KR101046181B1 - Pipe coupler - Google Patents

Abstract

PURPOSE: A pipe joint is provided to connect synthetic resin conduits, with one end of a synthetic resin conduit connected with another synthetic resin conduit, in advance by using a fastening connection method. CONSTITUTION: A pipe joint comprises a thermal fusing joint part(120), a fastening joint part(130) and a junction part. The thermal fusing joint part is made of polyethylene resin. The thermal fusing joint part is connected to one synthetic resin conduit using a thermal fusing connection method. The fastening joint part is made of polypropylene resin. The fastening joint part is connected another synthetic resin conduit using a fastening connection method. The thermal fusing joint part combines the junction par and the thermal fusing joint part.

Description

Pipe Fittings {PIPE COUPLER}

The present invention relates to a pipe joint pipe, and more particularly, disposed between two synthetic resin pipes to be connected, one end of which is connected to a neighboring synthetic resin pipe by a heat-sealed joint method, and the other end thereof is adjacent to another synthetic resin pipe. It relates to pipe joints which are connected in a tightening manner.

In general, a pipe is used as a means for transporting a fluid such as gas, water, and sewage to a destination, and the pipe is selected according to the type, pressure, temperature and installation location of the fluid to be transported. Should be used.

The pipes described above are divided into metal pipes such as cast iron pipes, steel pipes, copper pipes, lead pipes, and brass pipes, and synthetic resin pipes mainly made of vinyl chloride (PVC), polyethylene (PE; Polyethylene), and polypropylene (PP; Polypropylene). In fact, synthetic resin pipes are widely used in water and sewage pipes instead of metal pipes. Synthetic resin tube has almost no material eluting from the tube itself, there is no fear of corrosion, and has the advantage of low semi-permanent life and low material cost and construction cost, unless artificial damage.

On the other hand, in order to transport the fluid to the destination by using the above-described synthetic resin tube, the length of the synthetic resin tube should be extended. In general, the joint pipe having a tightening joint method is used to extend the length of the synthetic resin pipe for water and sewage.

1 is a view showing a conventional tightening joint pipe. As shown, the conventional fastening type joint pipe 10 is disposed between the two synthetic resin pipes (P1, P2) to be connected and inserted into the inner peripheral surface through the open end and the other end of the synthetic resin pipes (P1, P2) to be connected. It consists of a cylindrical body 12, and a synthetic ring tube (P1, P2) of the ring ring capping cap 14 is screwed on the outer peripheral surface adjacent to one end and the other end of the cylindrical body 12 is inserted. And inside the inner circumferential surface of one end and the other end of the cylindrical body 12, a leak-proof annular rubber seal (rubber seal 16) in close contact with the outer circumferential surface of the synthetic resin pipes (P1, P2) is disposed, the inner circumferential surface of the tightening cap 14 The ring-shaped tightening holder 18 which tightens the synthetic resin pipes P1 and P2 is disposed so that the synthetic resin pipes P1 and P2 do not fall out when the tightening cap 14 is fastened to the cylindrical body 12.

However, the above-mentioned conventional fastening type joint pipe has a problem in that the work time is long due to the connection of the synthetic resin pipe because a pair of fastening caps must be fastened to one end and the other end of the cylindrical body while the synthetic resin pipe is inserted at both ends of the cylindrical body. There was a problem, because the fastening cap is fastened to both ends of the cylindrical body to tighten the synthetic resin tube, there was always a problem that the fastening defects always exist at both ends of the cylindrical body.

The present invention has been made to solve the conventional problems as described above, an object of the present invention is disposed between two synthetic resin tubes to be connected, one end is connected to the adjacent synthetic resin tube in a heat-sealed joint method, The other end can be connected to another neighboring synthetic resin pipe by tightening the joint, and the connection work can be shortened by connecting another synthetic resin pipe by tightening with one end connected to the synthetic resin pipe in advance. In addition, it is to provide a pipe joint pipe that can significantly reduce the tightening defects in half when connecting the resin pipe because the one end is connected by the heat-sealed joint method.

