DE4305010A1 - Anti-radar reflection device for missile - Google Patents

Abstract

The device reduces a radar signature of complex cell regions A self-supporting cowl body (11) of flat, metal surfaces is arranged and secured on the inside of an aircraft fuselage segments (10). The anti-radar reflector cowl body is coupled to the screen faces of the remaining aircraft segments.Pref. the flat surfaces of the anti-radar cowl body consist of thin metal or conductive, metallised material structure of honeycomb type. They are held possibly by stiffeners in the inner space of the anti-radar cowl body. The non-metallic fuselage segment may be fitted with holders for the cowl body, or its metal surfaces.

Description

The invention relates to a radar camouflage for missiles the preamble of claim 1.

Certain classes of missiles - due to the task - have a more complex shape than the conventional cylindrical shape. Rectangular, but also trapezoidal cross sections are known in particular. In order to obtain a favorable aerodynamic design and low drag coefficients, certain cell areas, such as the front segment, require a special shape, as is required, for example, according to FIG. 2 when transitioning from a hemispherical fuselage nose to a rectangular fuselage.

In order to shield the interior of the missile according to specification against electromagnetic radiation and radiation and against the nuclear To get electromagnetic pulse (NEMP), such are often out Molded parts produced on the inside with non-metallic materials lined with a metal layer. However, this has the disadvantage is liable that due to the convex surfaces and rounded edges Significantly higher radar reflectance values (RCS) occur.

To reduce the radar signature of aircraft or missiles Absor previously arranged at suitable locations in the prior art used materials. That not only the total weight is increased, but also the material and assembly effort is easy understandable.

The invention has for its object a radar camouflage for missiles by proposing, in which the radar reflecting cross sections (RCS) of the Front section of the fuselage segment are reduced to a minimum, and the Installation of absorber materials is no longer necessary.

This object is surprisingly provided by the claim 1  proposed measures resolved. Embodiments are in the subclaims conditions and further developments indicated and in the following description Exemplary embodiments are explained. Complete the figures in the drawing these explanations. Show it:

Fig. 1 is a perspective view of an embodiment with a built in the missile nose Tarnkörper,

Fig. 2 is a nasal form of a cruise missile according to the prior art,

Fig. 3 is a perspective view of an embodiment in which the missile is provided with an integrated sensor in its nose (z. B. seeker head) and the Tarnkörper is bent for better Raumaus use,

Fig. 4 is a perspective view of a further embodiment of a simple camouflage body with stiffening.

In contrast to the absorber materials, which largely absorb the incident radar radiation, it is proposed as a camouflage measure to attach a metallic body composed of flat surfaces, the so-called camouflage body 11 , to the foremost box-shaped fuselage segment of the missile FK, as shown in FIG. 1 is. Here, if the spatial conditions require it, for example because of the accommodation of sensors S or devices in the front section, the side surfaces of the camouflage body 11 can also be bent, as illustrated in FIG. 3. The camouflage body also replaces the usual internal metallization of the missile skin, which of course has to be omitted.

In general, the camouflage body 11 will be self-supporting. In order to save weight, the side surfaces of the camouflage body 11 consist of thin metal or conductive / metallized and rigid structural material, for example of CFRP honeycombs. If thin sheet metal is used, stiffeners 12 will be required, as illustrated in FIG. 4. However, these stiffeners must be positioned within half of the camouflage body 11 .

A further embodiment provides for a non-metallic hood 10 that it is provided with holding elements or retaining webs in which the metallic reflector surfaces of the camouflage body 11 are inserted and fastened. In this case, the camouflage body is an integral part of the hood 10th

The described embodiments are only effective to the extent that the non-metallic surfaces of the object to be camouflaged - here the Front hood - are largely transparent to radar waves. this is the Case when the material has a suitable dielectric constant and the wavelength of the incident radiation is much larger than that Material thickness is. The camouflage measure loses at a shorter wavelength in effect, the loss of effectiveness then by other known Camouflage measures can be compensated for without significant weight gain.

The main advantage of the measures described here is too see that the possibility of very low weights is given. In one The weight of the arrangement depends on the structure required solidifies. In addition, the otherwise required operations and the material for internal metallization saved.

In contrast to the known arrangement of absorber materials, which largely absorb the incident radiation, the radiation is only reflected in the case of a camouflage body 11 proposed here. The reflection here does not take place in a wide solid angle, as is the case with curved surfaces, for example, but - assuming a parallel beam of rays - in a single preferred direction. In the case of kinked surfaces there are of course two. However, this is only directed towards the transmitter when the radiation is perpendicular. In this statistically unlikely rare case, however, the missile FK to be camouflaged then has very high radar reflectance values, but in all other cases the transmitter receives no - or almost no - echo from the camouflage body.

Claims (4)

1. Radar camouflage for missiles to reduce the radar signature complex shaped cell areas, characterized in that a self-supporting camouflage body composed of flat, metallic surfaces ( 11 ) on the inside of the respective missile fuselage segment ( 10 ) is arranged and fastened, and this camouflage body ( 11 ) is connected to the shielding surfaces of the other missile segments. 2. Radar camouflage according to claim 1, characterized in that the flat surfaces of the camouflage body ( 11 ) made of thin metal or conductive / metallized structural material (z. B. CFK honeycomb sheet) are made and optionally in the formed interior of the camouflage body ( 11 ) stiffeners ( 12 ) are kept in their flat surface position. 3. Radar camouflage according to claim 1 or 2, characterized in that the non-metallic fuselage segment ( 10 ) of the missile (FK) is provided with holding elements, in which the camouflage body ( 11 ) as a whole, or also the metal surfaces of which it consists, can be used individually. 4. Radar camouflage according to claims 1 to 3, characterized in that the flat surfaces of the camouflage body ( 11 ) are bent at the angle of attack.