KR200384223Y1 - structure for sealing an opening for forking a sewer pipe - Google Patents

Abstract

The present invention is excellent in construction and repairability when connecting the branch pipe to the sewer pipe, can shorten the air, can be applied to double wall corrugated pipe or corrugated steel pipe, and can be applied to various standards, and at the same time inserted or pressed It provides sealing structure for branch pipe installation in sewage pipe that can create perfect water tightness by tightening.

The sealing structure for branch pipe installation to the sewage pipe includes a flange 81 which is supported in contact with the outer circumferential wall around the through hole 17 of the sewage pipe when installed in the through hole 17 of the sewage pipe, and the sewer pipe insertion portion 21. The outer circumferential wall surface of the sewer pipe between the outer circumferential wall surface of the sewer pipe insertion portion 21 and the wall surface of the through hole 12 to ensure watertightness between the wall surface of the through hole 12 of the sewage pipe. And the pressurized sealing outer wall 82, which is pressed and pressurized, and is expanded by the sewer pipe inserting portion 41 when the sewer pipe inserting portion 41 is inserted into the inner wall of the through hole 17 through the pressurizing sealing outer wall 82. When the sewer pipe inserting portion 41 of the branch 40 is press-fitted into the through hole 17 of the sewer pipe via the sealing member 80 having the outwardly deformed inner wall surface 83 configured to be crimped on the sewage pipe. The inner wall and the powder of the through hole 17 of the sewage pipe are pressed by the sealing outer wall 82 and the outwardly deformed inner wall surface 83. The complete sealing structure between the sewage pipe insertion portion (41) of the opening (40) is formed characterized in that the watertightness is ensured.

Description

Structure for sealing an opening for forking a sewer pipe}

The present invention is excellent in workability and water retention when connecting the branch pipe to the sewer pipe, can shorten the air, can be applied to double wall corrugated pipe or corrugated steel pipe, and can be applied to various standards and at the same time inserted or indented state The present invention relates to a sealing structure for installation of branch pipes in sewage pipes that can be completely tightened to create a watertight state.

Conventional sewage pipe connection method is to form a through-hole in the sewage pipe, insert the branch pipe into the through-hole, and then seal it by applying a mortar on the outer circumferential surface of the branch pipe, this method is when the tip of the branch pipe protrudes largely into the sewer pipe In order to solve this problem, there is a problem in that a part of the sewer pipe is blocked or the function of the sewer pipe is impaired due to sediment or sediment deposition.

As an example of the connection method by the flange connector, Korean Utility Model Publication No. 1998-27910 and Patent No. 0424216 have been proposed. The design of Utility Model Publication No. 1998-27910 is mainly composed of a split washer inserted into the sewer pipe and a branch socket connected to the branch pipe from the outside and bolted to the split washer. Due to the complicated structure such as the branch socket, a large number of parts are required, productivity is lowered, manufacturing cost is increased, and bolt assembly is difficult, and assembly time is excessive.

The invention of the Patent No. 0422216 is to solve the problems of the above devises, the split washer is inserted into the sewer pipe, and the branch socket is connected to the branch pipe from the outside and coupled to the split washer bolted to the main configuration, Similar to the branch socket of the design, the connector has a flange, but the connector is provided with a connector, particularly a reinforcement for reinforcing the flange, and the connector is connected with an approximately L-shaped hook bolt and nut having an end caught by the inner surface of the through hole of the sewer pipe. It is configured to be fastened to the through hole of the sewage pipe, so that the split washer is not necessary, and the assembly is quick and easy.

However, there is still a problem in that the flange portion is provided so that the outer diameter of the connecting or branching port is increased, and therefore, the installation part and the water-retaining property are greatly inferior due to the fact that the installation part is to be dug out largely. There is a problem in that the specifications are different from each other and there is no compatibility between each standard, and furthermore, there is a disadvantage that it is not applicable to the double wall corrugated pipe or corrugated steel pipe.

