CZ21921U1 - Cartridge for subsequent detection of firearm, rifleman and place of fire - Google Patents

Description

Charge for subsequent detection of gun, shooter and shooting location

Technical field

The technical solution concerns small-caliber ammunition and, in particular, ammunition, which makes it possible to determine the weapon, the shooter, the location of the shooting and possibly other facts, such as the direction of shooting etc.

BACKGROUND OF THE INVENTION

The issue of the identification of the shooter, the weapon and the location of the shooting or other circumstances by the detection of post-firing fumes has recently become current in connection with the introduction of the so-called non-toxic ignition compositions. The aim of the introduction of non-toxic ignition compositions is to partially or completely replace compounds which contain heavy metal oxides such as lead, barium, antimony, etc., in the after-firing products, which are well detectable after firing but are harmful to human health and the environment in general.

Originally used ignition components were conceived on the basis of explosive mercury and then based on lead trinitroresorcinate (TNRO), oxidants, flammable substances and abrasive substances. Preferably, barium nitrate was used as the oxidant, and antimony or glass as the abrasive. Some of the ignition compositions were further covered by a metal foil, for example of tin or tin-lead alloy, or a paper disc or the like.

In general, it is an advantage of these that their solid post-firing exhausts containing solid particles and heavy metal oxides settle around the firing point and are therefore relatively easy to detect,

2o When introducing non-toxic ignition compositions (which do not contain lead, barium, antimony) and using ignition assemblies containing components such as dinitrodiazophenol (DDNP), peroxides or potassium nitrate oxidants and fuel such as titanium powder, boron, etc. , there was a problem with the detection of solid post-firing flue gas, which is released from the charge at the point of fire, because the flue gas of these compositions do not contain solid particles of heavy metals, respectively. of their oxides, ascertainable by methods known in the art. Examples of such compositions are contained, for example, in patent CZ 293600 or in DE 19540278.

Some solutions are known which use admixtures for ignition matches to allow subsequent detection. However, any inert additive resp. an admixture that does not actively participate in the ignition initiation process and the ignition of the primer composition means an energetic depletion of the ignition composition and thus a worsening of the charge conditions of the charge charge charge, which causes complications especially at low ambient temperatures. This phenomenon is not so pronounced when using high-calorie DDNP-based compositions, but may still cause some problems.

The aim of the technical solution is to eliminate these shortcomings and ensure the possibility of detection of the weapon, shooter, shooting place, its direction and of course the actual fired ammunition.

The essence of the technical solution

The object of the invention is a cartridge for the subsequent detection of a weapon, shooter and firing point by detecting the presence of detection components of post-firing flue gas at controlled sites, which, unlike known solutions, is part of the powder charge charge and consists of a mixture of at least one chemical element; at least one oxide of the element, the composition of which does not change in the firing process and which do not chemically react with the gaseous post-firing products. Since the weight of the propellant charge is several times greater than the weight of the primer composition, a larger number of detection components can be used without adversely affecting the charge parameters and function. It is essential that at least one chemical element of the detection mixture is formed by an element having an atomic number in the range of 40 to 60. It is also essential that one of the components of the detection mixture is formed by an element or oxide of the element belonging to

UI to the fourth group of the Periodic Table of the Elements, preferably powdered tin or its oxide, and that only non-toxic and non-mutagenic elements and oxides are used in the detection mixture. Furthermore, it is essential that the detection substance consists of a ground element-oxide alloy. It is also essential that the charge charge charge consists of a homogenized mixture of the dust enriched with the detection substance and the untreated dust. The detection substance is present in an amount of 2 to 85% by weight of the enriched dust charge. It is preferred that the final concentration of the detection substance in the total charge charge charge be in the range of 0.002 to 5% by weight. It is also expedient if the combination of detector-enriched dust and untreated dust is a combination of monocomponent (ncl) and / or bi-component (ng, dg) dust, as well as cartridges according to the present invention are intended for both shooting training and combat deployment. cases where it is necessary to assess the situation that occurred at the place where the cartridges were used, for example when taking action against perpetrators of serious crime. At the same time, by detecting solid post-firing charge products according to the present solution, it is possible, as in previous toxic compositions, to determine not only the location of the shot and the shooter, but also to use the cartridge or cartridge. charge.

