KR101189787B1 - Conneting device for pipe - Google Patents

Abstract

The pipe connection mechanism according to the present invention is made of a hollow body having a flow path formed therein, and a synthetic resin body having a first uneven portion provided on an inner circumferential surface thereof, and inserted into and coupled to the synthetic resin body so as to be screwed to the piping component. And a metal sleeve having a second concave-convex portion provided on an outer circumferential surface to be engaged with the through hole and the first concave-convex portion, and a fixing member coupled to the synthetic resin body to fix the metal sleeve to the synthetic resin body. The pipe connecting mechanism according to the present invention has a metal sleeve that can be screwed to the piping component in the connection portion of the synthetic resin body, there is little risk of breakage, it can be easily connected and disconnected from the piping component.

Description

Pipe fittings {CONNETING DEVICE FOR PIPE}

The present invention relates to a pipe connecting mechanism, and more particularly, to a pipe connecting mechanism for easily connecting the piping components, such as metal pipes.

In general, the piping is used as a water supply line or oil supply line of a variety of facilities, ranging from ordinary homes to industrial facilities of various industrial sites. These pipes consist of a number of pipes connecting the supply points to the supply points of the fluid.

A plurality of pipes constituting the pipe is continuously connected by the pipe connecting mechanism. Between the pipe and the pipe, various valves are installed to control the flow of the fluid. In the actual plumbing work, pipes of a certain length are buried sequentially, and each pipe is connected to a pipe connecting device to complete the pipe.

Pipe fittings are used in various forms depending on the connection angle of the two pipes connected to each other. Such pipe connection mechanisms include straight sockets, elbows, and T-type joints.

In recent years, regulations on the detection allowance of metal hazardous substances have been tightened in piping for water supply. As the acceptance criteria for metal harmful substances such as lead and cadmium are lowered in water supply pipes, the use of metal pipes and metal pipe connecting devices is restricted. In particular, copper (brass), which has been used as a main material for metal pipes or pipes for metal pipes, is faced with a reality that it is no longer possible to use it as regulations are tightened.

As an alternative to this, a pipe or pipe connection mechanism may be made using stainless steel, etc., in which the harmful substances are less eluted, but in this case, there is a problem in that it is difficult to manufacture and satisfies economic efficiency.

As another alternative to the metal pipe or metal pipe connection mechanism (especially brass), a synthetic resin pipe and a pipe connection mechanism are attracting attention. Synthetic resin pipes or plumbing connections have the advantage of no elution of harmful substances, relatively easy molding, and low cost.

However, the entire piping line cannot be composed of only synthetic resin material, and the coupling of the synthetic pipe and the synthetic pipe pipe and the metal pipe and the metal pipe pipe is essentially made.

When combining the synthetic resin component with the metallic component, the synthetic resin component can be damaged because the strength of the synthetic resin is weak compared to the metal. In particular, when the synthetic resin component and the metal component are screwed together, this problem is more prominent.

SUMMARY OF THE INVENTION The present invention has been made in view of this point, and an object of the present invention is to provide a pipe connecting mechanism that can be easily combined without damaging a synthetic resin component in joining piping components such as metal pipes.

Pipe connecting mechanism according to one aspect of the present invention for achieving the above object, the synthetic resin body made of a hollow type formed with a flow path therein and the first concave-convex portion provided on the inner circumferential surface, the synthetic resin body to be screwed with the piping component A metal sleeve having a through-hole inserted into and coupled to a flow path of the synthetic resin body and a second uneven portion provided on an outer circumferential surface to be engaged with the first uneven portion, and coupled to the synthetic resin body to connect the metal sleeve to the synthetic resin body. It includes a fixing member for fixing to.

Pipe connecting mechanism according to another aspect of the present invention for achieving the above object is a hollow synthetic resin body having a flow path formed therein, the coupling is inserted into the synthetic resin body so as to be screwed with the piping component of the synthetic resin body A metal sleeve having a through hole connected to a flow path, and a fixing member coupled to the synthetic resin body to fix the metallic sleeve to the synthetic resin body, wherein the metallic sleeve does not rotate inside the synthetic resin body. And one of the outer peripheral surface of the metal sleeve is provided with a locking groove, the other is provided with a locking projection inserted into the locking groove.

