RU2156948C1 - Bullet - Google Patents

Abstract

FIELD: ammunition for sporting smoothbore rifles, in particular, deformable- type bullets. SUBSTANCE: bullet has a metal envelope stronger than lead, the head and partially central sections are filled with lead. The rear section of the envelope has slots forming lobes. A hollow plastic cylinder is inserted in the cavity formed by the lobes. An additional cavity is provided between the lead filling and the cavity formed by the lobes. EFFECT: simplified design, enhanced efficiency and adaptability to manufacture. 30 cl, 1 dwg

Description

 The invention relates to ammunition for hunting shotguns, and in particular to deformable type bullets.

 A known bullet for hunting smoothbore guns containing a lead body with outer ribs and a plastic stabilizer connected to it with a screw with an obturating cuff in which a small bottom cavity is made (1). The diameter at the base of the ribs is less than the diameter of the muzzle narrowing of the bore, i.e. the deformation of the ribs during the passage of the muzzle narrowing does not have a practical effect on the level of gas pressure. At the same time, as a result of the rotation of the bullet from aerodynamic effects on the helical ribs, its stabilization in flight is ensured and thereby accuracy and accuracy of firing are increased. The disadvantage of such a bullet is the complexity of its design and assembly, as well as the small size of the bottom cavity, which does not allow creating a uniformly distributed pressure of the bullet in the barrel.

 Also known is a bullet containing a heavy warhead and a light stabilizer shank having, as a rule, a cylindrical shape (2). The shank gives the bullet stability in flight.

 The disadvantages include low accuracy and accuracy of the battle.

 The Yakan bullet for a smoothbore gun contains a housing made of soft material and leading ribs located on the cylindrical surface of the housing at an acute angle to the axis of the bullet (3).

 However, such a bullet has a low accuracy and low penetration ability.

 To increase the accuracy and accuracy of the battle, the bullet stabilizer can be made three-feather, pressed into the body and have a cylindrical cavity (4). The disadvantages of this bullet include the complexity of the design of the stabilizer and the relatively small cross section of the cavity, as well as the shallow depth of the cavity, which does not provide a sufficiently tight fit of the bullet to the barrel bore.

 Finally, the Kochkin bullet is known, taken as a prototype, containing a metal casing (shell), more durable than lead, with slots forming petals, a wedging element located in the cavity formed by the petals and made of a polymeric material as a single unit with centering ribs, filling the slots and protruding outward, a tail stabilizer made of polymer material with a leading belt and lead filling (5).

 The disadvantage of this design is its complexity, associated primarily with the presence of a proppant, and the absence of elements that provide uniformly distributed bullet pressure in the barrel.

 In addition, a common drawback of the above and other known bullet designs is, in particular, the absence of a snug fit of most types of bullets for smoothbore guns to the bore at the very beginning of their movement during firing, which reduces the speed of rotation of the bullet in the presence of inclined ribs and results even in the presence of inclined ribs to lower accuracy.

 The technical result of this invention is the creation of a simple in design, efficient and technological in the manufacture of bullets.

 The specified technical result is achieved in that the bullet containing a metal shell, more durable than lead, with slots forming the petals, in the presence of a cavity formed by the petals, and lead filling, it is equipped with a hollow plastic cylinder passing through the cavity formed by the petals in the back parts of the bullet, and the lead filling fills the head and partially the central parts of the bullet with the formation of a cavity between it and the cavity formed by the petals, and the cavity is made communicating with each other.

 Preferably, the slots in the rear of the bullet shell are slanted with respect to the longitudinal axis of the bullet.

 Lead filling can extend up to 0.8 times the length of the bullet (preferably 0.5), and the cavity formed by the petals can extend up to 0.5 times the length of the bullet (preferably 0.25).

 The bullet may be provided with a belt or cuff located on the side of the rear of the bullet. An extra narrow belt is made at the very back of the bullet, and ribs can be made on the outside of the wide belt.

 In the head and partially central parts of the shell of the bullet can be made slots that correspond to protruding beyond the shell edges from lead filling. The ribs located in the slots of the head and partially central regions of the shell of the bullet are preferably inclined.

 The hollow plastic cylinder with the base can abut against the lead filling, and the thickness of the base can be increased to completely fill the cavity between the lead filling and the shell region formed by the petals, or to partially fill the cavity formed by the petals.

 The shell enclosing the cavity between the lead filling and the cavity formed by the petals can be made with slots filled with plastic and forming ribs.

 The cavity in the plastic cylinder between the lead filling and the cavity formed by the petals can be made in the form of a cylinder, a cone abutting against the top of the base of the hollow plastic cylinder, or a truncated cone abutting the base of the plastic cylinder with a smaller or larger base. A central hole can be made at the base of the cylinder, and a corresponding cavity in the form of a cylinder, cone, or a combination thereof, extending to a distance of 1.0 from the length of the lead filling up to the bullet shell, can be made in the lead filling.

