KR102063912B1 - End part connector of CPVC piping for groove joint coupling, and Wall-penetration type earthquake piping structure using the same - Google Patents

Abstract

The present invention relates to an end connector of a CPVC pipe for connecting a groove joint and a wall penetration type seismic pipe structure using the same. More specifically, a metal buried pipe passing through an installation hole formed in a wall through a groove joint and a CPVC material The present invention relates to an end connector of a CPVC pipe for connecting a groove joint and a wall through-type seismic pipe structure using the same, to form a separation joint state in which improved fluidity is secured between inner pipes of the pipe.

Description

End part connector of CPVC piping for groove joint coupling, and Wall-penetration type earthquake piping structure using the same}

The present invention relates to an end connector of a CPVC pipe for connecting a groove joint and a wall penetration type seismic pipe structure using the same. More specifically, a metal buried pipe passing through an installation hole formed in a wall through a groove joint and a CPVC material The present invention relates to an end connector of a CPVC pipe for connecting a groove joint and a wall through-type seismic pipe structure using the same, to form a separation joint state in which improved fluidity is secured between inner pipes of the pipe.

As is well known, a groove joint is a longitudinal groove of two pipes aligned using a groove joint after a groove is processed at a joint end of the pipe using a grooving machine.

The groove joint has a ring gasket for sealing between two pipes to prevent leakage and a ring gasket therein, and both ends are fastened to grooves formed at the joint end of the pipe to connect two pipes to each other. And joint coupling in the longitudinal direction.

On the other hand, the building is formed in the pipe structure is configured to discharge the sewage, etc. to the outside, when the building shakes when the earthquake occurs, the pipes constituting the pipe assembly is shaken individually.

In particular, the piping structure formed by passing the pipe through the wall formed between the outside space of the household and the inside space of the household passes through the external pipe formed in the external space of the household, the internal pipe formed in the internal space of the household, and the installation hole formed in the wall. It includes a landfill pipe jointed between the outer pipe and the inner pipe.

In addition, the buried pipe and the external pipe are made of a metal material capable of plastic deformation, and by forming a groove integrally formed with a groove to which the joint coupling of the groove joint is bonded by plastically processing the joint end through a groove machine. The buried pipe and the external pipe are joined together by forming a separate joint structure through the groove joint.

By the way, the inner pipe is connected to the buried pipe made of the metal material is made of CPVC material, unlike the buried pipe made of the metal material is difficult to plastic processing of the joint end portion (groove machine) through the groove (Grooving machine).

In addition, since the length is made through the extrusion molding is cut to the length required in the field construction, forming a groove for connecting the groove joint at the inner end of the buried pipe and the joint end of the inner pipe requiring the joint is formed. It is difficult in reality.

Of course, it is possible to form grooves at the joint ends by injection molding the inner pipe to a unit length, but this is not a fundamental solution in terms of productivity and construction characteristics of the pipe construction that is cut and constructed to suit the site situation in the field.

Therefore, the conventional wall through-type seismic piping structure is formed between the external pipe and the buried pipe is formed in the separation joint structure is possible to flow during the earthquake, but the separation pipe between the buried pipe and the inner pipe made of CPVC material is not implemented, When an earthquake occurs, independent flow between the landfill pipe and the internal pipe is difficult, which may cause damage to the landfill pipe or damage to the internal pipe.

Therefore, in the art, by increasing the diameter of the installation hole formed in the wall, the landfill pipe disposed in the installation hole is configured to flow, thereby minimizing damage to the landfill pipe and the internal pipe.

KR 10-2010-01333393 A KR 20-0213625 Y1 KR 10-2018-0020692 A

An object of the present invention devised to solve the above problems is to secure the fluidity between the buried pipe passing through the installation hole formed in the wall and the internal pipe of CPVC (PVC) material which is connected to the inner end of the buried pipe By securing a separate separation joint,

End connector of the CPVC pipe for connecting the grooved joint to prevent damage to the buried pipe and the inner pipe while minimizing the diameter of the mounting hole formed in the wall and the buried pipe passing through the installation hole and the installation hole, and It is to provide a wall through-type seismic piping structure used.

