DE10353384A1 - A space surrounded by walls and method of forming an antenna or shield - Google Patents

Abstract

To form an antenna (8) or a shield (16) for electromagnetic radiation on a wall (2, 14) of a room (4), in particular a building, it is provided that an electrically conductive structure (8, 16) of conductive material is sprayed onto the wall (2, 14). For this purpose, in particular the flame spraying method is used. By this measure, large-area antennas or large-area shields for rooms (4) can be provided in a simple and cost-effective manner.

Description

The The invention relates to one of walls surrounded space, in particular a building or a part of a building, with an antenna or a shield and a method for Forming an antenna or a shield.

A Antenna is used both for transmitting and for receiving electromagnetic Waves. For example, for the reception of radio and TV channels used antennas. There are a variety of differently shaped antennas, from the simple rod antenna to the parabolic antenna. Usually the electrical component of the electromagnetic radiation is used. However, there are also antennas that use the magnetic field of electromagnetic Exploit radiation.

The Antennas, for example for receiving radio and TV stations, are usually outside a building set up and properly aligned. There, however, they are subject adversely weather influences. Indoor antennas, in the Interior of the building are arranged, usually have in comparison to outdoor antennas lower reception quality on.

The electromagnetic waves, on the one hand aware of transmission are used by many people as information increasingly disturbing felt with negative health effects. Also can it by the strong increase of transmitters and thus increased Number of electromagnetic waves to technical impairments that come to disturbances and can lead to the failure of complex technical systems. Out these reasons is it therefore often desirable that at least certain spaces are free or substantially free of electromagnetic radiation.

When Space here becomes common, in particular, a part of a building or the building self-understood. The room can also be a motor vehicle, in particular the passenger compartment, as well as the interior in a ship, Plane or the like. be.

Of the Invention is based on the object, a simple and inexpensive design an antenna or a shield for such a room enable.

The Task is according to the invention solved with the features according to claim 1. Thereafter, it is envisaged that at one of walls surrounded Space for the formation of the antenna or the shield for electromagnetic Radiation on at least one wall, a structure of conductive material sprayed by a thermal spray process.

When Thermal spraying is here a thermal-kinetic Application method understood, in particular the so-called flame spraying. The thermal spraying is generally for example in the DIN 32530 listed. In flame spraying, the applied conductive material, for example Copper or a copper alloy, first in a spray head or heated by a spray gun, so that it melts or at least softens and then with Kinetic energy sprayed onto a corresponding carrier. The flame spraying this is a very simple, inexpensive technique that allows through an appropriate leadership of the Spray head individual tracks purposefully along any To generate course. For generating the discrete conductor tracks For example, the particle beam or the like by blinding. bundled and focused. For applying the conductive structures can be manually actuated Spray guns are used. This can be any discrete conductor pattern as well as flat, in particular full-surface pattern and create structures easily and as desired.

by virtue of high flexibility of the method and its robustness can be with this method also easily any conductive Structures on an exterior wall of a room. These conductive structures are here designed as an antenna or as a shield. The type of structure, So for example, the geometry and the course of the applied Tracks, depends on the respective requirements and the desired one Purpose. Under wall here is generally a representational Limitation of a space understood. This is, for example, the sidewall or the ceiling of a room, or even a roof area. There as a carrier for the conductive Structures a wall is used, it is possible to design the antenna over a large area, so that a good reception quality can be achieved even if the alignment is not optimal is.

According to one expedient embodiment therefore extends the conductive structure also large area and especially completely over the wall.

The term "large area" here means that the area predetermined by the wall is utilized as completely as possible. If the antenna is designed, for example, as a simple loop, so ver this runs essentially along the side edges of the wall.

to Training an effective shield for the room is this of the Structure surrounded on all sides, i. the structure acting as a shield made of conductive Material extends over all Walls of the Room and can also cover the floor of the room if necessary. Conveniently, this is the structure in the manner of a grid with in particular small grid spacing, so closely meshed, formed. Alternatively covered the Structure the walls the entire surface. The structure thus forms in this preferred embodiment a continuous, flat applied layer. Such a coating of the walls is apply in a simple manner by means of the flame spraying process.