In order to secure these shortcomings, the invention described in the patent application No. 10-2004-0089420 filed by the present applicant improves workability and water retention, shortens the air, and improves workability and assembly by assembling and removing flanges using a hook bolt. To prevent the rotation of the bolt, to facilitate the insertion and fastening of the hook bolt, and to facilitate the construction of the hook bolt to prevent leakage easily, as shown in Figures 1 and 2, Similar to the invention of 0424216, a branch pipe insertion portion 22 to connect the branch pipe 11 is formed, and includes a hook bolt 30. The hook bolt 30 is inserted into the through hole 12 of the sewage pipe 10 and is bent at the catching part 31 and the catching part 31 which are caught on the inner surface of the sewage pipe 10 to penetrate the sewage pipe 10. The fastening portion 32 protrudes out of the ball 12 and protrudes through the bolt hole 24.

The hook portion 31 of the hook bolt 30 configured as described above is fastened to its inner surface through the through hole 12 of the sewer pipe 10 as shown in FIG. 2, and the bolt hole 24 of the branch hole 20 is closed. By passing the nut 33 to the fastening portion 32 is to be installed in the through hole 12 of the sewer pipe (10).

The branch port 20 of this structure is provided with the sewer pipe insertion part 21 formed in the substantially opposite side of the said branch pipe insertion part 22, and inserted into the through-hole 12 of the said sewer pipe 10, The sewage pipe insertion Packing 50 is press-fitted by the fastening of the hook bolt 30 to ensure the watertight between the through-hole 12 with the outer peripheral wall surface of the portion 21 as the contact surface or the pressing surface. As described above, in addition to the assembly construction using the hook bolt, the flange is removed, so that the state around the through hole 12 of the sewer pipe 10 or the installation state of the branch port 20 can be observed from the outside with the naked eye. As a result, the damaged portion around the through-hole 12, the part which may be leaked, and the like can be finished with a sealing material, so that the workability is excellent and the observation is easy even during long-term use, resulting in excellent water retention.

In addition, the reinforcement portion 27 is press-fitted while maintaining the balance so that the sewer pipe insertion portion 21 is not twisted when the hook bolt 30 is fastened, and the sewer pipe 10 and the branch port 20 are integrally fastened. 1 to 3 to balance the reinforcement portion 27 is formed to allow the pressure, the elastic support scaffold 60 is elastic reinforcement portion to protect the adhesive surface of the reinforcement portion 27 to the sewer pipe (10) 27 may be provided on the contact surface to the sewer pipe 10 or the support surface 27a. In addition, as shown in FIGS. 1 to 3, in order to prevent obstacles in the flow of sewage, the forward lowering jaw portion 22a is prevented from protruding the branch pipe 11 from the branch pipe insertion portion 22 into the sewer pipe 10. Wire for gripping and inserting the branch pipe 11 when the branch pipe 11 is inserted into the branch pipe insertion portion 22 so as to facilitate installation of the branch pipe 11 to the branch pipe insertion portion 22. It is preferable that the locking means 28 constituted by the inner groove of the reinforcement part 27 is formed to fasten the insertion or the press-fitting aid. In addition, the hook bolt 30 is preferably formed in a U-shape as in Figure 1 to prevent rotation and ensure fastening.

In addition, the packing 34 employed as a means for preventing leakage through the hook bolt 30 and the bolt hole 24 is formed with a screw thread engaged with the thread of the hook bolt 30 in FIG. 33) and when pressed by the washer 35 is pressed to the screw thread can be kept watertight, the insertion into the groove is not pushed further out to obtain the desired watertight state. In addition, when the nut 33 is fastened to the outer end of the bolt hole 24, it is preferable that the packing inwardly deformed groove 26 in which the side wall or the bottom of the groove is inclined so as to be pushed inward is pressed.

In addition, the present invention, the bolt formed through the bolt hole 24 at the inner end of the inner diameter of the branch hole 20 to facilitate the insertion of the hook bolt into the bolt hole 24 as shown in Figs. An insertion guide groove 25 is provided. The end of the fastening portion 32 of the hook bolt 30 can be inserted through the bolt insertion guide groove 25 so that the hook bolt 30 can be easily installed.

