DE4130455A1 - Missile with distorting casing providing improved internal ballistic characteristics - has concave-ended heavy metal filling bearing against mating internal partition - Google Patents

Abstract

The missile has a one-piece casing of tough distorting material with a cylindrical rear guiding portion with a wall thicker than the rear one. At the front it has an ogival head with wall decreasing in thickness towards the tip. The guiding portion is filled with heavy metal, and is sepd. from the filling in the head, tearing the casing open on impact by a partition concave towards the head. The partition is secured to an internal bead where the guiding portion joins the head, and the heavy-metal filling is of truncated cone shape and completely fills the rear portion, having a concave-cone end face bearing against the partition. The head-filling is of non-poisonous fine tin. The wall of the head tapers sharply towards the tip, and contains four fracture points on the inside. ADVANTAGE - Improved internal ballistic characteristics, and more than two-thirds remain together.

Description

The invention relates to a hunting bullet of the deformation category. The bullet jacket made of tough-deformable material with known, cylindrical guide part is preferred thick-walled and runs towards the ogival tapering head partly thin-walled. The cylindrical guide part is filled with a relatively hard, but still elastic, heavy metal, preferably hard lead. In the area of the transition to the tapered headboard is a conical partition arranged, which in the direction of the projectile head against a supports bead formed to the projectile axis. The bullet head is With an easily deformable, homogeneous spreading agent filled, preferably fine tin. The inside of the floor head wall is provided with four predetermined breaking points, which in the event of an impact due to the spreading at the tip of the floor being low protruding spreading a tearing and spreading the projectile head wall causes and the predetermined breaking points absolutely symmetrical rolling up of the four bullet head flags guaranteed. The wall tapering to the top of the floor of the projectile jacket in the area of the projectile head causes a spiral-shaped rolling of the to the tail tail increase sharply the shell.

Deformation bullets of this type are preferably used for hunting used on stronger game and their effect is to that by penetrating the projectile into animal  Tissue-like expansion of the projectile head a strong enlargement of the firing channel and with it associated energy release to the game body occurs leads to the immediate killing of the game. However, in contrast to so-called dismantling floors, the floor to keep and cohesion and thus its mass cause no splintering effect, on the one hand to achieve high penetration rates in the game body, which the desired shock effect of the central nervous system effected, and on the other hand by "ram horn-like" rolling up the projectile head flags to a resilient and symmet rical spreading of the projectile head leads and thereby one enlarged shot channel compared to the bullet guaranteed and at the same time the re-emergence of the deformed projectile from the game body.

From DE-OS 22 28 733 a hunting projectile is mentioned at the beginning ten deformation class known, the projectile body, apart of the in a cylindrical bore in the top of the floor ordered expansion agent filling, consists of solid tombac. The tombac rod material that can be used for this is sufficiently hard to manufacture the bullet on an automatic To enable lathe and at the same time deposits through To prevent friction in the gun barrel. With correspondingly hard Material and such a massive projectile body, is the adaptation to the profiled inner contour of the barrel bad and leads to extreme impairment of the interior ballistic Properties of such bullets. The high pressure in the barrel leads to a significant loss of energy and has the consequence that no optimal muzzle velocity is reached, which in turn, impaired external ballistics in relation to flight track values and effect in the game body.

From DE-OS 36 38 721 a deformation floor is known, the Storey body one from the top to the level floor has a continuous recess in which a rear lead core and a front core made of non-lead material are not. An inner jacket surrounding the rear core is included the outer jacket hooked by at least one indentation and  is to prevent the rear core from impacting the projectile it is thrown out to the front. However, it does appear highly questionable that a positive interlocking of this type and dimensioning the forces that occur during the projectile impact withstand and securely hold the rear lead core. Rather, it is a complete disassembly of this floor expect.

From GB-A-30 03 420 a so-called two-chamber projectile is known, which, however, cannot be classified in the class of the deformation projectiles, because about 40% of the mass, the entire projectile head filling ( 12 ) of the front projectile chamber, in the Wild bodies are spread apart, as is also clearly shown in FIG. 4 of the application.

