CZ305087B6 - Jacket-free bullet with controlled deformation - Google Patents

Abstract

In the present invention, there is disclosed a jacket-free bullet with controlled deformation comprising a bullet cylindrical body (1) with relief grooves (11) and a front ogival portion (2) with a cavity (3) in which a plug (4) is inserted. The cavity (3), having approximately cylindrical shape and longitudinal grooves (5), is shaped close to its tip into the cavity front portion (6) having a partially circular form, where longitudinal grooves (7) with partially circular form are created. The plug (4) closes the cavity at a point of contact with the cavity front portion (6) having the form of a circle (9), and at the same time it creates a bullet tip, which enhances external ballistic properties of the bullet and prevents intrusion of contaminants into the cavity. Between the plug lower part (10) and the cavity front portion (6), there is a free space (8) in which the plug (4) is partially pushed when the bullet hits the target, without deformation of the bullet front part. At the same time, the cavity front portion (6) with the longitudinal grooves (7) is partially freed for the action of pressure of the hit target to this cavity front portion, whereby deformation and separation on of the bullet front portion into a predefined number of regularly deforming portions is started. The deformation and separation of the bullet front portion into a predefined number of regularly deforming portions increase with a growing force caused by the pressure of the tissue onto the gradually increasing area of the bullet front portion when passing through the target. The plug (4) is gradually pressed into the opening cavity (3) without affecting deformation of the bullet front portion.

Description

The invention relates to a method of controlled deformation of a sheath-free projectile and to a projectile for introducing the method. The bullet is designed mainly for hunting and for special applications where deformation of the bullet is required.

BACKGROUND OF THE INVENTION

For hunting purposes are used sheathless shells with a cavity in the front part covered by a filling means made of plastic, which at the same time forms the tip of the missile. The cavity has a smooth cylindrical shape which is shaped in the front into a sealing surface between the projectile body and the filler. The shape of the sealing surface is characterized by a conical shape with a sealing surface angle to the longitudinal axis of the missile in the range of 10 to 80 °, preferably about 45 °, or a combination of conical shape with a cylindrical shape parallel to the longitudinal axis of the projectile. missiles or a combination of conical shape with a planar surface perpendicular to the longitudinal axis of the projectile - these solutions are described in EP 1 335 119 Al or a combination of several conical shapes with different angles to the longitudinal axis of the projectile with a cylindrical shape parallel to the longitudinal axis of the projectile 103 17,404 Al. Initial deformation of the projectile is ensured by pushing the filling means in the manner of a wedge into the cavity and in this way the initial opening of the front part of the projectile occurs. Subsequently, the pressure of the tissue on the wall of the ajar cavity deforms the projectile into the final shape.

The disadvantage of this method is that during the initial deformation of the projectile caused by the pressing of the filling means into the cavity, there is an uncontrolled and irregular deformation of the front part of the projectile, which consequently adversely affects the course of the entire projectile deformation. in a plane perpendicular to the longitudinal axis of the projectile. Tissue pressure as it strikes the affected target, which acts on the irregular area of the deformed front of the missile, may cause the missile to effect irregularly, or change the flight path of the missile.

SUMMARY OF THE INVENTION

These disadvantages of this type of missiles are solved and eliminated by a new construction of shell-free missiles with controlled deformation. The invention relates to a method of controlled, predefined deformation of a projectile and to a projectile for implementing the method.

Attached Figure 1 shows a preferred embodiment of the projectile in which the projectile is formed by a base body consisting of a cylindrical body with relief grooves and a front ogival part with a cavity in which a cap is inserted which closes the cavity at the point of contact with the front part of the cavity circle and at the same time creates the tip of the missile, which improves the outer ballistic properties of the missile while preventing the entry of impurities into the cavity. An unfilled space is formed between the bottom of the cap and the front of the cavity. The preferred cavity is formed by an approximately cylindrical portion with a diameter of from 2 to 5 mm, which is shaped at the front into a partially circular shape (R1) formed by one or more interconnected circles with a radius of from 1 to 5 mm, formed longitudinal grooves with a depth of 0.2 to 1.0 mm, parallel to the longitudinal axis of the projectile, extending approximately 2 mm from the bottom of the cavity towards the front of the cavity. The grooves are connected to the front of the bullet with grooves that are shaped into a partially circular shape (R ₂ ), consisting of one or more interconnected circles, with a radius of 1 to 5 mm with a depth of 0,2 to 1,0 mm and continue, they rubbed to the outside. The number of grooves in the cavity ranges from 3 to 8 grooves for practical use, which are regularly spaced around the periphery of the cavity. Desired, predefined and the regularity of the deformation projectile ensures designed shape of the front part of the cavity formed with the grooves formed in a partially circular shape (Ri, _R2) which provides a regular and gradual distribution of the ogival front portion of the bullet to the required number of deforming the bullet. In the preferred cap, the lower portion is formed by a flat perpendicular to the longitudinal axis of the projectile to the outer contour of the projectile.

