RU83325U1 - SHARDBAR AND BEAM STEM MINE "OSUGA" - Google Patents

Abstract

A fragmentation-beam barrel mine containing a shell with an explosive charge, a fragmentation plate and a detachable warhead containing a body with a head non-contact fuse, equipped with a pyrotechnic separation device, characterized in that the fragmentation plate is located in a detachable head part, in which the explosive charge is located while the mine’s body is equipped with an impact fuse, and the body of the detachable head is made of plastic or light alloy.

Description

The invention relates to ammunition, and more specifically to mines for mortars. Known high-explosive mines containing a teardrop-shaped body with an explosive charge, shock fuse and stabilizer. Mines have a hinged trajectory with incidence angles of 70-90 ° and hit targets on the surface due to a circular fragmentation field.

The main disadvantage of mines is the low effectiveness of the targets located in the trenches, communications, and embankments. This shortcoming was eliminated in the 120-mm mine of HE-L from Rheinmetall in Germany. The mine is made according to the scheme of fragmentation-beam ammunition. It contains a housing with an explosive charge and a fragmentation plate located at the front end of the charge, and a detachable warhead with a non-contact fuse head equipped with a pyrotechnic separation device. A mine explosion occurs at a height of 15-20 m and targets in the trenches are affected by a beam of fragments of a given crushing of the plate from above. In this case, the fragments of the massive mine shell scatter at high altitude almost parallel to the surface of the earth and do not contribute to the damaging effect of the mine.

The present invention seeks to remedy this drawback. The technical solution consists in the fact that the fragmentation plate and part of the explosive charge are transferred to the detachable warhead, and an impact fuse is installed in the housing.

Figure 1 - a longitudinal section of a fragmentation-beam mine, figure 2 - mine after separation of the parts, figure 3 - scheme of action.

The mine device is shown in figure 1. The mine includes the main part 1 and the front detachable part 2. The main part contains the casing 3 with a stabilizer 4, explosive charge (BB) 5 and shock fuse 6. In the recess of the front bottom of the casing there is a pyrotechnic separation charge 7.

The front part is connected to the main part by a threaded connection 8. It consists of a housing 9 in which a charge of explosive 10 and a fragmentation plate 11 are placed. Housing 9 is made of light alloy or plastic.

The fragmentation plate can be made as a given crushing, or in the form of a set of ready-to-use striking elements (GGE). At the top of the front part there is a head non-contact fuse 12 of the altimeter type connected by a tube 13 with an igniter 14 located in the fuse case 6 and through a moderator 15 with a charge fuse BB 10.

The head fuse of the "altimeter" type can be made with either a fixed or adjustable blasting height. In the latter case, it is equipped with a receiver 17.

The action of the mines is as follows. Before the shot, the height of the detonation of the mine is set. At a given height, a non-contact fuse gives a signal to ignite the pyrotechnic separation charge, as a result of which the front part is fired and the thread is cut 8. The moderator 15 is ignited at the same time. on the other hand, due to the threaded part 18 of the casing 9, which plays the role of an aerodynamic “skirt” (FIG. 2). After removing the front part to the required distance from the rear part, the explosive charge is detonated through the moderator 15. Light fragments of a body made of light alloy or plastic are not capable of causing damage to the main part of the mine flying behind.

The axial flow of GGE formed during the explosion hits targets in the trenches from above. The main part of the mine, moving along the trajectory, hits the ground and is blown up by a fuse 6. In contrast to the prototype, the entire metal mass of the mine is used to hit the target. Its estimated effectiveness in relation to the prototype increases by 1.5-2 times.

Claims (1)

A fragmentation-beam barrel mine containing a shell with an explosive charge, a fragmentation plate and a detachable warhead containing a body with a head non-contact fuse, equipped with a pyrotechnic separation device, characterized in that the fragmentation plate is located in a detachable head part, in which the explosive charge is located while the mine’s body is equipped with an impact fuse, and the body of the detachable head is made of plastic or light alloy.