Pipe connecting mechanism according to another aspect of the present invention for achieving the above object, a hollow synthetic resin body having a flow path formed therein, the coupling is inserted into the synthetic resin body to be screwed with the piping component and the synthetic resin body A metal sleeve having a through hole connected to the flow path of the plastic sleeve, and a fixing member coupled to the synthetic resin body to fix the metal sleeve to the synthetic resin body, wherein a coupling groove is formed at an end of the synthetic resin body, A coupling part inserted into the coupling groove is provided, and the coupling part has a polygonal shape, and the coupling groove has a shape corresponding to the coupling part so that the coupling part can be joined.

The metal sleeve may have a female thread that is screwed with a male thread provided at an end of the tubing component.

The metal sleeve may have a male thread that is screwed with a female thread provided at an end of the piping component.

The pipe connection mechanism according to the present invention may further include a sealing member interposed between the synthetic resin body and the metal sleeve to seal between the synthetic resin body and the metal sleeve.

An inner surface of the fixing member may be provided with a pressing portion for pressing the end of the metal sleeve toward the inside of the synthetic resin body.

The fixing member has an insertion hole into which the pipe component is inserted, is made of metal, and is compressed and deformed so as to be compressed to the end of the synthetic resin body, and fixed to the synthetic resin body.

A protrusion may be provided on at least one of an outer circumferential surface of the synthetic resin body and an inner circumferential surface of the fixing member to increase friction between the synthetic resin body and the fixing member.

The fixing member has an insertion hole into which the pipe component is inserted, and a fixing protrusion is provided on one of an outer circumferential surface of the synthetic resin body and an inner circumferential surface of the fixing member, and a fixing groove into which the fixing protrusion is inserted is provided on the other. Can be.

The pipe connecting mechanism according to the present invention has a metal sleeve that can be screwed to the piping components such as metal pipes in the connection portion of the synthetic resin body, there is little risk of damage when connecting the piping components, connecting and disconnecting from the piping components Can be made easily.

1 is a perspective view showing a state in which a pipe is connected to the pipe connecting mechanism according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a pipe connection mechanism according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing a state in which a pipe is connected to the pipe connection mechanism according to an embodiment of the present invention.
4 and 5 show a modification according to the sealing member position of the pipe connection mechanism according to the present invention.
6 to 8 show a modified example of the coupling structure of the synthetic resin body and the metal sleeve of the pipe connecting mechanism according to the present invention.
9 and 10 show a modification according to the coupling structure of the metal sleeve and the metal pipe of the pipe connecting mechanism according to the present invention.
11 to 13 show various modifications of the metal sleeve.
14 to 16 show a modified example of the coupling structure of the synthetic resin body and the fixing member of the pipe connecting mechanism according to the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in detail for the pipe connecting mechanism according to the present invention.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation.

1 to 3 show a pipe in the pipe connection mechanism according to an embodiment of the present invention.

As shown in Figures 1 to 3, the pipe connection mechanism 100 according to an embodiment of the present invention is made of an elbow shape for connecting the metal pipe 10 at a predetermined angle, hollow synthetic resin body 110, a metal sleeve 130 inserted into and coupled to the end of the synthetic resin body 110, and a fixing member 140 for fixing the metallic sleeve 130 to the synthetic resin body 110. Here, the synthetic resin body 110 may be made of a variety of synthetic resin material, such as PE, PB, PERT, the metal sleeve 130 and the fixing member 140 is a variety of metals, such as stainless steel with little or no content of metal harmful substances It may be made of a material.

The synthetic resin body 110 has a flow path 111 through which fluid can flow. The end of the synthetic resin body 110 is provided with a connection portion 112 to which the metal pipe 10 is connected. The coupling part 112 is provided with a coupling groove 114 into which the metal sleeve 130 is inserted, and an inner circumferential surface of the connection part 112 is provided with a first uneven part 115 for fixing the metal sleeve 130.

The support jaw 116 in which the sealing member 120 is placed is provided in the synthetic resin body 110 at which the first uneven portion 115 ends. The sealing member 120 is supported by the support jaw 116, and the plastic body 110 and the metal sleeve by elastically deforming the end of the metal sleeve 130 when the metal sleeve 130 is coupled to the coupling groove 114 Sealing between the (130).