In order to achieve the object of the present invention as described above, the present invention,

In the pipe joint connecting two synthetic pipes,
The pipe joint pipe is made of polyethylene resin and is connected to one of the synthetic resin pipes by a heat-sealed joint method, and is made of polypropylene resin and is also connected to another joint by a joint joint method. And joining means for joining the heat-sealed joint and the tightening joint,
Joining means,
The first joint pipe made of polyethylene resin, the second joint pipe made of polypropylene resin and one end of the first joint pipe closely contact with each other, and the first joint pipe and the second joint pipe may be horizontally connected. It consists of a reinforcement pipe having an outer tube and an inner tube surrounding the outer circumferential surface and the inner circumferential surface of the first joint pipe and the second joint pipe so that,

One end of the outer tube and the inner tube exposes a portion of the first joint pipe, and the other end of the outer tube and the inner tube exposes a portion of the second joint tube, and the first portion wrapped in the reinforcement tube and the reinforcement tube. The joint pipe is melt-bonded to the heat-sealed connector that is inserted into the mold of the heat-sealed connector when the heat-sealed connector is molded, and the remaining reinforcing pipe and the second joint are inserted into the mold of the tightening connector when the tightening connector is formed. To provide a pipe joint that is melt-bonded to a tightening tube that is then molded.

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As described above, the pipe joint pipe according to the present invention is provided to have a heat-sealed joint at one end to have a tightening joint at the other end, the heat-sealed joint is joined to the synthetic resin pipe in the synthetic resin pipe manufacturing process and supplied to the site to the synthetic resin pipe In addition to reducing the construction period and construction costs due to the connection, there is an advantage that can significantly reduce the tightening failure in half when connecting the conventional synthetic resin pipe.

1 is a view showing a conventional fastening joint pipe,
2 is a view showing a pipe fitting according to a first embodiment of the present invention,
3 is a view showing a pipe fitting according to a second embodiment of the present invention,
4 is an enlarged view of the bonding unit illustrated in FIG. 3;
5 is a view showing a pipe fitting according to a third embodiment of the present invention, and
6 is an enlarged perspective view of the bonding unit illustrated in FIG. 5.

Hereinafter, a pipe fitting according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a view showing a pipe fitting according to a first embodiment of the present invention.

2, the pipe fitting pipe 100 according to the first embodiment of the present invention is made of a conventional polyethylene (PE) resin.

Pipe fitting pipe 100 according to the first embodiment of the present invention, the heat-sealed joint 120 and the heat-sealed joint 120 is formed integrally with the fastening joint 130. The heat-sealed joints 120 and the tightening joints 130 are respectively connected to the synthetic resin pipes (P1, P2) to be connected.

Preferably, the heat-sealed joint 120 and the tightening joint 130 is integrally manufactured by insert injection.

The heat fusion joint 120 includes a horizontal fusion splicing tube 122. The inner circumferential surface of the heat fusion connection pipe 122 is inserted into the synthetic resin pipe (P1) to be connected is heat-sealed in a conventional manner.

Meanwhile, the tightening joint 130 is a tubular tightening connector 132 extending horizontally from the other end of the heat-sealing connector 122 to the other end of the heat-sealing connector 122, and the tightening nut 138. It is provided.

An annular rubber seal 134 is disposed on the inner circumferential surface of the tightening pipe 132. Another synthetic resin pipe (P2) to be connected is inserted into the connection connector 132 formed as described above, and the outer circumferential surface of the inserted synthetic resin pipe (P2) is in close contact with the inner circumferential surface of the rubber chamber 134 to maintain airtightness. And a tightening male screw 136 is formed on the outer circumferential surface of the tightening connector 132 to fasten the tightening nut 138.

The tightening nut 138 has a substantially ring shape so that the synthetic resin pipe P2 inserted into the tightening connector 132 can pass therethrough. The tightening female thread 140 is formed on the inner circumferential surface of the fastening nut 138 to be engaged with the tightening male screw 136. The other end of the fastening nut 138 is integrally formed with a tightening pipe 142 extending narrowly to the outside of the other end of the fastening nut 138, and has a ring shape on the inner circumferential surface of the fastening pipe 142 while having a synthetic resin pipe (P2). The tightening holder 144 for crimping is disposed. As shown, the outer circumferential surface of the tightening holder 144 extends narrowly from one end to the other end side.

