RU94024971A - Deceleration device for high-speed rocket - Google Patents

Abstract

FIELD: rocketry, can be used in rescued research high-speed rockets, as well as for deceleration of ammunition, for example, released from air carriers at high speeds, or rocket stages. SUBSTANCE: deceleration device for high-speed rocket uses the main parachute in a container, initial deceleration device positioned on the rear part of the container, attachments of the main parachute and initial deceleration device all arranged in tandem in the rocket tail. The main parachute attachment assembly is made in the form of a compression spring telescopically installed before the parachute container on the central boom rigidly joined to the rocket body, between its rear end shoulder and the front bottom enveloping the spring of the barrel installed in the rocket body and furnished with a collet in the rear part with an internal shoulder and bevel engageable with the mating bevel of the external shoulder made on the front part of the main parachute container, installed inside the rocket body and connected to it by a destructible attachment member; the rocket body is furnished with an internal encircling groove made before the barrel rear end, and the groove width exceeds the length of the barrel collet part; a destructible attachment member is installed before the supporting spring coil on the central boom. EFFECT: enhanced reliability due to the use of incoming flow energy as a drive of the parachute detachment assembly.

Claims (1)

The invention relates to rocket technology and can be used in the construction of rescue high-speed research missiles, as well as for braking ammunition, for example, dropped from air carriers at high speeds, or missile stages. The aim of the invention is to increase reliability by using free-stream energy as the drive for unlocking the main parachute, which automatically unlocks the device when it reaches a certain value. The braking device for a high-speed rocket comprises a main parachute in a container tandem located in the rear part of the rocket, an initial braking device located on the rear of the container, fixation units for the main parachute and initial braking devices. In it, the fixation device for the main parachute is made in the form of a compression spring telescopically mounted in front of the parachute container on a central rod rigidly connected to the rocket body between its rear end shoulder and the front bottom of the glass covering the spring, mounted in the rocket body and equipped with a collet with an internal shoulder in the rear and a bevel that interacts with the reciprocal bevel of the outer shoulder made on the front of the container of the main parachute mounted inside the rocket body and connected with it a destructible locking element, while the rocket body is equipped with an inner annular groove made in front of the rear end of the glass, and the width of the groove exceeds the length of the collet part of the glass, and in front of the front support coil of the spring, a destructible fixing element is installed on the central rod.