RU2149343C1 - Cartridge with arrow-like bullets (modifications) - Google Patents

Abstract

FIELD: ammunition for smoothbore small arms. SUBSTANCE: arrow-like bullets are led in the bore not by the leading member (pan, container), but directly by the structure members of bullets proper, by "packing" them together, the outside maximum diameter of the assembly in the nose and tail sections makes up the arms bore diameter; the combustion chamber of the propellant charge is locked by means of a wad-obturator, which functions as a piston and is press-fitted in the rear section of the guide bush, which, in turn, is press- fitted and swaged by the cartridge case mouth on the external side. An assembly of arrow-like bullets is tightly inserted inside the guide bush and hermetically sealed by the bush tabs according to the number of lateral arrow-like bullets in the cartridge. Press-fitted in the multiple bullet cartridge with a tracer arrow-like bullet, in the tail section of the latter, is a magnesium tracer core, whose cone section, in turn, is rolled in the central hole of the wad-obturator and makes up a strong joint with it up to the burn-out of the core nose section. EFFECT: improved close grouping of shots. 17 dwg

Description

 The present invention relates to ammunition for smoothbore small arms of normal and small caliber.

 As a result of a patent search conducted by the Central Scientific and Technical Library of the city of Rostov-on-Don, no analogues were found among the patent literature, so the prototype was selected from the scientific and technical literature.

A close technical solution to the proposed are:
1. The cartridge developed by the SPIW project / "individual weapons for special purposes" /, firing simultaneously 3-25 arrow-shaped bullets with a tail in the lower part. When firing, a bullet pack placed in a plastic pan is pushed out of the barrel of the cartridge case and moves along the barrel; at the exit, the pallet separates, and the arrows fly at high speed toward the target. ... firing accuracy is still low. Arms Magazine, Publ. "Technology of Youth", N 12, 1995, p. 39.

 2. The cartridge company MDD-S, designed for a 9-mm smoothbore rifle with arrow-shaped bullets. A two-section pallet is inserted into the plastic sleeve with an interference fit. Between sectors in the same plane are three arrows. Arrows are connected to the pallet using a thread that "eliminates the likelihood of a bullet moving relative to the pallet." Separation of sectors from the boom - due to the oncoming flow of air and powder gases. Magazine "Soldier of Fortune", N 10, 1996, p. 53.

 Coinciding signs with the claimed invention are: a sleeve with an igniter capsule, a propellant charge, swept bullets.

 In the analogues of cartridges with arrow-shaped bullets known to the applicant, the leading element / pallet, container / is used to hold the arrow-shaped bullets fixedly while they are moving along the barrel of the weapon, which, having no strict aerodynamic shape, destabilizes the flight of arrow-shaped bullets from the time of departure from the barrel of the weapon into the moment of its separation from them, which leads to insufficient accuracy of fire.

 The essence and difference from the analogues of the present invention is: by constructively changing the shape of the swept bullets to "pack" them together, the outer diameter of the assembly of which in the head and tail parts is the diameter of the barrel of the weapon, and the issue of locking the combustion chamber of the propellant propellant charge is solved using a wad-shutter . The leading elements, in this case, are the elements of the outer surfaces of the arrow-shaped bullets themselves and directly the inner surface of the barrel channel.

 The technical result should be expressed in an improvement in the accuracy of fire compared to the indicated analogues of cartridges with swept bullets.

 In FIG. 1 shows a longitudinal section of a cartridge with six of the same arrow-shaped bullets.

 In FIG. 2 - the same / with five similar lateral and one central, tracer swept bullets /.

 In FIG. 3 shows a General view with a longitudinal section of a cartridge with six of the same arrow-shaped bullets in a perspective view.

 In FIG. 4 - the same / with five similar lateral and one central tracer, arrow-shaped bullets in a perspective view /.

 In FIG. Figure 5 shows an arrow-shaped bullet in orthogonal projections and axonometry, the head of which is a triangle in cross section, and the tail is a three-beam star.

 In FIG. 6 - the same / in axonometric projection, the head of which in cross section represents a circle, and the tail - a three-beam asterisk /.

 In FIG. 7 depicts a central swept tracer bullet in a perspective view.