The mass distribution of the two fillings is also unfavorable, because the front bullet head filling has the greater mass compared to the smaller, rear filling in the cylindrical Guide part. Furthermore, the H-shaped formation of the Partition between the front and rear floors Chamber for increased pressure in the barrel, what inside and outside ballis table disadvantages and also the extreme material accumulation of the partition wall for an adverse extension of the bullet at nominal weight compared to other bullets, preferably the present invention leads.

task

The invention has for its object a deformation floor of the type mentioned in such a way that it improved to have optimal internal ballistic properties that at good deformability of the cohesion of most of the Projectile mass of more than two thirds remains guaranteed Bullet length at nominal weight compared to known bullets remains almost comparable and the manufacture of the projectile in well-known and widespread deep-drawing technology and forming technology is possible.

In a further embodiment of the invention, a method is also intended be created for the manufacture of a projectile of this type,  which enables both through well-known forming technology a safe precaution to maintain the projectile mass by Be consolidation of the rear lead core in the area of the cylindrical To create guide part, as well as the arrangement of target breaks on the inside of the tapered storey jacket wall to the top of the projectile head to an abso lut symmetrical and ram horn-like rolling up the floor Head flags on impact and when penetrating the game to reach the body.

solution

To achieve the object, the invention relates to a defor Mations hunting bullet of the type mentioned, which thereby is characterized in that the cylindrical guide part of the Bullet jacket one of the strains of today's high performance and Magnum cartridges have solid wall thickness, which extends to the top of the floor in the head part of the floor the ogival projectile head outer shape towards the tip strongly ver tapers and through a conical intermediate wall, which by means of a solid bead after insertion of the cavity Projectile tip directed intermediate wall against flinging out is secured.

By arranging a filling made of heavy metal, preferably Hard lead is used in conjunction with the solid bullet jacket from tough-deformable tombac, it is achieved that the one hand absolutely necessary transverse elasticity of the cylindrical guide tion part to the profiled barrel wall is guaranteed, such as the equally important stability of the rear floor part in relation which occur when the projectile strikes and spreads the forces, which are called cross-sectional loads, those known bullets, especially if they are from Magnumpa bullets are shot, not sufficiently solid are.

The tapered and novel intermediate according to the invention wall is advantageous with the convex side, i.e. the tip admittedly directed towards the rear of the projectile. This is one hand  ensures that when mass movement forces occur rear hard lead core an expansion directed towards the projectile jacket effect occurs, which of the accordingly solidly designed Guide part due to its closed circular function Spreading effect of the conical partition safely countered and thus the cohesion of the floor and retention of the geometric Cylinder shape of the rear floor part causes.

According to the invention by the arrangement of the tapered partition with the concave, i.e. the conical interior to the top of the floor hin, achieved that a sufficient filling of spreading agent can be arranged in the projectile head to tear open the To cause bullet tip or the tapered tombac jacket.

The preferred method according to the invention for producing the Bullet is that the bullet jacket in known and manufacture deep drawing technology widely used in the industry bar and the load-proof hooking of the tapered partition wall is reached by a solid inner bead, which after Introducing rear hard lead with a concave face and form-fitting, conical partition, through cold forming the inside of the projectile jacket is created. Such material Shifts in tombac materials are known and will be according to the invention in the course of the final phase of the projectile production integrated within the transfer tool. The corresponding Internal molding tool to displace the existing in the projectile head NEN amount of material for the inner bead is at the same time four outer notches, which the four predetermined breaking points Notch on the inside of the bullet head wall.

Embodiments of the invention are based on the drawings explained in more detail. It shows:

Fig. 1 shows a longitudinal section through an inventive bullet of the deformation category.

Fig. 2 shows a longitudinal section through a jacket deformation projectile according to the invention in four deformation phases of the projectile head flags for ram horn formation.

Fig. 3 shows a longitudinal section through a jacket deformation projectile according to the invention in the deformed final stage with significantly more than two-thirds of residual mass and with retained projectile guide part geometry, as well as symmetrically rolled, ram horn-like projectile head flags.

Fig. 4 shows a longitudinal section through a projectile jacket according to the invention in known deep-drawing technology.

Fig. 5 shows a longitudinal section through the projectile jacket according to the invention with already inserted rear hard lead core with a concave forehead shape, as well as the positively inserted, conical partition wall.

Fig. 6 shows a longitudinal section through the projectile jacket according to the invention after deformation of the inner bead for hooking the conical partition.

