RU2324140C2 - Whisperload cartridge - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: cartridge is intended for firing from small-arm weapons without effects, which can be detected using visual, sound and infrared detectors. The cartridge contains case chamfer, fulminating detonator, propellent charge, sabot-obturator and bullet. Sabot-obturator is done with cavity, which hosts propellent charge; its cylindrical lateral surface is continuous, and front end face contains chamfer, which is coupled with circular discharge recess. These two create a tilt protrusion in relation to bullet axis. The bullet is done from steel core and external bimetallic jacket with centering and leading parts. External bimetallic jacket of the bullet is equipped with circular rims on both front and rear end faces of steel core. The bullet is placed into shell, which is neck-reapped onto bullet leading part, and is split-type connected to sabot-obturator in the rear end face.

EFFECT: cartridge manufacturing technology facilitation, bullet piercing performance increase, weapon barrel wear decrease.

5 cl, 4 dwg

Description

The invention relates to ammunition, mainly 7.62 caliber, designed for firing from a special pistol, without effects that can be detected using visual, sound or infrared detectors. The invention may find application when, for one reason or another, it is desirable that the source of fire is not distinguishable to an enemy in the target zone. This involves the elimination of smoke, flash and the sound of the explosion due to the cutoff of the powder gases inside the cartridge case.

Known technical solutions in which the cut-off of the gases produced by ignition and combustion of a missile explosive inside the sleeve, for example, the cartridge according to US patent No. 4173186, MKI 2 F42B 5/02; F42B 9/00, 11/6/1979, the Cartridge contains a composite sleeve with a tapering open end (with a slope), a missile charge, a bullet mounted and fixed in the free end of the sleeve, a pushing piston located in the sleeve and having a discharge groove on the side surface, interacting with the inner end of the bullet, the bowl separating the propelled charge and the pushing piston, as well as means for sealing, braking and deforming the piston in the form of an annular protrusion facing the ramp of the sleeve. The disadvantages of this bullet include the complexity of its design: a complex profile of the narrowed part of the sleeve and the corresponding part of the pushing piston, the presence of additional sealing elements, which complicates the assembly technology of the cartridge. The presence of a long continuous pushing piston requires a lot of braking energy, in addition, it complicates the extraction of the spent sleeve, and sometimes leads to a breakdown of the pushing piston at the end of its stroke and, as a result, to jam the weapon.

Known silent cartridge according to the patent of the Russian Federation No. 2183813, MKI 7 F42B 5/02, 06/20/2002, the Cartridge contains a steel cylindrical shell, a composite sleeve with a ramp, a missile charge with a device for its ignition and a piston mounted with its fixation, for example by thread, between the projectile and the missile charge, and when the pore pressure of the powder gases is exceeded with the possibility of axial travel and braking on the slope of the sleeve. A feature of this cartridge is the design of the piston. In addition, in the annular groove made in the front of the bullet, a drive sleeve is pressed in made of a softer material than the projectile itself, the side surface of which is flush with the side surface of the bullet. The disadvantages of this cartridge should be attributed to the fact that the use of a steel shell leads to wear of the barrel of the weapon. The presence of samples in the annular protrusion at the front end of the piston impairs gas cut-off. In addition, the presence of a sleeve of softer material reduces the penetration of the projectile. This is due to the fact that when a projectile encounters an obstacle, the sleeve deforms and expands, increasing the area of interaction with the obstacle. In this case, the propelled energy is spent on deformation of the sleeve and dismantling of the sleeve and the projectile, reducing the energy to defeat the target as a whole and its specific value per unit contact area. The design of the cartridge is complex for the manufacture of its individual elements and for assembly.

A known cartridge according to the patent of the Russian Federation No. 2059189, MKI 6 F42B 5/02, 04/27/1996, which is selected as a prototype. The cartridge contains a sleeve, an igniter capsule, a push-type hollow obturator tray, fitted with an interference fit in the sleeve from the side of its open end, in the cavity of which a propelling charge is placed, and a bullet missile element made of steel, made with an upper leading part and a lower centering part with a diameter less than 0.98 caliber weapons. The hollow obturator tray is detachably connected to the bullet-throwing element by means of a centering protrusion made at the front end of the obturator tray and entering the corresponding axial blind cavity made at the rear end of the bullet-throwing element. At the same time, the obturator tray is capable of axial movement when the pore value of the pressure of the powder gases is exceeded, as well as the braking and deformation of its side part on the slope of the sleeve by performing at least one annular rib and unloading in its front part around the circumference of the side surface. an annular groove located behind the rib. The disadvantages of this cartridge include the fact that the execution of a bullet-throwing element with steel leads to wear of the barrel of the weapon. The implementation of a bullet missile element with a cylindrical side surface leads to the fact that in the process of interaction of the pallet-obturator under the influence of powder gases, its tail part is partially distributed, increasing its rear end. This, along with the implementation of the steel bullet throwing element with a leading part exceeding the centering part, worsens the breakdown ability of the bullet throwing element. In addition, the implementation of an annular groove on the lateral surface of the tray-sealer complicates the technology of its manufacture by turning and does not allow the use of more advanced technology - automated stamping.

