RU2103658C1 - Bullet for smoothbore weapon - Google Patents

Abstract

FIELD: ammunition (bullets) for smoothbore hunting guns. SUBSTANCE: bullet has a body and a plastic wad-stabilizer made with an obturating skirt on the rear end face, small turbine on the lateral surface and a recess on the front end face, which receives the body. The body is made in the form of a cylindrical shell and a slug with a head section and tail section placed in the shell cavity having through longitudinal nicks throughout the whole depth of the cavity. The length of the tail section is less than the depth of the cavity, and the cavity and the mating slug tail section smoothly expand towards the slug head section up to the outlet to its lateral surface. A groove contracting inside is made on the lateral surface of the body shell opposite the base, and an annular groove with lateral walls inclined towards the rear end face and forming an additional obturating skirt is made on the lateral surface of the wad-stabilizer before the rear obturating skirt. The outer and inner parts of the wall surface of each obturating skirt in longitudinal section represent lines bent to the rear side-parts of two ellipses with centers and axes of symmetry of the ellipses common, separate for each skirt; one of which is located on the rear end face of each skirt perpendicularly to the bullet longitudinal axis. The skirt rear end face has a chamfered inner edge. The small turbine of the wad-stabilizer is formed by longitudinal grooves, at least 1.3 mm deep, on its lateral surface from the front end face, inclined to one side at a constant angle of 8 to 15 deg. to the bullet longitudinal axis, smoothly turning into the lateral cylindrical surface before the additional obturating skirt. EFFECT: improved design. 4 cl, 3 dwg

Description

 The invention relates to ammunition, namely to bullets (for smoothbore hunting rifles).

 The famous Rubeykin bullet (- Hunting and hunting. M: 1981, N 9,), made in the form of a sub-caliber cylinder, on the side of which, closer to the rear, a recess is made. The bullet in the sleeve is installed in the container, additionally with wads and gaskets.

 The disadvantage of the Rubeykin bullet is the large lateral dispersion, which even at a distance of 50 m from a domestic rifle is, on average, 158.3 mm in a series of shots (Izmetinsky N. - Hunting and hunting. M.: 1984, No. 11, p. 27 , Table 3), caused by the lack of longitudinal stability of the bullet in flight (insufficient sweep of the bullet, dull front side and the absence of its rotation in flight around the longitudinal axis). The bullet also has a small initial flight speed and destructive ability, which can be significantly increased.

 Known bullet for smoothbore guns (ed. St. N 1141293, class F 42 B 30/00, 1985), comprising a housing and a plastic wad stabilizer made with an obturating skirt on the rear end, a turbine on the side surface and a recess on the front end into which the housing is installed.

 The disadvantage of this bullet is the low accuracy of the hit, which, during factory tests at the Tula arms factory even at a distance of 45 m from domestic weapons, showed a result equal to, on average, 231 mm (V. Klyuchnikov - Hunting and Hunting. M: 1989, N 11, p. 22, table 2), which, according to the author, is caused by the uneven deformation of the lead bullet body, wad-stabilizer and the absence of intensive rotation in flight, as well as the insignificant, in comparison with the best foreign samples, flight speed, which is still can increase b and striking ability.

 The basis of the invention is the task of creating a bullet for a smooth-bore gun, in which by changing the design of the hull and wad stabilizer, recoil is reduced during firing, improved obturation during movement in the barrel, improved rotation around the longitudinal axis in flight, the head is opened when it hits the target, separation with the forward exit of the core, due to this an increase in the speed of the bullet, accuracy of hit and striking ability.

The problem is solved in that in a pool for smooth-bore weapons containing a body and a plastic wad stabilizer, made with an obturating skirt at the rear end, a turbine on the side surface and a recess at the front end into which the body is installed, according to the invention:
1. The body is made in the form of a cylindrical shell with a bottom and a core with a head part and a shank placed in the cavity of the shell having through-line longitudinal cuts to the entire depth of the cavity, while the length of the shank is less than the depth of the cavity, and the cavity and the core shank reciprocating to it are made smoothly expanding toward the head of the core until reaching its lateral surface, on the lateral surface of the shell of the housing opposite the bottom is made tapering inward groove.

 This embodiment of the housing provides the connection of the shell with the core and when the bullet hits the front part of the target, a significant increase in the striking ability is achieved, since the core shifts in the shell during the impact and acts with its expanding part on the front part of the shell, expanding it. The shell in front of this impact is distributed to the sides, and the groove tapering inward is closed, facilitating expansion and not allowing the front of the shell to expand further and bend backward.

