deformation amount increases when the first expanding portion 61 contacts the first inclined portion 215. And there is a risk that cracks, etc. depending on the material is preferably so that the angle between the center line of the first connecting portion 60-1 and the first inclined portion 215 is not too small. The angle can be set differently depending on the properties of the material forming the pipe, it is also possible to have an angle larger than the above range when using aluminum pipe. The second inclined portion 225 is formed to be parallel to the first inclined portion 215 or have a small angle. The first inclined portion 215 is formed on the outer diameter surface of the first connecting portion 60-1 and the second inclined portion 225 is formed on the inner diameter surface of the second connecting portion 60-2. The inclined directions of the expansion pipe 61 and the second expansion pipe 63 may be formed to be opposite to those shown in FIG. 7.

As described above, the first expansion part 61 and the second expansion part 63 are formed in the state of being inserted into the nipple 210 and the flannel 220, respectively, and then the nipple 210 and the flannel 220 are screwed. Tighten. As the nipple 210 and the flannel 220 are screwed in, the gap between the first inclined portion 215 and the second inclined portion 225 is reduced and becomes as shown in FIG. 9, toward the nipple 210. If the flange nut 220 continues to move forward, the first expansion part 61 is deformed in the direction indicated by the arrow in FIG. 8, and is finally pressed and fastened in a state as shown in FIG. ).

Between the expansion pipe forming step and the pressure fastening step, the first expansion pipe 61 may be deformed to face the inclined direction of the first inclined portion 215 as shown by an arrow in FIG. 8.

As described above, in connecting the first connecting portion 60-1 and the second connecting portion 60-2 to each other, a first expansion pipe portion 61 is formed on the first connecting portion 60-1 and not by welding. By forming and connecting the second expansion pipe portion 63 to the connection portion 60-2, the operation is simplified, and the pipes made of a material that is not easily welded, such as aluminum, can be connected, and the first expansion pipe portion 61 Since the second expansion pipe portion 63 is overlapped and pressurized, connection of a thin pipe is possible, and the possibility of leakage from the expansion pipe due to excessive pressurization is also reduced. Although the present invention has been described as being applied to the air conditioning system, the present invention is not limited to the piping of the air conditioning system, of course, can be applied to various fluid piping.

Although the present invention has been described above with reference to the drawings, the scope of the present invention is not limited thereto, and the scope obvious to those skilled in the art to which the present invention belongs should be interpreted as belonging to the rights of the present invention.

1 is a structural diagram showing an example of a general air conditioning system.

Figure 2 is a perspective view showing a pipe connection structure of the air conditioning system according to the prior art.

3 is an exploded perspective view illustrating a pipe connection structure of a conventional air conditioning system.

4 is a cross-sectional view illustrating a state in which a first connection part is connected to a nipple in a pipe connection structure of a conventional air conditioning system.

5 is a cross-sectional view showing a pipe connection structure of a conventional air conditioning system.

6 is a perspective view showing a pipe connection structure of the air conditioning system according to the present invention.

7 is a cross-sectional view showing a pipe connection structure of the air conditioning system according to the present invention.

8 and 9 are cross-sectional views for explaining the connection process in the piping connection structure of the air conditioning system according to the present invention.

Claims (4)

In the pipe connection structure consisting of the nipple 210 and the flannel 220 screwed to the nipple 210 to connect the first connection portion 60-1 and the second connection portion 60-2 of the air conditioning system piping The nipple 210 has a through hole 217 formed therein, a male thread portion 213 is formed adjacent to the polygonal portion 211 and the polygonal portion 211, and the male screw portion 213 A first inclined portion 215 having an outer diameter reduced toward one end toward an end thereof is formed; The flannel 220 is formed with a polygonal portion 221 on the outside, a female screw portion 223 is screwed to the male screw portion 213 on the inner diameter surface is formed, one side of the female screw portion 223 A second inclined portion 225 having an inner diameter that decreases toward the end is formed, and a gap is formed between the first inclined portion 215 and the inclined portion 225 while being screwed to the nipple 210; The first connecting portion 60-1 is inserted into the through hole 217 of the nipple 210, and is formed at a portion of the end thereof and is positioned between the first inclined portion 215 and the second inclined portion 225. A first expansion pipe portion 61 in contact with the first inclined portion 215 and in contact with the second expansion pipe portion 63 on the other side thereof; The second connecting portion 60-2 is inserted into the flannel 220, and is formed at a portion of the end, and is located between the first inclined portion 215 and the second inclined portion 225, and the first connection portion 60-2 is formed on the one side. And a second expansion pipe (63) in contact with the first expansion pipe (61) and in contact with the second inclined portion (225) on the other side. The first inclined portion 61 is formed to face an inclined direction of the first inclined portion 215 while being pressed when the flan nut 220 is fastened to the nipple 210. Piping connection structure 200 of the air conditioning system, characterized in that in contact with (215). A through hole 217 is formed inward, and a male screw portion 213 is formed adjacent to the polygonal portion 211 and the polygonal portion 211 to the outside, and an outer diameter thereof toward the end toward one end of the male screw portion 213 is formed. A nipple 210 having a decreasing first inclined portion 215 and a female screw portion 223 screwed to the male screw portion 213 are formed on an inner diameter surface thereof, and end to one side of the female screw portion 223. In the method of connecting a pipe provided in the air conditioning system using a flannel (220) screwed to the nipple (210) is formed to form a second inclined portion (225) to decrease the inner diameter; The first slope 60-1 is inserted into the through hole 217 of the nipple 210 by the first connector 60-1 and the second connector 60-2 to be connected to each other. A first expansion pipe portion 61 is formed at the end exposed through 215, a second connection portion 60-2 connected to the first connection portion 60-1 is inserted into a flannel 220, and the female screw An expansion tube forming step of forming a second expansion tube 63 at an end exposed through the portion 223; By screwing the male screw portion 213 and the female screw portion 223, the first expanding portion 61 and the second expanding portion 63 are disposed between the first inclined portion 215 and the second inclined portion 225. Pressurized in the pressure connection step to be provided in the air conditioning system, characterized in that consisting of a pressure tightening step to be located between the first inclined portion (215) and the second inclined portion (225). The plastic deformation step of claim 3, wherein the plastic deformation step is performed between the expansion pipe forming step and the pressure fastening step such that the inclination direction of the first expansion pipe 61 is in the inclination direction of the first inclination part 215. Piping connection method provided in the air conditioning system characterized in that it further comprises.

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