WO 00/63479 teaches the supporting of even three-dimensional finite materials, such as starting products or intermediate products, between two fabric webs such as nonwovens, employing hydrodynamic needling to connect and consolidate the nonwovens by felting their fibers, and thus sealing the materials three-dimensionally.
Insofar as the consolidation process proceeds continuously along the length of the advancing sandwich web—regardless of whether the three-dimensional materials run parallel or perpendicular to the fabric web's direction of transport—this approach is no different than the previously known consolidation method by needling according to, for example, U.S. Pat. No. 3,508,308. If the materials are finite, however, and if the goal is not to treat them, or to treat them only partially, with water jets in the region of the materials, then the materials are not able to be partially consolidated two-dimensionally, or wrapped three-dimensionally, using the previously known methods.
The goal of the invention is to find a method, and associated device, by which even such finite materials as prefabricated padding and/or absorbent inserts for diapers, surgical pads, compresses, possibly also patches or similar finished products, may be consolidated continuously, possibly partially over their entire surface, but possibly also bonded to the, possibly two, advancing upper and lower nonwovens or the like, partially three-dimensionally, while excluding the surface of the materials—with the result that the materials are three-dimensionally enclosed and sealed. The final products for sanitary, medical, or other applications should be capable of being treated continuously, but targeted to the specific, even three-dimensional product, in varying ways over their surface.
Situations are also conceivable whereby a two-dimensional nonwoven or nonwoven product is compacted, and also consolidated, over its surface only partially, or in order to achieve certain effects on its surface. The method to be found should thus also be useful for modifying the form of this only partial consolidation of the nonwoven or compound material.
Based on a method of hydrodynamic compaction and/or consolidation and/or binding in the case of at least two superimposed nonwovens, tissues, or woven or knitted materials using fluid jets acting uniformly over the working surface, whereby a fluid is sprayed from the jet strip of a jet manifold, the strip extending over the working width, from fine jet orifices arranged closely in rows at a high pressure of up to 1000 bar against a fabric web advancing opposite the jet manifold, the invention achieves the goal by briefly preventing the fluid jets emerging continuously, unmodified, from the jet manifold from striking the advancing fabric web so as to leave sections, lines, or surfaces of the fabric web untreated by the water jets. The water jets or the water pressure may also be generated in unmodified fashion within the water manifold, after which the water jets are at least partially prevented from reaching the fabric web. This is possible, for example, by briefly diverting the water jets from their generated direction by moving an object into the flow direction of the water jets in a time-defined manner, the object consequently modifying the trajectory of the water jets, possibly for a brief moment. This technique allows products to remain untreated in regions where the purpose is to allow them to retain loft, thus preserving the specific absorption capacity of the existing products.
A similar effect may be achieved by having the individual jet orifices, groups of jet orifices, or individual segments of a wider jet manifold be supplied intermittently with fluid, or discharge the fluid intermittently—an effect which may be achieved by electromechanically, electromagnetically, or piezoelectrically controlled valves or groups of valves (in parallel or sequentially). Such techniques enable pulsating fluid jets to be directed in situ, that is, against specific, precisely defined regions of the material to be treated hydrodynamically, thereby achieving strengthening or consolidation according to a predefined pattern.
This is similarly possible if the object moving into the trajectory of water jets is part of a belt moving along with the fabric web, or part of the peripheral surface of a drum. One aspect that must be considered here, however, is that the required surface on the belt or drum is able to be guided or held laterally, and thus advanced. Consequently, this fluid-permeable region, such as a screen or perforated panel must present at least partial resistance along the jets of fluid. The result is any desired pattern such as a weave or waffle pattern in the consolidation zone. Multiple application examples exist. Paper may be provided with a kind of watermark, or tissue may be provided with a surface structure customized for the production company or its customers. Typical examples here include absorbent cotton products which are provided on one or both sides with a light surface structure which has a linear depression, that is, a network, of parallel straight or alternate lines.
Another approach to achieving the goal is to have the jet manifold or the jet orifices move relative to the fabric web, or vice versa. At the same time, it is also possible to affect the discharge of water from the jet or the jet manifold in terms of pressure and/or volume at short intervals. A variety of methods are conceivable to implement this idea. Individual jet orifices may be used which are connected to the pressure pump creating the water pressure. However, a conventional jet manifold may also be employed to which individual jet orifices are connected, the jet orifices being in turn provided with valves which use a computer, for example, to create or not to create a specific pattern using water jets. This approach may also be employed to reduce in a targeted fashion the treatment of the consolidation material, or to concentrate it on specific partial surfaces, points, or lines. To do this, an intermittent action or pulsation of the jets is required.
This punctiform or short broken-line-type needling may be used to achieve a kind of hydrodynamic sewing, basting, or tacking, i.e. to achieve this without any thermoplastic consolidation of the nonwoven product which would diminish the desired absorption effect of the product. The flexibility provided in this area is enormous. Consolidation may be effected for all formats or patterns. The system may be applied specifically to the medical industry.
Using this approach, previously individually fabricated starting products may be given final treatment, consolidated, and enclosed in envelopes continuously. After drying and/or additional enhancement, the product web may be wound up in large rolls, as is usual with these discontinuous products, shipped out, or, after transverse and longitudinal separation, sent on locally for individual applications or for packaging in boxes, etc.
The drawing presents in schematic form several examples of devices for implementing the method according to the invention.
A jet manifold is composed essentially of components such as those described in European Patent A-0 725 176. The disclosure of this Offenlegungsschrift is therefore incorporated herein by reference.
A jet manifold 1, such as that shown in simplified form in
As seen in
To accomplish this,
To achieve a consolidation required in multiple steps, as shown in
It is also possible here to employ differently fabricated jet strips which are effective over their length with differently perforated and/or non-perforated regions within the jet manifold. If, for example, jet strips 4 have holes only where the water jets 5′ emerge in
Jet strips with holes distributed differentially over their length or with non-perforated regions may also function on their own to effect intermittent consolidation. In this way, patterns may be incorporated in the nonwoven by jets which match the design of the jet strips.
Individual jet orifices or smaller water manifolds 1 are provided in the embodiment of
Consumer good 7 may be consolidated with the same pattern, also using the device of
Number | Date | Country | Kind |
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100 64 687.5 | Dec 2000 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP01/14973 | 12/18/2001 | WO |