 An annular groove is made on the side surface of the stabilizer wad in front of the rear obturator skirt with side walls inclined toward the rear end, forming an additional obturator skirt, the outer and inner part of the wall surface of each obturating skirt in longitudinal section being lines curved to the rear side - two parts ellipses with common, separately for each skirt, centers and axes of symmetry of ellipses, one of which is located at the rear end of each skirt perpendicular to the longitudinal axis of the pool and the rear end of the skirt has a rounded inner chamfer.

 This embodiment of the obturating skirts makes it possible to exclude a breakthrough of the combustion products of gunpowder ahead of the bullet during the shot, especially when it leaves the sleeve and passes through the narrowing into the cylindrical part of the barrel, thereby increasing the speed of the bullet and the accuracy of the hit, since this improves the flexibility of the walls of the skirts and density Adherence to the inner surface of the liner and barrel, and also increases the efficiency of the combustion products of gunpowder.

The wadge-stabilizer turbine is formed by performing on its lateral surface from the front end of the longitudinal grooves with a depth of at least 1.3 mm, tilted to one side with a constant angle of 8-15 ^o to the longitudinal axis of the bullet, smoothly turning into a side cylindrical surface in front of the additional obturating skirt.

 This embodiment of the turbine reduces resistance when the bullet moves in the barrel, especially in the presence of a muzzle narrowing, as well as outside it and helps to improve the rotation of the bullet around its axis outside the barrel, and therefore, stabilize its flight and accuracy.

 2. At the bottom of the recess of the stabilizer wad, a cylindrical protrusion is made, which enters the same recess in the rear end of the bottom of the body shell with an emphasis in a gasket of elastic material - to facilitate the rear of the body, additional center it in the wad stabilizer and reduce recoil at the moment a shot that provides improved stabilization of the flight of the bullet, increases the accuracy of the hit.

 3. On the side surface of the shell of the housing from its front end, protrusions are made that are located in their grooves on the recess of the stabilizer wad in front of each protrusion of its turbine and are also inclined to the longitudinal axis, which facilitate the connection of the housing with the stabilizer wad to their side surfaces when the movement of the bullet in the barrel and immediately beyond, accelerate the rotation of the bullet in flight around its longitudinal axis, since the protrusions on the shell of the body are an additional impeller. When a bullet moves in the barrel and enters its muzzle, the narrowed compressed wad-stabilizer is braked in it, and the body does not slow down and at the expense of greater speed tends to break forward. Moving in a muzzle narrowing faster than the stabilizer wad, the body simultaneously turns with its protrusions in the grooves of the stabilizer wad recess, like a bullet in a rifled barrel or in a barrel paradox. Therefore, the rotation of the bullet body begins even in the muzzle narrowing of the barrel, which is important for stabilizing its flight. All this increases the speed of the bullet, accuracy and hit ability.

 4. Cases of the shell are made between the protrusions on its lateral surface and parallel to them, which additionally accelerates the rotation of the bullet in flight around its longitudinal axis and increases the accuracy of hit and destructive ability.

 In addition, the body of the bullet is made of metal, which does not deform from sudden acceleration when fired while still in the barrel, for example, of mild steel and does not pollute the environment when it enters it.

The essence of the proposed technical solution is illustrated by drawings, where:
in FIG. 1 shows a bullet in the composition of the cartridge in the barrel - a longitudinal section; in FIG. 2 - bullet, front view; in FIG. 3 - case, side view.

