KR20190036747A - A rupture disc assemble for coaxially aligned pipes - Google Patents

Abstract

The present invention relates to a rupture disc assembly which is easily installed. According to the present invention, the rupture disc assembly is interposed between a first pipe and second pipe which respectively have flanges (2a, 4a) formed to be extended from a near end unit coming in contact with each other towards a radially external side, and front extension units (2b, 4b) extended forward from a more radially internal side than the flanges. According to the present invention, the rupture disc assembly comprises: a ring member (12) having a cylindrical extension unit (12a) extended backward to be inserted into an external side surface of an end unit of the first pipe; a metal gasket (16) having a guide inclination unit (16a) having an inclined surface guided by coming in contact with an internal side surface of an end unit of the second pipe; and a rupture disc fixated between the ring member (12) and metal gasket (16), wherein the cylindrical extension unit (12a) is combined by wrapping around an external side surface of the front extension units of the first pipe. The guide inclination unit (16a) is desirable to be guided by coming in contact with an inclined internal side surface of the front extension unit of the second pipe. According to the present invention, the rupture disc assembly for the pipe is able to very efficiently perform an installation process.

Description

A rupture disc assembly for coaxially aligned pipes

The present invention relates to a rupturing disc assembly installed between coaxially connected pipes, and more particularly, to a ruptured disc assembly for a pipe which is constructed to be easily installed when it is interposed between a pair of horizontally arranged pipes. Assembly.

The rupture disc may be said to be installed to discharge the fluid inside by being ruptured by the pressure when the pressure applied to the inside exceeds a predetermined value. Such a bursting disc assembly is mainly installed in a pipe, for example, between a pair of pipes 2 and 4 as shown in FIG.

Here, the pipes 2 and 4, which are coaxially connected to each other, are held in a state of being coupled to each other by the arm nut 6 and the male nut 8. [ In FIG. 1, a portion denoted by reference numeral 7 is a female thread portion of the female nut 6 and a male thread portion of the male nut 8, and is a thread portion in which a male thread and a female thread are engaged with each other.

In order to connect the pair of pipes 2, 4 to each other by using the female nut 6 and the male nut 8 as described above, the opposite ends of the pipes 2, 4 have the following structure have. Referring to an enlarged view of FIG. 1, a flange 2a extending radially outward is formed at an end portion of the pipe 2, 4 to be engaged with the inside of the nut 6, 8, And a forward extension 2b extending forward of the flange 2a.

The forward extension 2b is provided with a ring-shaped protrusion 2d projecting in a ring shape. A pair of ring-shaped protrusions 2d contacting each other clamp the rupture disc 1 therebetween. An end inner surface 2c is formed at the end of the pipe 2. The end inner surface 2c is substantially the inner surface of the front projecting portion 2b, It is natural that it is not limited to the same shape but may have another shape. A gasket is integrally attached to one side of the rupturable disc 1.

When the pipes 2 and 4 are installed vertically, it is possible to assemble the nuts by placing the rupture disk on one of the pipes, so that there is no great difficulty in the assembling process can do. However, when the pipes 2 and 4 are arranged horizontally, since there is no part for raising the bursting disc 1, the assembling process becomes substantially difficult.

Disclosure of the Invention The present invention has been made to solve the above problems, and it is an object of the present invention to provide a rupture disk assembly capable of performing a mounting process very efficiently by providing a temporary rupture disk between the pipes even when the pipe is installed horizontally The purpose is to do.

This can be said to have the same meaning as that the rupture disk can be easily assembled even when the piping is arranged in any form such as a horizontal as well as a tilted case.

According to the present invention there is provided a ruptured disc assembly interposed between a first pipe and a second pipe each having a radially outwardly extending flange and a forward extension radially inwardly radially inwardly adjacent to each other, A ring member having a cylindrical extension extending rearward so as to be fitted to the outer surface of the end of the first pipe; A metal gasket having a guide slope portion having an inclined surface that is guided in contact with an inner surface of an end portion of the second pipe; And a rupture disk fixed between the ring member and the metal gasket.