The present invention solves the problem of simplifying the manufacturing technology of the elements of the cartridge and its assembly, increasing the penetration ability of the bullet and reducing the wear of the barrel of the weapon when firing silent cartridges.

The problem is solved in that in the cartridge for silent shooting, containing a sleeve with a ramp, an igniter capsule, an obturator tray having an unloading annular groove installed in the sleeve with an interference fit and with the possibility of axial movement and braking about the sleeve ramp, in the cavity of which is placed propelling charge, and a bullet with a leading and centering parts located in the sleeve and detachably connected to the rear end with a hollow pan-obturator, the bullet is made of a steel core and an external bimetal shell with a center leading and leading parts. In this case, the obturator tray is made with a continuous cylindrical side surface, and a chamfer is made at its front end, conjugated with a discharge ring groove, together forming a protrusion inclined to the axis of the bullet.

In a particular case, for a bullet of caliber 7.62, the steel core is made with a cylindrical side surface with a diameter equal to d _c = (0.87 ... 0.92) d and a tail conical part with a length equal to l _k = (0.2 .. .0.5) d with a conicity angle α _k = 12 ° ... 18 °. The diameter of the centering part of the bullet is equal to d _c = (0.98 ... 1.0) d, and the diameter of the leading part of the bullet is equal to d _in = (1.015 ... 1.035) d. The outer bimetallic shell of the bullet is made with annular sides at both the front and rear ends of the steel core. The thickness of the outer bimetallic shell on the conical and centering parts of the bullet is t _{c, k} = (0.04 ... 0.05) d, and the thickness of the outer bimetallic shell on the leading part of the bullet located at its front end is t _in = ( 1,2 ... 1,5) t _ck , where d is the caliber of the weapon.

The minimum diameter of the annular side of the shell at the front end of the bullet is preferably selected from the range of 0.8 d _c <d _pb <0.95d _c .

In order to ensure stable ballistic characteristics and increase the bullet penetration ability, it is recommended that the outer surface of the obturator tray and the outer surface of the bullet, at least on its front end, on the leading and centering part of the side surface, be made with a protective antifriction coating, for example, of fluoroplastic varnish, and the steel core to perform with a protective anti-friction polymer coating, for example, with a coating based on FPSM-51.

Figure 1 presents a General view of the cartridge with a partial section; figure 2 - General view of the bullet; figure 3 is a General view of the pallet-obturator; figure 4 - the tail of the core. The elements of the cartridge shown in Fig.2, 3 and 4 are presented in partial section.

The cartridge for silent shooting contains a sleeve 1 with a ramp 2. A primer-igniter 3 is installed in the bottom of the sleeve 1. In the sleeve 1 there is a sealing trap 4, in the cavity 5 of which, facing the bottom of the sleeve 1, a propellant charge is placed 6. Next, sleeve 1 is equipped with a bullet 7 consisting of a steel core 8 and an external bimetallic shell 9. The outer bimetallic shell 9 is made with a steel inner layer (Art. 18 UA), the outer layer and the inner layer facing the steel core, made of tompac (copper-zinc alloy), having high plasticity.

The tray-seal 4 is made for stamping from a plastic material - from aluminum. The obturator pallet 4 is made with a continuous cylindrical side surface 10. At the front end of the obturator pallet 4 a chamfer 11 is made, conjugated with the discharge ring groove 12, together forming a protrusion inclined to the axis of the bullet. A centering conical protrusion 13 is also made at the front end of the tray-sealer 4. The outer surface of the tray-sealer 4 has a protective antifriction coating 14, for example, based on FP-736 fluoroplastic (polymer) varnish.

