KR101287073B1 - Gas branch pipe - Google Patents

Abstract

PURPOSE: A gas manifold is provided to miniaturize by reducing entire external diameter of the manifold without forming a separate flange in the manifold through inserting a nut into the manifold. CONSTITUTION: A gas manifold (200) comprises a lower pipe (202) and an upper pipe (201). A plurality of nuts (500) is inserted into the outer circumference of the upper pipe in a longitudinal direction. A settling groove is formed to the nut from the inner circumferential surface of the upper pipe among the upper end surface of the upper pipe. The settling groove is lower than an entrance of the nut and an embossed part and a recessed part are repeatedly formed. A gasket where the embossed part and the recessed part are formed to face the settling surface is installed.

Description

Gas branch pipe

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a branch pipe connected to a gas main pipe, and more particularly to a gas pipe pipe which is welded to a connecting portion of a saddle provided in a main pipe and insert-

In order to replace the main pipe or to branch the separate pipe from the main pipe, it is necessary to install the branch pipe and install the cover on the flange of the pipe pipe or install the separate working tool. Registration Practical Utility Model No. 173416 (name of the invention: branch pipe for gas piping) (hereinafter referred to as "prior art") discloses a branch pipe provided with a flange for branching.

1 is a cross-sectional view illustrating a conventional branched manifold.

1, in order to connect a branch pipe 2 to which a connection pipe 6 is connected to a main pipe 4, a cover 20 is attached to a branch pipe 2 having a flange 22 formed at an upper end thereof, The main pipe 4 is pierced by using a perforator in the state where the plug 16 is not engaged and the circular opening 10 is formed and then the plug 16 is fastened to the upper inlet of the gas pipe 2, The cover 20 is tightened with the bolts 30 and the nuts 31 to flow the gas injected into the main pipe 4 through the connection pipe 6. [

The outer diameter of the flange 22 is formed to be larger than the outer diameter of the branch pipe 2 and the flange 22 is formed with a bolt hole through which the bolt 30 passes, A through hole is formed.

The lower end of the fastening bolt 30 is fastened to the lower portion of the flange 22 through the through hole of the cover 20 and the bolt hole of the flange 22 after the flange 22 and the cover 20 are fastened And is fastened by a nut 31.

However, since the bolt 30 passes through the through hole of the cover 20 and the bolt hole of the flange 22 and is simply assembled by the lower nut, And the flange 22 is weakened, so that the rotational resistance of the bolt is weakened and the gas is often leaked.

In this case, the rotation resistance is determined by the diameter of the bolt 30 and the fastening length of the bolt and the nut as a torque to withstand the bolt and the nut fastened with the bolt when the bolt is rotated without being damaged, The larger the diameter of the bolt 30 is, the larger the size of the flange 22 becomes, and thus the overall volume of the branch pipe 2 becomes larger.

When the size of the flange 22 is reduced in order to reduce the manufacturing cost of the branch pipe 2, the bolt 30 comes close to the outer peripheral surface of the branch pipe 2, There is a problem in that it becomes very difficult to fasten the nut 31 to the bolt 30.

After the branch pipe 2 and the cover 20 are assembled, the branch pipe 2 and the cover 20 are separated from each other to puncture the main pipe 4, The nut 2 and the cover 20 must be disassembled and assembled more than once, and in such a case, the nut 31 is often lost.

When the branch pipe 2 is made of PE material, the branch pipe 2 is made of PE material when the branch pipe 2 is welded to the main pipe 4 and the pipe 2 is welded. And the cover 20 are assembled to the bolts 30 and the nut 31, the rotation resistance is very small. Therefore, there is a problem that a PVC pipe having a weak fusion force must be used.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a branch pipe which is easy to install and has a very high rotation resistance, thereby preventing gas leakage.

In addition, another object of the present invention is to provide a method for manufacturing a body made of a resin which is easy to fuse with a main tube because a nut is inserted into a wall during molding of a branch tube and a high binding force is maintained between the inserted nut and the wall will be.

Other various problems of the present invention will be described in the course of describing the embodiments.

