DE977742C - Flying body with knife-shaped tail wings that can be folded out against the direction of the air - Google Patents

Description

Missiles with knife-shaped folds that can be folded out against the direction of the air Tail wing The invention relates to a missile with opposite to the Direction of flight fold-out knife-shaped tailplane wings in the space around the nozzle throat of the tail engine are arranged and unfolded by a spring-loaded ring and be locked against a stop.

With such missiles should after leaving the runway and pivoting the knife-shaped tail wing out at a predetermined point the trajectory of the body brake wings are unfolded to means of the braking effect to achieve a steep decline curve and thus the mentioned target distance.

It is known that in stabilized missiles the hinged Guide vanes or fins operated by axis-centered or radial spring elements are, and it is also known that a braking effect in missiles and projectiles aimed at changing the flight path by means of a braking parachute or shell-shaped parts will. These braking parts can also be arranged on the projectile head or body Rings, caps and sleeves are made with hinged wings or elastic, endogenous Slot segments of the essays after the release or destruction of a holding member open at the appropriate time in the direction of the trajectory or in the opposite direction. the known braking parts, however, allow due to the low cover or Circular area only a moderate braking effect.

The invention is based on the object by the type of brake wing installation and their arrangement to achieve that before unfolding one of the wings and body-conforming design of the lower surfaces of the brake wings a little Air resistance and after it has been triggered an instant, highly effective one Air congestion with an invertebrate air flow according to aerodynamic knowledge results.

According to the invention this is achieved in that in a missile of the type described above, the tail wing together with a known per se Braking device, whose brake wings can be folded out in the same direction - on a predetermined one Point of the trajectory to be released by destroying a locking organ, are arranged so that a brake wing is mounted between each two tail unit wings is.

To enable such an arrangement, the shell-shaped one is used to accommodate Brake wing one divided into equal sections and attached to the nozzle throat Fork ring, such as an oppositely arranged one as a carrier of the knife-shaped tail wing and slot pot offset to a gap. The wing elements are in the folded state the missile directly, with a brake wing between each two tail wing camps.

Structure and mode of operation of the invention are based on the schematic drawing described as follows. FIG. 1 shows a longitudinal section through the nozzle neck the attached wing and actuating elements and representation of an adjacent one Brake wing and the associated radial ejector spring in the lower half, Fig. 2 the front view of the fork ring for receiving the opened, visible brake wing with the indicated staggered guide vanes, Fig. 3 in front view Schematic section of the folded brake wings, Fig. Q. the side and front view a brake wing, Fig. 5 is a schematic section for the arrangement of the electrical Triggering and Fig. 6 with a schematic section of the holding member for the brake wing the explosives used to destroy the owner.

The tail engine consists of the engine body io with the indicated Propellant charge 17 and the gas discharge nozzle with the inlet opening i 1, an extended Neck 12 and the diffuser 13. When the missile is ejected from a launch tube the pivoting of the knife-shaped tail wing 3o on a socket 37 around the Bolt 38 against the direction of flight up to a stop 35 as an abutment in the guide slot 34 of the slot pot 31. The pressure of the internal axial spring 32 against the ring 33 causes the tail unit wings to pivot out via the eccentric surface 39. After pivoting out, the ring 33 locks the tail wing.

At a predetermined point on the trajectory, fold in the same direction, i. H. against the trajectory, the brake wings 21 around the bore and bolt 26 within of the fork ring 24 attached to the nozzle neck up to the abutment surface 36. They are equipped with a socket 23 and an abutment reinforcement 2o and 2o a. After detonation has been triggered, it is unfolded at the holes located in the bores 14 small explosives by the detonator 15 and the ignition continuation 16 as well as after Destruction of the holding member 27 and latched into a paragraph 22 of the brake wings subsequent ejection by a compression spring 25. The associated with the invention There are particular advantages .darin that as a result of the arrangement of the brake wings an air jam occurs between every two tail unit wings in the unfolded position, which directly influences the ballistic trajectory of the missile, whereby by the concave design of the brake wing taking into account aerodynamic Findings that airflow can flow off without vortex formation.

Claims (2)

PATENT CLAIMS: i. Missile with knife-shaped tailplane wings which can be folded out against the direction of flight, which are arranged in the space around the nozzle neck of the tail engine and are unfolded by a spring-loaded ring and locked against a stop, characterized in that the tailplane wings (30) together with a braking device known per se brake wing (21) which can be folded out in the same direction at a predetermined point of the trajectory by destroying a locking member (27) are arranged so that a brake wing (zi) is mounted between each two tail unit wings (30). 2. Missile according to claim i, characterized in that a fork ring (2q.) As a carrier of the brake wing (21) and a slot pot (31) as a carrier of the tail wing (3o) are attached to the diffuser (13) of the tail engine. Considered publications: German Auslegeschriften No. 321 192, 361 o16, 1 131559 French patent specification No. 1 225 6oi.