 In FIG. 8 shows the guide sleeve, in a perspective view / the petals are not folded /.

 In FIG. 9 depicts a magnesium tracer core, in axonometric projection.

 In FIG. 10 shows a wad-seal in axonometry for a cartridge with a tracer swept bullet.

 In FIG. 11 shows a wad seal in axonometric projection.

 In FIG. 12 shows a longitudinal section of a bore with a chamber and an annular cylindrical groove.

 In FIG. 13 shows a diagram of the geometric calculation of the amplitude of the blades of the front and rear edges of the stabilizer and the body thickness of the arrow-shaped bullet in a cartridge with six of the same arrow-shaped bullets.

 Cartridge / Fig. 1, 2, 3, 4 / with swept bullets is a non-separable assembly unit consisting of a sleeve 12 with an igniter capsule 13, a powder propellant charge 11, a guide sleeve 18, a wad-shutter 9 / Fig. 10, 11 / and arrow-shaped bullets 28, 30, 31 / Fig. 5, 6, 7 /, as well as the tracer magnesium core of FIG. 9 / cartridge with tracer sweep bullet /.

 The sleeve 12 with the igniter 13 is designed to place a propellant propellant charge in it, to hold the guide sleeve (Fig. 8) assembled with swept bullets and wad-obturator and is a propellant combustion chamber. The sleeve 12 is a thin-walled metal cup with a light outer taper, with a conical slope 36 turning into a cylindrical barrel 5. On the outer surface of the sleeve 12, an annular groove 37 is made to extract the sleeve from the weapon. An igniter capsule is pressed into the bottom of the liner.

 To eject the wad-seal and swept bullets from the barrel of the weapon barrel, a powder propellant charge 11 is used, which is located in the cavity of the sleeve.

 The guide sleeve 18 is designed to hold the assembly of arrow-shaped bullets in the cartridge, the initial direction of movement of the wad-shutter and arrow-shaped bullets until it enters the barrel bore, the hermetic shelter of arrow-shaped bullets during storage, and also for obturation of powder gases towards the chamber. The guide sleeve 18 is a tube consisting of a head part 26, a persistent two-sided conical protrusion 15, a rear part 8 and a cylindrical channel 21, equal to the diameter of the barrel of the weapon. In front of the head part 26 are the petals 1 / according to the number of lateral swept bullets in the cartridge /. The outer surface of the head has a slight taper towards the side of the petals 1, and the back is in the opposite direction. Petals 1 during assembly of the cartridge are connected together, forming the pointed part of the cartridge. Seams between the petals are sealed. The guide sleeve is pressed inside the sleeve, and the thrust protrusion 15 abuts against the conical slope 36 of the sleeve 12.

 Wad-seal 9 / Fig. 10, 11 / is intended for locking the propellant combustion chamber, transferring propellant energy to swept bullets, as well as for obturation, cleaning the contaminated barrel from previous shots, stabilizing the release of powder gases at the inlet of the barrel’s expansion chamber.

 In a cartridge with a tracer swept bullet / Fig. 2, 7 / used wad-seal 9 / Fig. 10 / with a central hole 20 for firm connection with the magnesium core 17 / Fig. nine/.

 Wad-seal is a metal cup, the side walls of which have a perforation of 10. The inner side walls of the wad-seal are made with a slight taper.

In a cartridge with six of the same type of bullets 28 / Fig. 1, 3, 5 /, / option 1 / arrow-shaped bullets are used, designed to defeat manpower, consisting of the head part 3, body 4 and stabilizer 7. The head part 3 has a pointed tip 2 in the form of a pyramid, and the tail is a kind of truncated pyramid passing into the cylinder. In cross section, the head part 3 is a triangle. When assembling six bullets 28 together, the head of the assembly in cross-section is a hexagon / section AA, FIG. 1 /, the distance between the ribs of which is equal in diameter to the diameter of the channel of the barrel of the weapon. The body 4 of the arrow-shaped bullet 28 is an elongated cylinder with a radius R ₁ equal to 1/14 of the diameter of the barrel bore of the weapon of FIG. 13. The stabilizer 7 with oblique blades 14 in cross section is a three-beam sprocket. The angle of rotation of the blades / plumage / stabilizer is approximately equal to 58 ^o . The stabilizer twist angle is the angle between two imaginary planes passing through the axis of the bullet and the center lines 35 of the profile of the front 33 and rear 34 of the stabilizer blade, FIG. 13. The span of the front of the blade R _{2 is} less than the rear R ₃ by 1/4 / Fig. 13/. The stabilizer ends with a cylindrical bottom 36, which, when assembling the cartridge, abuts against the bottom 19 / Fig. 11 / wad-shutter 9.

