RU2292007C1 - Shaped-charge tandem warhead - Google Patents

Abstract

FIELD: shaped-charge ammunition intended for piercing of composite and homogeneous armor obstacles, equipped with a dynamic protection inclusive.

SUBSTANCE: the leader charge is positioned in an extensible cylindrical hollow rod for translational motion in its duct. Motion of the leader charge in the rod duct, locking of it at the front end of the rod and subsequent unlocking and advancing of the rod proper together with the leader charge are accomplished under the pressure of gases from the powder charge, which is placed in the cavity of the cap fastened on the bottom part of the leader charge body. On the side of the rear end the hollow rod has a rigid bottom with a central hole for passage of the cumulative jet of the main charge. A protective shield in the form of a blind thin-walled partition is fastened before the rigid bottom in the rod with formation of a fixed gap between the partition and the rod bottom. The material, thickness of the partition and the gap value determine the delay of operation of the main charge. The thin-walled partition and the rod bottom are electrically insulated from each other and connected of the contacts of the main charge via the current source. After the blast of the leader charge the partition gets deformed, as a result, an electric contact of it with the rod bottom and operation of the main charge fuse occur.

EFFECT: enhanced armor-piercing action against armored targets, having a dynamic protection inclusive.

4 cl, 5 dwg

Description

The proposal relates to the field of cumulative ammunition designed to penetrate complex and homogeneous armored obstacles, including those equipped with dynamic protection.

Known guided projectile (patent RU No. 2138762, published September 27, 1999 Bull. No. 27), which is a cumulative tandem warhead (KTBCH), including the main charge and the leader charge, sequentially located in the housing and separated by the engine, equipped with fuses.

Another KTBCH is known (patent RU No. 2210723, published on 08.20.2003 Bull. No. 23), including two cumulative charges sequentially located in the housing and separated by a protective shield, the main and the leader charge. The charges are equipped with fuses, and the main charge fuse is equipped with a delay device, which is a contact conductor made in the form of a truncated cone, installed with a gap relative to the protective screen and facing a smaller base towards the bow compartment of the CTBC.

The design of the CTBCH of the above analogues has a significant drawback associated with the need for a sufficiently large separation of the leading and main charge, leading to an increase in its length, which makes it difficult to solve the problems of the layout of anti-tank guided missiles.

Known cumulative tandem warhead with a variable distance between the cumulative charges using a retractable rod, selected as a prototype (German patent (DE) No. 3804992, published April 13, 89 F 42 B 13/10, 1/02). The specified KTBCH includes the main cumulative charge and the leader charge with fuses and a device for delaying the operation of the main charge fuse, a head fairing with a guide into which a retractable hollow rod is installed, one of the ends of which is equipped with a bottom with a central hole for the passage of the cumulative jet. The leader-leader with a fuse is placed in the bow of the rod channel, and a protective screen is fixed in front of the bottom, with a gap relative to it. The delay device for the fuse of the main charge is formed by a protective screen and the bottom of the rod installed with a gap relative to each other, the protective screen is electrically connected to the fuse through the main charge body. The rod is equipped with latches of folded and extended positions and a rod extension device located at the end of its channel and including a gas generator with a powder mount and a flash igniter. In the folded position, the nose of the rod is located in the zone of the cumulative lining of the main charge. The gas generator igniter is driven by acceleration when fired by a striker with a sting installed at the top of the cumulative lining of the main charge.

The disadvantages of the prototype are the negative impact on the structural elements of the main cumulative charge of pressure and temperature of the powder gases after the gas generator is triggered, the deposition of condensate on the inner surface of the lining of the main cumulative charge, the presence of a projectile with a prick tip at the top of the lining, which negatively affects the formation of the cumulative jet when the cumulative charge is triggered and leads to a decrease in its armor-piercing action.

The disadvantages of the prototype should also include the possibility of premature operation of the main charge due to the closure of the reaction contacts due to the deposition of electrically conductive soot particles on them after the operation of the gas generator, as well as the limited length of the retractable rod, which does not allow the location of the main cumulative charge relative to the obstacle at the time of its operation at the optimum (focal) distance for maximum armor-piercing action.

The technical result of the proposed technical solution is to increase armor penetration by improving the conditions for the formation of a cumulative jet of the main charge and ensuring a sufficient extension length of the leading cumulative charge, which leads to the possibility of defeating complex and homogeneous armor barriers, including those equipped with dynamic protection.

