RU2351887C1 - Guided shell - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed shell has its leading cumulative charge arranged in cylindrical pipe with nose fairing and electric contact device and a bottom. The cylindrical pipe is arranged to move in the guide sleeve fitted at the pipe front part on circular bulkhead. Note that the guide sleeve tail part is furnished with inner tapered entry chamfer and circular groove, while the cylindrical pipe tail part is provided with a locking device.

EFFECT: higher stability of cumulative charge characteristics.

4 dwg, 2 cl

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), in which, to increase the focal length of the warhead, the leading cumulative charge (LKZ) is located in a retractable device, for example, "Guided missile" RF patent No. 2084809, F42B 12/18 from 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 URS is equipped with a guide tube replicated on the PDU case and installed with the possibility of external movement relative to the main warhead case, while the direction and fixing elements are installed on the tube and the case of the warhead.

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 case 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 PDU, which allows to increase the focal length of the main warhead. However, this technical solution has the following disadvantages. The magnitude of the extension of the head of the projectile is determined by the length of the guide tube, which in turn is determined by the length of the main warhead body, and this value is not always sufficient to obtain the required focal length for the effective operation of the main warhead. When using LKZ of significant power, the effect of the latter's operation on the main warhead becomes unacceptably large, mainly due to the insufficient distance between the LKZ and the main warhead and the location of the PDU between them. These shortcomings generally lead to instability of the tandem warhead characteristics.

The objective of the present invention is to increase the stability of the characteristics of the tandem warhead by increasing the focal length of the main warhead of the guided projectile, the distance between the main warhead and the leading cumulative charge, as well as reducing the possibility of damage to the funnel of the main warhead when the latter is triggered.

This is achieved by the fact that in a guided projectile containing a tandem warhead, including LKZ and the main warhead, a pulsed pyrotechnic device for extending the LKZ and equipped with a pipe made with the ability to move and fix in the extended position relative to the main warhead body, while the LKZ is installed in a cylindrical a tube equipped with a fairing and a contact device in the nose and a bottom in the tail, the tube being placed with the possibility of movement in the guide sleeve installed in the front there are pipes on the ring frame, while the tail of the guide sleeve is made with an internal conical entry chamfer and ring bore, and the tube in the tail part is equipped with a locking device, for example, in the form of a split spring ring installed in the outer ring groove.

Figure 1-4 schematically illustrate the proposed device, figure 1 is the initial state, figure 2 is the working position, figure 3, 4 are parts of the device on an enlarged scale.

Guided projectile contains located in the head of the projectile LKZ 1, BRP 2 with rudders, the main warhead 3. LKZ is installed in a cylindrical tube 4, equipped in the nose of the fairing 5 with an electric contact device and in the rear of the blank bottom 6. The tube with LKZ installed movable landing in the guide sleeve 7, which through the annular power frame 8 is fixedly mounted in the front of the pipe 9. The pipe is similar to the prototype made movable relative to the outer surface of the warhead housing 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, elements are made for fixing the pipe in the extended position, for example, an annular thrust collar 10 with an annular hook 11 and a reciprocal collar and hook of the support ring 12 mounted on the warhead body. Fixing elements are also made on the guide sleeve 7 and the tube 4. The tail of the guide sleeve is made with an inner conical entry chamfer 13 and an inner annular bore 14, and the tube in the tail end is provided, for example, with a split spring ring 15 mounted in the outer annular groove. The pyrotechnic extension mechanism, pulsed, contains a power cylinder and a gas generator with an electric igniter functionally associated with it. The working cavity of the power cylinder 16, for example, is formed by a frame 8, a pipe 9 connected to it and a thin-walled inner cylinder 17 mounted concentrically to the pipe. An annular gap is made between the portion of the inner surface of the pipe and the outer surface of the cylinder. This gap, in the initial state, is blocked by the support ring 12, which acts as a piston. The working stroke of the power cylinder of the extension mechanism is determined by the overlap of the inner cylinder 17 by the ring 12, in a real design 20-30 mm. A gas generator 18 with an electric igniter is mounted on a frame 8 in a seat connected through the channels 19 with the cavity of the power cylinder. The function of the screen is the ring frame 8, as well as the bottom of the tube 6. PDU is arranged around the guide sleeve 7 and is equipped with a fairing 20 with a Central hole for the tube 4.

The device operates as follows. In the initial state, the guided projectile is folded, Figure 1. Before launching the projectile, a signal is supplied to the electric igniter of the gas generator 18. The latter is triggered and creates an excess gas pressure in the working cavity 16. The pressure acts on the ring 12 mounted on the warhead body, so the frame 8 and the associated parts and assemblies that form together the head of a guided projectile. After the ring 12 leaves the cylinder 17, i.e. after completion of the working stroke of the extension mechanism, the working cavity 16 is depressurized and the head of the projectile moves by inertia until the back of the pipe 9 with the stop shoulder 10 comes to the support ring 12 and fixes the latter, for example, using an annular conical hook 11, formed on the inner surface of the pipe . After fixing the pipe 9, the tube 4 with the LKZ installed in it, having its own impulse, continues to move along the guide sleeve 7 until the spring ring 15 is fixed in the annular bore 14. The conical entry chamfer 13 made on the guide sleeve ensures smooth compression of the spring ring 15 on the final stage of the movement of the tube 4 and fixing it in the bore 14. After the extension of the tube with LKZ projectile starts. When it hits the target, the electric contact device and LKZ are triggered and, after a time delay, the main warhead. The power frame 8, as well as the bottom 6, shields the funnel of the main warhead from the effects of LKZ, i.e. weakens the shock wave and prevents the rapid expansion of LKZ fragments in the direction of the warhead.

Thus, this technical solution has the following advantages compared to the prototype. A two-stage extension of the LKZ is provided, i.e. increase in focal length for the main warhead. The distance between the LKZ and the funnel of the main warhead increases, which reduces the harmful effects of the LKZ on the main warhead. 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 nodes PDU and the mechanism of extension of the head of the shell. All these advantages can improve the characteristics of the tandem warhead, their stability and solve the problem of the invention.

Claims (2)

1. A guided projectile containing a tandem warhead, including the leading cumulative charge (LKZ) and the main warhead (warhead), a pulsed pyrotechnic device for extending the LKZ, and equipped with a pipe made with the ability to move and fix in the extended position relative to the main warhead body, characterized in that the LKZ is installed in a cylindrical tube equipped with a fairing and an electric contact device in the nose, and a bottom in the tail, the cylindrical tube being placed with the possibility of movement in the guide sleeve installed in the front of the pipe on the ring frame, while the tail of the guide sleeve is made with an internal conical entry chamfer and ring bore, and the cylindrical tube in the tail part is made with a locking device, 2. The projectile according to claim 1, characterized in that the locking device is made in the form of a split spring ring installed in the outer annular groove of the tube.

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