RU2191976C1 - Shaped warhead - Google Patents

Abstract

FIELD: artillery ammunition. SUBSTANCE: shaped warhead has body with bottom, shaped charge with lining, safety-actuating mechanism, initiation blasting cartridge and electric detonator. Initiation blasting cartridge has no case, centering ring protruding beyond face of cartridge by height of front branch pipe of safety-actuating mechanism and installed with its outer surface in central hole of bottom of body of warhead assembled with tight fit is pressed uniaxially into rear face of cartridge on side of safety-actuating mechanism flush with its outer diameter at level of 0.3-0.5 of its height. Thin-walled branch pipe of safety- actuating mechanism has spring protrusion on outer surface and is placed inside protruding part of centering ring to positive stop by rear face of initiation blasting cartridge. Amplifier of detonation pulse coming in the form of cylindrical column of explosive with height of 1.0-1.2 of its diameter is installed uniaxially in ring casing inside branch pipe. Front face of initiation blasting cartridge is located in central socket of lens and is loaded in axial direction by rubber damper placed in same socket. EFFECT: increased armor piercing capability of shaped warhead thanks to point initiation of shaped charge by way of separate centering of elements of initiation unit and to insertion of amplifier as compensator of axial errors of their installation. 1 dwg

Description

 The invention relates to the field of military equipment and can be used in the construction of cumulative warheads of guided missiles.

 Known cumulative warhead guided missile anti-tank complex [1], containing a housing with a bottom, a cumulative charge, a safety-actuating mechanism and an initiating explosive bomb in the housing, an electric detonator and an inert insert in the form of a body of revolution (lens) mounted inside the cumulative charge, when In this case, the detonation pulse is transmitted to the part of the cumulative charge located under the inert insert (lens). The lens makes it possible to obtain a toroidal front of a detonation wave converging to a cumulative funnel.

 The design drawback is the insufficient alignment of the initiating explosive bomb relative to the axes of the cumulative charge and the lens due to the presence of technological tolerances after the assembly of half charges with a lens in the warhead housing.

 To some extent, the noted drawbacks were eliminated in the design of the cumulative warhead [2], where the inert conical shaped insert is installed in a bursting charge at a strictly adjustable distance from the bottom surface of the cumulative warhead and its inner surface (≥1 / 25 of the diameter of the inert insert), which makes it possible to constructively ensure a uniform thickness of the cumulative charge explosive layers under an inert body (lens) and a uniform approach of the toroidal detonation front wave to the surface of the cumulative lining.

 However, this is only possible if the elements of the initiating assembly are aligned with the lens, which is not provided by this design, for example, due to the possibility of uneven growth of the explosive after the manufacture of the warhead.

 To a large extent, this drawback was eliminated in the design of the cumulative mine [3], selected for the prototype, containing a fuse, an inert body (lens), an explosive charge with a cumulative recess and lining, as well as an initiating explosive piece coaxially mounted on the rear end of the fuse behind inert body.

 The design drawback is the presence of a rigid connection between the fuse body, the cumulative lining and the initiating checker and the absence of an element that compensates for the installation errors of the fuse and the initiating checker, and therefore, the possibility of asymmetry of the detonation front acting on the part of the charge located under an inert body (lens) is not ruled out.

 The objective of the present invention is to increase the armor penetration of a cumulative warhead due to the pointwise initiation of a cumulative charge by separately centering the elements of the initiating assembly and introducing an amplifier as a compensator for the axial errors of their installation.

 This is achieved by the fact that in a cumulative warhead containing a case with a bottom, a cumulative charge with a lining, a lens, a safety-actuating mechanism initiating an explosive bomb, an electric detonator, an initiating bomb is made without a shell, it is flush to its rear end from the safety-executive mechanism. with its outer diameter, sossno, at 0.3-0.5 of its height, a centering ring is pressed in, protruding beyond the end of the checker to the height of the front pipe of the safety-actuating mechanism and the mouth Close to its outer surface in the central hole of the bottom of the warhead body in a tight fit, the front branch pipe of the safety-actuating mechanism is made thin-walled with an annular spring protrusion on the outer surface and is installed inside the protruding part of the centering ring in focus with the rear end of the initiating checker, and coaxially inside the nozzle , in the annular holder, the detonation pulse amplifier is installed, made in the form of a cylindrical column of explosives with a height of 1.0-1.2 diameters, while the front end of the initiating checker is mounted in the central socket of the lens and axially pinched by a rubber damper placed in the same socket.

