DE102011100788A1 - Projectile, in particular explosive projectile - Google Patents

Abstract

A mass bullet or the like is proposed, in particular an explosive bullet (10) with a fragmentable projectile casing (1), having a hydraulic system (2) consisting of a piston (3) with a piston head (4) and a counter bearing (5). The counter bearing (5) is designed so that it absorbs a hydraulic fluid (6) and is integrated between a projectile tip (9) and a projectile end, in the case of an explosive projectile at least in the area (1.1) of the fragmentable projectile casing (1). The diameter of the piston (3) is smaller than the diameter of the piston head (4) and the diameter of the counter bearing (5) is smaller than that of the piston (3). As a result, the secondary effect of a penetrator or projectile (8) is significantly increased by using a pressure increase in the impact pressure as a result of a hydraulic transmission ratio caliber area / liquid column area. This principle is only used during the penetration process to reinforce the broad impact in the target. Alternatively, it can also be used with a pure explosive projectile (10) without a penetrator (8).

Description

The invention is concerned with a hydrodynamic (explosive) projectile, in particular with a concrete-refractive ammunition or a penetration projectile with a high secondary effect with regard to the avoidance of collateral damage due to blast action and dispensing with detonators. As a result, optimal pre-tube safety is achieved in addition. To increase the effect in the target, a hydraulic system is integrated.

A well-known explosive round shows the DE 10 2005 050 973 A1 on. Another is the one DE 10 2007 001 998 A1 removable. With the DE 10 2008 010 707 A1 In addition, an explosive projectile and a method for its production is disclosed. All are based on explosives. However, explosive-based ammunition has the disadvantage that it develops a high blast effect and, associated with this, the generation of collateral damage. In connection with detonators also arise the problem of Vorrohr- and Überflugsicherheit and the long-term danger in ignition and hit failure (dud). The purely KE-based ammunition have the disadvantage of a high launch weight and a limited effect.

Here, the invention has the object to show a projectile, especially an explosive projectile, which avoids collateral damage by blast effect, etc.

The object is achieved by the features of claim 1. Advantageous embodiments are listed in the subclaims.

The invention is based on the idea of integrating a hydrodynamic system instead of an explosive charge into the projectile.

Hydraulic applications in projectiles have been known in the literature for many years. That's how it deals GB 572,732 with the integration of a hydraulic medium in a projectile. By lowering a piston, this liquid is constricted and pressed against the armor piercing means, which is thereby pressed against a projection. A projectile with a hydraulic cylinder describes the US 6,675,718 B1 , This is located in the head part of the projectile.

Now, however, a new mode of action is proposed which, inter alia, substantially increases the secondary effect of a penetrator or projectile by using a pressure increase of the impact pressure as a result of a hydraulic transmission ratio caliber surface / liquid column surface. This principle is used only during the penetration process to enhance the broad effect in the target. Alternatively, the possibility of use but also in a pure explosive projectile without penetrator.

For this purpose, a working floor is combined with a hydraulic system. Upon impact with a fixed target, the impact force of the primary missile is transmitted to an internal tappet piston, which is in an abutment of the projectile, which with a hydraulic fluid such. B. water is filled, driven. The liquid envelope or the anvil is designed so that it tears at a defined pressure increase and fragmented. These radially accelerated fragment chips then produce the intended secondary effect during the primary penetration process. This effect can be further enhanced if the space between the bullet casing and liquid column casing is additionally filled with chips. Furthermore, this liquid energy outbreak can be used as a drive principle for sub-projectiles. The hydraulic effect can also be used as a brake spring post-acceleration for penetration. For this, the compressibility of liquids present in the considered pressure range is utilized. It is also possible a correspondingly designed spring or the mechanical use of the wedge effect for disassembly of the shell.

The advantages of this concept are that, in addition to the normal action of a bullet type (design of the bullet tip, eg as FAP or PELE type), an all-around secondary effect is achieved. The overall effect is stronger than with an explosive projectile, but without HE and without detonator. The principle is caliber-independent, reinforced in the larger caliber range> 40 mm, and applicable for all working bullets at MK, PzK, PzH but also GMW, mortars, Pz-fist, rockets and bombs. The basic principle enables a simple, application and functionally reliable as well as inexpensive ammunition design.

The use of such a type of bullet is particularly useful for semi-hard and bulkhead targets as well as for breaking concrete walls.

The design of a projectile based on this principle of hydraulic pulse amplification can be very flexible. Thus, the hydraulic fluid can be designed according to a desired compressibility. In addition to a HE bullet head liquid propellants / explosives (with less blast effect than explosives) or corresponding gels can be used.

Overall, this principle of hydrodynamic action can be purely kinetic Design energy-based projectile that acts like an explosive-based projectile without the negative properties of the explosive and does not require any electric / electronic detonators. Accordingly, it can be designed easily, functional and safe to use as well as cost-efficient. The ammunition design is possible both as a full-scale and as a sub-caliber projectile on a KE basis as a HDKE projectile or as an enhancement of an HE effect as an HDHE projectile.