However, the above-described invention has a problem in that perfect watertightness cannot be achieved when a part of the through hole of the sewage pipe is damaged or when it is employed in the outer wall corrugated sewage pipe or corrugated steel pipe. In particular, this problem has been shown to be larger as the scope of application of the diameter increases, and thus there is a problem in that branching of various standards should be provided because there is a limit in the range of common diameters.

In addition, the bending angle between the locking portion 31 and the fastening portion 32 of the hook bolt 30 may include the size of the sewage pipe 10, the size of the through hole 12, the installation position around the through hole 12, and the like. Depending on the installation angle or installation direction of the sewer pipe 10 and the branch pipe 11 will be changed in various ways. Particularly, even in the case of a double wall corrugated pipe, in the case of a tube having a thin circumferential wall surface, the sewage pipe inserting portion 21 slightly protrudes into the sewer pipe 10 as shown in FIG. 9 to secure a watertight contact surface. There is a problem that the locking portion 31 and the fastening portion 32 should be formed at a more acute angle.

In addition, due to the separation of sewage and rainwater, large-sized pipes tend to be medium-sized, and the diameter and curvature of the pipes become smaller.

 Therefore, the present invention is intended to solve these problems, and excellent construction and water retention when connecting the branch pipe to the sewer pipe, can shorten the air, in particular can be applied to the outer wall corrugated sewer pipe or corrugated steel pipe, various standards At the same time, the purpose of the present invention is to provide a sealing structure for installing branch pipes to sewage pipes that can be inserted into or pressed to create a perfect watertight state.

In addition, another object of the present invention is to provide a sealing structure for installing branch pipes to sewage pipes, which can be optimally applied to the adoption of hook bolts and branch holes of press-fitting structures.

In order to achieve this purpose, the sealing structure for installing the branch pipe to the sewer pipe according to the embodiment of the present invention is formed in the branch pipe insertion portion to which the branch pipe is connected, and the branch pipe insertion portion is substantially opposite, and inserted into the through hole drilled in the sewer pipe. In the branch pipe installation structure of the branch pipe connected to the sewer pipe by a branch having a sewer pipe insertion part provided therein, the flange which is supported in contact with the outer peripheral wall around the through hole of the sewer pipe when the branch pipe is installed in the through hole of the sewer pipe; The outer circumferential wall surface of the sewer pipe insertion portion is one contact surface or the pressing surface so as to ensure watertightness between the wall of the through hole of the sewer pipe and the pressure sealing outer wall installed between the outer circumferential wall surface of the sewer pipe insertion portion and the wall surface of the through hole. And the sewage pipe insertion portion is enlarged by the sewage pipe insertion portion when the sewage pipe inserting portion is inserted into the through-hole. Through the sealing member having an outwardly deformed inner wall surface configured to be pressed against the inner wall, when the sewer pipe insertion portion of the branch is press-fitted into the through hole of the sewer pipe, the through-hole of the sewage pipe is compressed by the compression sealing outer wall and the outwardly deformed inner wall surface. A perfect sealing structure is formed between the inner wall and the sewer pipe insertion portion of the branch port, characterized in that watertightness is ensured.

Hereinafter, preferred embodiment (s) of the present invention will be described in detail with reference to the accompanying drawings.

Figure 5 is a cross-sectional view of the sealing structure for installing the branch pipe of the outer wall wrinkle sewage pipe according to an embodiment of the present invention, Figure 4 is a perspective view of the sealing member employed in the sealing structure, Figure 6 is a sealing of the subject innovation An exploded cross-sectional view of FIG. 5 is shown to illustrate the action.

5 and 6, in the sealing structure for branch pipe installation to the sewage pipe of the present invention, the sewage pipe inserting portion 41 of the branch 40 has a through hole 17 of the sewer pipe via a sealing member 80 having a special structure. When the press-fit installation is carried out on the inner side of the through-hole 17 of the sewer pipe and the sewer pipe insertion portion 41 of the branch 40 by the crimping of the pressurized sealing outer wall 82 and the outwardly deformed inner wall surface 83. The structure is formed.