The advantage of the present solution is that the charge according to the present solution retains all utility parameters such as projectile velocity, projectile precession in use, durability of parameters during the warranty period, and faultless operation under all circumstances, including low temperatures.

Examples of technical solution

Example 1

The charge according to the present solution enabling the detection of the site, the shooter and the weapon as well as the direction of fire comprises a composition which is prepared by dosing YBaCuO into the matrix for the nitrocellulose powder? in an amount of 30% by weight. The blend of powder and admixture is perfectly bent in the malaxer and is then processed by conventional powder grain processes. The resulting mixture is further homogenized together with conventional nitrocellulose dust, the dust with admixture making up 1.5% by weight of the whole mixture.

Example 2

The charge dust of the present detection solution is prepared by dosing YBaCuO into the matrix for a given nitrocellulose powder? in an amount of 20% by weight.

The blend of powder and admixture is perfectly bent in the malaxer, and is then processed using conventional powder grain processes. The resulting mixture is further homogenized with conventional two-component dust, the dust with admixture constituting 3% by weight of the entire mixture.

Example 3

The charge dust of the present invention is prepared by dosing Y2O3 + Sn in a ratio of 50/50 into the matrix for the nitro35 cellulose powder at 30% by weight. The blend of powder and admixture is perfectly bent in the malaxer, and is then processed using conventional powder grain processes. The resulting mixture is further homogenized with conventional nitrocellulose dust, the dust with admixture constituting 3.5% by weight of the entire mixture.

Example 4

The charge powder according to the present invention is prepared by dosing 30% by weight of Sn + Y ₂ O ₃ + Cu in the matrix for the nitrocellulose powder at a ratio of 50/25/25%. The blend of powder and admixture is perfectly bent in the malaxer, and is then processed using conventional powder grain processes. The resulting mixture is further homogenized together with conventional nitrocellulose dust, with the admixture dust constituting 2.5% by weight of the entire mixture.

-2EN 21921 Ul

Example 5

The charge detectable dust of the present invention is prepared by dosing 40% by weight of Sn + Y ₂ O ₃ + Cu into the matrix for the nitrocellulose powder at a ratio of 30/30/40% by weight. The blend of powder and admixture is perfectly bent in the malaxer, and is then processed using conventional powder grain processes. The resulting mixture is further homogenized with classical two-component dust, where the dust with the admixture makes up 2.5% by weight in the whole mixture.

Industrial applicability

The propellant powder for the present ammunition with the possibility of detecting the shooter, the firing point, the direction of the firing and the used weapon by detecting solid post-firing fumes resulting from the burning of the propelled propellant may be produced by the propellant manufacturer. refills.

Claims (7)

PROTECTION REQUIREMENTS A cartridge for the subsequent detection of a firearm, a shooter and a firing spot by detecting the presence of a firearm detector component at controlled locations comprising a cartridge with a powder charge and a match and bullet, characterized in that the powder charge comprises a detection substance consisting of a mixture of at least one chemical element and at least one element oxide, the composition of which does not change in the firing process and which do not chemically react with the gaseous post-firing flue gas, wherein at least one chemical element of the detection substance consists of 20, wherein the final concentration of the detection substance in the total charge charge charge is in the range of 0.002 to 5% by weight. Charge according to claim 1, characterized in that one of the components of the detection substance is formed by an element or oxide of an element belonging to the Fourth group of the Periodic Table of the Elements, preferably powdered tin or its oxide. 25 Charge according to claim 1 or 2, characterized in that only non-toxic and non-mutagenic elements and oxides are used in the detection substance. The charge according to claim 1, 2 or 3, characterized in that the detection substance is a ground element element or an oxide of the element. Hub according to claim 1, 2, 3 or 4, characterized in that its dust filling 30 is formed by a homogenized mixture of the dust enriched with the detection substance and the dust not enriched. 6. The cartridge of claim 5, wherein the enriched portion of the dust charge comprises a detection agent in an amount of 2 to 85% by weight. A cartridge according to claim 5 or 6, characterized in that the combination of the detector-rich dust 35 and the untreated dust is a combination of one-component and / or two-component dusts.