DE657313C - Device for drying fabric webs, in particular paper webs, with the aid of electrical high-frequency fields - Google Patents

Description

Device for drying fabric webs, in particular paper webs, With the help of high-frequency electric fields It is known that one paper webs or Sheets of similar material with the help of electric alternating fields of very high Frequency can dry. The frequencies must be chosen so high that the wavelength is below the limit of 100 m. Have particularly good results result at wavelengths in the order of magnitude of about 10 m.

The paper web can thereby be exposed to electrical high-frequency fields are exposed that plate electrodes are arranged on both sides of the paper web whose areas correspond to the width of the paper web. There are also good successes has been achieved with ring electrodes, which are at a certain distance along the paper web are arranged such that the electric field formed between them runs in the direction of the paper web.

The time required for the drying process can be substantial diminish if a roll of paper or a roll that's' made up of other webs of fabric is wound up as a whole in an electric field, for example between two Plate electrodes. Tests have shown that also with this arrangement the lengths of fabric on all parts of the roll are heated evenly and accordingly can also be dried evenly. Only the parts present certain difficulties of the paper roll, which are close to the winding core. Have at this point During experiments, symptoms of overheating often set in, which affect the internal Make part of the role more or less unusable.

According to the invention, this disadvantage is avoided in that the Core on which the paper web is wound is designed such that in it either no heat can be generated by the action of the high-frequency fields or that this heat is at least so small that it exceeds the temperature of the nearby of the core of the material webs lying on the core cannot impermissibly increase. For the invention There are various options for designing the winding core. A special one advantageous way is that between the winding core and a metallically conductive intermediate layer is arranged on the fabric webs wound on it will. This intermediate layer can be made of a thin metal foil, which best rolled up on the core with the paper web 'ze @ ä: When winding if one proceeds in such a way that, as before, the end of the web is glued or glued to the core is otherwise attached and that then immediately following it together with a thin metal foil is wound onto the core of the web. Same effect can also be achieved in that part of the fabric web by one of the known Spray-on process is provided with a metallic conductive coating.

This embodiment of the invention is of particular importance to the cores commonly used today when winding paper webs, which consist of a Consist of cardboard tube. This cardboard tube is made up of several layers of paper that come with Glued together with the help of paste or starch. This resulting cardboard tube differs from the paper webs wound on it in that .die dielectric losses of the roll are much greater than the losses of the paper webs. The electric field will thus generate much higher temperatures in the core and thereby bring about the above-mentioned overheating phenomena. By the Means the metal foil or metal layer between the roll and the winding core these disadvantages are completely eliminated; because the metallic intermediate layer works like shielding the field from the winding core. The role will be up immediately heated evenly to the core in its entire cross-section and accordingly also dried evenly.

Another means of forming the winding core is to that a substance is used for the core whose dielectric losses are low are. Such low-loss substances are known and are in various forms provided by the ceramic industry. A well-known substance this one Property is z. B. the caliph.

Another possibility is that the paper webs on a Core are wound, which consists only of metallically conductive material. Because the high frequency of the alternating fields is the so-called penetration depth of this metal core so low that it is practically not heated by the high-frequency field. The success the drying and especially @ Aie even distribution of the temperature over the entire cross-section of the .Rolle can still be achieved in the winding arrangement of the invention be improved so that @R lle becomes: geire @ t during the drying process. she can either be turned continuously or at certain time intervals by turning be brought into different positions. In any case it is important that field distortions, which can arise through the metallic winding core, one after the other evenly be distributed over all parts of the cross-section of the roll to be dried.

Claims (7)

PATEN TANSPRÜCH R i. Device for drying fabric webs, in particular Paper webs that are wound on a core with the help of alternating electric fields n '' # very high frequency, characterized in that the core is designed in this way is that the heat generated in it by the action of the high-frequency fields and the resulting heat transfer to adjacent fabric panel parts is negligible is low. 2. Device according to claim i, characterized in that between A metallically conductive intermediate layer is attached to the winding core and the wound lengths of material is arranged. 3. Device according to claim 2, characterized in that as Interlayer a metal foil is used, which is attached to the fabric on the core is wound up. , q .. Device according to claim 2, characterized in that a part of the fabric near the winding core with a metallic conductive Coating (by spraying or the like.) Is provided. S. device according to claim i, characterized in that the winding core is made of a material with low dielectric Losses. 6. Device according to claim i, characterized in that the Fabric webs are wound on a core made of metallically conductive material. 7. Device according to claim i or the following, characterized in that means are provided to the position of the role opposite the direction of the field lines during of the drying process.