ABSORBENT ARTICLES WITH CHANNELS

专利摘要:
ï »¿----------------------- page 1 ---------------------- - 1/1 abstract "absorbent articles with channels" the present disclosure refers, in part, to an absorbent article comprising a liquid wool control system (lms) and an absorbent core disposed, at least partially, between an upper layer and a lower layer. the lms defines one or more channels in it. the one or more channels of the lms may, at least partially, overlap or not overlap with the channels defined in the absorbent core.
公开号:BR112016004346A2
申请号:R112016004346
申请日:2014-08-25
公开日:2020-04-14
发明作者:Chatterjee Aniruddha；Simon Beate；Arizti Blanca；Donald Roe Carroll；Heinrich Kreuzer Carsten；Beate Martynus Cornelia；Boesel Julia；Quinlan Ames-Ooten Kathy；Stelzig Lutz；Brigid O'reilly Marie；Edward Ii Greening Nelson；Eden Walther Rachael；Rosati Rodrigo；Sautter Sandra；Irene Grenberg Sharon
申请人:Procter & Gamble；
IPC主号:

专利说明:

ABSORBENT ARTICLES WITH CHANNELS
FIELD OF THE INVENTION [0001] The present disclosure relates, in general, to absorbent personal hygiene articles. Each of the absorbent articles may comprise channels.
[0002] BACKGROUND [0003] Personal hygiene absorbent articles are designed to absorb and contain bodily exudates. Such absorbent articles may comprise several layers that offer different functions, for example, an upper layer, a lower layer and an absorbent core disposed between the upper layer and the lower layer, among other layers.
[0004] The function of the absorbent core is to absorb and retain the body exudates for a prolonged period of time, for example, from one day to the next, for a diaper, to minimize re-wetting to keep the user dry and to avoid dirtying clothes or the sheets. Some absorbent articles currently available on the market comprise an absorbent material that is a mixture of crushed wood pulp (ie, aerated felt) with superabsorbent polymers (SAP) in the form of particulate matter, also called absorbent gelling materials (MGA). Absorbent articles with a core consisting essentially of SAP as the absorbent material (called aerated felt-free cores) have also been proposed, but are less common than traditional mixed cores.
[0005] Absorbent articles may also comprise a capture system or layer. A function of such a system or layer is to quickly capture liquids or other bodily exudates and distribute them to the nucleus
2/89 absorbent efficiently. The capture layer or system may comprise one or more layers that may form a unitary layer or may remain as separate layers. The layers can be bonded together and can be arranged between the absorbent core and the top layer. Some absorbent articles may typically comprise leg clamps that provide improved retention of liquids and other bodily exudates. Leg clamps can also be called leg bands, side flaps, barrier clamps or elastic clamps. Typically, each leg clamp comprises one or more strands or elastic elements comprised in the diaper chassis, for example, between the top layer and the bottom layer in the area of the leg openings to provide an effective seal while the absorbent article is in use. . Such elastic elements, which can be substantially flat with the chassis of the absorbent article, will be referred to in the present invention as sealing clamps. It is also common for leg clamps to comprise sustained elasticized flaps, referred to here as barrier leg clamps, which improve fluid confinement in the leg and torso joint regions.
[0006] Absorbent articles generally have a high absorbent capacity and the absorbent core can expand its weight and volume several times. These increases can cause absorbent articles to sag in the region between the thighs as they become saturated with liquid, which can cause the leg leg clamps to partially lose contact with the wearer's skin. This can lead to a loss of functionality for
3/89 leg clamps with barrier, with possible increase in leakage. As the absorbent core expands with other bodily exudates, the capture layer or system may, undesirably, detach or otherwise separate from the absorbent core. In addition, some absorbent articles are not designed to effectively handle urine and faeces in a single product. Therefore, the performance of the absorbent articles may be undesirable and using such absorbent articles may be uncomfortable.
[0007] Although several solutions to this problem have been proposed, the domain can benefit from additional channel and / or pocket configurations that improve urine and stool control and prevent leakage in absorbent items and that improve user comfort. .
SUMMARY [0008] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable and a liquid-impermeable material. The absorbent article comprises an absorbent core disposed at least partially between the liquid-permeable material and the liquid-impervious material, and comprising an absorbent material. The absorbent material comprises at least 85% superabsorbent polymers by weight of the absorbent material. The absorbent core defines a first channel substantially free of superabsorbent polymers, and the first channel extends substantially through the thickness of the absorbent material. The absorbent article comprises a liquid control system positioned at least partially between the liquid-permeable material and the absorbent core. The liquid control system is
4/89 substantially free of any superabsorbent polymers and defines a second channel. The second channel extends substantially through the thickness of the liquid control system.
[0009] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable material and a liquid-impermeable material. The absorbent article comprises an absorbent core disposed at least partially between the liquid-permeable material and the liquid-impervious material, and comprising an absorbent material. The absorbent material comprises at least 85% superabsorbent polymers by weight of the absorbent material. The absorbent core defines a first channel substantially free of superabsorbent polymers, and the first channel extends substantially through the thickness of the absorbent material. The absorbent article comprises a liquid control system comprising a first layer and a second layer. The first layer is positioned at least partially between the liquid-permeable material and the second layer, and the second layer is positioned at least partially between the first layer and the absorbent core. The first layer or the second layer defines a second channel. The liquid control system is substantially free of any superabsorbent polymers.
[0010] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable material, a liquid-impervious material and an absorbent core disposed at least partially between the liquid-permeable material and the impermeable material to
5/89 liquids, and which comprises an absorbent material. The absorbent material comprises superabsorbent polymers. The absorbent article comprises a liquid control system positioned at least partially between the liquid-permeable material and the absorbent core. The liquid control system is substantially free of any superabsorbent polymers and comprises cross-linked cellulosic fibers. The liquid control system defines a channel.
[0011] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable material and a liquid-impermeable material. The absorbent article comprises an absorbent core disposed at least partially between the liquid-permeable material and the liquid-impervious material, and comprising an absorbent material. The absorbent material comprises at least 85% superabsorbent polymers by weight of the absorbent material, and the absorbent core defines a first channel substantially free of superabsorbent polymers. The absorbent article comprises a liquid control system positioned at least partially between the liquid-permeable material and the absorbent core. The liquid control system is free of any superabsorbent polymers. The liquid control system defines a second channel defined therein and a portion of the liquid permeable material is embedded in the second channel.
[0012] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable material and a liquid-impermeable material. The absorbent article comprises an absorbent core
6/89 disposed at least partially between the liquid-permeable material and the liquid-impermeable material, and comprising an absorbent material. The absorbent material comprises at least 85% superabsorbent polymers by weight of the absorbent material, and the absorbent core defines a first channel substantially free of superabsorbent polymers. The absorbent article comprises a first material positioned at least partially between the liquid-permeable material and the absorbent core. The first material is substantially free of superabsorbent polymers. The absorbent article comprises a second material positioned between the first material and the absorbent core. The second material is substantially free of any superabsorbent polymers and defines a second channel. A portion of the first material is embedded in the second channel.
[0013] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable material and a liquid-impermeable material. The absorbent article comprises an absorbent core disposed at least partially between the liquid-permeable material and the liquid-impermeable material, and comprising an absorbent material. The absorbent article comprises a separating element which extends substantially laterally, at least partially defining an anterior visual portion and a posterior visual portion of the absorbent article. The absorbent article comprises a liquid control system positioned at least partially between the liquid-permeable material and the absorbent core. The liquid control system defines a channel formed in its
7/89 interior, having a physical property. The channel has a first physical property value in the anterior visual portion and a second physical property value in the posterior visual portion. The first physical property value of an anterior portion of the channel is different from the second physical property value of a posterior portion of the channel.
[0014] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable material and a liquid-impermeable material. The absorbent article comprises an absorbent core disposed at least partially between the liquid-permeable material and the liquid-impervious material, and comprises an absorbent material and a separating element which extends substantially laterally at least partially visually defining an anterior portion and a portion back of the absorbent article. The absorbent article comprises a liquid control system positioned at least partially between the liquid permeable material and the absorbent core, in which the liquid control system defines a channel. The channel is positioned in the anterior or posterior portion.
[0015] The present disclosure relates, in part, to an absorbent article comprising a liquid-permeable material and a liquid-impermeable material. The absorbent article comprises an absorbent core disposed at least partially between the liquid-permeable material and the liquid-impermeable material, and comprising an absorbent material. The absorbent core defines a first channel substantially free of the absorbent material, and the first channel extends substantially through the thickness of the absorbent material. 0 absorbent article
8/89 comprises a separating element which extends substantially laterally, at least partially defining an anterior visual portion and a posterior visual portion of the absorbent article. The absorbent article comprises a liquid control system positioned at least partially between the liquid-permeable material and the absorbent core. The liquid control system comprises a second channel formed therein and overlaps at least a portion of the first channel.
BRIEF DESCRIPTION OF THE DRAWINGS [0016] The above and other characteristics and advantages of the present description, as well as the way to obtain them, will be more evident, and the revelation itself will be better understood by reference to the following description of non-limiting modalities of the revelation , taken in conjunction with the attached drawings, in which:
[0017] Figure 1 is a top view of an absorbent article with some layers partially removed, according to a non-limiting embodiment of the present disclosure;
[0018] Figure 2 is a cross-sectional view of the absorbent article taken approximately on line 2-2 of figure 1 according to a non-limiting embodiment of the present disclosure;
[0019] Figure 3 is a view of the absorbent article of figure 2 where the absorbent article was loaded with fluid according to a non-limiting embodiment of the present disclosure;
[0020] Figure 4 is a top view of another absorbent article with some layers partially
9/89 removed in accordance with a non-limiting embodiment of the present disclosure;
[0021] Figure 5 is a cross-sectional view of the absorbent article taken approximately on line 5-5 of figure 4 according to a non-limiting embodiment of the present disclosure;
[0022] Figure 6 is a top view of an absorbent core of the absorbent article of Figure 4 with some layers partially removed according to a non-limiting embodiment of the present disclosure;
[0023] Figure 7 is a cross-sectional view of the absorbent core taken approximately on line 7-7 of Figure 6 according to a non-limiting embodiment of the present disclosure;
[0024] Figure 8 is a cross-sectional view of the absorbent core taken approximately on line 8-8 of figure 6 according to a non-limiting embodiment of the present disclosure;
[0025] Figure 9 is a top view of a liquid control system of the absorbent article of figure 4, with some layers partially removed according to a non-limiting embodiment of the present disclosure;
[0026] Figure 10 is a cross-sectional view of the liquid control system taken approximately on line 10-10 of figure 9 according to a non-limiting embodiment of the present disclosure;
[0027] Figures 11 to 26 are seen in partial cross-section of absorbent articles comprising channels in a liquid control system in accordance with various non-limiting modalities of the present disclosure;
10/89 [0028] Figures 27 to 34 are seen in partial cross section of absorbent articles comprising structural channels and separators in a liquid control system in accordance with various non-limiting modalities of the present disclosure;
[0029] Figures 35 to 40 are top views of absorbent articles that comprise channels in a liquid control system according to various non-limiting modalities of the present disclosure; and [0030] Figure 41 is a top view of an absorbent article that is a hygienic absorbent with some of the layers cut out, according to a non-limiting embodiment of the present disclosure.
DETAILED DESCRIPTION [0031] Various non-limiting embodiments of the present disclosure will now be described, to provide a general understanding of the principles of structure, function, manufacture and use of absorbent articles with the channels and methods for manufacturing them, described herein. One or more examples of these non-limiting modalities are illustrated in the attached drawings. Those skilled in the art will understand that the absorbent articles with channels and the methods for making them, described and illustrated in the accompanying drawings, are examples of non-limiting modalities, and that the scope of the various non-limiting modalities of this description is defined only for the claims. The features illustrated or described in connection with a non-limiting modality can be combined with the features of other non-limiting modalities. These modifications and variations are intended to be included in the scope of this description.
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Introduction [0032] For use in the present invention, the term absorbent article refers to disposable devices, such as diapers for babies, children or adults, pants-type diapers, training pants, sanitary napkins, diaper inserts and the like, which are placed in contact with or near the user's body to absorb and contain the various exudates released by the body. Typically, these articles comprise an upper layer, a lower layer, an absorbent core, a capture system (which can be referred to as a liquid control system and can be comprised of one or more layers) and usually other components, with the absorbent core normally placed at least partially between the lower layer and the capture system, or between the upper layer and the lower layer. The absorbent articles of the present disclosure will be further illustrated in the description below and in the Figures in the form of a diaper with adhesive tapes. Nothing in this description should, however, be construed as limiting the scope of the claims. As such, the present disclosure applies to any suitable form of absorbent articles (e.g., training pants, adult incontinence products, sanitary napkins).
[0033] The term nonwoven blanket, as used here, means a sheet, thin blanket or blanket made of directionally or randomly oriented fibers, joined by friction and / or cohesion and / or adhesion, excluding paper and products that are woven, knitted, tufted or needled incorporating thread or filament, or felted by wet grinding, additionally sewn or
12/89 no. The fibers can be of natural or synthetic origin and can be textile fibers or continuous filaments or can be formed locally. Commercially available fibers can have diameters in the range of less than about 0.001 mm to more than about 0.2 mm and can be available in several different forms, such as short fibers (known as textiles or cut), single continuous fibers (filaments or monofilaments), non-twisted groups of continuous filaments (tow), and twisted groups of continuous filaments (twisted yarn). Nonwoven blankets can be formed through many processes, such as blowing via spinning, continuous spinning, solvent spinning, electrospinning, carding and air deposition. the base weight of non-woven blankets is generally expressed in grams per square meter (g / m ² or gsm).
[0034] The terms joined or connected or fixed as used in this document, cover the configurations by which an element is directly attached to another by directly joining them, as well as configurations by which the element is indirectly attached to another by joining the first to one or more intermediate members who, in turn, are attached to the other element.
