DE102006000780A1 - Laminated absorbing acquisition and distribution laminated structure for sanitary articles, has surface layer, which consists non-woven manufactured by means of spunlace technology and area is provided with hydrophilic features - Google Patents

Abstract

Laminated absorbing acquisition and distribution laminated structure, has a covering layer (2), which consists a non-woven manufactured by spunlace technology and area is provided with hydrophilic features. A transfer layer (4) consist a non-woven manufactured by through-air bonding-technology and area is provided with hydrophilic features. The non-woven of the covering layer and the non-woven of the transfer layer represent a laminated form by hydraulic turbulence. Independent claims are also included for the following: (1) absorbing article (2) method for the production of a laminated absorbing acquisition and distribution laminated structure for absorbing sanitary articles (3) sanitary napkin (4) diaper (5) incontinence protection (6) assembly (7) wiper (8) tampon (9) panty liner.

Description

The The present invention relates to an acquisition and distribution layer structure for absorbent Hygienic articles in the form of a laminate of at least one cover layer and at least one transfer layer, a process for their preparation and an absorbent article containing this layered structure. Furthermore, the invention relates to sanitary napkins, diapers, incontinence protection products, bandages, wipes, panty liners and hygiene products for the personal hygiene, containing the layer structure according to the invention.

absorbent Articles are nowadays used in many different applications. Exemplary are only hygiene products for personal care, diapers, cleaning supplies for the Household or medical applications called. Because these disposable products in big Quantities are used and in demand, it is a constant effort, not only the products as such, but also their large-scale Optimize production. In particular, it is desirable to have absorbent articles To fall back on to be able to the opposite usual Articles have a smaller volume and a lower weight, however, in terms of their absorption properties and their wearing comfort no loss of quality to accept to have.

In the US 6,022,818 For example, a hydroentanglement-associated absorbent structure is described from a first layer containing absorbent fibers, eg, pulp fibers, and a second layer containing so-called matrix fibers, eg, polyolefin staple fibers. While the pulp fibers serve to hold liquid, the absorption capacity of the matrix fibers is less pronounced in order to be able to supply liquid to the absorbent layer. According to the US 6,022,818 For example, the layer of matrix fibers can be made by through-air bonding technique using bicomponent fibers containing a polyethylene sheath and a polyester core. The after the US 6,022,818 However, products obtained, for example sanitary napkins or diapers, still leave something to be desired, in particular with regard to the absorption capacity, the surface grip, the complexity of the production process and the embossability of the surface.

The EP 0 557 678 A1 discloses a hydroentangled composite nonwoven having a spunbonded base layer. This structure is said to be compared with spun lacing produced hydroentangled layers, such as in the US 4,442,161 and the US 4,705,712 characterized by a tensile strength that is equally pronounced in the machine direction and transverse to the machine direction. For this purpose, the spunbonded in the direction transverse to the machine direction Rich by at least 5% of its original length to stretch. The necessity of having to integrate the stretching step in the large-scale, fully automatic production process inevitably causes a greater production cost and production costs.

From the patent application US 20030028985 A1 shows a multi-layer cleaning pad, comprising a cleaning layer, a wiper layer and an absorber layer. Among other things, a nonwoven material is proposed for the wiping layer which is accessible by means of hydroentanglement / spun lacing and through-air bonding technology and can be composed of, for example, cellulose fibers or rayon or polyolefin fibers. The nonwoven wipe layer is preferably hydrophilic. Whether and to what extent the characteristics of the multi-layer cleaning pad according to the patent application US 20030028985 A1 can be transferred to absorbent hygiene products, is left completely open in this document. Also, with such cleaning articles, there is often no need to reduce the weight or volume of the absorbent article. In particular, this document also does not deal with interactions or effects that can be obtained by combining separate, laminated layers, each with a characteristic property profile.

