Textiles: manufacturing – Textile product fabrication or treatment – Fiber entangling and interlocking
Reexamination Certificate
2001-06-25
2004-05-25
Vanatta, A. (Department: 3765)
Textiles: manufacturing
Textile product fabrication or treatment
Fiber entangling and interlocking
C028S170000, C026S007000, C264S156000
Reexamination Certificate
active
06739024
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a method for producing a textured, voluminous non-woven web or velourized film from a thermoplastic by producing a non-textured web and subsequently processing said non-textured web using a pair of rollers. Said pair of rollers consists of a positive roller having numerous positive projections distributed over the roll sleeve surface and a negative roller having equally as many cavities. During the rolling process, the positive projections mesh with the cavities and stretch the web in the area of the roller engagements in such a manner that a deep-drawn web texture with numerous cavities is produced.
The above-mentioned method is used in particular for the production of textured, voluminous non-woven webs (DE 195 47 319 A1). For this, a raw web consisting of a large number of individual filaments or of staple fibers is produced from which a raw non-woven web is produced. This raw web is post-processed by a second pair of rollers, whereby the projections engage the cavities and stretch the raw web in the areas of roller engagement.
A similar method can also be used on a non-textured film or velour film, as is known from DE 195 24 076 C1.
Further, a device used to create a moisture-permeable film in which a film of thermoplastic material is heated to the point that adopts a deformation temperature approximating the thermoplastic temperature of the material is known from DE 78 04 47[8] U1. At this temperature, the film is inserted into a pressure gap and shaped during pressing and simultaneous cooling at the thermoplastic temperature range. The pressure gap is formed between a cooled and an engraved metal cylinder and an elastic roller. Behind the pressure gap, the film is further cooled while lying on the metal cylinder. Then the ends of the pressed items formed are caused to shrink by brief heating to, or above, the temperature used to shape the material, causing the openings to be formed.
This known method relates only to smooth film, however, and employs a temperature and shrink cycle that must be adjusted exactly. This results on the one hand in the limitation to a particular raw material, and on the other hand in a complicated temperature process.
SUMMARY OF THE INVENTION
The task is to provide an aperture, perforation, or thinning in the areas provided with cavities at the base of these cavities of a film or web produced in the known manner so that vapor or moisture permeability is possible through these perforations. The invention is therefore in the realm of technology of the production of perforated, three-dimensional webs, particularly as used for disposable hygienic products. For this, the particular task is to expand the method already developed in a relatively simple manner so that the three-dimensional, textured web produced according to that method is provided with perforations at the cavities in a reliable manner without requiring alteration to the basic procedure steps.
This task is solved by an invention manifested in two basic embodiments, whereby a textured web is produced in both cases that is more permeable than the non-textured web.
On the one hand, the method mentioned initially may be so expanded that, after the web has passed through roller gap, the deformed web still adhering to the positive roller may be contacted in the areas of the tips of the projections by a perforating, tearing tool that perforates and particularly tears it, whereby at least one perforation or thinning is created at the base of the cavities.
This procedure first deforms and then creates perforations. The reverse is also possible: the perforation may be implemented and then is torn further starting from the initial perforation. For this, it is recommended that, before the non-textured web is passed through the roller gap, it is perforated or thinned at the tips of the projections by a tool, and at least one perforation or thinning in the area of the base of the future cavities is implemented, and that the positive projections that engage into the cavities and stretch the web in the area of the roller engagement areas should further rip out the cavities at their tips and/or thin them during the rolling process.
Both procedure options represent embodiments of the invention, namely the basic concept that a padded web, namely a non-woven web or velour-textured film, will produce increased tension at the tip areas that is compensated in the course of the procedure and over a certain rest time, but will lead at the moment of formation to the fact that an existing rip or thinning will increase or stretch, so that a perforation or thinning (depending on the material selected) will arise at the desired location. The method is particularly suitable to the method known from DE 195 47 319 in which a non-woven web is used to produce a raw web that consists of a large number of individual filaments that are stretched and positioned irregularly into a fiber position whereby the initial stretching of the individual filaments occurs only in the area of 50% to 70% of their maximum possible length, and are subsequently pressed and welded, and are then processed in this form. The post-processing is then performed by engaging the projections that stretch the raw web in the area of roller engagement, leaving corresponding perforations behind.
It is also possible, however, to use another roller generally to perforate or thin the web that contacts the positive roller after the web has passed over it but is still in contact with it. Needle or heated rollers are the most suitable for this. Needle or heated rollers can be operated at a temperature of 140° C. to 200° C. in the contact areas.
The texturing of the product manufactured by the method based on the invention is improved in that the negative roller includes engraving that is the inverse of engraving on the positive roller, so that when the rollers are removed, protuberances, such as strips and projections arranged on the surface of one of the rollers, mesh with matching grooves and cavities on the surface of the opposite roller.
The projections on the positive roller are advantageously-arranged projections, and the surface of the negative roller includes laminated strips arranged parallel to the axis with cavities positioned between them, so that when the rollers rotate, the laminations mesh in the gaps held free by the projections.
The rollers of the roller pair can be made of metal. In particular, the metal for both rollers should possess the same Rockwell (HRC) hardness exceeding 50 HRC.
It is particularly advantageous to use rollers for the positive and negative rollers that include a metal core and whose roll sleeve surface is formed by a plastic coating of the roller core. Such a plastic sleeve can, in particular, be engraved by laser, whereby the roller may be quickly and cheaply provided with any type of pattern. Since an engraving laser may be very accurate and fully automated, the pattern can be applied with such high precision to the extent that it is possible to provide the plastic-coated surfaces of the positive and negative rollers with very fine patterns that engage each other.
The height of the projections is preferably between 0.8 and 2 mm. The three-dimensional texture of the non-woven web is in the foreground.
The mutual linear separation of the projections should be between 1 and 2.5 mm. The quantity of projections on 100 cm2 of roller surface is preferably between 2,000 and 3,000.
The projections can be produced in various pointed forms, e.g., they may be formed like an onion-shaped tower or a pyramid with a tip angle of 90°±20°.
The rollers can be at different temperatures during the procedure, whereby the temperature of the negative roller is preferably at a temperature at least 20° C. cooler than that of the positive roller.
Polyethylene, polypropylene, polyamide, polyvinyl alcohol, polyester, polyetherester, or polycarbonate has proved to be suitable as raw material for web production.
In general, all thermoplastics from which textured film may be produc
HCD Hygienic Composites Development GmbH
Milde & Hoffberg LLP
Vanatta A.
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