DE19542510A1 - Thin wire grid structure - Google Patents

Abstract

The structure comprises first, second and third groups of continuous wire sections, wires at intersecting points being welded to each other. At least two groups of wire segments are arranged relatively to the other series at an angle of approximately 60 deg. The three groups of wire segments are fixed to one another, so that they form a through field of triangular structures represented by a series of equilateral triangles. The wire segments of the three groups or series are made of a material selected from brass, stainless steel and EDM wire. The material as a dial between 0.125 mm and 2.5 mm. The distance between the points of intersection of the three series of wire segments is between 0.25 mm and 2.5 mm.

Description

Background of the Invention

The present invention is an additional application to the German patent application with the Number 195 27 618 and is based on a US patent application of series no. 08 / 033,111, filed on March 18, 1993, and on a continuation-in-part Registration, whereby all of the aforementioned registrations are not yet published.

The invention relates to building materials or structural components and a method for their Manufacturing. More specifically, the invention relates to a structured material or Building material which has a multi-dimensional lattice structure and a method for the same Manufacturing.  

Description of the prior art

In the field of materials science, the search for easier and firmer forms Materials has been a primary goal for many years. Research in this area is currently in progress focused primarily on the use of metals, plastics and ceramics. This Research has improved existing technologies. In addition, it has new ones Materials and processes spawned to keep pace with the changing engineering and to meet the economic needs of modern society.

A somewhat recent activity in the field of materials science as far as it is concerned has better properties related to strength-to-weight ratio in the first place Hydrocarbon-based polymers and related chemical processes. Even if the materials and processes developed on the basis of this research are among the chosen conditions are both useful and useful or effective, they deal with typically not with the problem of improving higher order structures. The repetition or reproduction of the metallic, mechanical remains Properties using chemical formulation techniques target carbon many of these materials and processes. As a result, many of these materials have only one nominal improvement over the more readily available metallic building materials or structural elements.

Summary of the invention

Compared to the state discussed above, the present invention has the object based on providing a high-strength construction material with low weight, with an additional special emphasis is placed on the ease of manufacture of the building material.

The building material according to patent application 195 27 618.3 is characterized by a Wire mesh. Typically, the wire mesh is in the form of evenly stacked pyramids in one three-dimensional arrangement. For example, each pyramid consists of eight Wire segments that are connected at their intersection or intersection points. The Wire segments are part of a continuous wire. Even if the design of the Material is such that it looks solid to the naked eye, it actually exists from a three-dimensional network of fine wires. These wires typically consist of Brass or stainless steel. The material is preferably composed of structural parts set that are approximately 0.005 inches to 0.1 inches [0.1 mm - 2.5 mm] in diameter and 0.03 inches -  Are 0.09 inches long. However, the material according to the invention is not based on those mentioned above Materials and wire diameter limited. In particular, the term "wire" in the sense of present invention relates not only to metal wires, but all types of elongated Regardless of what material they are made of, filaments comprise only the concrete application purpose of the material selection sets limits. Also for mechanical however, weaker materials than the metallic wires mentioned above bring that structure according to the invention a significant improvement in the mechanical strength of the Lattice structure material in relation to weight, if the material with other known Structures, for example in the form of homogeneous solid material, is compared. Also the specified, preferred diameter range for the wires can be easily by a factor 10 are exceeded or fallen below. Especially with very thin wires in the range from 10 µm to 250 µm diameter may result in interesting areas of application for the Manufacture of extremely stable, yet light and thin-walled components.

Has a material made of steel wire according to the main application No. 195 27 618.3 approximately a fifth of the density of solid steel, but is still more comparable Strength. These properties are based on a variety of factors. For example forces on the material are transferred in the same way as forces on one Truss or structure with conventional dimensions. In addition, the small leads Cross-sectional area of the wires to a large surface: volume ratio. In addition the isolation of elements reduces the progression of cracks or other defects through the material and also contributes to the uniform distribution or transfer of Loads at. Finally, the small cross-sectional dimension of the wires that are used leads to manufacture the material, preferably less than 0.01 inches [0.25 mm] in diameter superior strength properties because the small grain size of the wires progresses prevented.

