RU2263867C1 - Missile launching pod - Google Patents

Abstract

FIELD: rocketry; a launching pod for a missile.

SUBSTANCE: the invention is pertaining to the field of rocketry, in particular, to a launching pod for a missile and may be used in small-size missile shots. The substance of the invention consists that for formation of the closed cavity between a nose part of a missile and the jettisonable cover there is a mounted there piston , which is made in the form of separate segments. The inside surface of the segments is made adjacent to the missile nose cone and has the bulges interacting with the pits in the missile nose cone unit. Realization of the invention allows to reduce the action of the shaking forces acting on the missile at its escaping of the launching pod.

EFFECT: the invention allows to reduce the action of the shaking forces acting on the missile at its escaping of the launching pod.

2 dwg

Description

The invention relates to rocket technology and can be used in small-sized rocket shots.

A device [1] is known, containing a plastic cover for closing the barrel of a weapon, squeezed out of the barrel by the bow of the projectile when fired. The cover is made in the form of segments of lightweight elastic material and is attached to the barrel using tape. The disadvantage of this device is the lack of tightness due to the presence of gaps between the segments of the cover, the thickness of which should be at least 20-30% of the inner diameter of the barrel, otherwise, when it moves in the barrel and at the time of departure from the barrel, skew and jamming are possible, which in the case of force contact, inevitable in this case, of the cover with the bow of the projectile, the latter is damaged.

The prototype of the present invention selected the launch tube for the rocket [2], containing a cylindrical body with a cap fixed on its front, a rocket engine inside the pipe, a cover on the rear end. The front cover is reset from the pipe by a reflected pressure wave that occurs at the moment of engine gas impact during start-up into the rear cover, which excludes the interaction of the front cover and the rocket head. The disadvantage of this device is that for a long rocket length (L> 15 D, where L is the length of the rocket, and D is the caliber of the rocket), the passage of a pressure wave from the back cover to the front requires a certain amount of time, during which the power cover acts the pulse of gases flowing out of the nozzle of the propulsion system, which leads to a rollback of the pipe, which causes additional disturbances of the entire launcher, including the rocket, which increases the initial dispersion. In addition, when a rocket is executed according to the bicaliber scheme (the diameter of the engine is equal to the diameter of the launch tube, and the head part is sub-caliber), the pressure wave when it passes between the engine and the pipe wall and exits to the head part of the smaller caliber rocket loses its energy and to ensure reliable reset of the launch tube cover an increase in the power impulse is required when starting the propulsion system, which in turn leads to even greater rollback of the pipe and initial dispersion.

The objective of the invention is to reduce the influence of disturbing forces acting on the rocket when leaving the launch container. This is achieved by the fact that in the launch container for the rocket containing the pipe with the front drop cover, for the formation of a closed cavity between the nose of the rocket and the drop cover there is a piston made in the form of separate segments, the inner surface of which is adjacent to the outer surface of the head of the rocket and has protrusions interacting with recesses in the head of the rocket.

The piston is installed on the outer surface of the head of the rocket with the formation of a closed cavity between the nose of the rocket and the lid, which excludes contact of the head of the rocket and the lid when the rocket leaves the container due to the creation of an excess pressure in the closed cavity, the force pulse of which drops the lid from the container with acceleration relative to the movement of the rocket. The execution of the piston in the form of separate segments can significantly reduce the influence of disturbing forces acting on the rocket when leaving the launch container.

The invention is illustrated in the drawing, which shows a container with a rocket.

The launch container (figure 1, figure 2) contains a rocket 1 with a propulsion system 2, a pipe 3, a front cover 4, a piston in the form of separate segments 5, on the inner surface of which protrusions 6 are made.

Between the nose of the rocket and the front cover of the container, a closed cavity “c” is formed.

When storing the rocket in the container, the protrusions 6 of the segments 5 are located in the recesses of the head of the rocket and fix the piston 5 from possible movements relative to its body. At the moment of starting and starting the operation of the propulsion system 2, the rocket 1 together with the piston 5 starts moving within the cavity “c”, while the air volume between the piston 5 and the front cover 4 is compressed, and an excess pressure is generated in the cavity “c”, the momentum of which pushes the front cover with acceleration relative to the movement of the rocket. This eliminates the contact of the head of the rocket 1 with the front cover 4 both at the moment the cover 4 is dropped from the pipe 3 and during the launch of the rocket from the container, that is, there is no force interaction between the head of the rocket and the front cover 4 of the launch container, which eliminates the possibility of damage the head of the rocket, and after it leaves the container, individual segments of the piston 5 are torn off the rocket body by an incoming air stream. To minimize the impact of disturbing forces arising from the breakdown of the segments, the segments are made of lightweight porous material, such as foam.

Thus, the present invention allows to reduce the influence of disturbing forces acting when the rocket leaves the container.

Sources of information

1. Application of Germany No. 2639719 on August 30, 1979, "Plastic cover for closing the barrel of a weapon." MKI F 41 F 17/12; 3/04.

2. UK application No. 1575044 September 17, 1980, "Launch tube for missiles." MKI F 41 F 3/04.

Claims (1)

A launch container for a rocket containing a pipe with a front dropable cover, characterized in that a piston is formed in it in the form of separate segments, the inner surface of which is adjacent to the outer surface of the rocket’s head and, to form a closed cavity between the nose of the rocket and the dropable cover, has protrusions interacting with recesses in the head of the rocket.

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