The branch pipe installation structure to the sewage pipe to which the branch pipe installation sealing structure to the sewer pipe of the present invention is applied is formed by a branch pipe insertion portion 42 to which the branch pipe 11 is connected, and an approximately opposite side of the branch pipe insertion portion 22, and the sewer pipe The branch pipe 11 is connected to the sewer pipe by the branch opening 40 having the sewer pipe insertion portion 21 inserted into and installed in the through hole 17 drilled in the hole.

As described above, in the structure in which the branch pipe is installed in the sewer pipe, the sealing member 80 basically includes a flange 81, a compression sealing outer wall 82, and an outwardly deformable inner wall surface 83, and has an insertion guide end portion ( 84) further preferably.

The flange 81 is supported in contact with the outer circumferential wall around the through hole 17 of the sewage pipe when installed in the through hole 17 of the sewage pipe.

The pressurized sealing outer wall 82 is a sewage pipe inserting portion 21 so as to ensure watertightness between the wall surface of the through-hole 12 of the sewage pipe, with the outer peripheral wall surface of the sewage pipe inserting portion 21 being one contact surface or a pressing surface. It is installed between the outer circumferential wall surface of the) and the wall surface of the through hole 12 is compressed. Since the pressurized sealing outer wall 82 is usually a flexible member such as rubber, even if its outer diameter is the same as or slightly larger than the through hole 12, it is easily inserted into the through hole 12. In the case of a flexible to elastic material, the outer diameter of the compression sealing outer wall 82 slightly smaller than the diameter of the through hole 12 is convenient for assembly, and is expanded together when the outwardly deformed inner wall surface 83 to be described later expands. As a result, watertightness is ensured by compressing the wall surface of the through hole 12.

The outwardly deformed inner wall surface 83 has the pressurized sealing outer wall 82 passing through the through hole 17 by the sewage pipe inserting portion 41 when the sewage pipe inserting portion 41 is inserted into the sealing member 80. It is formed to be pressed against the inner wall of the. According to an example of the configuration of the concrete outwardly deformed inner wall surface 83 for achieving such a function, as shown in FIG. 6, the outwardly deformed inner wall surface 83 is the tip of the sewer pipe insertion portion 41 when the sewer pipe insertion portion 41 is inserted. The outwardly deformed inner wall surface 83 is preferably formed to be inclined or curved to a narrower inner diameter D1 than the outer diameter D0 of the sewer pipe insertion portion 41 so as to extend or deform outwardly by 41a.

In addition, the insertion guide end portion 84 of the sewage pipe insertion portion 41 of the branch port 40 is inserted into the outward deformation inner wall surface 83 of the sealing member 80 when the sealing member 80 is installed. The inner diameter D2 is larger than the outer diameter D0 of the sewer pipe insertion portion 41 so as to facilitate the insertion, and is installed on the inner wall of the sealing member 80.

In this way, when the sewer pipe inserting portion 41 of the branch opening 40 is press-fitted into the through hole 17 of the sewer pipe, the sealing member 80 is first installed in the through hole 17 as shown in FIG. By pressing the branch 40 into the sealing member 80, the outwardly deformed inner wall surface 83 is deformed outwardly by being pressed by the tip 41a of the sewer pipe insertion portion 41 of the branch 40, thereby Accordingly, as shown in FIG. 5, the compression sealing outer wall 82 is pressed against the inner wall of the through hole 17 so that the inner wall of the through hole 17 of the sewer pipe and the sewer pipe inserting portion 41 of the branch 40 are formed. The perfect sealing structure is formed by the sealing member 80 therebetween, thereby ensuring the watertightness. Subsequently, it is assembled as in the aforementioned conventional patent application No. 10-2004-0089420. That is, while engaging the engaging portion 31 of the hook bolt 30 to the inner surface through the through hole 12 of the sewer pipe 10, as shown in Figure 4, the fastening portion 32 along the bolt insertion guide groove 45 ) Is inserted into the bolt hole 44 of the branch hole 40, and the packing 34 is installed in the fastening part 32 so as to contact the packing inward deformation groove 46, and the washer 35 and the nut 33 By the fastening to be installed in the through hole 12 of the sewage pipe 10, and thus the preparation of the installation of the branch pipe 11 is completed, and then, the branch pipe (42a) to the branch forward (42a) in the branch pipe inserting portion (42) 11) is inserted into the branch pipe (11) is installed. The configuration and operation of the reinforcement portion 47, the locking means 48, the support scaffold 60 and the like are the same as in the above description of the prior patent application No. 10-2004-0089420, so it is omitted.