Briefly describing the state of use of the pipe pipe 100 according to the first embodiment of the present invention formed as described above,

First, one end of the pipe fitting pipe 100 according to the first embodiment of the present invention is connected to one end of the synthetic resin pipes P1 and P2 that have been manufactured in the synthetic resin pipes P1 and P2 manufacturing process.

In order to connect one end of the pipe joint 100 to the synthetic resin pipe P1, that is, the heat fusion joint 120, as can be seen by anyone, a heat fusion connector 122 using a common heat fusion machine (not shown) Melt the outer peripheral surface of the synthetic resin pipe (P1) to be connected to the inner peripheral surface of the. As described above, when melting of the inner circumferential surface of the heat-sealed connection pipe 122 and the outer circumferential surface of the synthetic resin pipe P1 is completed, the synthetic resin pipe P1 is inserted onto the inner circumferential surface of the heat-sealed connection pipe 122. When the synthetic resin pipe (P1) is inserted into the heat-sealed connection pipe 122 in this way, the molten resin is tangled with each other and gradually hardens, thereby connecting the heat-sealed connection pipe 122 and the synthetic resin pipe (P1).

The reason for connecting the heat-sealed joint 120 of the pipe joint 100 according to the first embodiment of the present invention in the manufacturing process of the synthetic resin pipe (P1, P2) is easy in the workplace where water and sewage pipe connection construction is made Since it is not possible to use the electricity supplied to the synthetic resin pipes (P1, P2) in the manufacturing process in advance connect the heat-sealed joint portion 120 of the pipe fitting pipe (100). On the other hand, it will be appreciated by anyone that the heat-sealed joint 120 of the pipe joint 100 according to the first embodiment of the present invention can be directly connected at the work site where the water and sewage pipe connection work is made.

As described above, when any one synthetic resin pipe (P1) is connected to one end of the pipe fitting pipe 100, another synthetic resin pipe (P2) to the other end of the pipe fitting pipe 100, that is, the tightening joint 130 Connect it.

In order to connect another synthetic resin pipe (P2) to the tightening joint 130, loosen the tightening nut 138 fastened to the tightening connector 132 in part to loosen and tighten the synthetic resin pipe (P2) to be connected Insert into the connecting pipe (132) side. The synthetic resin pipe P2 to be inserted passes through the tightening holder 144 and passes through the tightening nut 138, and then is inserted into the inner circumferential surface of the tightening connecting pipe 132 and fitted into the rubber chamber 134. When the synthetic resin pipe (P2) is inserted into the tightening connector 132, the tightening nut 138 is fastened to the tightening connector 132 again to complete the connection of the synthetic resin pipe (P2), the tightening nut ( When the 138 is fastened to the tightening connector 132, the tightening tube 142 compresses the tightening holder 144, whereby the tightening holder 144 is a synthetic resin pipe (P2) inserted into the tightening connector 132 Will be compressed.

The pipe fitting pipe 100 according to the first embodiment of the present invention formed as described above has one end connected to the synthetic resin pipe P1 by a heat-sealed joint method, and the other end connected to another synthetic resin pipe P2 by a fastening joint method. By doing so, it is possible not only to shorten the working time due to the connection of the water and sewage pipes, but also to significantly reduce the fastening failure of the conventional fastening joint method in half.

3 is a view showing a pipe fitting according to a second embodiment of the present invention.

Referring to FIG. 3, the pipe joint pipe 200 according to the second embodiment of the present invention includes the same heat-sealed joint 120 and the tightening joint 130 as in the first embodiment. The heat-sealed joint 120 of the pipe joint tube 200 according to the second embodiment of the present invention is made of ordinary polyethylene (PE) resin as in the first embodiment, and the tightening joint 130 is It is made of ordinary polypropylene (PP; Polypropylene) resin.

Preferably, the pipe fitting pipe 200 according to the second embodiment injection-molded the heat-sealed joint 120, inserts the heat-sealed joint 120 into a mold, and then ejects the tightening joint 130. It is produced by molding.