The metal sleeve 130 is directly coupled to the metal pipe 10 and has a through hole 131 connected to the flow path 111 of the synthetic resin body 110. The inner circumferential surface of the metal sleeve 130 is provided with a female thread 132 to which the male thread 11 of the metal pipe 10 is screwed. Accordingly, the metal pipe 10 may be firmly screwed to the metal sleeve 130. Thus, the pipe connection mechanism 100 according to the present invention is improved in strength and durability by being made of a metal coupling portion of the metal pipe 10 is screwed, there is little risk of damage when connecting or disconnecting the metal pipe 10. .

The metal sleeve 130 has a coupling part 133 inserted into the coupling groove 114 of the synthetic resin body 110. On the outer circumferential surface of the coupling part 133, a second uneven part 134 corresponding to the first uneven part 115 of the synthetic resin body 110 is provided.

When the coupling part 133 is inserted into the coupling groove 114, the first uneven part 115 and the second uneven part 134 are engaged with each other, whereby the synthetic resin body 110 and the metal sleeve 130 are formed. Relative rotation between) is suppressed. Thus, when the metal pipe 10 is screwed into the metal sleeve 130, the metal sleeve 130 does not rotate. One end of the metal sleeve 130 is provided with an extension 135 having a width larger than that of the coupling groove 114. The extension 135 prevents the metal sleeve 130 from being completely inserted into the plastic body 110.

The fixing member 140 is coupled to the connection part 112 of the synthetic resin body 110 to fix the metal sleeve 130 coupled to the synthetic resin body 110. An insertion hole 141 through which the metal pipe 10 can penetrate is formed at the center of the fixing member 140. The fixing member 140 is coupled to the end of the synthetic resin body 110, and then a part thereof is compressed and deformed to be pressed onto the outer circumferential surface of the synthetic resin body 110 to be fixed to the synthetic resin body 110.

As shown in FIG. 3, when the metal sleeve 130 is inserted into the synthetic resin body 110 and the fixing member 140 is coupled to the connection portion 112 of the synthetic resin body 110, the inner surface of the fixing member 140 is fixed. The pressing unit 143 provided on the pressing portion 135 of the metal sleeve 130 to the inside of the synthetic resin body (110). At this time, the expansion unit 135 is in close contact with the end of the synthetic resin body 110, the other end of the metal sleeve 130 is in close contact with the sealing member 120 between the synthetic resin body 110 and the metal sleeve 130 Is sealed. Therefore, the metal pipe 10 and the pipe connection mechanism 100 can maintain a stable connection state without the risk of leakage of the fluid.

The installation position of the sealing member 120 for sealing between the synthetic resin body 110 and the metal sleeve 130 may be variously changed. For example, the sealing member 120 may be disposed between the outer circumferential surface of the end of the metal sleeve 130 and the inner circumferential surface of the synthetic resin body 110 as shown in FIG. 4, and the metal sleeve (as shown in FIG. 5). It may be disposed between the outer peripheral surface of the intermediate portion 130 and the inner peripheral surface of the synthetic resin body (110). 5 shows that the groove is provided on one side of the outer circumferential surface of the metal sleeve 130 for the installation of the sealing member 120, but the groove for installing the sealing member 120 is to be provided on the inner circumferential surface of the synthetic resin body 110. It may be.

Hereinafter, various modifications of the pipe connecting mechanism according to the present invention will be described with reference to the accompanying drawings.

6 to 8 show a modified example of the coupling structure of the synthetic resin body and the metal sleeve of the pipe connecting mechanism according to the present invention. The pipe connecting mechanism shown in FIGS. 6 to 8 has the same basic configuration as the pipe connecting mechanism 100 shown in FIGS. 1 to 3. In the following description of the pipe connecting mechanism for the same parts as the pipe connecting mechanism 100 shown in Figures 1 to 3 will be given the same reference numerals and detailed description thereof will be omitted.

6, the pipe connecting mechanism 300 includes a hollow synthetic resin body 310, a metal sleeve 330 and a metal sleeve 330 inserted into and coupled to an end of the synthetic resin body 310, and the synthetic resin body 310. It includes a fixing member 140 for fixing to. The fixing member 140 is the same as that shown in FIG. 2, and is screwed to the connection part 112 of the synthetic resin body 310 to fix the metal sleeve 330 to the synthetic resin body 310.