The present invention solves the above-mentioned problems. The present invention provides a saddle-shaped saddle having a curved portion contacting with a main pipe and a saddle formed outwardly from a curved portion and coupled to a saddle formed with a connecting portion A lower tube welded to the connecting portion; A plurality of nuts formed in alternating fashion with a plurality of grooves widened inwardly and protruding jaws formed on an outer circumferential surface and having an outer diameter larger than an outer diameter of the lower tube, Wherein the upper surface of the upper tube has an entrance surface that is lower than an inlet of the nut from the inner circumferential surface of the upper tube toward the nut, And a gasket having an obtuse and a corrugated surface are provided so as to be in contact with the mountain and the valley of the seating surface.

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Also, in the present invention, the upper tube and the lower tube are formed of a PE material, and the nut is preferably formed of brass.

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Also, in the present invention, it is preferable that a cover is provided on the outside of the branch pipe, and is connected to the branch pipe by a bolt passing through the cover and fastened to the nut.

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According to the present invention having the above-mentioned problems and solutions, it is possible to form a high-rotation resistance force between the nut and the branch pipe to which the cover is coupled, and the branch pipe is formed of a PE material that is easy to fuse with the main pipe or saddle can do. Further, according to the present invention, the process of assembling the cover to the branch pipe is simple, so that the working time is shortened and it is possible to easily work even if it is unskilled.

Further, there is no need to form a separate flange in the branch pipe by insert-forming the nut into the branch pipe, which makes it possible to reduce the overall outer diameter of the branch pipe and to miniaturize it.

According to another aspect of the present invention, there is provided a branch pipe welded to a main pipe or a connecting portion vertically connected to a main pipe, the upper portion of the branch pipe having a cylindrical shape, wherein a nut is insert- , And the inlet of the nut is exposed to the upper surface of the branch pipe.

1 is a cross-sectional view illustrating a conventional branched manifold.
2 is a cross-sectional view for explaining the overall configuration of the present invention.
3 is a longitudinal sectional view for explaining the overall configuration of the present invention.
4 shows a branch of another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view for explaining the overall configuration of the present invention, and FIG. 3 is a longitudinal sectional view for explaining the overall configuration of the present invention.

In order to install the branch pipe 200 in the main pipe 100, a saddle 110 provided with a fusing facility is used.

The saddle 110 includes a curved surface portion 110 that is seated outside the upper surface of the main tube 100 and a pair of saddle portions 110 that are provided on both sides of the curved surface portion 110 so as to support the lower surface of the main tube 100, And a connection part 113 protruding upward from the curved surface part 110 so that the branch pipe 200 is fused to the upper part and the gas of the main pipe 100 is blown out. The curved surface portion 110 is provided with electric sockets 111 for supplying electric power to the hot wire for fusing the curved surface portion 110 and the main pipe 100 while drilling the main pipe 100. The position of the perforation hole of the main pipe 100 formed by the electric socket 111 is located directly under the inner circumferential surface of the connection portion 113. [ Both sides of the curved surface portion 110 are formed with bent portions 115 that are bent outward and the ring 114 is fastened to the bent portion 115 and both ends of the band 116 are fastened to the ring 114 .

A blind flange 300 is installed on the upper portion of the branch pipe 200 and a plug 200 is connected to the inside of the branch pipe 200 400 are installed.

The branch pipe 200 may be used to connect another connection pipe branching to the main pipe 100 or may be installed for the purpose of replacing the main pipe 100. The plug 400 installed in the branch pipe 200 is discharged from the branch pipe 200 when the main pipe 100 is pierced or the gas of the main pipe 100 is discharged to the outside through the branch pipe 200 But is installed inside the branch pipe 200 after the end of the operation to prevent the gas from leaking first.

The cover 300 is installed on the upper surface of the branch pipe 200 to protect the plug 400 from an external impact and to prevent secondary gas leakage.

The branch pipe 200 is formed in a cylindrical shape and has a lower pipe 202 whose outer diameter is formed to be equal to the outer diameter of the connecting portion 113 of the saddle 110 and a lower pipe 202 continuously formed on the upper portion of the lower pipe 202, And an upper tube 201 having an outer diameter larger than the outer diameter of the lower tube 202 so that the nut 500 can be insert-molded. At this time, inner diameters of the lower tube 202 and the upper tube 201 are the same, and an inclined portion 203 is formed on the outer circumferential surface of the boundary portion between the lower tube 202 and the upper tube 201.

