RU2453789C1 - Rocket launcher - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: proposed device comprises hollow tube connected with carrier and diffuser secured at tube outlet. Launching tube inner surface is provided with circular cavity. Besides, proposed device comprises cylindrical shell ring arranged inside launching tune and aligned therewith to produce screw-nut for axial telescopic displacement along tube and closure of circular cavity.

EFFECT: possibility to adjust bafflement of exhaust jet and reduced gas dynamic effects on carrier rocket.

2 dwg

Description

The invention relates to rocket technology and can be used to launch rockets from flowing launch tubes.

A device for launching anti-tank guided missiles (see Karpenko A.V. Russian missile weapons 1943-1993. Handbook. - St. Petersburg: PIKA, 1993. - p. 73, BMP PTUR 3M14 "Baby"), containing an open guide for launch rockets associated with the carrier.

In this device, the conditions are insufficient to ensure reliable operation of missiles during transportation, because the rocket is located outside an autonomous container (pipe).

There is also known a device for launching anti-tank guided missiles (see RF patent for invention No. 2395053, M. class. F 413/00, 2010), containing a flow-through launch tube connected to the carrier and a diffuser fixed in the rear section of the pipe, and on the inner surface of the launch tube in its output section is made of an annular cavity.

This device provides reliable operation of missiles during transportation. However, there is a gas-dynamic effect on the carrier at launch.

The aim of the invention is to control the degree of quenching of the flowing jet and reduce the gas-dynamic effect on the carrier at launch.

This goal is achieved by the fact that in the device for launching missiles containing a flowing launch tube connected to the carrier and a diffuser fixed in the output section of the pipe, and an annular cavity is made on the inner surface of the launch pipe in its output section, the device is further provided with a cylindrical shell located inside the launch tube coaxially to it with the formation of a screw-nut pair for axial telescopic movement relative to the pipe and overlapping the annular cavity.

Figure 1 shows a device for launching missiles, a General view; figure 2 is a view 1 in figure 1 in section.

The device for launching missiles contains a flowing launch tube 1 connected to the carrier 2, and a diffuser 4 fixed in the output section 3 of the pipe 1. An annular cavity 6 is made on its inner surface 5 of the launch pipe 1 in its output section 3. The device is additionally provided with a cylindrical shell 7, placed inside the launch tube 1 coaxially to it with the formation of a pair of screw-nut 8 for axial telescopic movement relative to the pipe 1 and overlap the annular cavity 6.

The device operates as follows.

When the rocket 9 engine is started and started, a supersonic gas jet flowing out of the engine fills the flow starting tube 1 and diffuser 4. The gas stream passing through the flow pipe 1 with diffuser 4 and interacting with the annular cavity 6 creates a gas flow structure with the generation of various kind of vibrations.

High-frequency oscillations, penetrating into the jet shallowly, excite pulsations in the boundary layer of the jet, while the angle of opening of the boundary layer of the jet increases. Low-frequency oscillations of large amplitude penetrate deeper into the jet, affect the supersonic core. In this case, the phenomenon of stabilization of the jet is observed, the amplitudes of its bending-torsional vibrations decrease, which leads to an increase in the range of the jet. High-frequency oscillations modulated by low-frequency ones lead to a decrease in the amplitude of the bending-torsional vibrations of the jet and to an increase in the opening angle of its boundary layer.

By varying the width of the annular cavity 6 in the pipe 1 by axial telescopic movement of the cylindrical shell 7 due to the screw-nut pair 8 and overlapping of the annular cavity 6, various pressure fluctuations in the cavity 6 and in the gas stream can be obtained, which leads to different effects in the stream.

Thus, the effectiveness of the invention is to control the degree of quenching of the supersonic outflowing jet and to reduce the gas-dynamic effect on the carrier at the launch of rocket 8 due to the formation of the corresponding gas flow structure at which the jet is quickly quenched when interacting with the environment.

Claims (1)

A device for launching missiles containing a flowing launch tube connected to the carrier and a diffuser fixed in the output section of the pipe, and an annular cavity is made on the inner surface of the launch pipe in its output section, characterized in that the device is further provided with a cylindrical shell located inside the launch pipe coaxially with the formation of a screw-nut pair for axial telescopic movement relative to the pipe and overlapping the annular cavity.

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