5 and 6, the sealing member 80 is formed on the wall surface of the through-hole 17 of the inner wall 15 even when the sewer pipe is formed of the inner wall 15 having no wrinkles and the outer wall 16 having the wrinkles formed therein. The compression sealing outer wall 82 of the can be compressed to obtain an effective watertight structure.

7 shows an example of the structure of the reinforcing member 90 embedded in one side or inside of the sealing member 80 of FIG. 4 as a front view. The reinforcing member 90 is installed to maintain the strength when deformation occurs in the outwardly deformed inner wall surface 83 of the sealing member 80, the flange portion corresponding to the flange 81 of the sealing member 80 And a cylindrical wall portion 92 corresponding to the outwardly deformed inner wall surface 83 to the compression sealing outer wall 82, and open in accordance with the deformation in the outwardly deformed inner wall surface 83, as in the illustrated example structure. An incision 93 may be formed in the cylindrical wall 92.

As long as the configuration of the above-described conventional patent application No. 10-2004-0089420 is not contrary to the present invention, it is preferable to be applied to the present invention as it is.

For example, in addition, in Figures 4 and 5, the press-fit sewage pipe branch 40 and the sealing member 80 to which the present invention is applied, ensure the watertightness of the outer wall wrinkle type sewer pipe, etc., and be applied to as many standards as possible. Even if the height up to the tip 41a or the height of the sealing member 80 is set to be thicker than the thickness of the through hole 12 of the sewage pipe 10 of the multiple standards, the sewage pipe inserting portion may protrude at least into the inside of the sewage pipe 10. The tip 41a of the 41 and the sealing member 80 are curved to the curvature R along the average curve among the curves of the through holes 12 of a plurality of sizes, and the height and the sealing of the sewer pipe inserting portion 41. It is preferable that the height h of the member 80 is set.

In the sealing structure for branch pipe installation of the outer wall corrugated sewage pipe according to another embodiment of the present invention shown in FIG. 8, the sealing member 80 includes an inner flange 85, and the through hole is formed by the inner flange 85. It is prevented from protruding large when mounting to (12), thereby the appearance of the inner surface of the sewer pipe is beautiful, and the fluidity of the fluid is maximized.

According to the configuration and function of the sealing structure for installing the branch pipe to the sewage pipe according to the embodiment of the present invention described above, the installation and water retention is excellent when installing the branch for connecting the branch pipe to the sewer pipe, the air can be shortened, In particular, it can be applied to outer wall corrugated sewage pipes and corrugated steel pipes, and can be applied to various standards, and at the same time, it is possible to create a perfect watertight state by fastening by inserting or pressing, and the sealing structure of the present invention is hooked. There is an effect such that it can be optimally applied to the adoption of the bolt and the branch of the press-fit structure.

1 is an exploded perspective view showing the relationship between the sewer pipe of the pressurized sewer pipe branch applied to the present invention.

FIG. 2 is a cross-sectional view of a fastening state of the press-fit sewage pipe branch of FIG. 1 to the sewer pipe. FIG.

3 is a cross-sectional view similar to FIG. 2 showing a state in which the sewage pipe is installed in the outer wall wrinkle double wall pipe in FIG.

Figure 4 is a perspective view of a sealing member that is employed in the sealing structure for installing the branch pipe of the outer wall wrinkle sewage pipe according to an embodiment of the present invention.

5 is a cross-sectional view showing the sealing structure for installing the branch pipe of the outer wall wrinkle sewage pipe according to an embodiment of the present invention.

FIG. 6 is an exploded cross-sectional view of FIG. 5 for explaining a sealing operation using the sealing member of FIG. 4.

7 is a partial front view illustrating an example of a structure of a reinforcing member inserted into the sealing member of FIG. 4.

