RU2080552C1 - Bullet for smoothbore weapon - Google Patents

Abstract

FIELD: bullet for smoothbore weapon. SUBSTANCE: bullet uses a mushroom-shaped body consisting of the head and tail-piece, wad-stabilizer with a recess on the front end face for the body tail-piece and detachable centering sectors. The tail-piece has an obturator and a small turbine. The small turbine is made in the form of blades smoothly inclined to one side. A groove with walls inclined towards the rear part are made on the lateral surface of the wad-stabilizer around its edges. A gap is provided between the body head and the wad-stabilizer, and a flexible gasket is located near the recess end face. The front part of the body head is made as a tapered should with an angle of 150 to 160 deg., another shoulder in the form of a truncated cone with an angle of 20 to 30 deg. is located in the center of it. The tail piece end face has a recess filled with a lighter material. The detachable centering sectors are formed by separation of the hollow cylinder into three parts, and have lugs on the inner three parts, engageable with the body head, and inclined stiffening ribs - from the outside. EFFECT: enhanced hitting effect. 2 cl, 3 dwg

Description

 The invention relates to bullets, namely, for the smoothness of free arms.

 Known bullet for shooting from a smoothbore gun without the use of lead (M. Kislin. Hunting and hunting. M. November-December 1992, p. 25, Fig. 2), containing a solid steel cylindrical body and a polyethylene stabilizer mounted on a smaller diameter of the body with an interference fit.

 The disadvantage of this bullet is the reduced accuracy of hit, range and penetration ability, caused by the lack of rotation around the longitudinal axis and, consequently, the stabilization of movement, the increased resistance to the flight of a blunt bullet, and in addition, the danger of its use, since there is no device that protects against a possible steel strike bullet shells on the barrel, especially in the presence of a muzzle check narrowing.

 The solution closest to the invention is the Poleva bullet for a smoothbore hunting weapon (ed. St. N 1141293, F 42 B 11/02), comprising a mushroom-shaped housing consisting of a sub-caliber head part with a centering detachable center with a cylindrical side surface and a shank, and wad-stabilizer, made with a recess at the front end under the shank of the body installed in it with axial clearance, an obturator and a turbine made in the form of protrusions on the side surface of the wad-stabilizer formed from one th side of a curved surface, and on the other plane.

 The disadvantage of this bullet is the low accuracy of the hit, which during the factory tests showed an insufficient result, equal to an average of 231 mm at a distance of 45 m / V (Klyuchnikov. Hunting and hunting economy. M. November 1989, p. 22, table 2). This is caused by the deformation of the lead bullet body and the plastic stabilizer wad from pressure on it when the centering detachable sectors move along the barrel, the absence of intense bullet rotation in flight and the rigidity in connecting the body to the stabilizer. The bullet also has a low penetration ability and a tendency to ricochet (O. Rubeykin. Hunting and hunting economy. M. September 1929, p. 27, Fig. 2, 3), since the body is made of lead, which crumpled upon impact on an obstacle, as well as the fact that the head of the body is rounded.

 The objective of the invention is the creation of a bullet for smooth-bore weapons, in which by changing the design of the hull, wad stabilizer, centering detachable sectors, arranging them together and adding an elastic gasket between the hull and wad stabilizer, the obturation, rotation and stabilization of the bullet in flight are improved, the resistance is reduced when moving along the bore, in the chamber and hitting an obstacle, and due to this, hit accuracy, range, penetration ability are increased, rebound and recoil force are reduced in m cop shot.

The problem is solved in that in the pool for smooth-bore weapons containing a mushroom-shaped body, consisting of a sub-caliber head with a lateral cylindrical surface and a tail, a stabilizer wad made with a shutter in the rear, a turbine in the form of protrusions on its lateral surface, and a recess at the front end, in which the shank of the housing is installed, as well as centering detachable sectors mounted on the head of the housing, according to the invention:
1. Additionally, an elastic gasket of elastic material is installed at the end of the recess of the wad-stabilizer, and the bullet body is installed by the shank in the recess of the wad-stabilizer without a gap between their side walls, with emphasis on the elastic gasket and the gap between its head and the wad-stabilizer.

 At the initial moment of the shot, under the influence of the pressure of the powder gases, the wad stabilizer acts on the elastic gasket, which is compressed and the wad stabilizer smoothly moves along the shank towards the head, reducing the gap between them. This allows you to more smoothly increase the pressure of the powder gases, reduce the recoil force, less deform the wad-stabilizer and thereby increase the accuracy of the hit and range. After moving away from the barrel, the bullet’s speed stabilizes, a compressed gasket of elastic material, straightens, moves the wad-stabilizer along the shank back and contributes to its departure and lagging from the bullet’s body, thereby increasing accuracy, range, and penetration ability.

