PT2012083E - Projectile for handgun ammunition - Google Patents

Description

ΡΕ2012083 1

DESCRIPTION " PROJECTILE FOR HAND GUN AMMUNITION " The invention relates to a handgun ammunition projectile with a metal core, which is at least partially enveloped by a plastic sheath, according to the preamble of Claim 1. Prior Art

A projectile of the aforementioned type is known from US 2007/089629, which is a starting point for the present Claim 1, for which a partial plastic projectile sheath is provided, which is inserted into an aperture formed in the core between and by means of two shoulders. In this case, the known projectile should fragment through break lines and exhibit improved penetration behavior in solid lines.

Another projectile of the above-mentioned type with a partial plastic projectile sheath which is bounded at the tip of the projectile by a shoulder which increases the diameter of the core is known from EP 1 186 851.

From DE 15 78 209 to Rheinmetall GmbH, 2 ΡΕ 2012083 a disintegration projectile for training cartridges for handguns or machine guns with a plastic projectile sheath surrounding it is completely known and a projectile filler consisting of a heavy powder in that a reinforced plastic base cap is provided in the region of the base of the projectile sheath.

From DE 102 09 035, a projectile with a plastic sheath is known. The metal core has an annular groove within which the injected plastic material penetrates during manufacture and has a stabilizing effect. The tip of the projectile's metal core is not enveloped and allows the projectile to flatten on impact with a target.

From EP 1 209 437, there is known a propulsion projectile, which sub-sieve disintegration penetrator comprises a plastic sheet and a metal core, wherein the plastic sheath is opened towards the tip of the projectile and the metal core it protrudes beyond the sheath.

From EP 0 907 680, high density composite materials, in particular provided for use in munitions, are known, consisting of a metal powder and a binding agent, in particular a polymeric binding agent, wherein the metal powder article has a size distribution between 2 and 40 microns and consists of metallic tungsten. 3 ΡΕ2012083

The known projectiles have in common an advantageous polymer drum protecting plastic coating and a metal core to increase the weight of the projectile, in particular to maintain a repeat function even for training ammunition and for preserving the dielectric effect of the ammunition which they are not training

Summary of the Invention

Based on this prior art the object of the invention is to specify a projectile which exhibits reduced energy or non-flattening behavior on impact and is also easily fragmented to avoid ricochets when hit hard targets. The object is achieved in accordance with the invention for a projectile of the aforementioned type with the features of Claim 1. The provision of a plastic sheath which is tightened towards the tip of the projectile avoids the separation of the sheath from the core of metal on the barrel of the handgun. There are fewer deposits in the pipe. Through the provision of shoulders, a good gas supply is achieved. The fragmentation grooves, in particular the lower transfer groove, ensure the fragmentation of the projectile into an impact with a hard surface, from which a rebound of the projectile is expected. At the same time, these grooves allow better attachment of the sprayed plastic sheath to the core, which can alternatively be achieved by pre-filling the grooves with an adhesive. The plastic sheath may be sprayed onto the core or may be prefabricated, in particular a molded plastic sheath may be tightened against the metal core, whereby the stop shoulder provides a hold. The metal core of steel, copper, tin, tungsten or alloys of these metals allows the manufacture of a lead-free projectile of suitable weight.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is hereinafter described in detail using an embodiment of the invention in association with the accompanying drawings. These show:

Fig. 1 is a perspective view of a projectile according to an embodiment of the invention,

Fig. 2 is a bottom view of the projectile according to Fig. 1, and Fig.