8 is a cross-sectional view showing a sealing structure for installing the branch pipe of the outer wall wrinkle sewage pipe according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: sewer pipe 11: branch pipe

12,17: through hole 12a: wall surface

15: inner wall 16: corrugated outer wall

20,40: branch 21,41: sewer pipe insert

21a, 41a: Tip 22, 42: Branch Insert

22a, 42a: forward lowering jaw portion 23: packing supporting jaw

24, 44: Bolt hole 25, 45: Bolt insertion guide groove

26,46: Inward deflection groove 27,47: Reinforcement part

28,48: locking means 30: hook bolt

31: engaging portion 32: fastening portion

33: Nut 34: Packing

35: washer 50: packing (rubber ring)

60: support footrest 80: sealing member

81: flange 82: crimp sealing wall

83: outward deformation inner wall surface 84: insertion guide end

85: inner flange 90: reinforcing member

91: flange portion 92: cylindrical wall portion

93: incision

Claims (5)

It has a branch pipe inserting portion (42) to which the branch pipe (11) is connected, and a sewer pipe inserting portion (21) which is formed in a substantially opposite side of the branch pipe inserting portion (22) and is inserted into and installed in a through hole (17) drilled in the sewer pipe. In the branch pipe installation structure to the sewer pipe in which the branch pipe 11 is connected to the sewer pipe by the branch 40, When installed in the through hole 17 of the sewage pipe, the flange 81 supported in contact with the outer circumferential wall around the through hole 17 of the sewage pipe and the outer circumferential wall surface of the sewage pipe inserting portion 21 are adhered to one side of the contact surface or compressed. Pressed sealing outer wall 82 which is installed between the outer circumferential wall surface of the sewage pipe inserting portion 21 and the wall surface of the through hole 12 so as to ensure water tightness between the wall surface of the through hole 12 of the sewage pipe. And an outwardly deformed inner wall surface configured to be enlarged by the sewer pipe inserting portion 41 when the sewer pipe inserting portion 41 is inserted into the compressive sealing outer wall 82 to compress the inner wall of the through hole 17. When the sewer pipe insertion portion 41 of the branch 40 is press-fitted to the through-hole 17 of the sewer pipe via the sealing member 80 having the 83, the inside of the compression sealing outer wall 82 and the outward deformation. Between the inner wall of the through hole 17 of the sewer pipe and the sewer pipe insertion part 41 of the branch opening 40 by crimping the wall surface 83. Standing a perfect sealing structure is formed paper tube fitting sealing structure of the sewer characterized in that a watertight guarantee. The method according to claim 1, wherein when the sealing member (80) is installed, the sewer pipe insertion portion (41) of the branch (40) inserted into the outwardly deformed inner wall surface (83) of the sealing member (80) is smoothly inserted. An insertion guide end portion 84 having an inner diameter larger than the outer diameter of the sewer pipe insertion portion 41 is provided on the inner wall of the sealing member 80, and the outwardly deformed inner wall surface 83 is inserted into the sewer pipe insertion portion 41. Sealing structure for branch pipe installation in sewage pipes, characterized in that formed by the inner diameter narrower than the outer diameter of the sewer pipe insertion portion 41 so as to expand outward by the tip (41a). The reinforcing member 90 according to claim 1 or 2, wherein a reinforcing member 90 is provided to maintain strength when deformation occurs in the outwardly deformed inner wall surface 83 of the sealing member 80, and the reinforcing member 90 is To the sewage pipe, characterized in that it has a flange portion 91 corresponding to the flange 81 of the sealing member 80 and a cylindrical wall portion 92 corresponding to the outwardly deformed inner wall surface 83 to the compression sealing outer wall 82. Seal structure for branch pipe installation. According to claim 1 or claim 2, wherein the sewage pipe, when the inner wall 15 without wrinkles and the wrinkled outer wall (16) formed with wrinkles, the compression sealing outer wall 82 of the sealing member (80) on the inner wall (15) ) Is a crimp structure for branch pipe installation to the sewage pipe, characterized in that the crimp. 3. The branch pipe to the sewer pipe according to claim 1 or 2, wherein the sealing member (80) has an inner flange (85) formed so as to have excellent aesthetics on the inner surface of the sewer pipe and maximize fluidity of the fluid when it is mounted. Seal structure for installation.