CZ23741U1 - Non-toxic projectile - Google Patents

Description

Non-toxic missile

Technical field

The technical solution concerns the field of small-caliber ammunition and especially the missile, which contains no toxic components. The missile according to the technical solution is intended for both shooting training and for practical use in combat deployment.

BACKGROUND OF THE INVENTION

It is known a large number of missiles for pistol, revolver and generally small-caliber weapons of various design.

As a rule, such bullets comprise a shell of steel or brass or possibly other copper alloys, the surface of the shell being provided with an anti-corrosion treatment if necessary. The core of the missile is then mostly made of lead or its alloys.

Another possibility is the so-called homogeneous missiles, which are made of a single material, preferably brass, as well as phangible bullets, which are made of powdered metals or metal oxides sintered using a binder.

The disadvantages of the known solutions are that the lead of the missile core, as well as the brass and other copper alloys used on the mantle, are essentially toxic and therefore unacceptable from an environmental point of view.

In addition, the brass used on the shell of the projectile is hard and high in strength, and in many cases the use of the projectile due to the limited or reduced deformability of the projectile reduces its stopping effect. The use of iron and its alloys, which are non-toxic in themselves, results in a high abrasion of the grooves in the barrel of the weapon due to its mechanical properties, as well as the aforementioned reduction in the stopping effect.

The aim of the technical solution is to eliminate the above-mentioned shortcomings and to solve the bullet design showing better ballistic properties and enabling efficient production technology, using suitable non-toxic materials and maintaining the automatic function of the weapon.

The essence of the technical solution

The object of the technical solution is a missile for training use and combat deployment, which consists of two or more components, which are of different non-toxic materials and these together form a missile assembly. It is essential that the bullet comprises a shell and a core, the shell being made of a non-toxic material and the core consisting of at least two basic components that differ in their specific weight and are non-toxic.

It is also essential that the shell is made of aluminum or titanium and the cores are frangible.

It is also essential that the missile core is made of non-toxic powder materials such as Fe and Sn and a plastic binder.

The core may be composed of two parts, each of which has a different composition and a different specific weight, and both parts are placed one above the other in the projectile.

Clarification of drawings

Fig. 1 shows a 9 mm Luger bullet in full-shell or FMJ design; Fig. 2 shows a 9 mm bullet in semi-casing or JHP design.

-1 CZ 23741 Ul

Examples of technical solutions

Example 1

The 9 mm bullet shown in FIG. 1 has a shell 1 made of a non-toxic material, in this case aluminum. A frangible core 2 is pressed into the shell 1 in the projectile process and consists of two powder metals with a binder. Also, both powder metals are non-toxic. Specifically, these are Fe and Sn. Also, the plastic-based binder is non-toxic.

The choice of materials, in particular the missile core 2 materials determining the weight of the core 2, is governed by the ballistic properties requirements of the projectile and the required range. By a suitable combination of powder metals and plastics, it is possible to achieve the desired properties not only in terms of functionality and missile and environmental impacts, but also the economic benefits of projectile production. Suitable materials for the frangible core are known and are described in the respective information sources.

The bullet according to the present technical solution is produced in such a way that by means of progressive forming the shell and bullets with the open bottom part are produced. The bullet core 2 is pressed into this shell 1 and the assembly is terminated in the bottom by an inwardly curved skirt 5.

It is also possible to form a casing 1 in a similar manner, to fill it with a powder mixture and to press it to the desired density, and then to cover the core 2 with an aluminum foil disc 7 and finally to finish the casing 1 in the bottom part with a curved rim 5.

This procedure can be obtained, for example, a 9 mm Luger bullet weighing 7.5 g.

Example 2

The 9 mm bullet shown in FIG. 2 has a shell 3 which is made of titanium, a non-toxic material. The sheath has the shape of a tube with a closed bottom and an open tip. In the shell 3, a frangible lower core 8, which is a mixture of two powder metals with a binder, is pressed into the shell in the projectile process. Both powder metals are non-toxic, namely Fe and Sn. In the front part of the projectile, the lower core 8 is pressed upper core 4, which is also of the frangible type and also consists of a mixture of two powder metals with a binder, but which has a different ratio of components and therefore has a different compression density 8. In this case both powder metals are also formed of non-toxic Fe and Sn.

The choice of materials, especially the core 4, 8 missile materials, is governed by ballistic requirements for the projectile, in particular the desired effect at the target, the required range, the resulting shape of the projectile and its total weight. By a suitable combination of powder metals and plastics, it is possible to obtain an environmentally friendly and economically viable frangible missile.

The projectile production is similar to the first example. The lower core 8 and the upper core 4 are pressed into the bullet casing 1 produced by the progressive molding and the assembly is shaped into a truncated cone in the tip.

The cavity 6 at the tip of the JHP projectile is formed in the molding process of the upper core 4 by an appropriately shaped press mandrel. It is also possible to create a cavity 6 by removing the compressed material of the upper core 4 by drilling.

Industrial applicability

Missiles according to the proposed design can be produced on conventional machinery for the production of small pink missiles.

Claims (5)

PROTECTION REQUIREMENTS A combat and missile missile comprising a shell and a core, characterized in that the shell (1) is made of a non-toxic material and a core (1). 2, 4, 8) is composed of at least two basic components which differ in their specific weight and are non-toxic. A bullet according to claim 1, characterized in that the bullet shell (1) is made of aluminum or titanium. The bullet according to claims 1 and 2, characterized in that the cores (2, 4, 8) are of the frangible type. The bullet according to claim 1, 2 or 3, characterized in that the bullet core (2, 4, 8) is also made of non-toxic powder materials, for example Fe and Sn and a plastic binder. The bullet according to claims 1 to 4, characterized in that the core (2, 4, 8) is composed of two parts, each having a different composition and a different specific weight, and both parts are placed one above the other in the bullet.