In the US 6,107,539 there is described an absorbent article comprising a front and a backsheet and a liquid collection and distribution region and another region for storing this liquid. In this case, the cover layer may include the area for receiving and distributing liquid and, for example, consist of a cellulosic fiber material. Furthermore, the liquid transport between adjacent distribution and storage areas can be improved by incorporating a thin intermediate layer. The intermediate layer can be obtained, for example, by depositing fibrous material on a porous material by means of air-laying. With the in the US 6,107,539 It should be possible to store liquid more strongly in the absorbent core and, moreover, to ensure an always dry-feeling surface. The absorbent article according to the US 6,107,539 However, it is very complicated to set up and expensive to manufacture, especially in mass production. The machinability of the surface also leaves something to be desired.

The present invention is therefore based on the object of making available an absorbent article which is also inexpensive and uncomplicated in automated mass production can be made whose surface feels like a textile surface and can be easily and permanently embossed with any pattern. A further object of the present invention is to provide an absorbent article which is distinguished by a further reduced density or a reduced basis weight compared to conventional products, without at the same time having to accept losses in its absorption and retention properties.

Accordingly, became a laminated acquisition and distribution layer structure for absorbent Hygiene article found, comprising at least one cover layer, which contains at least one fleece, the made by spunlace technique and that at least partially is provided with hydrophilic properties, and at least one transfer layer, which contains at least one fleece, which is produced by means of through-air bonding technology and the at least partially equipped with hydrophilic properties wherein the fleece of the cover layer and the fleece of the transfer layer represent a hydroentanglement formed laminate.

Under Nonwovens for the purposes of the present invention are intended to be so-called nonwovens be understood. The spunlace technique, also called spunlacing, is usually used to make very soft and flexible fiber webs used and includes a meshing of the fibers below Training a coherent Location. Under spunlacing in the context of the present invention are intended also the methods of water jet needling or the Hydroentanglement with included be. This manufacturing process is for example of a kadierten fiber web, wherein the interlacing of the fibers is achieved in that the fibers with a plurality of adjacent, very fine water jets are subjected under high pressure. For example, you can several rows of water jets directed at the fiber web, which is carried by a mobile network. This procedure finds also described as a so-called hydroentangling process With water jets, the turbulence or interlocking can the fibers of a nonwoven web also by fine high pressure air jets be effected. With the spunlace technique is generally a related Fiber composite obtained, but the fibers are not usually chemically or physically interconnected. For further Details on the spunlace technique is to the Canadian patent CA 841,938 as well as the Encyclopaedia of Polymer Science and Engineering, Vol. 10, pages 204 to 253 (1987).

at The through-air-bonding technique becomes the fibers of a fiber web or a fibrous web, the z. B. obtained by airlaid technique has been treated, controlled with a stream of heated air, so that at least the surfaces Partially melt at least some fibers and with cooling on connect adjacent fibers. For The through-air-bonding technique are especially suitable for so-called Bicomponent fibers with one core and one at low temperature melting outer shell. With such fibers, it is sufficient to melt the envelope, without the integrity of the fiber core is affected. Accordingly, the melting causes and re-solidifying at least some fiber materials already the bond formation in the nonwoven fabric.

The Cover layer over one upper and one opposite Bottom has, can in the absorbent according to the invention Items may be arranged such that the top is open to the outside and easily accessible is while the bottom rests against the top of the transfer layer. alternative For example, the top of the topcoat itself may in turn at least partially with another layer or. Location, z. B. a protective layer be covered. Preferably, the top of the layer also the outside of the absorbent article.

The for the Fleece of the transfer layer used fibers are preferably at least partially meltable in a stream of hot or warm air and in particular comprise so-called bicomponent fibers. alternative or additionally not fusible under the conditions of through-air bonding Fibers can in addition to the conventionally for the Through-air-bonding technique used fibers, such as above also described synthetic fibers from a thermoplastic Material, such as polypropylene, polyethylene, polyester or polyamide fibers, be used.

