KR20100000913U - Device for connecting pipes of the air conditioner - Google Patents

Abstract

The present invention can be used to replace the aluminum tube by replacing the copper tube in the refrigerant circulating tube connector prepared for the use of the copper tube as a refrigerant circulation tube installed for the circulation of the air conditioner refrigerant, such as between the indoor unit and the outdoor unit of the air conditioner. It relates to a refrigerant circulation pipe connecting device for an air conditioner. The refrigerant circulation pipe connecting device for an air conditioner according to the present invention has a connection type switching nut manufactured separately in addition to the flare nut in order to connect the refrigerant circulation pipe to the inclined outer end of the refrigerant circulation tube connector without being expanded. It is included as a major component.

Air conditioner, refrigerant circulation tube, aluminum tube, connection nut, flare nut

Description

Device for connecting pipes of the air conditioner

The present invention relates to a refrigerant circulation pipe connecting device for an air conditioner, and more particularly, a refrigerant circulation pipe manufactured in preparation for the use of a copper pipe as a refrigerant circulation pipe installed for circulation of an air conditioner refrigerant, such as between an indoor unit and an outdoor unit of an air conditioner. The present invention relates to a refrigerant circulation pipe connecting device for an air conditioner, in which a copper pipe is replaced with a connector so that the use of an aluminum pipe is compatible.

A unit of a general air conditioner system is divided into an indoor unit and an outdoor unit, and then, in the process of installing the air conditioner system in a building, the indoor unit is connected to the outdoor unit by a refrigerant circulation pipe and a cable, and thus indoor air. It is possible to lower the temperature of the operation.

Meanwhile, a copper pipe commonly called a copper pipe is used as the refrigerant circulation pipe installed between the indoor unit and the outdoor unit of the air conditioner system. These copper pipes (copper pipes) are mainly used for piping of industrial facilities as well as air conditioning systems.

However, in recent years, due to the sharp rise in raw material prices, copper prices, which are classified as precious metals together with gold and silver, have also increased significantly. Efforts to replace copper pipes used for piping of industrial facilities with aluminum pipes have been underway. have. However, there are many problems to replace aluminum tubes with those used as copper tubes for a long time, including refrigerant circulation tubes of air conditioning systems. That is, since the physical and mechanical properties of copper and aluminum are different, there is a need to modify the structure of the existing refrigerant circulation tube connector.

1 is a view showing a structure in which a copper pipe which is a refrigerant circulation tube is connected to an outdoor unit of a conventional air conditioner system. As shown in the drawings, in the conventional air conditioner maker (cooler), the lower one side of the outdoor unit main body 10 has a refrigerant circulation pipe connector 200 which is a separate piping connection for the connection of the copper pipe which is the refrigerant circulation pipe 30 Are assembled. In this case, the conventional refrigerant circulation tube connector 200 is generally provided with a portion where the filling nipple is installed and a portion where the pressure check valve is installed in addition to the portion where the refrigerant circulation tube 30 is connected. In particular, the male thread is formed on the outer circumference of the refrigerant circulation pipe connecting portion 210 to which the copper pipe, which is the refrigerant circulation pipe 30, is screwed so that the flare nut 40 can be screwed on the outer periphery of the refrigerant circulation pipe connecting portion 210. In a predetermined section of the outer end, an inclined surface 220 that is inclined at an angle is formed so that the end of the copper pipe, which is the refrigerant circulation tube 30, may be in surface contact when the flare nut 40 is assembled.

On the other hand, during the installation of the air conditioning system, the installation workers connect the copper pipe, which is the refrigerant circulation pipe 30 to the refrigerant circulation pipe connection portion 210 of the refrigerant circulation pipe connector 200 described above, the flare nut 40 is a refrigerant In the state inserted into the circulation pipe 40, the operation of expanding a predetermined section of the end of the refrigerant circulation pipe 40 made of copper pipe in the form of a horn with a tool such as an expander (not shown) is first required. Thereafter, when the flare nut 40 is screwed into the refrigerant circulation tube connecting portion 210 of the refrigerant circulation tube connector 200, the inward locking jaw 42 provided at the rear of the flare nut 40 is connected to the refrigerant circulation tube ( Pulling the bare tube expansion unit 32 of 30) toward the refrigerant circulation tube connector 200 while the bare tube expansion unit 32 of the copper tube which is the refrigerant circulation tube 30 is the inclined surface 220 of the refrigerant circulation tube connector 200. While being in close contact with the copper pipe which is the refrigerant circulation tube 30 is made.

