EP0236958A2 - Removable retroreflector for reflecting electromagnetic rays - Google Patents

Abstract

Arrangeable retroreflector for the reflection of electromagnetic rays, which is suitable for destroying electromagnetic radiation, which would be suitable for the long-term influence of magnetic or other data carriers, by reflection or absorption, the retroreflector as a sheet (100) consisting of a base layer (10 ) consists of reflectors made of a metal and arranged side by side with filter layers (50; 150) applied thereon made of a suitable metallic material and provided with a cover layer (30, 40) on an underside (10a) and on an upper side (10b), is trained

Description

The invention relates to an arrangeable retroreflector for the reflection of electromagnetic rays, which is suitable for destroying electromagnetic radiation, which would be suitable for the permanent influencing of magnetic or other data carriers, by reflection or absorption, in particular a protective device for data storage.

In modern computing and data processing systems, memories are used to store information. These memories are formed, for example, in the central units of data processing systems or as external memories. The laws of electromagnetism are usually used to store information. So are magnetic core storage, magnetic tape storage, magnetic bubble storage, magnetic drum storage and the like. known.

In such memories and in particular in the read-only memories, information is often stored which is only available in the memory and to which other access is no longer possible. It has therefore proven to be a problem that it is difficult to protect these memories against destruction and thus against destruction of the stored information material. Although it has already been proposed to arrange such stores in buildings in rooms in which mechanical influence on the stores is largely excluded; Effective protection against influencing or destroying the memory by the effect of electromagnetic radiation cannot be guaranteed.

So it is possible that if a runtime tube of appropriate power is operated in the vicinity of a data storage device, the electromagnetic radiation emanating from the runtime tube affects and / or destroys the data material, so that when the data is accessed again, it is determined that the Data storage received insufficient or no more information.

The invention solves the problem of creating an arrangable retroreflector for the reflection of electromagnetic rays, which is suitable for destroying electromagnetic radiation, which would be suitable for the permanent influencing of magnetic or other data carriers, by reflection or absorption, this retroreflector in the vicinity of It should be possible to arrange data carriers in order to provide complete shielding of the data carriers from electromagnetic radiation.

To solve this problem, an arrangable retroreflector of the type specified above is proposed, which is designed according to the invention in such a way that the retroreflector as a sheet consists of a base layer made of a metal, side by side reflectors with filter layers applied thereon from a suitable metallic material, and is provided on an underside and on an upper side with a cover layer.

With this retroreflector, the possibility has been created to protect data storage of any kind as far as possible against the influence of electromagnetic radiation, since with such a retroreflector the retroreflection of different waves is achieved. With the reflectors in the base layer, a high reflection of the incident electromagnetic radiation in the manner of the triple mirror in the optics is achieved. Due to the side-by-side arrangement of individual reflectors, these each act as reflectors, with only the connecting edges of the individual reflectors giving a diffuse reflection. In order to achieve a reflection of all possible wavelengths, for example from the X, K and UK wavelength ranges, appropriately designed filter layers are arranged on the base layer. With the top and bottom layers, additional protection is achieved by absorption of the radiation.

A film designed in this way can be arranged as required at any point in a building and around a data storage device in such a way that an almost secure protective cover is created.

According to a preferred embodiment of the retroreflector, it is provided that the base layer is formed as a metal foil or sheet metal with pyramid-shaped indentations arranged next to one another without spaces in it, with three boundary surfaces, the boundary surfaces of each indentation having an angle of α = 90 ° to one another on their adjacent edges .

The individual reflectors designed in this way, in which three edges colliding in a corner form right angles to one another, ensure that each individual incident electromagnetic beam reflects on all three surfaces and runs back parallel to its direction of incidence. It can pre can be seen that the base layer having the individual reflectors or the like by punching, deep drawing, pressing. a metal foil or sheet is made.