In a cartridge with five similar lateral and one central tracer swept bullets of FIG. 2, 4 / option 2 / are used swept bullets of FIG. 6, 7, designed to defeat manpower. Lateral sagittal bullets (6) consist of a head part 3, a body 4 and a stabilizer 7. The head part 3 has a pointed tip 2 in front in the form of a cone, and in the rear part a truncated cone passing into the cylinder. In cross section, the head part 3 is a circle whose diameter is equal to 1/3 of the diameter of the bore. The body 4 of the arrow-shaped bullet 30 is an elongated cylinder. The stabilizer 7 with oblique blades 14, in cross section, is a three-beam sprocket. The twist angle of the blades / plumage / stabilizer is 120 ^o . The blade span is 1/2 the diameter of the bullet head. The stabilizer ends with a cylindrical bottom 36, which during assembly abuts against the bottom 19 (Fig. 10) wad-shutter 9.

 The central tracer swept bullet (Fig.7) consists of a head part 3, a body 4 and a stabilizer 7.

 The head part of the bullet 31 in the context has a circle of a larger diameter than the head parts of the side bullets 30, and has a pointed tip 2 in the form of a cone in front and a truncated cone passing into the cylinder in the back. The head part outside-behind has five longitudinal trays 16 (Fig. 7), the lower points of which, when drawn through them, make up 1/3 of the diameter of the barrel of the weapon, designed to dock with the five head parts of the side bullets 30, allowing the assembly of swept bullets together, the external, imaginary diameter of which will be the diameter of the barrel of the weapon. The body 4 of the swept bullet 31 is an elongated cylinder. The stabilizer of the tracer bullet 7 with oblique blades 14 in cross section has the shape of a five-beam star with a blade span equal to 1/2 caliber of the weapon. Trays 16 are made on the surface of the stabilizer body between the blades for fixing the bodies of lateral swept bullets 30 in them. In the stabilizer body, at the rear, there is a cylindrical channel 32 with a blind end, into which the magnesium tracer core 17 is pressed (Fig. 9). In the assembly, all arrow-shaped bullets have parallel axes between themselves and the barrel of the weapon.

 The magnesium tracer core 17 is designed to create a brightly burning light source of the central swept bullet 31 on its flight path and is a magnesium alloy core that ends with an annular groove 22 and a head 23. The tracing magnesium core is pressed into the channel of the stabilizer 32 of the central swept bullet 31 (Fig. . 7), and into the groove 22, the wad-sealer 9 is rolled through the central hole 20.

 To stabilize the departure of the assembly of arrow-shaped bullets from the barrel of the weapon barrel, an expansion chamber is used, which is a cavity of a cylindrical body of revolution, passing from the barrel channel through a conical surface and ending in a conical socket.

 When the propellant charge 11 is ignited from the igniter capsule 13, the resulting powder gases, having a high temperature and pressure, carry out an ejection effect on the wad-seal 9 from the guide sleeve 18 in the direction of the muzzle of the barrel, which, in turn, transfers energy to the assembly of arrow bullets / options 1, 2 /. At the same time, the head 23 (Fig. 9) of the magnesium tracer core is ignited 17. The arrow-shaped bullets, being in the assembly, the largest diameter of the outer protruding head and tail parts of which are the diameter of the barrel bore, are progressively moving first along the channel of the guide sleeve 21 (Fig. 8) of a pointed the head part 2, pushing the petals 1 between their joints, squeezing the edges of the latter into a cylindrical groove of the barrel 39 (Fig. 12), located between the chamber 38 and the channel of the barrel 25 of the weapon, and then along the barrel of the weapon.

