KR101424965B1 - Water pipes for preventing push reward movement of ring-shaped seal - Google Patents

Abstract

The present invention relates to a sealed ring sliding prevention type supply and sewage pipe, which comprises: a pipe body part having a hollow body for a supply pipe or a sewage pipe; a declination allowing part having the diameter expanded to be larger than the pipe body part at the end of one side of the pipe body part; a stepped groove part connected to the declination allowing part to have the diameter larger than the declination allowing part, and expanded to have a multistage; an end part connected to the stepped groove part and expanded in a bell shape; a sealed ring installed on the stepped groove part, and having a slope surface on the front side of the seal ring; and an insertion guide part combined to the end part to cover the slope surface and a hanging protrusion on the front side of the slope surface.

Description

WATER PIPES FOR PREVENTING PUSH REWARD MOVEMENT OF RING-SHAPED SEAL}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water-milling anti-slide type water supply and sewage pipe which forms a pipe for a water supply or a sewerage.

Generally, water and sewage pipes can be divided into water service and sewer service.

The pipes for waterworks include Ductile cast iron pipe, Coated steel pipe, Stainless steel pipe, Coated steel pipe in epoxy resin powder, Polyethylene powder lining steel pipe, Centrifugal reinforced concrete pipe (Hume pipe), Rigid PVC or Polyethylene synthetic pipe.

There are sewage pipe type steel reinforced concrete pipe, commercialized reinforced concrete rectangular pipe, conduit, hard vinyl chloride pipe, on-site reinforced concrete pipe, reinforced plastic composite pipe, polyethylene (PE) pipe, ductile iron casting pipe and corrugated pipe.

In particular, synthetic resin pipes are known to be light and excellent in workability, and have limitations such as construction methods and material rupture and deflection. Therefore, they should be installed carefully in accordance with the order and method of construction proposed by the manufacturer of synthetic pipes.

For example, in the case of a hard vinyl chloride tube, a pipe line may be formed by using a method of bonding a synthetic resin pipe by socket bonding, bonding by a rubber ring, or adhesive. In addition, the synthetic resin pipe has an expanded portion (e.g., a sleeve portion) integrally formed on one side of the pipe as in the shape of a water pipe, and an open pipe portion is formed on the other side.

Particularly, in the case of the joining method using the rubber ring, although the construction order or method suggested by the manufacturer should be taken into consideration, the worker may use the end of the straight pipe portion of one side synthetic pipe as the other side of the synthetic resin pipe In many cases, it is simply inserted into the expansion part of the pipe.

In this case, there may arise a problem that the rubber ring is separated from the position where the rubber ring is present, while being in contact with the end of the straight pipe portion of the synthetic resin pipe inserted into the ring-shaped packing, that is, the rubber ring.

In this case, the rubber ring can not normally maintain the watertightness, which may cause leakage or leakage.

In the prior art, which is a background of the invention, a groove for mounting a rubber ring is formed in a part of the inner surface of the bending portion, and the end of the straight pipe portion of the synthetic resin pipe to be joined is guided toward the inner space of the rubber ring As the means is absent, there is also the problem that the rubber ring may be pushed away from its original position, partially deformed or broken.

In addition, since the tube portion of the conventional art synthetic resin tube is formed by the second-stage expansion process of the end of the straight tube portion of a general synthetic resin tube, the thickness of the expanded portion is not thinner or equal to the thickness of the straight tube portion, And it is difficult to cope with tube damage and long-term internal resistance.

In particular, the shape of the grooves at the installation positions of the rubber ring and the expansion portion can be theoretically matched to each other. However, in reality, the shape of the grooves at the installation positions of the rubber ring and the expansion portion of the device can be precisely manufactured It is very difficult to match the curved surface inclination of the corresponding curved surfaces with each other and a step or a gap is generated at the starting point of the contact between the rubber ring and the expanded portion so that the step or gap may act as a hanging jaw, When the end of the straight tube portion of one of the synthetic resin pipes is inserted into the expanded portion of the other synthetic resin pipe and the rubber ring of the other synthetic resin pipe is inserted into the other synthetic resin pipe, There is a phenomenon that pushing or dropping occurs in the groove portion.