It is preferably provided that the filter layers for forming a broadband X, K and UK wave filter are dimensioned accordingly in their thickness and consist of a metal or noble metal. This enables a special adaptation of the filter layers to the properties of the radiation to be expected and to be reflected, the filter layers preferably consisting of chrome, brass, silver and / or mu-metal. It can be provided that the filter layers are arranged individually as prefabricated films on the base layer or that they are formed by vapor deposition on the base layer. The cover layers are preferably formed in the same way.

According to a further preferred embodiment, it is provided that the surface sheet for arrangement on building walls and ceilings is designed as a bottom cover layer which is designed with a bottom cover layer suitable for arrangement on a wall and / or with an upper cover layer which is suitable for arranging a wall wallpaper or wall paint on the surface sheet and which can be arranged area-wide is. With this training, it is possible to arrange the surface sheet instead of a room wallpaper on the room walls or ceilings and to apply the usual wallpaper thereon. This does not change the optical shape of the walls and ceilings of rooms containing storage units, but a high level of protection is guaranteed. It is also possible in this way to attach the surface web to doors, for example.

According to a further preferred embodiment, it is provided that the surface sheet for arrangement on building floors is designed with a bottom cover layer suitable for arrangement and attachment to a floor and with an upper cover layer suitable for arranging carpet pile and with a base layer designed to absorb static loads and can be arranged area-wide is trained.

In this embodiment of the sheet, it can be arranged in place of a carpet and the data memory or memories to be protected can be placed on it. Thus, a simple arrangement of a protective cover in a building room is possible without the exterior of these rooms being changed or the persons working in the room being impaired or impaired.

• Fig. 1 in einer schaubildlichen Darstellung einen anordbaren Retroreflektor,
• Fig. 2 in einer senkrechten Schnittdarstellung gemäß Linie II-II in Fig. 1 den anordbaren Retroreflektor,
• Fig. 3 in einer vergrößerten Ausschnittsdarstellung ein Reflexionselement, und
• Fig. 4 in einer Ansicht von oben das Reflexionselement gemäß Fig. 3.

In the following the subject matter of the invention is explained in the drawings. It shows

• 1 is a diagrammatic representation of an arrangable retroreflector,
• 2 in a vertical sectional view along line II-II in FIG. 1, the retroreflector that can be arranged,
• 3 shows an enlarged detail of a reflection element, and
• 4 in a view from above, the reflection element of FIG .. 3

In Fig. 1 and 2, the sheet is designated 100, which consists of a base layer 10 on which the filter layers formed either as foils 50 or as vapor-deposited layers 150 are arranged. The corresponding cover layers 30, 40, which serve as absorption layers, are formed on the top and bottom.

3 and 4, a reflector element 20 is shown from the base layer 10, wherein the reflector 20 can be formed in the base layer 10, for example, by deep drawing. The reflector 20 is designed as a recess in the base layer 10, this recess being formed in the shape of a pyramid with three boundary surfaces 21, 22, 23. These boundary surfaces 21, 22, 23 have edges 21a, 23a; 21b, 22a; 22b, 23b to each other at an angle of exactly α = 90 °. The total reflection of the incident electromagnetic radiation is ensured by this arrangement of the delimitation or retraction surfaces. In the region of the reflectors 20, the filter layers 50, 150 are arranged to cover the boundary surfaces 21, 22, 23 or are formed by vapor deposition. As can be seen in FIGS. 1 and 2, the reflectors 20 in the base layer 10 are arranged directly next to one another, so that there is a layer which is difficult to penetrate for electromagnetic radiation and on which the additional filter layers 50; 150 are arranged. Above, the base layer 10 is covered with the cover layer 30, which is designed such that a wall wallpaper can be glued to it or a wall paint can be applied. The lower cover layer 40 can be placed on walls, floors or ceilings using either a conventional wallpaper paste or other suitable adhesive; it can also be provided with a self-adhesive coating be. It is also possible to install reinforcements in the base layer 10, with which it is ensured that the surface web 100 can absorb corresponding static or dynamic loads.