The invention is also concerned with methods of manufacturing such elements.

In its most general form, the material can be characterized in that it consists of a spatial lattice structure is built, whereby it is initially based on the chemical-physical Properties of the material used are not so important. The invention starts from Consideration, soft structure of a building material as favorable a ratio of Stiffness or bending strength to the weight of the structural material provides. The components, d. H. the wires from which the structural material is built should, however, have a good pressure and have tensile strength. The "wires" do not necessarily have to come from one  metallic material, but can also be made of a plastic or natural fibers exist that are welded or glued accordingly. One is with metallic wires generally achieve higher strengths, but on the other hand can Using other building materials such as plastics or natural fibers can be extreme low weight with sufficient strength can be achieved, with metallic Materials may not have a correspondingly low weight.

The patent application 195 27 618.3 provides that at least three groups of wires or Filaments (not including metallic materials) in each group be arranged in parallel and at an angle between 10 ° and 90 ° relative to each other aligned or superimposed, these groups of Wires or other filaments at their crossing points, preferably by welding or glued together. In a flat manufactured in this way or flat material, the three groups of parallel wires or filaments form one Structure consisting of triangles that are connected to each other. These can run along parallel, lines are folded at equal intervals, preferably the wires one of the groups of parallel wires define the fold lines. Without intent to limit and only for the sake of simplification of the description we shall only speak of wires in the following are, whereby this term is also intended to include non-metallic materials or analog read on non-metallic materials.

This additional application makes reference to all aspects of the main application taken and the disclosure content of the main application is considered in full in the this additional application has been added. The differences of the present addition registration essentially concern differences in the manufacture of the starting elements, namely the flat grid, which is then possibly folded and in several layers with each other connected to form the final lattice block material.

In order to simplify the manufacture of flat gratings, according to the present invention, a flat or flat sheet material used, such as. B. a sheet, from which by stamping, Etching, drilling or other methods remove part of the material so that the ver permanent parts of the web material form a coherent network or grid, whereby the remaining parts of the web material are formed as a lattice and in one piece interconnected "wires" in the sense of the main application.

The grid structure according to the invention thus consists of filaments, the filaments  are arranged in groups in parallel and the filaments are at least three different Groups of filaments an angle of at least 10 ° and at most 90 ° with each other include and also regularly from a flat sheet material by removing arranged surface areas of the web material are made. It can be done in a first This step is also sufficient if the filaments run in parallel in only two groups and the the two groups cross each other. Such a lattice forms a diamond shape, also softens folding into a structure made up of individual pyramid shapes, still is relatively unstable because the pyramids in question lack the side edges of the base areas. The Material can then be parallel with other layers, grids or another group Filaments are connected, which define the corresponding base edges of the pyramids and thus give the grid the desired stability.

Compared to the main application, the subject of this additional application is intended all the following advantages:

• 1. The resulting flat grid is the same thickness everywhere, d. H. also at the "crossing points" of "wires" the material is just as thick as between these crossing points or Node.
• 2. The step of manufacturing several groups of parallel wires in one another is eliminated crossing layers on top of each other and together at their crossing points connect. The connection is from the start through the coherent web material given.
• 3. The "wires" or the individual webs of the web material, which after punching or Corresponding holes in the web material do not have to be etched out necessarily run along continuous, straight lines, but can already be angled relative to each other in the path plane at the individual nodes. This means that the nodes do not necessarily have to be parallel to three groups Lines, with the three groups crossing each other, are arranged, but they are also more complicated structures are conceivable, which in turn along the individual nodes parallel, straight lines, but may be more than three Groups of parallel lines are necessary to describe the location of all nodes or where the distances of the nodal lines compared to materials made up of three groups parallel wires are made, are smaller or larger. A correspondingly more complicated one Structure arises, for example, if you imagine that starting from one  equilateral triangles consisting of wire mesh, two of the groups crossing each other of wires are not exactly straight, but run along light zigzag lines, with Bends at the nodes and adjacent wires of the same Group are angled in exactly the opposite direction, so that one given wire of a group only every second wire in parallel along the same Zigzag line runs. The resulting triangular grid is then no longer out equilateral triangles, but built up from oblique triangles whose However, key points on a larger scale still indicate the symmetry of a grid can have equilateral triangles.
• 4. The "wires" or filaments that make up a grid made of sheet material is not necessarily a constant cross section over its entire length have, but can for example be wider at the nodes and thus reinforced be.

