RU2351886C1 - Guided missile - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: missile incorporates leading cumulative charge (LCC), steering drive unit (SDU), main explosive part (EP), pipe attached the SDU casing and gas-generator pyrotechnical mechanism of pulling out the pipe together with SDU and LCC. The pipe can move and be locked relative to the main EP casing. The LCC casing is arranged coaxial to SDU casing inside the latter on disk-like base making together with the outer fairing the SDU. The SDU assembly units and parts are mounted the LCC casing. The gas-generator pyrotechnical mechanism of pulling out mechanism represents a circular power cylinder with circular piston rigidly fixed on the EP casing and an operating chamber formed by the disk-like base rear wall and cylindrical sleeve outer surface, the sleeve being arranged on the disk-like base rear wall. Gas generator is fitted on the disk-like base at the seat communicating, via appropriate channels, with the circular power cylinder operating chamber.

EFFECT: higher hitting efficiency of dual explosive part of guided missile, utilisation of "duck' aerodynamic configuration.

3 dwg

Description

The invention relates to the field of rocket technology, namely to guided anti-tank shells.

Known guided projectiles containing a tandem cumulative warhead (warhead), including the leading cumulative charge (LKZ) and the main warhead, in which, to increase the focal length of the main warhead LKZ is located in a telescopically retractable device, for example, "Guided missile" RF patent No. 2084809 , F42B 12/18 of 07.20.97, the closest in technical essence to the proposed solution and adopted as a prototype. In this device, which contains the steering drive unit (PDU) with aerodynamic rudders and the main warhead located in the LKZ cases, the LKZ case is installed on the front end of the PDU case, and the rear part of the latter is made in the form of a truncated cone installed to form a closed volume with a cumulative funnel the main warhead, and is equipped with a corrugated elastic cuff fixed to it with a conical outer generatrix, in the cavity of which a gas generator with an electric igniter is installed, while the guided projectile is equipped with a pipe, akreplennoy PDUs to the housing and mounted for movement relative to the outer housing main warhead, thus on the pipe and BCh housing mounted guiding and fixing elements.

Before starting the projectile, the gas generator fires and creates pressure between the rear end of the PDU case and the main warhead funnel. The gas pressure acts on the end face of the PDU case, as on the piston of the power cylinder, and forces the latter together with the LKZ case and the guide tube to move forward relative to the main warhead body by an amount determined by the length of the guide tube.

Thus, this technical solution allows for the extension of the head of the projectile, i.e. LKZ together with the PDU, which allows to increase the focal length of the warhead, as well as use the aerodynamic scheme "duck", as it allows the PDU in the transport position to be placed in the volume of the funnel, and in the working position to extend from it. However, this technical solution has the following disadvantage. This design of a guided missile (URS) involves the use of a PDU and its body as a screen to protect the main funnel base funnel when an LKZ is triggered. To ensure this function, the PDU case must be strong and massive enough to exclude or prevent the rapid expansion of fragments of LKZ, BRP and a gas generator when the LKZ is triggered and damage to the funnel of the main warhead before it is triggered. But in any case, in the zone of passage of the cumulative jet of the main warhead there will be a PDU and a gas generator damaged or in the form of fragments flying towards the warhead funnel, which always reduces the main characteristic of the warhead.

The objective of the present invention is to increase the combat effectiveness of the tandem warhead of a guided projectile made according to the aerodynamic scheme "duck", by increasing the free volume in front of the funnel of the main warhead and reducing the possibility of damage when the leading cumulative charge is triggered.

This is achieved by the fact that in a guided projectile containing placed in cylindrical shells LKZ, PDU, the main warhead equipped with a pipe mounted on the body of the PDU and made with the possibility of movement and fixation relative to the main body of the warhead, as well as a pyrotechnic mechanism with a gas tube extension together with the PDU and LKZ, while the LKZ case is installed coaxially with the PDU case inside the latter on a disk-like base, forming together with the external fairing the PDU case, all the components and components of the PDU are placed around to LKZ case, the extension mechanism is made in the form of an annular power cylinder with an annular piston fixedly mounted on the warhead housing, and a working cavity formed by the rear wall of the disk-shaped base, a portion of the pipe’s inner surface and the outer surface of the cylindrical sleeve mounted on the rear wall of the disk-shaped base, and a gas generator installed in the PDU case on a disk-shaped base, in a seat connected by channels to the working cavity of the annular cylinder.