The front side of the head of the housing is made in the form of a conical protrusion with a cone angle of 150-160 ^o , in the center of which is another truncated cone with a cone angle of 20-30 ^o , the height and diameter of the base of which does not exceed the radius of the side cylindrical surface of the head of the body, the edges of the head are rounded and the end of the shank has a recess filled with material with a lower specific gravity.

This design of the conical protrusion with an angle of 150-160 ^o improves the aerodynamic properties and installation on the head of the centering detachable sectors, allows for a smooth transition to an additional protrusion with the smallest dimensions and, therefore, increases accuracy and range, and the design of the other conical protrusion with an angle of 20- 30 ^o , as practice has shown, significantly increases the penetration and reduces the rebound with the smallest body length; rounding the edges reduces air resistance, which also increases accuracy and range. The presence in the end of the shank of the recess, filled with material with a lower specific gravity, makes it possible to lighten the shank of the body, thereby concentrating the center of gravity of the body as close to its front side as possible to further stabilize the flight of the bullet, thereby eliminating its inclination and tipping, which increases the accuracy of hitting , range and penetration, reduces rebound.

 In the stabilizer wad, the protrusions of the turbine are formed by curved surfaces in the form of blades inclined smoothly to one side with a rounded thickened front part, gradually tapering to the rear, with the front part parallel to the longitudinal axis of the bullet and the rear at an angle to it.

 This embodiment of the turbine allows you to create the most intense rotation of the bullet in flight, as they give the bullet the greatest torque with the highest efficiency, which best stabilizes its flight, increasing accuracy and range.

On the side surface of the stabilizer wad, opposite the recess end, a groove is made along its perimeter with side walls inclined towards the rear, which does not allow the breakthrough of powder gases passing by the obturator forward of the bullet during its movement along the barrel and then deviating it from the trajectory flight. Powder gases, once in an annular groove, with their pressure reaching 700 kg / cm ² or more, press the front inclined wall to the barrel and prevent their further passage, which improves the accuracy of hit, range and penetration ability. In addition, the proximity of the groove to the shutter improves the flexibility of his skirt, which also improves range and penetration. In addition, the elastic gasket located between the shaft end of the housing and the stabilizer wad, shrinks, tends to expand to the sides and this somewhat expands the wad container in the outer cylindrical part, in front of the groove, pressing its front wall to the inner surface of the barrel and improving the obturation, which also contributes to increase hit accuracy, range and penetration.

 The body of the bullet is made of steel or other metal that does not deform like lead from sudden acceleration when fired and hit an obstacle, which also increases accuracy, range, penetration and reduces rebound.

 2. The centering detachable sectors are formed by dividing lengthwise into three identical parts of the hollow cylinder and have protrusions on the inner surface that contact with the head of the housing, and on the outside it has stiffening ribs that go in the rear into a transverse annular protrusion.

 This design of the centering detachable sectors ensures their more simultaneous departure from the body after the bullet leaves the barrel, since under the influence of air pressure on the oblique stiffening ribs, the sectors are separated from the movable to the side and each of them pushes the neighboring one. Therefore, their simultaneous departure from the hull occurs, which is important for stabilizing the flight of a bullet. The emphasis of the centering detachable sectors on the head of the body, and not on the wad-stabilizer and the presence of a transverse annular protrusion on them, allows for rapid acceleration when the bullet moves in the barrel bore to protect the turbine blades from deformation. All this helps to increase the accuracy of the hit, range to penetration.

 In FIG. 1 shows a bullet for smooth-bore weapons, a longitudinal section; in FIG. 2 same front view; in FIG. 3 housing design.

The bullet has a mushroom-shaped body, which consists of a head part 1 with a lateral cylindrical surface 2 and a shank 3, a stabilizer wad 4 made with a recess 5 at the front end for the body shank installed in it, with a shutter 6 and a turbine 7, as well as centering detachable sectors 8. The turbine 7 is made in the form of vanes 9 smoothly inclined to one side with a rounded and thickened front part, gradually tapering to the rear part, while the front part is parallel to the longitudinal axis of the bullet and the rear part is at an angle to it . On the side surface of the wad-stabilizer 4, near the obturator 6, a groove 10 is made with side walls 11 inclined towards the rear. Between the head part 1 and the wad-stabilizer 4 there is a gap 12, and an elastic gasket of elastic material 13 is located at the end of the recess 5 The front side of the head part 1 of the housing is made in the form of a conical protrusion 14, with an angle of 150-160 ^o , in the center of which is another protrusion in the form of a truncated cone with a cone angle of 20-30 ^o 15, the height and diameter of the base of which does not exceed the radius of the cylindrical side overhnosti head part 1 of the housing. The end face of the shank 3 has a recess filled with material having a lower specific gravity 16. The centering detachable sectors 8 are formed by dividing lengthwise into three identical parts of the hollow cylinders and have projections 17 on the inner surface, the protrusions contacting with the head part 1 of the housing. Outside, the centering detachable sectors 8 have stiffening ribs 19 inclined in one direction with the blades 9 of the turbine 7, passing at the rear into a transverse annular protrusion 20.