The above object is achieved by the following configuration provided in the present invention.

End connector of the CPVC pipe for groove joint connection according to the invention,

A groove head having a groove formed on the outer diameter of the groove to which the groove joint is coupled, and a groove head formed integrally with a joint pipe part communicating with the groove pipe;
A pipe socket part in which a joint end part of the CPVC pipe enters and is joined, and a head socket part integrally formed by entering a joint pipe part of the groove head and joined,
The groove head is made of a metal molded body, which is joined by metal pipes and groove joints, and the socket pipe body which is assembled with the CPVC pipe by assembling the groove head is made of CPVC material, and is made of CPVC pipe and socket inserted into the pipe socket part. The tubular body is characterized in that the joint is bonded through the CPVC pipe and CPVC adhesive.

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More preferably, a fastening portion is formed to correspond to the inner diameter of the sooth socket portion constituting the socket tube and the outer diameter of the joint tube portion of the groove tube portion inserted into the head socket portion, and the joint portion of the groove tube portion is a nipple of the socket tube body. It is configured to be assembled by fastening to the socket portion, or the socket tube is injection molded by inserting the head of the head, it is configured to be formed by insert injection part of the groove head in the head of the head socket.

On the other hand, the wall through-type seismic piping structure according to the present invention,

An external pipe of a metal material formed in the external space of the household; An internal pipe of CPVC material formed in the internal space of the household; And it is installed through the installation hole of the wall partitioning the space between the household interior space and the household exterior space, one end is connected to the joint end of the external pipe, the other end is connected to the household internal pipe, and includes a metal buried pipe,
A separation joint structure including a groove joint is formed between an inner joint end of the buried pipe and a joint end of the inner pipe.
A groove is integrally formed at the inner joint end of the buried pipe made of the metal material, and an end connector of the CPVC pipe for connecting the groove joint according to claim 1 is assembled at the joint end of the inner pipe made of the CPVC material.
The groove joint is coupled to the groove formed in the groove pipe portion of the groove joint connector for the CPVC pipe connected to the groove formed in the inner joint end of the buried pipe and the inner end of the inner pipe.

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As described above, in the present invention, it is easily installed on the joint end of the inner pipe made of CPVC material, seismic connecting the joint end of the buried pipe made of metal material and the inner pipe made of CPVC material with a separate joint structure through the groove joint An end connector of a CPVC pipe for groove joint connection used in a pipe structure is proposed.

In this way, the end connector of the CPVC pipe for connecting the groove joint is easily assembled at the joint end of the inner pipe, and when the buried pipe made of metal material and the connecting pipe made of CPVC material are separated by a joint structure, the wall is joined. Fluidity is secured between the buried pipe passing through the installation hole formed in the inner pipe and the inner pipe assembled to the inner joint end of the buried pipe, and consequently, the diameter of the installation hole formed in the wall and the embedded pipe passing through the installation hole and the installation hole. It is possible to minimize the enclosed space in between.

Therefore, when the separation joint structure is formed between the buried pipe and the inner pipe, even if the inner pipe of CPVC material connected to the buried pipe flows during an earthquake, the phenomenon of separation or damage between the buried pipe and the inner pipe is prevented, and the wall Since the buried pipe passing through the installation hole flows excessively in the installation hole to prevent the interference with the inner wall of the installation hole, interference between the landfill pipe and the inner wall of the installation hole is suppressed even when the installation hole having the minimum diameter is formed. Can be.

When the separation joint structure is formed in this way, even if the inner pipe made of CPVC material connected to the buried pipe flows during the earthquake, the separation between the buried pipe and the inner pipe is prevented or damaged, and the buried pipe that penetrates the installation hole of the wall Since excessive phenomenon in the installation hole is prevented from interfering with the inner wall of the installation hole, even if the installation hole having a minimum diameter is formed, the interference between the buried pipe and the installation hole inner wall can be suppressed.

