KR101104877B1 - Composite Test Device of Pipe Element - Google Patents

Abstract

The present invention relates to a complex test apparatus for performing the function or operation test of the piping parts such as O-rings, gaskets or diaphragms, and includes an upper enclosure (10a) and a lower enclosure (10b) and fixing means for fixing them. Each enclosure is formed with a fluid inlet (12a, 12b) to enable a sealing test of the fluid, such as air or water, and the inside of the upper and lower enclosures (10a, 10b) by mounting a test piece 14 to compress The upper disc 16a and the lower disc 16b are provided, and the upper and lower discs 16a and 16b have bolt holes formed around the top to secure the test piece 14, and the upper and lower discs 16a and 16b. Each of the upper and lower outer enclosures 10a and 10b is a composite test device for piping components in which an O-ring for sealing is arranged.

Description

Composite Test Device of Pipe Parts

The present invention relates to a device for performing performance tests such as O-rings, gaskets and diaphragms during high temperature and high pressure tests of non-metal parts of equipment used in nuclear power plants, and is used in pumps and valves used in plants such as nuclear power plants. In performing durability test of sealing members such as O-rings and gaskets and operation test of diaphragm of air-driven valves, sealing of various sizes of O-rings, gaskets and diaphragms can be performed by replacing only the flanges as needed in one jig. The present invention relates to a composite test device for piping components, which enables the operation test to be performed at the same time.

The pumps and valves of nuclear power plants are to maintain the sealability and operability of the equipment not only during normal operation but also in case of damage due to design standard accidents and high temperature and high pressure steam is ejected. Pumps and valves in nuclear power plants are mainly made of metal, but sealing parts such as O-rings and gaskets are made of non-metallic materials. In the case of air-driven valves, the diaphragm actuating the valve is also a non-metallic material. Metal parts can operate normally in high temperature and high pressure steam environments, but non-metal parts cannot guarantee normal operation.

For new nuclear power generation equipment, functional tests on O-rings, gaskets, and diaphragms in high temperature and high pressure environments are required to demonstrate that they can function normally.

To demonstrate the sealability and operability of these nonmetallic parts, sealability and operability tests are performed in a high temperature and high pressure chamber. Since each part is different in the same test and the same parts are different in size, the jig for each part and size should be manufactured and tested.

In the case of manufacturing each jig for each component and size according to the related art, the jig manufacturing period becomes longer and the manufacturing cost increases because the jig must be manufactured for each part. Since this increases the test period of each non-metallic part and increases the test cost, it is necessary to devise a new device to improve this.

In order to improve these problems, the composite pipe fitting test apparatus according to the present invention has an original plate installed in the jig and an O-ring groove and a diaphragm fixing bolt installed on the disc to fix the O-ring and the diaphragm so that the O-ring and the gasket are fixed. And diaphragm tests are made to enable both. If the O-ring grooves and diaphragm fixing bolts are positioned differently in the same size flange, it is possible to test different size test specimens simply by replacing the flange.

In order to solve the above problems, the device is designed to perform the sealing test and the operation test of the O-ring, the gasket and the diaphragm at the same time, and to replace the disc of the test object inside the jig enclosure. If the size of the test specimen is different, it is designed to be tested by changing only the position of the O-ring groove and the bolt hole in the same size disc.

Sealing test and operation test of diaphragm of O-rings, gaskets and air-driven valves used in pumps and valves used in nuclear power plants can be performed, and various sizes of O-rings, gaskets and diaphragms can be tested only by replacing the disc. It is designed as a composite test device.

The pipe parts composite test apparatus according to the present invention includes an upper enclosure and a lower enclosure, and fixing means for fixing them, and each enclosure is formed with a fluid inlet and outlet to enable a sealing test of a fluid such as air or water. Inside the upper and lower enclosures, an upper disc and a lower disc are provided for mounting and crimping test pieces, and the upper and lower discs are formed with bolt holes in the periphery to firmly fix the test pieces, and between each of the upper and lower discs and the upper and lower enclosures. O-rings for sealing are arranged.

As described above, the present invention is to perform the functional test of the O-ring, the gasket and the diaphragm of the nuclear power plant equipment, and since the size of the three kinds of non-metal parts vary, only the internal disc in the same jig enclosure structure is replaced as needed Thus, it is possible to perform a functional test of non-metal parts of various kinds and sizes. As mentioned above, if the functional test becomes an essential requirement for the construction of nuclear power plants at home and abroad, the cost of the functional test will be included in the purchase cost of the device, which will increase the manufacturing cost of the device. Therefore, by integrating the jig of the test apparatus to reduce the jig manufacturing cost and jig manufacturing air, this has the effect of reducing the purchase cost of the device and improves the price competitiveness.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic cross-sectional view of a composite test apparatus for piping components according to the present invention.

