RU2074378C1 - Spin-stabilized missile - Google Patents

Abstract

FIELD: artillery ammunition, missiles. SUBSTANCE: spin-stabilized missile with a solid propellant motor is furnished at least with two plates opposite-fixed on the bell mouths of the exhaust nozzle; the area of each plate in radial section makes up 0.25 to 0.5 of the area of the nozzle exit section. , In another variant of the missile the solid propellant motor is furnished with a plate with slots; the edge of each slot coincides with the external edge of the nozzle bell mouth, and the arc length makes up 0.25 to 0.5 of the nozzle bell mouth circle length. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to mechanical engineering and can be used in the defense industry for the implementation of rotation of rockets.

 Known devices for rotating M-13UK shells (Katyusha) due to the presence of tangential holes in the engine wall located in the center of mass of the projectile (1). Making these tangential holes is difficult. A large number of small diameter drills are required, which often break.

 In the projectile "Grad" (2), adopted as a prototype, rotation is carried out due to the presence of a pin in the projectile, which is included in the spiral groove made in the barrel of the launcher.

 The disadvantage of this device is that this device for rotating the projectile is difficult to manufacture the groove, it requires thickening the barrel launcher wall, which increases its weight, cost, worsens the launcher’s maneuverability.

 The aim of the invention is to remedy these disadvantages.

 In the proposed device, it is recommended to replace the pin with two or more located plates fixed clockwise (or counterclockwise) to the peripheral nozzles with overlapping 0.25 0.5 of the socket area of each nozzle.

In addition, to implement the rotation of the projectile in the barrel, a device is performed, characterized in that the sealing plate is made with notches in two or more opposite peripheral nozzles clockwise (or counterclockwise) to the arrow above the nozzle socket surface, wherein the notch edge coincides with the outer edge the bell of the nozzle is 0.25
0.5 circumference of the nozzle socket.

 In FIG. 1, fixed plates 1 are shown in which a portion of the surface is cut out clockwise or counterclockwise to the nozzle block. Due to the asymmetry of the gas outflow, an effort is created to rotate the projectile B.

 In the process of increasing the pressure of the powder gases in the engine, the sealing plate 2 is pushed out, and then the plate burns during the rotation of the projectile in the barrel 1 (section AA, position I and II).

 In FIG. 2, a sealing plate 1 is used, in which cuts (cuts) are made in one direction clockwise or counterclockwise over a part of the circumference of the peripheral nozzles 0.25 0.5. As the pressure of the powder gases in the engine increases, the plate bends from position I in position II (section AA) and due to the asymmetry of the outflow of gases from the nozzle, an force is generated for the rotation of B.

 In FIG. 3 shows a general view of the prototype, where with the help of a pin placed in the groove, as the projectile moves in the barrel, it rotates. After the departure of the projectile from the barrel, its stabilization is carried out due to the rotation obtained and the stabilizers that open.

 Due to the low velocity of the missile in the initial portion of the trajectory with insufficient rotation, the dispersion deteriorates and this leads to an increase in the consumption of shells to hit the target.

Therefore, its rotation is necessary. The proposed device for rotating rockets using a gas stream instead of a pin allows you to:
reduce the weight of the launcher, and therefore, reduce its cost and increase its maneuverability;
in darkened conditions, it makes it difficult for a projectile pin to fall into the groove of the launcher tube (Fig. 3), and this reduces the time the launcher is ready for battle and makes combat crew nervousness;
the presence of a pin on the surface of the projectile inhibits its movement and rotation along the entire path of the projectile, which leads to a decrease in range and an increase in dispersion;
The proposed device to expand the ability to create launchers on new principles.

Claims (2)

 1. A rotating missile containing an engine, a powder charge, peripherally located nozzles, a sealing plate, characterized in that the engine is equipped with at least two oppositely located plates mounted on the sockets in the vicinity of the nozzle exit section, with the area of each plate in radial section is 0.25 to 0.5 of the nozzle exit area.  2. A rotating missile containing an engine, a powder charge, peripherally located nozzles, a sealing plate, characterized in that the slots are made in the sealing plate, while the edge of each slot coincides with the outer edge of the nozzle socket, and its arc length is 0.25 0 5 circumference of the nozzle socket.

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