Figure 1 shows the overall configuration of the wall-through seismic piping structure proposed as a preferred embodiment in the present invention,
2 and 3 show the end connector of the CPVC pipe for connecting the groove joint proposed in the first embodiment of the present invention,
Figure 4 shows the end connector of the CPVC pipe for groove joint connection proposed in the second embodiment of the present invention,
5 to 7 shows the state of the separation joint between the buried pipe and the inner pipe by applying the end connector of the CPVC pipe for groove joint connection according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the end connector of the CPVC pipe for groove joint connection and wall through-type seismic pipe structure using the same proposed in the present invention in detail.

Figure 1 shows the overall configuration of the wall-through seismic piping structure proposed as a preferred embodiment in the present invention, Figures 2 and 3 of the CPVC pipe for groove joint connection proposed as a first embodiment in the present invention 4 shows an end connector, and FIG. 4 shows an end connector of a CPVC pipe for connecting a groove joint proposed in the second embodiment of the present invention, and FIGS. 5 to 7 show a CPVC pipe for connecting a groove joint according to the present invention. By applying end connectors, it shows the state of separation of the buried pipe and the inner pipe.

The seismic piping structure 1, in which the end connector 100 of the CPVC pipe for groove joint connection according to the present invention is installed, includes an internal pipe 20 made of CPVC material formed in an interior space of a household, as shown in FIG. It penetrates the installation hole (H) of the wall (W) partitioning between the household interior space and the household exterior space and is disposed between the household exterior space and the household interior space, and is internal to the inner joint end 32 exposed to the household interior space. It includes a metal buried pipe 30 to connect the joint end 21 of the pipe 20.

The outer pipe end 31 of the buried pipe 30 is connected to the outer pipe 10 made of metal, so that the outer pipe 10 and the inner pipe 20 are embedded in the buried pipe 30 through the wall. By mutual communication.

The buried pipe 30 and the outer pipe 10 is composed of a metal pipe capable of plastic processing of the joint ends (11, 31, 32) through post-processing grooves (Grooving) in each joint end (11, 31, 32) The grooves 11a, 31a, 32a are formed through the machine.

Therefore, the outer end portion 31 of the buried pipe 30 exposed to the outside space of the generation is connected to the outer end portion 11 of the outer pipe 10 of the metal material through the groove joint 200 to connect the outer pipe 10. ) And the buried pipe 30 form a mutually separated joint structure.

The groove joint 200 connecting between the pipes requiring the seam in a separate seam structure includes a pair of joint couplings 210A for dividing the joint ends of the pipes facing each other, as shown in FIGS. 5 to 7. 210B); A ring gasket (220) disposed on an inner wall of the joint coupling (210A, 210B) to elastically wrap and seal a joint portion of the pipe by the joint coupling (210A, 210B); And a compression bolt 230 for fixing the joint couplings 210A and 210B surrounding the joint end of the pipe.

Adhesion rims 211 are formed on both sides of the joint couplings 210A and 210B to adhere grooves formed at the joint ends of the pipes, and ring gaskets 220 are provided between the adhesion rims 211. A crimping space portion 212 for storing is formed.

The buried pipe 30 and the external pipe 10 according to the present embodiment are made of a metal material that can be molded through a groove machine, and the grooved joints are plasticized by processing the end portions 11, 31, and 32. By integrally forming the grooves 11a, 31a, and 32a to which the joint couplings 210A and 210B of the 200 are attached, the buried pipe 30 and the outer pipe 10 are separated by the groove joint 200. It forms a structure and is joined together.

By the way, the inner pipe 20 is joined to the inner joint end 32 of the buried pipe 20 made of a metal material, unlike the buried pipe 30 made of a metal material is made of CPVC material and the joint end (through the post processing) ( Plastic working of 21) is difficult.

