RU2015492C1 - Method of marking of firearm - Google Patents

Abstract

FIELD: check and tests of firearm. SUBSTANCE: alphabetic and digital information in the form of embossed symbols is applied onto the surfaces of firearm components that come in contact with the external surfaces of cartridge elements to obtain their embossings on the external surfaces of cartridge elements in the process of fire. Embossed symbols are applied onto the firearm components that come in contact with the cartridge case and/or cartridge primer. Embossed symbols are applied in a binary code in the form of tetrads. A bench mark is introduced to indicate the beginning of the reading and separate the alphabetic and digital parts of information. In a tetrad unities are designated by depressions, and zeroes - by absence of the latters in the tetrad. Tetrads of embossed symbols are applied onto the large cone of the cartridge chamber. EFFECT: facilitated procedure. 4 cl, 3 dwg

Description

 The invention relates to military equipment, and in particular to methods of testing and testing manual and automatic weapons (combat, sports, hunting), in particular with a forensic examination of the identification of weapons and spent cartridges.

 It is known that in the process of manufacturing firearms, each of its samples is marked. In accordance with OST 3-5400-83 and other directive documents, weapons are marked with a digital or alphanumeric code and contain information about the manufacturer of the weapon, serial number of the sample, year (quarter, month) of release, as well as some technical characteristics of the sample. The number of characters in the marking, as a rule, does not exceed 10. For example, AKM assault rifles are marked with a seven-digit number, and pistol markings (type PM) contain two (three) uppercase letters and a four-digit number. Marking (serial number, year of manufacture) is applied: for hunting and sporting rifles (with detachable trunks) - on the barrel (barrel assembly) and box; for rifles, pistols, carbines and rifles with detachable trunks - on the barrel or box and bolt; for revolvers - on the barrel or frame and drum.

 Marking is carried out by engraving, stamping, electrochemical method, etc.

 Cartridge sleeves in the process of manufacturing cartridges are also marked. Their marking contains the reference number of the manufacturer and the last two digits of the year of manufacture. Marking is applied by stamping with a print inside the metal on the bottom of the sleeve.

 The information contained in the marking of the weapon contains important information necessary for operational research of firearms, ammunition and traces of a shot conducted to solve crimes. In particular, if the investigation has weapons (or cartridges in the cartridge case collection) seized at the scene, it is possible to individually identify them, i.e. establishing the ownership of a spent cartridge case for a given weapon model. Such identification is based on a comparison of the microreliefs of the surfaces of weapon parts and cartridges. The microrelief of the parts of the weapon (traces) is displayed on the sleeve when they interact during charging, firing and ejection of the spent sleeve (for example, in the form of a tooth ejector, reflector, etc.).

 By comparative studies of the features of the marks on the liner and the microrelief of the corresponding parts of the weapon, these parts are identified, and therefore the weapon itself. The cartridges seized at the scene of the accident are compared with cartridges obtained during experimental shots from identifiable weapons or stored in cartridge case collections. Comparison of spent cartridges is carried out by comparative microscopy (on microscopes like MIS-10 or MS-15, or by combining single-scaled photographs of traces of compared cartridges.

 However, the known method has significant disadvantages. It can be used for individual identification only in the presence of both spent cartridges and a sample of identifiable weapons. In the current situation, especially in connection with the growth of interethnic conflicts, political extremism and criminal offenses, this condition, as a rule, is not fulfilled. The disadvantages of this method can also be attributed to its complexity, the need for comparative studies of qualified personnel, collections of cartridge cases and related equipment. These circumstances objectively complicate the examination process, increase the time frame for its implementation.

 The purpose of the invention is to increase the reliability and simplify the process of identifying weapons on a spent sleeve, in particular in the absence of the most identifiable weapons.

 The technical result is that in the method of marking a firearm, which consists in applying on the surface of its elements in contact with the outer surfaces of the cartridge elements, alphanumeric information in the form of embossed characters to obtain their impressions on the outer surfaces of the cartridge elements during the shot, embossed characters applied to weapon elements in contact with the sleeve and / or capsule. Embossed characters perform binary code in the form of four-character notebooks. A reference mark is introduced to indicate the origin and separation of the alphanumeric parts of the information. In a four-digit notebook, the units are depicted by recesses, and zeros - by the absence of the latter in the notebook. Notebooks of embossed symbols are applied to the large cone of the chamber.