The connection part 112 of the synthetic resin body 310 is provided with a coupling groove 311 into which the metal sleeve 330 is inserted, and the metal sleeve 330 has a coupling part 331 inserted into the coupling groove 311. The coupling portion 331 has a quadrangular shape, and the coupling groove 311 has a quadrangular shape corresponding to the shape of the coupling portion 331 so that the coupling portion 331 can be formed without gaps. Therefore, when the coupling portion 331 is inserted into the coupling groove 311, the relative rotation of the synthetic resin body 310 and the metal sleeve 330 is suppressed.

The support jaw 312 is provided inside the synthetic resin body 310, and a sealing member 320 for sealing between the synthetic resin body 310 and the metal sleeve 330 is disposed on the support jaw 312. The sealing member 320 has a square shape corresponding to the shape of the coupling portion 331 of the metal sleeve 330, and the support jaw 312 also has a square shape corresponding to the sealing member 320.

In the present invention, the shape of the coupling groove 311 and the coupling portion 331 for suppressing the relative rotation of the synthetic resin body 310 and the metal sleeve 330 is a triangle, pentagon, etc. It may be changed to other non-circular shapes such as polygons or ellipses.

7 and 8, the pipe connection mechanism 400 and 500 has a groove-protruding structure as a means for suppressing relative rotation between the resin bodies 410 and 510 and the metal sleeves 430 and 530. To have.

The pipe connecting mechanism 400 illustrated in FIG. 7 is provided with a locking groove 412 on the inner circumferential surface of the synthetic resin body 410, and corresponds to the locking groove 412 on the outer circumferential surface of the coupling portion 431 of the metal sleeve 430. The locking projection 432 is provided. When the metal sleeve 430 is coupled to the resin body 410, the locking protrusion 432 of the metal sleeve 430 is inserted into the locking groove 412 of the resin body 410, whereby the resin body 410 and the metal Relative rotation of the sleeve 430 is suppressed. Here, the shape or number of the locking groove 412 and the locking projection 432, the arrangement interval may be changed in various ways.

In the pipe connecting mechanism 500 illustrated in FIG. 8, a locking protrusion 512 is provided on an inner circumferential surface of the synthetic resin body 510 and corresponds to a locking protrusion 512 on an outer circumferential surface of the coupling portion 531 of the metal sleeve 530. The locking groove 532 is provided. When the metal sleeve 530 is coupled to the synthetic resin body 510, the locking protrusion 512 is inserted into the locking groove 532, thereby suppressing relative rotation of the synthetic resin body 510 and the metal sleeve 530.

The locking protrusion 512 may be formed so as not to extend to the support jaw 116 of the synthetic resin body 510. That is, the support jaw 116 and the end of the engaging projection 512 is spaced a predetermined distance apart. When the locking protrusion 512 extends to the support jaw 116, the sealing member 120 may be hardly seated on the support jaw 116. The shape or number of the locking projections 512 and the locking grooves 532, the arrangement intervals may be variously changed.

9 and 10 show a modification according to the coupling structure of the metal sleeve and the metal pipe of the pipe connecting mechanism according to the present invention.

The pipe connecting mechanism 600 shown in FIG. 9 has a structure capable of connecting not only the pipe 10 having the male screw thread 11 but also the metal pipe 20 having the female screw thread 21. As shown in FIG. 9 and FIG. 10 showing a side cross-section of the pipe coupling mechanism 600, the metal sleeve 630 of the pipe coupling mechanism 600 includes a female thread 132, a coupling part 133, and a first coupling 133. 2 is provided on the outer circumferential surface of the hollow pipe fixing portion 631 and the pipe fixing portion 631 for coupling the metal pipe 20 having the female thread 21 in addition to the uneven portion 134, the expansion portion 135 A male thread mount 632 is further included. The metal pipe 10 provided with the male thread 11 at the end may be screwed to the female thread 132 of the metal sleeve 630, and the metal pipe 20 provided with the female thread 21 at the end may be a metal sleeve. It may be screwed to the male thread 632 of 630.

11 to 13 show various modifications of the metal sleeve.