The steel core 8 of the bullet 7 is made with a cylindrical lateral surface and the tail conical part 15. At the rear end of the core 8 there is an axial blind cavity 16 under the centering protrusion 13 of the tray-sealer 4, to which the bullet 7 is detachably connected. The steel core 8 has a protective anti-friction polymer coating 17, for example a coating based on FPSM-51. The outer bimetallic shell 9 of the bullet 7 has a centering part 18, a leading part 19 and a conical part 20 congruent to the conical part 15 of the steel core 8. The bimetallic shell 9 has ring beads 21 and 22, respectively, both on the front and rear ends of the steel core 8.

The outer bimetallic shell 9 is fixed to the steel core 8 as follows. The steel core 8 with a polymer coating on the side of the conical part 15 is placed in a semi-finished shell made in the form of a glass with a hole in the bottom (an annular bead 22 at the rear end of the core 8 is already formed). Next, the prefabricated shell is crimped on the tail 15 and side parts of the core 8, for example, by direct extrusion with a reduction of the glass-core assembly, with a set of shell metal from the centering part 17 of the bullet 7 on the leading part 18 of the shell of the bullet 7, as well as on the annular side 21 of the shell on the front end of the core 8. This ensures reliable fixation of the outer bimetallic shell 9 on the steel core 8. The outer surface of the bullet, at least its front end, the leading part and the centering part of the bimetallic shell, They have a protective anti-friction coating 23, for example, based on fluoroplastic (polymer) varnish FP-736.

The Assembly of the cartridge is as follows. In the bottom of the sleeve 1 set the primer 3, which is fixed by core. From the open part of the sleeve 1, which has not yet formed a muzzle 10, fill in the powder mount (propellant charge 6) and tightly install the pan-seal 4 with the orientation of the cavity 5 to the bottom of the sleeve. At the same time, a polymer protective anti-friction coating 14 is already applied to the outer surface of the tray-sealer 4, which simultaneously acts as a gasket and lubricant, which increases the density of the pallet 4 in the sleeve 1 and reduces gas breakthrough during firing. Next, pre-crimping the edges of the sleeve 1 with the formation of the muzzle 10 and the ramp 2 and installing in the sleeve 1 of the bullet 7 with the polymer protective anti-friction coating 23. The conical part of the bullet 20 and the anti-friction coating 23 facilitate this assembly process. After that, the second, final crimping of the barrel 10 of the sleeve 1 to the leading part 19 of the bullet 7 is carried out, providing a reliable fixation of the bullet 7 in the sleeve 1. Reliable fixing of the bullet 7 in the sleeve 1 coaxially with its axis is also provided by the centering conical protrusion 13 of the pallet-sealer 4 and the corresponding him a deaf cavity 16, made at the rear end of the core 8 of the bullet 7.

The cartridge operates as follows. When the capsule-igniter 3 is triggered, the propellant charge 6 ignites. When the pressure of the powder gases reaches a pore value, they move the tray-sealer 4 forward, pushing the bullet 7 and accelerating it to the required speed. The pallet-obturator 4 installed with an interference fit in the sleeve 1 does not allow gases to escape outward on the one hand, and on the other hand easily moves to the ramp 2 of the sleeve 1 due to the antifriction coating 14 applied to its outer surface, reducing the cost of the throwing energy for the friction of moving the pallet - shutter 4.

The axial movement of the pallet-sealer 4 limits the slope 2 of the sleeve 1. When the chamfer 11 of the pallet-sealer 4 interacts with the inner surface of the slope 2, it radially deforms into the discharge ring groove 12 and loses kinetic energy. The front part of the side surface of the tray-sealer 4, made of plastic material, is compressed, repeating the shape of the barrel of the sleeve, improving its blockage, while the tray-sealer 4 loses speed and stops, reliably locking powder gases inside the sleeve 1.

At the moment of starting the braking of the tray-shutter 4, the bullet 7 is separated from the tray-shutter 4 and by inertia continues its movement in the channel of the barrel of the weapon, and then along the trajectory until it interacts with the target.

After the final stop of the pallet-sealer 4, the weapon gate opens, the fired sleeve 1 with the pallet-sealer 4 and with the powder gases sealed in the sleeve 1 is extracted from the chamber.