 The invention uses a decimal-binary code to simplify and make it more technologically feasible to apply a coded sequence of characters to weapon elements. Each digit of the weapon marking is represented by a binary code tetrad, namely: 0 = 0000 2 = 0010 4 = 0100 6 = 0110 8 = 1000 1 = 0001 3 = 0011 5 = 0101 7 = 0111 9 = 1001.

 Similarly, the letter part of the weapon marking is encoded. The letters of the alphabet (except o, s, s, h, b, b) are digitized and are also represented in binary code.

 Thus, the coding of weapons marking is performed using only two characters: 0 and 1. Units are depicted in the form of recesses (holes) on the surface of the weapon elements, zeros - their absence in the notebook. To mark the beginning of the encoded sequence and to separate the alphabetic and digital parts of the marking, a reference mark is used, for example, a notebook in the form of four recesses (holes) (1111).

 As analysis shows, for weapons with bottle-type sleeves (automatic, carbine, etc.), the optimal zone for applying recesses (holes) is the large cone of the chamber, the small cone, the shutter mirror in the area of its contact with the capsule, and the surface of the striker that deforms the capsule when a shot. For weapons with a cylindrical sleeve (pistol, revolver, sporting and hunting weapons) - a shutter mirror, a chamber surface, a striker surface.

 The priority in these cases is determined, on the one hand, by the need to reduce the effect of recesses (holes) on the chamber surface on the extraction process of a spent cartridge case, and on the other hand, to complicate the possibility of their destruction as much as possible, for example, in order to conceal evidence. The operation of applying embossed symbols encoding the marking of a weapon can be performed both at the stage of its manufacture and during storage of the weapon in warehouses (arsenals), as well as during its registration (re-registration) with the Ministry of Internal Affairs.

 The presence of recesses (holes) on the surfaces of the elements of the weapon makes it possible to obtain clearly distinguishable prints on the surfaces of the shell and capsule in contact with them with each shot. The process of obtaining them is qualitatively characterized by the following picture. During the period of increasing pressure of the powder gases, the liner increases in diameter, choosing the initial clearance, and is pressed against the chamber surface. With a further increase in gas pressure in the sleeve chamber, a joint deformation of the walls of the sleeve and the chamber occurs. The total deformation of the sleeve in this case is such that it exceeds the limits of elastic deformation. This, in particular, is proved by the fact that the diameters of the liner after the shot are always somewhat larger than before the shot.

 In a similar way, gases act on the bottom of the sleeve, choosing the axial clearance behind its bottom and between the parts of the locking assembly. Acting on the capsule through the seed holes, powder gases squeeze the latter out of the capsule socket, pressing it against the shutter mirror. In the axial direction, the deformation of the liner and capsule also for the most part leaves the elastic zone. For the convenience of subsequent reading of the print from the large cone of the sleeve, a coded sequence of embossed characters is applied to the surface of the large cone of the chamber from the side of the breech of the barrel in the counterclockwise direction around the hole for the striker. The signs of the tetrad are applied in the radial direction from the axis of the striker to the periphery of the shutter.

 Comparative analysis with the prototype shows that the claimed method is highly reliable individual identification of firearms on a spent sleeve. When using this method, it is possible to establish only as a group affiliation of the weapon, that is, on the spent sleeve detected at the scene of the incident, i.e. the type, system and model of the weapon from which it is shot, and determine its factory marking, i.e. fully identify weapons.

 In FIG. 1 shows a fired cartridge case for a 7.62 mm cartridge of the 1943 model with the marking of a weapon (N 1384582) applied on its large cone; in FIG. 2 - scan image of this marking; in FIG. 3 is a diagram of a laser system for making coded markings on the surface of weapon elements.