Fig. 3 is a partial cross-sectional view and a side view along the line III-III of Fig. 2. 5 ΡΕ2012083

Detailed Description of the Invention Fig. 1 shows a perspective view of a projectile 1 according to an embodiment of the invention. The dimensions of the projectile 1 can be configured for various handgun ammunition, in particular for various gauge guns and shotguns. The projectile 1 is in two parts, which consist of two different materials. The plastic sheath is provided with the reference numeral 10. It may be a thermoplastic material, in particular having a high melting point and harder material, for example polyoxymethylene, polyamide, polycarbonate, acrylic resins, polyacrylates, polyester ketones, polyaryl polybenzimidazoles, polybutylene terephthalate, polyester imides, polyester sulfones, polymides, polyphenyl sulfides, polyethylene, polypropylene, polysulfones, polyvinyl chlorides, polystyrene, polyphenylene. It may also be a nylon material. Advantageously it is a material that can be sprayed. The metal core is provided with the reference character 20. The metal core 20 may be a metal part turned or molded or may be a sintered core. It may consist of steel, copper, tin or tungsten or alloys of these metals. The metal core has a base 22 which in this case is flat. This is contiguous to a cylinder section 21 near the base. This has a diameter close to the diameter of the striatum field. A diameter close to the diameter of the striatum field means, for example, for a 9 mm projectile of a hand weapon, 8.82-0.1 = 8.72 mm. For a 5.6 x 45 mm with a nominal projectile diameter of 5.68 mm the diameter of the cylinder section may be 5.56-0.1 = 5.46 mm. The cylinder section 21 may be 3 mm in order to allow automatic closure for automatic assembly of the projectile or encapsulation. Fig. 2 shows a bottom view of the projectile according to Fig. 1 with a line III-III referring to Fig. 3; Fig. 3 shows a partial cross-sectional view and a side view along this line III- III of Fig. 2.

A radial stop shoulder 25 is contiguous to said cylinder section 21 which is close to the base, whereby the diameter for the inner cylinder section 26 is reduced to, for example, 4 mm. The stop shoulder 25 has a transfer groove 24 near the base, the depth of which may be between 0.3 mm and 1 mm, where this value of e.g. 0.4 or 0.5 mm is chosen depending on the energy of the projectile on target. The plastic sheath 10 is molded around the inner cylinder section 26. With the exception described in 7 ΡΕ2012083 thereafter, it has an essentially uniform thickness, which falls in the small gauge range, for example 0.75 mm. This allows a high utilization of the volume available for the metal core 20 along the projectile length of 21 mm in this case. Advantageously, the use of the volume of the core 20 is at least 80% of the total volume of the projectile. The metal core 20 has in this example two other fragmentation grooves 23, which are located at a distance of about 5 mm from each other. In the drawing of Fig. 2, the fragmentation grooves 23 and the transition groove 24 proximate the base are filled with an adhesive. These may also be filled by the plastic material during injection molding of the plastic sheath 10.

The grooves 23 and 24 are shown as striations. They may also be rectangular or rounded grooves. They may be cut or produced by printing in order to prepare the preferred break points by introduction of tension. The plastic sheath 10 has a conical tip 11, for example with a cone angle of 75 degrees, which then merges with a steeper conical section 12 at an angle of e.g. 30 degrees in a width that approximately corresponds to the diameter of the core of metal 10. The diameter of the first front cylinder section 13 is ΡΕ2012083 5.5 mm for the small gauge projectile shown here with a tolerance for a smaller diameter of less than 0.5 percent. For this cylinder section 13, this results in an overall diameter of the core 20 and the plastic sheath 10 in the region of the diameter of the gage of the scored field of a corresponding handgun barrel. Indeed, said diameter should be slightly less than the diameter of the striated field of the barrel of the corresponding gauge. In this way it can be inserted into the chamber without force, whereby the cylinder section 13 becomes in the section of the barrel after the transition cone (which already has a groove / groove profile). All this results in the maximization of the volume or mass of the projectile.

