ENCAPSULATED EXPLOSIVE BODY FOR AN INFRARED DECOY

Abstract

An explosive body is encapsulated in such a way that the encapsulation or casing supports the ignition behavior of the explosive body or of the components. The explosive body has a casing for accommodating the components of the explosive body, which differ with regard to the chemical composition and the properties thereof. An additional component is located in the casing as an ignition aid. The explosive body can be ignited through the top/side surface of the casing or by an internal ignition mixture located inside the explosive body.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an encapsulated explosive body without its own ignition or ignition chain for an infrared decoy.

2. Description of the Background Art

An explosive body with an ignition chain or ignition is described briefly, for example, in DE 199 51 767 C2, which corresponds to U.S. Pat. No. 6,513,438. The explosive body fulfills in this context the task of a dual mode decoy. The explosive material which emits radiation in the infrared range is formed here from a plurality of flares. A camouflage and decoy munition of this type for protecting objects against guided missiles, which contains mist and/or target-imitation-forming active materials is also dealt with in DE 10 2005 020 159 B4, which corresponds to U.S. 20090301336, which is herein incorporated by reference.

Known IR explosive bodies are typically have a cylindrical body which is formed by stacking individual explosive sheets (flare leaflets or flare disks). The packet which is produced in this way is held together by a film or some other connection, for example plastic cord, etc. The film itself serves here to protect the explosive body against ambient influences and for storage and transportation and in the dispensary itself. In the event of expulsion and when ignition occurs, the casing combusts and the IR explosive body disintegrates in the airstream and produces a large decoy cloud.

A new ignition concept, in particular for forming decoy clouds in civil aviation, etc. without ignition and explosive materials, is described in more detail in DE 10 2006 004 912 A1, which corresponds to U.S. Pat. No. 8,146,504, which is incorporated herein by reference. Said document discloses a system for protecting, in particular, large flying platforms such as aircraft against infrared-steered or radar-steered threats. In this context, the activation or ignition of the explosive bodies occurs in a contactless fashion. The expulsion of the explosive bodies is then carried out pneumatically or mechanically. The explosive bodies themselves are munition-free packets which are ignited by means of hot air or a laser.

The ignition behavior of the explosive bodies for forming the decoy cloud still leaves room for further optimization possibilities.

SUMMARY OF THE INVENTION

It is therefore an object of the present invention to provide an explosive body with optimized ignition behavior.

An embodiment of the invention is based on the idea of not surrounding the explosive body with a film or the like but of instead encapsulating it in such a way that the encapsulation, for example in the form of a casing, etc. assists the ignition behavior of the explosive material or of the components.

The so-called encapsulated explosive body is characterized by the fact that the infrared explosive body is accommodated completely in the interior of a stable, sealed and preferably combustible casing. The explosive body itself is composed of one, or preferably more, individual components which have different properties and/or chemical compositions. The individual components may differ here, inter alia, in terms of ignition sensitivity, burning speed, burning period, performance, etc. The ignition speed can in addition be increased by the fact that in the interior of the casing a suitable ignition aid/ignition mixture is also additionally introduced. The ignition can occur, on the one hand, over the surface of the explosive body or by means of a centrally located ignition along the longitudinal axis. The spectral properties of the combustible casing may be optimized by adding materials for changing reflection properties/absorption properties. In particular, the inputting of laser radiation can therefore be improved and the ignition speed increased.

Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:

FIG. 1 shows a basic illustration of an encapsulated explosive body;

FIG. 2 shows an illustration of the ignition in two variants; and

FIG. 3 shows a further embodiment of the explosive body.

DETAILED DESCRIPTION

In the figures, 1 characterizes what is referred to as an encapsulated explosive body in a sectional illustration.

FIG. 1 shows the general design of such an explosive body 1, composed of a combustible casing 2, at least two flare-like components 3, 4 and an ignition aid 5, wherein the components 3, 4 can be separated from one another by the ignition aid 5 and no longer have to be stacked. The ignition aid 5 can be introduced as an additional component as a powder or granulate into the combustible casing 2. The two individual components 3, 4 are preferably different in terms of their chemical composition and their properties. It is therefore possible to combine materials with various properties such as burning, ignition sensitivity, performance, combustion period etc. Through a suitable combination of the various individual components 3, 4 it is possible to adapt the effect of the decoy to the respective requirements.

The internal geometry of the casing 2 of the explosive body 1 is freely selectable. The mechanical stability and the protection against ambient influences, etc. are ensured by the casing 2.

The combustible casing can be ignited by contact with a hot surface, by inputting laser radiation, inductive ignition and further suitable methods such as, for example, friction.

If the combustible casing 2 is ignited by laser radiation, materials are advantageously added to the casing material which facilitate the transmission of the laser radiation and the ignition of the combustible casing 2. These should be materials which have the lowest possible reflection and/or high absorption at the wavelength of the laser system which is used.

In a first variant, the ignition of the combustible casing 2 or of the explosive body 1 occurs from the outside over the upper surface or lateral surface 10 of the explosive body 1. Alternatively, in a further variant the ignition can take place through an internal ignition mixer 6, located in the interior of the explosive body 1 using a longitudinal ignition means 7 (FIG. 2). It is, of course, also possible to combine the two variants.

In a further exemplary embodiment according to FIG. 3, the described sandwich structure of the explosive body 1 can also be provided in a type of combination carrier, wherein the various components 3, 4 are not located separately one next to the other/one on top of the other in the interior of the casing 2. The individual components 3, 4 could therefore already be connected to one another when the interior structure is manufactured by, for example, one component 3, 4 forming the carrier material onto which the other component or components 4, 3 is/are applied. Furthermore, it is possible to combine the individual components 3, 4 directly with one another and use them as platelets, powders, granulate or with other geometries.

The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.

Claims

1. An explosive body for an infrared decoy, the explosive body comprising a casing adapted to accommodate components of the explosive body, which components are different in terms of the chemical composition and their properties, as well as an additional component configured as an ignition aid.

2. The explosive body as claimed in claim 1, wherein the ignition aid is introduced as a powder or granulate into the combustible casing.

3. The explosive body as claimed in claim 1, wherein the explosive body is ignited via the upper surface or the lateral surface of the casing.

4. The explosive body as claimed in one of claims 1, wherein the explosive body is ignited by an internal ignition mixture arranged in an interior of the explosive body.

5. The explosive body as claimed in claim 4, wherein the internal ignition takes place in the form of a longitudinal ignition.

6. The explosive body as claimed in claim 1, wherein the components lie separately one next to the other or one on top of the other.

7. The explosive body as claimed in claim 1, wherein the components lie at least partially directly one next to the other or one on top of the other.

8. The explosive body as claimed in claim 7, wherein one of the components forms a carrier material to which the other component or components are configured to be applied.

9. The explosive body as claimed in claim 7, wherein the individual components are mixed together and are integrated as platelets, powder, granulate or with some other geometry.