In addition, since the length is made through the extrusion molding to be constructed by cutting the length required in the field, the inner end portion 32 of the buried pipe 30 and the joint end portion 21 of the inner pipe 20 requiring the joint. It is practically difficult to form a groove for the connection of the groove joint 200 to the.

Of course, it is possible to form grooves at the end portions 21 by injection molding the inner pipe 20 in unit lengths through CPVC, but this is because of the construction characteristics of the pipe construction that is cut and constructed to suit the situation in the field and productivity. It is not a fundamental solution.

In order to solve this problem, in the present invention, the inner end portion 32 and the inner pipe of the buried pipe 30 are easily assembled to the joint end portion 21 of the inner pipe 20 made of CPVC material through the groove joint 200. An end connector 100 of a CPVC pipe for connecting a groove joint to implement the connection of the joint end 21 of the joint 20 to a separate joint structure is proposed, which is intended as a technical feature of the present invention.

The end connector 100 of the CPVC pipe for groove joint connection according to the present embodiment includes groove grooves 111 having grooves 111a formed on outer diameter surfaces thereof, as shown in FIGS. 2 to 4, and groove grooves 111. Groove head 110 is formed integrally with the joint pipe portion 112 in communication with; A pipe socket 121 to be joined by entering the joint end 21 of the inner pipe 20 and a head socket part 122 to be joined by entering the joint pipe part 112 of the groove head 110 are integrally formed. It includes a socket body 120.

According to the present embodiment, the groove head 100 is composed of a metal molded product such as brass, cast iron, etc., formed by casting, cutting, or die casting, and the groove head 110 by assembling the inner pipe 20. The socket pipe body 120 to the joint end portion 21 of the inner pipe 20 is made of the same CPVC material.

In the first embodiment of the present invention, as shown in Figs. 2 and 3, the inner diameter of the head socket portion 122 constituting the socket tube 120, and the groove head 110 inserted into the head head socket portion 122. Fastening parts 122a and 112a are formed to correspond to the outer diameter of the joint pipe part 112 of the joint, and the joint pipe part 110 of the head of the groove 110 is fastened in the head socket part 122 of the socket pipe body 120. Configure to assemble through.

In the second embodiment of the present invention, as shown in Fig. 4, the socket pipe body 120 is a groove in which the groove head 110 inserted by injection molding is integrally formed by insert injection molding the groove head 110 made of metal. An end connector 100 of the CPVC pipe for joint connection is formed.

The end connector 100 of the CPVC pipe for connecting the groove joint configured as described above is easily assembled to the joint end 21 of the internal pipe 20 arranged in the interior space of the household, and the inner joint end 32 of the buried pipe 30 is provided. ) And grooves 111a for forming a separate joint structure through the groove joint 200 at the joint end 21 of the inner pipe 20 requiring the joint.

The end connector 100 of the CPVC pipe for connecting the groove joint is connected to the joint pipe part 21 of the internal pipe 20 by inserting the joint pipe part 21 of the internal pipe 20 into the pipe socket part 121. At this time, the socket pipe body 120 and the inner pipe 20 constituting the end connector 100 of the CPVC pipe for connecting the groove joint is made of the same CPVC material, as shown in Figure 6 and 7 CPVC Forming a stable joint state through the adhesion through the adhesive 130.

On the other hand, the construction process of the wall penetration type seismic piping structure 1 which adopts the end connector 100 of the CPVC piping for groove joint connection comprised in this way is carried out by the groove | hole machine in the installation hole H of the wall W. ) Is disposed so as to penetrate the buried pipe 30 of the metal material having the joint ends 31 and 32 having the grooves 31a and 32a formed therein.

In particular, in the present invention, the refractory filler (B) is filled in the installation hole (H) through which the buried pipe 30 penetrates, and the outer diameter of the buried pipe (30) and the inner wall of the installation hole (H) by the refractory filler (B). The air gap formed therebetween is sealed, and the resilient fixing of the buried pipe 30 is achieved by the elastic support action of the refractory filler (B).