According to one another embodiment in the production of the nonwoven material for the transfer layer as well are used on thermoplastic powders or granules, which are within the Fibers of this layer are distributed and under the conditions of through-airbonding because of their thermoplastic nature, the bond formation among the Fibers accomplish. The transfer layer or the fleece of the transfer layer can thus be varied Mixtures of natural and / or synthetic fibers, as long as ensured is that the bond formation between the fibers with the help of Through-airbonding technique is done.

Under a laminated acquisition and distribution layer structure for absorbent sanitary articles and a laminated absorbent ar For the purposes of the present invention, in principle those structures or articles are to be understood which are formed from at least one separate cover layer and at least one separate transfer layer, irrespective of whether a layer structure macroscopically forms in the layer structure or the absorbent article according to the invention after completion lets recognize.

fibers with hydrophilic properties necessary for the formation of the topcoat are suitable, are e.g. synthetic and natural fibers with at least an at least partially polar outer surface. For example, under the natural one polar fibers on tree wool fibers and among the synthetic polar ones Fibers are based on fibers of polyamides, polyesters or rayon. Also preferred are synthetic nonpolar fibers, such as e.g. polyolefin, in particular polyethylene and polypropylene fibers, with a polar shell material from e.g. Polyamide or polyesters, so-called bicomponent fibers, for use. Particular preference is given to by means of surface modification hydrophilic equipped polyester fibers used. Such fibers are for example under the trade name Hydrofix from the company DuPont available, for example, in piece lengths of 1.7 or 38 mm. Such a hydrophilic equipped fiber loses even with a water jet treatment not their hydrophilic character.

The especially for the transfer layer to be used bicomponent fibers with spiral crimp and the eccentric nucleus are e.g. about the FiberVision commercially available under the trade name ESC-UB.

In an advantageous embodiment is accordingly provided that the fleece the cover layer and / or the fleece of the transfer layer at least one More, especially bicomponent fiber and / or at least one synthetic fiber, each with at least partially hydrophilic surface. Particularly preferred synthetic fibers include polyolefins, such as Polypropylene fibers and polyethylene fibers, and polyesters, preferably Polyethylene terephthalate fibers, with at least partially hydrophilic Surface.

Of Another is provided in an embodiment according to the invention that the nonwoven of the transfer layer bicomponent fibers with spiral crimp and eccentric core.

there it can be provided that the fleece of the transfer layer is a polyethylene / polypropylene bicomponent fiber includes.

suitable Fibers of the web of the transfer layer can, for. B. at least partially with at least one permanent hydrophilic coating, in particular be equipped with a permanent hydrophilic fiber finish.

Of course you can the nonwoven of the transfer layer also on non-permanent fibers hydrophilic coating or non-permanent hydrophilic fiber finish and on mixtures of the aforementioned fibers with fibers with permanent hydrophilic coating or permanent hydrophilic coating Fiber finish based. Nonwovens for the transfer layer, which is essentially exclusively on Fibers with permanent hydrophilic coating or permanent go back hydrophilic fiber finish, are particularly preferred.

A Another embodiment is characterized in that the cover layer a mixture of at least one bicomponent fiber and a Polypropylene fiber with at least partially hydrophilic surface and the transfer layer is a polyethylene / polypropylene bicomponent fiber include.

A another embodiment further provides that the nonwoven form of cover layer and transfer layer comprise the same fiber material. This can also be applied to absorbent Articles are used, in which the nonwovens of cover layer and transfer layer of the same Consist of fiber material. Particular preference is given to such layer structures, where only the transfer layer, but not the thick film equipped with a multi-component or bicomponent fiber.

By doing for the Cover as well as the transfer layer according to the invention the same fiber materials for Can use, the manufacturing process can be significantly simplified. In addition, designed the logistics of for the manufacturing process available compared to components usual Production process very simple and straightforward. Although the same Fiber materials for the cover and the transfer layer can be used, differentiate Nevertheless, both layers are functional in their functionality, so that the combined property profiles conventional, from different Materials of existing multi-layer absorbent article systems already with the structure according to the invention can be covered.