The bullet body is made by pressing from an alloy of 85 to 95% copper and 5 to 15% zinc and subsequently heat treated by recrystallization annealing to the desired material structure, characterized by the hardness of material HV 2 in the range of 50 to 150. The hardness of the material is determined by the use of the projectile for hunting of different game species or for special use conditions. Deformation properties and missile deformation rate decrease with increasing hardness of the material.

The cap that closes the cavity in the front of the projectile and at the same time creates the tip of the projectile is made of soft metal such as aluminum, copper, etc. or their alloys with better deformation characteristics, characterized by less hardness HV 2 than the basic projectile body.

Attached Figure 2 illustrates a second preferred missile design that differs from that of Figure 1 in the form of a lower cap portion. In the embodiment of Figure 1, the lower portion of the cap is a flat perpendicular to the longitudinal axis of the missile. In the embodiment of Figure 2, the bottom of the cap is formed by a conical surface with an angle α.

The course of missile deformation can be described as follows:

When the missile strikes the target, the cap that closes the cavity and at the same time forms the tip of the missile is pushed into the unfilled space, and because it is made of a softer material than the base missile body does not cause initial deformation of the missile base body. As the cap is pushed into the unfilled space, the area of the front of the cavity, shaped to a partially circular shape (Ri), is gradually exposed to which the tissue of the affected target acts with increasing pressure. At the same time, tissue pressure acts on grooves formed into a partially circular shape (R ₂ ) in the front of the cavity, which in their place weaken the wall of the front of the missile. In these grooves, deformation is initiated and the front portion of the projectile is regularly divided into a predefined number of deforming portions of the projectile. As the tissue pressure increases as the target passes through, the bullet cavity gradually opens and the bullet continues to divide and reshape until its final shape is characterized by the regular shape of the deformed front of the bullet with a predefined number of regularly deformed bullet portions. The rate of deformation of the projectile can be significantly influenced by recrystallization annealing of the projectile base body, characterized by the hardness of the material, the depth and shape of the grooves on the anterior cavity and in the projectile cavity, and the radius of the semi-circular shape of the anterior cavity.

The essence of the solution is evident from the following figures, the proposed solution of the projectile is suitable for cartridges from 5.6 to 12.7 mm caliber.

Clarification of drawings

Figure 1 shows a first preferred embodiment of a shellless missile with controlled deformation, Figure 2 shows a second preferred embodiment of a shellless missile with controlled deformation, Figure 3 shows the beginning of deformation and division of the front part of the bullet cavity, Figure 4 shows a characteristic regular shape missiles after the deformation (as an example missile with six grooves).

-2GB 305087 B6

DETAILED DESCRIPTION OF THE INVENTION

Figure 1 sheathless bullet with controlled deformation 7.62 mm

The casing bullet with controlled deformation of 7.62 mm caliber is, according to Fig. 1, formed by a basic body consisting of a cylindrical body (1) with relief grooves 11 and a front ogival part 2 with a cavity 3, into which is inserted a cap 4, which closes the cavity at the point of contact with the front of the cavity 6 in the shape of a circle 9, while at the same time forming a bullet tip which improves the outer ballistic properties of the bullet while preventing contaminants from entering the cavity. The cavity is formed by an approximately cylindrical part with a depth of 12 mm and a diameter of 2.5 mm, which in the front part 6 is formed into a partially circular shape (Ri) formed by a single circle with a radius of 3 mm. Six longitudinal grooves 5 are formed in the cavity, spaced at regular intervals of 60 ° along the periphery of the cavity with a groove depth of 0.50 mm, which in the front of the cavity 6 are shaped into a partially circular shape 7 with a radius of 3 mm. An unfilled space 8 is formed between the bottom of the cap 10 and the front of the cavity 6. The missile base body is recrystallized annealed.