In addition, the outer end portion 31 of the buried pipe 30 in which the groove 31a is formed, the joint ends 11 of the outer pipe 10 in which the groove 11a is formed by a groove machine, are in close contact with each other. Next, the grooves are joined to each other by the groove joint 200.

In addition, after assembling the end connector 100 of the CPVC pipe for connecting the groove joint according to the present invention to the joint end 21 of the inner pipe 20, the joint end 31 and the groove joint of the buried pipe 30 End connector 100 of the CPVC pipe for connection is connected to the mutual joint structure through the groove joint (200).

That is, the joint end portion 21 of the first inner pipe 20 is inserted into the pipe socket portion 121 formed in the end connector 100 of the CPVC pipe for groove joint connection, and the pipe socket portion 121 and the pipe socket are The socket tube 120 inserted into the unit 121 is bonded through the CPVC adhesive 130 and joined.

Thereafter, the worker has an end connector 100 of the CPVC pipe for connecting the groove joint assembled to the joint end 21 of the inner pipe 20 and an inner joint 32a of the buried pipe 30 in which the groove 21a is formed. ) Butt joint, through the groove joint 200 consisting of the ring gasket 220 and a pair of joint couplings (210A, 210B), made of an inner pipe 20 made of CPVC and a metal material And form a separation joint state between the buried pipe 30 penetrating the wall (W).

In this configuration, it is difficult to form a conventional separation joint, and it is possible to connect between the buried pipe and the inner pipe which are expected to be damaged in the event of an earthquake with a separate joint structure. Seismic safety is secured, which can prevent the internal pipe formed in the physical damage or damage.

1. Wall penetration type seismic piping structure
10. External piping 11. Joint end
11a. Groove
20. Internal piping 21. Joint end
30. Landfill piping 31. Outer joint end
31a. Groove 32. Inner joint end
32a. Groove
100. End connection of CPVC pipe for groove joint connection
110. Groove Chickenpox 111. Groove tube
111a. Groove 112. Joint
112a. Fastening part
120. Socket body 121. Piping socket part
122. Chickenpox socket 122a. Fastening part
130.CPVC Adhesive
200. Groove joints 210A, 210B. Joint coupling
211. Adhesion 212. Pressed space
220. Ring gasket 230. Crimping bolt
B. Refractory Fills W. Walls
H. Installer

Claims (4)

A groove head having a groove formed on the outer diameter of the groove to which the groove joint is coupled, and a groove head formed integrally with a joint pipe part communicating with the groove pipe;
A pipe socket part in which a joint end part of the CPVC pipe enters and is joined, and a head socket part integrally formed by entering a joint pipe part of the groove head and joined,
The groove head is made of a metal molded body, which is joined by metal pipes and groove joints, and the socket pipe body which is assembled with the CPVC pipe by assembling the groove head is made of CPVC material, and is made of CPVC pipe and socket inserted into the pipe socket part. Pipe body end connector of the CPVC pipe for connecting the grooves, characterized in that the joint is bonded through the CPVC pipe and CPVC adhesive. delete An external pipe of a metal material formed in the external space of the household; An internal pipe of CPVC material formed in the internal space of the household; And it is installed through the installation hole of the wall partitioning the space between the household interior space and the household exterior space, one end is connected to the joint end of the external pipe, the other end is connected to the household internal pipe, and includes a metal buried pipe,
A separation joint structure including a groove joint is formed between an inner joint end of the buried pipe and a joint end of the inner pipe.
A groove is integrally formed at the inner joint end of the buried pipe made of the metal material, and an end connector of the CPVC pipe for connecting the groove joint according to claim 1 is assembled at the joint end of the inner pipe made of the CPVC material.
And a groove joint formed in the groove formed in the groove joint portion of the groove of the CPVC pipe groove coupled to the groove formed in the inner joint end of the buried pipe and the joint end of the inner pipe. delete

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