 All bullet cavities can be made in the form of a single cylinder or cone (not shown) extending to the distance mentioned above.

 A cylindrical or cone-shaped cavity can pass through the lead filling and the head of the bullet shell. In this case, plastic and / or lead ribs can be made on the inner sides of the cavities. The cone-shaped cavities in this case are preferably located with their bases or large bases (in the case of truncated cones) towards the head of the bullet.

 The cavity in the lead filling can be made in the form of a combination of two cones, one of which, closest to the rear of the bullet, is truncated or in the form of a combination of two truncated cones communicating with each other.

 The cavity in the lead filling can pass in the head of the bullet into an oval or conical cavity. In the case of the cavity in the form of a combination of two truncated cones, the cone closest to the head of the bullet passes into an oval or cone-shaped cavity.

 The invention is illustrated in the drawing, which shows a section of a bullet.

 The bullet contains a metal (brass, bimetal) shell 1, the head and partially central areas of which are filled with lead 2.

 Slots 3 (conventionally shown) are made in the rear part of the shell 1, forming petals 4. A hollow plastic cylinder 5 is inserted into the cavity formed by the petals 4, which rests against the lead filling 2 with its base.

 A cavity 6 is provided between the lead filling 2 and the region formed by the petals 4. A belt 7 or a cuff (shown conditionally by a dashed line) can be provided in the bottom of the bullet. On the outside of the wide girdle 7, ribs (not shown) can be made. In this case, an additional narrow belt is provided at the rear of the bullet for sealing and preventing leakage of powder gases.

 The cavity 6 can be made in the form of a cone (shown by a dotted line) abutting against the base of the cylinder 5, and in the case of a truncated cone abutting one of its bases against the base of the cylinder 5. A central hole can be made at the base of the cylinder 5, and 2 in the lead filling a cylindrical or conical cavity (shown by a dotted line), or a combination of the latter, preferably extending to a distance of up to 1.0 from the length of the lead filling up to the shell of the bullet, should be made. In another case, this cavity may pass through the lead filling and the head of the bullet shell (i.e. through), and plastic and / or lead ribs (also not shown) can be made on the inside of the cavities.

 The slots 3 and, accordingly, the petals 4 are preferably inclined with respect to the longitudinal axis of the bullet.

 In the region of the shell 1 occupied by the lead filling 2, slots (mainly inclined) can also be made through which lead centering ribs protruding beyond the shell of the bullet (not shown) are formed.

 The polymer material of the cylinder 5 can be held in the shell 1 by various fixing elements (not shown in the drawing) or in another way and forms part of the shank together with the slots 3 and the petals 4. The outer diameter of the shank may correspond to the diameter of the bullet shell.

 When fired, the bullet shell provides, due to the pressure in the communicating cavities, a seal against powder gases as a result of its expansion and, consequently, an increase in pressure and a high speed of the bullet, and in the case of inclined ribs, a high speed of rotation of the bullet. When passing through the barrel, the bullet is centered on the relatively soft part of the shell with ribs, which are easily crimped during firing not only in the muzzle, but also at the very beginning of the barrel, which additionally increases the speed of rotation of the bullet, and a possible combination of lead and plastic ribs in different parts of the bullet with petals in the tail of the bullet, capable of performing in this case the function of inclined ribs, gives an additional effect of increasing the speed of rotation of the bullet when it moves along the barrel.

 A bullet having ribs made with an inclination rotates in flight with greater speed around its longitudinal axis, which further increases the accuracy of fire.

 The effect mentioned above is enhanced by the presence of an additional cavity in the lead filling, which can pass through the latter, as well as in the presence of inclined lead ribs in the bullet head.

 Another additional effect on increasing the accuracy and stability of this bullet arises due to the fact that the pressure when the bullet leaves the barrel at its end is mainly not on its very back, as usual, but on its approximately middle part, as well as its head part of the bullet, which increases the stability of the bullet when exiting the barrel, reduces its deviation from the desired trajectory and, accordingly, increases the accuracy of the battle. In this case, the pressure “pulls” the bullet out of the barrel, rather than pushing it, as is usual in all other cases.

 The selection of lead filling sizes and cavities indicated above provides optimization of the effects mentioned above and can finally be determined experimentally.

 Due to the presence of a cavity, in order to achieve the desired effects, it becomes necessary to equip cartridges with similar bullets without wad or with a thin cardboard wad for gunpowder.

 Although in the case of through-cavities, the aforementioned effect of the cavities disappears, however, due to the ribs (for example, screw) on the inner sides of the cavities and the mentioned arrangement of the cylindrical cavities, additional torque is created when the bullet moves along the trajectory, which increases the speed of rotation of the bullet and, accordingly, increases the accuracy of the battle. In this case, the cartridge is equipped with a sufficiently high-quality wad in order to prevent leakage of powder gases through the through cavity of the bullet.