The transfer layer of the layer structure according to the invention ensures a very good distribution behavior with respect to the absorbed liquid, has a sufficient thickness despite minimal use of material and at the same time also to some extent has fluid absorption properties. The top layer has an excellent recording or acquisition character In addition, it contributes to a very good and lasting embossability of the shift structure.

When especially advantageous for especially medical and hygienic applications has proven that to maintain and maintain the integrity of deck and transfer layer and the laminate formed from these layers, no binding and / or adhesives are required. On the use of so-called Construction adhesive materials commonly used in nonwoven webs come, can completely be waived without loss in terms of the strength of the fleece to have to accept. From Another advantage is that the fluid absorption properties the layer structure according to the invention not be affected by such adhesive materials. The connection of Cover and transfer layer or the fleece of cover and transfer layer In the present case is achieved by means of so-called hydro-turbulence.

Furthermore, it can be provided according to the invention that the basis weight of the cover layer in the range of 10 to 70 g / m ² , in particular in the range of 15 to 50 g / m ² , and particularly preferably in the range of 20 to 35 g / m ² and / or the basis weight of the transfer layer is in the range from 10 to 100 g / m ² , in particular in the range from 20 to 50 g / m ² , and particularly preferably in the range from 35 to 45 g / m ² . Due in part to the fact that the present absorbent article does not necessarily rely on the use of adhesives and / or binders, the basis weight of the components used can be kept very low. Despite these very low basis weights of the nonwovens used and the consequent minimized use of material, the absorbent article according to the invention nevertheless ensures excellent absorption properties and an optimized distribution of the absorbed liquid. In this regard, it has also been found that, despite the low basis weight, the volume of the absorbent articles does not become too low or shallow when using bicomponent fibers with spiral crimp and eccentric core.

Further Embodiments of the present invention are characterized from that the cover layer and / or the transfer layer at least an embossed pattern have or have. Embossed patterns are for absorbent Articles of interest not only because of their aesthetic appeal, but also help to create a so-called textile grip that contributes to a very advantageous wearing comfort. Moreover, by suitable Embossing pattern the integrity and stability the laminate of cover and transfer layer can be significantly increased again. Surprised was found that with the absorbent articles according to the present Invention embossed pattern very easy to bring into the cover and / or transfer layer and remain permanently in these layers. Especially the latter aspect has been found in conventional absorbent articles so far as extremely problematic proved.

suitable embossed pattern are e.g. by water jet stamping, mechanical stamping, accessible with and without heat, and / or ultrasound treatment.

In a further embodiment it can be provided that the cover layer and / or the transfer layer each having at least one embossed pattern or have, in particular, not or not completely overlap.

Further it is suggested that the topcoat and the transfer layer in each case at least one embossing pattern have that do not match in shape and / or size.

there It can be provided that at least one embossing pattern in particular by means of Water jet imprinting is made.

In a particularly preferred embodiment The process of laminate formation is targeted by means of hydro-turbulence used to the layer structure of the invention simultaneously with an embossed pattern to provide. In this way, an additional embossing station can be saved. To effect this, it is already sufficient in many cases, the pad, on which the transfer layer and the cover layer rest, with a three-dimensional negative mold of the desired embossing pattern equip. Advantageously, this negative mold has passages or openings, through which the applied amounts of water can flow.

According to one Another aspect of the present invention is an absorbent Article provided, which, in this order, at least one layer structure according to the invention, at least one absorbent core, in particular immediately adjacent to the transfer layer of the layered structure, and optionally at least one fluid-impermeable Barrier layer has. Such absorbent articles include for example sanitary napkins, diapers, incontinence protection articles, bandage materials, Panty liners and wipes. Further Is it possible, Also to equip tampons with the absorbent article.

