RU57408U1 - SEAL - Google Patents

Abstract

Usage: in pneumatic equipment, pipelines of hot and cold water, during pneumatic and hydraulic testing of vessels and their structural elements working under pressure. Goal: Accelerate the installation of vessels on stands during testing. Improving the reliability of compaction both during testing and in long-term operation. The essence of the utility model: A seal, contains at least two sealing surfaces on one of which there is a groove or groove for a gasket or o-ring made of soft non-metallic material, for example: rubber, polyurethane, leather, paronite, fluoroplastic, asbestos and is characterized in that each edge of the groove or groove is made with an angle of inverse taper a, and after the first assembly, one of the sealing surfaces together with a soft gasket or sealing ring forms an integral connection. Effect: improving the quality of testing and installation work in the production and operation of vessels and pipelines operating under pressure.

Description

The proposed technical solution relates to sealing devices and may find application in pneumatic equipment, pipelines of hot and cold water, during pneumatic and hydraulic testing of vessels and their structural elements working under pressure.

In this field of technology, sealing devices of various designs are used very widely. See, for example, GOST 12820-80 “Flat steel welded flanges on Ru from 0.1 to 2.5 MPa (from 1 to 25 kgf / cm ² ). Design and dimensions. " To seal between them (create a sealed connection), gaskets are used from a soft material: rubber, fluoroplastic, etc.

The disadvantages of this and similar designs include insufficiently reliable fixing of the gasket and the lack of protection against extrusion in the event of an emergency increase in pressure in the system.

The prototype of the proposed technical solution is the seal described, for example, in GOST 12815-80 “Flanges of valves, fittings and pipelines on PN from 0.1 to 20.0 MPa (from 1 to 200 kgf / cm ² ). Types. Connecting dimensions and dimensions of sealing surfaces. " It is characterized by the fact that their sealing surface has a cavity (groove) for installing a gasket in it. This design is more perfect, however, and it does not provide reliable fixation in the groove sealing

gaskets after disconnecting the flange and the connector of the sealing joint. And such a fixation in some cases, for example, during bench tests using plugs, allows, after the first assembly, to significantly reduce the installation of subsequent samples of the tested equipment on the stand.

The technical result of the proposed technical solution is to increase the reliability of the sealing joint.

The specified technical result is achieved in that the seal contains at least two sealing surfaces, on one of which there is a groove or groove for a gasket or o-ring made of soft non-metallic material, for example: rubber, polyurethane, leather, paronite, fluoroplastic, asbestos and differs the fact that each edge of the groove or groove is made with an angle of inverse taper α, while after the first assembly, one of the sealing surfaces forms together with a soft gasket or o-ring removable connection.

The essence of the claimed technical solution consists, therefore, in the fact that in the seal the groove or groove for the gasket or ring has the opposite taper at the edges and during the first assembly the soft gasket is pressed into one of the sealing surfaces with the formation of an integral connection. It should be noted that the press fitting in this case is not an additional assembly operation, but occurs by itself as a result of tightening of the sealing surfaces, for example, by means of a bolt or other known connection and deformation of the material of the gasket or ring.

The essence of the claimed technical solution is illustrated by the drawing, which schematically shows the proposed seal. On it, the numbers 1 and 2 indicate the sealing surfaces, position 3 - the groove for the sealing ring with corners α of the inverse taper along the edges. The sealing ring itself is indicated in the drawing by 4, and the bolts of position 5, with the nuts of position 6, provide a fixed connection of the entire structure after assembly.

The proposed seal design is more convenient than the known ones. provides reliable fixation in the groove of the gasket or ring and, in addition, when used in pneumatic and hydraulic test benches as plugs, it allows you to speed up the test, because after the first assembly, one of the sealing surfaces forms, together with a soft gasket or a sealing ring, an integral connection, which facilitates the installation of subsequent samples of the tested equipment on the stand.

Depending on the mechanical properties of the material of the o-ring, the inverse taper angle α is recommended to be selected within the range of 2 ° ... 8 °. In this case, a softer and more plastic material should correspond to a larger angle.

The described design of the seal was used, for example, at Biysk Boiler Plant OJSC at test benches 9.58. 0483.0000 for pneumatic testing of ash collectors 23.8312.007, 23.8312.010, 23.8312.013, documentation codes T.58.0760.0000; T.58.0761.0000; T.58.0762.0000 and only its application allowed to obtain the technical specifications necessary for them.

Using the proposed technical solution, in comparison with the known ones, reduces the complexity of bench testing of pneumatic and hydraulic equipment during the production process, and if used in structures designed for long-term operation will improve their reliability and quality characteristics.

Claims (2)

1. A seal containing at least two sealing surfaces, on one of which there is a groove or groove for a gasket or o-ring made of soft non-metallic material, for example: rubber, polyurethane, leather, paronite, fluoroplastic, asbestos, characterized in that each the edge of the groove or groove is made with an angle of inverse taper α, and after the first assembly, one of the sealing surfaces forms an integral joint together with a soft gasket or O-ring. 2. The seal according to claim 1, characterized in that the inverse taper angle α of each edge of the groove under the soft gasket or o-ring is 2 ... 8 ° depending on the mechanical properties of the material used for their manufacture.