The projectile shown in Fig. 1 has a projectile jacket ( 1 ) which is made in one piece from tough-deformable tombac and is manufactured in known deep-drawing technology. The projectile jacket ( 1 ) is made in the area of the cylindrical guide part over the length (L- 1 ) with respect to the wall ( 1 a) of the storey floor, slightly thick-walled. The wall ( 1 b) of the projectile head tapers towards the projectile tip and is equipped on the inside with four predetermined breaking points ( 1 c). The cylindrical part of the projectile jacket is filled with a hard lead core ( 2 ), the end surface of which is directed towards the floor of the storey and is shaped like a truncated cone, positively to the rear of the projectile jacket, and the end face directed towards the projectile is conical, concave, into which the conical partition 3 ) is arranged positively.

After the introduction of lead core (2) and dividing wall (3) molded by material displacement inner bead (1 d) pushes the partition wall (3) to the concave-tapered Stirnausformung of the lead core (2), thereby preventing an ejection of the rear lead core (2) upon impact of the projectile and ultimately stops the rolling up of the ram horn-like projectile head flags ( 1 e), as shown in FIG. 2. The outer shape of the floor resembles known shapes.

The deformation phases shown in Fig. 2 show that the formation of the ram horn-like projectile flags ( 1 e) is introduced by the increasing projectile head wall ( 1 b) because the increase in wall thickness compared to known projectiles is more extreme, analogously the thicker wall in the region of the cylindrical guide part (L 1 ) of the shell ( 1 ). The support ( 1 f) of the rolled-up and ram-horn-shaped projectile head flags ( 1 e) on the cylindrical guide part of the solid projectile jacket ( 1 ) guarantees the desired increase in cross-section of the deformed projectile, even with large game.

Fig. 3 shows the desired cross-sectional enlargement (D 2.5) with the solidly formed and supported on the projectile body ram horn-like projectile flags ( 1 e) and a remaining in front of the partition ( 3 ) rest of the front expansion agent filling ( 4 a) made of fine tin . The cohesion of the projectile jacket ( 1 ) with the rear lead core ( 2 ) and tapered partition ( 3 ) and keeping the cylindrical geometry of the guide part (L 1 ) and the solid, ram-horn rolled projectile head flags ( 1 e) and in cooperation with the inner bead ( 1 d) ensure the overall conical-concave funnel formation of the deformed projectile and a safe remaining expansion material filling ( 4 ) with a not inconsiderable residual mass ( 4 a), which ultimately leads to the desired very high residual weight of the deformed projectile.

Fig. 4 shows the deep-drawn shell jacket (1) arranged with a in the upper region, step-like material accumulation (1 g) for the subsequent shaping of the inner bead (1 d).

Fig. 5 shows this projectile jacket ( 1 ) with the inserted rear lead core ( 2 ) and the inserted partition ( 3 ), which is positively positioned in the conical-concave face shape. The accumulation of material ( 1 g) in front of the inner bead ( 1 d) to be formed is indicated by dashed lines.

Fig. 6 shows the shell jacket (1) with the clothing by Materialverdräng the accumulation of material (1 g) shaped inner bead (1 d) in front of the partition wall (3).

The front of the inner bead (1 d) in the direction of projectile head sharply tapered bullet head wall (1 b) (d 1) to the inner bead, the same wall thickness as the cylindrical guide portion of the shell jacket (1) and straight-conically tapers upwards to Projectile head towards a very thin wall. The four predetermined breaking points ( 1 c) are notched on the inside of the projectile head wall ( 1 b) by the die for the inner bead.

Fig. 1 then shows that after inserting the front expansion agent filling ( 4 ) ready-made projectile with internal bead ( 1 d) and tapered partition ( 3 ) with an externally smooth shape.

The equipped with deformation bullets according to the invention Ammunition has the advantage of one over known ammunition extremely high projectile residual weight, with optimal interior and External ballistics, as well as extreme depth and shock effects more than two-thirds floor weight and preprogrammed deformation behavior due to 4 predetermined breaking points on the inside the projectile head wall, as well as the performance class of the propellant Cartridges of the same caliber are loaded by a corresponding diffe limited bullet jacket wall in the guide part of the Bullets.