Further, even if the unevenness is formed in the inside of the straight pipe to prevent the shrinking itself or the rubber ring itself is integrally formed in the synthetic resin pipe, the end of the straight pipe portion of the inserted synthetic pipe is struck at the bottom of the construction work site, When the means for guiding to the inner space of the rubber ring of the expanded portion of the other side synthetic resin tube is not provided as described above, the end and the rubber ring can still be in direct contact with each other, There is a problem that the rubber ring can not be free from problems of separation or breakage.

In addition, when the one side synthetic resin pipe and the other side synthetic resin pipe of the related art are coupled, an allowable deflection angle, that is, a deflection angle, may occur.

Here, the angle of declination may mean the angle between the center line of one side of the synthetic resin pipe and the line of the tube center of the other side of the synthetic resin pipe.

Since the synthetic resin pipes are connected to each other in a state in which the angle of deflection is not allowable, and in particular, the shape of the groove for the rubber ring or the rubber ring is made without considering the angle of deviation, The rim portion of the rubber ring coupled to the groove portion of the bending portion is excessively pressed by the other side synthetic tube, and thus the stress may be excessively generated. In such a case, the life of the rubber ring can be shortened and it is impossible to follow the change in the shape of the ground, so that it is impossible to construct a pipe with high safety.

Korean Patent No. 10-1311483 (2013.09.16) Korean Patent No. 10-1197629 (Oct. 30, 2012)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the conventional art and it is an object of the present invention to provide a water and sewage drainage type water and sewage pipe having an insertion guide portion, .

According to an aspect of the present invention, there is provided a tubular body having a hollow body for water supply or sewage; A declination permitting part having a diameter larger than that of the tubular part at one end of the tubular part; A stepped groove portion connected to the declination-allowing portion and having a diameter larger than that of the declivity-accepting portion and extended in multiple stages; An end portion connected to the stepped groove portion and extending in a bell shape; A male milling ring mounted on the stepped groove and having an inclined surface at a water-milling front position; And an insertion guide portion coupled to the end portion so as to cover the inclined surface of the water milling and the engagement protrusion at the front of the inclined surface.

The water milling may include an inclined surface protruding from the inner peripheral surface of the end portion toward the center of the tube portion; An out-ring surface formed corresponding to an inner surface shape of the stepped groove portion; A plurality of rims formed behind the outside surface of the ring; And a ring surface extending horizontally toward the slope in the rim and having a plurality of watertight projections and connected to the slopes.

In addition, the insertion guide portion may have a ring shape so as to be fitted to the end portion.

The insertion guide portion may include: a guide inclined portion that covers the inclined surface of the water milling; An extension part integrally connected to the guide inclined part and having a tube shape; A support portion bent outwardly from the extended portion so as to be in close contact with a front edge surface of the end portion; And a binding portion bent toward the guide slope portion from the support portion so as to be in close contact with the outer surface of the end portion.

Further, the binding portion may form an acute angle between the inner surface of the support portion and the inner surface of the binding portion.

In addition, the binding portion may further include a fixing piece protruding toward the outer surface of the end portion of the water supply and drainage pipe.

Further, the insertion guide portion may be made of a metal material having less frictional force than the material of the water-milling.

According to one aspect of the present invention, there is provided a water-milling-prevention-type water-supply and sewage pipe, comprising: a pipe portion that occupies most of the water supply and sewage pipe; a declination-permitting portion having a diameter larger than that of the pipe portion; It is possible to provide a stepped groove portion to be mounted and an end portion extending in a bell shape from the stepped groove portion to the end of the water supply and drainage pipe to allow an allowable deflection angle at the time of ground settlement, that is, a deflection angle, It is possible to prevent an excessive stress from being generated.

In addition, the water-milling anti-slide type water supply and sewage pipe according to one aspect of the present invention is provided with an insertion guide portion which can be fitted or supported by the end portion, and the inner peripheral surface of the end portion and the inclined surface It is possible to guide the insertion of one side water supply pipe and the other side water supply pipe by covering the end faces of the inclined faces of the water milling and the recessed grooves formed at the starting point of the inner surface of the stepped groove portion, Or completely separated or pushed away.