When the bullet 7 meets the target, the front annular board 21 of the bimetal shell 9 due to its small size and the polymer antifriction coating 23 of the bullet 7, which acts as a lubricant, can easily be separated from the steel core 8 with a minimum expenditure of the kinetic energy of the bullet 7. The steel core 8 pierces the target. Penetration of the core is increased compared with the prototype due to the following factors: reduced energy costs for friction of the tray-sealer 4 when it moves in the sleeve due to coating its outer surface with an antifriction polymer coating 14, thus a large throwing energy is transmitted to the tray-sealer 4 and pool 7 ; reduced energy costs for the friction of the bullet 7 when it moves along the muzzle 10 of the sleeve 1 along the barrel channel due to the presence of the tail conical part 20 and due to the polymer antifriction coating 23 of its outer surface; minimized energy costs for the separation of the bimetallic shell 9 and the steel core 9 both due to the minimum required size of the front annular bead 21, and due to the polymer antifriction coating 17 of its outer surface; in the presence of a bimetallic shell, the weight of the bullet is preserved (kinetic energy is saved), and the diameter of the steel core interacting with the target decreases, thereby increasing the specific pressure during the interaction of the core and the target.

The choice of the minimum diameter d _{b of the} annular bead of the shell 9 at the front end of the bullet 7 from the range (0.8 ... 0.95) d _c is due to the fact that on the one hand to exclude the dismantling of the steel core 8 and the bimetallic shell when the bullet 7 moves along the barrel 10 of the sleeve 1 and along the channel of the barrel of the weapon, and on the other hand, reduce the energy costs of dismantling the bullet when it meets for the purpose. This size range of the minimum diameter is selected experimentally.

The presence of a cone on the tail of the core with the minimum required length equal to l _k = (0.2 ... 0.5) d with a taper angle equal to α _k = 12 ° ... 18 ° allows simplifying the assembly of the bullet and the formation of the necessary conical the tail of the bullet. The manufacture of a bullet with a tail conical part of the bullet makes it possible to simplify the automated assembly of the cartridge, compensate for the distribution of the tail of the bullet when the trap-trap is struck at the rear end of the bullet, stabilize the flight of the bullet along the trajectory and increase the penetration ability of the bullet. An increase in the length of the tail of the core and its taper angle reduces the mass of the bullet and thereby its kinetic energy. The claimed geometric dimensions of the tail of the core allow us to provide the above advantages.

To assess the impact of a bullet, tests were conducted for bullets of 7.62 mm caliber from a ballistic barrel according to a standard procedure, which showed that the bullet penetrates a 2 mm sheet of steel St.3 at a distance of 100 m, at an angle of 90 ° to the horizontal and direction firing, while the prototype penetration is 1 mm

Claims (5)

1. A cartridge for silent shooting, comprising a cartridge case with a ramp, an igniter capsule, an obturator tray having an unloading annular groove installed in the cartridge case with an interference fit and with the possibility of axial movement and braking against the cartridge ramp, in the cavity of which a propellant charge is placed, and a bullet with leading and centering parts, located in the sleeve and detachably connected to the obturator tray, characterized in that the bullet is made of a steel core and an external bimetal shell with centering and leading parts, and steel th core formed with a cylindrical side surface and a rear conical portion, and the external bimetal shell provided with an annular flange on both ends of the iron core, the-obturator tray is provided with a continuous cylindrical side surface and has at the front end a bevel conjugate to discharge the annular groove. 2. The cartridge according to claim 1, characterized in that the cylindrical lateral surface of the steel core is made with a diameter d _c equal to (0.87-0.92) d, its tail conical part is made with a length l _k equal to (0.2-0 , 5) d with a taper angle α _k equal to 12-18 °, the diameter d _{c of the} centering part of the bullet is (0.98-1.0) d, and the diameter d _{in the} leading part of the bullet is (1.015-1.035) d, and the thickness t _{c, k of the} outer bimetallic shell on the conical and centering parts of the bullet is (0.04-0.05) d, and the thickness t _{in the} outer bimetallic shell on the leading part of the bullet located at its front end, pa VNA (1.2-1.5) t _{c, k} , where d is the caliber of the weapon. 3. The cartridge according to claim 1, characterized in that the minimum diameter d _pb the annular bead of the shell at the front end of the bullet is selected from the range of (0.8-0.95) d _c . 4. The cartridge according to claim 1, characterized in that the steel core has a protective anti-friction polymer coating, for example, based on FPSM-51. 5. The cartridge according to claim 1, characterized in that the outer surface of the tray-seal and the outer surface of the bullet, at least on its front end, on the leading part and on the centering part of the outer surface of the bimetallic shell, have a protective antifriction coating, for example fluoroplastic varnish.

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