RU2651923C1 - Cut-off valve - Google Patents

Abstract

FIELD: valves industry.

SUBSTANCE: invention relates to a cut-off valve operating on combustion products of rocket fuels. Cut-off valve comprises a body rigidly connected to a combined plug containing a spherical part and a cylindrical part, an annular detonating charge surrounding the cylindrical part of the plug, electric detonator installed opposite the annular detonating charge, having an annular cumulative groove. Cumulative groove is directed towards the cylindrical part of the plug, the inner part of the body and the combined plug are protected by a heat insulator. Annular detonating charge is clamped by a sleeve made in the form of a glass and sealed against the body with the possibility of axial movement. Through hole is made in the end wall of the sleeve, a cylindrical retainer is mounted in the hole on the adhesive compound, connected by an adhesive compound to the outer spherical surface of the combined plug.

EFFECT: higher reliability of the cut-off valve.

1 cl, 1 dwg

Description

The invention relates to the field of shutoff thrust of solid propellant rocket engines and is aimed at improving shut-off valves operating on the products of combustion of rocket fuels.

A known design of the cut-off assembly, consisting of a nozzle, a cover (made in the form of a thin-walled spherical plug), a detonating charge, an electric detonator, a nozzle and a heat insulator that protects the cover from the effects of heat flux. (A.M. Lipanov, A.V. Aliyev. Design of solid propellant rocket engines. Moscow. Engineering. 1995. P. 306. Fig. 8.36).

The disadvantage of this design is that it is not indicated how the compression of the detonating charge is carried out. In addition, with prolonged exposure to vacuum or in an aggressive environment, for example, in marine conditions, it is necessary to ensure the sealing of the cavity in which the detonating charge is located.

The aim of the invention is to increase the reliability of the shut-off valve.

This goal is achieved by the fact that in the shut-off valve, consisting of a housing rigidly connected to the combined plug containing the spherical and cylindrical parts, an annular detonating charge, covering the cylindrical part of the plug, an electric detonator mounted opposite the annular detonating charge, made with an annular cumulative groove, cumulative the groove is directed towards the cylindrical part of the plug, while the inner part of the housing and the combined plug are protected by a heat insulator , the annular detonating charge is pressed by a sleeve made in the form of a cup and mounted hermetically with respect to the housing with the possibility of axial movement, and a through hole is made in the end wall of the cup in which a cylindrical retainer is mounted on the adhesive composition, connected by an adhesive composition to the outer spherical surface of the combined plug .

The drawing shows a General view of the shut-off valve.

The shut-off valve comprises a housing 1, rigidly connected to a combined plug containing spherical 2 and cylindrical 3 parts. In the housing 1 is an annular detonating charge 4, covering the cylindrical part 3 of the plug. An electric detonator 5 is installed in the housing 1 opposite the annular detonating charge 4. The inner part of the housing 1 and the plug are protected by a heat insulator 6. An insert 7 of erosion-resistant material is installed in the housing 1. An annular detonating charge 4 is pressed against the end wall 8 of the housing 1 by a sleeve 9 made in the form of a glass with an end surface 10 and mounted with respect to the housing 1 with the possibility of axial movement (the presence of an annular gap providing landing movement), on the outer surface 11 of the sleeve 9 is made an annular groove 12 into which a sealing ring 13 is installed, and on the end surface 10 of the sleeve 9 a through hole is made in which a cylindrical retainer 14 is also mounted on the adhesive composition, also connected adhesive composition with an outer spherical surface 2 of the combined plug. An annular detonating charge 4 is made with a cumulative groove 15 directed towards the cylindrical part 3 of the plug. The connection of the plug on the adhesive composition with the sleeve 9 and through the cylindrical retainer 14 provides a stop sleeve 9 in the annular detonating charge 4 without effort (only touch the sleeve 9 and the annular detonating charge 4). The sealing ring 13 is made in the form of an o-ring of rubber.

In the process, through the inlet pipe, the combustion products of fuel having high temperature and pressure enter the internal cavity of the shut-off valve and due to the fact that the internal cavity is protected by the heat insulator 6, the plug does not open prematurely. When an electric signal is supplied to the electric detonator 5, detonation is transmitted to the annular detonating charge 4, the plug is destroyed and, under the action of the pressure of the combustion products, flies out of the housing together with the sleeve 9 and the cylindrical lock 14. Since the sleeve 9 is installed with an annular gap (landing movement), the plug is moved without distortions, and the installation of the sealing ring 13 provides sealing of the cavity in which the detonating charge 4 is located. Sealing of the cavity is also provided by installing a cylindrical lock 14 on the adhesive composition, for example, VK-9 glue.

Thus, the proposed design of the shut-off valve improves the reliability of the shut-off valve due to the correct installation of the annular detonating charge, ensuring the movement of the plug without distortions after its separation and sealing the cavity in which the detonating charge is installed.

Claims (1)

A shut-off valve consisting of a housing rigidly connected to a combined plug containing a spherical and cylindrical part, an annular detonating charge covering the cylindrical part of the plug, an electric detonator mounted opposite the annular detonating charge made with an annular cumulative groove, the cumulative groove is directed toward the cylindrical part of the plug while the inner part of the housing and the combined plug are protected by a heat insulator, characterized in that the annular child iruyuschy charge preloaded sleeve formed in cup shape and mounted sealingly against the housing with the possibility of axial movement and in the end wall of the sleeve has a through hole into which the adhesive composition is mounted on a cylindrical retainer coupled to an adhesive composition with an outer spherical surface caps combined.

Images