Particularly, since the surface of the insertion guide portion provides a smooth surface as a metallic surface, it is possible to reduce the frictional force upon contact with the end of the other side upper and drainage pipe, thereby fastening one side water supply pipe to the other side water supply pipe.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a water milling anti-slide type water supply and drainage pipe according to an embodiment of the present invention; FIG.
Fig. 2 is an enlarged sectional view of the insertion guide portion in Fig. 1. Fig.
Fig. 3 is a sectional view of the insertion guide shown in Fig. 2 coupled to the water supply and drainage pipe.
Figs. 4 to 6 are sectional views for explaining the coupling relationship of the water supply and sewage pipes having the insertion guide portions. Fig.
7 is an enlarged cross-sectional view of an insertion guide portion used in a water-milling anti-slide type water supply and drainage pipe according to an application example of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is an exploded perspective view of a water milling anti-slide type water supply and sewage pipe according to an embodiment of the present invention.

Referring to FIG. 1, the water supply and drainage pipe according to the present embodiment may refer to a synthetic resin pipe or the like, but may be a metal or non-metal pipe body, and may not be limited to a synthetic resin pipe.

However, for ease of explanation, this embodiment can be described based on a tube or tube, such as a synthetic resin pipe, or a water pipe.

For example, the water supply and drainage pipe according to the present embodiment may be formed by supplying a raw material of synthetic resin and extruding it by melting, and may have constituent parts to be described later through an expanding process and may be used for waterworks, And may be formed as a single layer, a double layer or an upper layer, and may have a diameter or tube length of several tens to several hundreds of millimeters per size. Further, the water supply and drainage pipe according to the present embodiment may be a high performance impact polymerizable composite polymer tube or a hard polyvinyl chloride pipe having a durability of several decades.

Also, in this embodiment, one side water supply pipe and the other side water supply pipe can be inserted and coupled to each other. For example, the one-way water supply pipe according to the present embodiment may not be limited to a water supply pipe or a sewage pipe of a specific product or material, since it may be a water supply pipe for sewerage or sewage, or a water supply and drainage pipe corresponding to a double wall water pipe or a multi-wall water pipe.

In addition, the water supply and drainage pipe according to the present embodiment may include a pipe body 100 having a pipe body or a tube-like hollow body for water supply or sewage. Here, the pipe portion 100 may correspond to the straight pipe portion of the water supply and drainage pipe.

In addition, the water supply and drainage pipe may include a diameter accepting part 200, a stepped groove part 300, and an end part 400 which are integrally extruded and have a larger diameter. Here, the declination angle permitting part 200, the stepped groove part 300, and the end part 400 are integrally formed at one side of the tubular part 100, and may correspond to an expansion part or a sleeve part of the water supply and drainage pipe. In addition, the expansion portion or the sleeve portion of the water supply and drainage pipe may be a portion where the pipe portion 100a of the other side water supply and drainage pipe is fitted and joined.

The declination permitting portion 200 may have a larger diameter than the tubular portion 100 at one end of the tubular portion 100.

When the tubular portion 100a of the other side water supply and drainage pipe becomes to be able to be bent based on one side water supply and drainage pipe due to the subsidence in a state where one side water supply pipe and the other side water supply pipe are connected to each other, It is possible to maintain the straight line state within the range of 4 to 5 minutes within the range of predetermined deflection angle (for example, allowable deflection angle) without making the end portion of the tubular portion 100a of the other side water supply / It is possible to relax the torsional stress and make it possible to construct a duct having high stability.

The stepped groove portion 300 includes a ring head portion 510 of the water mill 500 corresponding to a relatively thick portion and a plurality of rims 510 formed integrally in the rear of the ring head portion 510, (520, 530) rim, and may play a role for seating and engaging the water mill 500.

For this purpose, the stepped groove portion 300 may be connected to the declination-permitting portion 200 by a diameter larger than the declination-permitting portion 200, and may be expanded or reduced in multiple stages. At this time, the stepped groove portion 300 is formed in a stepped portion 521 (see FIG. 3) in which the upper rim 520 of the water milling 500 is connected to the ring head portion 510, 301, it is possible to prevent the water milling 500 from being pushed.

The diameter of the stepped groove portion 300 may be gradually reduced so as to be in close contact with the ring head portion 510 of the water mill 500 of the stepped groove portion 300.

The end portion 400 may be connected to the stepped groove portion 300 and may have a shape expanded in a bell shape.

For example, since the inner diameter or outer diameter of the front edge surface of the end portion 400 is relatively larger than the inner diameter or outer diameter of the connection point between the end portion 400 and the stepped groove portion 300, And may be formed at the end portion 400.