• a) Herstellen mindestens eines Vlieses für mindestens eine Deckschicht, umfassend eine Ober- und eine gegenüberliegende Unterseite, aus hydrophilen Fasern und/oder Fasern mit einer hydrophilen Beschichtung mittels Spunlace-Technik,
• b) Herstellen mindestens eines Vlieses für mindestens eine Transferschicht, umfassend eine Ober- und eine gegenüberliegende Unterseite, aus hydrophilen Fa sern und/oder Fasern mit einer hydrophilen Beschichtung mittels Through-air bonding-Technik, und
• c) Bilden eines Laminats aus Deckschicht und Transferschicht mittels Hydroverwirbelung der Vliese von Deck- und Transferschicht, wobei die Unterseite der Deckschicht und die Oberseite der Transferschicht benachbart zueinander sind.

The object underlying the invention is further achieved by a method for producing a laminated absorbent acquisition and distribution layer structure for absorbent hygiene articles, comprising the steps:

• a) producing at least one nonwoven fabric for at least one cover layer comprising a top and an opposite underside of hydrophilic fibers and / or fibers having a hydrophilic coating by means of spunlace technique,
• b) producing at least one nonwoven fabric for at least one transfer layer, comprising an upper and an opposite underside, made of hydrophilic fibers and / or fibers with a hydrophilic coating by means of through-air bonding technique, and
• c) forming a laminate of cover layer and transfer layer by hydrovailing the nonwovens of cover and transfer layer, wherein the underside of the cover layer and the top of the transfer layer are adjacent to each other.

In a development of the method is or will be the upper and / or the Bottom of the cover layer and / or the transfer layer before Laminate formation with at least one embossed pattern and / or the formed Laminate of topcoat and transfer layer from the top of the Cover layer and / or from the bottom of the transfer layer with at least one embossing pattern Mistake.

A Further development of the method according to the invention provides that in step c) the cover layer and / or the transfer layer before the laminate formation by means of water jet embossing with at least one embossing pattern is or will be provided. It is of course also possible that in step c) the cover layer and the transfer layer in the laminated Condition after hydroentanglement with at least one embossed pattern be provided.

With the absorbent articles of the present invention is the surprising Accompanying knowledge, in a simple manufacturing technology To be able to receive a product the above has a very low basis weight, but sufficiently thick is and about a very good liquid absorbency and a very good liquid distribution characteristic features. By combining two nonwoven layers, each according to a special Processes have been made, one of the spunlace technique for the Top layer and on the other hand, the through-air bonding technique for the transfer layer, can even when using identical materials, absorbent laminate systems are obtained, whose individual layers have different functions which complement each other in a very effective way. When Particularly advantageous has been found that the absorbent of the invention Article completely unproblematic and also be permanently provided with an embossed pattern. The Products obtained in this way are especially after the embossing process with a surface equipped that feels like as if it were a textile surface. The comfort of the with Products made of these absorbent articles, for example diapers or sanitary napkins, can thus sustainably increased. Unlike conventional absorbent articles are also not required in the present case to the quality or property improvement the absorbent article a stretching process to undergo. As a result, the production process according to the invention is very simple being held.

With Help the layer structure according to the invention can be achieved by combining a spunlace technique obtained cover layer and a through-air bonding technique obtained transfer layer For example, especially panty liners particularly efficient produce. By fibers of the cover layer with fibers of the transfer layer be interwoven by the hydro-entanglement process, without it for that one chemical process or an adhesive material needed succeed an improved fluid absorption and also an improved Distribution of fluids over the entire extent of the layer structure. Remarkably Furthermore, that by means of Wasserstrahlprägens in the layer structure according to the invention received embossing pattern show very clear and permanent edge or edge courses. In addition, pits with a wide variety of depths are possible into the layer material by means of water jet embossing. Further, from significant advantage that treated by Wasserstrahlprägens Layer structures according to the invention no longer or only greatly reduced tend to frazzle, which considerably increases the wearing comfort. With the laminate according to the invention it is, moreover possible, for the a cover layer fleece produced by means of spunlace technique lower basis weight to use. This results in a very thin layer structure allows however we use the layer material according to the invention as a structure with a pronounced perceived three-dimensional extent.