 The speed of movement of the arrow-shaped assembly bullets in the weapon barrel is the same, since the movement of the bullets along the entire bore is accelerated and all the bullets with the bottom abut against the wad-shutter, and the central tracer bullet 31 abuts through the tracer magnesium core 17 in the wad-shutter and firmly held in it until the burnout of the head 23 of the core, which is calculated and occurs approximately at the site of the aftereffect of powder gases when the assembly of bullets departs from the barrel of the weapon.

When the warhead bullet head parts move in the weapon’s expansion chamber by the force of the oncoming air flow, they will tend to disperse in the radial direction, but the subsequent breakthrough of the powder gases through the perforated holes in the side walls of the wad-seal, and then when they freely exit the barrel into the expansion chamber will overtake the bullet assembly in the free space between them and the walls of the expansion chamber, helping to bring the head parts of the bullets closer together. In this case, the powder gases falling into the expansion chamber, and then into the bell, will reduce their speed. Perforation of the wad-obturator side walls contributes to a more stable breakthrough of powder gases into the expansion chamber
When the assembly of swept bullets departs from the expansion chamber, during the aftereffect of the powder gases, the bullets will move for some time with acceleration, and the lateral forces of the powder charge will practically disappear. Under the influence of the oncoming air flow, the bullets begin to diverge from the assembly center, obtaining the initial angle of nutation.

 With a decrease in the action of powder gases during their aftereffect on the wad-sealer, the speed of the latter will sharply decrease due to the greater aerodynamic drag compared to bullets.

 In the future, swept bullets will act as self-regulating systems not due to the center of mass of the bullets displaced to the head, but due to the planes of the blades / plumage / stabilizer having a center of pressure of the force of the incoming air flow in the tail, will tend to return to the initial state after the disturbance .

 To improve the stabilization of arrow-shaped bullets in flight, the latter, due to the oblique stabilizer blades, receive a torque around the longitudinal axis from the oncoming air flow, causing a gyroscopic effect.

Claims (2)

 1. The cartridge for smooth-bore small arms, containing a sleeve with an igniter capsule, propellant charge, swept bullets, consisting of a pointed head part, an elongated cylindrical body and a stabilizer with skew blades, characterized in that the cartridge contains six arrow-shaped bullets, the head of which is cross section is a triangle, and the stabilizer with oblique blades is a three-beam sprocket, six arrow-shaped bullets are folded together so that the outer diameter of the protruding assembly the lateral ribs of the head parts and the edges of the stabilizer blades is the diameter of the barrel of the weapon, tightly mounted in the guide sleeve pressed into the sleeve, which is closed by six petals in the head, and the wad-seal, which is an inverted glass with perforated walls, is pressed into the back.  2. Cartridge for smooth-bore small arms, containing a sleeve with an igniter capsule, propellant charge, swept bullets, consisting of a pointed head part, an elongated cylindrical body and a stabilizer with sloping blades, characterized in that the cartridge contains five of the same type of side and one central tracer swept bullets, the head of the former in cross section represents a circle with a diameter equal to 1/3 of the caliber, and the stabilizer with oblique blades represents a three-beam sprocket, and the second represents The neutral arrow-shaped bullet has a head part, in cross section representing a circle of a larger diameter than the diameter of the head part of the side bullets and on the outer surface of which there are five longitudinal trays, the lower points of which, when drawing a circle through them, make up 1/3 of the diameter of the gun barrel, and in the stabilizer body there is a cylindrical channel with a blind end, into which a tracer core made of magnesium alloy is pressed in, on the outer surface of the stabilizer body there are five, coaxial with first, trays for bodies of lateral swept bullets, and between the trays there are oblique blades, five of the same type of lateral and one central tracing swept bullet are folded together so that the outer diameter of the surfaces of the protruding head parts and the edges of the stabilizer blades are the diameter of the barrel of the weapon, mounted in sleeve guiding sleeve, which is closed by five petals in the head part, and the wad-seal, which is an inverted glass in the bottom of which is pressed in, is pressed into the back There is a central hole in which the head of the magnesium core is rolled, and the walls are perforated.

Images