EP2446220A1

EP2446220A1 - Active body

Info

Publication number: EP2446220A1
Application number: EP10724322A
Authority: EP
Inventors: Nenad Prelic; Heribert Eglauer
Original assignee: Rheinmetall Waffe Munition GmbH
Current assignee: Rheinmetall Waffe Munition GmbH
Priority date: 2009-06-26
Filing date: 2010-06-15
Publication date: 2012-05-02
Also published as: WO2010149288A1; US8689693B2; ZA201107922B; US20120160121A1; RU2012102520A; IL216904A0; KR20120039527A; NZ596613A; RU2519167C2; DE102009030870A1; AU2010265106B2; CA2764515A1; AU2010265106A1; UA106227C2

Abstract

Provided is an active body (1) with flares (2, 6, 7) arranged adjacent, above, or behind each other, it is proposed to integrate at least one hydrophobic separating layer (3, 5) between the flares, or flare disks (2, 6, 7), thereby preventing the flares (2, 6, 7) from attaching or sticking. In one variant, the hydrophobic separating layer (3) is applied to at least one side of the flares (2) preferably as a powder preferably consisting of microspheres, or the like. In a further variant, a separating disk is disposed between the flares (6, 7) as the separating layer (5), which in addition is anti-cohesive and anti-adhesive.

Description

submunitions

The invention relates to a so-called active body, consisting of juxtaposed or successively arranged Einzelflares, in particular the optimization of Flarescheibenseparation means of a hydrophobic separation layer.

Such an active body is briefly described for example in DE 199 51 767 C2 and thereby fulfills the object of a dual-mode decoy. The active substance emitting radiation in the IR range is formed here from flares. A camouflage and deception ammunition of this type for the protection of objects against guided missiles containing the active substances forming fog and / or dummy targets is furthermore dealt with in DE 10 2005 020 159 B4.

Red phosphorus (RP) has been part of military applications for decades, such as nukes for the protection of infantry, artillery and naval vehicles, or aircraft (IR) -effecting aircraft targets. The fog or IR effect unfolds the RP after appropriate ignition by activation by means of burn off. The ignition and distribution of the RP unit takes place in turn classically via an igniting or disintegrating charge, which ensures that the active body or active mass is optimally ignited and distributed for the respective purpose, i. that an optimal blossoming of the IR decoy target to a cloud or a surface area target takes place.

However, in the context of civil applications, ignitable charges, i.e., explosives, are undesirable in such bodies or masses. However, the omission of a disintegration charge entails the problem that an ideal blossoming of the IR decoy target can not take place. Accordingly, new concepts are necessary, but they are not examined here.

It should be noted in advance that IR-acting RP flares are currently produced by applying red phosphorus in conjunction with a binder to a carrier film (substrate). This material is punched into the desired shape. - -

brought (Einzelflare) and stacked for the larger of the active body. If the process of setting is not completed, the individual flares stick together unintentionally. Since the flares both have residual moisture and absorb moisture (are hygroscopic), these flares often stick underneath or after one another after processing.

Although the setting could be forced through a separate drying process, remaining adhesion is not prevented. In order to minimize the residual moisture of the RP flares, the time- and temperature-controlled (complex) drying process is again inevitable, which, however, counteracts any remaining adhesion. Since the material is also hygroscopic, it must be permanently protected against ambient moisture. This condition can be achieved by consuming vacuum packaging and / or storage in air-conditioned rooms.

In any case, however, an ideal blossoming of the IR decoupling target to a cloud upon activation (ignition) and the application of the red phosphorus is impeded, in which civil aviation (and sea) travel even prevents the alternative igniting and discharging concept. However, if the optimum flowering is not guaranteed, this results in a low radiation yield, an unfavorable course of radiation and thus no optimum surface fog target.

Here, the invention has the object to show an active body, by means of which the disadvantages known from practice prevented and an optimal flowering not only the active body can be realized with a disintegration charge. The adhesion or sticking of Einzelflares should be prevented, which is caused by adhesion or residual and ambient moisture.

