RU95102599A - Rocket - Google Patents

Abstract

FIELD: rocketry. SUBSTANCE: rocket has stabilizing device mounted in rear portion of engine. Stabilizing device consists of blades articulated with housing by means of connecting pins inserted through ears. Split housing of stabilizing device is made in form of thin-walled metal cylinder with ports, inclined bosses provided with tapped holes and ears located at angle relative to rocket axis. Propellers are mounted in holes of inclined bosses at angle relative to blades. Spring-loaded blades consist of base and thin-walled plate fastened together. Blade base is made in form of through-shaped cam with tooth. Connecting pins are made in form of cylindrical rods of varying diameter with central eccentric. Plate springs resting against tooth of blade base cam are mounted on inner side of housing of stabilizing device opposite port under each blade. Connecting pins are provided with heads for wrench and are locked in ear of housing by means of retainer made in form of hollow cylinder with radial boss received by radial slot of ear of stabilizing device housing. Stabilizing device of such construction is intended for mounting on supersonic small-size guided rockets. It operates as follows: in launching the rocket from transport-launch container, blades of stabilizing device twisted clockwise and mounted at angle relative to rocket axis get straightened due to energy of spring-loaded wing, imparting the pushing pulse to wing; blades caught by incoming air flow are reliably locked in working position by means of locks, thus rocket is stabilized in active path of flight. EFFECT: enhanced reliability of opening of stabilizing device and reliable adjustment of each blade at working angle.

Claims (1)

The invention relates to the field of rocketry. An object of the invention is to increase the reliability of the disclosure of the stabilizing device to the operating position by performing a spring blade and the use of an incoming air flow, as well as ensuring the reliability of adjustment of each blade at a working angle. This goal is achieved by the fact that in a rocket with a stabilizing device installed on the rear of the engine, consisting of blades pivotally connected through the eyes to the stabilizer housing by connecting fingers, the stabilizer housing is detachable and is a thin-walled metal cylinder with windows, inclined tides with threaded holes and eyes located at an angle to the axis of the rocket, while in the holes of inclined tides at an angle to the blades installed screw s, and the blades are spring-loaded and consist of a blade plate fastened together and a thin-walled spring; the blade base is made in the form of a trough-shaped cam with a tooth, and the connecting fingers are in the form of cylindrical stepwise descending, variable diameter rods with a central eccentric, on the inner side of the housing of the stabilizing device opposite the window under each blade, leaf springs are installed and attached to the housing with an emphasis in the tooth of the cam of the base of the blade, while Interconnect fingers stabilizing means are arranged under the key head and are locked in the housing lug Spanner lock in the form of a hollow cylinder with a radial tide disposed lugs in the radial groove housing the stabilizing device. A stabilizing device of this design is intended for installation on supersonic small-sized guided missiles and works as follows. When the rocket starts and leaves the transport and launch container, the blades of the stabilizing device rolled up clockwise and set at an angle to the axis of the rocket are straightened by the energy of the spring wing, giving a pushing impulse to the wing, and caught by the air flow are reliably fixed by stoppers in the working position, while stabilizing rocket in the active phase of the flight.