RU2296937C1 - Transport-launching pack for rocket - Google Patents

Abstract

FIELD: armament.

SUBSTANCE: the transport-launching pack for a rocket has a tube, rear cover in the form of a diaphragm, cup-shaped casing with a central hole and a sealing gasket. The cup-shaped casing is made in the form of a ring nut and provided with a ring groove in the rear part, in which a diaphragm is hermetically installed, the diaphragm is made of elastoplastic material, and a foamed polymeric material with a tough porous structure is filled in, it is formed in the form of a thick-walled disk. The sealing gasket is installed between the cup-shaped casing and the tube.

EFFECT: expanded range of use of the complex.

2 cl, 2 dwg

Description

The present invention relates to the field of rocket technology and can be used in the construction of small-sized missile systems with missiles launched from a transport and launch container (TPK).

Known missile system "Dragon", containing a guided projectile located in a plastic barrel-container, the ends of which are fitted with protective caps that ensure the integrity of the projectile during storage and transportation [A.N. Latukhin "Anti-tank weapons", M .: Military Publishing, 1974 ., p.226-228].

The disadvantage of this complex is that in it the covers before the shot must be removed manually, which takes time, reduces the rate of fire and, accordingly, reduces efficiency.

This drawback is eliminated in the firing complex selected by the prototype of the present invention and containing a shell with a powder firing device located in the barrel of the container with covers, while the barrel of the container is made with an annular thickening on one of the outer circumferential surfaces, while the cover located near of this thickening, made in the form of a metal diaphragm and mounted on the end of the barrel of the container with a cup-shaped clip worn on an annular thickening, the clip is made from the center hole, its open end is bent behind an annular thickening from the side of the middle of the container barrel, the inner side wall of the casing is made equal to the outer diametrical part of the annular thickening, while a rubber rubber gasket is installed between the end surface of the container barrel and the cover [patent RU No. 2097672 from 23.03 .1995, IPC ⁶ F 41 F 3/04].

When fired, powder gases flowing from the nozzle of the engine (firing device) act on the diaphragm (back cover), which is snapped out from pinching between the end of the barrel of the container and the cup-shaped holder and flies back.

The design of the prototype has improved efficiency by increasing the rate of fire.

However, this design has the following significant drawback: when shooting, it forms a wide dangerous zone in the rear hemisphere behind the edge of the barrel-container pipe due to the departure of the diaphragm that is not destroyed during the shot. Moreover, due to the impossibility of simultaneously exiting the jamming of the entire contour of the diaphragm, the latter, having a significant mass, turns out relative to the portion of the contour of the diaphragm that does not come out of pinching under the influence of the powder gas stream and flies back, having a significant dynamic effect on the adjacent elements of the complex. All this limits the combat use of the firing complex on a number of carriers, for example, on certain types of ground carriers, ships, planes, helicopters because of the danger of the dynamic impact of the flying diaphragm on them.

The objective of the invention is to expand the range of application of the complex by reducing the danger zone during firing by reducing the total mass of the flying elements.

The solution to this problem lies in the fact that in the transport and launch container for a rocket containing a pipe, a back cover in the form of a diaphragm, a cup-shaped holder with a central hole and a sealing gasket, the cup-shaped holder is made in the form of a ring nut and provided with an inner ring groove in the rear part, into which a diaphragm made of an elastic-plastic material is hermetically seated and a foamed polymeric material with a rigid porous structure formed in the form of a thick-walled disk is poured a sealing gasket is installed between the cup-shaped holder and the pipe, the diaphragm is located at the rear end wall of the inner annular groove of the cup-shaped holder and is made of rubber, and the thick-walled disk is made of foam.

The execution of the cup-shaped cage in the form of an annular nut connected to the pipe and provided with an inner annular groove provides a constructive and technological implementation of the invention in the form of a separate assembly.

A sealed installation in the inner annular groove of the diaphragm from an elastic-plastic material ensures the tightness of the TPK from the rear end.

Filling the groove with foamed polymeric material with a rigid porous structure, formed in the form of a thick-walled disk, ensures the rigidity of the sealing diaphragm during storage and transportation of the rocket, and when the rocket starts, the fragments of the disk and small diaphragms destroyed by the engine jet fly out of the container, the dynamic effect of which on the carrier elements much lower.

The installation of a sealing gasket between the cup-shaped holder and the pipe provides sealing of the TPK by a threaded connection.

The invention is illustrated by graphic materials, which show:

- figure 1 is a longitudinal section of the device in the prelaunch position;

- figure 2 is a longitudinal section of the device when starting a rocket.

TPK 1 (Fig. 1) contains a pipe 2, on the tail of which a cup-shaped ferrule 3 is screwed, made in the form of an annular nut and provided with an annular groove 4. In the ferrule 3, a central hole 5 is made equal to the inner diameter of the pipe 2. In the annular groove 4 in series a diaphragm 6 made of an elastic-plastic material (rubber) is installed to ensure tightness along the seat using sealant 7 and a foamed polymeric material (foam) is formed, which is formed in the form of a thick-walled disk 8.

Between the clip 3 and the pipe 2 is installed a sealing gasket 9, which ensures the tightness of the internal cavity of the TPK on the outer surface of the pipe.

The device operates as follows.

When assembling the back cover assembly, a diaphragm 6 is placed in the groove 4 of the cup-shaped holder 3 on the sealant 7, after which a foaming polymer material (foam) is poured, forming a disk 8 and forming an essentially monolithic connection with the material of the diaphragm 6, which ultimately ensures the tightness of the TPK on the back end. The thickness of the disk 8 is selected from the condition for ensuring the strength of the back cover when exposed to excessive pressure.

When the rocket is launched, the powder gases flowing from the nozzle 10 of the rocket, acting on the back cover assembly, destroy the disk 8 together with the diaphragm 6 on individual fragments 11, which have a low mass, which upon departure do not have a significant dynamic effect on the carrier elements.

Thus, the proposed device provides a decrease in the dynamic effect on the elements of the carrier, which allows to expand the range of application of the firing complex for various types of carriers.

Claims (2)

1. Transport and launch container for a rocket containing a pipe, a back cover in the form of a diaphragm, a cup-shaped holder with a central hole and a sealing gasket, characterized in that the cup-shaped holder is made in the form of an annular nut and provided with an inner annular groove in the back of which is hermetically sealed a diaphragm made of an elastoplastic material is installed, and a foamed polymeric material with a rigid porous structure formed in the form of a thick-walled disk is poured, and a sealing gasket is installed phenomenon between the cup ring and the pipe. 2. Transport and launch container according to claim 1, characterized in that the diaphragm is located at the rear end wall of the inner annular groove of the cup-shaped holder and is made of rubber, and the thick-walled disk is made of foam.

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