SU1749693A1 - Rocket part separation recording device - Google Patents

Abstract

This invention relates to rocket and space technology. The aim of the invention is to provide a device that fixes the separation of parts of a rocket operating under high (overload up to 10,000 units) shock loads and powerful gas-dynamic flows, when, for example, pyrotechnic means are triggered. The device contains: a textolite base 1 fixed to the subsequent part of the rocket 2, electrically conducting clamps 4, 5 in the form of brackets, pressing a portion of the metal cable 6 with a current-conducting coating applied to it to the base 7, the other end of the cable embedded in the support tip 8 which is attached to the previous part of the rocket 11 by a textolite gasket 9 and a bracket 10. A cable connected electrically to the rocket measuring system is connected to the electrically conducting clamps 4, 5 via electrical contacts. 3 Il. WITH

Description

The invention relates to rocket technology and can be used to fix the separation of parts of a rocket or spacecraft.

Devices are known for fixing the separation of parts of a rocket, for example, a contact sensor (see drawing 15L59MO-0, 1977, developed by the Design Bureau of the Scientific-Production Association of the Scientific Production Association NPO Energiya, which contains a spring-loaded rod closing or opening electrical contacts. The disadvantage of this sensor is the low shock load conditions (overload up to 100 units) and, as a result, the impossibility of using the sensor together with the separation unit based on a cumulative charge (overload up to 10,000 units).

A device for fixing the separation of parts of a rocket in the form of a three-petal jumper is known, the two petals of which are electrically connected with the measurement system of the subsequent part, and the third lobe is fixed to the previous part of the rocket (see drawing 0160A-0 of GKB NPO Energiya, 1982).

This device is closest to the proposed solution and also has a significant disadvantage, since the experience and experimental processing of separation units based on cumulative charge show that the gas-dynamic jet of powder gases from the cumulative charge of the separation unit destroys the jumper causing incorrect information.

The aim of the invention is to create a device that fixes the separation of hours.

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This is a rocket operating under high (overload up to 1000 units) shock loads and impervious to gas-dynamic flow of powder gases of a cumulative charge.

This goal is achieved by a device for fixing the moment of separation of parts of the rocket, containing a discontinuous jumper fixed on the basis of the subsequent part of the rocket and connected electrically to the measurement system; the discontinuous jumper is made in the form of a cable, one end of which is made conductive and fixed on the basis of the subsequent part of the rocket by means of current-carrying clamps, and the other end of it is rigidly connected with the previous part of the rocket,

1 shows a plan view of a device; 2 is a section A-A in FIG. one; on fig.Z - section bb in figure 1.

The device contains a textolite base 1 fixed on the subsequent part of the rocket 2 with screws 3, electrically conducting clamps 4, 5, pressing a portion of the metal cable 6 with a conductive coating 7 applied to it, the other end of the cable 6 through the support tip 8 using a textolite gasket 9 and the bracket 10 is fixed to the previous part of the rocket 11; to the electrically conductive clamps 4, 5, a cable 14 is connected via electrical contacts 12.13, electrically connected with the rocket measuring system.

When parts of the rocket 2, 11 are separated, through electric connector 15, the command is triggered to trigger the separation unit 16 on the basis of cumulative charge 17. The rocket parts split along the separation plane 18. At the time of the separation unit 16, the cable 6 does not change its position gas-dynamic effect of powder gases, as it is fixed by the clamps 4, 5 on the subsequent part of the rocket and has a low sail. By the stroke of the detachable part of the missile 11, a portion of the cable 6 with the conductive coating 7 comes out of contact with the conductive clamp 4, thereby opening the electrical circuit. The rocket measurement system signals a split.

The device eliminates the break of the jumper until the separation of the rocket parts.

Thus, the use of the proposed invention significantly improves the reliability of the rocket measurement system in terms of obtaining information on the separation of its parts.

Claims (1)

Invention Formula A device for fixing the separation of parts of a rocket, containing a discontinuous jumper fixed on the basis of the subsequent part and electrically connected to a measurement system, characterized in that, in order to improve the reliability of fixing the moment of separation of parts under the influence of shaped charge gases, the discontinuous jumper is made in the form of a cable , one end of which is conductive and fixed on the basis of the subsequent part of the rocket by means of current-carrying clamps, and the other end of it is rigidly connected to the previous part Aketi. Fig FIG. Z 6-6 FFG.Z