KR20200122562A - Socket preventing damage of socket welding part - Google Patents

Abstract

The present invention relates to a socket connected to a pipe with a small diameter through socket welding and to a socket capable of preventing damage of a socket welded part, which can enhance the durability of the socket welded part by protecting an inner wall of the pipe, inserted into the socket, from inner pressure of the pipe. The socket capable of preventing damage to the socket welded part according to the present invention comprises: a pipe shaped body unit having an outer diameter and an inner diameter; and a pipe insertion unit provided at one end side of the body unit to provide a space into which a pipe is to be inserted, wherein one end side of the body unit is discriminated into an outer side body unit provided at the outer side of the pipe insertion unit on the basis of the pipe insertion unit and an inner body unit provided at the inner side of the pipe insertion unit on the basis of the pipe insertion unit, and the inner side body unit is designed in a protruding shape as compared with the outer side body unit to protect a socket welded root portion of the pipe, inserted into the pipe insertion unit, from the inner pressure of the pipe due to the outer side body unit.

Description

Socket preventing damage of socket welding part

The present invention relates to a socket that can prevent damage to a socket weld, and more particularly, in a socket connected to a small diameter pipe through socket welding, the socket is protected from internal pressure of the pipe inserted into the socket. The present invention relates to a socket that can prevent damage to a socket weld that can improve durability of a weld.

Socket welding is a type of fillet welding applied to the connection part of the pipe and socket-type fittings used in the direction change part of the pipe, and is mainly used to connect small-diameter pipes of 2 inches or less. The socket welding portion in which such socket welding is performed is widely applied in plants or nuclear power plants having pipes made of various pipes, and recently, cracks occur in the socket welding portions of these pipes, increasing the risk of accidents.

1 and 2, the socket welding portion 10 is formed at a connection portion between the fittings 11 such as sockets and the pipe 12. The root portion of the socket-welded portion 10 is usually referred to as the root portion 15. This root portion 15 is difficult to check for defects through non-destructive inspection after welding, and because stress concentration occurs in the discontinuous portion, cracking occurs. easy. The causes of root damage include welding defects, poor penetration, and fatigue load, and the most important cause is the internal pressure of the pipe due to the flow of fluid and gas in the pipe. The internal pressure of the pipe acts toward the inner wall of the pipe, concentrating excessive stress on the root portion of the socket weld 10, leading to damage.

On the other hand, until the crack of the socket-welded part 10 grows to the surface, the occurrence of crack cannot be visually confirmed, and after the crack grows to the surface, the risk of explosion of the pipe increases. Before the cracks in the socket welds 10 grow and are exposed to the outside, it is necessary to inspect whether or not cracks occur, but it is not easy to detect the cracks in the socket welds 10.

Various methods are used to detect cracks occurring in such socket welds at an early stage, and a representative one is a non-destructive test method such as a liquid penetrant test or a magnetic particle test, which is a surface test. However, this non-destructive testing method can detect only when the crack has grown to the surface and completely penetrated.

Korean Patent Publication No. 2015-49435

The present invention was conceived to solve the above problems, in a socket connected to a small-diameter pipe through socket welding, the durability of the socket-welded portion by protecting the welding root portion of the pipe inserted into the socket from internal pressure in the pipe. An object thereof is to provide a socket that can prevent damage to the socket weld that can be improved.

A socket capable of preventing damage to the socket welding portion according to the present invention for achieving the above object comprises: a tubular body portion having an outer diameter and an inner diameter; And a pipe insertion portion provided at one end of the body portion to provide a space into which the pipe is inserted, wherein one end side of the body portion includes an outer body portion provided outside the pipe insertion portion based on the pipe insertion portion, and a pipe It is divided into an inner body part provided on the inside of the pipe insertion part based on the insertion part, and the inner body part is designed to protrude compared to the outer body part, and the pipe inserted in the pipe insertion part is protected from the internal pressure of the pipe by the outer body part. It is characterized by being.

One end of the inner body portion is processed in an oblique shape, so that an internal pressure perpendicular to the oblique line of the inner body portion acts, so that axial stress can be attenuated.