Industrial use

The sheath-free missile with controlled deformation in accordance with this technical solution can be produced by a conventional method used in the production of missiles, especially by pressing or chip machining and subsequent heat and surface treatment. The actual laboratory of this projectile is performed on common technological equipment for the laboratory of ball, pistol and revolver cartridges.

PATENT CLAIMS

Claims (15)

1. Sheath-free controlled deformation bullet, comprising a cylindrical body (1) of a bullet with relief grooves (11) and a front ogival part (2) with a cavity (3) in which a cap (4) is inserted, characterized in that the cavity (3), which is formed by an approximately cylindrical shape with longitudinal grooves (5), is shaped at the tip to the front of the partially circularly shaped cavity (6) in which the longitudinal grooves (7) with partially circular shape are formed, (4) closes the cavity at the point of contact with the front of the cavity (6) in the shape of a circle (9), while creating a bullet tip which improves the bullet external ballistic properties while preventing dirt from entering the cavity; an unfilled space (8) is formed in the front part of the cavity (6), into which the missile (4) is partially pushed when the missile hits the target without deforming the front of the missile, thereby partially releasing the front of the cavity (6) with the grooves (7) to apply tissue pressure to the affected target on the front of the cavity, starting to deformation and periodically dividing the front of the missile into a predefined number of regularly deforming parts , the deformation of which increases with increasing force exerted by the pressure of the tissue on the gradually increasing area of the anterior portion of the missile (6) as it passes through the target, the cap (4) being gradually pushed into the opening cavity (3). Sheath-free bullet according to claim 1, characterized in that the front part of the cavity (6) is formed into a partially circular shape R1 formed by one or more interconnected circles up to the outer contour of the bullet. Sheath-free bullet according to claim 2, characterized in that the radius of the circle of partially circular shape R _t is from 1 to 5 mm. -3GB 305087 B6 Sheath-free bullet according to claim 2, characterized in that longitudinal grooves (7) spaced regularly around the periphery of the cavity (6) are formed in the front part of the cavity (6) and are shaped into a partially circular R ₂ shape formed by one or more interconnected circles. up to the outer contour of the projectile, which adjoins the grooves (5) in the cylindrical part of the cavity (3) up to approximately 2 mm from the bottom of the cavity. Sheath-free bullet according to claim 4, characterized in that the radius of the circle of partially circular shape R ₂ is from 1 to 5 mm. Sheath-free bullet according to claim 4, characterized in that the number of grooves (7) and (5) for practical use ranges from 3 grooves to 8 grooves. Sheath-free bullet according to claim 4, characterized in that the depth of the grooves (7) and (5) ranges from 0.1 to 1.0 mm. Sheath-free bullet according to claim 2, characterized in that the depth of the cavity (3) is from 30 to 40% of the total length of the basic projectile body. Sheath-free bullet according to claim 2, characterized in that the diameter of the cavity (3) is from 2 to 5 mm. Sheath-free bullet according to claim 2, characterized in that the lower part of the cap (10) is formed by a plane perpendicular to the longitudinal axis of the bullet and an angle α is 90 °. Sheath-free bullet according to claim 2, characterized in that the lower part of the cap (10) is formed by a conical surface at an angle α to the longitudinal axis of the bullet. Sheath-free bullet according to claim 12, characterized in that the magnitude of the angle α ranges from 45 to 90 °. Sheath-free bullet according to claim 2, characterized in that the cover (4) is made of a soft metal such as aluminum, copper or alloys thereof so as not to affect the bullet's decomposition. 14. The shell according to claim 2, wherein the base body is made of an alloy of 85 to 95% copper and 5 to 15% zinc. 15. The sheath-free bullet according to claim 15, characterized in that the bullet body is recrystallized annealed to a soft structure of material having a hardness HV 2 = 50 to 150.