The end portion 400, the stepped groove portion 300 and the declination angle permitting portion 200 may be formed by expanding one side portion of the tubular portion 100 after the primary processing step of forming the tubular portion 100, The stepped groove portion 300 and the declination angle permitting portion 200 may be formed by a secondary machining process such that the end portion 400, the stepped groove portion 300 and the declination angle permitting portion 200 have the same wall thickness as that of the tubular portion 100, The secondary processing step can be performed.

Since the end portion 400, the stepped groove portion 300, the declination permitting portion 200, and the pipe portion 100 all have the same wall thickness, they are not only resistant to breakage but also excellent in long-term weatherability have.

As described above, the water mill 500 is fitted or detachably mounted on the inner surface of the stepped groove portion 300, and has a predetermined thickness and has a slant face 511 A head portion 510 and a plurality of rims 520 and 530 formed integrally in the rear of the ring head portion 510 to form a multi-layer structure.

Such a water mill 500 may be referred to as a rubber ring, a packing, an O-ring, or the like.

The insertion guide part 600 guides the end of the tubular part 100a of the other upper and lower water supply pipe smoothly into the one side water supply and drainage pipe to prevent the water milling 500 from being pushed. May be coupled to the end portion 400 to cover the slope 511 of the slider 500 and a clearance or anchoring jaw (see reference numeral 90 in FIG. 3) in front of the slope.

The insertion guide portion 600 may be an assembled type and may be coupled to the end portion 400. The insertion guide portion 600 may be made of a Teflon material having low frictional force and may be integrally formed with the end portion 400 through double injection, As shown in Fig.

The insertion guide portion 600 may have a bushing shape of a partially bent shape.

FIG. 2 is an enlarged sectional view of the insertion guide portion of FIG. 1, and FIG. 3 is a sectional view of the insertion guide portion of FIG. 2 coupled to the water supply and drainage pipe.

3, the water mill 500 may include an inclined surface 511 protruding from the inner circumferential surface of the end portion 400 toward the center CL of the tubular portion 100. Here, the inclined surface 511 may be located in front of the ring head portion 510 of the water mill 500.

The water mill 500 extends from the end of the inclined surface 511 of the water mill 500 to the upper rim 520 and has an out-of-ring surface 512 formed corresponding to the inner surface shape of the stepped groove 300 .

In addition, the water milling 500 may include a plurality of rims 520, 530 formed behind the out-of-ring surface 512. The rims 520 and 530 have upper and lower rims 520 and 520 which are closely contacted with and supported by the inner surface of the stepped groove portion 300 and a lower rim 520 spaced below the upper rim 520, (530), and may extend in the circumferential direction to have a ring shape as a whole.

The water mill 500 also includes a plurality of watertight protrusions 550 extending horizontally from the lower rim 530 towards the sloping surface 511, And an inner ring surface 540 connected to the inclined surface 511.

In particular, the water mill 500 has a feature that it is assembled and assembled separately from one side water supply and drainage pipe. The end of the inclined surface 511 of the water mill 500 has a pointed shape with the upper portion 513 of the ring head portion 510 of the water mill 500.

That is, the stepped groove portion 300, which is naturally connected to the starting position of the stepped groove portion 300, which is integrally expanded to have a predetermined curvature, that is, the end portion 400 of the one- A clearance or an engagement protrusion 90 is formed as the end of the inclined surface 511 of the water mill 500 is positioned.

The insertion guide portion 600 has a ring shape so as to be fitted into the end portion 400 of one side water supply and drainage pipe and is provided at the end of the inclined surface 511 of the water mill 500 and the starting point of the inner surface of the stepped groove portion 300 So that the engaging jaw 90 can be covered.

That is, the insertion guide portion 600 is in contact with the end of the tubular portion 100a of the other upper and lower drainage pipe shown in FIG. 1 instead of the inclined surface 511 of the water mill 500, Or to reduce frictional force due to contact as a bearing or to prevent the surface of the water mill 500 from being damaged.

If the end of the tubular portion 100a of the other side water supply and sewage pipe directly contacts the inclined surface 511 of the water mill 500, the water mill 500 itself is a rubber material and the frictional force is very large. When the tube is fastened along the insertion direction in which the center of one side water supply pipe and the other side water supply pipe are not coincident with each other due to the situation or operator's carelessness, the insertion process of the end of the pipe portion 100a itself is performed by the water milling 500 So that it can be pushed or released.