[0035] The term channel as used here, is a region or zone in a layer of material that has a substantially lower base weight (for example, less than 50%, less than 70%, less than 90%) than the material surrounding in the material layer. The channel can be a region on a layer of material that is substantially free of material (for example, 90% free of material, 95% free of material or 99% free of material, or completely free
13/89 of material). A channel can span one or more layers of material. The channels generally have a smaller bending modulus than the surrounding regions of the material layer, allowing the material layer to bend more easily and / or contain more bodily exudates within the channels than in the areas surrounding the material layer. Thus, a channel is not merely an indentation in the material layer that does not create a reduced base weight in the material layer in the channel area.
General description of the absorbent article [0036] An exemplary absorbent article 20, according to the present disclosure, shown in the form of a baby diaper, is shown in figures 1 to 3. Figure 1 is a plan view of the example diaper, in a flat state, with portions of the structure being cut out to show the construction of the diaper more clearly. This diaper is shown for illustration purposes only, as the present disclosure can be used to produce a wide variety of diapers or other absorbent articles.
[0037] The absorbent article may comprise a liquid-permeable top layer 24, a liquid-impermeable bottom layer 25, an absorbent core 28 positioned at least partially between the top layer 24 and the bottom layer 25 and leg clamps with barrier 34. The absorbent article may also comprise a liquid control system (LMS) 50 (shown in figure 2), which in the example shown comprises a distribution layer 54 and a capture layer 52, which will be further detailed below. In various embodiments, the capture layer 52 can, instead, distribute the body exudates and the distribution layer 54 can, in
14/89 instead, capture the body exudates, or both layers can distribute and / or capture the body exudates. The LMS 50 can also be supplied as a single layer, or as two or more layers. The absorbent article may also comprise elasticized sealing clamps 32 attached to the chassis of the absorbent article, usually through the top layer and / or the bottom layer, and substantially flat with the diaper frame.
[0038] The figures also show typical tapered diaper components, such as a fastening system comprising adhesive flaps 42 or other mechanical fasteners fixed towards the rear edge of the absorbent article 20 and which cooperate with a contact zone 44 on the front of the absorbent article 20. The absorbent article may also comprise other typical elements, which are not represented, such as an elastic detail of the posterior waist, an elastic detail of the anterior waist, one or more cross-leg leg clamps and / or an application of lotion , for example.
[0039] The absorbent article 20 may comprise an edge of the anterior waist 10, an edge of the posterior waist 12 longitudinally opposite the edge of the anterior waist 10, a first lateral edge 3 and a second lateral edge 4, opposite laterally to the first lateral edge 3 The edge of the front waist 10 is the edge of the absorbent article 20 intended to be placed facing the front of the user when used, and the edge of the back waist 12 is the opposite side. The absorbent article may have a longitudinal axis 80 extending from the lateral midpoint of the edge of the anterior waist 10 to a lateral midpoint of the edge of the posterior waist 12 of the absorbent article 20 and dividing the
15/89 absorbent article 20 in two halves substantially symmetrical with respect to the longitudinal axis 80, with the article placed horizontally and seen from above, as in Fig. 1. The absorbent article can also have a lateral axis 90 extending from the midpoint longitudinal from the first lateral edge 3 to the longitudinal midpoint of the second lateral edge 4. The length L of the absorbent article 20 can be measured along the longitudinal axis 80 from the edge of the anterior waist 10 to the edge of the posterior waist 12. The width the genital region of the absorbent article 20 can be measured along the lateral axis 90 from the first lateral edge 3 to the second lateral edge 4. The absorbent article 20 can comprise a hook height C defined in the present invention as the point arranged on the axis longitudinal at a distance of two fifths (2/5) of L, from the front edge 10 of the absorbent article 20. The absorbent article 20 may comprise a region of the anterior waist 5, a region of the posterior waist 6 and a region between the thighs 7. Each of the region of the anterior waist, the region of the posterior waist and the region between the thighs define 1/3 of the longitudinal length of the absorbent article.
[0040] The top layer 24, the bottom layer 25, the absorbent core 28 and the other components of the article can be assembled in a variety of configurations, in particular, by gluing or hot embossing, for example. Exemplary diaper configurations are generally described in US Patent No. 3,860,003, in US Patent No. 5,221,274, in US Patent No. 5,554,145, in US Patent No. 5,569,234, in US Patent No. 5,580. 411 and US Patent No. 6,004,306. The absorbent article can be thin. The gauge at hook height C or in the region between the thighs
16/89 of the absorbent article 20 can be, for example, from 4.0 mm to 12.0 mm or, alternatively, from 6.0 mm to 10.0 mm.
[0041] The absorbent core 28 may comprise an absorbent material comprising from 75% to 100%, at least 80%, at least 85%, at least 90%, at least 95% or at least 99%, all by weight, absorbent material, specifically listing all 0.1% increments within the ranges specified above and all intervals formed in or through it, and a core wrap surrounding the absorbent material. The core wrapper can typically comprise two materials, substrates or non-woven materials 16 and 16 'for the top and bottom side of the core.
[0042] The core can comprise one or more channels, represented in figure 1 as the four channels 26, 26 'and 27, 27'. Additionally or alternatively, the LMS 50 may comprise one or more channels, shown in Figures 1 to 3 as channels 49 and 49 '. In some embodiments, the channels of the LMS 50 may be positioned within the absorbent article 20 so that they are aligned, substantially aligned, overlapping or at least partially overlapping the channels of the absorbent core 28. These and other components of the absorbent articles will now be discussed with more details.
Top layer [0043] The top layer 24 is the part of the absorbent article that is directly in contact with the user's skin. The upper layer 24 can be joined to the lower layer 25, the core 28 and / or any other layers, as is known to those skilled in the art. Generally, the top layer 24 and the bottom layer 25 are joined
17/89 directly to each other in some locations (for example at, or close to, the periphery of the article) and are indirectly joined to each other in other locations by directly joining one or more other elements of the absorbent article 20.
[0044] The top layer 24 can be malleable, soft to the touch and non-irritating to the user's skin. In addition, at least a portion of the top layer 24 can be permeable to liquids, allowing liquids to easily penetrate through its thickness. A suitable top layer can be manufactured from a wide range of materials, such as porous foams, cross-linked foams, plastic films with openings or woven or non-woven materials made from natural fibers (eg wood or cotton fibers), filaments or synthetic fibers (for example, bicomponent fibers of PE / PP or polyester or polypropylene, or mixtures thereof), or a combination of natural and synthetic fibers. If the top layer 24 includes fibers, the fibers may be continuous spinning (spunbond), carded, produced by wet deposition (wetlaid), melt blown, hydroentangled, or otherwise processed as is known in the art , in particular non-woven PP spinning continues. Exemplary upper layers comprising a polypropylene fiber mat with textile fiber length are produced by Veratec, Inc., a division of the International Paper Company, of Walpole, Maryland, USA, under the designations P-8, P-9, P- 10 or P-ll. Other exemplary top layers are manufactured by Polymer Group Inc., under the materials with trade names W5030NG, W5030TP and W5030TO.
18/89 [ΟΟ45] Any portion of the top layer 24 can be coated with a skin care composition, a bacterial agent or other beneficial agents, as is generally known in the art. Additionally, the top layer 24, the bottom layer 25 or any portion of the top layer or the bottom layer can be embossed and / or provided with a matte finish, to offer a more fabric-like appearance.
[0046] The upper layer 24 may comprise one or more openings to facilitate the penetration of exudates through it, such as urine and / or feces (solid, semi-solid or liquid). Top layers of typical absorbent article have a basis weight of about 5 g / m ² to about 30 g / m ² , about 10 to about 21 g / m ² or about 12 to about 18 g / m m ² , but other base weights are also within the scope of the present disclosure.
Bottom layer [0047] The bottom layer 25 is generally that portion of the absorbent article 20 positioned adjacent to the surface of the absorbent core facing the garment 28 and which prevents, or at least inhibits, the exudates absorbed and contained therein dirty articles, such as sheets and underwear. The bottom layer 25 is typically impermeable, or at least substantially impermeable to liquids (e.g., urine). The bottom layer can, for example, be or comprise a thin plastic film, such as a thermoplastic film that has a thickness of about 0.012 mm to about 0.051 mm. Exemplary lower layer films include those manufactured by Tredegar Corporation, based in Richmond, VA, USA, and sold under the trade name CPC2 film.
19/89
Other suitable lower layer materials may include breathable materials, which allow vapors to escape from the absorbent article 20 while at the same time preventing or at least inhibiting exudates from passing through the lower layer 25. Exemplary breathable materials may include materials such as blankets fabrics, non-woven blankets, composite materials such as film-coated non-woven blankets, microporous films, such as those produced by Mitsui Toatsu Co., Japan, under the name ESPOIR NO, and by Tredegar Corporation of Richmond, VA, USA , available under the name EXAIRE, as well as monolithic films, such as those produced by Clopay Corporation, Cincinnati, OH, USA, under the name of the HYTREL P18-3097 blend.
[0048] The lower layer 25 can be joined to the upper layer 24, the absorbent core 28 and / or any other element of the absorbent article 20 by any fastening methods known to the person skilled in the art. Suitable attachment methods are described above in relation to methods for joining the top layer 24 to other elements of the absorbent article 20. For example, attachment methods may include using a uniform continuous layer of adhesive, a shaped layer of adhesive or a matrix separate lines, spirals or adhesive dots. Suitable fixation methods comprising an open pattern mesh or adhesive filaments are disclosed in US Patent No. 4,573,986. Other suitable attachment methods include the use of several lines of adhesive filaments that are twisted in a spiral pattern, as illustrated by the apparatus and methods shown in US Patent No. 3,911,173, US Patent No. 4,785,996 and
20/89 US patent No. 4,842,666. Adhesives considered satisfactory are manufactured by Η. B. Fuller Company of St. Paul, Minnesota, USA, and are marketed under the designations HL-1620 and HL1358-XZP. Alternatively, fixation methods can comprise using hot connections, pressure joints, ultrasonic connections, dynamic mechanical connections or any other suitable fixation methods, or combinations of these fixation methods, as are known to the person skilled in the art.
Absorbent core [0049] As used here, the term absorbent core refers to the individual component of the absorbent article with the highest absorbent capacity, and can comprise an absorbent material. In some embodiments, the absorbent core comprises a core shell surrounding the absorbent material. The term absorbent core does not include the liquid control system or any other component of the absorbent article that is neither an integral part of the core wrapper nor is placed within the core wrapper. The absorbent core may comprise, essentially consist of or consist of a core shell, an absorbent material as defined below and glue, encircled within the core shell. The periphery of the absorbent core, which can be the periphery of the core wrapper, can define any suitable shape, such as a T, Y, hourglass or dog-bone shape, for example. A periphery of the absorbent core with a generic dog bone or hourglass shape can taper along its width in relation to the middle region or between the thighs of the core. In this way, the absorbent core can have a width
21/89 relatively narrow in an area of the core intended to be placed in the region between the thighs of an absorbent article.
[0050] The absorbent core 28 of the present disclosure may comprise an absorbent material with a large amount of superabsorbent polymers (hereinafter abbreviated as SAP), placed within a core shell. The SAP content can represent 70% to 100%, or at least 70%, 75%, 80%, 85%, 90%, 95%, 99% or 100% by weight of the absorbent material contained in the core shell. The core shell is not considered as an absorbent material for the purpose of assessing the percentage of SAP in the absorbent core.
[0051] By absorbent material is meant a material that has some absorbency or liquid retention properties, such as SAP or cellulosic fibers, as well as synthetic fibers. Typically, the glues used in making absorbent cores do not have absorbency properties and are not considered to be absorbent material. The SAP content can be greater than 80%, for example, equal to at least 85%, at least 90%, at least 95%, at least 99% and even 100% including the weight of the absorbent material contained within the core casing as defined above. This provides a relatively thin core compared to conventional cores, typically comprising between 40 and 60% SAP, for example, and a high content of cellulose fibers. The absorbent material may comprise less than 15% or less than 10% by weight percent of natural or synthetic fibers, less than 5% by weight, less than 3% by weight, less than 2% by weight, less than 1% by weight. weight or can additionally be substantially free of or free of natural fibers or
22/89 synthetic, specifically citing all 0.1% increments, within the specified ranges and in all ranges formed on or through it. The absorbent material can advantageously comprise few or no aerated felt fibers (cellulose), in particular the absorbent core can comprise less than 15%, 10%, 5%, 3%, 2%, 1% of aerated felt fibers (cellulose) by weight, or can even be substantially free of, or free of cellulose fibers, specifically by quoting all 0.1% increments at the specified intervals and all intervals formed on or through it.
[0052] The exemplary absorbent core 28 of the absorbent article of figures 4 and 5 is shown isolated in figures 6 to 8. The absorbent core 28 can comprise an anterior side 280, a posterior side 282 and two longitudinal sides 284, 286 joining the side the front 280 and the rear side 282. The absorbent core can also comprise a generally flat top side and a generally flat bottom side. The front side 280 of the core 28 is the side of the core 28 intended to be placed towards the edge of the front waist 10 of the absorbent article. The core 28 can have a longitudinal axis 80 'corresponding substantially to the longitudinal axis 80 of the absorbent article, as seen from above in a planar view as in figure 1. In one embodiment, the absorbent material can be distributed in greater quantity towards the anterior side than towards the posterior side, since a greater absorption capacity may be required in the front in specific articles. In another embodiment, the absorbent material may have a non-uniform base weight or a uniform base weight in any portion of the core. In a
23/89 modality, the anterior and posterior sides may be shorter than the longitudinal sides of the core. The core shell can be formed of two non-woven materials, substrates, laminates or other materials 16, 16 ', which can be at least partially sealed along the sides of the absorbent core. The core shell can be sealed at least partially along its front side 280, the rear side 282 and both longitudinal sides 284, 286, so that substantially no absorbent material leaks out of the core absorbent shell. The first material, substrate or nonwoven 16 can at least partially surround the second material, substrate or nonwoven 16 'to form the core wrapper, as shown in figure 7. The first material 16 can surround a portion of the second material 16 'next to the first and second side edges 284 and 286.
[0053] The absorbent core of the present disclosure may comprise adhesive, for example, to assist in immobilizing the SAP within the core shell and / or to ensure the integrity of the core shell, in particular, when the core shell is made of two or more substrates. The core shell can extend to an area larger than is strictly necessary to contain the absorbent material inside.