According to one expedient development is the wall of individual components built, this already before their joining to the training of Wall with conductive sections the structure are provided. By this measure, the individual components already during production with little effort with the conductive substructures be provided. An afterthought Generating the conductive Structures on the created wall is not necessary. It exists but it is quite possible the cuts the structure by a subsequent To join or mend spraying process, if the substructures, for example, during assembly of the components damaged were. A damage is to be expected only with very high mechanical influences, on the one hand by the chosen Technology in particular of flame spraying a very firm and intimate connection with the surface of the component is made and on the other hand, the structure very is flat, so that no protruding elements are present.

In an expedient development, the components in the Assembly automatically contacted each other. The components are So in particular designed such that an automatic connection he follows. For this purpose, the components expediently have connecting elements. Preferably, these connecting elements are for example after the tongue and groove principle by a suitable shaping of the components educated. The mutually corresponding grooves and springs are preferably also by the thermal spraying coated with an electrical contact surface, which in turn is part of the conductive structure.

Conveniently, are the building elements roof tiles, so that for example when covering a Roof automatically an antenna structure is formed.

According to one preferred embodiment, the structure is applied to an elastic leveling layer. By this measure leads for example the occurrence of cracks in the wall does not cause a break a trace of the conductive structure. The elastic compensation layer serves in this case for bridging possibly occurring cracks.

Prefers is the structure on the particular visible outside applied to the wall. This can be in addition to the technical Function for forming the antenna or shield at the same time decor surfaces as Design elements of the facade are generated.

The Task is according to the invention still solved by a method having the features according to claim 12 on the space given advantages and preferred embodiments are mutatis mutandis, too to transfer the procedure.

embodiments The invention will be explained in more detail below with reference to FIGS. Show it each in schematic and roughly simplified representations:

1 a roof with a loop arranged on a roof surface antenna with associated evaluation unit,

2 a greatly simplified representation of a cuboidal space, the outer walls are coated to shield with different lattice structures and with a continuous layer,

3 a partial cross-sectional view of a wall piece, wherein the conductive structure is applied to a leveling layer and

4 a particular designed as a tile component with molded electrical connection elements for automatically connecting the formed on the roof tiles conductive substructure during assembly.

In the figures are like-acting parts with the same reference numerals Mistake.

According to 1 is on a roof surface 2 one a room 4 roof covering 6 for forming an antenna 8th a structure of conductive material is sprayed on. The antenna 8th is here as formed a sprayed track, which runs in the manner of an approximately rectangular loop, the two endpoints 10 in a manner not shown here with an evaluation unit 12 are connected. The rear in the figure roof surface 3 is also with a particularly large or full surface conductive structure 5 provided, which acts as a mirror. In the evaluation unit 12 the received signals are processed or evaluated and, if necessary, forwarded to subsequent devices.

The roof 6 is, for example, the roof of a traditional residential building. The antenna 8th extends almost completely over the entire roof area 2 ie the loop is along the edges of the roof surface 2 laid. By this measure is a comparatively very large-area antenna 8th designed so that even with a less favorable orientation still a good reception quality is achieved. In addition to the loop-like course of the antenna 8th This may also have any other suitable structures.

According to 3 is to form a shield 16 on a cuboid room 4 surrounding side walls 14 a structure of conductive material is sprayed on. In the 2 For this purpose, three different structures are shown by way of example. So is the upper sidewall 14 provided or coated over the entire surface with a conductive material. The two other side walls shown 14 have in contrast to this as a structure differently shaped grid 18 or grid patterns that differ in their grid width. The grid 18 is formed here by intersecting tracks. The grid width, ie the distance between the individual sprayed webs, is to be selected as a function of the radiation to be shielded. Due to the applied particularly narrow-meshed conductive structures, electromagnetic radiation can not or hardly in the interior of the room 4 penetrate or out of the room 4 escape. Such shielding offers both for lounges or meeting rooms or for rooms in conventional residential houses. Also, such a shield 16 be used for rooms in which highly sensitive technical devices are to be protected against interference.

For applying the conductive structure, so either the antenna 8th as well as the full-surface structure 5 according to 1 or the shield 16 according to 2 In each case, a thermal spraying method, in particular the flame spraying, used. In flame spraying, the material to be applied, in particular copper or a copper alloy, is fed to a spray head or an injection tool and heated there until the material to be applied melts or at least softens. Subsequently, the material leaves the spray head with high kinetic energy, so that the material to be applied in a particle beam on the roof surface 2 or the side walls 14 incident. In this case, the spray parameters can be set in a wide range, so that it is possible to produce both discrete individual printed conductors with a defined printed conductor width or flat structures. A full-surface coating takes place here, for example, by multiple web-like sweeping the side wall 14 , A significant advantage of flame spraying is to be seen in particular in its simple applicability and in its robustness. The individual conductor tracks can also be applied with a manually operable device, in particular a hand-held device. The application process is also based on purely physical effects and takes place without the use of chemicals. In particular, it is possible, depending on the materials and the surface on which the conductive structure is sprayed, to spray these without pretreatment of the corresponding surface. In conventional building materials with a rough surface, such as stones, bricks, etc., a very good adhesion is already achieved by the surface roughness in the rule. Optionally, a pretreatment of the surfaces may be provided, for example by applying a mediator or seed layer over which a good adhesion between the material to be applied and the surface is produced. Such an intermediary layer is, for example, a sprayed-on lacquer.