However, as the price of the copper pipe used as the refrigerant circulation tube of the air conditioner system increases as described above, an attempt has recently been made to replace the copper tube used as the air conditioner refrigerant circulation tube with an aluminum tube. For example, the air conditioner maker is a refrigerant circulation tube that is one of the accessories of the air conditioner system, which is made entirely of aluminum tubes, and separately manufactured pipes in which copper pipes for connecting to outdoor units are connected only to a certain section at both ends of the aluminum tubes. The situation is provided.

As described above, the entire refrigerant circulation tube cannot be used as an aluminum tube, and a copper tube is connected to both ends of the aluminum tube. The reason for the conventional connector assembled as an outdoor unit is to connect the aluminum tube to the aluminum tube. Although it is necessary to expand the ends, aluminum tubes do not have superior physical properties such as malleability and ductility compared to copper tubes.

On the other hand, another problem has arisen in the process of installing an air conditioning system using a refrigerant circulation tube of a type in which copper pipes are connected to both predetermined sections of the aluminum pipe as described above. For example, the difference between the melting point of aluminum (approximately 630 ° C) and the melting point of copper (approximately 1083 ° C), as well as the circular shape of the connecting part, means that aluminum and copper pipes can be It was difficult to perform a direct connection. Therefore, even if an aluminum tube was used as the air conditioner refrigerant circulation tube, only the ready-made products provided by a professional manufacturing body such as an air conditioner maker could be used.

However, if the length of the ready-made refrigerant circulation pipe is much longer than the distance between the indoor unit and the outdoor unit when installing the air conditioner, the surplus portion has to be left as it is, which is disadvantageous in terms of efficiency of the air conditioning system and causes waste of resources. Problems have arisen.

The present invention was devised to solve all the problems related to the conventional air conditioner refrigerant circulation tube as described above, and the copper pipe is used as a refrigerant circulation tube installed for the circulation of the air conditioner refrigerant, such as between the indoor unit and the outdoor unit of the air conditioner. It is an object of the present invention to provide a refrigerant circulation pipe connecting device for an air conditioner, which allows the use of an aluminum pipe to be replaced by replacing a copper pipe with a refrigerant circulation pipe connector such as an outdoor unit manufactured by an air conditioner.

Another object of the present invention is to optimize the installation of the air conditioner system by allowing the work pieces to be cut and connected directly to the required pipe length at the air conditioner installation site even if the refrigerant circulation tube of the air conditioner system is replaced with copper tube to aluminum tube. Not only is it possible to provide a refrigerant circulation pipe connection device for an air conditioner to prevent waste of resources.

