NL1031353C2 - Mounting system for shielding e.g. cage wall of anechoic chamber with electromagnetic radiation absorbing element, comprises magnet located between element and shielded object - Google Patents

Abstract

The element (2) is mounted using at least one magnet (1) located in between the element and the object (3) to which it is intended to be secured, so that the element is magnetically attracted to the magnet. The magnet is glued to the object being shielded. The element preferably comprises a ferrite material.

Description

SYSTEM AND METHOD FOR APPLYING ABSORPTION MATERIAL TO AN OBJECT TO BE PROTECTED

The present invention relates to the provision of an absorption element, to an object to be shielded, such as on a cage wall of an anechoic (echo-free) space or around a device for EMC applications, such as a camera or a positioner. The absorption element is made of an absorbent material, typically ferrite, for absorbing electromagnetic radiation, in particular HF radiation.

When attaching absorbent material to cage walls or other objects to be shielded, a distance determined by the supplier between the cage wall and the absorption element is typically required to achieve a good impedance match.

To date, this is always done by gluing plates of wood or board of a certain thickness onto the cage wall and gluing the absorption elements onto it. This is a laborious activity. Gluing typically takes place by means of a 2-component glue that can only be used for a very short time. Glueing tiles in particular against the roof of an anechoic room is particularly difficult.

The present invention has for its object to provide a system and method which permits a simpler and faster assembly (and possibly also disassembly) of absorption elements on an element to be shielded, and which in particular an assembly with an accurate allows a certain distance between the absorption element and the element to be shielded.

To that end, the system according to the invention is distinguished by the features of claim 1, and the method according to the invention is distinguished by the features of claim 14.

1031353 2

With the aid of fixed magnets, the absorption elements can be mounted accurately at any desired distance from the object to be shielded in a quick, inexpensive and simple manner. The distance between the absorption elements and the object to be shielded can range from 0 (by applying the sunken magnet) to any relevant distance required for the impedance match. In other words, an air gap of any desired thickness can be created.

Advantages of the system and the method according to the invention include: - compared to gluing or screwing panels, the method according to the invention is much simpler and therefore time-saving. In the case of an anechoic chamber, this is a huge advance, in particular for mounting against the roof; - it is a very flexible system; absorption elements can be removed at will as required, for example to perform inspection work (seams), make penetrations, etc; the distance between the absorption element and the object to be shielded can have almost any desired value, but it is fixed and therefore precisely adjusted; - the air gap between the absorption element and the object to be shielded can be used to conceal glass fibers or cables, and this also in a simple and fast manner; - the use of magnets makes it possible for irregularities in the wall of the object to be shielded, such as seams, to be eliminated without problems.

- in the case that the object to be shielded is a Faraday cage, it is easy to dismantle and rebuild in another location.

3

The magnets preferably have dimensions that are small with respect to the dimensions of the absorption element. In this way, the space occupied by the magnets in the air gap between absorption material and the element to be shielded is negligible, and cables or other connecting lines can easily be concealed in the air gap.

Depending on the substrate of the object to be shielded, the magnets may be attached to the object to be shielded by magnetic attraction and / or by any other possible attachment technique, such as gluing. Note that it is also possible to glue the magnets on a steel surface, with the magnetic attraction during mounting ensuring that the glue dries.

According to a possible embodiment, the magnet is arranged directly on the surface of the element to be shielded, in which case the thickness of the at least one magnet is preferably adapted to the desired distance between the absorption element and the object to be shielded.

According to another possibility, the at least one magnet is recessed in at least one recess in the object to be shielded, the depth of each recess and / or the thickness of the magnet being determined as a function of the desired dimension between absorption element and object to be shielded.

Finally, the present invention relates to the use of a magnet for applying an absorption element to an object to be shielded, the or each absorption element being mounted on the object to be shielded by inserting at least one magnet.

The invention will be further elucidated on the basis of a purely illustrative and in no way limiting exemplary embodiment of the system and method according to the invention, with reference to the drawing and attached photographs, in which: figure 1 shows a first exemplary embodiment of the illustrates a method according to the invention for mounting a ferrite tile 5 on a cage wall; Figure 2 illustrates a second exemplary embodiment of the method according to the invention for mounting a ferrite tile on a cage wall; Figure 3 schematically illustrates an exemplary embodiment of the system 10 according to the invention for mounting a ferrite tile on a cage wall.

Figure 1 illustrates how a number of absorption elements, here a ferrite tiles 2, can be mounted by means of magnets 1 on an object to be shielded, here a cage wall 3. The magnets here are cylindrical rigid magnets 1 with a height that corresponds to the desired distance between the ferrite tile 2 and the cage wall 3.

Figure 1 shows a situation in which four magnets 1, in the four corners of a ferrite tile, are used to attach a ferrite tile 2. Each magnet is used divided by four adjacent tiles, so that in numbers only about as many magnets as tiles are needed.