Meanwhile, the pipe fitting pipe 200 according to the second embodiment of the present invention is made of a heat-sealed joint 120 made of polyethylene (PE) resin that is not bonded to each other and a polypropylene (PP) resin. Joining means 210 for joining the tightened joint 130 is provided.

Figure 4 is an enlarged view showing the bonding means shown in FIG. As shown, the joining means 210 is formed between the heat-sealed joint 120 and the tightening joint 130. To this end, the joining means 210 includes one or more receiving portions 220 formed at the other end of the heat-sealed joint 120 facing one end of the tightening joint 130, and the other end of the heat-sealed joint 120. It is formed of one or more seating portion 230 is formed at one end of the tightening joint 130 facing the receiving portion 220.

The accommodating part 220 includes a receiving groove 222 formed on the other end surface of the heat welding connector 122 so as not to interfere with the inner circumferential surface of the heat welding connector 122. The receiving groove 222 has an annular ring shape and is formed to settle toward one end of the heat fusion connector 122 at the other end of the heat fusion connector 122. One or more first locking grooves 226a and one or more second locking grooves 226b are formed on the inner diameter surface 224a and the outer diameter surface 224b of the receiving groove 222 thus formed. It is formed along the outer diameter surface 224b. As shown, the first locking groove 226a is formed to settle on the inner circumferential surface of the heat-sealing connector 122 at the inner diameter surface 224a, and the second locking groove 226b is the outer diameter surface 224b. Is formed to settle on the outer circumferential surface of the heat-sealed connector (122). The receiving portion 230 is fitted into the receiving portion 220 formed as described above.

The seating unit 230 includes a mounting protrusion 232 formed on one end surface of the tightening connector 132 so as not to interfere with the inner circumferential surface of the tightening connector 132. The seating protrusion 232 is formed to extend outward from the tightening connector 132 at one end of the tightening connector 132 while having an annular ring shape. The seating protrusion 232 formed as described above is accommodated in the receiving groove 222, and the first locking jaw 234a accommodated in the first locking groove 226a is disposed on the inner circumferential surface of the mounting protrusion 232 accommodated in the receiving groove 222. A second locking step 234b is formed along the inner circumferential surface of the mounting protrusion 232, and is accommodated in the second locking groove 226b on the outer circumferential surface of the mounting protrusion 232 along the outer circumferential surface of the mounting protrusion 232.

On the other hand, on the extension surface 226c of the receiving groove 222 in close contact with the extension end surface of the seating protrusion 232 is formed an insertion protrusion 228 accommodated in the extension end surface of the seating protrusion 232, the seating protrusion 232 An insertion groove 236 in which the insertion protrusion 228 is received is formed on an extended end surface of the. Preferably, the O ring 240 is fitted between the receiving groove 222 and the seating protrusion 232 fitted in the receiving groove 222 to maintain airtightness. That is, the seating protrusion 232, the first locking jaw 234a, the second locking jaw 234b, and the insertion groove 236 insert the heat-sealed joint 120 into the mold, and then tighten the joint 130. After attaching another mold for manufacturing to the mold into which the heat-sealed joint 120 is inserted, the molten resin is filled into another mold for manufacturing the tightening joint 130, and the molten resin receives the receiving groove 222. The first locking groove 226a, the second locking groove 226b, and the insertion protrusion 228 are formed to be moved.

The pipe fitting pipe 200 according to the second embodiment of the present invention formed as described above is suitable for the tightening joint 130 because the physical properties of the polypropylene (PP) resin are harder than the polyethylene (PE) resin. . In addition, when the receiving groove 222 and the seating protrusion 232 of the pipe fitting pipe 200 according to the second embodiment of the present invention is maintained at a normal temperature by the pressure applied during injection molding, the temperature is lower than the normal temperature Since the linear expansion coefficient of the accommodating groove 222 made of polyethylene resin is larger than that of the seating protrusion 232 made of polypropylene resin, the shrinkage amount is greater than that of the accommodating groove 222, that is, the grip force is generated. When the binding force is maintained, and conversely, when the temperature rises from room temperature, the seating protrusion 232 made of polypropylene resin is relatively smaller than the linear expansion coefficient of the accommodating groove 222 made of polyethylene resin, thereby expanding the seating protrusion 232. The amount is large so as to be bitten by the receiving groove 222 is maintained a coupling force.