The detailed structure of the insertion guide unit 600, which performs the above-mentioned multi-purpose role while preventing this, can be described in detail with reference to FIG.

2, the insertion guide unit 600 includes a guide inclined portion 610 that covers the inclined surface 511 of the water mill 500 shown in FIG. 1 and a guide inclined portion 610 that corresponds to the inclined angle of the inclined surface 511 And may include an extension part 620 integrally connected to the guide slope part 610 and having a tube shape. Here, the extended length of the extension 620 may correspond to the protruding length of the end portion 400 of the one side water supply and drainage pipe. Therefore, the outer peripheral surface of the extended portion 620 can be brought into close contact with or contact with the inner peripheral surface or the inner surface of the end portion 400.

The inserting guide unit 600 includes a support portion 630 bent outwardly from the extension portion 620 so as to be in close contact with the front edge surface 401 of the end portion 400 of the one side water supply and drainage pipe shown in FIG. And a binding portion 640 bent toward the guide slope portion 610 from the support portion 630 so as to be in close contact with the outer surface of the end portion 400.

The insertion guide unit 600 can be manufactured by bending a thin plate so as to integrally form the guide inclined portion 610, the extending portion 620, the supporting portion 630 and the coupling portion 640, It is possible to have a smooth surface that is relatively smaller than the surface friction force of the surface.

In particular, the binding portion 640 may form an acute angle Q between the inner surface of the support portion 630 and the inner surface of the binding portion 640 with respect to a point connected to the support portion 630.

In this case, the end portion 400 of the one side water supply pipe is engaged or fixed to the fitting groove 650 defined by the coupling portion 640, the support portion 630, and the extension portion 620 by the interference fit- Can be supported.

The insertion guide portion 600 may be made of a metal material having less frictional force than the material of the water mill 500 shown in FIG. 1 (e.g., rubber material), and may be made of stainless steel, copper, aluminum, It may not be limited to a specific metal material.

Hereinafter, the fastening relationship of the water milling anti-slip type water supply and sewage pipe according to the present embodiment will be described.

4 to 6 are cross-sectional views for explaining the coupling relationship of the water supply and drainage pipes having the insertion guide portions.

Referring to FIGS. 4 and 6, the water mill 500 may be coupled to the inside of the stepped groove 300 of one side water supply and drainage pipe.

In this state, the tubular portion 100a of the other side water supply and drainage pipe can be inserted in an insertion manner through the inner hole of the end portion 400 of the one water supply and drainage pipe.

In most cases, the piping connection work is performed by the experience without using the precise centering device and the work environment conditions of the site piping.

The end of the tubular portion 100a of the other side water supply and drainage pipe is pulled by the object during cutting or transporting in a field where objects capable of generating scratches such as stones, gravel, soil, or sharp objects are gathered.

In this case, the tubular portion 100a of the other side water supply and drainage pipe is moved away from the center CL of the end portion 400 of one side water supply and drainage pipe, for example, in the state of being moved upward by the eccentric height h, (400). ≪ / RTI >

As described above, the insertion guide unit 600 according to the present embodiment is configured such that the guide slope 901 or the inclined surface 511 of the water mill 500 is covered with the guide inclined portion 610, The inner surface of the base 400 also covers the extension 620.

The end of the tubular portion 100a of the other side water supply and drainage pipe is not in contact with the inclined surface 511 of the direct water milling 500, And the guide slope 610 of the insertion guide unit 600, the insertion and fastening of the water mill 500 can be performed as shown in FIG. 6.

4 and 5, the tubular portion 100a of the other side water supply and drainage pipe is inclined with respect to the center CL of the end portion 400 of one water supply and drainage pipe, (400). ≪ / RTI >

Here, since the end portion 400 is formed in a bell shape, it is possible to pipe one side upper and lower water pipes and the other upper and lower water pipes even in a deflection (R) state.

In this case as well, the insertion guide portion 600 covers the engaging step 901 or the inclined surface 511 of the water mill 500 with the guide inclined portion 610, and the end portion 400 Is also covered with the extended portion 620.

The end of the tubular portion 100a of the other side water supply and drainage pipe is not in contact with the inclined surface 511 of the direct water milling 500 but is in contact with and guided by the guide inclined portion 610 of the insertion guide portion 600, That is, the insertion and fastening of the water milling 500 without being pushed back can be made and the state as shown in FIG. 6 can also be obtained.