In the present invention, it is preferable that the cylindrical extension part is coupled while covering the outer side of the front extension part of the first pipe.

It is also preferable that the guide inclined portion is formed so as to be guided while being in contact with the inclined inner surface of the front extension portion of the second pipe.

According to the present invention having the above-described configuration, even when the rupture disk is provided between the pipes arranged on both sides arranged in the horizontal direction, the ring member of the rupture disk assembly can be used to maintain the inserted state in the one pipe It is possible to proceed with the operation in the state. Therefore, it is a matter of course that it is installed between the vertical pipes, but it is expected that the advantage of the construction that can be easily installed also in the horizontal pipe.

1 is an exemplary sectional view showing a conventional rupture disk installation structure.
2 is an exemplary sectional view showing a ruptured disc installation structure of the present invention;
3 is an exemplary cross-sectional view of a bursting disc assembly of the present invention.

Hereinafter, the present invention will be described in more detail based on the embodiments shown in the drawings. In the following description of the present invention, the end structure of the piping will be described with reference to the enlarged portion of Fig.

As described above, in order to coaxially connect the pipes by using a pair of nuts, the ends of the pipes (2, 4) have the following structure. Flanges 2a and 4a extending radially outwardly for catching on the inside of the nuts 6 and 8 and flanges 2a and 4a extending radially inwardly of the flanges 2a and 4a are provided at opposite ends of the pipes 2 and 4 connected to each other, And forward extending portions 2b and 4b extending forward. The ring-shaped protruding portions 2d and 4d protrude in a ring shape are provided in the front extension portions 2b and 4b.

As a result of the construction of the end portions, the flanges 2a and 4a are formed on the outermost sides of the ends of the pipes 2 and 4 that contact each other, and the innermost sides of the end portions are provided with the inner side surfaces 2c and 4c. . The inner side surfaces 2c and 4c in this embodiment are formed in an inclined state. The inner side surfaces 2c and 4c may be substantially the inner side surfaces of the front projecting portions 2b and 4b, (Upward or downward in the drawing). However, the inner side in the present invention should be construed to include the inner side surfaces 2f and 4f in the horizontal direction denoted by reference numerals 2f and 4f in Fig. Therefore, in the present invention, the inner surface of the piping 2, 4 also includes inner surfaces 2f, 4f located further inside than the inner surfaces of the front projections 2b, 4b and the projections 2b, 4b And the shape of the inner side surface 2c, 4c or 2f, 4f can not be limited to the shape as shown in the figure.

As shown in Fig. 2, the pair of pipes 2 and 4 having such a structure are held in a state of being coupled to each other by the pair of nuts 6 and 8. That is, the inner latching portion 6a around the through-hole 6c formed at the rear center of the arm nut 6 is supported while being in contact with the rear surface of the flange 2a of the first pipe 2, Is supported on the rear face of the flange 4a of the second pipe 4 while being in contact with the rear face of the flange 4a.

Therefore, when the threaded portions 7 of the female nut 6 and the male nut 8 are tightened while being screwed together, such a screwing force is caught by the flanges 2a and 4a of the pipes 2 and 4, . Here, the rupture disk assembly 10 according to the present invention is interposed between the ends of the both pipes 2, 4.

3, the rupture disk assembly 10 of the present invention comprises a ring member 12 which is in contact with an end of a first pipe 2 and has a vent hole at the center thereof, A metal gasket 16 in contact with an end of the ring member 12 and having a ring shape formed at the center thereof with a ventilation hole and a rupture disc (rupture disc) 16 which is interposed between the ring member 12 and the metal gasket 16, 14). Substantially between the first pipe 2 and the second pipe 4, the rupture disc 14 is maintained in a sealed state in which the rupture discs 14 are disconnected from each other. The ring member 12, the rupture disk 14, and the metal gasket 16 described above are maintained in a completely fixed state by, for example, welding or the like.