The outside of the test apparatus is composed of an upper enclosure (10a) and a lower enclosure (10b), each enclosure is formed with a fluid inlet (12a, 12b) to enable the sealing test of the fluid, such as air or water. The sealing test of O-rings and gaskets can be carried out mainly by hydraulic pressure, and the operation of the diaphragm can be tested by pneumatic pressure.

Inside the upper and lower enclosures (10a, 10b) is provided with an upper disk (16a) and a lower disk (16b) for mounting and pressing a test piece (14, for example, a diaphragm). The upper and lower discs 16a and 16b are formed with bolt holes around them to securely hold the test piece 14, and are fixed with a plurality of bolts 18 to fix the test piece 14 such as, for example, a diaphragm. . One of the upper and lower discs 16a and 16b is provided with an O-ring groove 20 for positioning the O-ring.

Moreover, the groove | channel for providing O-rings 22a and 22b for sealing is provided between upper and lower outer enclosures 10a and 10b and each of upper and lower discs 16a and 16b. The upper and lower enclosures and the upper and lower discs are sealed to each other by the O-ring, and fixing means are provided to secure such sealing force. The drawing illustrates that a plurality of fixing bolts 24 are installed around the periphery.

Figure 2 is a schematic perspective view of the test apparatus according to the present invention, the upper enclosure (10a) and the lower enclosure (10b) of the test apparatus shows a fixed state assembled to a plurality of fixing bolts 24 as a fixing means.

Figure 3 shows an exploded state to show the assembled state of each part of the test apparatus according to the present invention.

There are a plurality of fixing bolts 24 and nuts 24a for fixing the upper enclosure 10a and the lower enclosure 10b to each other, and a test piece in which the upper disc 16a and the lower disc 16b are illustrated as diaphragms ( 14 is arranged to crimp and secure, an O-ring 22a for sealing is disposed between the upper enclosure 10a and the upper disc 16a, and a seal is also provided between the lower enclosure 10b and the lower disc 16b. O-ring 22b is disposed.

4 shows an exploded view of the upper disc 16a and the lower disc 16b when the test piece is an O-ring.

An O-ring 14a is disposed between the upper disk 16a and the lower disk 16b, and the plurality of bolts 18 and the plurality of nuts 18a are fixed to each other to fix the upper disk 16a and the lower disk 16b. ) Is provided.

FIG. 5 shows an exploded view of the upper disc 16a and the lower disc 16b when the test piece is a gasket.

A gasket 14b is disposed between the upper disk 16a and the lower disk 16b, and the upper disk 16a and the lower disk 16b are fixed by the plurality of bolts 18 and the plurality of nuts 18a. .

6 shows an exploded view of the upper disc 16a and the lower disc 16b when the test piece is a diaphragm.

A diaphragm 14c, which is a test piece, is disposed between the upper disc 16a and the lower disc 16b, and the diaphragm 14c is arranged between the plurality of bolts 18 and the upper disc 16a and the lower disc 16b. It is fixed by a plurality of nuts 18a.

In the test apparatus according to the present invention, when the O-ring groove and the diaphragm fixing bolt hole are machined in a disc disposed inside the enclosure, the sealing test of the O-ring and the operation test of the diaphragm as well as the sealing test of the O-ring are performed in one apparatus. You can do it. The production radius of the O-ring grooves and diaphragm fixing bolts can be adjusted to the size of the specimen in the same size disk.

Accordingly, the present invention allows the functional test of the O-ring, gasket and diaphragm of nuclear power plant equipment to be carried out by one device. By replacing them as necessary, it is possible to carry out functional tests of nonmetallic parts of various types and sizes. Therefore, it is possible to reduce the jig manufacturing cost and jig manufacturing air by integrating the jig of the test device, which has the effect of reducing the purchase cost of the device and improves the price competitiveness.

1 is a schematic cross-sectional view of a composite test apparatus for piping components according to the present invention.

2 is a schematic perspective view of a test apparatus according to the present invention.

3 shows an exploded state of the test apparatus according to the present invention.

4 shows an exploded view when the test piece is an O-ring.

5 shows an exploded view when the test piece is a gasket.

6 shows an exploded view when the test piece is a diaphragm.

Claims (3)

 The upper enclosure (10a) and the lower enclosure (10b) and the fixing means for fixing them, each enclosure is formed with a fluid inlet (12a, 12b) to enable the sealing test of the fluid, the upper and lower enclosure (10a) , 10b) is provided with an upper disc 16a and a lower disc 16b for mounting and pressing the test piece 14, and the upper and lower discs 16a and 16b are circumferentially fixed to fix the test piece 14 firmly. A bolt hole is formed, and the complex test apparatus of piping parts in which the O-ring for sealing is arrange | positioned between each of the upper and lower disks (16a, 16b) and the said upper and lower enclosures (10a, 10b). The complex test apparatus according to claim 1, wherein one of the upper and lower discs (16a, 16b) is provided with an O-ring groove (20) for positioning the O-ring. The complex test apparatus according to claim 1, wherein the fixing means for fixing the upper and lower discs (16a, 16b) comprises a plurality of bolts and nuts.

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