CZ28920U1 - Cartridge with projectile having reduced lethal effect - Google Patents

Description

Bullet with reduced lethal effect

Technical field

The technical solution relates to small-caliber and medium-caliber ammunition and especially bullets with projectiles with adjustable lethal and non-lethal effect, suitable especially for actions of security forces such as police, which are also suitable for shooting practice. Non-lethal projectile bullets are intended to prevent unwanted, such as criminal activities, but do not aim to seriously injure or even kill potential perpetrators. For security reasons, such cartridges are also suitable for shooting practice at shooting ranges, which may not be so thoroughly secured against accidental hit by unauthorized persons who accidentally or accidentally get into the enclosure of the shooting range.

BACKGROUND OF THE INVENTION

It is known a number of missiles, various structures adapted for different purposes, for example, so-called shell bullets, semi-shell bullets, homogeneous bullets and bullets frangible. In general, different types of metals such as Cu, Al, Zn, Fe are used in conventional missiles, which may be surface-treated or metal alloys such as CuZn 10, CuZn 30, CuZn 40. Another frequently used metal for missile construction is lead and its alloys , whose advantage is high weight, which is a feature significantly affecting the range of missiles.

Another large group of missiles are missiles for special use, and one significant group are non-lethal missiles, ie missiles intended for training and for use in specific situations, such as police actions. Missiles of this type have a different shape, the assembly of their rounds is solved in different calibers. Preferably, the base material of these bullets is rubber, whether natural or synthetic, or various plastics - such as PE, PP, ABS. These missiles are produced by machining or conventional plastic injection molding.

Generally, the disadvantage of all known non-lethal missile solutions is that these missiles have a low weight due to the low specific gravity of the base material, resulting in major problems with these missiles, such as frequent bullet defects and very limited missile range and low effective range. ie the distance at which the bullet is still capable of meeting the purpose for which it is intended.

The essence of the technical solution

The aim of the proposed solution is to eliminate these shortcomings and to create a charge, especially its shot, which can be evaluated after firing to a certain distance as lethal and then from that distance as non-lethal, ie only hurt. The distance from which the bullet becomes non-lethal is dependent not only on its construction, i.e. shape and composition, i.e., weight, but also on the selectable muzzle velocity given, inter alia, by the selected charge propellant charge.

This object is achieved by the present technical solution of a projectile with adjustable lethal effect, comprising a cartridge having a propellant powder charge and a projectile adapted to achieve an adjustable lethal effect, characterized in that the bullet is formed from a mixture of metal powder and thermoplastic powder in a 15 / 85 to 85/15 and the cartridge powder charge is changeable according to the desired muzzle velocity of the projectile.

It is also essential that the metal-containing powder consists of a pure metal, a metal alloy, a metal oxide or a metal salt.

The bullet tip is adapted to increase lateral deformation of the bullet upon impact on the target by increasing the apex angle of the bullet to 120-160 ° or forming a plane perpendicular to the bullet axis, the diameter of which is 25-100% of the bullet diameter.

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It is also essential that the metal-containing powder consists of a substance with a specific gravity exceeding 1.2 g / cm ³ , for example BaSO ₄ .

The thermoplastic powder is mainly composed of polyethylene or polypropylene.

Advantageously, the bullet is provided with a circumferential groove to increase the strength of the bullet seat in the cartridge case and if the materials used are chemically stable and environmentally sound.

Charge according to the technical solution has retained all the utility parameters such as the determined speed of the projectile, the accuracy of the projectile in use, stability of functional parameters during the warranty period, flawless function in the appropriate weapon, etc.

Clarification of the drawing

Figure 1 is a schematic cross-sectional view of an embodiment of a pistol and turret missile.

Figure 2 is a schematic view of a bullet for a spherical cartridge in axial section.

Figure 3 is a view of the pistol and revolver missile, in the design of a half-shell projectile with a metal shell at the bottom of the projectile.

Examples of technical solutions

Example 1

Figure 1 shows a 9 mm Luger caliber missile 1, which is produced by spraying a material consisting of a mixture of Cu and PE (polyethylene) in a ratio of 80/20 into the die.