A socket welding part may be formed on one end of the outer body part, and the pipe inserted into the socket is supported by the socket welding part on the outside and the inner body part on the inside.

A socket welding part may be formed on one end of the outer body part while the pipe is inserted into the pipe insertion part of the socket, and the height of the inner body part corresponds to a point at which one end of the socket welding part is located.

Since an adhesive is provided in a gap between the pipe insertion part and the pipe, it is possible to prevent a vertical load from being generated in the gap between the pipe insertion part and the pipe. In addition, the pipe insertion portion and the lower end of the pipe are threaded to induce screwing of the pipe insertion portion and the pipe, thereby preventing a vertical load from being generated in a gap between the pipe insertion portion and the pipe.

The socket capable of preventing damage to the socket weld according to the present invention has the following effects.

As the pipe inserted into the socket is supported by the socket welding part on the outside and the inner body part on the inside, it is possible to minimize the load acting on the root part of the socket welding part. In addition, the internal pressure of the pipe acting from the inside of the pipe is protected by the inner body part, and the axial load that causes damage to the socket welding part is relieved by processing in a diagonal shape, thereby minimizing damage to the socket weld part by the internal pressure of the pipe. There will be.

1 and 2 are reference diagrams showing a connection structure between a socket and a pipe according to the prior art.
3 is a block diagram of a socket capable of preventing damage to a socket weld according to an embodiment of the present invention.
4 is a reference diagram for explaining the internal pressure of a pipe acting on a socket capable of preventing damage to a socket weld according to an embodiment of the present invention.
5 and 6 are configuration diagrams of a socket capable of preventing damage to a socket weld according to another embodiment of the present invention.

Hereinafter, a socket capable of preventing damage to a socket weld according to an embodiment of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 3, a socket capable of preventing damage to a socket welding portion according to an embodiment of the present invention includes a body portion 30 having an outer diameter and an inner diameter. The body portion 30 is expressed differently, and forms a tube shape having a predetermined thickness, and the thickness of the body portion 30 is defined by a difference between an outer diameter and an inner diameter.

One end side of the body part 30 is provided with a pipe insertion part 33 into which a small diameter pipe 12 is inserted and fixed. The pipe insertion part 33 has a certain depth and width, and is provided at a certain distance from the inner diameter or the outer diameter of the body part 30. The space of the pipe insertion part 33 is arranged in a form concentric with the inner diameter and the outer diameter of the body part 30.

On the other hand, at one end of the body portion 30 provided with the pipe insertion portion 33, one end of the body portion 30 is provided outside the pipe insertion portion 33 with respect to the pipe insertion portion 33 It is divided into an outer body part 31 and an inner body part 32 provided inside the pipe insertion part 33 based on the pipe insertion part 33. That is, the space of the pipe insertion part 33 is defined by the outer body part 31 and the inner body part 32.

In the present invention, the outer body portion 31 and the inner body portion 32 are designed to have different lengths on a vertical line. Specifically, the inner body portion 32 is designed to protrude compared to the outer body portion 31. In other words, the outer body portion 31 may be referred to as an outer tube, and the inner body portion 32 may be referred to as an inner tube, and the inner tube protrudes to the outside of the socket in comparison to the exterior.

The reason for designing the inner body part 32 in a protruding shape compared to the outer body part 31 is that the internal pressure of the pipe 12 acts on the inner wall of the pipe 12 inserted into the pipe insertion part 33. It is to suppress. That is, the inner body 32 is designed in a protruding shape compared to the outer body 31 to protect the inner wall of the pipe 12 through the outer body 31, and through this, the inner pressure of the pipe 12 is reduced to the pipe ( 12) It is possible to minimize the effect on the inner wall. In addition, as the internal pressure of the inserted pipe acts in the circumferential direction, the pipe may be deformed, and due to this deformation of the inserted pipe, the gap existing in the pipe insertion part is blocked to minimize the transfer of internal pressure between the corresponding gaps. You can do it. Here, the internal pressure of the pipe means a pressure acting by a fluid or gas flowing in the pipe.