Figure 1, 2, 3 shows a diagram of the proposed device: figure 1 - initial state, figure 2 - operating position, figure 3 - part of the device on an enlarged scale.

URS contains located in the head part of the projectile LKZ in a cylindrical housing 1, PDU 2 with rudders, the main warhead 3. Housing LKZ mounted on a disk-shaped base 4, which together with the fairing 5 forms the PDU housing, in the volume of which, around the housing LKZ are nodes and elements PDU. The pyrotechnic extension mechanism comprises a power cylinder and a gas generator with an electric igniter functionally associated with it. The working cavity of the power cylinder 6 is formed by a disk-shaped base 4, fixed on it by a pipe 7 and a concentric pipe by a thin-walled cylindrical sleeve 8. An annular gap is made between the working section of the inner surface of the pipe and the outer cylindrical surface of the sleeve. In this gap, in the initial state, an annular piston 9 is arranged in the form of a cylinder, at the ends of which an annular thickening is made with circular grooves for the sealing rings 10 on the front side, and on the other hand, a seat for docking with the warhead housing on which the piston is fixed. The length of the working section of the pipe is equal to the length of the sleeve 8 and determines the working stroke of the power cylinder of the extension mechanism. The pipe 7 is made movable relative to the casing of the warhead in the axial direction. On the tail, relative to the nose of the projectile, the pipe part and the front end of the warhead housing, there are made elements of the pipe fixing in the extended position, for example, an annular thrust collar 11 with an annular hook 12 and a mating support ring 13 mounted on the warhead body. A gas generator 14 with an electric igniter is installed in the PDU case on a disk-shaped base 4 in a seat connected through channels 15 to the working cavity of the power cylinder. The function of the screen is a disk-shaped base.

As a result, this URS device makes it possible to free up space in front of the main warhead as much as possible while making it possible to use the "duck" aerodynamic scheme.

The device operates as follows. Before starting the URS, a signal is supplied to the electric igniter of the gas generator 14. The latter is activated and creates pressure in the working cavity 6. The piston is fixedly mounted on the casing of the warhead 3, so the disk-shaped base 4 and the associated parts and assemblies that together form the head of the URS begin to move forward. After the piston 9 leaves the annular gap, i.e. after completion of the working stroke of the extension mechanism, the working cavity 6 is depressurized and the head of the URS moves by inertia until the back of the pipe 7 with the stop shoulder 11 comes to the support ring 13 and fixes the latter, for example, using an annular conical hook 12, decorated on the inner surface pipes. After extension, the projectile starts. When it hits the target, the LKZ fires and after a time delay - the main warhead. The disk-shaped base 4 shields the warhead from the effects of LKZ, i.e. attenuates the shock wave and prevents the rapid expansion of the LKZ and BRP fragments in the direction of the warhead, which will be much shorter than the prototype, and the time of the possible flight of the fragments to the main warhead funnel is much longer.

Thus, this technical solution has the following advantages compared to the prototype. The space in front of the funnel of the main warhead is freed up in the zone of formation and passage of the cumulative jet of the main warhead, because from this zone are removed the PDU units and the mechanism for extending the head of the projectile, which improves the efficiency of the main warhead and the stability of its characteristics. In this case, another problem is solved. Placing the LKZ case in the PDU case allows you to push the control wheels forward as far as possible, from the center of mass of the URS, which ensures the greatest efficiency of the aerodynamic configuration "duck".

Claims (1)

A guided projectile containing a leading cumulative charge (LKZ) located in cylindrical bodies, a steering drive unit (PDU), a warhead (warhead) and equipped with a pipe mounted on the PDU case and made with the possibility of movement and fixation relative to the warhead case, and a pyrotechnic extension mechanism pipes together with the PDU and LKZ made with a gas generator, characterized in that the LKZ case is installed coaxially with the PDU case inside the latter on a disk-like base, forming together with the outer fairing PDU, while PDU units and elements are placed around the LKZ case, the extension mechanism is made in the form of an annular power cylinder with an annular piston fixedly mounted on the warhead case, and a working cavity formed by the rear wall of the disk-shaped base, part of the pipe’s inner surface and the outer surface of the cylindrical sleeve mounted on the rear wall of the disk-shaped base, and the gas generator is installed in the PDU case on a disk-shaped base in a seat connected by channels to the working cavity of the annular about the power cylinder.

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