Means of the present invention for achieving the above object is made as follows. That is, the present invention has a male screw thread formed on the outer circumference of the refrigerant circulation pipe connecting portion protruding to one side, while the outer end of the refrigerant circulation pipe connecting portion is reduced in diameter from the inside toward the outside. Photo A refrigerant circulation pipe connecting device for an air conditioner that is connected to a refrigerant circulation pipe connector in a straight line without expanding the ends of the refrigerant circulation pipe installed between the indoor unit and the outdoor unit of the air conditioner, and the screw is connected to the refrigerant circulation pipe connecting part. The nut part formed with a female thread on the inner circumference thereof is formed in a predetermined section, while the extension connection part with the male thread formed on the outer circumference of the nut part is integrally formed to extend a predetermined section, but the refrigerant circulation tube is fitted on the inner circumference where the nut part and the extension connection part are bounded. Stopper for limiting the section is formed in the form of an inward protrusion while extending connection In a certain section of the inner end of the outer end of the connection method switching nut formed a non-metallic seal ring mounting portion inclined in a form that the inner diameter gradually decreases from the outside toward the inside; When screwing the connection type switch nut into the refrigerant circulation pipe connection part, it is located between the inclined outer end of the refrigerant circulation pipe connection part and the stopper side of the connection switch switching nut, and at one side corresponding to the inclined surface of the external end of the refrigerant circulation pipe connection part. A metal seal ring made of copper material which is formed in a ring shape gradually decreasing in diameter toward the other side to maintain airtightness between the refrigerant circulation tube connector and the connection mode switching nut; A flare nut which is screwed into the extension connecting portion while a predetermined section of the refrigerant circulation pipe is inserted into the extension connecting portion of the nut for connecting the connection method, and an inner locking jaw is formed on one side of the inner peripheral portion; A ring shape having an inner diameter corresponding to the outer diameter of the refrigerant circulation pipe is formed in a predetermined section corresponding to the inclined surface of the non-metallic seal ring mounting portion of the connection switching nut, thereby connecting the connection switching nut, the refrigerant circulation pipe and the flare nut. Non-metallic seal rings made of synthetic resin to maintain hermeticity; It has an inner diameter corresponding to the outer diameter of the refrigerant circulation tube, and in the middle, it has a ring shape with a gap formed therein, and the inner circumference thereof is in contact with the inward locking jaw of the flare nut when screwing the connection type switching nut and the flare nut. A grip ring for fixing a refrigerant circulation pipe by surrounding an outer circumference of the refrigerant circulation pipe; And an auxiliary ring positioned between the non-metallic seal ring and the grip ring in a ring shape having an inner diameter corresponding to the outer diameter of the refrigerant circulation tube. The configuration is made, including.

In addition, in the refrigerant circulation pipe connecting device for an air conditioner according to the present invention, the inner circumference of the grip ring is inclined from one side toward the other side, and the surface contacting the outer circumference of the refrigerant circulation pipe may be formed in a pointed structure.

In particular, in the refrigerant circulation pipe connecting device for an air conditioner according to the present invention, the refrigerant circulation pipe may be made of an aluminum tube.

The present invention is made in preparation for copper pipe to be used as a refrigerant circulation plate that is piped between the indoor unit and the outdoor unit of the air conditioner, and the aluminum tube as the refrigerant circulation tube without changing the structure of the refrigerant circulation tube connector attached to the outdoor unit, etc. There is an advantage that can be applied.

The present invention has an advantage that the length of the aluminum tube can be easily adjusted according to the distance between the indoor unit and the outdoor unit in the air conditioner installation site even if the aluminum tube is used as the refrigerant circulation tube of the air conditioning system.

The refrigerant circulation pipe connecting device for the air conditioner according to the present invention may use a copper pipe as well as an aluminum pipe as the refrigerant circulation pipe. There is an advantage that can be achieved.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment according to the structure and installation of the refrigerant circulation pipe connection device for an air conditioner according to the present invention will be described.

2 is a view showing a state in which the refrigerant circulation pipe connecting device for the air conditioner according to the present invention is installed, Figure 3 is a perspective view showing a state before the refrigerant circulation pipe connecting device for the air conditioner according to the present invention, Figure 4a to Figure 4c is a view showing the assembly process of the refrigerant circulation pipe connecting device for an air conditioner according to the present invention, Figure 5 is a view showing another embodiment of a grip ring according to the present invention. Reference numeral 100 displayed in the drawing indicates a refrigerant circulation pipe connecting device for an air conditioner according to the present invention, and some of the reference numerals may be referred to as used in the description of the prior art.