 The method of individual identification of weapons can be implemented using devices using various technological methods of surface treatment: stamping, electrospark, laser, etc. When choosing a processing method that meets the specific stages of the life cycle of a weapon (manufacturing, storage, combat operation), the following circumstances should be taken into account. Weapon parts in contact with the sleeve during the shot are subjected to heat treatment at the manufacturing stage, in particular, hardening. Typical hardness values for hardened steel steels are HRC 32-34. The surface of the chamber of small arms samples is usually chrome plated. For example, the chrome thickness of the chamber of the PM pistol is 0.03-0.08 mm on the diameter of the chamber. It was experimentally established that in order to obtain clear impressions encoding the marking of the weapon on the surface of the liner (capsule), it is sufficient to apply information in the form of an encoded sequence of conical recesses (holes) with the base diameter d, depth h≃ d and the pitch between adjacent recesses (holes) in the notebook (1.2-1.3) ˙d, where d≃ (0.1-0.3) mm.

 Consider the possibility of implementing the proposed method using the laser method of processing materials. This method has the unique ability to produce precision holes and holes in virtually any hardness materials.

 The ability to control the radiation energy over a wide range by changing the laser pump, using optical attenuators, diaphragming the radiation beam, changing the pulse repetition rate and the number of pulses in the packet, and also changing the duration of the radiation pulse make it possible to obtain recesses (holes) of strictly specified sizes and shapes. Using refractive, reflective and focusing optical elements, the laser radiation can be brought to the surface to be machined at any angle at a distance necessary from the emitter to hard-to-reach places. The use of a system of movable mirrors moving along the corresponding coordinates allows precise coordinate processing of the surface and the ability to automate and control the processing process. Similar schemes are implemented, for example, in a serial installation of laser marking with software control from a mini computer (type UMLA-600-013).

 With multi-pulse receiving of holes (depressions), as is known, their depth increases gradually as a result of layer-by-layer evaporation of metal by each pulse. The final depth of the hole is determined by the total energy of a series of pulses. The diameter of the hole is determined by the averaged parameters of a single pulse in a series. In addition, it depends on the diameter of the laser beam in the processing zone and the shape of the caustic beam. The degree of focusing of radiation has a significant effect. Changing the position of the focal plane relative to the surface of the sample, we obtain a different shape of the hole - conical, cylindrical.

 The laser radiation (Fig. 3) passes sequentially deflecting mirrors 2-4 and is focused by the lens 5 on the surface of the element 6. The mirrors 2 and 3 and the lens 5 are equipped with drives 7-9 that move them (shown by arrows). To obtain a circular path of the focal spot on the surface to be treated, the axis of the radiation beam is offset relative to the axis of the lens 5 and rotates around the axis of the lens 5 using the coordinated movements of the mirrors 2 and 3. Moving the focal spot in the radial direction is also carried out using the movements of these mirrors. All movements of the circuit elements, the laser operation mode are carried out according to the program of the control unit 10, built on the basis of a computer.

The experimental data show that, for example, to obtain holes in carbon steel with a diameter of d = 0.15 mm and a depth of h = 0.5 mm, four pulses with an energy of 0.1 J are sufficient (pulse duration τ _and = 100 μs). Accordingly, a well with d = 0.33 mm and h = 1.5 mm requires six pulses at a radiation energy of 1.0 J (τ _and = 100 μs). Precision wells with dimensions d = 50 μm and h = 0.1 mm in samples of corrosion-resistant steel were obtained at an energy per pulse equal to 0.2 J (τ _and = 8 ˙ 10 ^-5 s).

 Using the proposed method, in comparison with the known methods, it is only possible to immediately determine its factory marking in the absence of a firing weapon by the spent sleeve found at the scene of the incident. This greatly simplifies and speeds up the time for conducting a forensic examination to establish the ownership of a spent cartridge case for a given sample of a firearm.

Claims (4)

 1. METHOD FOR LABELING FIREARMS, consisting in drawing on the surface of its elements in contact with the outer surfaces of the cartridge elements, alphanumeric information in the form of embossed characters to obtain their impressions on the outer surfaces of the cartridge elements during the shot, characterized in that the relief characters apply on weapon elements in contact with the sleeve and / or capsule.  2. The method according to p. 1, characterized in that the embossed characters are executed in binary code in the form of four-digit notebooks, and a reference sign is introduced to indicate the origin and separation of the alphabetic or digital parts of the information.  3. The method according to claim 2, characterized in that in the four-character notebook, the units are depicted with recesses, and the zeros are the absence of the latter in the notebook.  4. The method according to claim 1 or 2, characterized in that the embossed tetrads with a symbol are applied to a large chamber cone.

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