The metal sleeve 340 shown in FIG. 11 has a pipe fixing portion 341 and a male thread (for fixing the metal pipe 20 having the female thread 21 compared with the metal sleeve 330 shown in FIG. 6). 342 is further included, and the metal sleeve 440 shown in FIG. 12 is a pipe gow for securing the metal pipe 20 with the female thread 21 as compared to the metal sleeve 430 shown in FIG. It further includes the government 441 and the male thread 442. In addition, the metal sleeve 540 shown in FIG. 13 has a number of pipe fixing portions 541 and a number for fixing the metal pipe 20 having the female thread 21 as compared with the metal sleeve 530 shown in FIG. It further includes a thread 542.

In the metal sleeves shown in FIGS. 10 to 13, the female thread 132 may be omitted when it is used to connect only the metal pipe 20 provided with the female thread 21 at the end.

14 to 16 show a modified example of the coupling structure of the synthetic resin body and the fixing member of the pipe connecting mechanism according to the present invention.

First, referring to the embodiment illustrated in FIG. 14, the synthetic resin body 710 has a plurality of protrusions 711 on the outer peripheral surface of the end thereof, and the fixing member 720 has a plurality of grooves 721 on the inner peripheral surface thereof. The fixing member 720 may be made of various materials such as metal and synthetic resin, and the fixing member 720 may be inserted into the groove 721 when the fixing member 720 is coupled to the end of the synthetic resin body 730. ) May be fixed to the synthetic resin body 710. When the fixing member 720 is made of metal, as described above, a portion of the fixing member 720 may be compressed and deformed to be pressed onto the outer circumferential surface of the synthetic resin body 710. In this case, the protrusion 711 of the synthetic resin body 710 is inserted into the groove 721 of the fixing member 720 to increase the coupling force between the synthetic resin body 710 and the fixing member 720.

When the fixing member 720 made of metal is compressed and deformed to the outer circumferential surface of the synthetic resin body 710, the groove 721 of the fixing member 720 may be omitted. In this case, the protrusion 711 of the synthetic resin body 710 serves to increase the friction between the synthetic resin body 710 and the fixing member 720 to increase their coupling force. When the projection 711 is used for the purpose of increasing the friction between the synthetic resin body 710 and the fixing member 720, the projection 711 is the inner peripheral surface of the fixing member 720, or the outer peripheral surface of the synthetic resin body 710 And the inner circumferential surface of the fixing member 720 may be provided, and the shape may be modified to another shape that can increase the friction force between the two contact surfaces in addition to those shown.

The synthetic resin body 730 and the fixing member 740 of the embodiment shown in FIGS. 15 and 16 are combined in a groove-protrusion structure. A fixing groove 732 connected to the guide groove 731 and the guide groove 731 is provided on the outer peripheral surface of the end of the synthetic resin body 730, and is moved and fixed along the guide groove 731 on the inner peripheral surface of the fixing member 740. A fixing protrusion 741 may be inserted into the groove 732. The guide groove 731 is formed in a bent shape so that the start portion opened to the end of the synthetic resin body 730 and the end portion connected to the fixing groove 732 do not lie in a straight line.

When the fixing member 740 is coupled to the synthetic resin body 730, the fixing protrusion 741 is inserted into the guide groove 731 to move along the guide groove 731 to be inserted into the fixing groove 732 to fix the fixing member ( 740 is fixed to the resin body 730. The depth of the guide groove 731 is preferably smaller than the depth of the guide groove 731 so that the fixing protrusion 741 inserted into the fixing groove 732 is not easily separated from the fixing groove 732.

Although the drawing shows that two fixing grooves 732 are provided in the synthetic resin body 730, and two fixing protrusions 741 are provided on the fixing member 740, the fixing grooves 732 or the fixing protrusions 741. The number of) may vary. In addition, the positions of the fixing groove 732 and the fixing protrusion 741 may be interchanged. That is, the fixing protrusion 741 may be provided on the outer circumferential surface of the synthetic resin body 730, and the fixing groove 732 may be provided on the inner circumferential surface of the fixing member 740.

The pipe connection mechanism according to the present invention may be formed in the form of a straight socket or T-type joint in addition to the elbow form as described above, and may be used for connecting other piping components in addition to the metal pipe. In addition, the fixing member of the pipe connection mechanism according to the present invention can be changed into various shapes that can be coupled to the synthetic resin body to secure the metal sleeve in addition to the cap shape provided with an insertion hole in the center as shown.

