RU2169897C2 - Device for formation of hitting member - Google Patents

Abstract

FIELD: armament, in particular, warheads with projectile- forming hitting members. SUBSTANCE: the device for producing a definite profile of detonation wave uses a former of multi-point initiation of the explosive charge, in which the length of the detonation ducts corresponds to the preset condition. EFFECT: enhanced armor-piercing effect due to enhanced kinetic energy of the hitting member because of formation of detonation wave of a definite profile. 2 dwg

Description

 The invention relates to the field of armament and, in particular, to combat units with projectile-forming striking elements.

 It is known that throwing linings using plane or converging detonation waves (DW) leads to an increase in the kinetic energy of the linings compared to the initiation of an explosive charge at one point, generating a diverging DW.

 A number of methods and devices are known for forming a DW profile, for example, bending around an inert gasket, using lenses, or initiating an explosive charge at individual points.

 A flexible multipoint type device is known for generating a detonation wave (US Pat. No. 3,430,563 dated 03/04/69, class F 42 B 3/02).

 The US device generates a DV profile while initiating all the end points of a flexible device that fits the explosive charge.

 However, the need to bend the device leads to unreliable operation of the explosive strips located in an inert matrix due to explosive cracking and the formation of gaps in the explosive strips, especially during long-term storage.

 The prototype device for the formation of the striking element is the device according to patent RU N 2091695, 1995 publ. BI N 27, 1997, class F 42 B 1/02, in which a positive effect is achieved through the use of a thickness case.

 The problem to which the invention is directed is to form the necessary detonation wave profile in the explosive charge.

 The technical result of the proposed invention is an increase in armor penetration due to an increase in the kinetic energy of the damaging element provided by the created DW profile.

l_i - длина детонационного канала от источника инициирования до i-ой точки инициирования;
l_ц - длина детонационного канала от источника инициирования до ближайшей к центру формирователя точки инициирования;
h_i - расстояние между поверхностью заряда ВВ и расчетным положением требуемого профиля ДВ под проекцией i-ой точки инициирования;
D - скорость детонации пластического ВВ в каналах;
D_з - скорость детонации заряда ВВ.The proposed device for the formation of a striking element consists of a housing in which an explosive charge with a sphere-like lining is placed, a source of initiation. The device is characterized in that the detonation wave driver is made in the form of a layer of inert material. On the outer surface of the layer there are channels filled with a plastic explosive and connecting the initiation source with end initiating elements in contact with the explosive charge. The length of each channel from the initiation source to the explosive charge is made in accordance with the required DW profile according to the formula

l _i is the length of the detonation channel from the initiation source to the i-th initiation point;
l _c - the length of the detonation channel from the initiation source to the initiation point closest to the center of the shaper;
h _i is the distance between the explosive charge surface and the calculated position of the desired DW profile under the projection of the i-th initiation point;
D is the detonation velocity of a plastic explosive in the channels;
D _s - detonation velocity of the explosive charge.

 The shaper, made as described, implements the necessary DW profile due to the difference in the detonation channel lengths from the initiation source to the terminal initiating elements. Thus, the necessary curvature of the DW is achieved by simultaneously initiating the explosive charge surface at different points.

 As an example, we consider one of the structural solutions of the device for the formation of the striking element.

In FIG. 1 schematically shows a General view of the device in section; in FIG. 2 - top view of the shaper DV:
1 - device housing
2 - explosive charge
3 - source of initiation
4 - shaper
5 - facing
6 - channels and end initiating elements
7 - the desired profile of the detonation wave (in Fig. 1 is shown by a dashed line)
The device operates as follows. The detonation from the source of initiation through the channels reaches each final initiating element, and the response time of the element is determined by the length of the channel, determined in accordance with the formula. Thus, the explosive charge is initiated by finite elements in a given sequence. For example, it is required to create in the explosive charge a DV 7 profile equidistant to the cladding profile 5.

From FIG. 1 shows that to obtain the desired profile of the DW it is necessary to reduce the channel length of each i-th element of the shaper by a value proportional to h _i . Thus, a detonation front is formed in the explosive charge, the profile of which is close to the specified one. The degree of approximation to the calculated profile depends on the number of initiation points.

 The converging detonation wave created in the explosive charge approaches the cladding simultaneously over the entire surface, which provides increased energy extraction by the cladding from the explosive charge and, accordingly, increased armor penetration.

 Calculation and experimental studies of the described device showed an increase in the kinetic energy of the damaging element by 20 - 40% compared with a device with single-point initiation, which ensures an increase in armor penetration.

Claims (1)

A device for forming a striking element, comprising a housing, an explosive charge placed therein with a sphere-like lining, a multipoint source of charge initiation, and a detonation wave shaper made in the form of a layer of inert material on the side of the charge opposite from the lining, characterized in that channels filled with plastic explosive material connecting the initiation source with the charge, the channels having end sections in contact surface charge of explosive, and the length of each channel from the source to initiate the initiation point is formed with the desired profile of the detonation wave front according to the formula

where I _i is the length of the detonation channel from the initiation source to the i-th initiation point;
I _c - the length of the detonation channel from the initiation source to the initiation point closest to the center of the shaper;
h _i is the distance between the surface of the charge and the calculated position of the required front of the detonation wave under the projection of the i-th initiation point;
D _k — detonation velocity of plastic explosive in the channels;
D _s - detonation velocity of the explosive charge.

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