DE9017422U1 - Shielding device against electromagnetic fields - Google Patents

Description

Shielding device against electromagnetic fields

The invention relates to a shielding device against electrostatic and electromagnetic fields according to the preamble of claim 1.

Electrostatic and magnetic interference fields affect sensitive measurements of electrical quantities such as biomagnetic experiments and also processes such as electrode beam lithography and microscopy. Such interference fields can, for example, come from transmitting and radio systems, atmospheric disturbances and also moving ferromagnetic masses such as motor vehicles, trains and elevators. To eliminate these interference fields, shielded rooms in the form of walk-in shielding cabins or shielding adapted to buildings are used, which surround the measuring or process equipment or the source of the interference field. Such shielding cabins are often constructed from components consisting of individual shielding modules. To connect the individual modules, these are connected using threaded screws and rods that are inserted into the modules to be connected to one another.

Postgiroamt: Karlsruhe 76979-754- - ßgnkkonfo: Dsütsorte Bank AG Villingen (BLZ 694 70039) 146332

A disadvantage of this connection technique is that the material shielding the interference fields is penetrated by these screws and that the optimal high-frequency shielding capacity is reduced at these sealing points. High-frequency seal leaks occur and the optimal shielding effect for a given frequency range of the HF radiation is not achieved.

In addition, HF leaks occur at the edges of the modules to be connected to one another, which can only be sealed against HF radiation by complex sealing measures such as the use of HF sealing cord, consisting of a wire mesh filled with foam, which makes the installation of such shielding cabins cumbersome.

Furthermore, the known connecting elements are made up of several parts, which makes them more expensive and makes their assembly more difficult.

The object of the invention is to avoid the above-mentioned disadvantages and to provide a connecting element for shielding against electrostatic and electromagnetic fields, with which shielding with high attenuation values can be achieved, whose assembly is simple and which can be manufactured inexpensively.

This object is achieved according to the invention by the characterizing features of claim 1.

Further advantageous features are specified in the subclaims.

A connecting element according to the invention essentially consists of only three individual components, namely a support

plate with a welding bolt, a cover plate and a threaded nut attached to it in one piece and vertically. To create an RF-impermeable connection between two shielding modules, the shielding plate of the two modules to be connected to one another is placed with the free-standing edge area on the support plate and pushed against the welding bolt. On the sides of the two adjacent surfaces of the shielding plate facing away from the support plate, the cover plate, which has a through hole, is placed on the welding bolt and pressed against the shielding plate in order to bring the cover plate into metallic and thus electrically conductive contact with the shielding plate. The support plate and the cover plate are pressed against one another using a threaded nut screwed onto the welding bolt, whereby the module edges resting on the support plate and the cover plate are connected to one another in a tensile manner and a detachable connection is created.

According to the invention, the welding stud is welded to the support plate by means of a surface seam. This butt welding with the flat metallic material of the support plate advantageously avoids protruding metallic edges and improves the HF sealing properties of such connecting elements. Furthermore, the limitation of a connecting element according to the invention to a few components allows for quick assembly and a simplified manufacturing process, which makes such connecting elements cost-effective.

The structurally simple design of a connecting element according to the invention advantageously allows assembly without the use of special tools or soldering work.

The invention is explained in more detail below using a particularly preferred embodiment in a drawing. They show:

Figure 1 - a perspective view of a shielding cabin consisting of shielding modules, shown partially broken open,

Figure 2 - a vertical section along the line II-II in Figure 2,

Figure 3 - a horizontal section through a shielding cabin along the line III-III in Figure 1,

Figure 4 - a sectional view of a known connecting element and

Figure 5 - a sectional view of a connecting element according to the invention.

Figure 1 shows an RF shielding cabin 2, which is made up of several shielding modules. These shielding modules are designed as side wall modules 4, ceiling modules 6, window modules 8, door modules 10 and floor modules 12 (see Figure 2). The connecting elements of the shielding modules are used as corner connecting elements 14 and as side connecting elements 15, as shown in Figures 2 and 3.

A more detailed illustration of a known connecting element is shown in Figure 4. Such a connecting element serves as a floor connection and connects a side wall module 4 with a floor module 12.

This conventional connecting element has as essential components a clamping strip 38a, a sealing strip 42c, an angle profile 38b, a self-locking threaded nut 42a and a threaded bolt 40.