The concept presented here provides that the piston (plunger) and in particular the piston head is structurally firmly connected to the projectile wall and thus forms a closed system, so that the hydraulic system during inception and flight is inactive and is activated only on impact. In particular, no volume change of the liquid occurs during the firing process.

Proposed is a balancing projectile or the like, in particular explosive projectile with a fragmentable projectile casing, comprising a hydraulic system consisting of a piston with a piston head and an abutment. The anvil is designed so that it receives a hydraulic fluid and between a projectile tip and a bullet end, in an explosive projectile at least in the region of the bursting bullet casing, is involved.

Reference to an embodiment with drawing, the invention will be explained in more detail.

It shows:

1 a projectile with a hydraulic system,

2 the compression behavior of different liquids and liquid explosives under pressure.

A conventional working floor 10 with a projectile shell 1 , such as AP, FAP or ABM (also unprogrammed) comes with a hydraulic system 2 combined. The hydraulic system 2 consists of a pestle or piston 3 with a piston head 4 as well as an abutment 5 that is a hydraulic fluid 6 receives. The hydraulic system 2 , in particular the counter bearing 5 , is at least in the field 1.1 the fragmentable bullet casing 1 involved. A projectile used here 8th is designed so that the impact of the primary missile 8th on a (fixed) target (not shown) a reaction force against the projectile internal piston head 4 is exercised. Alternatively, a projectile can be omitted if it is a pure explosive projectile. Then the piston head forms 4 for example, directly the projectile tip 9 , The acting force becomes the piston 3 in with a hydraulic fluid (such as water) 6 filled counter bearing 5 of the projectile 1 driven, with the counter bearing 5 shatter and the projectile shell 1 in the area 1.1 tears.

The effect can be increased if between the projectile shell 1 and the counter bearing 5 a splinter material 7 is provided. This then becomes with the tearing of the counter bearing 5 accelerated.

To realize a good function of the projectile 1 in the target is provided that the diameter of the piston 3 (ie, whose inner diameter) is correspondingly smaller than the diameter of the piston head 4 , As a result, an increase in pressure in the liquid column is effected as a result of the hydraulic transmission ratio.

The counter bearing (liquid column) 5 is designed so that it is smaller from the diameter D _f ago than that of the piston D _k . In consequence of the power transmission: K _k = P _k * A _k = P _f * A _f = K _f results in a pressure increase by means of the hydraulic transmission ratio in the liquid column: P _f = P _k * (D _k / D _f ) ²

Is z. B. the piston diameter D _k = 40 mm and the liquid column diameter (counter bearing 5 ) D _f = 10 mm, the result is a pressure increase in the factor 16. Let the impact pressure z. B. P _k = 500 bar, the result is a pressure increase to P _f = 8,000 bar in the liquid.

The 2 shows the compression behavior of various liquids and liquid explosives under pressurization. At a pressure increase to z. B. 8 kbar water is reduced to 81% and methanol to 76% of the initial volume. The behavior can be described by means of the known Tait equation of state for liquid.

As a "liquid" can be considered in this context, any compressible and / or decomposable material, ie a liquid such. As water, a gel, glass or plastic.

In addition to this described hydrodynamic explosive effect, the hydraulic effect can be determined by means of the physical property of the compressibility of liquids which is effective in the considered pressure range, as quasi brake fluid pressure. Take advantage of the post-humidification of the bullet head. Furthermore, this liquid energy outbreak can be used as a drive principle for sub-projectiles.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102005050973 A1 [0002]
• DE 102007001998 A1 [0002]
• DE 102008010707 A1 [0002]
• GB 572732 [0006]
• US 6675718 B1 [0006]

Claims (7)

Projectile, in particular explosive projectile ( 10 ) with a fragmentable projectile casing ( 1 ), characterized by a hydraulic system ( 2 ), consisting of a piston ( 3 ) with a piston head ( 4 ) as well as from an abutment ( 5 ), which is a hydraulic fluid ( 6 ) and between a projectile tip ( 9 ) and a bullet end, is involved. Projectile according to claim 1, characterized in that the hydraulic system ( 2 ) at least in the area ( 1.1 ) of the fragmentable projectile casing ( 1 ) is involved. Projectile according to claim 1 or 2, characterized in that the diameter of the piston ( 3 ) is smaller than the diameter of the piston head ( 4 ). Projectile according to one of claims 1 to 3, characterized in that the abutment ( 5 ) is smaller in diameter than that of the piston ( 3 ). Projectile according to one of claims 1 to 4, characterized in that the liquid ( 6 ) may be any compressible and / or decomposable material, such as. As water, a gel, glass or plastic. Projectile according to one of claims 1 to 5, characterized in that in the projectile nose ( 9 ) a projectile ( 8th ) is involved. Projectile according to one of claims 1 to 6, characterized in that a space between projectile casing ( 1 ) and counter bearing ( 5 ) additionally with splinters ( 7 ) is filled.

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