According to 3 is the conductive structure 8th . 16 on a leveling layer 20 applied, which in turn on the actual wall, for example, the roof surface 2 or the side wall 14 , is applied. The leveling layer 20 has a certain elasticity, so that, for example, in the wall 2 . 14 occurring cracks 22 be bridged without any problems. The conductive structure 8th . 16 therefore remains of the crack 20 unaffected and undamaged. In particular, in the formation of an antenna 8th otherwise could be a crack 22 to an interruption of the track and thus possibly to the failure of the functionality of the antenna 8th to lead.

In the embodiment of 4 is conductive material on a roof tile 24 trained component sprayed. The conductive material forms a part of this 25 a conductive structure 8th . 16 which is made by joining together several roof tiles 24 is slipped. The roof tiles 24 have here on their underside a trained in the manner of a nub or web bulge 26 and on its upper side a complementary thereto trained recording 28 on. Both the bulge 26 as well as the recording 28 are over-injected with the conductive material and thereby form kom plementary to each other formed electrical connection elements. The bulge 26 and the recording 28 are doing on the opposite end sides of the roof tiles 24 arranged. When laying the tiles, the bulge engages 26 of a roof tile 24 in the recording 28 the roof tile below 24 which automatically establishes an electrical connection between the conductive structures 8th . 16 the tile 24 will be produced.

2

roof

3

Rear roof surface

4

room

5

structure

6

top, roof

8th

antenna

10

endpoint

12

evaluation

14

Side wall

16

shielding

18

grid

20

leveling layer

22

Crack

24

tile

25

Teilsück

26

bulge

28

admission

Claims (13)

One of walls ( 2 . 14 ) surrounded space ( 4 ), in particular a building in which to form an antenna ( 8th ) or a shield ( 16 ) for electromagnetic radiation on at least one wall ( 2 . 14 ) a structure ( 8th . 16 ) is sprayed from conductive material by a thermal spraying process. Space ( 4 ) according to claim 1, wherein the structure ( 8th . 16 ) over a large area, in particular completely, over the wall ( 2 . 14 ). Space ( 4 ) according to claim 1 or 2, for shielding from the structure ( 16 ) is surrounded on all sides. Space ( 4 ) according to any one of the preceding claims, wherein the structure ( 16 ) in the manner of a grid ( 18 ) is trained. Space ( 4 ) according to one of claims 1 to 3, in which the structure ( 16 ) the walls ( 14 ) completely covered. Space ( 4 ) according to one of the preceding claims, in which the wall ( 2 . 14 ) of individual components ( 24 ) which, before being joined, form the wall ( 2 . 14 ) already with conductive sections ( 25 ) of the structure ( 8th . 16 ) are provided. Space ( 4 ) according to claim 6, in which the components ( 24 ) are formed such that their respective sections ( 25 ) are automatically contacted with each other during assembly. Space ( 4 ) according to claim 6 or 7, in which the components ( 24 ) electrical connection elements ( 26 . 28 ) exhibit Space ( 4 ) according to one of claims 6 to 8, in which the components ( 24 ) Roof tiles are. Space ( 4 ) according to any one of the preceding claims, wherein the structure ( 8th . 16 ) on an elastic leveling layer ( 20 ) is applied. Space ( 4 ) according to any one of the preceding claims, wherein the structure ( 8th . 16 ) on the outside of the wall ( 2 . 14 ) is applied. Space ( 4 ) according to one of the preceding claims, in which the one antenna ( 8th ) forming structure with an evaluation unit ( 12 ) connected is. Method for forming an antenna ( 8th ) or a shield ( 16 ), in which on a wall ( 2 . 14 ) of a room ( 4 ) a structure ( 8th . 16 ) is sprayed from conductive material by a thermal spray process.