Approximately halfway through the projectile 1, seen here at 11 mm from the base 22, the first cylinder section 13 ends and merges via the step 15 with the second larger diameter cylinder section 16. Here the purpose is a length of guiding force and a suitable projectile pulling force, limited by the overall length of the cartridge, which arises from the need for compatibility with the cartridge. The diameter of the second cylinder section 16 for the small gauge projectile shown is 5.75 mm with a tolerance for a smaller diameter or less than 0.4 percent. This ensures that this diameter corresponds at least to the nominal diameter of the gauge of the groove of a corresponding handgun barrel. The sheath for the projectile 1 may in a known manner be tightened in the cylinder section 21 proximate the base or optionally assembled using adhesive or provided with a metal core encapsulation 20 with thermoplastics. The plastic sheath 10 may be sprayed onto the metal core 20 or a separately manufactured plastic sheath may be tightened onto the metal core 20. During this process, the tip 11 of the sheath 10 or the conical section 12 may be provided with an axial channel for the tip), radial or inclined (for the conical section) for exhausting compressed air into the sheath 10.

With proper dimensional changes, this projectile 1 can be used for ammunition of a variety of handguns. 10 ΡΕ2012083

List of Reference Numbers 1 projectile 10 plastic sheath 11 conical tip 12 conical section 13 first section of cylinder 14 second section of cylinder 15 step between cylinder sections 16 recessed conical transition 20 metal core 21 cylinder section proximate base base 22 of bullet 23 splitting grooves 24 transition groove in base 25 stop shoulder 26 inner cylinder section

Lisbon, August 7, 2012

Claims (6)

Cartridge (1) for small arms ammunition having a metal core (20), which is at least partially surrounded by a plastic sheath (10), wherein the metal core (20) forms the base (22) of the cartridge and comprises a cylinder section (21) proximate the base with a diameter close to that of the score field and an inner cylinder section (26) of smaller diameter contiguous thereto towards the nose of the cartridge, wherein a shoulder of (25) is provided at the transition between the cylinder section (21) having a diameter close to that of the striatum field and the inner cylinder section (26) having a smaller diameter, wherein the plastic sheath (10) surrounds only the inner cylinder section (26), wherein the cylinder section (14) adjacent the cylinder section (21) proximate the base has an overall diameter which is at least equal to the nominal diameter of the carcass housing having the gauge of a drum of and a suitable hand weapon, and wherein at least two grooves (23, 24) are provided in the inner cylinder section (26), characterized in that the metal core (20) is formed by a part, said section of the inner cylinder 26 which is contiguous thereto in the nose direction of the cartridge has a constant diameter along the entire length of the cartridge to the nose of the cartridge and that the cartridge has a diameter smaller than the diameter of the cylinder section 21 ) that the plastic sheath (10) entirely surrounds the inner cylinder section (20) and engages the nose (11) of the cartridge, and that the grooves provided in the inner cylinder section (26) are fragmentation grooves (23, 24) which are filled either with material from the plastic sheath (10) or with an adhesive material. Cartridge (1) according to claim 1, characterized in that the plastic sheath (10) is sprayed onto and fills the fragmentation grooves (23, 24) in the process. Cartridge (1) according to claim 1, characterized in that the fragmentation grooves (23, 24) are filled with an adhesive material, which adheres to the plastic sheath (10) which is subsequently sprayed onto the core ( 20, or to the prefabricated, in particular molded, plastic sheath 10, which is subsequently tightened in the metal core 20 to the stop shoulder 25. A cartridge (1) according to any one of claims 1 to 3, characterized in that the cylinder section (14) adjacent to the cylinder section (21) proximate the base extends approximately towards the center of the cartridge and is followed by another cylinder section (13), wherein the total diameter of this cylinder section (13) comprises the core (20) and the plastic sheath (10) and is in the range of, in particular slightly less than, nominal diameter of the cylinder striated gauge corresponding to barrel 3 ΡΕ2012083 of a hand weapon. Cartridge (1) according to any one of claims 1 to 4, characterized in that the radial stop shoulder (25) also comprises a transition groove (24) which is formed in the inner cylinder section (26) . Cartridge (1) according to any one of claims 1 to 5, characterized in that the metal core (20) consists of steel, copper, tungsten or alloys of these metals and / or is sintered. Lisbon, August 7, 2012