KR100897408B1 - Apparatus for testing airtight of pipe connecting portion - Google Patents

Abstract

The present invention, at least two pipes to be connected; A casing installed to surround the connecting portions of the pipes and forming an inner space; An oil and port porter which is in communication with the inner space portion outside the casing for introducing and discharging gas; A pressure measuring porter communicating with the inner space portion outside the casing and measuring a gas pressure on the inner space portion; to provide.

According to this, it is possible to measure the pressure even when any one of both ends of the connected pipes is open, and there is an advantage that the airtight test can be easily performed on the outside of the pipe even when there is a pressure difference inside the connected pipes.

Piping connection, pressure measurement, leak test

Description

Apparatus for testing airtight of pipe connecting portion}

The present invention relates to an airtight test apparatus for a pipe connection, and more particularly, to an airtight test apparatus for a pipe connection to enable the airtight test outside the pipe connection.

In general, the connection of the two pipes is to maintain the air tightness by attaching a flange to each pipe and put an O-ring to maintain the airtight between them, and tightened with bolts and nuts. After the two flanges are fastened, the airtightness gas is inserted and pressurized in the pipe to check the airtightness to determine the airtightness.

To this end, both ends of the pipe should be blocked, and if the structure is open, a separate device for maintaining the airtightness of the part is required additionally, there is a problem that the structure of the airtight test device is complicated.

In addition, if there is a pressure difference in the front and rear ends of the pipe connected by the turbo pump and other machinery of the liquid rocket engine, it is impossible to simultaneously apply the low pressure and high pressure into the pipe, there is a problem that the airtight test is limited.

The present invention has been made in view of the above problems, and when the airtight test of the pipe connection, at least one of the both ends of the pipe is open or there is a pressure difference easily outside the pipe when there is a pressure difference inside the connected pipes. The purpose is to make it possible.

The present invention to achieve the above object, at least two pipes to be connected; A casing installed to surround the connecting portions of the pipes and forming an inner space; An oil and port porter which is in communication with the inner space portion outside the casing for introducing and discharging gas; A pressure measuring porter communicating with the inner space portion outside the casing and measuring a gas pressure on the inner space portion; to provide.

As described above, according to the present invention, it is possible to actively measure the pressure irrespective of whether a pair of pipes are open at both ends. There is an advantage that the airtight test can be easily performed on the outside.

Hereinafter, with reference to the accompanying drawings looks at in detail with respect to the airtight test device of the pipe connection according to an embodiment of the present invention.

1 is a perspective view of a state without the piping in the gas tight test apparatus of the pipe connection according to an embodiment of the present invention, Figure 2 is a bottom view of Figure 1 is a view of the state without the lower cover, Figure 3 is Figure 1 4 is a bottom view of FIG. 3, FIG. 5 is a perspective view of the bottom cover of FIG. 1, FIG. 6 is a bottom view of FIG. 5, and FIG. 7 is a sealing member of FIG. 2. It is a perspective view shown.

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the configuration shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, these can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

As shown in the figure, the airtight test apparatus 100 of the pipe connection of the present invention is a pair of pipes (110) (111) to be connected, and the connection portion 115 of the pair of pipes (110) (111). Installed to surround the casing 120 to form the inner space portion 120a, and the upper cover 121 to be described later of the casing 120 is communicated to the inner space portion 120a to introduce and discharge gas In order to measure the gas pressure on the inner space portion (120a) is communicated to the inner space portion (120a) and the outer port 120 (140), and the outer cover 121 of the casing 120 to be described later Temperature measuring porter 150 and the temperature measuring porter 160 which communicates with the inner space portion 120a outside the upper cover 121 to be described later of the casing 120 to measure the gas temperature on the inner space portion 120a. ) And a seal interposed between the casing 120 and the contact portion of the casing 120 such that the pipe 110 is hermetically coupled. It is configured to include a member (170).

The pair of pipes 110 and 111 are fastened by a connection part 115 formed to be hermetically formed with a flange, a bolt and a nut. The fastening structure of the connection unit 115 is not limited thereto, and may be variously implemented, such as welding.