[0054] Cores comprising a relatively high amount of SAP with various core designs are disclosed in US Patent No. 5,599,335 (Goldman), EP 1,447,066 (Busam), WO 95/11652 (Tanzer) and in the Patent Publication US No. 2008 / 0312622A1 (Hundorf) and WO 2012/052172 (Van Malderen).
24/89 [0055] The absorbent material may consist of one or more continuous layers present within the core shell. In other embodiments, the absorbent material may be comprised of individual cavities or strips of absorbent material encircled within the core shell. In the first case, the absorbent material can, for example, be obtained by applying a single continuous layer of absorbent material. The continuous layer of absorbent material, in particular SAP, can also be obtained by combining two or more absorbent layers with a discontinuous absorbent material application pattern, in which the resulting layer is substantially distributed continuously over the entire area. particulate absorbent polymeric material, as taught in US Patent Application Publication No. 2008 / 0312622A1 (Hundorf), for example. The absorbent core 28 may comprise a first absorbent layer and a second absorbent layer. The first absorbent layer can comprise the first material 16 and a first layer 61 of absorbent material, which can be 100% or less of SAP. The second absorbent layer may comprise the second material 16 'and a second layer 62 of absorbent material, which may also be 100% or less of SAP. The absorbent core 28 may also include a fibrous thermoplastic adhesive material 51 at least partially joining each layer of absorbent material, 61, 62 to its respective material 16 or 16 '. This is illustrated in figures 7-8, as an example, where the first and second layers of SAP can be applied as transversal strips or flat areas having the same width as the desired absorbent material deposition area in their respective
25/89 substrate before being combined. The strips can comprise different amounts of absorbent material (SAP) to provide a profiled base weight along the longitudinal axis of the core 80. The first material 16 and the second material 16 'can form the core shell.
[0056] The fibrous thermoplastic adhesive material 51 can be at least partially in contact with the absorbent material 61, 62 in the flat areas and at least partially in contact with the materials 16 and 16 'in the joint areas. This gives an essentially three-dimensional frame to the fibrous layer of thermoplastic adhesive material 51, which itself is essentially a two-dimensional frame of relatively small thickness, compared to the dimension in the length and width directions. Thus, the fibrous thermoplastic adhesive material can provide the cavities to cover the absorbent material in the flat area and thereby immobilize that absorbent material, which can be 100% or less of SAP.
[0057] The thermoplastic adhesive material 51 may comprise, in its entirety, a single thermoplastic polymer or a blend of thermoplastic polymers, having a softening point, as determined by the ASTM D-36-95 Ring and Bali method, in the range between 50 ° C and 300 ° C, and / or the thermoplastic adhesive material may be a thermofused adhesive comprising at least one thermoplastic polymer in combination with other thermoplastic diluents such as tachyting resins, plasticizers and additives such as antioxidants.
[0058] The thermoplastic adhesive used for the fibrous layer preferably has elastomeric properties, so that the mat formed by the fibers in the SAP layer can
26/89 be extended as SAP expands. These elastomeric hot-melt adhesives of these types are described in more detail in US Patent No. 4,731,066, issued to Korpman on March 15, 1988. The thermoplastic adhesive material can be applied as fibers.
Superabsorbent Polymer (SAP) [0059] Superabsorbent polymers (SAP) as used here, refers to absorbent materials that are cross-linked polymeric materials that can absorb at least 10 times their weight in a 0.9% aqueous saline solution, as measured with the use of the Centrifugal Retention Capacity (CRC) test (EDANA WSP 241.2-05E method). The SAP used can have a CRC value of more than 20 g / g, greater than 24 g / g, 20 to 50 g / g, 20 to 40 g / g or 24 to 30 g / g, specifically citing all increments of 0.1 g / g, within the ranges specified above and any intervals created in or through it. The SAP useful in the present disclosure can include a variety of water-insoluble but water-swellable polymers capable of absorbing large amounts of fluids.
[0060] The superabsorbent polymer can be in the form of particulate, so that it can flow when in a dry state. Particulate absorbent polymeric materials can be made of polymers of poly (meth) acrylic acid. However, starch-based particulate absorbent polymer material can also be used, as well as polyacrylamide copolymer, ethylene and maleic anhydride copolymer, cross-linked carboxymethylcellulose, polyvinyl alcohol copolymers, cross-linked polyethylene oxide and grafted polyacrylic nitride copolymer. The superabsorbent polymer can be polyacrylates and acid polymers
27/89 polyacrylic which are crosslinked internally and / or on the surface. Suitable materials are described in PCT Patent Applications No. WO 07/047598, WO 07/046052, WO2009 / 155265 and WO2009 / 155264, for example. In some embodiments, suitable superabsorbent polymer particles can be obtained by generally known production processes, as described in WO 2006/083584, for example.
[00 61] The SAP useful for the present disclosure can take several formats. The term particles refers to granules, fibers, flakes, spheres, powders, platelets and other shapes and forms known to those skilled in the art of superabsorbent polymer particles. In some embodiments, the SAP particles may have the shape of fibers, that is, elongated, acicular, superabsorbent polymer particles. In these embodiments, the fibers of the superabsorbent polymer particles can have a smaller dimension (i.e., the fiber diameter) less than about 1 mm, usually less than about 500 pm or less than 250 pm until 50 pm, specifically listing all the 1 pm increments within the intervals specified above and any intervals formed in it or so. The length of the fibers can be from about 3 mm to about 100 mm, specifically mentioning all the 1 mm increments within the range specified above and any intervals formed therein or so. The fibers can also be in the form of a long filament that can be woven.
[0062] SAP can be formed by particles similar to spheres. In contrast to fibers, sphere-like particles have a longer and smaller dimension with a particle ratio from the longest to the shortest particle size in the range of 1 to 5,
28/89 where a value of 1 would equate to a perfectly spherical particle and 5 would allow a deviation of such a spherical particle. The superabsorbent polymer particles can have a particle size of less than 850 pm, 50 to 850 pm, 100 to 710 pm, or 150 to 650 pm, specifically listing all 1 pm increments within the ranges specified above and any intervals formed on the same or the same, as measured according to the EDANA WSP 220.2-05 method. SAP having a relatively low particle size helps to increase the surface area of the absorbent material that is in contact with liquid exudates and therefore supports the rapid absorption of liquid exudates.
[0063] SAP can have particle sizes in the range of 45 pm to 4,000 pm, more specifically a particle size distribution within the range of 45 pm to about 2,000 pm, or from about 100 pm to about 1000, 850 or 600 pm, specifically listing all 1 pm increments at the intervals specified above and any intervals formed in it or so. The particle size distribution of a material in the form of particulates can be determined through dry sieve analysis (EDANA 420.02 Particle Size distribution). The SAP surface can be coated, for example, with a cationic polymer. Certain cationic polymers can include polyamine or polyimine materials. The absorbent core may comprise one or more types of SAP.
[0064] For most absorbent articles, a user's liquid discharge occurs predominantly in the anterior half of the absorbent article, in particular for
29/89 a diaper. The front half of the absorbent article (as defined by the region between the leading edge and the lateral axis 90) can therefore comprise most of the absorbent capacity of the core). Thus, at least 60% of the SAP or at least 65%, 70%, 75%, 80% or 85% of the SAP can be present in the front half of the absorbent article, where the remaining SAP is placed in the back half of the article pad. In other embodiments, the SAP distribution can be uniform across the core or it can have other appropriate distributions.
[0065] The total amount of SAP present in the absorbent core can also vary according to the expected user. Diapers for newborns may require less SAP than diapers for babies, children or adult incontinence. The amount of SAP in the core can be about 5 to 60 g, or 5 to 50 g, specifically listing all increments of 0.1 at the specified intervals and any intervals formed therein or so. The average base weight of SAP in the deposition area (or at least one, if several are present) 8 of SAP can equal at least 50, 100, 200, 300, 400, 500 or more g / m ² . The channel areas (for example, 27, 27 ') present in the flat area of absorbent material 8 are deducted from the deposition area of absorbent material to calculate this average base weight.
Core wrapper [0066] The core wrapper can be made of a single substrate, material or nonwoven folded around the absorbent material, or it can include two (or more) substrates, material or nonwoven that are attached to each other. Typical fixings are the so-called C-shell and / or sandwich-shaped shell. In a C housing,
30/89 as illustrated, for example, in figures 2 and 7, the longitudinal and / or transverse edges of one of the substrates are folded over the other substrate to form flaps. These flaps are then joined to the outer surface of the other substrate, typically by gluing. Other techniques can be used to form a core shell. For example, the longitudinal and / or transverse edges of the substrates can be joined and then folded under the absorbent core 28 and joined in that position.
[0067] The core wrapper can be formed using any materials suitable for receiving and containing the absorbent material. Typical substrate materials used in the production of conventional cores can be used, in particular paper, fabrics, films, woven or non-woven materials or laminates or composites of any of them. The core wrapper can be formed by a non-woven blanket, such as a carded non-woven, non-woven spin (S) or non-woven by melt blowing (M) and laminates from any of them. For example, spunmelt polypropylene nonwovens may be suitable, in particular those that have an SMS, SMMS or SSMMS blanket structure, and with a base weight range of about 5 grams per square meter at 15 grams per square meter. Suitable materials are disclosed in the US Patent
n ° 7,744,576, in the Publication in Patent US n ° 2011 / 0268932A1, in the Publication in Patent US n ° 2011/0319848 Al and Publication in Patent US n °
2011 / 0250413A1. Non-woven materials supplied from synthetic fibers can be PE, PET and / or PP, for example.
also be used
31/89 [0068] If the core wrapper comprises a first substrate, non-woven or material 16 and a second substrate, non-woven or materials 16 ', these can be made from the same type of material, they can be produced from different materials or one of the substrates can be treated differently from others to provide them with different properties. Since the polymers used for the production of nonwovens are inherently hydrophobic, they are preferably coated with hydrophilic coatings if placed on the fluid receiving side of the absorbent core. It may be advantageous that the upper side of the core shell, i.e., the side placed closest to the user in the absorbent article, is more hydrophilic than the lower side of the core shell. One possible way to produce nonwovens with permanently hydrophilic coatings is by applying a hydrophilic monomer and a radical polymerization initiator on the nonwoven and conducting an activated polymerization through UV light resulting in a monomer chemically bonded to the nonwoven surface. A possible alternative way to produce nonwovens with permanently hydrophilic coatings is to coat the nonwoven with hydrophilic nanoparticles, for example, as described in WO 02/064877.
[0069] Permanently hydrophilic nonwovens are also useful in some modalities. Surface tension, as described in US Patent No. 7,744,576 (Busam et al.) Can be used to measure how permanently a certain level of hydrophilicity is obtained. Liquid penetration, as described in US Patent No. 7,744.57 6, can be used to measure the level of
32/89 hydrophilicity. The first and / or the second substrates may have a particularly surface tension of at least 55, at least 60 or at least 65 mN / m or more, when wetted with saline. The substrate may also have a liquid leak time of less than 5 seconds for a fifth stream of liquid. These values can be measured using the test methods described in US Patent No. 7,744,576B2: Determination of surface tension and leakage determination respectively.
[0070] Hydrophilic capacity and wettability are typically defined in terms of contact angle and time for fluid penetration, for example through a non-woven material. This is discussed in detail in the American Chemical Society publication entitled Contact angle, wettability and adhesion, edited by Robert F. Gould (copyright 1964). One substrate that has a lower contact angle between water and the substrate surface can be said to be more hydrophilic than the other.
[0071] Substrates can also be air permeable. The films useful for the present invention can therefore comprise micropores. The substrate may have an air permeability of 40 or 50, 300 or 200 m ³ / (m ² x min), as determined by the EDANA method 140-1-99 (125 Pa, 38.3 cm). The core casing material may alternatively have a lower air permeability, for example, being non-permeable to air, for example, to facilitate handling on a moving surface comprising a vacuum.
[0072] The core housing can be sealed at least partially along all sides of the core
33/89 absorbent, so that substantially no absorbent material leaks out of the core. By substantially no absorbent material is meant that less than 5%, less than 2%, less than 1%, or about 0% by weight of absorbent material escapes from the core shell. The term sealing must be understood in a broad sense. The seal does not need to be continuous along the entire periphery of the core shell, but it can be discontinuous along part or all of it, as formed by a series of sealing points spaced in a line. A seal can be formed by gluing and / or heat sealing.
[0073] If the core shell is formed of two substrates 16, 16 ', four seals can be used to enclose the absorbent material 60 within the core shell. For example, a first substrate 16 can be placed on one side of the core (the top side, as shown in the Figures) and extends around the longitudinal edges of the core to at least partially surround the bottom opposite side of the core. The second substrate 16 'can be present between the rolled flaps of the first substrate 16 and the absorbent material 60. The flaps of the first substrate 16 can be glued to the second substrate 16' to provide a strong seal. This so-called C-shell construction can provide benefits such as improved resistance to breakage in a wet and full state compared to a sandwich seal. The front and back sides of the core shell can then be sealed by gluing the first substrate and the second substrate to each other to provide complete encapsulation of the absorbent material across the entire periphery of the core. For the front and back side of the
34/89 core, the first and the second substrates can extend and can be joined in a substantially flat direction, giving these edges a sandwich construction. In the so-called sandwich construction, the first and second substrates can also extend outwardly on all sides of the core and can be sealed flat, or substantially flat, over all or parts of the periphery of the core, typically , by gluing and / or pressing / hot joining. In one embodiment, neither the first nor the second substrates need to be shaped, so that they can be rectangularly cut to facilitate production, however, other formats are within the scope of the present disclosure.
[0074] The core wrapper can also be formed through a single substrate that can surround the absorbent material as in a partial wrapper and be sealed along the front and back side of the core and a longitudinal seal.
