RU2638670C1 - Ignition device body for hand grenade and method for its production - Google Patents

Abstract

FIELD: weapon and ammunition.

SUBSTANCE: ignition device body contains a top part and a bottom part made of plastic and connected by fusion welding, and a band with an internal groove covering the weld seam. The upper part and the lower part are made of polyethylene. The band is made in the form of a ring of aluminium alloy. In the manufacture of the ignition device body for hand grenades, the upper and lower parts of the body are contacted and they are connected by fusion welding. During welding, a band is installed on the weld seam. Fusion welding can be carried out by means of a heated band.

EFFECT: integrity of the igntion device when it falls in the simulator of a hand grenade on such obstacles as asphalt and curb stones, from a height of 35 m.

5 cl, 3 dwg

Description

The claimed invention relates to the field of fuses for ammunition, in particular fuses for hand grenades.

The prior art shock-remote fuse for hand grenades - UDZ (Hand and gun grenades / Pribylov B.V., Kravchenko E.N. - M .: "Arctic 4D", 2008 - 776 p., S. 553-555 ) The UDZ fuse is designed to actuate a grenade when it hits an obstacle after 1 ... 1.8 s (cocking time) after the throw or after the self-destruction time (3.2 ... 4.2 s). One of the significant drawbacks of this fuse is the low mechanical strength of the housing. The fuse case is made of polyethylene and consists of upper and lower parts connected to each other at the final stage of assembly by fusion welding. This design provides sufficient strength when the fuse falls in the composition of the grenade on the ground. However, when a grenade falls with an UDZ installed in it after a throw on concrete, asphalt, brick, etc. before the expiration of the cocking time, de-detachment often occurs and, accordingly, the ignition fails. The detailing is due to the destruction of the weld, which connects the parts of the body of the fuse UDZ.

Thus, the UDZ is not suitable for warfare in urban areas.

The problem to which the invention is directed is to create a fuse case for a hand grenade, the strength of which ensures the operation of the fuse in the grenade after throwing with a hand and the subsequent hit of the grenade in hard, durable obstacles. In addition, the fuse case should be lightweight and not create during destruction caused by the operation of the grenade additional damaging elements, which is important when using the fuse with non-lethal hand grenades.

The solution to this problem is the fuse case for a hand grenade, containing the upper part and the lower part made of plastic and connected by fusion welding, characterized in that it contains a bandage with an internal groove, covering the weld.

The upper part and the lower part can be made of polyethylene.

The bandage can be made in the form of a ring of aluminum alloy.

The solution is also a method of manufacturing said fuse case for a hand grenade, which comprises contacting the upper and lower parts of the housing and connecting them by fusion welding, characterized in that a bandage is installed on the weld during fusion welding.

Fusion welding can be carried out by means of a heated bandage.

The drawings show:

- in FIG. 1 - connection of the body parts of the standard fuse UDZ;

- in FIG. 2 - an example embodiment of the invention in the form of impact-resistant connection of parts of the body of the fuse UDZ using a bandage;

- in FIG. 3 - bandage design.

The fuse case contains an upper part 1, a lower part 2 and a brace 3 with an internal groove 4.

The increased strength of the igniter is ensured by the bandage 3 (Fig. 2, 3), which is installed simultaneously with the finishing assembly operation — thermal welding (fusion welding) of the upper part of the housing 1 with the lower part of the housing 2. In this case, the thermal welding zone 5 is formed so that the molten materials of the upper part of the housing 1 and the lower part of the housing 2 fall into the internal groove 4 of the brace 3, reliably fixing the brace 3 on the weld seam 5. When hitting hard hard barriers, the brace 3 protects the welded (fused) seam from deformations of and damage.

In an example embodiment of the invention, the upper part of the housing 1 and the lower part of the housing 2 are made of polyethylene, and the bandage 3 is made in the form of a ring of aluminum alloy and its weight is about 10 g.

The strength of this design was experimentally confirmed when the fuse fell in the hand grenade simulator on obstacles such as asphalt and curbs from a height of 35 meters.

It should be noted that when falling from such a height, the fuse in the simulator of a hand grenade receives more kinetic energy than it can get with a throw by hand. Thus, the invention provides a housing strength sufficient for all possible shock loads arising from the operation of the fuse.

It was experimentally established that when using a fuse with a case of this design with non-lethal light-sound grenades, the bandage 3 does not collapse, i.e. does not create additional fragmentation damaging elements. If the destruction of the fuse case during the explosion of a non-lethal grenade still occurs, then the speed obtained by the bandage 3, due to its thin ring shape, which is not optimal for explosive throwing, will not be enough to defeat a person. At the same time, the formed polyethylene fragments of the fuse case quickly lose the speed obtained during the destruction of the fuse case due to aerodynamic drag due to the low density of the material and cannot cause any damage to a person already at a distance of several tens of centimeters.

Claims (5)

1. The fuse case for a hand grenade, containing the upper part and the lower part made of plastic and connected by fusion welding, characterized in that it contains a bandage with an internal groove, covering the weld. 2. The housing according to claim 1, characterized in that the upper part and the lower part are made of polyethylene. 3. The housing according to claim 1 or 2, characterized in that the bandage is made in the form of a ring of aluminum alloy. 4. A method of manufacturing a fuse case for a hand grenade according to claim 1, which comprises contacting the upper and lower parts of the housing and connecting them by fusion welding, characterized in that a bandage is installed on the weld during fusion welding. 5. The method according to p. 4, characterized in that the fusion welding is carried out by means of a heated bandage.

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