The casing 120 has a semi-cylindrical shape corresponding to each other in a semi-circular shape so as to contact the outer diameter of the pipes 110 and 111 so that the pipes 110 and 111 penetrate the inner space 120a. The upper and lower lids 121 and 123 in which the grooves 121a and 123a are formed, respectively, are installed in the outer diameters of the contact portions of the upper and lower lids 121 and 123, respectively. It consists of a 'shaped flange 125.

At this time, the inner diameter of the semicircular grooves 121a and 123a of the upper and lower lids 121 and 123 is differentially formed according to the outer diameters of the pipes 110 and 111.

In addition, the upper cover 121, as shown in Figure 3, 4, along the end is formed with a groove groove 121b is formed symmetrically with each other 'C', the installation groove 121b is the semi-circle The middle of the groove 121a is formed to connect with the insertion groove 121c recessed in the circumferential direction.

5 and 6, the middle of the semi-circular groove 123a is concave in the circumferential direction so as to correspond to the insertion groove 121c of the upper cover 121. The gin insertion groove 123c is formed.

As shown in FIG. 7, the sealing member 170 has a contact portion between the upper and lower lids 121 and 123 and the contact portion between the pair of pipes 110 and 111. A pair of 'c' shaped seals 171 and a pair of annular seals 172 are formed to be integrally formed so that the grooves of the upper and lower covers 121 and 123 are formed as shown in FIG. 2. The upper and lower lids 121 and 123 are inserted into the 121b and the insertion grooves 121c and 123c so that the upper and lower covers 121 and 123 are in close contact with each other.

Hereinafter, the airtight test apparatus of the pipe connection of the present invention configured as described above acts as follows.

After the airtight test apparatus 100 is connected to the pipe connecting portion 115 to be inspected, the gas pressure change on the inner space 120a is measured while injecting and discharging gas into the inner space 120a of the casing 110. .

At this time, it is possible to check whether the airtightness on the connection part 115 of the pipes 110 and 111 through the fluctuation of the measured pressure value.

According to the airtight test apparatus 100 of the present invention, it is possible to measure the pressure even in the open state of any one of the both ends of the connected pipe 110, 111, and there is a pressure difference inside the connecting pipes and connected pipes Even if there is a difference in the diameter of these, there is an advantage that the airtight test can be easily performed on the outside of the pipe.

1 is a perspective view of a state without a pipe in the airtight test device of the pipe connection portion according to an embodiment of the present invention.

Figure 2 is a bottom view of Figure 1 is a view of the state without the lower cover.

3 is a perspective view illustrating the top cover of FIG. 1.

4 is a bottom view of FIG. 3.

5 is a perspective view illustrating the lower cover of FIG. 1.

6 is a bottom view of FIG. 5.

7 is a perspective view illustrating the sealing member of FIG. 2.

Claims (4)

The semi-cylindrical upper and lower lids 121 and 123 having both ends closed are coupled to correspond to each other to form an inner space portion 120a, and the pipes 110 and 111 are connected to the upper and lower lids 121 and 123. Semicircular grooves 121a and 123a at both ends of the upper and lower lids 121 and 123 contacting the outer diameters of the pipes 110 and 111 so as to penetrate the inner space 120a through the closed both ends of the pipes 110 and 111. Are respectively formed, and the upper and lower covers 121 and 123 are respectively formed with insertion grooves 121c and 123c recessed in the circumferential direction on the semicircular grooves 121a and 123a to correspond to each other. The upper cover 121 includes a casing 120 having a “c” self-installing groove 121b formed along an end of the upper cover 121 so as to connect with the insertion groove 121c; Oil and port porter (130, 140) is in communication with the inner space portion 120a on the outside of the casing 120 for introducing and discharging gas; And a pressure measuring porter (150) communicating with the inner space (120a) outside the casing (120) to measure the gas pressure on the inner space (120a). The method of claim 1, The casing (120) is an airtight test apparatus of a pipe connection, characterized in that it further comprises a 'c'-shaped flange 125 is installed on the outer diameter of the contact portion of the upper, lower cover and fastened with bolts and screws. delete The method of claim 1, The casing 120 has a pair of 'c'-shaped seals 171 which are respectively inserted into the mounting grooves 121b of the upper cover 121 and the insertion grooves 121a of the upper and lower covers 121 and 123. , 123a) each of the annular sealing 172 is inserted into the airtight test device of the pipe connection, characterized in that it comprises a sealing member (170) formed integrally.

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