The ring member 12 in the present invention has a cylindrical extension 12a extending rearward at its outer end. The cylindrical extension portion 12a has a cylindrical shape and is a portion that closely contacts the outer surface of the front extension portion 2b of the first pipe 2 while covering the outer surface. The back surface (back surface) of the main body 12b of the ring member 12 is a portion to which the ring-shaped protruding portion 2d of the first pipe 2 is closely attached. The cylindrical extension 12a is formed into a cylindrical shape so that when the first extension 2b is inserted into the forward extension 2b of the first extension 2, (2). ≪ / RTI > Therefore, if the cylindrical extension 12a is used well, the rupture disk assembly 10 can be easily inserted between the two pipes 2 and 4 under the environment in which the pipes 2 and 4 are arranged in a horizontal state, You will be able to do it.

At the rear end of the metal gasket 16 of the present invention, an inclined guide portion 16a which is in close contact with the inner surface 4c of the second pipe 4 is formed. When the rupture disk assembly 10 of the present invention is coupled to the horizontal or vertical piping, the metal gasket 16 of the rupture disk assembly 10 is connected to the second pipe 4 So that it can be more easily seated on the inner surface 4c of the main body 4a. That is, since the inclined guide portion 16a has an inclined surface corresponding to the inclined inner surface 4c of the second pipe 4, when the metal gasket 16 approaches and contacts the inner surface 4c Naturally, the correct position will be guided and combined.

The cylindrical extension 12a of the ring member 12 is fitted so as to surround the outer surface of the forward extension 2b of the first pipe 2 And the inclined guide portion 16a of the metal gasket 16 is formed so as to be inclined to correspond to the inner surface 4c of the second pipe 4 so that the connection is guided.

Here, the inclined guide portion 16a can be deformed within a range of being coupled to the inner surface of the second pipe, for example, the inner surface 4f formed on the inner surface as well as the inner surface 4c It is also possible to be combined or to be guided by the inner surface 4f. It is of course possible to perform the functions of the cylindrical extending portion 12a of the ring member 12 and the inclined guide portion 16a of the metal gasket 16 in a reversible manner.

According to the present invention as described above, when the rupture disk assembly of the present invention is substantially interposed between the horizontally arranged first pipe and the second pipe, at least one portion of the rupture disk assembly (for example, Of the rupture disk assembly can be held in a state in which the rupture disk assembly is fitted to the pipe and the other portion of the rupture disk assembly has a sloped guide portion so that the engagement with other pipes can proceed easily with each other .

However, it is believed that various modifications will be possible to those skilled in the art within the scope of the basic technical idea of the present invention. For example, it is sufficient that the cylindrical extension of the ring member is formed so as to be able to come into contact with any outer circumferential surface of the first pipe. And the inclined guide portion 16a of the metal gasket may be guided by the inner surface of the end portion of the second pipe or may be configured sufficiently to be able to maintain a state of being engaged with the inner surface.

2 ..... 1st piping
4 ..... second piping
2a, 4a ..... Flange
2b, 4b ..... front extension
2c, 4c ..... inner side
6 ..... arm nut
8 ..... water nut
10 ..... bursting disc assembly
12 ..... ring member
12a ..... Cylindrical extension
14 ..... burst disk
16 ..... metal gasket
16a ..... < / RTI >

Claims (3)

(2b, 4b) extending forward radially inward from the flange (2a, 4a) extending radially outwardly from the vicinity of the ends abutting each other and a second pipe A ruptured disc assembly;
A ring member (12) having a cylindrical extension (12a) extending rearward so as to be fitted to the outer surface of the end of the first pipe;
A metal gasket (16) having a guide slope (16a) having an inclined surface that is guided in contact with the inner surface of the end of the second pipe; And
And a rupture disk fixed between the ring member (12) and the metal gasket (16).
The method according to claim 1,
Wherein the cylindrical extension (12a) is coupled while enclosing the front extension of the first pipe (12).
3. The rupture disk assembly according to claim 2, wherein the guide inclined portion (16a) is guided while being in contact with the inner side surface of the shoulder portion of the front extension portion of the second pipe.

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