DE19705180C2 - Armierungsgewebe - Google Patents

Description

The invention relates to a reinforcing fabric for installation in building facades, roofs, Cladding or walls, in which are arranged essentially parallel and spaced apart nete, electrically conductive threads are provided.

Reinforcing fabrics are used to stabilize cladding or when plastering buildings walls in the form of mats or sheets. They serve the better adhesion of plaster or other composite material on walls, partitions or thermal insulation panels.

The suspicion is increasing that electromagnetic waves (electrosmog) are harmful to health have harmful effects on the human body. The population therefore consists of to a large extent the need to protect yourself from electromagnetic waves, electrical, ma to protect magnetic, low-frequency, high-frequency or electromagnetic fields. Be these electromagnetic fields induced by current flow are particularly energetic nearby of high-voltage pylons or lines, power lines for trams, S-Bahn or egg Senbahnen, substations of power plants and in areas of broadcasting or TV transmitters. A  Long-term exposure particularly affects people who live in the vicinity of such radiation sources or working.

EP 0 067 237 A1 describes a reinforcement in the form of a thread grid in which the threads of the git ters individually coated with thermoplastic and the crossing points of the threads thermo are welded. The core material of the threads can consist of glass fibers or metal. The armie By covering them with thermoplastic plastic, the protective fabric is intended to prevent chemical attack Fe and mechanical stresses, especially against ge shifting of the grid threads be protected.

DE 35 35 807 C2 describes a wall consisting of a fabric or a film for a test room for shielding electromagnetic and / or electrostatic fields with an in the wall mechanically firmly connected electrically conductive network and with at least one connecting lead connected to the network. As a supporting element of the wall, metal ropes with the Network electrically connected. According to one embodiment, the wall consists of a Metal grid on which a fabric or film web is laminated, glued or on one side has melted.

DE 42 09 730 A1 describes a device for shielding electromagnetic fields and Blasting with an electrically conductive material and a flexible support, the material with is connected to the carrier. In a preferred embodiment, the conductive material is a metal net made of copper.

DE 17 04 469 A describes a composite structure of resins and metal threads, the Metal threads in the form of a non-woven mat, a woven, weft knitted or warp-tight knitted fabric or a braid to form a composite body of the resin material are enclosed.

DE 27 53 858 A1 describes a method for producing fiber-reinforced concrete and according to Molded parts produced by this method, wherein a grid-like scrim made of metal threads in a cement mass is incorporated. Embedding the scrim in the cement mass serves for reinforcement the molded parts made from it, which can also be used as building boards.

The German utility model G 92 14 696 U1 describes a reinforcement fabric for plasters, insulation systems or the like, consisting of a grid-like network that is spaced on one side holders is provided, the spacers by vertically protruding from the network plane leg chen are formed. The vertically protruding legs are designed for optimal stress dissipation  ensure inside the plaster. The reinforcing fabric is preferably made of plastic represents, a manufacture of metal is also called.

The German utility model G 94 16 144 U1 describes a mesh fabric for full thermal insulation with a square lattice structure that is uniform over the width of a fabric web. The lattice The can consist of glass fibers and have a coating of plastic.

The object of the invention is therefore to pass electromagnetic waves or fields through the Reduce walls of structures, especially from outside of structures to the inside.

This task is carried out by a reinforcement mesh for installation in building facades, roofs, Cladding or walls solved, in the substantially parallel and at a distance from each other arranged, electrically conductive threads are provided, the fabric threads with a thermo plastic are coated and the electrically conductive threads in the thermoplastic Plastic are embedded.

The electrically conductive threads can work with any commercially available armouring fabric attached laterally or later. An advantage of the reinforcing fabric according to the invention consists in the fact that it provides a very inexpensive but nevertheless highly effective protection against offers electromagnetic waves or fields. It can be like any other armie on the market Processing fabrics are processed and has no adverse processing or Material properties.