The process for producing the deformation according to the invention bullets are advantageously different from known ones Procedure for deformation projectiles in such a way that the projectile jacket can be produced in known deep-drawing technology, so it is very expensive is cheap, and which is important for the cohesion of the projectile same inner bead and tapered partition in the final production phase are meaningfully integrated and through transfer forming technology if it can be carried out economically and without problems.

Claims (10)

1. Mantle projectile of the deformation category with a one-piece projectile casing made of tough-deformable material, which is thicker in the rear, generally cylindrical guide part than the bottom wall in the rear part and has a front head part that tapers ogival to the projectile tip with the projectile head wall tapering towards the projectile tip, and is equipped with a heavy metal filling in the cylindrical guide part, which is separated by means of a conical - concave to the projectile point - separating wall from the expansion agent filling arranged in the projectile head for tearing open the projectile head wall on impact, characterized in that in the area of the transition from cylindrical guide part the projectile jacket ( 1 ) in the ogival shaped and tapered projectile head, on the inside a bead is arranged, which is designed to form a conical partition ( 3 ), the rear heavy metal filling ( 2 ) like a truncated cone and in a form-fitting manner fills the rear of the projectile and which has a conical-concave forehead shape at the tip of the projectile to form the form-fitting arrangement of the partition ( 3 ), an expansion agent filling ( 4 ) made of non-toxic fine tin is arranged in the projectile head and the projectile head wall ( 1 b ) tapers sharply to the top of the floor and has 4 predetermined breaking points ( 1 c) on the inside. 2. Projectile according to claim 1, characterized in that the partition ( 3 ) is made of the same tough-deformable material and has a preferably conical, or truncated cone-like, or also hemisphere-like geometry in order to optimally avoid the transverse loading of the projectile jacket that occurs during the passage to be able to compensate to ensure the best possible indoor ballistics. 3. Projectile according to claim 1, characterized in that the partition ( 3 ) in its wall thickness is preferably made thinner than the projectile jacket wall in the region of the guide part. 4. Projectile according to claim 1, characterized in that the partition ( 3 ) is guided on its outer circumference from cylindrical, preferably has a cylindrical form fit to the inner wall of the projectile jacket up to half the wall thickness and with a slight press fit in the cylindrical projectile jacket can be introduced. 5. Projectile according to claim 1, characterized in that the partition wall ( 3 ) characterized by claim four with cylindrical held form-fit to the projectile jacket, towards the projectile tip towards the projectile axis has support surfaces in the size of half the wall thickness, which form-fitting to the inner bead ( 1 d) are trained. 6. Projectile according to claim 1, characterized in that the projectile jacket wall ( 1 ) in the region of the cylindrical guide part (L 1 ) is thicker than the projectile rear wall ( 1 a). 7. Projectile according to claim 1, characterized in that the projectile jacket wall ( 1 ) in the region of the cylindrical guide part (L 1 ), in its wall thickness can be different, analogously different target loads by corresponding end different flight speeds, resulting from different propellant charge sets of different cartridges of the same caliber. 8. Projectile according to claim 1, characterized in that the arrangement of the inner bead ( 1 d) and analogous to the partition ( 3 ) can also be arranged more in the direction of the rear of the projectile or optionally more in the direction of the projectile tip. 9. ammunition with deformation projectiles according to claim 1, characterized in that the used Projectiles with jacket deformation bullets according to the invention one-piece shell made of tough-deformable material are which in the area of the cylindrical guide part on the propellant charge strength of the cartridges of the same caliber have matched wall thickness, which compared to the Wall of the tailgate is more strongly formed on the inside side of the projectile jacket, preferably in the area of the transition an internal bead to the ogival, tapering projectile head is arranged, against which one is preferably conical shaped partition supports, the concave hollow side of the projectile tip is facing, the projectile head wall taper strongly and on the inside with four Predetermined breaking points for symmetrical and ram horn-like Missile head flag formation is equipped. 10. Process for the production of jacket deformation bullets according to claim 1, characterized in that the bullet jacket manufactured in known deep-drawing technology, in Framework of the final production phase by means of a modern transfer order molding technique and after inserting the rear filling core form-fitting, conical partition made of tough-deformable Material is introduced, which is then by means of material ver internal bead formed from the projectile head wall pressed towards the tailgate on the rear panel and mechanically against the inner bead that forms Position change in the direction of the top of the floor is secured.