In addition, one end of the inner body 32 is processed in a diagonal shape. The reason why one end of the inner body part 32 is processed in a diagonal shape is that the load in the direction perpendicular to the diagonal part of the inner body part 32 is applied to the socket welding part by applying an axial load that causes damage to the socket welding part. It is to weaken the applied stress (see Fig. 4).

On the other hand, the socket welding portion 10 is formed on one end of the outer body portion 31. As shown in FIG. 3, fillet welding is performed on one end of the outer body part 31 while the pipe 12 is inserted into the pipe insertion part 33 of the socket, thereby forming the socket welding part 10. The height (or length) of the inner body 32 may be designed to correspond to a point at which one end of the socket weld 10 is located. In this form, the pipe 12 inserted in the insertion part of the pipe 12 may be supported by the socket welding part 10 on the outside, and supported by the inner body 32 on the inside.

In this way, as the pipe 12 inserted into the socket is supported by the socket welding part 10 on the outside and supported by the inner body 32 on the inside, the stress acting on the socket welding part 10 is reduced. Can be reduced. In addition, as described above, the internal pressure of the pipe 12 acting from the inside of the pipe 12 is protected by the inner body portion 32 and the stress is attenuated by processing in the oblique shape, so that the internal pressure of the pipe 12 It is possible to minimize damage to the socket welding part 10.

In another embodiment of the present invention, a vertical load is generated due to a gap between the pipe insertion part 33 and the pipe 12 in the state where the pipe 12 is inserted into the pipe insertion part 33. As a measure to prevent this, an adhesive is injected into the gap between the pipe insertion part 33 and the pipe 12 (see FIG. 5), or the lower end of the pipe insertion part 33 and the pipe 12 is threaded ( See FIG. 6).

By injecting an adhesive into the gap between the pipe insertion part 33 and the pipe 12, it is possible to prevent the vertical load from being generated in the gap between the pipe insertion part 33 and the pipe 12. I can. In addition, by threading the lower end of the pipe insertion portion 33 and the pipe 12 and inducing screwing of the pipe insertion portion 33 and the pipe 12, the pipe insertion portion 33 and the pipe 12 It is possible to prevent the vertical load from being generated in the space (gap).

10: socket welding part 12: piping
30: body portion 31: outer body portion
32: inner body part 33: pipe insertion part
34: adhesive

Claims (6)

A tubular body portion having an outer diameter and an inner diameter; And
Containing a pipe insertion portion provided at one end of the body portion to provide a space into which the pipe is inserted,
One end of the body part is divided into an outer body part provided outside the pipe insertion part based on the pipe insertion part, and an inner body part provided inside the pipe insertion part based on the pipe insertion part,
A socket capable of preventing damage to the socket-welded portion, characterized in that the inner body portion is designed to protrude compared to the outer body portion, and the pipe inserted in the pipe insertion portion is protected from internal pressure in the pipe by the outer body portion.
The method of claim 1, wherein one end of the inner body part is processed in a diagonal shape, so that an internal pressure perpendicular to the diagonal line of the inner body part acts to attenuate the axial stress. socket.
The method of claim 1, wherein the socket welding part may be formed on one end of the outer body part,
A socket capable of preventing damage to the socket weld, characterized in that the pipe inserted into the socket is supported by the socket welding part on the outside and the inner body part on the inside.
The method of claim 1, wherein a socket weld portion may be formed on one end of the outer body portion in a state in which the pipe is inserted into the pipe insertion portion of the socket, and the height of the inner body portion corresponds to a point where one end of the socket weld portion is located. A socket that can prevent damage to the socket welds.
The socket according to claim 1, wherein an adhesive is provided in a gap between the pipe insertion part and the pipe to prevent a vertical load from being generated in the gap between the pipe insertion part and the pipe. A socket that can prevent damage to the weld.
The method of claim 1, wherein the pipe insert and the lower end of the pipe are threaded to induce screwing of the pipe insert and the pipe to prevent the vertical load from being generated in the gap between the pipe insert and the pipe. A socket that can prevent damage to the socket welding portion, characterized in that the.

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