The outer diameter of the lower tube 202 and the connecting portion 113 are the same so that fusing can be easily performed by a welding machine not shown.

The nut (500) is insert-molded at the time of forming the branch pipe (200). The insert-molded nuts 500 are installed in the vertical direction so that the mouth of the nuts 500 is exposed on the upper surface of the upper pipe 201. The material of the nuts 500 is made of brass .

A plurality of grooves 502 and protruded jaws 501 are alternately formed on the outer circumferential surface of the nut 500. The jaws 501 are formed in a shape of a polygon having a quadrangular or octagonal shape, When the nut 500 is installed on the upper tube 201, the coupling force between the nut 500 and the upper tube 201 is increased to increase the rotational resistance of the nut 500. [ Accordingly, even when the branch pipe 200 is made of a PE material having ductility as compared with PVC, the rotation resistance of the nut 500 is increased, thereby maintaining gas tightness even at high pressure to prevent gas leakage. It is possible to lower the defective fusion rate by making a branch pipe with PE material.

The cover 300 mounted on the upper surface of the upper pipe 201 is coupled to the branch pipe 200 by screwing the bolt 510 into the nut 500. A chuck insertion groove 511 is formed in the head of the bolt 510 and inserted into the nut 500 as much as the threaded length of the bolt 510, The bolts 510 and the nuts 500 can be fastened to the nuts 500 by being rotated by the chucks at the upper portion thereof, so that the bolts 510 and the nuts 500 have a higher bonding force than that of the prior art flanges, It is easy.

In the embodiment shown in FIGS. 2 and 3, the branch pipe 200 is divided into the upper pipe 201 and the lower pipe 202 having different outer diameters. However, in this embodiment, When a nut 500 is insert-molded into a wall forming the upper cylinder and the inlet of the nut 500 is exposed to the upper surface of the wall, that is, the upper surface of the branch pipe 200, The cover 310 can be fastened to the branch pipe by the cap 510.

4 shows a branch of another embodiment of the present invention.

The branch pipe shown in FIG. 4 is provided with a gasket 600 inside the upper surface of the branch pipe 200 and is formed by dr from the inner circumferential surface of the upper pipe toward the nut 500 in order to install the gasket 600, A seating groove 210 for seating the gasket at a depth as low as dl than the inlet of the nut is formed. Since the seating groove 210 is formed only on the inner side of the upper end surface of the upper tube and the gasket 600 is installed on the seating groove 210, the airtightness of the gasket is increased compared with the case where the gasket is provided over the entire upper surface. Leakage can be more completely prevented. At this time, mountains and valleys are alternately formed on the seating surface of the seating groove 210, and the gasket 600 is formed in the shape of being in contact with the mountain and the bone on the seating surface, thereby further enhancing the airtightness. Reference numeral 230 denotes an insertion groove into which the plug 400 is inserted.

100: main tube 110: saddle
113: connection part 200:
201: upper tube 202: lower tube
210: seat 300: cover
400: Plug 500: Nut
600: Gasket

Claims (10)

A branch pipe connected to a saddle having a curved portion contacting the main pipe and a saddle formed outwardly from the curved portion and formed with a connecting portion for discharging gas of the main pipe to the outside,
A lower tube welded to the connection portion;
A plurality of nuts formed in alternating fashion with a plurality of grooves widened inwardly and protruding jaws formed on an outer circumferential surface and having an outer diameter larger than an outer diameter of the lower tube, And an upper tube exposed at an upper surface thereof,
Wherein an upper surface of the upper tube is formed with a seating groove having a lower surface than an inlet of the nut and having a seating surface formed by alternating mountains and valleys from an inner peripheral surface of the upper tube to an upper surface of the upper tube, And a gasket formed with a corrugated structure is provided. delete delete The branch pipe according to claim 1, wherein the upper pipe and the lower pipe are formed of a PE material. delete [4] The branch according to claim 1, wherein a cover is provided on the outer side of the branch pipe, and is coupled to the branch pipe by a bolt passing through the cover and fastened to the nut. delete delete delete delete

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