 The drawing shows a cross section of a cumulative warhead, consisting of a cumulative charge with a lining 1 in the housing with a bottom 2, a lens 3, a safety-actuating mechanism 4 with a detonation pulse amplifier 5, placed in an annular cage 6, of the front pipe of the safety-actuating mechanism 7, initiating explosive pieces 8, located in the centering ring 9, a rubber damper 10 mounted in the socket of the lens 11, the detonator 12.

 The drawing shows the operating position of the shutter of the safety-actuating mechanism 13 with the location of the opening of the shutter 14 opposite the electric detonator and the detonation pulse amplifier.

 The device operates as follows.

 When applying an electrical impulse to the detonator 12 it is undermining.

 The fire pulse through the hole 14 of the valve 13 is transmitted to the amplifier of the detonation pulse 5 and causes it to fire. The operation of the amplifier 5 in turn triggers the initiating explosive bomb 8, which undermines the part of the cumulative charge 1 located under the lens 3. The detonation front goes around the lens 3 and forms a toroidal front, converging to the axis of the cumulative charge 1, of the detonation wave. After that, the undermining of the cumulative charge leads to the formation of a cumulative jet.

 Introduction to the design of the centering ring 9 allows you to separately center the initiating explosive block 8 and the detonation pulse amplifier 5 mounted in the nozzle of the safety-actuating mechanism 7 using the annular ring 6. With respect to the cumulative charge 1, this eliminates the effect of misalignment of the installation of the detonator 2 and the opening 4 of the shutter 13 .

 The rubber damper 10 ensures that the initiating checker 8 is pressed against the end of the front pipe of the safety-actuating mechanism 7, excluding axial clearances between all elements of the fire chain.

 Pressing the centering ring 9 to a height of 0.3-0.5 of the height of the initiating explosive pieces 8 provides mechanical strength of the connection.

 The proposed design of the site of initiation of the cumulative warhead allows for separate centering of its elements of the initiating checker and the detonator, as well as the detonation pulse amplifier, which compensates for axial errors in the installation of the detonator of the safety-actuating mechanism relative to the working hole of the shutter and the initiating checker, which ensures uniform approach, toroidal, converging to the facing of the cumulative charge of the detonation wave. The selected height of the cylindrical column of the detonation pulse amplifier, amounting to 1.0-1.2 of its diameter, which is usually equal to the working hole of the damper, is a necessary and sufficient condition for aligning the detonation wave, since it is empirically established that the displacement of the axes of the working hole of the damper, electric detonator and column detonation pulse amplifier does not exceed 1 mm. Performing a column height of more than 1.2 mm is structurally impractical, since it leads to an increase in the height of the nozzle, and therefore to a decrease in the height of the initiating checker, or to an increase in the layer thickness of a part of the cumulative charge under an inert body (lens), which, in turn, leads to the need to increase the thickness of the lens in order to ensure its non-penetration by the detonation front of the shock wave.

 Thus, the application of the proposed technical solution allows you to create a design of a cumulative warhead with increased armor penetration due to the pointwise initiation of a cumulative charge by separately centering the elements of the initiating assembly and introducing an amplifier as a compensator for axial errors of their installation.

Sources of information
1. ATGM "Milan" (prospectus of the company Dentsche Aerospace Produktbereich Abwehr und Schutz, January 1992).

 2. German patent (DE) 2852359, MK45 F 42 B 1/02.

 3. Cumulative mine F 42 B 23/04, WO 9525938, 09.28.95 ("Inventions of the world", 8, Moscow, 1996) 2 prototype.

Claims (1)

 Cumulative warhead containing a housing with a bottom, a cumulative charge with a lining, a lens, a safety-actuating mechanism initiating an explosive bomb, an electric detonator, characterized in that the initiating bomb is open in it, flush on its rear end from the side of the safety-actuating mechanism with its outer diameter, coaxially, a centering ring is pressed in at 0.3-0.5 of its height, protruding beyond the end of the checker to the height of the front pipe of the safety-actuating mechanism and the mouth tightened by its outer surface in the central hole of the bottom of the warhead housing, the front branch pipe of the safety-actuating mechanism is made thin-walled with an annular spring protrusion on the outer surface and installed inside the protruding part of the centering ring in focus with the rear end of the initiating checker, and coaxially inside the nozzle , in the annular holder, the detonation pulse amplifier is installed, made in the form of a cylindrical column of explosive with a height of 1.0-1.2 of its diameter, with that the front end of the initiating checker installed in the central seat of the lens and is preloaded axially rubber damper placed in the same slot.