SAP deposition area [0075] The deposition area for the absorbent material 8 can be defined by the periphery of the layer formed by the absorbent material 60 inside the core shell, as seen from the top side of the absorbent core. The deposition area of the absorbent material 8 can have different shapes, in particular the shape called dog bone or hourglass, which shows a tapering along its width towards the middle or the region between the thighs of the core. Thus, the deposition area of the absorbent material 8 can be relatively narrow in an area of the core intended to be placed in the region between the thighs
35/89 of the absorbent article, as shown in Figure 1. This can provide better comfort in use. The flat area of absorbent material 8 can thus have a width (as measured in the transverse direction) at its narrowest point which is less than about 100 mm, 90 mm, 80 mm, 70 mm, 60 mm or even less about 50 mm. This narrower width can still be at least 5 mm, or at least 10 mm, less than the width of the deposition area 8 at its widest point in the anterior and / or posterior regions of the deposition area 8. The deposition of absorbent material 8 can also be generically rectangular, for example as shown in figures 4 to 6, but other deposition areas, such as with T, Y, hourglass or dog bone shapes, are also within the scope of present revelation.
[0076] The base weight (quantity deposited per unit area) of the SAP can also be varied across the deposition area 8 to create a profiled distribution of absorbent material, in particular SAP, in the longitudinal direction, in the transverse direction or both the core directions. Therefore, along the longitudinal axis of the core, the base weight of absorbent material can vary, as well as along the transverse axis or any axis parallel to any of these axes. The base weight of SAP in the relatively high base weight areas can therefore be at least 10% or 20% or 30% or 40% or 50% greater than in a relatively low base weight area. In one embodiment, the SAP present in the absorbent material deposition area 8 at the hook height level C may have more SAP deposited per surface unit, compared to another area of the absorbent material deposition area 8.
36/89 [0077] The absorbent material can be deposited using known techniques that can allow the relatively accurate deposition of SAP at relatively high speed. In particular, SAP printing technology, as disclosed in US Patent Publication No. 2008/0312617 and in US Patent Publication No. 2010 / 0051166A1 (both by Hundorf et al.) Can be used. This technique uses a printing cylinder to deposit the SAP on a substrate arranged on a support grid that can include a plurality of cross bars that extend substantially parallel and spaced in relation to each other in order to form channels extending between a plurality of crossbars. This technology allows accurate and high-speed deposition of SAP on a substrate. The channels of the absorbent core can be formed, for example, by changing the grid pattern of receiving drums, so that no SAP is applied in areas that correspond to the channels. EP Application No. EP11169396.6 discloses this modification in more detail.
Channels in the absorbent core [0078] The flat area of absorbent material 8 can comprise at least one channel 26, which is at least partially oriented in the longitudinal direction of the absorbent article 80 (i.e., it has a longitudinal vector component). Other channels can be at least partially oriented in the lateral direction (that is, they have a lateral vector component) or in any other direction. If the plural form channels is used, it means at least one channel. The channels can have a length IZ projected on the longitudinal axis 80 of the article which is at least 10% of the length L of the absorbent article. The channels also
37/89 can be circular, oblong, or in the shape of a variety of other closed polygons. Channels can be formed in several ways. For example, channels can be formed by the zones within the flat area of absorbent material 8 which can be substantially free of, or free of absorbent material, in particular, SAP. In addition or alternatively, the one or more channels can also be formed through continuous or discontinuous connection from the top side of the core shell to the bottom side of the core shell, through the absorbent material deposition area 8. The channels can be continuous , but it is also expected that the channels may be intermittent. The liquid control system 50, or another layer of the absorbent article, may also comprise channels, which may or may not correspond to the channels of the absorbent core, as described in more detail below.
[0079] In some embodiments, the channels may be present at least at the same longitudinal level as the point between the thighs C or the lateral axis 90 in the absorbent article, as shown in Figure 1 with the two channels extending longitudinally 2 6, 26 '. The channels can also extend from the region between the thighs 7 or they can be present in the region of the anterior waist 5 and / or in the region of the posterior waist 6 of the absorbent article.
[0080] The absorbent core 28 may also comprise more than two channels, for example, at least 3 or at least 4 or at least 5 or at least 6 or more. Shorter channels can also be present, for example, in the region of the posterior waist 6 or in the region of the anterior waist 5 of the nucleus, as represented by the pair of channels 27, 27 'in figure 1 in the forward direction
38/89 of the absorbent article. The channels may comprise one or more pairs of channels arranged symmetrically or otherwise with respect to the longitudinal axis 80.
[0081] The channels can be particularly useful in the absorbent core when the area of deposition of absorbent material is rectangular, since the channels can improve the flexibility of the core so that there is less advantage in using a non-rectangular (shaped) core . Of course, channels can also be present in an SAP layer that has a formatted deposition area.
[0082] The channels can extend substantially longitudinally, which means that each channel extends more in the longitudinal direction than in the transverse direction, or at least twice more in the longitudinal direction than in the transverse direction (as measured after the projection on the respective axis). In other embodiments, the channels can extend substantially laterally, meaning that each channel extends more in the lateral direction than in the longitudinal direction, or at least twice as much in the transverse direction as in the longitudinal direction (as measured after projection) on the respective axis).
[0083] The channels can be completely oriented longitudinally and parallel to the longitudinal axis, or completely oriented transversely and parallel to the lateral axis, but they can also be curved. In various embodiments, some or all of the channels, in particular the channels present in the region between the thighs 7, can be concave in relation to the longitudinal axis 80 as, for example, is shown in figure 1 for the channel pair 26, 26 ' , so that they bend in relation to the longitudinal axis
39/89
80. Channels 26, 26 'can also be convex, so that they fold in the direction away from longitudinal axis 80, or have any other suitable arrangement. The radius of curvature can typically be at least equal (and can be at least 1.5 or at least 2.0 times this average transverse dimension) to the average transverse dimension of the absorbent layer; and also straight, but under an angle (e.g., 5 ^o) by 30 ° to 20 ° or even 10 ° with a line parallel to the longitudinal axis. The radius of curvature can be constant for an area, or it can vary along its length. This can also include channels with an angle to it, as long as the angle between the two parts of a channel is at least 120 °, at least 150 ° and, in any of these cases, as long as the longitudinal length of the channel is greater than the transverse extent. The channels can also be branched. For example, a central channel superimposed on the longitudinal axis in the region between the thighs 7, which branches towards the edge of the posterior waist 12 and / or towards the edge of the anterior waist 10 of the absorbent article.
[0084] In some embodiments, there may be a channel that coincides with the longitudinal axis 80 of the absorbent article or the core, while in other embodiments, there may not be a channel that coincides with the longitudinal axis 80. When present as in the form of one or more pairs symmetrical with respect to the longitudinal axis 80, the channels can be spaced with respect to each other over their entire longitudinal dimension. The shortest spacing distance can be, for example, at least 5 mm, or at least 10 mm or at least 15 mm.
[0085] Additionally, in order to reduce the risk of fluid leakage, the main longitudinal channels
40/89 may not extend to any of the edges of the absorbent material deposition area 8 and can therefore be completely enclosed in the absorbent material deposition area 8 of the core. The shortest distance between a channel and the nearest edge of the absorbent material deposition area 8 can be at least 5 mm.
[0086] The channels can have a width Wcl over at least part of their length, which is at least equal to, for example, 2 mm, at least 3 mm, at least 4 mm to, for example, 20 mm, 16 mm or 12 mm. The width of the channel can be constant across substantially the entire length of the channel, or it can vary over its length. When the channels are formed through free zones of absorbent material inside the deposition area of absorbent material 8, the width of the channels is considered to be the width of the free areas of material, regardless of the possible presence of the core wrap inside the channels. If the channels are not formed through free zones of absorbent material, for example, mainly by connecting the casing to the core through the zone of absorbent material, the width of the channels will be the width of that connection.
[0087] At least part or all of the channels can be permanent channels, which means that their integrity is at least partially maintained in the dry and wet state. Permanent channels can be obtained by supplying one or more adhesive materials, for example, the fibrous layer of adhesive material or construction glue which helps in the adhesion, for example, of a substrate with an absorbent material within the walls of the channel. Permanent channels can also be formed through the
41/89 connecting the upper side and the lower side of the core shell (for example, the first substrate 16 and the second substrate 16 ') and / or the upper layer 24 and the lower layer 25 through the channels. Typically, an adhesive can be used to connect both sides of the core shell or the top layer and the bottom layer through the channels, but it is possible to make the connection through other known means, for example, by pressure bonding, bonding by ultrasound, hot bonding or a combination thereof. The core shell or the upper layer 24 and the lower layer 25 can be continuously connected or intermittently connected along the channels. The channels can advantageously remain or become visible at least through the top layer and / or the bottom layer when the absorbent article is completely charged with a fluid. This can be achieved by making channels substantially SAP-free, so that they do not swell, and large enough that they do not close when they are wet. In addition, the connection of the core shell with itself, or of the upper layer with the lower layer by means of the channels can be advantageous.
[0088] In one embodiment, referring to Figure 1, the absorbent core 28 can comprise at least three channels or four channels (for example, 26, 26 ', 27, 27'). Such channels can be free of, or substantially free of (for example, having less than 10%, less than 5%, less than 3%, less than 2% or less than 1%) of superabsorbent polymers, and can be at least partially oriented in the longitudinal direction and / or can be at least partially oriented in the lateral direction. In many
42/89 embodiments, the longitudinal lengths of channels 26 and 26 'around the longitudinal axis 80 may be the same, substantially the same (for example, with a difference of 2 mm or less between them), or different, and the longitudinal lengths of the channels 27 and 27 'around the longitudinal axis 80 can be the same, substantially the same or different. The longitudinal length of channels 26 and 26 'can be greater than the longitudinal length of channels 27 and 27'. The average lateral width over the longitudinal lengths of channels 27 and 27 'may be the same, substantially the same or may be different. Likewise, the average lateral width in relation to the longitudinal lengths of channels 26 and 26 'can be the same, substantially the same or different. The average lateral width of any of the channels 26, 26 ', 27 and 27' can be the same, substantially the same or different.
[0089] In some embodiments, in addition to the first and second channels 26 and 26 ', an absorbent core 28 may comprise a pocket (not shown) in the region between the thighs 7 and / or in the region of the posterior waist 6 and one or more channels in the posterior waist region 6 and / or in the region between the thighs 7. In another embodiment, a pocket may be in the region between the thighs 7 and / or in the region of the anterior waist 5, and one or more channels may be in the region between the thighs 7 and / or in the anterior waist region 5. The pocket and one or more channels can be pockets or BM channels, and / or pockets and / or channels for urine control. Barrier leg clamps [0090] The absorbent article may comprise a pair of leg leg clamps 34. Each leg leg clamp may be formed of a piece of
43/89 material that is attached to the absorbent article, so that it can extend upwards from the internal surface of the absorbent article and provide greater containment of liquids and other bodily exudates at approximately the junction of the user's torso and legs. The leg clamps with barrier 34 are bounded by a proximal edge 64 directly or indirectly attached to the top layer 24 and / or the bottom layer 25 and a free end edge 66, which is intended to contact and form a seal with the user's skin . Barrier leg clamps 34 extend at least partially between the edge of the front waist 10 and the edge of the rear waist 12 of the absorbent article 80 and are at least present at the hook height level (C) or in the region between the thighs . Barrier leg clamps 34 can be joined at the proximal edge 64 with the chassis of the absorbent article by a connection 65 which can be made by gluing, fusing joining or a combination of other suitable joining processes. The joint 65 at the proximal edge 64 can be continuous or intermittent. The joint 65 closest to the raised leg clamp section 34 delimits the proximal edge 64 of the upright leg clamp section 34.
[0091] The leg clamps with barrier 34 can integrate the upper layer 24 or the lower layer 25, or they can be a separate material attached to the chassis of the absorbent article. The material of the leg clamps with barrier 34 can extend across the entire length of the diapers, but can be joined by adhering to the top layer 24 towards the edge of the front waist 10 and the edge of the rear waist 12 of the absorbent article, mode
44/89 that, in these sections, the material for the barrier leg clamp remains level with the top layer 24.
[0092] Each leg clamp with barrier 34 may comprise one, two or more elastic threads, strips or film 35 near that free end edge 66 to provide a better seal.
[0093] In addition to the leg clamps with barrier 34, the absorbent article may comprise sealing clamps 32 which are attached to the chassis of the absorbent article, in particular the upper layer 24 and / or the lower layer 25, and which are placed externally in relation to leg clamps with barrier 34. Sealing clamps 32 can provide a better seal around the user's thighs. Each leg sealing clamp may comprise one or more elastic or elastic cord elements on the absorbent article chassis between the upper layer 24 and the lower layer 25 in the area of the leg openings. The whole or a portion of the barrier leg clamps and / or sealing clamps can be treated with a lotion or a skin care composition. Barrier leg clamps can be constructed in different configurations, including those described in US Patent Publication Application No. 2012/0277713.
Fixation system [0094] The absorbent article may include a fixation system. The fixing system can be used to provide lateral tensions around the circumference of the absorbent article to form the absorbent article in the user, as is common for diapers with tape. This fastening system may not be necessary for trousers
45/89 training or for pants-type articles, since the waist area of these articles is already connected. The fastening system may comprise a fastener such as ribbon flaps, hook and loop fasteners, snap fasteners such as flaps & slits, buckles, buttons, spring fasteners and / or hermaphrodite fasteners, although any other fastening mechanisms attachment are also included in the scope of the present disclosure. A contact zone 44 is normally present on the surface facing the garment of the anterior waist region 5 so that the zipper is releasably attached to it.
[0095] The fixation system may also include primary and secondary fixation systems, as disclosed in US Patent No. 4,699,622, in order to reduce the displacement of overlapping portions or to improve fit, as disclosed in US Patent No. 5,242,436, US Patent No. 5,499,978, US Patent No. 5,507,736 and US Patent No. 5,591,152.
Front and rear flaps [0096] In one embodiment, the absorbent article may comprise front flaps 46 and rear flaps 40. The flaps may be an integral part of the chassis, as formed from the top layer 24 and / or the bottom layer 25 as side panel. Alternatively, as shown in Figure 1, the flaps (46, 40) can be separate elements fixed by gluing, hot embossing and / or pressure bonding. The rear flaps 40 can advantageously be extended to facilitate fixing the flaps 42 in the contact zone 44 and to keep the diapers with tape in place around the user's waist. The rear flaps 40 can also be elastic or extensible to provide
46/89 a more comfortable and contoured fit initially through the conforming fit of the absorbent article to the user and by sustaining that adjustment over the time of use even well after the absorbent article is loaded with exudates, since the elastic tabs allow that the sides of the absorbent article expand and contract.
