RU99871U1 - BULLETIN OF ACCIDENTAL ACTION - Google Patents

Abstract

 1. A bullet of traumatic action, made with the possibility of changing after departure from the weapon during the flight to the target of its transverse dimensions, characterized in that it is made with the possibility of decreasing in the process of flight its transverse dimensions. ! 2. The bullet according to claim 1, characterized in that it contains a thread formed in the initial state in the form of a volumetric laying, the beginning of which is fixed in the weapon, and the end is placed inside the volumetric laying made with the possibility of its layered unwinding during the flight of the bullet. ! 3. The bullet according to claim 2, characterized in that the volumetric styling is made in the form of a coil. ! 4. The bullet according to claim 2, characterized in that the volumetric installation is made in the form of a coil. ! 5. The bullet according to claim 4, characterized in that it is made of a cylindrical shape. ! 6. The bullet according to claim 4, characterized in that it is made in the shape of a cone, the larger base of which forms its head. ! 7. The bullet according to claim 2, characterized in that it contains a core of solid material, placed inside the bulk styling. ! 8. The bullet according to claim 7, characterized in that the core is made of elastic material. ! 9. The bullet according to claim 7, characterized in that the core is made of metal. ! 10. The bullet according to claim 9, characterized in that the core is equipped with a head with a fastening element on the target, protruding from the head of the volumetric laying, the head and thread are made of conductive material, the thread is electrically connected to the head of the core, and its fastening in the weapon made with the provision of electrical connection with a source of high-voltage impulse voltage located in the weapon and the possibility of remote electroshock destruction of the target by means of electric

Description

The utility model relates to the field of weapons and can be used in bullets for traumatic (non-fatal) mainly dynamic (mechanical) and / or electroshock impact on targets - living objects (people, animals).

Traumatic action bullets are known, the constructive implementation of which provides the maximum possible gentle effect on the target - a living object while simultaneously fulfilling the main purpose of such bullets, which consists in putting it out of commission for a certain time, which forces, for example, the offender to abandon active aggressive actions.

So, in the pool according to the patent RU 2121127 C1, 1998, the shank is equipped with folded in the initial state petals, which are opened under the action of inertia when the bullet meets in order to increase the contact area and the distribution of kinetic energy over a larger area. The bullet according to the patent RU 2134401 C1, 1999 contains a shell made of low density polyethylene and a core made of thermoplastic rubber, and an air cavity is made in its head between the core and the shell, which reduces the speed of propagation of the shock wave upon impact, and with significant impact force to destruction of the shell and flattening of the core, thereby ensuring the dissipation of excess impact energy and forming an increased contact area with the target.

Other similar traumatic bullets are known (for example, SU 1700349 A1, 1991; RU 2078298 C1, 1997; US 3952662, 1976; GB 1444738 A, 1976; FR 2231944 A, 1974; WO 00/25084 A1, 2000).

However, all these bullets do not provide the necessary traumatic effect at a large distance to the target, when the speed of the bullet is significantly reduced, and vice versa, there is no sparing effect at short distances to the target, when the kinetic energy of the bullet is so large that the corresponding structural elements of the bullet become ineffective from the point of view of life safety.

Also known is a bullet (shell) of stun guns for remote destruction of targets (RU 2275576 C1, 2006), containing a hollow shell equipped with a head with an element for securing the target, in which an electrical conductor is laid in its initial state, one end of which is connected to a terminal of high electrical voltage on stun device. After the bullet takes off from the stun gun, the current lead begins to exit its hollow shell, while the transverse dimensions of the bullet during the flight remain unchanged, and its mass decreases during the flight, which, along with a decrease in the flight speed due to air resistance, leads to a decrease in the specific energy of the bullet. Therefore, at small distances to the target, a bullet head with a fastening element, mainly an erysipelas, can inflict a wound on a living object, and at significant distances at its end, the bullet may not be fixed on the target and therefore cannot provide the necessary electroshock effect.

Of the known closest to the proposed one is a traumatic action bullet made with the possibility of changing its lateral dimensions to the target after departure from a weapon during flight (US 3710720, 1973). This bullet is made in the form of a network (“net”), which is in the cartridge in the initial folded state, and after departure from the weapon it expands radially during the flight to the target, while the network can be equipped with weights on its periphery that increase the effect of radial expansion of the bullet and stabilizing the flight path. This embodiment of the bullet allows you to increase the contact area with the goal and reduce the likelihood of serious damage.

