RU2148774C1 - Rocket launching pack - Google Patents

Abstract

FIELD: rocketry. SUBSTANCE: the rocket launching pack has a cylindrical casing with a front releasable cover attached to it by means of a flexible ring with a cut-out and a ribbon spring. Made on the inner side of the cover opposite the cut-out on the flexible ring is a slot through which a flexible clamp is rigidly attached to the ends of the flexible ring symmetrically to its cut-out, the middle part of the flexible clamp is located between the inner surface of the cover and the ribbon spring. EFFECT: integrity of the front releasable cover after its separation from the pack casing. 2 dwg

Description

 The invention relates to the field of rocket technology and can be used in the construction of transport and launch containers designed for storage, transportation and launch of missiles.

 In many container designs, the opening of the front cover is made by a moving rocket. Various designs of automatically opening containers are known, for example, a “Pipe for storing and launching missiles” [1], which contains a pipe that is closed in front by a cap that can break into a certain number of parts when the head of a rocket hits it, as well as a “Container for transporting and launch ATGM "[2], comprising a housing closed in front by a lid that breaks through a moving rocket.

 The disadvantage of these structures is the significant disturbance received by the rocket upon exiting the container due to a collision with the lid, which is inevitable when the latter is destroyed.

 In addition, the container does not provide reliable protection of the rocket from mechanical stress, because destruction of the lid is possible due to an occasional minor mechanical impact, since the lid is made of a material with a deliberately set low strength characteristics.

 Also known are designs with automatically resettable covers, for example, device [3], in which the cover is knocked out of the container by a moving rocket.

 The disadvantage of this design is the need for significant effort to undock the lid and the container body and the presence of a rocket hit on the lid, which is inevitable when the lid is separated from the body, which leads to significant disturbing effects on the rocket in the initial phase of flight, causing significant dispersion of the rockets during firing. Reducing the disturbing effect on the rocket is possible by reducing the effort of undocking and reducing the mass of the cover.

 Technical solutions are also known in which the reduction of the disturbing effect on the rocket is achieved by reducing the mass of the opening cover. Such constructions include, for example, a "Container for launching a rocket" [4], which is the prototype of the present invention and contains a cylindrical body mounted on it with an elastic ring with a notch and a belt spring with a front reset lid. In this case, the elastic ring is installed in the grooves on the body and the cover, and in the neckline of the ring the loose end of the tape spring is placed. Chamfers on the elastic ring and in the groove on the body are in contact.

 When the rocket moves, its nose rests against the belt spring and causes it to bend. This leads to the displacement of the loose end of the spring and its exit from the notch of the elastic ring. Continuing movement, the rocket through the spring acts on the lid, which through an elastic ring acts on the container body. Due to the force created by the rocket on the cover and the interaction between the chamfers on the ring and in the groove of the body, the elastic ring is compressed and removed into the groove on the cover, which, under the action of the force created by the rocket and the belt spring, is separated from the body and opens the container for the rocket to exit .

 Such a technical solution, with all its advantages, has a significant drawback: after separation from the container body, the integrity of the structure of the front discharge cover is violated - the ring is unclenched due to the force arising from elastic deformation, leaves the groove on the cover and is separated from it. Under the influence of its own mass, the lid leaves the initial section of the rocket’s movement and does not interfere with it when leaving the container, and the ring, whose mass is much less than the mass of the lid, does not have time to do this and is in the way of the rocket’s movement. From a collision with the ring, the rocket receives an additional disturbing effect, leading to the dispersal of the missiles during firing. In addition, the interaction of the ring with the structural elements of the rocket glider (for example, with rudders) can lead to loss of the rocket’s performance and its abnormal movement on the flight path.

 The task of the invention is to ensure the integrity of the design of the front discharge lid after it is separated from the container body.

 In order to achieve the task in a known container for launching a rocket containing a cylindrical body mounted on it with an elastic ring with a notch and a belt spring with a front reset lid, on the inner side of the lid opposite the cutout on the elastic ring there is a groove through which the ends of the elastic ring are symmetrically an elastic bracket is rigidly attached to its cutout, the middle part of which is placed between the inner surface of the cover and the belt spring.