This is achieved by the fact that in the CTBCH, containing the main cumulative charge and the leader charge, each equipped with its own fuse, a head fairing with a guide, in which a retractable hollow rod with a rigid bottom and a central hole in it is installed for the passage of the cumulative jet placed in the rod channel a cumulative leader charge with a fuse mounted on the bottom of its body, a protective screen in the form of a thin-walled partition mounted in the rod in front of its bottom with the formation of a guaranteed gap between them, delay device for firing the main charge fuse, formed by the bottom of the rod and the baffle, electrically connected to the fuse through the structural elements of the main charge, the clamps of the folded and extended positions of the rod and the device of its extension, equipped with a gas generator with a powder hitch and igniter, the charge leader is installed with the ability to move along the channel of the rod and in the initial position is fixed in front of the protective screen with a shear ring, with the formation of a sealed cavity between the the outer part of the leader-leader housing and the partition, the rod extension device also serves as a leader-leader displacement device and is made in the form of a rigid flange with a cavity formed in its central part to accommodate the powder mount of the gas generator and with a side hole for the igniter, the flange mounted on the bottom the case of the charge leader, while the cavity of the flange with the powder hinge is in communication with the sealed cavity through the perforations formed in the flange.

To inhibit the leader charge at the end of its advancement along the rod channel, as well as the subsequent extension of the rod from the cowl under the influence of the kinetic energy of the leader leader, braking elements made in the form of conical-cylindrical protrusions on the rod and the leader leader body can be introduced into the structure, and the ratio of the maximum diameter of the protrusions to the minimum is 1.01-1.015.

The clamps of the folded position of the rod can be made in the form of shear pins installed in the fairing from the front end of the rod, and the rod can be equipped with a limiter and a shock absorber.

The device for delaying the operation of the main charge can be performed as follows: the protective screen is electrically isolated from the main charge body and the bottom of the rod and is connected by a conductor to the main charge fuse through its lining, forming a normally open contact in the circuit of its detonation.

The installation of a leader charge with the ability to move along the channel of the rod improves the conditions for the formation of a cumulative jet of the main charge, because the zone where the formation of the jet takes place and the optimal focal length from the main charge to the obstacle is ensured, which allows to achieve increased armor penetration.

Fixing the leader charge in front of the protective screen using a shear ring allows you to optimize the layout of the CTBCH, which leads to an increase in its efficiency.

Using the rod extension device as a leader-charge transfer device allows you to use the kinetic energy of the leader-charge, which he gains as a result of moving along the channel of the rod, due to which, without additional energy sources, the leader-leader and the rod continue to move to the desired position, providing the necessary free zone for the formation of a cumulative jet.

The implementation of the moving device in the form of a rigid flange with a central cavity for installing the powder mount of the gas generator and a side hole for the igniter with its mounting on the bottom of the leader-charge housing allows optimizing the layout, removing spent elements of the KTBCh design from the formation zone of the cumulative jet without wasting its energy on their penetration, to eliminate the negative impact on the structural elements of the main cumulative charge of pressure and temperature of the powder gases and the condensation bath sediment.

The communication of the cavity to accommodate the powder suspension with a sealed cavity formed between the bottom of the leader-charge housing and the partition through perforations allows smoothly increasing the pressure of the powder gases in the sealed cavity, which ultimately leads to an improvement in the characteristics of the high pressure filter.

The presence of braking elements of the leader-leader and the rod eliminates the fluctuation of the extended elements in flight, which ensures the stability of the flight of the rocket.

The necessary delay in the operation of the main charge fuse is provided by the delay device, namely, the parameters of the partition and the size of the gap between it and the bottom of the rod.

In this case, the response delay of the main charge is chosen equal to 200 ÷ 260 μs on the basis of experimental data from the condition of ensuring guaranteed departure of the elements of dynamic protection from the line of action of the cumulative jet of the main charge.

The essence of the invention is illustrated by drawings, in which Fig. 1 shows a diagram of the CTBC in the initial position, Fig. 2 shows the design of the backstop of the rod with a shock absorber, Fig. 3 - diagram of the CTBC in the combat position (in flight) with the leading cumulative charge extended and a bar, Fig. 4 shows an electric circuit for switching on a main charge fuse; Fig. 5 shows a braking device for a leading cumulative charge body and a bar.

KTBCH consists of a main cumulative charge 1 with a bottom fuse 2, a head fairing 3 with a rod 4 coaxially located in it and a cumulative leader charge 5 with an explosive device 6 and a rigid cap 7 with perforations. In the central part of the cap 7, a glass-like extrusion is made, forming a cavity in which the powder mount of the gas generator 8 is placed. With an offset relative to the longitudinal axis of the CTBCH and perpendicular to it, an electric igniter 9 is installed in the side opening of the cap, which is connected via a flexible electrical connection 10 to the rocket launcher (not shown). The rod 4 is equipped with a protective screen installed with a gap δ, electrically isolated from each other and secured with a nut 23 in the form of a thin-walled partition 11 (to protect the main charge from the effects of the leader-detonation products) and a rigid bottom with a central hole 12 from the rear end rods. The cap 7 is located in a sealed cavity formed by the bottom of the body of the cumulative charge leader 5 and the channel of the rod 4, limited by the partition 11.

