RU2363919C1 - "toropetz" splinter-in-beam projectile - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to ammunition with circular and axial fields of injury. Proposed projectile comprises trajectory-contact fuse, front section including shell to house set of hitting elements, explosive charge, detonator, retarder and rear section including shell to house ser of hitting elements, explosive charge, detonator and retarder. The said sections can go apart when pyrotechnical charge, arranged there between, blasts. Hollow rod fitted in the rear section axial channel is attached to the front section shell.

EFFECT: higher accuracy of hitting targets.

4 cl, 3 dwg

Description

The invention relates to ammunition, and more particularly to fragmentation-beam projectiles, i.e. to shells that create two fields of destruction - the axial field of finished striking elements (GGE) and the circular field of fragments of the shell.

There is a method of hitting air and ground targets and ammunition for its implementation (RU 2158408, publ. 1999 - the closest analogue). Ammunition consists of a GPE block and a high-explosive fragmentation warhead (OFBCH). The GGE block is ejected when the ammunition approaches the target by means of a pyrotechnic separation device, and the OFBCH is blown up when the ammunition falls to the ground or when it passes the target.

The main disadvantage of the method for low-speed ammunition (barrels of mines, recoilless shells, etc.) is the low velocity of the axial flow of the GGE (almost equal to the velocity of the ammunition), which reduces the effectiveness of the targets.

The objective of the present invention is to remedy this drawback.

The technical solution consists in the fact that the fragmentation-beam projectile comprises a trajectory-contact fuse, a front section including a body in which a block of ready-made striking elements, an explosive charge, a detonator and a moderator, and a rear section including a fragmentation shell with an explosive charge are placed, detonator and moderator. The front and rear sections are made with the possibility of their separation when the pyrotechnic charge placed between them is triggered. A hollow rod is mounted to the front section housing located in the axial channel of the rear section.

The front section housing is made of light alloys or non-metallic composite metals. The fragmentation case of the rear section is made of high-carbon silicon steels 60С2, 80С2, 80Г2С. The block of finished striking elements of the front section is made of elements made of steel or heavy alloys, in a form that ensures their tight packing.

The invention is illustrated by drawings: FIG. 1 is a diagram of a projectile, FIG. 2 is a front part of a projectile, and FIG. 3 is a diagram of a projectile.

The projectile (figure 1) consists of two sections: the front (movable) section 1 (throwing unit) and the rear (main) section 2. The throwing unit includes a housing 3 with a hollow rod 4 attached to it, explosive charge 5 with detonator 6 and a block of ready-made striking elements (GGE) 7 located on the front end of the explosive charge. A light head cap 8 with a fuse 9 is installed in front of the GGE block. The throwing block is connected to the main section by a threaded connection 10. In order to reduce the impact of detonation of the throwing block on the main section, it is preferable to make its body from light alloys or non-metallic composite materials.

The main section includes a housing 11, inside of which is placed the explosive charge 12 with an axial channel 13, which includes the rod of the propelling unit. Between the sections, a pyrotechnic charge of separation 14 is installed with an igniter 15 installed in the housing of the throwing unit. In the same housing, a moderator 16 of the detonator 6 of the propelling unit is installed. The detonator of the rear section 17 and its moderator 18 are installed in the front bottom of the main section. The igniter and both moderators are connected by electrical connection 19 to the fuse. All of these elements form an executive block blasting. The head fuse 9 is made trajectory-contact. The trajectory part of the fuse has a temporary, non-contact or command execution. The fuse is equipped with a receiver 20 commands.

The GGE of block 7 is made of steel or heavy alloys, for example, based on tungsten, mainly in a shape that allows them to be densely packed in the block.

The inner surface of the channel is lined with a thin layer of metal 21. In order to enhance the fragmentation effect, the body of the main section is made of high-fragmentation silicon steels 60С2, 80С2, 80Г2С.

The projectile is as follows. Before firing, a temporary setting is introduced through the command receiver. On approaching the target at the calculated point, the fuse gives a command to the igniter 15 of the pyrotechnic charge of the separation of the sections. The triggering of the charge leads to the cutting of the thread 10 and the extension of the sections, while the rod of the front section slides along the channel 15 (figa). The response time of the retarder 16 is 0.7-0.8 times the extension of the rod of the propelling unit from the axial channel of the rear section. The projectile span during this time is R. At the calculated time, when the end of the rod is still in the channel (Fig.3b), the moderator 16 gives a command to undermine the explosive charge of the propelling unit (Fig.3c). When a charge explodes, an axial flow of the GGE is directed forward. The length of the rod ensures that there is no noticeable effect of the explosion on the main section. The latter continues to move forward, enters the near zone of the target and, upon the operation of the moderator 18, is undermined, hitting the target with a circular field of fragments of the body and an air shock wave (Fig. 3d). Thus, the entire metal mass of the projectile is used to hit the target.

The response time of the moderator 18 is defined as the time of flight of the projectile distance U-R.

Claims (4)

1. A fragmentation-beam projectile containing a trajectory-contact fuse, a front section including a block of ready-made striking elements, and a rear section including a fragmentation shell with an explosive charge, a detonator and a moderator, characterized in that the front and rear sections are configured to spreading when a pyrotechnic charge placed between them is triggered, while the front section is made with a housing in which its block of ready-made striking elements is placed, an explosive charge, a detonator retarder and to which is attached a hollow rod housed in the axial channel of the rear section. 2. The projectile according to claim 1, characterized in that the housing of the front section is made of light alloys or non-metallic composite metals. 3. The projectile according to claim 1, characterized in that the fragmentation case of the rear section is made of high-carbon silicon steels 60C2, 80C2, 80G2S. 4. The projectile according to claim 1, characterized in that the block of finished striking elements of the front section is made of elements made of steel or heavy alloys in a shape that ensures their tight packing.

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