Refrigerant circulation pipe connecting device 100 for an air conditioner according to the present invention is installed in the process of piping the refrigerant circulation pipe between the indoor unit and the outdoor unit of the air conditioning system, the refrigerant produced separately on one side of the indoor unit or outdoor unit of the air conditioning system It is assumed that the circulation pipe connector 200 is attached. In particular, the refrigerant circulation pipe connecting device 100 for an air conditioner according to the present invention, the main purpose of using an aluminum pipe to replace the copper pipe as the refrigerant circulation pipe 300, the end of the refrigerant circulation pipe 300 is connected The refrigerant circulation pipe connector 200 attached to the indoor unit or the outdoor unit of the air conditioner system is assumed to be used as it is. In other words, when connecting a copper pipe which is a refrigerant circulation pipe as described in the prior art, the refrigerant circulation pipe connecting device for an air conditioner according to the present invention is connected to the refrigerant circulation pipe connector that is screwed with a flare nut after expansion of one end of the copper pipe. 100 is applied.

The refrigerant circulation pipe connecting device 100 for an air conditioner according to the present invention is for connecting the refrigerant circulation pipe 300 to the refrigerant circulation pipe connector 200 attached to the indoor unit or the outdoor unit of the air conditioner system as described above. A male thread 212 is formed on the outer circumference of the refrigerant circulation pipe connecting portion 210 provided at one side of the pipe connector 200, while the outer end portion of the refrigerant circulation pipe connecting portion 210 has a outer diameter from the inside to the outside in a predetermined section. Inclined inclined surface 220 is formed in this decreasing form. On the other hand, the end of the refrigerant circulation pipe 300 connected to the refrigerant circulation pipe connector 200 by the refrigerant circulation pipe connection device 100 for air conditioner according to the present invention is a premise that does not need a separate pipe work do.

Refrigerant circulation pipe connecting device 100 for an air conditioner according to the present invention is connected to the inclined outer end of the refrigerant circulation pipe connector 200 in an intuition form without the operation of expanding the refrigerant circulation pipe 300 as described above. In addition to the flare nut 130 is included as a main component for the nut (110) for the conversion of the connection method manufactured separately. Connection method switching nut 110 according to the present invention, as shown in the figure, the body of one side based on the middle portion can be screwed to the male thread 212 of the refrigerant circulation pipe connecting portion 210 on its inner circumference. The nut portion 112 having a female thread formed therein is formed on the outer side of the nut portion 112, and an extension connection portion 114 having a male thread formed on an outer circumference thereof to be screwed with the flare nut 130 is formed in a predetermined section.

In particular, on the inner circumference of the connection method switching nut 110 divided into the above-described nut part 112 and the extended connection part 114, that is, the inner circumference of the nut part 112 and the extended connection part 114. The stopper 116 is formed to protrude inwardly so that the degree to which the refrigerant circulation pipe 300 is inserted is limited. At this time, one side of the stopper 116 in the direction toward the nut 112 has a structure inclined at an inclination angle corresponding to the inclined surface 220 inclined to the outer end of the refrigerant circulation tube connector 200 described above. In addition, one side of the stopper 116 in the direction toward the extension connection 114 is also pushed into the end portion of the refrigerant circulation pipe in the process of screwing the play nut 130 in the state in which the refrigerant circulation pipe 300 is fitted. It is made of an inclined structure so that it can be closely connected.

And the inner periphery of the outer end of the extension connecting portion 114 of the connection method switching nut 110 is formed inclined section in the form of the inner diameter gradually decreases from the outside toward the inside. This inclined section is a non-metal seal ring mounting portion 118 for mounting the non-metal seal ring 140 to be installed later.

The nut part 112 of the above-described connection method switching nut 110 is screwed to the refrigerant circulation pipe connecting portion 210 of the refrigerant circulation pipe connector 200 attached to the indoor unit or the outdoor unit of the air conditioner system. A metal seal ring 120 is interposed between the inclined outer end of the circulation pipe connecting portion 210 and one side inclined surface of the stopper 116 so that both members can be more closely assembled. The metal seal ring 120 is preferably made of a copper material, as shown in the figure corresponding to the inclined surface 220 of the outer end of the refrigerant circulation pipe connecting portion 210 is reduced in diameter from one side toward the other side It is made of a ring shape having an inclination angle of the shape.

And the flare nut 130 is assembled to the extension connecting portion 114 of the above-described connection method switching nut 110 in a state in which a predetermined section of the refrigerant circulation pipe 300 is inserted into the inner diameter side thereof. The inner thread of the flare nut 130 is formed with a female thread for screwing to the above-described extension connection 114, the inner diameter of the inward locking step 132 of the diameter corresponding to the outer diameter of the refrigerant circulation pipe 300 Is formed.