Compared to conventional, commercially available Layer or Absorbtionsstrukturen is the layer structure of the invention at least in terms of rewettability and absorbency par. Under rewettability or rewettability in the present case, the retention or retention capacity of the layer structure in Be understood with regard to recorded fluid.

Thus, the layer structure according to the invention is characterized by an improved embossability, an improved absorption capacity and also by improved acquisition and distribution characteristics. With the layer structure according to the invention, it is now even possible to obtain liquid and to distribute it appropriately.

Surprisingly was also found that the laminated layer structure according to the invention or a fabric web of this layer structure by an improved uniformity distinguished. Also, no delamination phenomena between cover and transfer layer observed, and although no binder or adhesive between these layers are used. In this way, moreover, can be the production process of the layer structure according to the invention very much easy to represent.

Further Features and advantages of the invention will become apparent from the following Description, in an embodiment will be explained in detail with reference to a schematic drawing. there this figure shows a schematic side view of a device for the Production of the Layer Structure According to the Invention

The layer structure 1 is made up of a topcoat 2 and a transfer layer 4 together. The nonwoven web of the top layer 2 will happen after passing the carding unit 6 a hydro vortex device 8th fed. The transfer layer produced by through-air-bonding technology 4 after passing through a through-air bonding device 10 also the hydro-swirling device 8th fed. This hydro-swirling device 8th comprises an at least partially perforated cylinder 16 on which the topcoat 2 and the transfer layer 4 rest, leaving the topcoat 2 is in direct contact with the cylinder surface while the transfer layer 4 at least in the areas on the underside of the topcoat 2 rests in which the hydro-turbulence by means of hydrodynamic unit 12 as part of the device 8th goes on. The hydrodynamic unit 12 has a large number of water jet nozzles, through each of which a very fine high-pressure water jet can be applied to the transfer layer. Already during the formation of the laminate of cover and transfer layer by means of hydroentanglement, one or more patterns can be incorporated into the layer structure, in particular from the side of the cover layer, by suitable configuration of the surface of the cylinder. In one of the hydro turbulence unit 12 downstream water jet embossing device 14 can then further or can then be incorporated for the first time an embossing pattern in the layer structure. The material obtained in this way is particularly suitable as a cover layer system for panty liners and sanitary napkins. It is characterized by a particularly soft surface, which feels on the skin like conventional textile fabric and thus guarantees a very high wearing comfort.

The rewettability or the retention capacity and the absorption capacity of a laminated structure according to the invention are reproduced by way of example below. This laminate structure comprises a cover layer made of 65% by weight of viscose fibers and 35% by weight of PET fibers produced by means of spunlace technology and a transfer layer made of 70% by weight of bicomponent fibers "ES-Delta" produced by through-air bonding FiberVisions and 30% by weight PET fibers "Fillwell" from Wellmann. Cover and transfer layer were connected by means of hydroentanglement. The basis weight of the cover layer was 55 g / m ² , that of the transfer layer 40 g / m ² .

The absorbance the in outline form a sanitary napkin present laminate structure was tested by 7 ml of aqueous test liquid were dripped onto a point of the cover layer in such a way that each Drop penetrated into the laminate structure and was absorbed. Of the Period between the onset of the first fluid drop and the complete absorption the last drop of liquid was about 14 seconds.

The retention capacity of this laminate structure was determined in such a way that the preceding described, with liquid soaked product covered with ten layers of filter paper MN 615 (Macherey and Nagel) and for was weighted for three minutes with a weight of 5 kg. The difference between the weight of the filter paper in the dry state and after three minutes Contact with the test liquid containing a laminate structure provides a measure of their retention capacity and was in the present case 1.4 g.

The in the foregoing description, in the drawing and in the claims disclosed features of the invention both individually and in any combination for the realization be essential to the invention in its various embodiments.