Sources of information
1. RU, 2002201, MKI F 42 B 30/02, 1992.

 2. FR, 2442427, MKI F 42 B 11/06, 1978.

 3. Hunting and hunting economy, 1978, 1, p. 29.

 4. Auth. testimonial. USSR 201161, MKI F 42 B 30/02, 1967.

 5. SU, 1700349, MKI F 42 B 30/02, 1991.

Claims (30)

 1. A bullet containing a metal shell is more durable than lead, with slots forming petals, in the presence of a cavity formed by the petals, and lead filling, characterized in that it is equipped with a hollow plastic cylinder passing through the cavity formed by the petals in the back of the bullet and lead filling fills the head and partially the central parts of the bullet with the formation of a cavity between it and the cavity formed by the petals, and the cavity is made communicating with each other.  2. The bullet according to claim 1, characterized in that the slots in the rear of the bullet shell are made inclined to the longitudinal axis of the bullet.  3. The bullet according to claim 1, characterized in that the lead filling extends up to 0.8 times the length of the bullet, and the cavity formed by the petals extends up to 0.5 up to the length of the bullet.  4. The bullet according to any one of paragraphs.1 to 3, characterized in that it is equipped with a belt or cuff located on the back of the bullet.  5. The bullet according to claim 4, characterized in that the ribs are made on the outside of the girdle or cuff, and an additional narrower girdle is made in the very back of the bullet.  6. The bullet according to claim 1, characterized in that in the head and partially central parts of the shell of the bullet slots are made that correspond to protruding ribs outside the shell from lead filling.  7. The bullet according to claim 6, characterized in that the ribs located in the slots of the head and partially central parts of the shell of the bullet are made inclined.  8. The bullet according to claim 1, characterized in that the hollow plastic cylinder with the base abuts the lead filling.  9. The bullet according to claim 8, characterized in that the thickness of the base of the plastic cylinder is equal to or greater than the length of the cavity between the lead filling and the cavity formed by the petals.  10. The bullet of claim 8, characterized in that the shell enclosing the cavity between the lead filling and the cavity formed by the petals is made with slots filled with plastic to form ribs.  11. The bullet according to claim 8, characterized in that the cavity in the plastic cylinder located between the lead filling and the cavity formed by the petals is made in the form of a cylinder.  12. The bullet according to claim 8, characterized in that the cavity in the plastic cylinder located between the lead filling and the cavity formed by the petals is made in the form of a cone.  13. The bullet according to claim 12, characterized in that the cavity in the form of a cone abuts against the base of the plastic cylinder with its apex.  14. The bullet according to claim 8, characterized in that the cavity in the plastic cylinder located between the lead filling and the cavity formed by the petals is made in the form of a truncated cone.  15. The bullet according to 14, characterized in that the cavity in the form of a truncated cone abuts against the base of the plastic cylinder with a smaller or larger base.  16. A bullet according to any one of claims 8, 9, 11, 14 and 15, characterized in that a central hole is made in the base of the hollow plastic cylinder and a corresponding cavity in the lead filling.  17. The bullet according to clause 16, characterized in that the cavity in the lead filling passes up to the shell of the bullet.  18. The bullet according to clause 16, wherein the cavities in the plastic cylinder and in the lead filling are made as one unit in the form of a cylinder or cone.  19. The bullet according to claim 18, characterized in that the cavity in the form of a cylinder or cone extends up to the shell of the bullet.  20. The bullet according to clause 16 or 17, characterized in that the cavity in the lead filling is made in the form of a cylinder.  21. The bullet according to clause 16 or 17, characterized in that the cavity in the lead filling is made in the form of a cone.  22. The bullet according to clause 16 or 17, characterized in that the cavity in the lead filling is made in the form of a combination of a cylinder with a cone.  23. The bullet according to item 16 or 17, characterized in that the cavity in the lead filling is made in the form of a combination of two cones, one of which, the closest to the rear of the bullet, is truncated.  24. The bullet according to claim 23, characterized in that the cavity in the form of a truncated cone in the lead filling is located with a large base towards the head of the bullet.  25. The bullet according to item 16 or 17, characterized in that the cavity in the lead filling is made in the form of a combination of two truncated cones communicating with each other.  26. The bullet according A.25, characterized in that the truncated cones in the lead filling are located with large bases towards the head of the bullet.  27. The bullet according to claim 16 or 18, characterized in that the cavity in the lead filling passes into the head of the bullet into an oval or cone-shaped cavity.  28. The bullet according A.25, characterized in that the cavity in the form of a truncated cone in lead filling, closest to the head of the bullet, passes into the cavity of an oval or conical shape.  29. The bullet according to item 16 or 18, characterized in that the cavity in the lead filling passes through the lead filling and the head of the shell of the bullet.  30. The bullet according to clause 29, wherein the inner sides of the cavities are made of plastic and / or lead ribs.