DE2053345B2 - Protective device against projectiles - Google Patents

Description

The invention relates to a protective device against projectiles, in particular balancing projectiles a base plate, with several on the bombardment side of the base plate over its surface with mutual Distance distributed explosive charges and shock wave barriers between the individual explosive charges and in particular also between these and the base plate to form on their facing away from the base plate Front side open charge chambers are erected, with each explosive charge in the receiving it Charge chamber up to its chamber opening on the chamber face remote from the base plate or up to one Closing cover that conducts shock waves well enough for this chamber opening.

Such a protective device is known from Austrian patent specification 2 03 908, its shock wave barriers consistently have a single-layer structure.

The present invention is based on the object of providing a protective device as mentioned at the beginning To develop genus, soft against the known generic embodiments through an improved protective effect against projectiles, in particular balancing projectiles, is characterized.

This object is achieved according to the invention in that the shock wave barriers are each in at least two Individual barriers with high shock wave absorption capacity and different shock wave impedance are subdivided.

Such a subdivision can be achieved without great effort. If this happens, they are Result shock barriers. which the conventional single-layer sloping wave burriurun for the same purpose because are superior.

As a result, more explosive charge chambers can be used without the risk of mutual charge initiation • as previously distributed over a base plate of a given size or without such an increase in the Number of chambers in the individual charge chambers much more powerful explosive charges are used will.

In an embodiment of the invention, a further individual barrier consisting of a different solid or designed as an air gap is provided between two individual barriers made of the same solid, which leads to particularly effective shock wave barriers,
Embodiments of the invention are explained in more detail below on the basis of schematic drawings.

It shows

La is a section through a protective device - '"along the section line fa-la in Fig. Ib,

Fig. Ib shows a section along the section line \ b- \ b in Fig. La,

Fig. 2a shows a section through a compared to Fig. La and I b modified protective device along the - '■■ section line Ha-IIa in Fig. 2b,

F i g. 2b shows a section along the section line Wb-Wb in FIG. 2a and

3 shows a further embodiment of a protective device in cross section.

In the device for protection against projectiles, particularly kinetic energy projectiles, in accordance with Fig. Ia and Ib is fixed to a base plate 1, which consists for example of a tough high-strength steel, a damping plate 2 adjacent between their circular openings 3 single barriers 2a, 2b high as zones shock absorptivity and different shock wave impedance, for example a single barrier 2a made of lead between two single barriers 2b made of polytetrafluoroethylene. In each of the "■ openings 3 of the damping plate 2, which each extend from the surface 6 of the damping plate 2 to the base plate 1, there is a shock wave barrier 4, which is made, for example, of polytetrafluoroethylene or a similar plastic, and rests on the base plate 1 a disk-shaped explosive charge 5 with an initiation sensitivity of about 6 to 30 kbar shock wave pressure.

In the protective device according to FIGS. 2a and 2b, a damping plate 12 made of polytetrafluoroethylene or an equivalent material is attached to the base plate 11, which consists for example of aluminum. The damping plate 12, which in this embodiment is broken down into segments 15 by individual barriers in the form of intersecting air gaps 13, 14, in turn has a ^b) multiplicity of openings 16. The latter extend just like those in FIG. 1 a and 1 b from the base plate 11 to the surface 18 of the damping plate 12, but differ from those in their rectangular cross-sectional shapes. In each of these rectangular "" openings 16, between a three-layer shock wave barrier 17 and a closure cover 19 made of a metal that conducts shock waves well, there is a two layers 20, 21 of different initiation sensors.

explosive charge 22 composed of liquidity clamped, namely in such a way that the initiation-sensitive layer 20, which at the same time also have a lower performance can, immediately adjacent to the cap IVi. Of the three individual barriers 23,24,25 df-r shock wave barrier 17, to which the more difficult to initiate layer 21 of the explosive charge 22 adjoins, there is the middle 24 for example made of lead, while the other two 2. ";, 25 are made of polytetrafluoroethylene, for example.

In the case of the protective device against projectiles shown in FIG. 3, in particular balancing projectiles, the Base plate with 31 and the damping plate attached to this with 32 denotes the damping plate 32 has openings 33 which are closed towards the base plate 31 in this Av.sführungform, in each of which is filled with an explosive charge 34 and used as a single barrier pots 35 are fitted. These are closed, for example, made of a suitable metal pots 35 with the Surface 36 of damping plate 32 flush cover 37.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: 1. Protection device against projectiles, in particular balancing projectiles, with a base plate with several explosive charges and shock wave barriers distributed on the bombardment side of the base plate over its surface at a mutual distance, which between the individual explosive charges and in particular between them and the base plate to form on their the Open charge chambers facing away from the base plate are erected, with each explosive charge in the charge chamber receiving it reaching up to its chamber opening on the front side of the chamber facing away from the base plate or up to a closure cover for this chamber opening that conducts shock waves well, characterized in that the shock wave barriers are each in at least two individual barriers (2a and 2b; 13/14 and i5; 23, 24 and 25; 32 and 35) high shock wave absorption capacity and different shock wave impedance are subdivided. 2. Protection device according to claim I, characterized in that a further single barrier (2a, 24) made of a different solid is provided between two individual barriers (2b; 23, 25) made of the same solid. 3. Protection device according to claim I, characterized in that between two individual barriers (15) a further single barrier designed as an air gap (13, 14) is provided from the same solid material is.