The modules to be detachably connected to one another are placed with the shielding plates 44a, 44b and the seal 42c between the terminal block 38a and the angle profile 38b.

A self-locking threaded nut 42a is screwed onto one side of a threaded bolt 40 that passes through the terminal block 38a and the sealing strip 42c in order to clamp the shielding plates 44a and 44b between the terminal block 38a and the angle profile 38b.

In order to improve the reduced sealing properties for the HF radiation caused by a continuous threaded rod and the screw geometry, the threaded bolt 40 is fastened on one side to the angle profile 38b by means of an arc pressure welding process, so that the high frequency conducted via the connecting element is shielded.

A connecting element according to the invention is shown in Figure 5. This essentially consists of a support plate 18 with a vertically attached welding bolt 22, a cover plate 20 and a self-locking threaded nut 28. The two shielding plates 31a, 31b of the shielding modules to be connected to one another are brought between the support plate 18 and the clamping plate 20 for a firm, detachable connection. The welding bolt 22 is firmly connected to the support plate 18 in one piece by means of a surface seam 24. The cover plate 20 has a through hole 21 with which this

is placed on the welding bolt 22.

In order to firmly, i.e. in particular tensile-resistant, connect the shielding plates 31a, 31b, which are constructed in two layers, namely from a shielding material carrier 34a, 34b and the shielding material 32a and 32b, to one another, the cover plate 20 is pressed against the support plate 18 by means of a self-locking threaded nut 28 screwed onto the welding bolt 22.

The shielding attenuation in the support area of the connecting element is advantageously increased by arranging a second or more layers of shielding material 33a, 33b on the clamping plate 20.

Claims (9)

Dipl.-Ing. KLAUS WESTPHAL . ,. Waldstrasse 33 Telephone (07721) 56007 - ' ·* · · * "&idigr; : ' ^s . Telex 7921573 wemu d Dr. rer. nat. BERND MUSSGNUG' .,-, , I * - LW?30 VS-VILLINGEN Fax (07721) 55164 Dr. rer. nat. OTTO B UC HN ER ..«-»»e _F i _{osgmannstrasse 30a} Telephone (089) 832446 Telex 5213177 webud Patent Attorneys D-8000 MUNICH 60 Fax (089) 8340966 European Patent Attorneys tixOOl PROTECTION CLAIMS 1. Shielding device against electrostatic and electromagnetic fields, consisting of metallic shielding modules with shielding plates and connecting elements, characterized in that the connecting elements have a support plate (18) with a metal bolt (22) firmly connected to the support plate (18), a cover plate (20) with at least one through hole (21) and a pressing and clamping device by means of which the cover plate (20) can be pressed against the support plate (18) and wherein the shielding plates (31a, 31b) are arranged between the support plate (18) and the cover plate (20) in such a way that they can be clamped between the support plate (18) and the cover plate (20) by means of the pressing and clamping device. 2. Shielding device according to claim 1, characterized in that the metal bolt (22) is butt-welded onto the support plate (18) by means of a surface seam (24). 3. Shielding device according to claim 1 and/or 2, characterized in that the metal bolt (22) has an external thread (23) and a threaded nut (28). 4. Shielding device according to at least one of claims 1 to 3, characterized in that the support plate (18) or the cover plate (20) is made of iron or steel Postgiroamt: Karlsruhe 76979-754 Bankcorttp: Deutsche Bank AG'yillingen (bank code 69470039) 146332 · 9 * ^s
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se* consist. 5. Shielding device according to at least one of claims 1 to 4, characterized in that the support plate (18) or the cover plate (20) are made of copper. 6. Shielding device according to at least one of claims 1 to 5, characterized in that the shielding plates (31a, 31b) consist of a layer of shielding material (33a, 33b) and a shielding material carrier (34a, 34b), wherein in the support area of the connecting element between the support plate (18) and the shielding material carrier (34a, 34b) two layers of shielding material (32a, 32b) and (33a, 33b) are arranged. 7. Shielding device according to at least one of claims 1 to 6, characterized in that the shielding material carrier (34a, 34b) consists of raw sheet metal which has a sheet thickness of approximately 2 - 6 mm. 8. Shielding device according to at least one of claims 1 to 7, characterized in that the shielding material (32a, 32b, 33a, 33b) consists of copper. 9. Shielding device according to at least one of claims 1 to 8, characterized in that the shielding material (32a, 32b, 33a, 33b) consists of iron.