If a space designed with retroreflectors is exposed to microwaves from the outside, then it is possible to measure with a corresponding all-round arrangement of detectors that radiation is coming, but it cannot be determined from which direction or at what angle the radiation comes . If, on the other hand, the energy or radiation is returned with the same energy and almost at the same angle, then the objects or the surroundings of the transmitter are hit by this energy, which corresponds to a normal radar location. If the transmitter is illuminated and there is an all-round reception device, then the one reflected by the transmitter, i.e. From the transmitter, the radiation first goes to the retroreflector and reflects back to the transmitter, radiation can be located. In this way, the location at which the transmitter is located can be determined. An outsider or unauthorized person sends a microwave beam onto the data mat, i.e. onto the shielding foil in the form of the retroreflector. This sends the radiation back to the transmitter, which reflects diffusely and thus outside of the chamber or a room equipped with retroreflectors or a room can be determined using a direction-dependent receiving antenna arranged outside the closed room, from which direction a beam is sent, thus can be located.

Claims (10)

1. Arrangeable retroreflector for the reflection of electromagnetic rays, which is suitable for destroying electromagnetic radiation, which would be suitable for the long-term influence of magnetic or other data carriers, by reflection or absorption, characterized in that the retroreflector as a sheet (100), the consists of a base layer (10) of reflectors (20) made of a metal and arranged side by side with filter layers (50; 150) applied thereon made of a suitable metallic material and on an underside (10a) and on an upper side (10b) with a cover layer (30.40) is provided, is formed. 2. Arrangeable retroreflector according to claim 1, characterized in that the base layer is designed as a metal foil (10) or sheet metal with juxtaposed pyramid-shaped indentations (20) with three boundary surfaces (21, 22, 23) therein, the boundary surfaces ( 21, 22, 23) of each indentation (20) have an angle of α = 90 ° to one another at their abutting edges (21a, 23a; 21b, 22a; 22b, 23b). 3. Arrangeable retroreflector according to claim 1 or 2, characterized in that the base layer (10) by stamping, deep drawing, pressing or the like. a metal foil or sheet is made. 4. Arrangeable retroreflector according to one of claims 1 to 3, characterized in that the filter layers (50; 150) to form a broadband X, K and UK wave filter are dimensioned accordingly in their thickness and consist of a metal or noble metal. 5. Arrangeable retroreflector according to claim 4, characterized in that the filter layers (50; 150) made of chrome, brass, silver and / or mumetal or the like. consist. 6. Arrangeable retroreflector according to claim 5, characterized in that the filter layers are applied as prefabricated films (50) or by vapor deposition (150) on the base layer (10). 7. Arrangeable retroreflector according to one of claims 1 to 6, characterized in that the cover layers (30, 40) consist of a plastic, metal or noble metal suitable for absorption of magnetic radiation and are applied as prefabricated foils or by vapor deposition. 8. Arrangeable retroreflector according to one of claims 1 to 7, characterized in that the surface web (100) for arrangement on building walls and ceilings as with suitable for arrangement on a wall lower cover layer (40) and / or with for arranging a wall wallpaper or Wall paint is formed on the surface sheet (100) suitable upper cover layer (30) and can be arranged covering the entire surface. 9. Arrangeable retroreflector according to one of claims 1 to 7, characterized in that the surface web (100) is designed for arrangement on building floors as a bottom cover layer suitable for arranging and fastening to a floor and with an upper cover layer suitable for arranging carpet pile and with a base layer designed to absorb static loads and can be arranged area-wide. 10. Arrangeable retroreflector according to one of claims 1 to 7, characterized in that the surface web (100) as a reflector for radiation emitted by a transmitter for detecting and locating the transmitter by reflection of the radiation incident on the surface web (100) to the transmitter and diffuse reflection of the radiation from the transmitter on directional receiving antennas by means of this is used.

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