However, the effectiveness of the impact of the bullet on the target significantly depends on the distance from the weapon to the target, which is mainly associated with air resistance. At very short distances, it is possible to cause irreparable injuries to the target - a living object, up to a fatal outcome. At significant distances, at the end of the bullet, its effect of temporary damage may be completely absent.

The problem solved by the utility model is to create a bullet of traumatic action, devoid of the disadvantages of the prototype. The technical result provided by the utility model consists in reducing the dependence of the effectiveness of the bullet on the target on the distance between the weapon and the target by ensuring the constancy of the specific kinetic energy of the bullet in a given range during its flight.

This is achieved by the fact that the traumatic action bullet, made with the possibility of changing its lateral dimensions after departure from the weapon during the flight to the target, is configured to reduce its transverse dimensions during the flight. It may contain a thread formed in the initial state in the form of a volumetric laying, the beginning of which is fixed in the weapon, and the end is placed inside the volumetric laying made with the possibility of its layered unwinding during the flight of the bullet. Volumetric styling can be made in the form of a coil or in the form of a coil. In the latter case, it can be made cylindrical or in the shape of a cone, the larger base of which forms the head of the bullet. The bullet may contain a core of solid material placed inside the bulk. The core may be made of elastic material or of metal. In the latter case, the core can be equipped with a head with a fastening element on the target, protruding from the head of the volumetric laying, the head and thread made of conductive material, the thread is electrically connected to the core head, and its fastening in the weapon is made to ensure electrical connection with the in weapons, a source of high-voltage impulse voltage and the possibility of remote electroshock target destruction through electrical contact with the core head.

The specified technical result is provided by the totality of essential features.

1-3 illustrate the implementation of the bullet in the form of a ball and a change in its transverse dimensions in the process of flight to the target. 4-6 illustrate the implementation of the bullet in the form of a coil in the shape of a cone and the change in its transverse dimensions in the process of flight to the target. Figure 7 shows the structure of the bullet for stun guns with remote hit the target.

Bullet 1 traumatic action is made with the possibility of reducing during the flight of its transverse dimensions. This can be realized by various constructive methods, but it is most effective if it contains a thread 2 formed in the initial state in the form of a volumetric laying, the beginning of which is fixed in the weapon 3, and the end is fixed inside the volumetric laying. In this case, the volumetric laying is made with the possibility of its layer-by-layer unwinding, i.e. unwinding yarn 2 during a bullet flight. The formation of volumetric styling can be performed, for example, by methods traditional in the textile industry, both without adhesive components, and with the help of an adhesive component with weak adhesive properties, applied to the threads of thread 2. Thread 2 with its beginning, depending on the specific purpose and design of the weapon 3, can be fixed, for example, in any structural element of the weapon, as well as in a cartridge or cartridge, placed in the initial state inside the weapon 3, and also be made of various material, for example, from dimensional fiber, carbon monofilament, etc. Volumetric laying can be performed in various shapes and sizes, but mainly in the form of a coil (Fig. 1) or in the form of a coil of cylindrical shape or in the shape of a cone, the larger base of which forms the head of the bullet 1 (Fig. four). The largest laying diameter, depending on the purpose of the weapon, can be, for example, from 5 to 25 mm, the length of thread 2 is up to 50 m, and the diameter of thread 2 is from 0.1 to 2.0 mm. Thread 2 can be made with a constant diameter, and with a diameter that increases or decreases from its beginning to the end. A core of solid elastic material, for example rubber, or of metal, for example lead or steel, can be placed inside the bulk packing. In the case of using a bullet in an electroshock weapon (Fig. 7), the metal core 4 is provided with a head (not shown in the drawing) with an element 5 for fixing to the target, for example, in the form of a prick. In this case, the head with the fixing element 5 on the target protrudes from the head of the volumetric installation, the head and thread 2 are made of conductive material, the thread 2 is electrically connected to the head, and its fastening in the weapon 3, functioning as an electric shock, is made to ensure electrical connection with the in weapon 3, a source of high-voltage pulse voltage and the possibility of remote electroshock destruction of a target by means of its electrical contact with the head. In this case, the thread 2 is made in the form of a current conductor from an electrically non-insulated or insulated wire, for example, type MGTF, polymer metallized fiber, polymer conductive fiber, etc., for example, with a diameter of 0.15-1.5 mm, 5-10 m long.