The baffle 11 forms a normally open contact in the blasting circuit and, using flexible coupling 13, is electrically connected to the first closing contact of the ground fuse 2 through the cumulative conductive lining 14 of the main charge, and the rigid bottom 12 is flexibly connected through the main charge conductive casing 16 and the current source rockets connected to the second contact of the bottom fuse 2 (figure 4).

To ensure the necessary delay time for the main cumulative charge relative to the leader charge, the device for delaying the operation of the bottom fuse 2 is formed by structural elements - a partition 11, the bottom of the rod 12 with their electrical connections and is made in accordance with the dependence of the delay on the material and the thickness of the partition 11, the gap δ between it and the hard bottom. The delay time of 200 ÷ 260 μs is selected on the basis of experimental data from the conditions for ensuring guaranteed departure of the elements of dynamic protection from the line of action of the cumulative jet of the main cumulative charge 1 until it is triggered. With a smaller value of the delay time, the elements of dynamic protection do not have time to leave the line of action of the cumulative jet, reducing its armor-piercing effect. With a larger time, the detonation products of the leader 5 charge have time to pass into the zone of formation of the cumulative jet of the main cumulative charge, having a negative effect on its formation, reducing its armor-piercing effect.

In the initial position, the leading cumulative charge leader 5 is located inside the rod 4 and fastened with it using a shear ring 17, and the rod 4 is installed in the guide inside the cowl 3 and fastened with it using latches - shear pins 18 at the front end of the cowl. The housing 22 of the cumulative leader charge 5 has braking elements A on the outer surface in the form of protrusions with a smooth transition from diameter d to diameter D in the ratio D / d = 1.01 ÷ 1.015 and a spring split ring 19 (like a piston ring) installed in ring groove. The rod 4 contains at the front end protrusion B and a shock absorber 20, for example, in the form of a rubber ring. On the inner and outer surfaces of the rod 4, grooves B and D are made, and on the outer surface the braking element E is a protrusion in the form of a smooth transition from diameter d ₁ to diameter D ₁ in the ratio D ₁ / d ₁ = 1.01 ÷ 1.015.

The ratio of the diameters of the sections of the braking elements of the charge leader 5 and the rod 4 D / d and D ₁ / d ₁ , equal to (1.01 ÷ 1.015), was selected on the basis of experimental data. At a lower ratio, a tight fit is not ensured, which excludes lateral vibrations of the advanced elements of the leader-charge 5 and the rod 4, and at a higher ratio, the speed of the moving elements does not decrease smoothly, which leads to significant shock overloads at the moment of their fixation.

In the front part of the head fairing 3, on its inner surface, an annular groove is made with a split spring ring 21 installed in it and a groove with a shoulder Zh.

Before launching the rocket, the KTBCH is in the initial position, see Fig. 1, and must be put into the combat position of Fig. 3, for which, when you press the "Start" button of the rocket launcher, an electric signal is first supplied through flexible electrical connection 10 to an electric igniter 9, and after the time interval necessary for transferring the KTBCh to the combat position, a command to launch the missile is issued from the starting device.

When an electric signal is supplied to the electric igniter 9, it fires and ignites the powder sample 8. The resulting powder gases through perforations in the rigid cap 7 fill the airtight cavity formed by the bottom of the leader body 22 and the rod channel 4 bounded by the partition 11.

When a sample of gunpowder 8 is burned under the influence of the pressure of the powder gases on the bottom of the leader charge 5, when the force exceeds the shear force of the ring 17, the cumulative leader leader 5 begins to move forward relative to the rod 4, constantly gaining speed due to the existing gas pressure. After cutting off the ring 17 and the beginning of the movement of the cumulative leader leader 5 under the same pressure of the powder gases, the pins 18 are cut off and the rod 4 is moved towards the main cumulative charge until the stop of the protrusion of the rod B in the ledge Ж of the head fairing 3, the shock absorber 20 extinguishes while shock loads. As the cumulative leader 5 charge moves and accelerates forward relative to the rod 4, it accumulates kinetic energy, due to which, after fixing it in the rod 4, they move forward together until the rod 4 is fixed in the head fairing 3.

When nominating the cumulative leader charge 5 and the rod 4, the braking elements smoothly reduce their speed in the final sections of the movement, eliminating the occurrence of shock overloads at the moment of their fixation. In the final position, the cumulative leader charge 5 and the rod 4 are fixed from moving backward (their folding at the moment of collision of the high-speed ball train with an obstacle is excluded):

- a cumulative charge leader by entering a split spring ring 19 into one of the annular grooves B on the inner surface of the rod 4;

- the rod 4 by dropping the split spring ring 21 into one of the annular grooves G on the outer surface of the rod 4.