Elastic waist detail [0097] The absorbent article may also comprise at least one elastic waist detail (not shown) that helps to provide improved fit and restraint. The elastic waist detail is generally intended to expand and contract elasticly, to be dynamically adjusted to the user's waist. The elastic waist detail may preferably extend at least longitudinally outwardly from at least one edge of the waist of the absorbent core 28 and generally forms at least a portion of the edge edge of the absorbent article. Disposable diapers can be constructed to have two elastic waist details, one positioned in the anterior waist region and one positioned in the posterior waist region. The elastic waist detail can be constructed in several different configurations, including those described in
US patent n ° 4,515. 5 95; at Patent US No. 4,710,189; at US patent n ° 5.151. 0 92; at Patent US No. 5,221,274; at Publication of Order in US patent n ° 2012/0330262; at
US Patent Application Publication No. 2012/0330263; and in US Patent Application Publication No. 2012/0330264.
Relationships between layers [0098] Typically, adjacent layers and components can be joined using joining methods
Conventional 47/89, such as adhesive coating through extrusion or spray coating on all or part of the layer surface, thermal bonding, pressure bonding or combinations thereof. The bond between the layers of the absorbent article may or may not be present. The connection is not shown in the figures (except for the connection
in between the raised elements of clamps to the legs 34 with the top layer 24) for greater clarity and readability. Stickers can to be used for refine
the adhesion of the different layers between the lower layer 25 and the core shell. The glue can be any suitable hot-melt glue known in the art.
[0099] If a capture layer 52 is present in the LMS 50, it may be desirable for that capture layer to be greater than or at least as large as the distribution layer 54 in the longitudinal and / or transverse dimension. Thus, the distribution layer 54 can be deposited on the capture layer 52. This simplifies handling, in particular, if the capture layer is a nonwoven that can be unwound from a cylinder of stock material. The distribution layer 54 can also be deposited directly on the upper surface of the absorbent core of the core wrap or other layer of the absorbent article. Likewise, having a capture layer 52 that is larger than the distribution layer allows the capture layer to be directly glued to the storage core (in the larger areas). This can provide greater integrity to the plaster and better communication of liquids.
[0100] The absorbent core and, in particular, its deposition area for absorbent material 8 can be at least as large and long and at least partially
48/89 longer and / or longer than the liquid control system. This is due to the fact that the absorbent material in the core can retain fluid more effectively and provide dryness benefits over a larger area than the LMS 50. The absorbent article can have a rectangular SAP layer and an LMS 50 (formatted) not rectangular. The absorbent article may also have a rectangular (unformatted) layer of LMS 50 and a rectangular layer of SAP.
Liquid control system [0101] The LMS 50 of the present disclosure can sometimes be referred to as a capture and distribution system (ADS) or a capture system. A function of the LMS 50 is to quickly capture the fluid and distribute it to the absorbent core effectively. The LMS 50 can comprise one, two or more layers, which can form a unitary layer or can remain as separate layers that can be fixed together. In one embodiment, the LMS 50 may comprise two layers: a distribution layer 54 and a capture layer 52 arranged between the absorbent core and the top layer, but the present disclosure is not limited to this embodiment.
[0102] The LMS 50 can comprise SAP, as it can slow the capture and distribution of the fluid. In other embodiments, the LMS can be substantially free (for example, 80%, 85%, 90%, 95% or 99% free) or completely free from SAP. The LMS may also comprise one or more of a variety of other suitable types of materials, such as, for example, open foam cells, fibers produced by air deposition or carded non-woven materials bonded by resin. Suitable exemplifying LMSs are described in WO 2000/59430
49/89 (Daley), WO 95/10996 (Richards), in US Patent No. 5,700,254 (McDowall) and in WO 02/067809 (Graef), for example. Any of the exemplifying LMSs 50 disclosed in the present invention can be positioned on an absorbent article: (1) between a liquid-permeable material or upper layer or a secondary upper layer and an absorbent core; (2) between an absorbent core and a liquid impermeable material or bottom layer; (3) between an absorbent core and a liquid distribution layer; (4) between a liquid distribution layer and a liquid impermeable material or lower layer, or it can be located, otherwise, within the absorbent article. In one embodiment, more than one LMS 50 may be present in an absorbent article. The one or more LMSs 50 can be present above and / or below one or more absorbent cores.
Distribution layer [0103] In certain embodiments, LMS 50 may comprise a distribution layer 54. Distribution layer 54 may, for example, comprise at least 50% by weight of cross-linked cellulose fibers. The cross-linked cellulosic fibers can be crimped, twisted or curly, or a combination thereof, which includes crimped, twisted and curly. This type of material is disclosed in US Patent Publication No. 2008/0312622 Al (Hundorf). The cross-linked cellulosic fibers provide greater resilience and, therefore, greater resistance to the first absorbent layer against compaction in the product packaging or under conditions of use, for example, under the weight of the baby. This provides the core with a higher empty volume, permeability and liquid absorption and, therefore, reduced leakage and optimized dryness.
50/89 [0104] Exemplary chemically crosslinked cellulosic fibers suitable for a distribution layer are disclosed in US Patent No. 5,549,791, in US Patent No. 5,137,537, WO 9534329 or in US Patent Application Publication No. 2007 / 118087. Exemplary cross-linking agents include polycarboxylic acids, such as citric acid, and / or polyacrylic acids, such as acrylic acid and maleic acid copolymers.
[0105] The distribution layer 54 comprising crosslinked cellulose fibers of the present disclosure can comprise other fibers, however that layer can advantageously comprise at least 50%, or 60% or 70%, or 80%, or 90% or even even 100% by weight of the crosslinked cellulose fiber layer (including crosslinking agents). Examples of such a layer of mixed crosslinked cellulose fibers may comprise about 70% by weight of chemically crosslinked cellulose fibers, about 10% by weight of polyester fibers (PET) and about 20% by weight. weight of untreated pulp fibers. In another example, the layer of cross-linked cellulose fibers may comprise about 70% by weight of chemically cross-linked cellulose fibers, about 20% by weight of lyocell fibers and about 10% by weight of PET fibers. In another example, the layer may comprise about 68% by weight of chemically cross-linked cellulose fibers, about 16% by weight of untreated pulp fibers and about 16% by weight of PET fibers . In another example, the layer of cross-linked cellulose fibers may comprise from about 90 to 100%, by weight, of chemically cross-linked cellulose fibers.
51/89 [010 6] The distribution layer 54 may be a material having a water retention value of 25 to 60 or 30 to 45, measured as indicated in the procedure disclosed in US Patent No. 5,137,537.
[0107] The distribution layer can typically have an average base weight of 30 to 400 g / m ² or 100 to 300 g / m ² , specifically listing all increments of 1.0 g / m ² within the ranges specified above and any gaps formed in it or so. The density of the distribution layer can vary depending on the compression of the absorbent article, but it can be between 0.03 to 0.15 g / cm ³ or 0.08 to 0.10 g / cm ³ , specifically listing all increments of 1 , 0 g / cm ³ at the intervals specified above and any intervals formed therein or so, measured at 2.07 KPa (0.30 psi).
Capture layer [0108] In some embodiments, the LMS 50 may, alternatively or additionally, comprise a capture layer 52. In one embodiment, the capture layer 52 can be placed, for example, between the distribution layer 54 and the upper layer 24. The capture layer 52 may be or may comprise a non-woven material, such as an SMS or SMMS material, which comprises a continuous spinning layer, one produced by block extrusion with high speed hot air passage, or alternatively, an additional spinning layer remains or, alternatively, a chemically bonded carded nonwoven. In some embodiments, the capture layer 52 may comprise cellulosic fibers produced by air or wet deposition, reticulated or synthetic cellulosic fibers, or mixtures thereof. In certain modalities,
52/89 the capture layer 52 may comprise a roll blanket of synthetic fibers (which can be processed to increase the void space, as by solid state formation), or a combination of cellulosic and synthetic fibers, joined together to form a highly aerated material. Alternatively, the capture layer 52 may comprise absorbent open cell foam. The non-woven material can be consolidated with latex. Exemplary acquisition layers are disclosed in US Patent No. 7,786,341. Resin bonded and carded nonwovens can be used, in particular, when the fibers used are solid rounded or hollow rounded PET textile fibers (mixture of 50/50 or 40/60 fibers of 0.0006 g / m (6 denier) and 0.0009 g / m (9 denier)). An example binder is a butadiene / styrene latex. Nonwovens have the advantage that they can be manufactured outside the conversion line and stored and used as a roll of material. The capture layer 52 can be stabilized by a latex binder, for example, a styrene-butadiene latex-based binder (latex SB).
[0109] An additional capture layer can be used in addition to the first capture layer described above. For example, a layer of fabric, nonwoven or of another type can be placed between the first capture layer and the distribution layer. The tissue can improve the capillary distribution properties compared to the capture layer described above. The fabric, nonwoven or other layer and the first capture layer can be the same size or can be of a different size. For example, the
53/89 woven, non-woven or other types may extend further into the back of the absorbent article than the first capture layer. An example of a hydrophilic fabric is one with high moisture resistance, from 13 to 15 g / m ² , made from cellulose fibers obtained from the supplier Havix.
[0110] The composition used to form fibers for the base substrate of capture layer 52 may comprise thermoplastic polymeric materials and non-thermoplastic polymeric materials. The thermoplastic polymeric material must have rheological characteristics suitable for melt spinning. The molecular weight of the polymer needs to be sufficient to allow interleaving between polymer molecules and yet low enough to be reliable by fusion. For melt spinning, thermoplastic polymers have molecular weights below about 1,000,000 g / mol, from about 5,000 g / mol to about 750,000 g / mol; from about 10,000 g / mol to about 500,000 g / mol; and from about 50,000 g / mol to about 400,000 g / mol. Unless otherwise specified, the indicated molecular weight is the average numerical molecular weight.
[0111] Thermoplastic polymeric materials are able to solidify relatively quickly, preferably under extensional flow, and form a thermally stable fiber structure, as is typically found in known processes, such as a spinning and drawing process for fibers textiles, or a continuous spinning process with continuous fibers. Polymeric materials may comprise, but are not limited to, polypropylene and polypropylene copolymers, polyethylene and polyethylene copolymers, polyester copolymers and
54/89 polyester, polyamide, polyimide, polylactic acid, polyhydroxyalkanoate, polyvinyl alcohol, ethylene vinyl alcohol, polyacrylates and copolymers thereof, as well as mixtures thereof. Other suitable polymeric materials include thermoplastic starch compositions, as described in detail in US Patent Application Publication No. 2003 / 0109605A1 and 2003/0091803. Other suitable polymeric materials include ethylene acrylic acid, polyolefin copolymers and carboxylic acid, and combinations thereof. The polymers described in US Patent No. 6,746,766, in US Patent No. 6,818,295 and in US Patent No. 6,94 6,506 and in U.S. Patent Application Serial No. 03/0092343. Common fiber-grade thermoplastic polymer materials can be used, such as polyester-based resins, polypropylene-based resins, polylactic acid-based resin, polyhydroxyalkanoate-based resin and polyethylene-based resin, as well as combinations of the same. Some modalities use resins based on polypropylene and polyester.
[0112] Non-limiting examples of thermoplastic polymers suitable for use in the present invention include aliphatic polyesteramides, aliphatic polyesters, aromatic polyesters including polyethylene terephthalates (PET) and copolymer (coPET), polybutylene terephthalates and copolymers, polyethylene terephthalates and copolymers, polytrimethalates and polytrimethylene copolymers. and polypropylene copolymers, polypropylene and propylene copolymers, polyethylene and polyethylene copolymers, aliphatic / aromatic copolyesters, polycaprolactones, poly (hydroxy alkanoates) including poly (hydroxy butyrate-co-hydroxy valerate), poly (hydroxy butyrate-co-oxide) or other poly (hydroxy butyrate-co
55/89 higher alkanoates), as mentioned in US Patent No. 5,498,692 to Noda; polyesters and polyurethanes derived from aliphatic polyols (i.e., dialkoyl polymers), polyamides, polyethylene / vinyl alcohol copolymers, lactic acid polymers, including lactic acid homopolymers and copolymers, lactide polymers, including lactide homopolymers and copolymers, polymers glycolide, including glycolide homopolymers and copolymers, and mixtures thereof. Aliphatic polyester amides, aliphatic polyesters, aliphatic / aromatic copolyesters, lactic acid polymers and lactide polymers are preferred.
[0113] Suitable lactic acid and lactide polymers include homopolymers and copolymers of lactic acid and / or lactide with a weight average molecular weight generally in the range of about 10,000 g / mol to about 600,000 g / mol; from about 30,000 g / mol to about 400,000 g / mol; or from about 50,000 g / mol to about 200,000 g / mol. An example of commercially available polylactic acid polymers includes a variety of polylactic acids that are available from Chronopol Incorporation, located in Golden, Colorado, USA, and the polylactides commercially available under the trade name EcoPLA®. Examples of suitable commercially available polylactic acid are NATUREWORKS by Cargill Dow and LACEA by Mitsui Chemical. Polylactic acid homopolymers or copolymers having a melting temperature of about 160 ° C to about 175 ° C can be used. A modified polylactic acid and different stereoconfigurations can also be used, such as poly L-lactic acid and poly-D, Llactic acid, with D-isomer contents of up to 75%. Combinations
56/89 optional racemic D and L isomers to produce PLA polymers with high melting temperature can be used. These high melting temperature PL polymers are special PLA copolymers (with the understanding that the D isomer and the L isomer are treated as different stereomonomers) with melting temperatures above 180 ° C. These high melting temperatures are achieved by special control of the dimensions of the crystallite to increase the average melting temperature.
