DE1119230B - Process for the production of a filter from superimposed wire mesh - Google Patents

Description

Method of making a filter from superimposed Wire meshes The invention relates to a method for producing a filter with square or rectangular openings made of superimposed wire mesh, their warp or weft wires made of chemically or physically removable material exist.

According to the invention it is proposed that at least two such Tissue are placed on top of each other so that the wires are made of the non-removable material Form square or rectangular meshes, the two superimposed layers combined with one another in any way and simultaneously or subsequently from the body obtained in this way is the removable material by physical or chemical means Measures is removed in a known manner.

Filter fabrics have already been made from thin wires, the wires having been provided with a removable coating prior to weaving are. By removing this coating, only the previously determined ones can be used Gaps between the individual components of the filter are exposed. In contrast is made by the inventive use of a non-removable wire existing filter is achieved by reducing the size of the filter openings. at of the invention, on the other hand, have the wires made of removable material the task of ensuring a particularly great fineness of the filter, since the Option is to only leave the wires in the final filter that have a particularly small distance from one another.

According to the method according to the invention, filters can be of a produce such fineness and accuracy of the openings with the greatest stability, as is not possible with any of the previously known methods. So have the finest known wire mesh about 50,000 openings per square centimeter and one square Opening from about 20 to 25 p width. Leave according to the method according to the invention tissue with a multiple number with practically unlimited fineness of these Achieve openings while also ensuring the accuracy and uniformity of the openings can be increased due to the applicability of a simple weaving process. Since the so The openings achieved in the filter are also independent of the wire size A sufficient stability of these fine filters can also be achieved.

Furthermore, filters are known in which two or more superposed Tissues are combined to form a uniform screen body. This creates a kind porous sheet metal with openings of different sizes and structures, because warp and weft wires of the tissues united to form a whole are preserved. This allows the aforementioned But just as little to achieve advantages as with the well-known braid fabrics and the from these sieve nets formed with their elongated triangles resembling filter openings.

According to the invention, a fabric is produced in which, for. B. the The density of the weft wires is a multiple of the density of the warp wires. aside from that if the weft wires are made of a material that differs from that of the warp wires, the latter e.g. made of bronze, but the weft wires made of stainless steel. If now two of these tissues are placed on top of each other at an angle of 90 ° and through a sintering process, the stainless steel wires are connected to each other, so they form square openings. The bronze chain wires, on the other hand, melt in this process and can be extracted by means of known chemical processes will.

It is often useful to continue this process with a special sintering and rolling process to follow.

An example is intended to explain the process further: If z. B. a The fabric used is made up of 100 bronze wires of 0.03 mm diameter per cm in the Chain and 400 stainless steel wires with a diameter of 0.02 mm per cm in the weft, so that they get a distance of 5 jt, then arises after the sintering process and removing the bronze wires, a filter with 400 x 400 wires per cm = 160 000 openings per square cm, the size of the opening being 5 u. Through changes The size of the wire size or the distance between the wires can be determined of openings and the number of openings per square cm. Since the strength of the Wire must be the multiple of the opening can, you get a sufficient Stability of the filters, which can be varied according to the intended use.

There is a large mesh uniformity in these ultra-fine filters an urgent need in the chemical industry, especially for high-quality filtering Fuels. In order to continuously produce longer lengths, one expediently walks so that one of the fabrics has the tight mesh in the weft, but the other fabric has the tight mesh of the same material in the chain.

These two fabrics can then be placed on top of one another in any length through the sintering furnace and then through a chemical bath to dissolve the second material run and, if necessary, through a further sintering rolling process be improved.

When the wires that are supposed to make up the filter are of different thickness or have different distances from each other, then a filter is created, its Openings have a rectangular cross-section.

The two fabric webs or web sections are connected according to known methods, e.g. B. by a sintering process or by hard or soft soldering, Melting, gluing or by cold (recrystallization, ultrasonic) respectively.

Hot welding. But it must be done in such a way that the second material from this process is not covered, so it is chemical or physical Lets remove paths.

Either filters for a relatively large quantitative throughput per square centimeter of the filter surface, d. H. with many openings, but because of the low thickness the wires to be used do not have too great a mechanical resistance have, or else filters with a lower surface density of the same size Openings, which are then formed from stronger wires and therefore more mechanically resistant are.

If you put the filter using the invention in a continuous Method, the mesh fineness finds its upper limit at the practical realizable delicacy of the loom reed. The thickness of the sedge or leaf that makes up the reed Bars determines the minimum distance between the chain wires used one above the other Tissue. As in the continuous process of parallel laying one on top of the other of the two wire mesh but at least one of them is not permanent detached chain threads, determines their distance, which today at best up to 200 to 250 wires per cm can be driven, the width of the achievable square sieve openings.

This limitation of the screen mesh fineness that can be achieved using the invention is not relevant if in the discontinuous process below Rotation of the one on top of the other Wire mesh web sections are worked against each other by 90 °.

Then it can be achieved that both are superimposed Fabric web sections only made the weft threads from the permanent material are. Their density can already be increased almost indefinitely without further ado. Weft wire densities of 1000 wires per cm are achieved.

PATENT CLAIMS: 1. Method of manufacturing a filter with square or rectangular openings made of superimposed wire mesh, their warp or Weft wires consist of chemically or physically removable material, thereby characterized in that at least two such fabrics are placed on top of one another in such a way that that the wires made of the non-removable material are square or rectangular Form meshes, the two superimposed layers with each other in any way combined and at the same time or subsequently the removable one from the body obtained in this way Material through physical or chemical measures in a manner known per se Will get removed.

Claims (1)

2. The method according to claim 1, characterized in that the not removable wires in one fabric lengthways, the other in run in the transverse direction. 3. The method according to claim 1 or 2, characterized in that the wires running in the weft direction of at least one fabric and another have mutual spacing like the wires running in the chain direction this Tissue. 4. The method according to claim 1, 2 or 3, characterized in that the tissues are made continuously, preferably immediately after the one producing them Weaving process, one on top of the other and then preferably in continuous Procedures carried out the process of union and removal. 5. The method according to claim 3, characterized in that the a fabric web having particularly narrow stitches, for example in the weft direction cut into lengths that are at most equal to the width of the other for example in the warp direction are particularly narrow meshes of fabric web, then the sections obtained in this way are placed across the other web of fabric and then the subject tissue lying one on top of the other to the process of union and removal. Considered publications: German Patent Specifications No. 942 625, 869 191, 817448.