On the other hand, when the flare nut 130 is screwed to the extension connecting portion 114 of the above-described connection method switching nut 110, the space between the non-metallic seal ring mounting portion 118 and the inward locking step 132 described above That is, the non-metallic seal ring 140, the auxiliary ring 160, and the grip ring 150 are sequentially located on the outer circumference of the refrigerant circulation pipe 300.

First, the non-metallic seal ring 140 is made of a synthetic resin material such as Teflon, to maintain the airtightness between the connection method switching nut 110, flare nut 130 and the refrigerant circulation pipe (300). To this end, the non-metallic seal ring 140 is made of a ring shape having an inner diameter corresponding to the outer diameter of the refrigerant circulation pipe 300, the non-metallic material of the above-described connection method switching nut 110 in one of its sections An inclined inclined surface 142 is formed corresponding to the seal ring mounting portion 118.

In addition, the grip ring 150 presses the outer circumference of the refrigerant circulation pipe 300 while its inner diameter is reduced in the process of screwing the flare nut 130 to the extension connection part 114 of the connection method switching nut 110. It is to bite. The overall inner diameter of the grip ring 150 is made of a ring-shaped metal material having a size corresponding to the outer diameter of the refrigerant circulation pipe 300, and the diameter of the grip ring 150 can be reduced as the gaps 152 are formed. Will be done. On the other hand, the inner circumference of the grip ring 152 is inclined from one side toward the other side in order to more effectively bite the outer circumference of the refrigerant circulation pipe 300 is made of a pointed structure as shown in the figure to contact the refrigerant circulation pipe . 5 is a view showing a state in which another embodiment of the grip ring 150 is applied, the cross-sectional shape in the middle may be formed in a substantially triangular shape.

The auxiliary ring 160 is positioned between the non-metallic seal ring 140 and the grip ring 150 to allow the non-metallic seal ring 140 and the grip ring 150 to perform their respective functions. , A ring shape having an inner diameter corresponding to the outer diameter of the refrigerant circulation pipe 300.

In particular, the refrigerant circulation pipe connecting device 100 for an air conditioner according to the present invention is designed to be mainly applied to the aluminum tube as the refrigerant circulation pipe 300, but as the refrigerant circulation pipe 300, copper pipes are used as in the conventional case. It may be.

Hereinafter, a process of assembling each component of the refrigerant circulation pipe connecting device 100 for an air conditioner configured as described above and installing the refrigerant circulation pipe 300 will be described.

First, as shown in FIG. 4A, the worker screws the nut 110 for connecting the connection method to the refrigerant circulation tube connecting portion 210 of the refrigerant circulation tube connector 200 to the flared nut 130. The end is formed such that the inclined surface is formed on the inner circumference, rather than the inclined surface on the outer circumference.

Next, the operator puts the flare nut 130, the grip ring 150, the auxiliary ring 160 and the non-metallic seal ring 140 in sequence in the end portion of the refrigerant circulation tube 300, in Figure 4b As shown in the drawing, the end of the refrigerant circulation pipe 300 is inserted to a position that is caught by the stopper 116 provided on the inner circumference of the connection method switching nut 110.

Afterwards, the worker screws the flare nut 130 to the extension connection part 114 of the connection method switching nut 110. In this process, the grip ring 150 is reduced in diameter by the gap 152. While the outer circumference of the refrigerant circulation tube 300 is tightly held, the non-metal seal ring 140 is in close contact with the non-metal seal ring mounting portion 118 while switching the connection method of the nut 110, the flare nut 130, and the like. The airtightness between the refrigerant circulation tubes 300 is maintained.