The magnets can first be applied to the cage wall, as shown in figure 1, or can first be applied to the fer reed tile as shown in figure 2.

The desired distance between the cage wall and the ferrite tiles is typically of the order of a few millimeters, for example 7 mm, and thus makes it possible for connecting cables, such as fiber optic cables, to be arranged between the ferrite tiles and the cage wall.

Figure 3 shows schematically an exemplary embodiment of the system according to the invention. The system comprises: - an absorption element, here a tile 1 made of ferrite for concentrating electromagnetic radiation in this tile; - an object to be shielded, of which only the wall 3 is shown; and - a number of magnets 1 interposed between the ferrite tile 2 and the wall 3. The thickness of the magnet 1 is adapted to the desired distance between tile 2 and wall 3.

Although the exemplary embodiments illustrated relate to mounting ferrite tiles on a cage wall, those skilled in the art will appreciate that the invention applies equally well - for differently shaped absorption elements, such as, for example, tubular elements or plate-shaped elements of any shape. , whether or not provided with recesses; and - elements of any shape to be shielded for other types, such as, for example, a camera or positioner. If it is not possible or not convenient to attach the magnets to the object to be shielded by means of magnetic attraction, for example because this object has no iron-containing peripheral parts, then they can also be applied in another way, for example by gluing on the object to be shielded. Optionally, recesses may be provided in the object to be shielded in order to be able to recessed the magnet in the object to be shielded. This will be particularly useful if the desired distance between the absorption element and the object to be shielded is small or zero.

It will be understood by those skilled in the art that many modifications and variations of the embodiments described above are conceivable which fall within the scope of the invention.

The scope of the invention is only determined by the following claims.

1031353

Claims (21)

A system for applying an absorption element to an object to be shielded, such as on a cage wall or around a device for EMC applications, comprising: - at least one absorption element made of an absorbent material for absorbing material electromagnetic radiation, in particular from ferrite; - an object to be shielded; Characterized in that the or each absorption element is mounted on the object to be shielded by inserting at least one magnet, such that the at least one magnet attracts the absorption element. The system of claim 1, wherein the or each absorption element contains ferrite. 3. System as claimed in any of the foregoing claims, characterized in that the or each magnet has dimensions that are small with respect to the dimensions of the absorption element. A system according to any one of the preceding claims, characterized in that the or each magnet is a rigid magnet. 5. System as claimed in any of the foregoing claims, characterized in that the at least one magnet is directly attached to the object to be shielded. 6. System as claimed in any of the foregoing claims, wherein the object to be shielded is sensitive to magnet action, characterized in that the at least one magnet is attached to the object to be shielded by magnetic attraction. A system according to any one of the preceding claims, characterized in that the at least one magnet is attached to the object to be shielded by gluing. 1031353 A system according to any one of the preceding claims, characterized in that the absorption element is mounted only by electromagnetic attraction as a result of the at least one magnet. 9. A system according to any one of the preceding claims, characterized in that the absorption element is arranged directly on the at least one magnet. 10. System as claimed in any of the foregoing claims, characterized in that the thickness of the at least one magnet is determined in function of the desired distance between absorption element and object to be shielded. 11. System as claimed in any of the foregoing claims, characterized in that the at least one magnet is recessed in at least one recess in the object to be shielded, the depth of each recess and / or the thickness of the magnet being determined in function of the desired dimension between absorption element and object to be shielded. 12. A system according to any one of the preceding claims, wherein the absorption element is substantially plate-shaped. A system according to any one of the preceding claims, wherein the absorption element is a ferrite tile. 14. Method for applying an absorption element to an object to be shielded, which absorption element is made of an absorbent material for absorbing electromagnetic radiation, characterized in that the absorption element is mounted on the object to be screened by inserting at least one magnet. 15. Method as claimed in claim 14, characterized in that the at least one magnet is mounted on the element to be shielded by electromagnetic attraction. A method according to any one of claims 14-15, characterized in that the at least one magnet is attached to the element to be shielded by gluing. 17. Method as claimed in any of the claims 14-16, characterized in that the at least one magnet is first mounted on the absorption element by electromagnetic attraction and that the assembly of the absorption element and the at least one magnet are subsequently mounted on the element to be screened. A method according to any one of claims 14-17, characterized in that - at least one recess is provided in the object to be shielded; a magnet is arranged in each recess, after which the absorption element is applied to the at least one magnet by magnetic attraction. 19. Method as claimed in any of the claims 14-18, characterized in that connecting cables, such as fiber optic cables, are arranged between the or each absorption element and the object to be shielded. 20. Use of a magnet for applying an absorption element to an object to be shielded, characterized in that the or each absorption element is mounted on the object to be shielded by inserting at least one magnet. 21. Use of a magnet for applying an absorption element to an object to be shielded in a system according to any one of claims 1-13, or according to the method according to any one of claims 14-19. 103 ^ 353