 Such a constructive solution ensures the integrity of the design of the front discharge cover after it is separated from the container body due to the exclusion of the possibility of separation of the elastic ring from the cover, which is achieved due to the rigid fastening of the elastic bracket to the ends of the ring, the middle part of which is located between the inner surface of the cover and the belt spring.

 Comparison of the claimed technical solution with the prototype made it possible to establish its compliance with the criterion of "novelty." In the study of other well-known technical solutions in this technical field, signs that distinguish the claimed solutions from the prototype were not identified and therefore they provide the claimed technical solution with the criterion of "inventive step".

The proposed solution is illustrated in the drawing, where:
in FIG. 1 - a container with a rocket;
in FIG. 2 - placement of the bracket on the lid of the container.

 The proposed container for launching a rocket comprises a housing 1, a cover 2, a seal 3 located between the housing 1 and the cover 2, and a rocket 4 mounted inside the container. On the case 1 and the cover 2 opposite each other, grooves "a" and "b" are made, respectively, into which an elastic ring 5 with a cut-out "c" is installed. Chamfers "g" made in the groove "a" of the housing 1 and on the ring 5 are in contact with each other. On the inner side of the lid 2, protrusions "d" are made, which together with the wall "e" of the lid 2 in its central part form a cavity "g". Opposite the protrusions "d" is a belt spring 6, one end of which is screwed 7 outside the cavity "g" on the inner surface of the cover 2, and the other end through the groove "and" on the cover 2 is placed in the cutout "in" ring 5, the ends of which are in contact with the lateral surfaces of the spring 6. On the inner side of the cover 2, opposite the cut-out “in”, a groove “k” is made on the ring 5, through which the elastic bracket 8. is firmly attached to the ends “l” of the ring 5 in the cut-out “b” 8. The middle part is “m” "brackets 8 are placed between the inner surface" n "of the cover 2 and the belt spring 6.

 Opening the lid in the container is as follows.

 When the rocket 4 moves, its nose rests against the belt spring 6 and causes it to bend into the cavity "g" relative to the protrusions "d" on the cover 2. This leads to the displacement of the loose end of the spring 6 into the groove "and" cover 2 until it completely leaves the cutout "in" of the ring 5 and the termination of the contact between the ends of the cutout "in" the ring 5 and the lateral surfaces of the spring 6. Continuing the movement, the rocket 4 through the spring 6 acts on the cover 2, which through the ring 5 acts on the body 1 of the container. Due to the force created by the rocket 4 on the cover 2 and the interaction between the chamfers "g" on the ring 5 and in the groove "a" of the housing 1, the ring 5, overcoming the resistance of the elastic bracket 8, is compressed and removed into the groove "b" on the cover 2 , which, under the action of the force created by the rocket 4 and the belt spring 6, is separated from the housing 1 and opens the container for the rocket to exit.

 After the lid 2 is separated from the container body 1, the elastic ring 5 is unclenched and tries to separate from the lid 2. An elastic bracket 8, rigidly attached to the ends "l" of the ring 5, prevents this and allows the ring 5 to unclench to its original position, and the placement of the middle part "m "staples 8 between the inner surface" n "of the lid 2 and the belt spring b eliminates the possibility of separating the elastic ring 5 from the lid 2 of the container.

 Thus, in the proposed technical solution, in comparison with the prototype, the structural integrity of the front drop cover after it is separated from the container body is ensured, which is confirmed by experimental testing of the structure. Verification showed that the container for launching a rocket is operational in combat use.

Sources of information
1. British patent, N 1419930, F3A, 1973.

 2. French patent N 1436333, F 41 F 3/00, 1966.

 3. US patent N 3446383, F 41 F 3/04, 1969.

 4. RF patent N 2114370, F 41 F 3/042, 06/27/98.

Claims (1)

 A container for launching a rocket, comprising a cylindrical body secured to it by means of an elastic ring with a notch and a tape spring with a front reset lid, characterized in that on the inner side of the lid opposite the cutout on the elastic ring there is a groove through which the ends of the elastic ring are symmetrically relative to it The cutout is rigidly attached with an elastic bracket, the middle part of which is placed between the inner surface of the cover and the belt spring.

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