Meanwhile, a method of connecting two synthetic resin pipes P1 and P2 using the pipe joint pipe 200 according to the second embodiment of the present invention is performed in the same manner as the first embodiment.

5 is a view showing a pipe fitting according to a third embodiment of the present invention.

Referring to FIG. 5, the pipe joint pipe 300 according to the third embodiment of the present invention includes the same heat-sealed joint 120 and the tightening joint 130 as the first embodiment of the present invention. The heat-sealed joint portion 120 of the pipe fitting tube 30 according to the third embodiment of the present invention is made of ordinary polyethylene (PE) resin as in the first embodiment, and the tightening joint 130 is It is made of ordinary polypropylene (PP; Polypropylene) resin.

Meanwhile, the pipe fitting pipe 300 according to the third embodiment of the present invention is made of a heat-sealed joint 120 made of polyethylene (PE) resin that is not bonded to each other and a polypropylene (PP) resin. Joining means 310 for joining the tightened joint 130 is provided.

6 is an enlarged perspective view of the bonding unit illustrated in FIG. 5. As shown, the bonding means 310 is disposed between the heat-sealed joint 120 and the tightening joint 130.

The joining means 310 is made of polyethylene (PE) resin and the first joint pipe 312, and made of polypropylene (PP; Polypropylene) resin and the other end of the first joint pipe 312 side by side The second joining pipe 314 is in close contact with each other, and the first joining pipe 312 and the reinforcing pipe body 316 for horizontally connecting the second joining pipe 314.

The reinforcement pipe 316 consists of an external pipe 318 and an internal pipe 320 surrounding the outer circumferential surface and the inner circumferential surface of the first joint pipe 312 and the second joint pipe 314. A portion of the first junction tube 312 is exposed at one end of the outer tube 318 and the inner tube 320, and the second junction tube 314 is at the other end of the outer tube 318 and the inner tube 320. Is part of). Preferably, the reinforcing pipe body 316 composed of the outer tube 318 and the inner tube 320 is made of any one of ordinary metal or ordinary plastic.

As described above, a part of the reinforcing pipe 316 and the first joint pipe 312 wrapped in the reinforcing pipe 316 are inserted into a mold of the heat fusion connecting pipe 122 when the heat fusion connecting pipe 122 is formed. Fastening connector that is melt-bonded to the fusion joint 122, the remaining reinforcement tube 316 and the second joint tube 314 is inserted into the mold of the tightening connector 132 when the joining connector 132 is formed Melt-bonded to 132. That is, a part of the first joining pipe 312 is melt-bonded to the heat-sealed connecting pipe 122 formed by being exposed to the outside of the reinforcing pipe 316 and similarly, a part of the second joining pipe 314 is a reinforcing pipe body ( 316 is melt-bonded to the tightening connecting pipe 132 is exposed to the outside of the 316.

Preferably, the first joining pipe 312 and the second joining pipe 314 are not separated from the outer circumferential surface of the inner joining pipe 320 in close contact with the inner circumferential surfaces of the first joining pipe 312 and the second joining pipe 314. At least one locking jaw 322a is formed, and at least one locking groove 322b into which the locking jaw 322a is inserted is formed on the inner circumferential surfaces of the first bonding pipe 312 and the second bonding pipe 314. One or more O-rings 324 are fitted between the 322a and the locking groove 322b for confidentiality.

More preferably, a plurality of first joining holes 326 may be attached to the outer circumferential pipe 318 adjacent to the first joining pipe 312 so that the first joining pipe 312 and the heat-sealed connector 122 formed thereon may be joined. Are formed to penetrate through the plurality of second joining holes such that the outer joining pipe 318 adjacent to the second joining pipe 314 may be joined to the second joining pipe 314 and the tightening connecting pipe 132 to be molded. 328 are formed to penetrate.

On the other hand, any one of the heat-sealing connector 122 and the tightening connector 132 is peeled off on the joint surface of the heat-sealed connector 122 and the tightening connector 132 joined by the reinforcement pipe 316. Fitting grooves 330a and fitting protrusions 330b are formed to be fitted to each other so as to be prevented.