 When the cartridge is equipped with a bullet, the shank 3 with a slight interference fit is installed in the recess 5 of the stabilizer wad 4, centering detachable sectors 8 are installed on the head part 1 and the assembled bullet is installed in the sleeve on the powder without additional wad. At the time of the shot, under the influence of the pressure of the powder gases, the bullet exiting the sleeve of the metal body with the head 1 forward, the plastic wad stabilizer 4 and the centering detachable sectors 8 moves with acceleration along the barrel. The elastic gasket 13 from the pressure on it of the shank 3 of the body is deformed and the wad-stabilizer 4 along the shank moves to the head part 1 until it stops in it. This somewhat reduces recoil when fired. In addition, compressing, the elastic gasket 13 tends to expand to the sides, and this somewhat expands the front wall 11 of the groove 10 of the wad-stabilizer 4, pressing the wall against the bore and thereby improving the obturation. After the bullet exits the barrel, the centering detachable sectors 8, designed to reduce friction when moving along the barrel and protect it from impacts of the bullet head 1, are separated from the drag. Moreover, under the influence of air pressure on oblique stiffeners, they separate with a shift to the side, pushing each other and helping them to separate, which is important for their more simultaneous departure from the hull and for stabilizing the flight of the bullet. Outside the barrel, the bullet speed reaches 400 m / s or more. Intensive rotation around the longitudinal axis is reported from the drag of the air to the curved blades of the 9 flying pool. While the pressure of the powder gases is still acting on the bullet for some time outside the barrel, the stabilizer wad is pressed to the rear of the housing. But then their action ceases, the speed of the bullet is stabilized and the compressed gasket of their elastic material 13 is straightened, shifting the wad stabilizer 4 from the head part 1 along the shank 3 back. From the air pressure on the blades 9 of the turbine 7, the lightweight wad-stabilizer 4 slides from the shank of the housing and lags behind it. All this happens in a split second. Further, an intensely rotating bullet flies and targets as part of only one body. The magnitude of the interference between the shank 3 and the side surface of the recess 5 are selected so that the wad-stabilizer 4 is separated from the bullet body close to the barrel so as not to create significant resistance to its flight. Intensive rotation of the bullet body and its heavier warhead increase stability on the flight path, increasing range, accuracy and penetration. The bullet’s body is made of metals that do not deform when fired, has a light weight and, at an initial speed of 400 m / s or more and hitting an obstacle with the front side of the head part 1, as shown by practice, provides an increased damaging effect, since when meeting an obstacle bullet energy is directed to the sides around the circumference and, in addition, has good anti-ricochet properties.

Claims (2)

1. Bullet for smooth-bore weapons, containing a mushroom-shaped body, consisting of a sub-caliber head with a cylindrical side surface and a shank, a stabilizer wad made with an obturator in the back, a turbine in the form of protrusions on its side surface and a recess at the front end, in which is installed on the housing shank, as well as centering detachable sectors mounted on the head of the housing, characterized in that in addition to the end of the recess of the stabilizer wad, an elastic gasket made of elast LfTetanus material, the front side of the head portion of the housing is formed as a conical projection with a cone angle of 150 160 ^o, the center of which is the other protrusion in the form of a truncated cone with a cone angle of 20 30 ^o, height and diameter which the base does not exceed the radius of the cylindrical side surface of the head portion cases, while the edges of the head part are rounded and the end face of the shank has a recess filled with material having a lower specific gravity, and in the stab stabilizer, the turbine protrusions are formed by curved surfaces in the form of blades smoothly on one side with a rounded and thickened front part, tapering smoothly to the rear part, with the front part parallel to the longitudinal axis of the bullet and the rear part at an angle to it, and on the side surface of the stabilizer wad opposite the end of the recess along its perimeter a groove with side walls inclined towards the rear, the body is installed by a shank in the recess of the wad-stabilizer without a gap between their side walls with an emphasis in the elastic gasket and the gap between its head and the wad-stabilizer rum.  2. The bullet according to claim 1, characterized in that the centering detachable sectors are formed by dividing along three identical parts of the hollow cylinder and have protrusions on the inner surface that are in contact with the head part of the housing, and stiffeners which are inclined to the same side with the turbine blades, rolling in the rear into a transverse annular protrusion.

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