In addition, there are a variety of other design options in the level structure Grids or networks, which, however, should, if possible, be designed so that they have parallel node lines along which the web material can be folded so that after folding these knot lines define two parallel planes and so that in these Layers can be connected to other grids, one in the connection level have a compatible node structure. A lattice structure is regarded as "compatible" which either has the same symmetry and the same distance between the nodes, so that the nodes of adjacent lattice planes of the two lattices to be connected can be congruent with each other, or at least such symmetry and has such a node spacing that a considerable part of the nodes of the neighboring ones Align the grid, for example at least 10%, and connect it with one another to let. Of course, this applies analogously even if not the nodes adjacent grids are connected to each other, but each a node of the one grid connected with a connecting bridge between two neighboring nodes of the other grid becomes. Here, too, certain symmetry and spacing conditions must be met so that the Connection points are distributed as evenly as possible over the connection level, so that the forces acting on the material during later use are evenly distributed and derived will.

Depending on the type and thickness of the web material used, the corresponding flat grid can be used preferably produced either by punching out or by etching out material  will. The etching can be done using photolithographic techniques by the Web material coated with a photosensitive material, then selectively with the help exposed to a mask and then chemically treated with suitable substances, so that either the exposed or unexposed areas are etched out. Such Methods are well known from semiconductor technology and they allow an extreme precise and gentle production of a corresponding "wire mesh", the "wires" of which stopped and connected strips of the web material. Alternatively However, corresponding holes can also be punched, drilled or made in the web material get cut.

The attached figure shows schematically an excerpt from a plane as an example Web material, soft by punching out or etching the structure of a regular Triangular mesh. The removed areas approximately have the top view Form of equilateral triangles rounded at the corners, so that nodes or Nodal surfaces arise which are reinforced compared to the filaments forming the knots. Possible fold lines when folding such a grid are by dash-dotted lines indicated.

It goes without saying that the cutouts in the web material have an arbitrary shape and in principle Arrangement can have, so that not only all structures can be produced, which one also with Can create groups of parallel wires, but also more, more complicated Grid and network structures. Starting from such a flat grid or network, can this in turn folded and with similar or with other folded or flat Lattices are connected and stacked in layers to produce the block material, which according to its structure has already been described in patent application 195 27 618.3 is.

Claims (10)

1. Lattice structure made of filaments, the filaments being arranged in parallel in groups and the filaments of different groups enclosing an angle of at least 10 ° and at most 90 ° with one another, characterized in that at least some of the filaments are made from a flat sheet material by removing regularly arranged surface areas of the web material are produced. 2. Grid material according to claim 1, characterized in that the removed surface areas approximately the shape of triangles, preferably with rounded ones Corner areas. 3. Lattice structure according to claim 2, characterized in that the triangles in at least two groups are arranged, the orientation of the triangles within one Group the same and different between the two groups, especially around Is rotated 180 ° to the triangles of the other group. 4. Lattice structure according to one of claims 1 to 3, characterized in that the at least one output grid is made of sheet metal. 5. A method for producing the lattice material according to one of claims 1 to 4, characterized in that regularly arranged surface areas from one Web material to be removed. 6. The method according to claim 5, characterized in that the surface areas from the Material are punched out. 7. The method according to claim 5, characterized in that the surface areas from the Material can be removed by caustic. 8. The method according to claim 7, characterized in that the structure of the out caustic areas is produced by photolithographic techniques. 9. The method according to any one of claims 5 to 8, characterized in that as Sheet material a sheet material is used.   10. The method according to any one of claims 5 to 9, characterized in that the Web material after removing the designated areas, which is a regular Leave behind a grid or network structure, the resulting grid or network is folded along parallel node lines that along the connecting lines neighboring nodes run.