The bullet I, which becomes non-lethal when the velocity falls below a certain limit, i.e. at a predetermined distance from the firing point, is provided with a flat surface 3 with a diameter of 3.5 mm to achieve the desired lethality in the front. This surface 3, on the one hand, provides a reduction in the velocity of the missile I as compared to a missile of a conventional shape, thereby reducing its effect on the target and, on the other hand, increases the velocity and magnitude of deformation of the missile 1 upon impact. A significant increase in deformation, i.e. an increase in the transverse dimension of the projectile, even when it hits the body, ensures that the projectile does not penetrate deep into the body and generally causes only superficial injury or pain only without major damage to body tissues. Upon impact on a solid target (eg wall, glass, steel plate) the bullet deforms or even partially disintegrates.

Example 2

Bullet and caliber 9 mm Luger is made by spraying a mixture of CuO and PE in the ratio 50/50 into the matrix. In order to achieve the desired effect, the bullet is also provided in the front part with a flat 3 with a diameter of 2.5 mm. As in the previous example, the bullet 1 deforms when it hits a fixed target, such as a wall, glass or steel plate, until it decomposes partially, upon impact on the body (from a certain predetermined distance, i.e. reaching a certain amount of impact energy) the bullet I partially reshapes and usually causes only surface injuries.

Example 3

7.62 mm bullet and caliber according to Fig. 2 is produced by spraying a mixture of Cu and PP (polypropylene) in a ratio of 65/35 into the matrix. In the front part of the bullet is provided with a cone 4, whose end diameter is 2.5 mm and height 2 mm. Thus, in addition to the flat 3, the bullet tip 1 has a substantially greater apex angle than is usual with bullets 1 of this type. The top cone, on the one hand, acts similarly to the top spot 3 and, moreover, does not significantly reduce the velocity of the missile flight I. Thus, the missile 1 reaches the fly as in the previous examples.

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Example 4

According to another example, a 7.62 mm caliber projectile 1 is made by spraying an 80/20 Cu / PE powder mixture into the die. In the front part, the bullet 1 is provided with a flat 3 whose diameter is 2.5 mm. The effects are the same as in the previous examples.

Similarly, missiles I can be formed from mixtures of powder materials Sn and PE in the ratio 60/40 or BaSO ₄ and PE in the ratio 70/30.

Example 5

The bullet 1 of Figure 3 is designed as a 9 mm semi-shell bullet and is produced by spraying a 70/30 BaSO ₄ and PE powder mixture into a cup 2 which is embedded in the spray matrix. The cup 2 then forms the shell of the half-shell projectile 1 and is made of metal, for example Cu, CuZn 10, CuZn 30 or surface-treated iron (Fe). In the front part, the bullet 1 is provided with a cone as described in Example 3 or a flat 3 according to Example 1.

Industrial applicability

Production of non-lethal ammunition is feasible both at the manufacturer of ammunition, or at the manufacturer of the missiles themselves, or even the company that deals with plastics processing.

Claims (7)

PROTECTION REQUIREMENTS An adjustable lethal projectile cartridge comprising a propellant powder propellant cartridge and a projectile adapted to achieve an adjustable lethal effect, wherein the projectile (1) is formed from a powder mixture consisting of a powdered metal and a thermoplastic powder in a ratio of 85 / 15 to 50/50, wherein the bullet tip (1) is adapted to increase lateral deformation of the bullet (1) upon impact on the target by increasing the apex angle to 120 to 160 °, or a surface perpendicular to the bullet axis is formed diameter represents 25 to 100% of the bullet diameter. Charge according to claim 1, characterized in that the metal-containing powder is a pure metal, a metal alloy, a metal oxide or a salt. Hub according to claims 1 and 2, characterized in that the bullet tip (1) is adapted to increase the lateral deformation of the bullet (1) upon impact on the target by increasing the apex angle of the bullet to 90 to 160 °. Hub according to claims 1 and 2, characterized in that the bullet tip (1) is adapted to increase the lateral deformation of the bullet (1) upon impact on the target by forming a flat (3) perpendicular to the axis of the bullet (1). up to 100% of the bullet diameter (1). The charge according to claims 1 and 2, characterized in that the metal-salt-containing powder is composed of a substance with a density exceeding 1.2 g / cm ³ , for example BaSO ₄ salt. Hub according to claim 1, characterized in that the powdered thermoplastic is preferably made of polyethylene or polypropylene. Hub according to one of Claims 1 to 6, characterized in that the bullet (1) is provided with a circumferential groove for increasing the bearing strength of the bullet (1) in the cartridge case.