The bullet for smooth-bore weapons contains a plastic wad stabilizer 1, on the side surface of which 2 from the front end there are longitudinal grooves 3 and tilted to one side with a constant angle of 8-15 ^o to the longitudinal axis of the bullet, forming a turbine 4. The rear end of the wad stabilizer 1 made with an obturating skirt 5, in front of which an annular groove 6 is made on the side surface with side walls 7 inclined toward the rear end, forming an additional obturating skirt 8. The front end of the stabilizer wad 1 has a recess 9, in which I’m focusing on a gasket 10 made of elastic material located in it, made, for example, of soft rubber in the form of a ring, a bullet body is installed, consisting of a cylindrical shell 11 with a bottom and a cavity 12 in the front end, with its shank 13 the core 14. The shell 11 has through longitudinal cuts 15 to the depth of the cavity 12. Moreover, the length of the shank 13 of the core is less than the depth of the cavity 12. The outer 16 and inner 17 parts of the wall surfaces of each obturating skirt in longitudinal section are curved to the back of the line are parts of two ellipses with common, separately for each skirt, centers 18 and axes of symmetry 19 ellipses, one of which is located on the rear end of each skirt perpendicular to the longitudinal axis 20 of the bullet and the rear end of the skirt has a chamfer 21, rounded inward 22, moreover, the diameters of the obturating skirts in their rear parts, the back 5 - not less than the diameter of the channel of the sleeve 23, and the front 8 - not less than the diameter 24 in the middle part of the narrowing 25 between the chamber 26 and the cylindrical part of the bore 27. The walls of the front obturating skirt 8 are thinner, than the back her 5. On the outer side surface of the wad-stabilizer 2, 5-8 longitudinal grooves 3 are made with a depth of at least 1.3 mm, which are inclined in one direction with a constant angle of 8-15 ^o to the longitudinal axis of the bullet 20. They smoothly pass into the lateral cylindrical surface 2 and form a turbine. At the bottom of the recess 9 of the wad-stabilizer 1, a cylindrical protrusion 28 is made, which enters the same recess 29 in the rear end of the shell 11 of the housing with an emphasis on the gasket 10 of elastic material, which is located there. The cavity 12 in the front end of the shell 11 of the housing and the corresponding shank 13 of the core 14 are made of cylindrical shape, which gradually expands 31 towards the head of the core until reaching the side surface 32. On the side surface 32 of the shell 11 of the housing, opposite the bottom 33 or near it, an annular groove 34 is made tapering inward, and protrusions 35 are also made from the front end, which are located in the corresponding grooves 36 on the surface of the recess 9 of the stabilizer wad 1, opposite each protrusion of its turbine 4 and are also inclined to the longitudinal axis and, i.e. with a constant angle to the longitudinal axis 20 of the bullet 8-15 ^o . The cuts 15 of the shell 11 of the housing are made between the protrusions 35 on its side surface and parallel to them. The shell 11 of the housing partially protrudes from the recess 9 in the front end of the wad stabilizer.

 When the cartridge is equipped in a recess 29 in the rear end of the bottom of the shell 11 of the housing set gasket 10 of elastic material. Then the case with the back side is installed in the recess 9 in the front end of the wad-stabilizer 1, until the gasket 10 rests in the cylindrical protrusion 28 at the bottom of the recess 9. The core 14 with the shank 13 is installed tightly in the cavity 12 of the shell 11 until it stops with extensions 31. The bullet body is one-piece compound. The assembled bullet is installed in the channel of the sleeve 23 on the powder, without wad and gaskets.

 At the time of the shot, under the influence of the pressure of the products of combustion of the powder, the bullet begins to move with a sharp acceleration. In this case, the elastic gasket 10 from elastic material, for example, from soft rubber, the body 28 is deformed from the pressure of the protrusion 28, and the protrusions 35 of the shell 11 are rotated in the slots 36 corresponding to them of the recess 9 of the stabilizer wad 1, is shifted closer to the rear end of the wad stabilizer. These are reduced recoil from the shot. The pressure of the combustion products further presses the flexible wall of the rear obturation skirt 5, made in the form of a part of the ellipse, to the inner surface of the sleeve 23, and after exiting from it - to the inner surface of the barrel 25 and 27, improving the obturation. At the moment of transition of the rear part of the wad-stabilizer 1 bullet from the channel of the sleeve 23 to the narrowing 25 of the barrel, as well as for other reasons, past the back obturation skirt 5, breakthrough of the combustion products of gunpowder and lowering their pressure can occur. This is obstructed by the front obturator skirt 8, which at that moment is already at the exit of the narrowing 25 between the chamber 26 and the cylindrical part of the bore 27 and pressed against the inner surface of the barrel. Due to the fact that the highest pressure of the combustion products is observed when the bullet moves from the sleeve to the barrel, then at that moment the gasket of elastic material 10 is most deformed, and the bullet body is at the smallest distance from the rear end of the stabilizer wad 1. When the bullet moves further along the cylindrical part of the bore, the pressure of the combustion products and the acceleration of the bullet are reduced. The maximum compressed 10 gasket of elastic material, like a spring, is straightened, and the shell of the housing 11 together with the core 14 are moved partially forward in the wad-stabilizer 1. Since the shell 11 of the housing is connected to the recess 9 of the wad-stabilizer 1 with inclined protrusions 35, which are located in the same grooves 36, the forward movement of the housing in the wad-stabilizer occurs with its partial rotation even in the cylindrical part of the barrel. When the bullet enters the barrel’s muzzle narrowing, the wad-stabilizer 1 flexible and expanded by the pressure of the combustion products in its rear part is braked in it, and the heavy and undeformed bullet body is not braked and the wad-stabilizer 1 comes forward due to the greater speed of movement. the bullet’s body, coming forward, at the same time rotates even more with its projections 35 in the grooves 36 of the recess 9 of the stabilizer wad 1, now it’s a paradox in the muzzle of the barrel. Therefore, the rotation of the bullet begins in the barrel, and the separation of the body from the wad-stabilizer with its forward going at the moment of exit from the muzzle of the barrel. To accelerate the separation of the bullet’s body from the wad-stabilizer, the front part of the wad-stabilizer, when firing from trunks with a muzzle narrowing, can be made with several longitudinal incisions that will allow more retardation of the stabilizer wad in the muzzle narrowing and immediately after exiting the barrel. When firing from a barrel without a muzzle narrowing, the separation of the bullet body from the stabilizer wad occurs somewhat differently. After exiting the barrel, the bullet body is still connected to the stabilizer wad. From the drag of the air to the inclined projections of the turbine 4 of the wad-stabilizer 1, the bullet begins to rotate intensively around its longitudinal axis 20, due to which its flight is stabilized. Then, at some distance from the barrel, the compressed gasket 10 made of elastic material is completely straightened, and the body comes forward even more from the stabilizer wad 1, as the protrusions of the turbine increase and the rotation of the bullet improves. Further from the frontal resistance of the air, the wad-stabilizer 1, as lighter, finally slides from the shell 11 of the body and lags behind, and the bullet body, intensively rotating from the impact of air only on the protrusions 35, exactly flies to the target. All this happens in a split second. The notches 15 in the shell 11 of the housing are also made inclined to improve its rotation in flight.