The pipe fitting pipe 300 according to the third embodiment of the present invention formed as described above is suitable for the tightening joint 130 because the physical properties of the polypropylene (PP) resin are harder than the polyethylene (PE) resin. . In addition, the heat-sealing connector 122 made of polyethylene resin and the first joint pipe 312 is melt-bonded, the tightening connector 132 and the second joint pipe 314 made of polypropylene resin is melt-bonded Therefore, it is possible to maintain the coupling force of the heat-sealing connector 122 and the tightening connector (132).

Meanwhile, the method of connecting two synthetic resin pipes P1 and P2 using the pipe joint pipe 300 according to the third embodiment of the present invention is performed in the same manner as in the first embodiment.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art can be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims You will understand.

100, 200, 300: pipe joint 120: heat-sealed joint
130: tightening joint 210, 310: joining means

Claims (13)

In the pipe joint connecting two synthetic pipes,
The pipe joint pipe is made of polyethylene resin and is connected to any one of the synthetic resin pipe and the heat-sealed joint method, and the heat-sealed joint portion is made of polypropylene resin, and connected to the other joint pipe joint method Has a tightening joint, and joining means for joining the heat-sealed joint with the tightening joint,
The joining means,
The first joining pipe made of polyethylene resin, the second joining pipe made of polypropylene resin and one end of the first joining pipe are in close contact with each other side by side, and the first joining pipe and the second joining pipe It consists of a reinforcing pipe having an outer tube and an inner tube surrounding the outer and inner peripheral surfaces of the first and second joint pipes so as to be connected horizontally,
A portion of the first junction tube is exposed to one end of the outer tube and the inner tube, and a portion of the second junction tube is exposed to the other end of the outer tube and the inner tube, and a portion of the reinforcement tube The first joining pipe wrapped in the reinforcing pipe body is melt-bonded to the heat-sealing connecting pipe which is inserted into a mold of the heat-sealing connecting pipe and formed when the heat-sealing connecting pipe is formed, and the remaining reinforcing pipe and the second joining pipe are formed. The pipe joint pipe is characterized in that the melt-bonded to the tightening connector that is inserted into the mold of the tightening connector when forming the tightening connector. The method of claim 1, wherein the heat-sealed joint is provided with a heat-sealing tube of a horizontal tubular shape,
The tightening joint portion, which extends horizontally from the other end of the heat-sealed connector to the other end of the heat-sealed connector, the rubber seal is disposed on the inner peripheral surface and the tightening connector tube is formed on the outer peripheral surface, and the inner peripheral surface on the inner peripheral surface A fastening female screw is formed to be engaged with the fastening male screw and has a fastening nut fastened to the fastening connector;
The other end of the tightening nut is integrally formed with a tightening tube which is narrowly extended to the other end of the tightening nut, and a tightening holder for pressing the synthetic resin tube while having a ring shape is disposed on an inner circumferential surface of the tightening tube, and the tightening holder The outer peripheral surface of the pipe fittings, characterized in that extending from one end to the other side. delete delete delete delete delete delete delete According to claim 1, At least one locking jaw is formed on the outer circumferential surface of the inner contact tube in close contact with the inner circumferential surface of the first joining pipe and the second joining pipe, On the inner circumferential surface of the first joining pipe and the second joining pipe Pipe fittings characterized in that at least one locking groove is formed is inserted into the locking jaw. The pipe fitting pipe of claim 10, wherein one or more O-rings are fitted between the locking jaws and the locking grooves for airtightness. The method of claim 1, wherein the outer circumference adjacent to the first fusion pipe is formed such that a plurality of first fusion holes are formed to penetrate the first fusion pipe and the heat-sealed connection pipe formed therein, and the second And a plurality of second joining holes are formed in the circumferential pipe adjacent to the joining pipe so that the second joining pipe and the tightening connecting pipe formed therein can be joined. The fitting groove and the fitting protrusion of claim 1, wherein the fitting grooves and the fitting protrusions are fitted to each other to prevent any one of the heat-sealing connector tube and the tightening connector tube from being peeled off on the joint surface of the heat-sealing connector tube and the tightening connector tube. Pipe fittings characterized in that the formation.

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