[0114] Depending on the specific polymer used, the process and the end use of the fiber, more than one polymer may be desired. The polymers of the present invention are present in an amount to optimize the mechanical properties of the fiber, the opacity of the fiber, to optimize the interaction of fluids with the fiber, to optimize the processability of the molten material, and to optimize the attenuation of the fiber. The selection and quantity of the polymer will also determine whether the fiber will be thermally consolidable, and will affect the softness and texture of the final product. The fibers of the present disclosure can comprise a single polymer, a blend of polymers or be multi-component fibers comprising more than one polymer. The fibers in the present invention are heat sealable.
[0115] Multi-constituent blends may be desired. For example, blends of polyethylene and polypropylene (referred to later in this document as polymer alloys) can be mixed and spun using this technique. Another example would consist of blends of polyesters with different viscosities or monomer contents. Multicomponent fibers that contain chemical species can also be produced
57/89 differentiable in each component. Some non-limiting examples would include a mixture of polypropylene whose fluidity index (IF) is 25 with polypropylene whose IF is 50, and polypropylene homopolymer whose IF is 25 with polypropylene copolymer whose IF is 25, with ethylene as a comonomer.
[0116] Polymeric materials can have melting temperatures above 110 ° C, above 130 ° C, above 145 ° C, above 160 ° C or above 200 ° C. Polymers with high glass transition temperatures may be desired. Glass transition temperatures in fiber form for final use can be used, which are above -10 ° C, which are above 0 ° C, which are above 20 ° C or which are above 50 ° C. This combination of properties produces fibers that are stable at elevated temperatures. Examples of such materials are polypropylene, polylactic acid-based polymers and polymer systems based on polyester terephthalate (PET).
Channels in the liquid control system [0117] The LMS 50 of the absorbent article 20 can comprise channels that can, generally, allow a better conformation of the absorbent article to the user's anatomy, providing greater freedom of movement and smaller spans. One or more of the LMS channels 50 can be configured to work in conjunction with several channels in the absorbent core 28, as discussed above. In addition, channels in the LMS 50 can also provide greater empty space to retain and distribute urine, feces or other bodily exudates within the absorbent article, leading to reduced leakage and skin contact. In some embodiments, channels on the LMS 50 can also provide useful internal symbols, especially when highlighted through
58/89 physical differences, texture, color and / or pattern, to facilitate achieving the correct alignment of the absorbent article in a user. Thus, such physical differences can, for example, be noticeable visually and / or by touch.
[0118] Similar to the channels in the absorbent core 28, a channel in the LMS 50 can be any region in one layer, or extend through more than one layer that has a substantially lower base weight or thickness than the surrounding material, such as is defined in the channel definition above. The channels in the LMS 50 can also serve to reduce the tension forces to enable controlled flexing and keep the LMS 50 in close proximity to the absorbent core 28. Thus, the presence of channels in the LMS 50, which may or may not be aligned with any channels in an underlying absorbent core 28, it can generally function as hinges to provide a more flexible composite structure. In some cases, for example, the channels of the LMS 50 allow the LMS 50 to move towards the absorbent core 28 in a controlled flexing arrangement, thus limiting the separation between the LMS 50 and the absorbent core 28. In addition, in In certain embodiments, a channel in the LMS 50 can help to route the liquid or other body exudates from one region of the absorbent article 20 to another region of the absorbent article 20. Such routing can desirably improve the overall distribution of fluid through the absorbent article 20 and can cause increased comfort, wearing comfort or longevity of the article.
[0119] For multilayer LMSs, channels can be present in one or more layers of LMS 50 and their dimensions can vary in all three planes
59/89 reference. In one embodiment, the width of a given channel in the LMS 50 may vary in the longitudinal direction (that is, in a direction substantially parallel to the longitudinal axis of the absorbent article). A channel can also have a different width, length and / or volume in front of a lateral axis or lateral separation element of the absorbent article in relation to behind the lateral axis or lateral separation element. The channels of the LMS 50 can have a variety of widths, lengths, shapes, volumes and patterns similar to the channels described above, in relation to the absorbent core 28.
[0120] In certain embodiments, a channel in the LMS 50 of the posterior portion of an absorbent article may be called an intestinal evacuation channel BM, or pocket of BM, and may generally be aligned with, and superimposed on, the longitudinal central line in the portion the back of the absorbent article, or it may be located elsewhere. A portion of the channel may be positioned on the LMS 50, so that it is generally aligned with the user's ischium, and may have a width in the range of about 10 mm to about 30 mm, for example. From this location to the rear, the width of the channel may or may not increase gradually or abruptly, for example, from about 25 mm to about 150 mm. In one embodiment, the width of the channel may decrease again, as it approaches the region of the posterior waist of the absorbent article. The volume of the channel can be in the range of about 10 cm to about 200 cm, for example. The ratio of the maximum channel width to the user's ischium width can vary from about 1.5 to about 15. In one embodiment, at least about 60%, at least about 70%, at least about 75 %, fur
60/89 minus about 80% or at least about 85% of the total volume of all channels in the LMS can be behind the lateral center line. In one embodiment, at least about 60% to about 85% of the total volume of all channels in the LMS can be behind the lateral center line.
[0121] One or more channels in the LMS 50 can overlap at least partially, or totally overlap, with a channel in the absorbent core 28, creating a deeper recess in the overlapping regions. For embodiments where the LMS 50 includes more than one layer, the layer closest to the absorbent core 28 may include a channel. One or more layers in the structure, such as the top layer 24, a capture layer 52, the distribution layer 54 or other layers can be connected to an absorbent core element 28 in this region to increase the depth of the combined channel. In one embodiment, the channel in the capture layer 52 of the LMS 50 and the channel in the absorbent core 28 are coincident, so that the channels overlap completely. In another embodiment, the channels in the LMS and storage layers have no overlapping area. Other modalities have a vertical overlap between the channels in the two layers that cover the intervening interval, so that they partially overlap. Exemplary channel arrangements are described in more detail below, in figures 11 to 26.
[0122] In the modalities where the upper layer 24 includes openings, the openings can be totally or partially aligned or overlapped with at least one channel in the LMS 50 while, in other modalities, the openings may not align with any channel in the LMS 50. In some embodiments, at least one layer on or near the side
61/89 facing the garment and / or the user side of the absorbent article 20 may include a pattern, image, color or hue, resulting in greater visual distinction from the LMS 50 channel and serving as a useful internal symbol for facilitate the most accurate alignment of the absorbent article in the user during the application process.
[0123] Again with reference to figures 1 to 5, the LMS 50 in the illustrated example mode is shown by defining two channels, 49 and 49 '. The channels 49 and 49 'are at least partially oriented in the longitudinal direction of the absorbent article 80 (i.e., it has a longitudinal vector component). Other channels in the LMS can be at least partially oriented in the lateral direction (that is, they have a lateral vector component) or in any other direction, and the channels in the LMS 50 can be continuous or intermittent. Some channels in the LMS can be round, oblong, square, rectangular, triangular or have any other suitable shape. The channels can have a length projected on the longitudinal axis 80 of the absorbent article which is equal to at least 10% of the length L of the absorbent article. Channels can be formed in several ways. For example, channels can be formed by zones within the LMS 50 that can be substantially free of, or free of, capture or distribution material.
[0124] In some embodiments, the channels of the LMS 50 may be present at least at the same longitudinal level as the point between the thighs C or the lateral axis 90 in the absorbent article, as shown in Figure 1 with the two channels that extend longitudinally 49, 49 '. The canals can also extend from the region between the thighs 7 or can
62/89 be present in the anterior waist region 5 and / or in the posterior waist region 6 of the absorbent article. In Figure 1, channels, 49 and 49 'are generally coincident with channels 26, 26', with channels 26 and 26 'having a greater length in the longitudinal direction towards the edge of the anterior waist 10 of the absorbent article 20.
[0125] The LMS 50 can define any suitable number of channels, such as at least one, more than two channels, at least three, at least four, at least five or at least six or more. The shorter channels can also be present, for example, in the posterior waist region 6 or in the anterior waist region 5 of the LMS 50. The channels of the LMS 50 may comprise one or more pairs of channels symmetrically arranged, or otherwise arranged in relation to the longitudinal axis 80 and / or the lateral axis 90, or another transverse axis.
[0126] The channels of the LMS 50 can extend substantially longitudinally, which means that each channel extends more in the longitudinal direction than in the transverse direction, or at least twice more in the longitudinal direction than in the transverse direction (as measured after projection on the respective axis). In other modalities, the channels of the LMS 50 can extend substantially laterally, meaning that each channel extends more in the lateral direction than in the longitudinal direction, or at least twice as much in the transverse direction as in the longitudinal direction (as measured) after projection on the respective axis).
[0127] Similar to the channels in the absorbent core, the channels of the LMS 50 can be completely oriented longitudinally and parallel to the axis
63/89 longitudinal, or can be completely oriented transversely and parallel to the lateral axis, but they can also be curved or have a combination of linear and curved components. In various modalities, some or all of the channels, in particular the LMS 50 channels present in the region between the thighs 7, can be concave in relation to the longitudinal axis 80 as, for example, is shown in figure 1 for the pair of channels 49 , 49 ', so that they fold towards the longitudinal axis 80. Channels 49, 49' can also be convex, so that they fold in the direction opposite to the longitudinal axis 80, or have any other suitable arrangement. Channels 49, 49 can generally align with channels 26, 26 'in the absorbent core, although this disclosure is not limited by this. The radius of curvature can typically be at least equal (and can be at least 1.5 or at least 2.0 times this average transverse dimension) to the average transverse dimension of the absorbent layer; and also straight, but at an angle of (for example, 5 ^o ) to 30 °, up to 20 ° or up to 10 ° with a line parallel to the longitudinal axis. The radius of curvature can be constant for an area, or it can vary along its length. This can also include channels with an angle to them, provided that the angle between the two parts of a channel is at least 120 °, at least 150 ° and, in any of these cases, as long as the longitudinal extension of the channel greater than the transverse extent. The channels of the LMS 50 can also be branched. For example, a central channel superimposed on the longitudinal axis in the region between the thighs 7, which branches towards the edge of the posterior waist 12 and / or towards the edge of the anterior waist
64/89 of the absorbent article. In some embodiments, there is no channel in the LMS 50 that coincides with the longitudinal axis 80 of the absorbent article. When present as symmetrical pairs in relation to the longitudinal axis 80, the channels can be spaced in relation to each other along their entire longitudinal dimension. The shortest spacing distance can be, for example, at least 5 mm, or at least 10 mm, or at least 15 mm.
[0128] In addition, in order to reduce the risk of fluid leaks, the channels of the LMS 50 can therefore be fully contained within the LMS 50. The shortest distance between a channel and the nearest edge of the LMS 50 can be at least 5 mm.
[0129] The channels of the LMS 50 can have a width Wc2 (figure 1), over at least part of its length, which is at least 2 mm, at least 3 mm, or at least 4 mm up to, for example , 20 mm, 16 mm or 12 mm. The width of the channel can be constant across substantially the entire length of the channel, or it can vary over its length. The channels of the LMS 50 can have Wc2 widths similar to or different than the Wcl widths of the channels within the absorbent core 28. In the embodiment illustrated in Figure 1, while the Wcl is substantially the same as Wc2, the length of the channels in the absorbent core 28 can exceed the length of the channels in the LMS 50, so that channels 26, 26 'extend closer to the edge of the anterior waist 10. In other modalities, however, channels 49 and 49' may extend closer to the edge of the anterior waist 10.
[0130] When the channels within the LMS 50 are formed by material-free zones, the width of the
65/89 channels (Wc2) is considered to be the width of the material-free zones, regardless of the possible presence of the upper layer 24 or other layers within the channels. If the channels are formed by low base weight zones, the width of the channels can be the width of the low base weight zones.
[0131] At least part or all of the channels in the LMS 50 can be permanent channels, which means that their integrity is at least partially maintained in the dry and wet state. Permanent channels can be obtained by supplying one or more adhesive materials, for example, the fibrous layer of adhesive material or construction glue which helps in the adhesion, for example, of a substrate with an absorbent material within the walls of the channel. Permanent channels can also be formed by connecting the upper layer 24 to the lower layer 25 through a channel of the LMS 50. Typically, an adhesive can be used to connect the upper layer 24 and the lower layer 25 through the channels, but it is possible make the connection through other known processes, such as by pressure connection, ultrasound connection, hot connection or a combination thereof. The upper layer 24 and the lower layer 25 can be continuously connected or intermittently connected along or within portions or all channels. The channels can remain or become visible at least through the top layer and / or the bottom layer when the absorbent article is completely charged with a fluid. In some embodiments, the channels of the LMS 50 can line up with the channels of the absorbent core 28, so that the channels are visible through a surface
66/89 facing the garment when they contain urine or feces, or when a body exudate is at least close to the channels (such as when a body exudate is over the top layer 24, but not yet within a channel). Such channels can provide a visual indication to a caregiver that the absorbent article should be changed. In other embodiments, a graphic indicator or merely a graphic is printed on an outer surface or other layer of the absorbent article close to, over or partially over the channels to visually hide the body exudates contained within the channels.
[0132] In certain embodiments, an indicator can be included in one or more of the lower layer, a lower layer film and / or a non-woven spray layer, for example, to visually indicate when a change in the absorbent article is needed . The indicator can be configured to switch states in the presence of urine and / or faeces. The indicator can be, for example, a line or graph that changes from white or light to blue. The indicator can also be a word, such as dry, that disappears when urine is present in the channels. The indicator can be the wet word that appears in the presence of urine. Any other suitable indicator, or a plurality of indicators, can be used.
[0133] In one embodiment, referring to Figure 1, LMS 50 can comprise at least two channels (for example, 49 and 49 '). Such channels may be free of, or substantially free of (for example, less than 10%, less than 5%, less than 3%, less than 2% or less than 1%) of non-woven material or cellulose fibers reticulated, and can be at least partially oriented in the direction
67/89 longitudinal and / or can be at least partially oriented in the lateral direction. In various embodiments, the longitudinal lengths of channels 49 and 49 'around the longitudinal axis 80 can be the same, substantially the same (for example, with a difference of 2 mm or less from each other), or different, and the longitudinal lengths of the channels 49 and 49 'around the longitudinal axis 80 can be the same, substantially the same or different. The average lateral width over the longitudinal lengths of channels 49 and 49 'may be the same, substantially the same or may be different.