In particular, the refrigerant circulation pipe connection device 100 for an air conditioner according to the present invention, when the aluminum tube is applied to the refrigerant circulation pipe 300, the connection can be made relatively simple. For example, since the end of the refrigerant circulation pipe 300 is assembled in the form of an unexpanded straight tube, not only a tool according to the expansion pipe is required but also a working time can be shortened. In addition, it is not necessary to leave the excess section by using the aluminum tube made of a ready-made product, it is possible to improve the efficiency of the air conditioning system and reduce waste of resources.

1 is a view for explaining a conventional technology.

Figure 2 is a view showing a state in which the refrigerant circulation pipe connecting device for the air conditioner according to the present invention is installed.

Figure 3 is a perspective view showing a state before assembling the refrigerant circulation pipe connection device for an air conditioner according to the present invention.

4a to 4c is a view showing the assembly process of the refrigerant circulation pipe connecting device for an air conditioner according to the present invention.

5 is a view showing another embodiment of a grip ring according to the present invention.

[Description of Code for Major Parts of Drawing]

100. Refrigerant circulation pipe connecting device for air conditioner

110. Nut for switching connection type 112. Nut part

114. Extension connection 116. Stopper

118. Non-metallic seal work attachment 120. Metallic seal ring

130. Flare nut 132. Inward locking jaw

140. Non-metallic seal ring 150. Grip ring

152.Gap 160.Secondary Ring

Claims (3)

A male screw thread is formed on the outer circumference of the refrigerant circulation pipe connecting portion protruding to one side, while the outer end of the refrigerant circulation pipe connecting portion is inclined in a shape that decreases in diameter from the inside toward the outside. In the refrigerant circulation pipe connecting device for an air conditioner for connecting in an intuition form without expanding the end of the refrigerant circulation pipe installed between the indoor unit and the outdoor unit of the air conditioner, The nut portion formed with a female thread on the inner circumference thereof is screwed into the refrigerant circulation pipe connecting portion, and a predetermined portion of the nut is formed on the outer circumference of the nut portion. On the inner circumference, a stopper for restricting the section into which the refrigerant circulation tube is fitted is formed in a shape projecting inwardly, while the inner diameter gradually slopes from the outer side to the inner side in a certain section of the inner circumference of the outer end of the extension connecting portion. Connection type switching nut formed with a non-metal seal ring mounting portion; When screwing the connection mode switching nut to the refrigerant circulation pipe connecting portion is inclined surface between the inclined outer end of the refrigerant circulation pipe connecting portion and the stopper side of the stopper of the connection method switching nut, the inclined surface of the refrigerant circulation pipe connecting outer end Correspondingly, the metal seal ring made of copper material to maintain the airtightness between the refrigerant circulation tube connector and the connection mode switching nut is gradually reduced in diameter from one side toward the other side; A flare nut which is screwed into the extension connecting portion while a predetermined section of the refrigerant circulation pipe is inserted into the extension connecting portion of the connection switch for the nut; A ring shape having an inner diameter corresponding to the outer diameter of the refrigerant circulation pipe is formed in a predetermined section corresponding to the inclined surface of the non-metallic seal ring mounting portion of the connection method switching nut, so that the connection method switching nut, the refrigerant circulation pipe and the flare are formed. A non-metallic seal ring made of synthetic resin to maintain airtightness between the nuts; It has an inner diameter corresponding to the outer diameter of the refrigerant circulation tube, and in the middle, a ring shape is formed with a gap, so that one side of the flare nut is in contact with the inward locking jaw when the connection nut and the flare nut are screwed together. A grip ring whose inner circumference bites the outer circumference of the refrigerant circulation tube to fix the refrigerant circulation tube; And An auxiliary ring positioned between the non-metallic seal ring and the grip ring in a ring shape having an inner diameter corresponding to an outer diameter of the refrigerant circulation tube; Refrigerant circulation pipe connection device for an air conditioner comprising a. The method of claim 1, The inner circumference of the grip ring is inclined toward the other side from one side, the surface contacting the outer circumference of the refrigerant circulation pipe is a refrigerant circulation pipe connecting device for air conditioning, characterized in that formed in a pointed structure. The method according to claim 1 or 2, The refrigerant circulation pipe is a refrigerant circulation pipe connecting device for the air conditioner, characterized in that the aluminum tube.

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