DE1244255B - Low reflection electromagnetic wave damper assembly and method of making such assemblies - Google Patents

Description

GERMAN WfVWl PATENT OFFICE

EDITORIAL DEVELOPMENT German Cl .: 21a4-71

Number: 1244 255

File number: S 81447IX d / 21 a4

1 244 255 filing date: September 13, 1962

Opened on: July 13, 1967

The invention relates to a low-reflection damping arrangement for electromagnetic waves, in particular for meter waves and long decimeter waves.

Such a damping arrangement can, for. B. as an anechoic cladding of reflective objects or serve walls. So are anechoic measuring rooms in which the interference radiation measurements or the measurements of the radiation patterns of antennas are made, thereby largely designed reflection-free that the walls and the upper ceiling of larger reflective objects with low-reflection Claddings are provided. Similarly, anechoic rooms are known for acoustic ones Investigations.

It is already known to make such claddings from a variety of conical or pyramidal, assemble electromagnetic waves attenuating bodies.

It is also known to attach lossy damping plates perpendicular to the reflection walls, as thin resistive layers on a non-conductive substrate, e.g. B. hard paper formed are. These plates are arranged in such a way that they are parallel and, under certain circumstances, at right angles run towards each other and thereby form honeycomb-like arrangements. The attenuation increases towards the reflection wall, i.e. from the side of the incident waves to the incident waves facing away, steadily or in steps. Such resistive plates can by suitable Slitting put together to form a honeycomb-like structure or from a plurality of adjacent or tube-like or box-like structures arranged one inside the other.

It is also known to make a number of parallel and perpendicular blocks from a block serving as a supporting structure to work out mutually extending slots, so that grid-like stump segments remain, and these Fill slots with resistive material as the cushioning layers. Both building a support structure consisting of many damping plates or tubes as well as the milling of slots in shoring blocks and their filling with resistance material are relatively cumbersome to be carried out and in the majority of all cases require a considerable number of individual Procedural steps. In particular, draw the assemblies composed of damping plates are characterized by high manufacturing costs.

The object of the invention is to simplify the construction of a low-reflection damping arrangement using as few low-reflection damping arrangements as possible
electromagnetic waves and methods of
Manufacture of such arrangements

Applicant:

Siemens Aktiengesellschaft, Berlin and Munich, Munich 2, Wittelsbacherplatz 2

Named as inventor:

Dipl.-Phys. Dr. Josef Deutsch, Munich

various individual elements. The individual elements should easily adapt to the desired size of the damping arrangement Can be put together to create even smaller joints, niches and the like with low reflections close. In addition, the production of individual elements used for the damping arrangement is intended can be largely simplified, so that a machine mass production of such individual elements seems profitable.

The invention is based on a damping arrangement in which essentially in the direction of incoming waves and honeycomb-like dampening resistance layers and electrically non-conductive filler material is used, the resistance causing the damping decreases towards the side facing away from the incidence of the wave.

The invention consists in that the same dimensioned cuboid, only on two opposite sides Filling pieces provided with damping resistance layers on the surface sides, alternately are rotated by 90 ° against each other, next to and above each other.

The filler pieces can advantageously consist of plastics or foams. Is an additional lack of reflection For sound waves desired, the filler pieces are made up of sound-absorbing substances.

709 610/182

Claims (9)