When the bullet 1 leaves the weapon 3, the volumetric laying is unwound and the transverse dimensions of the bullet 1 during its flight are reduced (Fig. 2, Fig. 3 and Fig. 5, Fig. 6), which provides an approximately constant specific energy of the bullet 1 over its entire length flight, despite a slight decrease in its mass. The value of the specific energy of the bullet 1 is directly proportional to its mass and squared velocity and inversely proportional to its cross-sectional area. The decrease in the flight speed of the bullet 1 due to the influence of the air resistance force and the insignificant change in its mass due to the light weight of the filament 2 are compensated by a decrease in the transverse dimensions of the bullet 1, which leads to a slight change in the effectiveness of the impact of the bullet 1 at different exposure distances, which is especially pronounced when the bullet is executed 1 in the form of a volumetric laying of thread 2. In the case of weapons 3 of dynamic impact, this provides the bullet 1 at a standard distance for such weapons with a traumatic effect in the form of a strike on the target of about 270 . Thus at small distances from the target to the weapon 3 due to considerable transverse dimensions of bullet 1 of its kinetic energy is distributed over a larger area of contact with the object and does not cause unacceptable damage to organs of a living object. At large, limiting distances to the target (up to 50 m), the dynamic efficiency of bullet 1 remains sufficient to fulfill the purpose of dynamic impact weapons. Placing a core of solid material inside the bulk packing makes it possible to increase the effectiveness of the bullet, including by leveling the decrease in the mass of bullet 1 during its flight to the target, which keeps the corresponding component of the specific energy of bullet 1 constant. In addition, such a core stabilizes the bullet 1 in flight, which is important, for example, if the volumetric installation is made in the form of a cone. In the case of weapons 3 stun guns used mainly two bullets. When they reach the target at the maximum distance for such a weapon 3 (about 10 m), their kinetic energy is enough to fix on the target and ensure electrical contact of the target with the bullet head 1 through the fixing element 5. In the immediate vicinity of the target to the weapon, the heads with the fixing element 5 will not cause any serious injury to a living object due to the significant area of contact and the volume of bullets 1.

Implementation example. Bullet 1 is intended for use in a traumatic pistol - an analogue of the Osa type traumatic pistol with an increased internal barrel diameter of up to 25 mm. Bullet 1 is made in the form of a coil with a diameter of 24 mm in the initial state. Used thread 2 with a diameter of 1.2 mm and a length of 10 m from a polymer material. Inside the coil is a core with a diameter of 5 mm from lead. Bullet 1 in the initial state is placed in the sleeve, to the bottom of which thread 2 is attached. After the shot, the diameter of the ball when the bullet 1 spans a distance of 10 m decreases by 25% compared to the initial one to 18 mm, which provides almost the same effectiveness of the bullet 1 , as with the passage of a bullet 1 smaller distances.

Bullet 1 traumatic action, made in accordance with the utility model, compared with similar known has less dependence on its effectiveness on the target from the distance between the weapon and the target.

Claims (10)

1. A bullet of traumatic action, made with the possibility of changing after departure from the weapon during the flight to the target of its transverse dimensions, characterized in that it is made with the possibility of decreasing in the process of flight its transverse dimensions. 2. The bullet according to claim 1, characterized in that it contains a thread formed in the initial state in the form of a volumetric laying, the beginning of which is fixed in the weapon, and the end is placed inside the volumetric laying made with the possibility of its layered unwinding during the flight of the bullet. 3. The bullet according to claim 2, characterized in that the volumetric styling is made in the form of a coil. 4. The bullet according to claim 2, characterized in that the volumetric installation is made in the form of a coil. 5. The bullet according to claim 4, characterized in that it is made of a cylindrical shape. 6. The bullet according to claim 4, characterized in that it is made in the shape of a cone, the larger base of which forms its head. 7. The bullet according to claim 2, characterized in that it contains a core of solid material, placed inside the bulk styling. 8. The bullet according to claim 7, characterized in that the core is made of elastic material. 9. The bullet according to claim 7, characterized in that the core is made of metal. 10. The bullet according to claim 9, characterized in that the core is equipped with a head with a fastening element on the target, protruding from the head of the volumetric laying, the head and thread are made of conductive material, the thread is electrically connected to the core head, and its fastening in the weapon made with the provision of electrical connection with a source of high-voltage impulse voltage located in the weapon and the possibility of remote electroshock target destruction through electrical contact with the core head.