DE3236418C2 - Infrared light pack - Google Patents

Abstract

In the case of an infrared flare for remotely steerable missiles, the use of an incandescent charge consisting of several elements that contain grains of the same specific surface with different surface values of each element generates a radiation course that can be determined in advance and remains the same over a longer period of time.

Description

20th

The invention relates to a pyrotechnic flare for missiles that are in a goal are to be directed.

Such flares should emit a light during a time range of the flight phase of the missile Radiate radiant power as constant as possible, measured in W / sru, in an infrared wave range.

From the German patents 17 79 377 and 19 57 524 flare sets are known in which the curves of the emission curve show a pronounced maximum if they are used individually or as a group at the same time be ignited. The composition of such annealing sets is also described in these two documents been. Are known from DE-PS 14 73 914 also flare sets that subdivide the glow set into contain several chambers. Here, a controlled emission curve in the form of a triangular curve produced in that the melting through of the thin partitions between the chambers the evenly -so The burn-off of the glow charge is delayed. Attempts were also made to offset the ignition times of the individual incandescent units of a multi-stage incandescent lamp have at least a constant emission of radiation to be achieved during a period of burn-up. The resulting emission profiles are the same wave-like superimposed parabolic curves.

From DE-OS 23 37 524 pyrotechnic flares are known that can be used as infrared emitters are and which are made of a mixture of metals, such as z. B. silicon and red lead and a binder and may also contain burn-up moderators.

The invention is based on the object of an infrared flare to improve the aforementioned type so that during the burnout of a glow charge a reproducible infrared emission with adjustable and as constant as possible over a longer period of time Radiation path is generated.

According to the invention, this object is achieved in that the metallic portion of the glow charge consists of grains the same specific surface.

According to an advantageous embodiment of the invention, the different stages of the flare have different grain sizes in the range from 0.1 to 5 m ² / g.

The invention is explained in more detail below with reference to the drawing. In detail shows

Fie. 1 Emission curves of IR light packs according to

the state of the art,

2 shows a radiation diagram of an IR flare according to the invention,

Fig.3 shows an Ausführungsbeispiei of the pyrotechnic Emitter.

In the previously known versions of infrared light packs, curves of the radiant power output were achieved, as shown in FIG. 1 is shown. In detail, curve 1 represents the burn-up process of a single radiator or a group of simultaneously ignited incandescent charges. Curve 2 illustrates the emission curve of an incandescent charge that consists of several chambers, the partitions of which delay uniform burn-off. The superimposition of the radiation curves (36, 3c, 3d) of three consecutively ignited annealing sets results in an emission curve according to curve 3a.

A luminous charge, in which the metallic portion of the annealing charge consists of grains of the same specific surface and in which the different stages of the annealing charge also have different grain sizes, generates an emission curve in the manner of curve 4a in FIG. 2. The curve 4a, which shows the superimposition of the emission profiles Ab, 4c, Ad of three annealing stages, can be set within certain limits, since the characteristics of the individual radiation power diagrams Ab, Ac, Ad by adding catalysts and / or moderators, such as Silicon oxide or copper (l) oxide, can be changed for annealing.

3 shows an embodiment of an infrared flare 5 which can be attached to the tail of a remote-steerable missile, not shown here. The flare consists of several - in the illustrated embodiment three - glow sets 7a, 7b, Tc in a concentric arrangement. An ignition element 6a, 6b, 6c is assigned to each glow charge. These ignition elements are - not shown here - connected via ignition cables to ignition electronics which are not the subject of the invention. The ignition elements are ignited at the same time or at time intervals with any sequence of glow charges. Each of the glow assemblies is closed at its end opposite the ignition element with an end plug 8a, & b, Sc .

Compared to the previously known infrared light sets, all of the above have a pronounced maximum in the course of the radiation power curves Embodiments have the advantage of a constant emission over a longer period of time. The burn rate of the individual stages of the glow charge can be adjusted through the use of wind-sighted, granular material, which was selected according to its specific surface and through the admixture of catalysts and moderators. The reproducibility of the combustion process is a particular advantage and indicate the simple mechanical structure.

1 sheet of drawings

Claims (2)

Patent claims: 1. Infrared flare set for remotely steerable missiles, consisting of a multi-stage glow charge which burns with exclusion of air and a metallic mass which can be ignited by the glow charge and burns in the ambient air and which consists essentially of silicon and red lead, characterized in that the metallic portion of the glow charge (6a , 66, 6c) consists of grains of the same specific surface 2. Infrared flare according to claim 1, characterized in that different stages (6a, 66, 6c) of the flare (7) have different grain sizes of 0.1 to 5 m ² / g.