[0134] The example LMS 50 of the absorbent article of figures 4 and 5 is shown separately in figures 9 and 10, where figure 10 is a cross-sectional view of LMS 50 taken close to line 10-10 in figure 9. The LMS 50 may comprise an anterior side 281, a posterior side 283 and two longitudinal sides 285, 287 joining the anterior side 281 and the posterior side 283. The LMS 50 may also comprise a generally flat top side and a generally flat bottom side. The anterior side 281 of the LMS is the side of the LMS intended to be placed towards the edge of the anterior waist 10 of the absorbent article. The LMS 50 may have a longitudinal axis 80 'which substantially corresponds to the longitudinal axis 80 of the absorbent article, as seen from above in a planar view as in figure 1. The LMS 50 may comprise one or more layers. In the illustrated embodiment, the LMS 50 comprises a distribution layer 54 and a capture layer 52 which cooperate to define the channels, 49 and 49 '. In other modalities, less than all layers of LMS 50 can define the channel, so that at least one layer
68/89 of LMS 50 is continuous, while another layer of LMS 50 is discontinuous.
[0135] In certain embodiments, the LMS 50 may comprise an enclosure or pocket that is similar to the core enclosure described above that is configured to retain particulates. In one example, the wrapper may contain functional absorbent materials (FAM) that generally function as an absorption / capture material. In a particular embodiment, the FAM can comprise an open cell foam, in the form of a coherent blanket or sheet or in the form of particles, prepared from High Internal Phase Emulsions (hereinafter referred to as HIPEs), as illustrated in (US Patents 5,331,015 (DesMarais et al), granted on July 19, 1994, 5,260,345 (DesMarais et al), granted on November 9, 1993, 5,268,224 (DesMarais et al), granted on 7 December 1993, 5,632,737 (Stone et al), granted on May 27, 1997, 5,387,207 (Dyer et al), granted February 7, 1995, 5,786,395 (Stone et al.) July 28, 1998, 5,795,921 (Dyer et al), granted on August 18, 1998), (US Patent 5,770,634 (Dyer et al), granted on June 23, 1998, 5,753,359 (Dyer et al) granted in May 19, 1998 and 5,633,291 (Dyer et al), May 27, 1997), (Bhumgara, Z. Filtration & Separation, March 1995, pages 245 to 251; Walsh et al. J. Aerosol Sei 1996, 27, 5629- 5630; PCT application published WO 97/37745, published October 16, 1997, in the name of Shell Oil Co.).
[0136] Although the portions of channels 26, 26 'of the absorbent core 28 and channels 49 and 49' of the LMS 50 shown in figures 1-10 are generically
69/89 aligned, this revelation is not limited by that. In fact, as will be noted, the specific channel arrangements in an LMS 50 and / or an absorbent core 28 may vary. Figures 11 to 26 are seen in simplified partial cross section of exemplary absorbent articles that illustrate the exemplary configurations of the upper layer 24, the lower layer 25, the LMS 50 and the absorbent core 28. Although figures 11 to 26 illustrate a wide variety of channel arrangements, such arrangements are merely exemplary and are not a limiting factor, since several other channel arrangements are within the scope of the present disclosure. In addition, various aspects of some of the figures can be incorporated into the dispositions of other figures without departing from the scope of the present disclosure.
[0137] Referring first to figure 11, an exemplary channel arrangement is illustrated, in which the LMS 50 defines a channel 49 and the absorbent core 28 does not define any channels. It is noted that, although LMS 50 is illustrated as a single layer system in figure 11, among other figures, other modalities may comprise a multilayer LMS without departing from the scope of the disclosure.
[0138] Figure 12 illustrates another exemplary channel arrangement, where channel 49 of LMS 50 is generally aligned with channel 26 of the absorbent core.
28. Although channel 49 and channel 26 are illustrated as having similar widths, in other embodiments, the widths of the two channels may be different. In some embodiments, for example, the width of channel 49 is wider or narrower than the width of channel 26 along the entire portion aligned in the longitudinal direction.
70/89
In other embodiments, the width of at least one of channel 49 and channel 26 may vary along the longitudinal direction, so that, at some points along the overlapping portion, channel 49 and channel 26 have similar widths (such as shown in figure 12) while, at other points along the overlapping portion, the channels have different widths. For example, channel 49 may be the same width along its entire longitudinal length while channel 26 may have parts that are tapered or widened, or vice versa. In some embodiments, channel 49, or at least portions of channel 49, of LMS 50 may not overlap channel 26 of absorbent core 26. In such cases, the width of channel 49 may be equal to, or different from, channel width 26. In addition, the similarities or relative differences in channel widths may vary along the respective longitudinal lengths of channels 49, 26.
[0139] Figure 13 illustrates an embodiment in which a portion of the upper layer 24 is embedded within the channel 49 defined by the LMS 50 and the channel 26 defined by the absorbent core 26. In some embodiments, the upper layer 24 is intermittently or continuously connected to the rear layer 25 along the channel to form a recess or groove that is visible from the user facing side of the absorbent article. An adhesive can be used to bond the top layer 24 and the bottom layer 25 through the channels, although other known processes can be used to form the bond, such as by pressure bonding, ultrasound bonding, hot bonding or combinations thereof.
71/89 [0140] Figure 14 illustrates an embodiment in which the upper layer 24 comprises a contoured element 24 'which generally aligns with the channel 49 defined by LMS 50. The contoured element 24' can be any three-dimensional structure appropriate, such as a groove, ridge or other element formed in the upper layer 24. In some embodiments, the contoured element 24 'of the upper layer 24 has a different thickness or base weight than other regions of the upper layer 24. In some embodiments, other layers of the absorbent article, such as LMS 50 and / or the absorbent core 28 comprise, additionally or alternatively, a three-dimensional structure generally aligned with a channel in the absorbent article. By way of comparison with figure 13, for example, the contoured element 24 'of figure 14 does not necessarily have to be connected to the bottom layer 25 to maintain its relative positioning within channel 49. In some embodiments, the contoured element 24' it can be deeper than the illustrated example, so as to be embedded in both channel 49 and channel 26. In one embodiment, both the top layer 24 and the bottom layer 25 include contoured elements that are embedded within channel 26 and of channel 49 of LMS 50 and absorbent core 28, respectively.
[0141] Figure 15 illustrates an embodiment in which both the upper layer 24 and the lower layer 25 are embedded in the channels defined by the LMS 50 and the absorbent core 28, respectively. Similar to the embodiment illustrated in figure 13, the upper layer 24 can be intermittent or continuously connected to the lower layer 25 along the channel. Any appropriate technique or combination of techniques can be used to link
72/89 the top layer 24 and the bottom layer 25. Furthermore, although in the illustrated embodiment, the top layer 24 and the bottom layer 25 are joined close to the interface between the LMS 50 and the absorbent core 28, this disclosure is not limited that is why. In other words, in some embodiments, the upper layer 24 may be further lowered into the channels than the lower layer 25, or the lower layer 25 may be further lowered into the channels than the upper layer 24.
[0142] Figure 16 illustrates a modality in which channel 49 and channel 26 are only partially aligned. In this embodiment, only a portion of channel 49 overlaps a portion of channel 26. Such a partially overlapping arrangement may continue along the longitudinal direction. Alternatively, channels 49 and channel 26 may become vertically aligned along the longitudinal direction, or the channels may deviate laterally, so that there is no overlapping portion. An exemplary configuration, in which there is no overlapping portion between channel 49 and channel 26, is illustrated in figure 17. Figure 18 illustrates yet another modality, in which each of the LMS 50 and the absorbent core 28 defines two channels , 49, 49 ', 26 and 27. As illustrated, channel 49 and channel 26 do not overlap with any other channels, while channel 49' of LMS 50 overlaps and, in this case, is completely aligned with channel 27.
[0143] Figure 19 illustrates a modality with a multilayer LMS 50, having a first layer 50 'and a second layer 50. In some embodiments, the first layer 50' comprises a non-woven material and the second
73/89 layer 50 comprises cross-linked cellulose fibers. In the illustrated arrangement, the absorbent core 28 defines a channel 26 and several layers of the LMS 50 collectively define a channel 49. The first layer 50 'is lowered into both channel 49 and channel 26, and connected to the bottom layer 25 thus forming a gap between the first layer 50 'and the top layer 24. Figure 20 illustrates another embodiment with an LMS 50 with a first layer 50' and a second layer 50. In the illustrated arrangement, the absorbent core 28 defines a channel 26 and an absence of both the first layer 50 'and the second layer 50, the LMS 50 defines a channel 49. In other embodiments, one or more layers of the LMS 50 are not embedded within the channel 49, or one or more layers of the LMS 50 are embedded within channel 49, but not within channel 26.
[0144] Figure 21 illustrates an embodiment of a multilayer LMS 50 in which the first layer 50 'is cut and folded along channel 49 to form a flap 63 that extends along the longitudinal direction of channel 49. Flap 63 it can be sandwiched between the first layer 50 'and the top layer 24 during the manufacture of the absorbent article. Alternatively, the flap 63 can be folded down towards the lower layer 25, so as to be received by the channel 49 and positioned along its wall. In some embodiments, the flaps can be present on either side of the channel 49, which can be formed by cutting a first layer 50 'along the longitudinal centerline of the channel 49 and then folding the flap to expose the channel.
[0145] In some modalities, it may be desirable to provide a visual indication of the channels. Such indication
74/89 visual can be provided using any suitable technique. Figure 22 illustrates an embodiment comprising a visually distinctive layer 67. In some embodiments, the visually distinctive layer 67 may be a layer on the side facing the LMS 50 garment that includes a pattern, image, color and / or hue different from that of other layers in LMS 50. The visually distinct layer 67 is visible through at least one of the upper layer 24 and the lower layer 25 to provide a greater visual distinction of channel 49. The greater visual distinction can serve as a symbol useful internal to facilitate the more precise alignment of the absorbent article in the user during the application process. Figure 23 illustrates another exemplary embodiment with the visually distinctive layer 67. In the illustrated embodiment, the visually distinctive layer 67 is positioned between the absorbent core 28 and the lower layer 25. The visually distinctive layer 67 may also be present in other locations within the absorbent article.
[0146] In addition to LMS 50 and absorbent core 28, it may be desirable to include additional layers in the absorbent article, such as a liquid distribution layer. Figures 24 to 26 illustrate embodiments that comprise a liquid distribution layer 71 that comprises a liquid distribution material. The liquid distribution material can be, for example, a fibrous or foamed material. The liquid distribution layer 71 can be discontinuous, as shown in figures 24 and 26, or it can be continuous, as shown in figure 25. Thus, the liquid distribution layer 71 can help define a channel within the absorbent article or it can cover a channel defined by the LMS 50 and / or the absorbent core 28.
75/89
In addition, the liquid distribution layer 71 can be positioned on any appropriate layer of the absorbent article to achieve the desired liquid distribution. As shown in Figures 24 and 25, for example, the liquid distribution layer 71 is positioned between the absorbent core 28 and the lower layer 25. By comparison, in figure 26, the liquid distribution layer 71 is positioned between the LMS 50 and the absorbent core 28. In some embodiments, a liquid distribution layer can be positioned between the top layer 24 and the LMS 50. Some embodiments can have a plurality of liquid distribution layers.
Separating element [0147] In certain embodiments, a user-facing surface of an absorbent article may have an anterior visual portion and a posterior visual portion. The anterior visual portion and the posterior visual portion can be separated by a separation element that extends substantially laterally. The separating element that extends substantially laterally can be, for example, a graphic sign printed on an upper layer of the absorbent article, or another layer of the absorbent article that is visible through the upper layer. In some embodiments, the separating element that extends substantially laterally is a portion of a dyed layer that is visible through the user facing surface. In addition, the anterior visual portion may be visually distinct from the posterior visual portion based on a difference in color and / or a difference in the printed pattern. Such visual separation between the anterior visual portion and the posterior visual portion can help the
76/89 proper alignment of the absorbent article during its application.
[0148] In some embodiments, the separation element that extends substantially laterally comprises a structural separator that is located in the region of the absorbent article that generally corresponds to the user's perineal region (i.e., placed between the urethra and the anus). The structural separator can, for example, limit the surface migration of urine to the posterior portion of the absorbent article, and from faeces to the anterior portion of the absorbent article. A structural separator can include any characteristic or three-dimensional component that functions as a transverse barrier (TVB), such as one or more projections above the user-facing surface of the absorbent article, recesses below the plane of the user-facing surface and combinations thereof . An example includes a laterally oriented blanket or sheet that is attached to the user-facing surface of the absorbent article, and the vertical leg leg clamps.
[0149] The structural separator can be rectangular or square when extended and flat in a relaxed state, contracted on a uniform horizontal surface. The structural separator can also be trapezoid when it is extended and flat in a relaxed state, contracted on a uniform horizontal surface. The structural separator can be hydrophobic (for example, it can be hydrophilic and become hydrophobic with a hydrophobic surface coating, as is known in the art, for example, a wax or a hydrophobic surface coating comprising one or more
77/89 plus silicone polymers or fluorinated polymers). In some embodiments, the structural separator may have an elastic behavior, so that it can be significantly elastically extensible in a transverse direction or in another direction. The structural separator may exhibit a certain amount of tension during use to ensure that it forms an effective separator (barrier) with a Z-direction dimension, to prevent, or at least inhibit, the migration of faeces from the rear to the front of the structural separator. . Other modalities of structural separators may include raised or thicker portions of the top layer, elements of the capture system or absorbent core, elements applied separately or holes or depressions in one or more of the elements of the absorbent core.
[0150] The structural separator can have any suitable structure and can be a ridge, protuberance or flap, for example. The structural separator can be placed along a lateral axis of an absorbent article, or it can be positioned at an angle that is oblique to the lateral axis. In some embodiments, the structural separator can generally be positioned parallel to a channel within the LMS to help control the flow of urine and / or faeces into that channel.
[0151] One or more structural separators can be incorporated into the absorbent articles, with a variety of channel configurations, as in any of the modalities illustrated above in figures 11 to 26.