As described above, the pipe connecting mechanism according to the present invention has a metal sleeve that can be screwed to the piping components, such as metal pipes in the connection portion of the synthetic resin body, there is less risk of damage when connecting and disconnecting the piping components.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention, and the protection scope of the present invention is limited only by the matters described in the claims. Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

100, 200, 300, 400, 500, 600: Piping connector
110, 210, 310, 410, 510, 610, 710, 730: synthetic resin body
111: Euro 112: connection portion
114, 311, 411, 511: engaging grooves 115, 134: first and second uneven portion
116, 312: support jaw 120, 320: sealing member
130, 330, 340, 430, 440, 530, 540, 630: metal sleeve
133, 331, 431, 531: coupling portion 140, 720, 740: fixing member
143: pressure part 341, 441, 541, 631: pipe fixing part
412, 532: locking groove 432, 512: locking projection

Claims (10)

In the pipe connecting mechanism for connecting the piping components,
Synthetic resin body made of a hollow form the flow path therein, the first uneven portion provided on the inner circumferential surface;
A metal sleeve screwed to the piping component and inserted into the synthetic resin body, the metal sleeve having a through hole connected to a flow path of the synthetic resin body and a second uneven portion provided on an outer circumferential surface to be engaged with the first uneven portion; And
And a fixing member coupled to the synthetic resin body to fix the metal sleeve to the synthetic resin body.
In the pipe connecting mechanism for connecting the piping components,
Hollow synthetic resin body formed with a flow path therein;
A metal sleeve screwed to the piping component, inserted into the synthetic resin body, the metal sleeve having a through hole connected to the flow path of the synthetic resin body; And
And a fixing member coupled to the synthetic resin body to fix the metal sleeve to the synthetic resin body.
A locking groove is provided on one of the inner circumferential surface of the synthetic resin body and an outer circumferential surface of the metal sleeve so that the metal sleeve does not rotate inside the synthetic resin body, and the other one is provided with a locking protrusion inserted into the locking groove. Plumbing fittings.
In the pipe connecting mechanism for connecting the piping components,
Hollow synthetic resin body formed with a flow path therein;
A metal sleeve screwed to the piping component, inserted into the synthetic resin body, the metal sleeve having a through hole connected to the flow path of the synthetic resin body; And
And a fixing member coupled to the synthetic resin body to fix the metal sleeve to the synthetic resin body.
A coupling groove is formed at the end of the synthetic resin body, and the metal sleeve is provided with a coupling portion inserted into the coupling groove.
The coupling part has a polygonal shape, and the coupling groove has a shape corresponding to the coupling part so that the coupling part can be joined.
The method according to any one of claims 1 to 3,
The metal sleeve is provided with a female thread, and the pipe connection mechanism for the male thread is provided with a screw thread and the female threaded end of the pipe component.
The method according to any one of claims 1 to 3,
The metal sleeve is provided with a male thread, and an end of the pipe component is provided with a female thread screwed with the male thread.
The method according to any one of claims 1 to 3,
And a sealing member interposed between the synthetic resin body and the metal sleeve to seal between the synthetic resin body and the metal sleeve.
The method according to any one of claims 1 to 3,
The inner surface of the fixing member is connected to the piping for providing a pressing portion for pressing the end of the metal sleeve toward the inside of the synthetic resin body.
The method according to any one of claims 1 to 3,
The fixing member has an insertion hole into which the piping component is inserted, and is made of metal, and the pipe is connected to the synthetic resin body, characterized in that the compression is deformed to be compressed to the end of the synthetic resin body is fixed to the synthetic resin body.
The method of claim 8,
And at least one of an outer circumferential surface of the synthetic resin body and an inner circumferential surface of the fixing member in order to increase friction between the synthetic resin body and the fixing member.
The method according to any one of claims 1 to 3,
The fixing member has an insertion hole into which the piping component is inserted,
Any one of an outer circumferential surface of the synthetic resin body and an inner circumferential surface of the fixing member is provided with a fixing protrusion, and the other is provided with a fixing groove into which the fixing protrusion is inserted.

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