DE2817165C3 - Deflection device for jet jets - Google Patents

Description

1 sheet of drawings

Claims (1)

Claim: Deflector for jet jets at supersonic speed of a rocket propelled Missile with at least one arranged on the edge of a rocket nozzle into the nozzle opening retractable deflecting body, wherein at the edge region opposite the deflecting body the Rocket nozzle a wall extending the rocket nozzle is arranged and the wall in which to the Rocket nozzle adjoining area has at least one opening to the ambient air, according to the patent 26 49 672, characterized in that the wall (9) is part of at least one edge area the rocket nozzle (2) extending, radially outwardly curved tube (8) 20th The invention relates to a deflection device for jet jets at supersonic speed rocket-propelled missile with at least one arranged on the edge of a rocket nozzle, in the Nozzle opening retractable deflector body, with the edge area opposite the deflector body of the rocket nozzle a lengthening of the rocket nozzle Wall is arranged and the wall in the area adjoining the rocket nozzle at least one Has an opening to the ambient air, according to patent 26 49 672. The main patent is a deflection device for jet jets of a missile propelled by raketeni placed under protection, with which the transverse force acting on the missile increases significantly can be. For this purpose, the rocket nozzle is placed on the wall area opposite the deflector (spoiler) arranged a wall extending the rocket nozzle. This wall causes the through the retracted spoiler deflected part of the jet due to the Coanda effect rests on the wall and thus leads to a further deflection of the beam feels which with an increase in the lateral force connected is. So that the jet deflected in this way moves forward again after the spoiler has been withdrawn. the wall replaces, the wall in üem points to the Rocket nozzle adjoining area at least one opening to the ambient air. The increase in the transverse force brought about by the Coanda effect can now be achieved according to the invention be further increased that the wall is part of a at least one edge region of the rocket nozzle ve; lengthening. radially outwardly curved tube is. The effect of a pipe arranged in this way "ä: .. The easiest way to describe yourself is if \ ι · ι one according to claim J of the main patent. it is assumed that the wall ii ei; länf ^ und.odi r transverse to the missile length "; axis gel". ' a curved plane. From such a wall a pipe arises when the curvature is yours Missile longitudinal axis is driven so far that the opposite edge areas curved in this way (! ■ :: Touch the wall and thus create an iesschlossenci 25th 30th 35 *O 45 pipe. If the spoiler is now pushed into the nozzle opening to deflect the nozzle jet, the nozzle jet or the part of it deflected from the axial direction, as in the case of the above-mentioned wall, adheres to the inner wall of the part of the directly adjacent to the nozzle edge due to the Coanda effect Pipe and is then drawn further into the pipe. The nozzle jet deflected in this way is thus deflected and carried on not only by a wall acting on one side, but also by a pipe that completely surrounds the jet. The radially outward curvature of the pipe can thus be significantly greater than that of a wall, without the Coanda effect being overcome and the nozzle jet detaching itself from the walls The lateral force has to be increased more than before. In those cases where constant axial thrust is required, only part of the Nozzle jet are diverted. The figures show a schematic representation Embodiment of the inventive concept. F i g. 1 shows a cross section through a rocket nozzle and through the beam path of the jet with the spoiler retracted; Fig. 2 shows the beam path in Fig.! The rocket nozzle shown with the spoiler inserted in FIG. 1 is the end of one in flight rotating missile t with a rocket nozzle 2. which has a spoiler that can be pushed into the jet stream 3 has shown. The jet 4 emerging from the rocket nozzle 2 is concentric to the longitudinal axis of the missile when the spoiler J is retracted. On the side opposite the spoiler 3, the rocket nozzle is · a ·; Wall 9 arranged, which is part of a fringing area.:. the nozzle extending, radially outwardly curved tube 8 is. The wall 9 is attached to the nozzle edge via et, K η small paragraphs. In the paragraph 6 there is an opening 7. The inlet opening of the pipe 8 is beveled so that the nozzle jet 4 does not touch the pipe. This is additionally supported by the ambient air flowing in through the opening 7. Will, as in. . G. 2, the spoiler 3 is inserted into the nozzle jet, the jet is deflected in a known manner and apparatus characterized in d. ^ R · Δ Nanc wall 9 and the tube 8. Due to the Coanda effect, it is diverted!; .. Part of the nozzle jet described above. · ■ drawn into the pipe and, due to its curvature, widened »· outwards. This leads to a substantial increase in the Qiierkrat. against the known deflectors ai. ^: Host. . '.; - Spoiici 5 withdrawn again from the jet 4-. ; ·. as is well known that the jet disappears prir. deflecting shock wave. The surrounding area sucked in through the correspondingly dimensioned opening 7 . releases the nozzle jet 4 again from the inside d '. Wall 9 from, io that the jet then again leaves the rocket nozzle, as shown in FIG. As stated in the main patent, the opening 7 can of course also be stranded here with a controllable closure.