At the same time, by ensuring a tight fit (without gaps) of the brake elements of the leader 22 of the charge carrier 5 in the rod 4, as well as the rod 4 in the head fairing 3, lateral vibrations from each other of the extended elements are eliminated, which is very important for ensuring a stable flight of the rocket.

Thus, when the leading cumulative leader charge extension device 5 and rod 4 are triggered, the ingress of powder gases into the cavity of the main cumulative charge is excluded, the design elements of the extension device go forward, freeing the formation zone of the cumulative jet of the main cumulative charge from the structural elements of the extension device, the required length is provided extension of the leader charge, allowing to ensure the location of the main charge relative to the obstacle at the time I was at an optimum (focal) distance to the obstacle.

After the leader-cumulative charge 5 and rod 4 are extended and fixed, after a time interval has elapsed, a missile launch command is issued from the launch device.

When KTBCH collides with an obstacle, including one equipped with dynamic protection, an explosive device 6 fires, initiating the detonation of the leader’s cumulative charge 5, from the action of the explosion products of which the baffle 11 is deformed, and at the moment of its contact with the bottom 12 through flexible connections 13 and 15, accordingly, the housing 16 and the lining 14 is the closure of the electrical circuit of the bottom fuse 2 with the current source of the rocket, causing it to fire. The operation of the fuse 2 initiates the detonation of the main cumulative charge 1 with the formation of a cumulative jet. Moreover, the time from the moment of the charge of the leader 5 to the moment of contact of the partition 11 with the bottom 12, called the "delay time", depends on the material and thickness of the partition 11, the gap δ between the dead bottom 11 and the hard bottom 12 is 200 ÷ 260 μs . In this case, the main charge is triggered after the elements of dynamic protection leave the zone of action of the cumulative jet, if any, which makes it possible to obtain the maximum penetration of the obstacle. Due to the absence in the formation zone of the cumulative jet of the structural elements of the extension device, the presence of a central hole in the rigid bottom 12, the displacement of the electric igniter 9 relative to the longitudinal axis of the CTBCH and its perpendicular arrangement, the energy losses of the cumulative jet to break through are eliminated, which allows the formation of a cumulative jet with maximum energy parameters.

Thus, the present invention allows to eliminate the disadvantages of the prototype: the impact on the structural elements of the main cumulative charge of pressure and temperature of the powder gases after the gas generator is activated, condensate from the powder gases on the lining of the main cumulative charge, limitation of the length of the leading charge extension, the inability to use the main fuse delay device cumulative charge in the form of reaction contacts established with a gap and providing at minimum dimensions KTBCh high armor-piercing action.

Using the present invention allows to increase the armor-piercing effect of the CTBCH, compared with the same dimensions made according to the scheme of the sequential arrangement of two charges without extending the leading charge, by about 1.5 ÷ 2 times.

Claims (4)

1. Cumulative tandem warhead containing the main cumulative charge and the leader charge with fuses, a head fairing with a guide in which a retractable hollow rod with a bottom having a central hole for the passage of the cumulative stream is installed, a protective screen in the form of a partition fixed in the rod in front of its bottom with the formation of a gap between them, the clamps of the position of the rod, a device for extending the rod, equipped with a gas generator with a powder mount and an igniter, while the charge leader is placed in the channel of the rod, the main charge fuse is equipped with an electrically connected through the structural elements of the main charge delay device formed by a protective screen and the bottom of the rod, characterized in that the charge leader is installed with the ability to move along the channel of the rod and in the initial position is fixed in front of the protective screen using a shear ring with the formation of a sealed cavity between the bottom of the leader’s charge housing and the partition, and the rod extension device also serves as a charge transfer device a-leader along the channel of the rod and is made in the form of a rigid cap with a cavity formed in its central part for accommodating the powder mount of the gas generator and a side hole for the igniter, and the cap is mounted on the bottom of the leader’s charge housing, and the cavity for accommodating the powder mount is connected with a sealed cavity through the perforation holes formed in the cap. 2. The cumulative tandem warhead according to claim 1, characterized in that it is additionally equipped with braking elements of the leader-leader and rod in the final section of their extension, which are made in the form of conical-cylindrical protrusions on the rod and the leader-case, and the ratio of the maximum diameter protrusions to the minimum is 1.01 ÷ 1.015. 3. The cumulative tandem warhead according to claim 1, characterized in that the device for fixing the folded position of the rod is made from the front end of the rod, in the cowl, in the form of cut pins, and the rod is equipped with a limiter and a shock absorber after release. 4. The cumulative tandem warhead according to claim 1, characterized in that the protective shield is electrically isolated from the body and the bottom of the rod and is electrically connected to the main charge fuse through the cumulative lining, forming a normally open contact in the circuit of its detonation.

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