 When hitting an obstacle with the bullet head part, the core 14 moves in the cavity 12 towards the bottom 33 of the shell 1 of the housing. Moreover, the expansion 31 of the core 14 acts on the same expansion of the shell 11 and it, since it has cuts 15 and an annular groove 34, diverges in the front part to the sides. This expansion occurs until the closure of the annular groove 34 on the lateral surface 32 of the shell of the housing 11, which significantly increases the bullet's damage ability. In this case, the shell of the body, since it meets more resistance, is braked more, and the released core 14 is smaller and penetrates deeper into the target. Therefore, such a twofold action of the core 14 and expanded in front of the shell 11 further increases the damaging effect of the bullet.

 On the basis of the bullet proposed by the author, many more different variants of it can be developed, differing in their effect and purpose, for example, with a solid body, i.e. without a core, without grooves on the side surface of the stabilizer wad or protrusion on the side surface of the case, with a different size and weight of the case in one caliber, which greatly expands its capabilities.

Claims (4)

1. Bullet for smooth-bore weapons, comprising a body and a plastic wad stabilizer, made with an obturating skirt at the rear end, a turbine on the side surface and a recess at the front end, into which the body is installed, characterized in that the body is made in the form of a cylindrical shell with a bottom and a core with a head part and a shank placed in a cavity of the shell having through longitudinal cuts throughout the depth of the cavity, while the length of the shank is less than the depth of the cavity, and the cavity and the stem they are smoothly expanding towards the head of the core until reaching its side surface, a groove tapering inward on the side surface of the body shell opposite the bottom is made, and on the side surface of the stabilizer wad in front of the rear obturating skirt, an annular groove is made with side walls inclined towards the rear end, forming an additional obturating skirt, the outer and inner parts of the wall surface of each obturating skirt in longitudinal section are curved to the rear side of the line and parts of two ellipses with common, separately for each skirt, centers and axes of symmetry of ellipses, one of which is located on the rear end of each skirt perpendicular to the longitudinal axis of the bullet, and the rear end of the skirt has a rounded inner chamfer, the stabilizer wad is formed on its side surface from the front end of the longitudinal grooves with a depth of at least 1.3 mm, tilted to one side with a constant angle of 8 15 ^o to the longitudinal axis of the bullet, smoothly turning into a side cylindrical surface in front of the additional shutter skirt.  2. The bullet according to claim 1, characterized in that at the bottom of the recess of the stabilizer wad, a cylindrical protrusion is made, which enters the same recess in the rear end of the bottom of the shell shell with emphasis on the pad of elastic material.  3. The bullet according to claim 1, characterized in that on the side surface of the shell of the housing from its front end there are protrusions that are located in their corresponding grooves on the recess of the stabilizer wad opposite each protrusion of its turbine and are also inclined to the longitudinal axis.  4. The bullet according to claim 3, characterized in that the cuts of the shell of the housing are made between the protrusions on its side surface and parallel to them.

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