In addition, in order to shorten the overall depth of such low-reflection damping arrangements, the dielectric constant of the filler pieces in the direction of the reflection wall, i.e. in the direction of the end facing away from the incidence of the waves, is approximately in the same ratio as the damping caused by the resistance layer in this direction, in particular steady or off practical reasons to let increase by leaps and bounds. The overall depth can be further reduced by embedding permeable particles in the filler pieces or by using permeable filler piece material so that the permeability of the filler pieces is greater than that of air and corresponds as closely as possible to the filler piece dielectric constant. In order to give the arrangement according to the invention consisting of a plurality of such filling pieces, which is composed approximately of a checkerboard structure, a firm hold, it is advantageous to mechanically, for. B. by gluing to connect to each other. In the F i g. 1 to 5 are examples of the invention. On the basis of FIG. 1 and 2 the further development of the invention directed to a manufacturing method is explained. In Fig. 1 shows a plate 1 made of filler material which, according to the invention, is provided with a resistance layer 2 on its top and bottom. This coating can be done in a known manner by soaking, spraying, printing or similar known coating methods. According to this further embodiment of the invention, such a double resistance-coated plate 1 is divided into individual cuboid-shaped filler pieces 3 according to the invention (cf. FIG. 2), so that two opposite casing sides 4 remain uncoated. This division can, for. B. done by cutting, sawing or similar compartment techniques. The advantage of this type of coating of a larger plate is that the homogeneity of the resistance layer can be achieved much better than with the coating of individual, sometimes quite small, filler pieces on all lateral surfaces. In Fig. 3, according to the invention, filler pieces 3 coated on two opposite sides of the shell are alternately rotated by 90 ° against each other, next to and one above the other in front of a reflective wall 5, so that the rotated arrangement of the filler pieces results in a honeycomb-like structure of the resistance layers 2. To a certain extent, these layers form the walls of square channels or waveguide-like structures through which the electromagnetic waves pass. These waves are incident on the damping arrangement in particular in the R direction. They are attenuated within the filler pieces between the resistance layers 2. The filler pieces are alternately arranged in such a way that, according to the layers rotated by 90 °, an uncoated casing side 4 of a filler piece abuts a casing side of an adjacent filler piece provided with the resistance layer 2. So that the attenuation increases in the direction of the reflection wall 5, z. B. three damping layers arranged one behind the other in the direction of incidence of the wave in such a way that the rear layer according to F i g. 3 a middle layer with larger fillers 3 a corresponding to FIG. 4 and in front of it a further layer made up of even larger filler pieces 3 b according to FIG. 5 follows. Take z. B. the cross-section of the filler pieces from layer to layer increases by a factor of 4, while the specific sheet resistance of the resistive layer 2 is constant in this case. However, it is also possible to use filler pieces with the same cross section in the three planes if the specific sheet resistance of the resistance layers in the respective planes decreases in the direction of wave incidence. Patent claims: 1. Using low reflection electromagnetic wave attenuation assembly of electrically non-conductive filling material and damping resistance layers, their levels are composed like a honeycomb and run essentially in the direction of the incident waves and its resistance, which causes the damping, after that which is averted from the incidence of the waves Side to decrease, characterized in that equally dimensioned cuboid, only filler pieces provided with damping resistance layers on two opposite surface sides, alternately around 90 ° rotated against each other, are arranged next to and one above the other. 2. Low-reflection damping arrangement according to claim 1, characterized in that the Filler pieces are made of plastic. 3. Low reflection damping arrangement according to claim 1 or 2, characterized in that the fillers are made of foam. 4. Low-reflection damping arrangement according to one of the preceding claims, characterized characterized in that the dielectric constant of the filler pieces of that facing the wave incidence to the end of the filler pieces facing away from this, in particular in the same ratio how the attenuation increases. 5. Low-reflection damping arrangement according to one of the preceding claims, characterized characterized in that the filler pieces have a permeability greater than that of air. 6. Low-reflection damping arrangement according to one of the preceding claims, characterized characterized in that the filler pieces are glued together on their outer surfaces. 7. Low-reflection damping arrangement according to one of the preceding claims, characterized characterized in that at least two layers composed of several filler pieces in Wave direction of incidence one behind the other, that is to say at the end faces of the filler pieces, are glued together. 8. Low-reflection damping arrangement according to one of the preceding claims, characterized characterized in that the resistance layers are so inhomogeneous on the opposite Jacket surfaces of the filler pieces are distributed that the specific sheet resistance of one Front end to the other front end decreases. 9. Method of making resistance coated filler pieces for anechoic Damping arrangements according to one of the preceding claims, characterized in that