Referring to FIG. 6, after the tubular portion 100a of the other side water supply and drainage pipe and one side water supply and drainage pipe are coupled to each other, a sloping angle R, which is an allowable deflection angle, may be generated due to subsidence. Since the present embodiment has the declination permitting section 200 so as to allow the declination angle R, the rims 520 and 530 of the water mill 500 can be prevented from being excessively or locally depressed Therefore, it is possible to ensure the life or durability of the water mill 500, to follow the shape change of the ground, and to make it possible to construct a duct with high safety.

7 is an enlarged cross-sectional view of an insertion guide portion used in a water milling anti-slide type water supply and drainage pipe according to an application example of the present invention.

Referring to FIG. 7, the insertion guide portion 600a according to the application example includes the guide slope portion 610, the extension portion 620, the support portion 630, and the binding portion 640 described above, The part 640 further includes a fixing piece 641 protruding toward the outer surface of the end part 400 of the water supply and drainage pipe shown in FIG. 1, and can be more firmly coupled with the end part 400 .

The fixing pieces 641 may be spaced apart from each other in the circumferential direction of the binding portion 640. Each fixing piece 641 may be formed by cutting and bending a part of the coupling portion 640 at a position corresponding thereto.

In addition, various methods of fixing the insertion guide portion 600a to one side water supply and drainage pipe, for example, fixing a fixing band or a screw or the like to the outside of the binding portion 640, or attaching the binding portion 640 and the supporting portion 630 Or a method of applying an adhesive to the inner surface of the end portion 400 and fixing the end portion 400 by adhesion may also be used.

According to the present embodiment described above, it is possible to provide a water supply and drainage pipe having a slit permitting portion, a stepped groove portion and a bell-shaped end portion in a shape expanded in size larger than the pipe portion, And it is possible to solve the problem that a local excessive stress is generated in the water mill due to the subsidence of the ground.

Further, according to the present embodiment, the insertion guide portion fitted to and joined to the end portion of the water supply and sewage pipe covers the engagement protrusion, thereby guiding the insertion of one side water supply pipe and the other side water supply pipe. And it is possible to quickly and smoothly fasten one side water supply pipe to the other side water supply pipe.

100, 100a: tubular part 200:
300: stepped groove portion 400:
500: water milling 600, 600a: insertion guide part
610: Guide slope part 620: Extension part
630: Support part 640:

Claims (7)

A tubular body having a hollow body for water supply or sewage;
A declination permitting part having a diameter larger than that of the tubular part at one end of the tubular part;
A stepped groove portion connected to the declination-allowing portion and having a diameter larger than that of the declivity-accepting portion and extended in multiple stages;
An end portion connected to the stepped groove portion and extending in a bell shape;
A male milling ring mounted on the stepped groove and having an inclined surface at a water-milling front position; And
And an insertion guide portion coupled to the end portion so as to cover the inclined surface of the water milling and the engagement protrusion at the front of the inclined surface,
The insertion guide portion
A guide inclined portion covering the inclined surface of the water milling;
An extension part integrally connected to the guide inclined part and having a tube shape;
A support portion bent outwardly from the extended portion so as to be in close contact with a front edge surface of the end portion; And
And a binding portion bent toward the guide slope portion from the support portion so as to be in close contact with the outer surface of the end portion.
The method according to claim 1,
The above-
The inclined surface protruding from the inner peripheral surface of the end portion toward the center of the tubular portion;
An out-ring surface formed corresponding to an inner surface shape of the stepped groove portion;
A plurality of rims formed behind the outside surface of the ring; And
And a ring-shaped surface extending horizontally from the rim toward the inclined surface and having a plurality of watertight projections and connected to the inclined surfaces.
3. The method of claim 2,
Wherein the insertion guide portion has a ring shape so as to be fitted to the end portion.
delete The method according to claim 1,
Wherein the coupling portion forms an acute angle between an inner surface of the support portion and an inner surface of the coupling portion.
The method according to claim 1,
Wherein the coupling portion further comprises a fixing piece protruding toward the outer surface of the end portion of the water supply and drainage pipe. The method according to claim 1,
Wherein the insertion guide portion is made of a metal material having less frictional force than the material of the water milling.

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