The passage of electromagnetic waves or fields through the armie according to the invention tissue is reduced or even completely prevented according to the Faraday cage principle. A prerequisite for an effective shielding of electromagnetic waves and fields is that the Distances between the electrically conductive threads arranged parallel to one another at most are as large as half the wavelength of the electromagnetic waves to be blocked. For an effective The same shielding, the distances should therefore be in a range of 0.5 to 50 cm. Prefers however, it is when the distances are at most 20 cm, particularly preferably at most 12 cm. Since the wavelengths of radio and television stations are generally larger than 1 m and themselves the wavelengths of the electromagnetic fields emitted by lines carrying alternating current hen, lie in the kilometer range, the arrangement of the electrically conductive threads in such offers Good protection against such rays.

In order to ensure even better protection, the Invention at an angle, preferably perpendicular to the electrically conductive threads, further in essentially electrically spaced, electrically conductive threads are provided.  

The reinforcing fabric is in this case mesh-like or covered with electrically conductive threads gene.  

Stainless steel threads are particularly suitable as electrically conductive threads since they have a high level of corrosion have strength, good bending and breaking stability, strength and good electrical conductivity. Ge However, threads made of copper, zinc, silver, gold, platinum, iron, aluminum, titanium or are also suitable Alloys of the aforesaid metals.

A reinforcing fabric with fabric threads made of plastic is particularly suitable coated glass fiber material. The electrically conductive threads can be removed using an adhesive, by bonding with the plastic coating or by melting it into the armature be attached. But you can also through the mesh of the reinforcement fabric bes woven through or be part of the reinforcing fabric itself instead of individual fabric threads. The fabric threads themselves are expediently lattice-like with a substantially rectangular, qua dratic or diamond-shaped stitches arranged.

According to the invention, the fabric threads of the reinforcing fabric are made with a thermoplastic Plastic coated and the electrically conductive threads inserted into the thermoplastic embeds. This creates a particularly durable connection between the reinforcing fabric and the reached electrically conductive metal threads and at the same time protected the metal threads against corrosion.

Further advantages, features and possible uses of the present invention become clear Lich based on the following description of a preferred embodiment and associated Fi gur.

Fig. 1 shows a plan view of a reinforcing fabric according to the invention.

The reinforcement fabric 1 from FIG. 1 consists of plastic-coated glass fiber threads 2 and 3 , the threads 2 being substantially parallel to one another at regular intervals of approximately 0.5 cm and the threads 3 also being parallel and approximately at regular intervals of approximately 0.5 cm to each other, but are arranged perpendicular to the threads 2 . In this embodiment, the threads 2 and 3 are not passed alternately above or below the threads running perpendicular to them, which can also be expedient, but run in their full length over or under the transverse threads arranged perpendicular to them. The two layers of threads running parallel to each other are connected by bonding with the plastic coating. At regular intervals of approximately 10 cm, electrically conductive threads 4 arranged parallel to one another and directly attached to fabric threads 3 are fastened or melted into the plastic coating. The attachment is done by embedding the threads 4 in the plastic coating of the reinforcing fabric. The arrangement of the threads 4 directly on the fabric threads 3 ensures a maximum contact area and thus a particularly great adhesion between the electrically conductive threads 4 and the reinforcing fabric 1 .

Claims (6)

1. Reinforcing fabric for installation in building facades, roofs, cladding or walls, in which substantially parallel and spaced-apart electrically conductive threads are provided, characterized in that the fabric threads are coated with a thermoplastic and the electrical conductive threads are embedded in the thermoplastic. 2. Reinforcing fabric according to claim 1, characterized in that at an angle before preferably perpendicular to the electrically conductive threads further substantially parallel in Ab stands mutually arranged, electrically conductive threads are provided. 3. Reinforcing fabric according to one of claims 1 or 2, characterized in that the electrically conductive threads are stainless steel threads. 4. Reinforcing fabric according to one of claims 1 to 3, characterized in that it is Ge Has woven threads made of plastic-coated glass fiber material. 5. Reinforcing fabric according to one of claims 1 to 4, characterized in that the Ge lattice-like threads with essentially rectangular, square or diamond-shaped Stitches are arranged. 6. reinforcing fabric according to one of claims 1 to 5, characterized in that the Ab stood between two parallel, electrically conductive threads 0.5 to 50 cm is preferably at most 20 cm, particularly preferably at most 12 cm.