The object is achieved by the features of claim 1. Advantageous embodiments are set forth in the dependent claims.

The invention is based on the idea to bind the flares instantaneously (quickly, without delay) and sustainably with minimal throughput times and operating costs in the production process. This is realized by incorporating a hydrophobic material. By a covering surface treatment of the Einzelflares with a hydrophobic layer, preferably powder / powder - such as glass microspheres - the adhesion is as well as the adhesion between the Einzelflares prevented. The inhibition of the adhesion is permanent, whereby by the hydrophobic nature of the (preferably powdery) material - which serves as a release layer - is guaranteed even at elevated ambient humidity sticking. It is therefore proposed to incorporate at least one hydrophobic separating layer between the flares in the case of an active body with flares arranged next to or above or behind one another. The hydrophobic separation layer is preferably effected by a powder consisting, for example, of microspheres, etc., which is applied to the flares at least on one side or the like. The application of the powder or powder is manufacturing technology on the unpunched Flarebahnen or for example by mixing powder and flares in a mixing drum possible. Alternatives are known to the person skilled in the art.

In a further variant, there is a separating disk between the flares as a separating layer, which additionally has anti-cohesive and anti-adhesive properties.

Such a structure of the active body has, inter alia, the advantage that can be dispensed with long time and temperature-controlled process (heating - drying). In addition, the storage of the body can be simplified. Due to the improved performance of the IR decoy target, it is also possible to save RP effective mass.

The idea can also be implemented in conjunction with nitrocellulose flares (NC flares) as well as in conjunction with an active substance mix of RP and NC.

Reference to two embodiments with drawings, the invention will be explained in more detail. It shows:

1 shows a simplified illustrated active body of Einzelflares with coating,

Fig. 2 shows another active body of Einzelflares with separate separation layer.

An active body 1 shown schematically in FIG. 1 as well as in FIG. 2 consists of a plurality of flares 2 (FIG. 1) which are already stamped here. Between the flares 2 (eg NC base and / or RP base), only a hint of a powder layer 3 is shown in FIG. 1, which is preferably applied over the entire surface 4 of the respective lower or upper flare 2. The layer 3 serves as a separating layer between the flares 2 and can be applied to the unpunched flake webs or be created by mixing powder / powder and stamped flares 2, for example in a mixing drum. A separate separating layer 5 between the actual active mass (flaring disks 6, 7) shows the other variant in FIG. 2. The release layer 5 can be realized by a hydrophobic, anti-cohesive and anti-adhesive coated paper. These are stacked between the discs 6, 7 in the sequence Flarescheibe 6, cutting disc 5, Flarescheibe 7, separating layer 5, etc. As a result, Flarescheiben 6, 7 on RP or NC basis but also be RP and NC basis. The Flarescheiben 6, 7 need not be round.

The layer structure itself can be designed individually, d. h., alternating evenly or unevenly, in order or as a mix. The discs can also be formed here from NC and RP.

Claims

1. active body (1), consisting of juxtaposed or superimposed or successively arranged flares (2), characterized in that between the flares or Flarescheiben (2) at least one hydrophobic (separating) layer (3, 5) involved is.

2. active body according to claim 1, characterized in that the layer (3) on one side and on both sides of the flares (2) may be applied.

3. active body according to claim 1 or 2, characterized in that the layer (3) is formed by a powder or powder.

4. active body according to claim 3, characterized in that the powder are Mikroglasku- rules.

5. active body according to one of claims 1 to 4, characterized in that the powder is applied by a surface treatment on the flares (2).

6. active body according to claim 1, characterized in that the separating layer (5) is a hydrophobic, anti-cohesive and anti-adhesive coated paper.

7. active body according to one of claims 1 to 6, characterized in that the Flarescheiben (2, 6, 7) are formed on RP or NC basis.