Claims (22)

Laminated absorbent acquisition and distribution layer structure for hygiene articles, comprising at least one cover layer, the at least one fleece contains which is made by spunlace technique and that at least partially is provided with hydrophilic properties, and at least one Transfer layer containing at least one nonwoven, which by means of through-air Bonding technique is produced and that at least partially with hydrophilic properties, where in the web of the Cover layer and the fleece of the transfer layer by means of hydroentanglement represent formed laminate. Layer structure according to claim 1, characterized in that in that the fleece of the cover layer and / or the fleece of the transfer layer at least one multi-component, in particular bicomponent fiber, and / or at least one synthetic fiber, each with at least some area hydrophilic surface, includes. Layer structure according to Claim 1 or 2, characterized that the web of the transfer layer bicomponent fibers with spiral crimp and eccentric core. Layer structure according to one of the preceding claims, characterized in that the nonwoven of the transfer layer a Polyethylene / polypropylene bicomponent fiber. Layer structure according to one of the preceding claims, characterized in that the fibers of the web of the transfer layer at least partially at least one permanent hydrophilic coating, especially a permanent hydrophilic fiber finish. Layer structure according to one of the preceding claims, characterized in that the cover layer and the transfer layer comprise the same fiber material or from the same fiber material consist. Layer structure according to one of the preceding claims, characterized in that the basis weight of the cover layer in the range of 10 to 70 g / m ² , in particular in the range of 15 to 50 g / m ² , and / or the basis weight of the transfer layer in the range of 10 to 100 g / m ² , in particular in the range of 20 to 50 g / m ² , is or lie. Layer structure according to one of the preceding claims, characterized in that the cover layer and / or the transfer layer at least one embossing pattern have or have. Absorbent article comprising at least one Layer structure according to a of the preceding claims, at least one absorbent core, in particular immediately adjacent to the transfer layer of the layer structure, and optionally at least a fluid-impermeable Barrier layer facing the side of the absorbent core is opposite to the laminate of cover layer and transfer layer. Process for producing a laminated absorbent Acquisition and distribution layer structure for absorbent sanitary articles according to one the claims 1 to 8, comprising the steps: a) producing at least one Fleece for at least one cover layer comprising a top and an opposite one Bottom, made of hydrophilic fibers and / or fibers with a hydrophilic Coating by spunlace technique, b) Producing at least one nonwoven fabric for at least one transfer layer, comprising a top and an opposite bottom, off hydrophilic fibers and / or fibers having a hydrophilic coating using through-air bonding technology, and c) forming a laminate from cover layer and transfer layer by means of hydroentanglement of the Nonwovens of cover and transfer layer, with the underside of the cover layer and the top of the transfer layer are adjacent to each other. Method according to claim 10, characterized in that that the fleece for the transfer layer comprises bicomponent fibers. Method according to claim 11, characterized in that that the bicomponent fibers have a spiral crimp and an eccentric core exhibit. Method according to one of claims 10 to 12, characterized that the fleece for the cover layer bicomponent fibers and / or at least one polypropylene fiber, each with at least partially hydrophilic surface comprises. Method according to one of claims 10 to 13, characterized in step c) the cover layer and / or the transfer layer before the laminate formation by means of water jet embossing with at least one embossing pattern is or will be provided. Method according to one of claims 10 to 14, characterized in step c), the laminate of cover layer and transfer layer by means of water jet stamping with at least one embossed pattern is provided. Sanitary napkin comprising at least one layered structure according to one the claims 1 to 8. Diaper comprising at least one layered structure according to one the claims 1 to 8. Incontinence protection comprising at least one layered structure according to one the claims 1 to 8. A dressing comprising at least one layered structure according to one the claims 1 to 8. Wipe, comprising at least one layered structure according to one the claims 1 to 8. Tampon comprising at least one layered structure according to one the claims 1 to 8. Panty liner comprising at least one layered structure according to one the claims 1 to 8.