[0152] Figures 27 to 34 are partial cross-sectional views of absorbent articles comprising channels 49 and 26 taken along a longitudinal axis
78/89 illustrating exemplifying types of structural separators 73. Similar to figures 11 to 26, the absorbent articles in figures 27 to 34 comprise an upper layer 24, a lower layer 25 and various configurations of the LMS 50 and the core absorber 28 that define several channels. Each of the illustrated absorbent articles comprises a structural separator 73 which is a projection above the surface coitus for the user of the absorbent article. The structural separator 73 can comprise, for example, an elastic film, a non-woven sheet, an elastic film laminate and a non-woven sheet material, a polyolefin film or any other suitable materials. The laminated non-woven sheet material can be positioned so that it is in contact with the user's skin. This laminate configuration can provide more comfort to the user than when the elastic film is directly in contact with the user's skin. In addition, structural separator 73 may be made of polyolefins known in the art, such as polyethylene and / or polypropylene, made from fibers, including bicomponent fibers, which are then made from a non-woven sheet. The nonwoven sheet material can be a tapered nonwoven. The material of the nonwoven sheet can be a melt blown nonwoven or a continuous spinning nonwoven, or a carded nonwoven. In some embodiments, it may be a laminate of one or more layers of continuous or carded spinning, and one or more layers of nonwoven produced by meltblown.
[0153] Figure 27 illustrates an embodiment in which a structural separator 73 is joined to an upper layer 24. Structural separator 73 is positioned between a
79/89 edge of the anterior waist 10 (figure 1) of the absorbent article and a channel 49 defined by the LMS 50 and a channel 26 defined by the absorbent core 28. The structural separator 73 can include and can be attached to the leg clamps with barrier 34 (figure 1) . Structural separator 73 can limit the surface migration of urine and / or faeces and at the same time help to direct faeces into channels 49 and 26. Structural separator 73 can comprise a flange 79 to help prevent, or at least inhibiting the flow of urine and / or faeces through structural separator 73. Although figure 27 illustrates channels on one side of structural separator 73, other embodiments may have channels on both sides of structural separator 73. figure 28 illustrates an embodiment comprising a liquid distribution layer 71 positioned between the upper layer 24 and the LMS 50. In other embodiments, the liquid distribution layer 71 can be positioned between the LMS 50 and the absorbent core 28, and / or between the absorbent core 28 and the bottom layer. Additional details regarding the liquid distribution layer are described above in relation to figures 24 to 26. Figure 29 illustrates an exemplifreader structural separator 73 that has a crest-like formation. The structural separator 73 is connected to the upper layer 24 at a first connection site 73 'and a second connection site 73 to form a hump between them. In some embodiments, AGM or other suitable material may be contained within the cavity defined by the upper layer 24 and structural separator 73. Figure 30 illustrates another embodiment of structural separator 73. In that embodiment, structural separator 73 comprises a first flange 77 and one second
80/89 flange 79 positioned along an upper edge 85 of structural separator 73. The first and second flanges 77, 79 can serve to block, or at least inhibit, bodily exudates that migrate undesirably along the user-facing surface .
[0154] Although figures 27 to 30 illustrate structural separator 73 as a separate component attached to the top layer 24 of the absorbent article, this disclosure is not limited thereby. Fig. 31 illustrates an exemplary embodiment in which the structural separator 73 is a component of a layer that attaches to the upper layer 24, so that a first portion of the layer connects to the upper layer 24 and a second portion extends upwards from the top layer 24 as a barrier. Fig. 32 illustrates an embodiment in which the upper layer 24 is formed with structural separator 73. In this embodiment, structural separator 73 has a crest-like formation. In such an embodiment, the LMS 50, or portions thereof, or the core or portions thereof, may extend into the cavity defined by the crest-like formation. In some embodiments, structural separator 73 comprises a plurality of layers. Referring now to Figure 33, structural separator 73 is formed by a liquid distribution layer 71 and upper layer 24. In other embodiments, different layers of the absorbent article can be used to form structural separator 73, such as the layer higher than 24 and at least a portion of LMS 50, for example. As will be understood, a structural separator can be used with absorbent articles with a variety of types of channels. Figure 34 illustrates an absorbent article with a portion of the
81/89 upper layer 24 embedded within channel 49 defined by LMS 50 and channel 2 6 defined by absorbent core 28. Structural separator 73 is positioned next to channel 49 to assist in controlling the migration of urine and / or faeces. Any of the structural separators disclosed in the present invention can be harder, more rigid or can be thicker than, for example, the rest of the top layer 24, so that the structural separators can maintain their shape when wetted or subjected to a force applied to them by a user.
[0155] According to the present disclosure, absorbent articles may comprise one or more channels in the LMS that have different physical property values than the other channels in the LMS. Exemplary physical properties include the channel width, length, orientation, volume, color, texture, area or other physical properties of the channel. The absorbent article may have an anterior visual portion and a posterior visual portion which are defined by a laterally extending or substantially laterally extending separation element. The separating element that extends substantially laterally may be a structure, such as a structural separator 73, or it may be a graphic symbol that is printed on the top layer or that is otherwise visible through a user-facing surface . A channel positioned in the anterior visual portion may have a first physical property, while a channel in the posterior visual portion may have a second physical property. Some differences in the physical properties of the channels may be visible through the user-facing surface to assist the caregiver in aligning the article
82/89 absorbent, in addition to providing desired performance characteristics.
[0156] Figures 35 to 40 illustrate exemplary differences in the values of the physical properties of one or more channels in the LMS located in a previous visual portion (identified as F) and the physical properties of one or more channels in the LMS located in a portion posterior visual (identified as B). Although the absorbent articles illustrated in figures 35 to 40 are diapers, it should be noted that other types of absorbent articles, such as training pants, adult incontinence products, sanitary pads and the like may also comprise channels in the LMS that have values of different physical properties in the anterior visual portion and in the posterior visual portion. In addition, only the channels in the LMS are illustrated in figures 35 to 40, for reasons of clarity. No channel in the absorbent core of the absorbent articles is illustrated. The absorbent articles shown in figures 35 to 40 have been simplified for the sake of clarity and, consequently, various components, such as barrier leg clamps, have been omitted. Also, although the separating element that extends substantially laterally is illustrated as a structural separator 73 in figures 35 to 40, this disclosure is not limited thereby. Other embodiments, for example, may use a graphic sign or other non-structural separation element to provide visual separation between the anterior visual portion and the posterior visual portion. In some embodiments, the separating element that extends substantially laterally may be a combination of an element
83/89 structural and printed symbols or dyed layers. In addition, the separating element which extends substantially laterally may have any suitable orientation or arrangement. In figure 35, for example, the separating element that extends substantially laterally (illustrated as a structural separator 73) is curved, whereas in other embodiments, structural separator 73 can be straight (figure 40) or can comprise a plurality of components linear (figure 37) or non-linear components, for example. In addition, although the laterally extending separating element is illustrated as extending across the entire lateral width of the absorbent article, it should be understood that, in some embodiments, the laterally extending separating element extends between the clamps for legs with barrier.
[0157] Referring first to figure 35, the illustrated value of the physical property of the channels in the LMS that differs in the anterior visual portion (F) and in the posterior visual portion (B) is the presence or absence of the channel. As shown, a channel 49 in the LMS is located in the posterior visual portion (B) of the absorbent article, while the anterior front portion (F) does not have a channel. Figure 36 shows that the number of channels in the LMS in the anterior visual portion (F) may differ from the number of channels in the LMS in the posterior visual portion (B). As shown, two channels 49 and 49 'are present in the anterior visual portion (F) and three channels, 49, 49' and 45 are present in the posterior visual portion (B). In the illustrated embodiment, channel 45 in the posterior visual portion (B) is sometimes called a pocket or a pocket BM. Such a pocket on the LMS can generally line up with a pocket
84/89 similarly positioned on the absorbent core. Generally, the BM pocket can be configured to house the host's feces and limit their spread.
[0158] Referring now to figure 37, the area of the channels in the anterior visual portion (F) differs from the area of the channels in the posterior visual portion (B). As illustrated, the area of channels 49 and 49 'is smaller than the area of channels 45 and 45'. In other modalities, the area of the channels in the anterior visual portion (F) may be larger than the area of the channels in the posterior visual portion. Likewise, in some modalities, the size of the channels can vary so that the visually larger channel is positioned in one of the anterior visual portion (F) and the posterior visual portion (B). Some embodiments may have a plurality of channels in the anterior visual portion, in the posterior visual portion or in a plurality of channels in both portions. A total lateral width of the channels can be measured at a point along the longitudinal axis of the absorbent article by measuring the width of all channels at that point and accumulating the widths to determine a total lateral width at that point. As an example, if an LMS defines three channels at one point along the longitudinal axis, with each channel having a width of 0.64 centimeter (0.25 inch), the total lateral width would be 1.91 centimeters ( 0.75 inch). The total lateral width of a plurality of channels at one point along the longitudinal axis in the anterior visual portion (F) can be different from the total lateral width of a plurality of channels at one point along the longitudinal axis in the posterior visual portion (B) ).
[0159] Figure 38 illustrates that the color of a channel may be different in the anterior visual portion (F) in relation to
85/89 to the posterior visual portion (B). As shown, channels 49 and 49 'cover both the anterior visual portion (F) and the posterior visual portion (B). The portion of channels 49 and 49 'positioned in the posterior visual portion (B) illustrated as portion 43, is colored. In some embodiments, portion 43 of channels 49 and 49 'are colored using a dyed layer, as shown in figures 22 and 23, for example. Figure 39 illustrates an embodiment in which the texture of the channels in the anterior visual portion (F) is different from the texture of the channels in the posterior visual portion (B). As shown, portion 41 of channels 49 and 49 'comprises a different texture than the texture of the portion of channels 49 and 49' in the anterior visual portion (F). The texture of portion 41 can be, for example, serrated, ribbed or wavy.
[0160] Figure 40 illustrates that the physical orientation of the channels present in the anterior visual portion (F) may differ from the physical orientation of the channels in the posterior visual portion (B). As shown, the anterior visual portion (F) has three channels, 49, 49 'and 49, and the posterior visual portion (B) comprises channels 45, 45' and 45 '' '. As long as the number and area of the channels in the anterior visual portion (F) is equal to the number and area of the channels in the posterior visual portion (B), the physical orientation is different. Specifically, channels 49 49 'and 49' '' extend in a substantially lateral direction, while channels 45, 45 'and 45' '' extend in a substantially longitudinal direction.
[0161] In other modalities, there may be other physical differences in the anterior visual portion (F) and in the posterior visual portion (B). For example, the number of layers in the anterior visual portion (F) may differ from
86/89 number of layers in the posterior visual portion (B). Thus, in the anterior portion, a channel can be defined by two layers while, in the posterior portion, it is defined by three layers. The shape, curvature or depth of the channels and / or the number of layers that define the channels in the anterior visual portion (F) may be different from the channels in the posterior visual portion (B). For example, the anterior visual portion (F) may have a series of channels that generally extend in a lateral direction throughout the anterior visual portion (F) and the posterior visual portion (B) may have a single circular channel.
Hygienic absorbent elements [0162] Referring to figure 41, an absorbent article may be a 3010 hygienic absorbent. The hygienic absorbent 3010 may comprise a liquid-permeable top layer 3014, a liquid-impermeable bottom layer, or substantially liquid-impermeable 3016 and an absorbent core 3018. The absorbent core 3018 may have any or all of the characteristics described in this document in relation to the absorbent core 28 and, in some embodiments, it may have a secondary top layer 3019 (STS) instead of the control of liquids revealed above. The STS 3019 can comprise one or more channels, as described above. In some embodiments, the channels in the STS 3019 can be aligned with the channels in the absorbent core 3018. The sanitary pad 3010 may also comprise sides 3020 extending outwardly relative to a longitudinal axis 3080 of the sanitary pad 3010. The sanitary pad 3010 can also comprise a 3090 side axis.
The sides 3020 can be joined to the top layer 3014, the
87/89 bottom layer 3016, and / or the absorbent core 3018. The sanitary napkin 3010 can also comprise an anterior edge 3022, a posterior edge 3024 longitudinally opposite the anterior edge 3022, a first lateral edge 3026 and a second lateral edge 3028 longitudinally opposite the first side edge 3026. The longitudinal axis 3080 can extend from a midpoint of the front edge 3022 to a midpoint of the rear edge 3024. The side axis 3090 can extend from a midpoint of the first side edge 3028 to a point middle of the second side edge 3028. The sanitary pad 3010 may also have additional features commonly found in sanitary pads, as is known in the art.
Method for producing the article [0163] The absorbent articles (e.g., diapers, sanitary napkins, training pants, etc.) of the present disclosure can be made by any suitable methods known in the art. In particular, absorbent articles can be handcrafted or industrially produced at high speed. In some embodiments, the channels described in the present invention can be created by drilling, die cutting, cracking or spreading the associated layer. In an example of a manufacturing process, the drum is provided with a protrusion. A layer of fibers produced by air deposition deposited on the surface of the drum and the fibers above the protuberance are removed and deposited in the surrounding area. In one embodiment, a rotating chamfering cylinder is used to remove the fibers. In other exemplifying modalities, a channel in a rolling material capture layer material, such as a
88/89 cellulosic blanket produced by wet deposition or a highly aerated non-woven fabric, can be created by drilling / die cutting, or slitting and spreading. In one embodiment, the shape is cut to form a flap of material, which is folded back over another portion of the blanket. An exemplary embodiment using a flap-type construction is described above, with reference to figure 23. If desired, the folded flap can be attached to maintain its relative position. The shape can be, for example, a U shape or smaller than all sides of a closed polygon shape.
[0164] The dimensions and values disclosed in the present invention should not be understood as being strictly limited to the exact numerical values mentioned. Instead, except where otherwise specified, each of these dimensions is intended to mean both the mentioned value and a range of
values functionally equivalent in lathe of that value. For example, a revealed dimension as 40 mm if intended to mean about 40 mm. [0165] Every document cited at gift
The invention, including any cross-reference, patent or related application, is hereby incorporated in its entirety, by way of reference, unless expressly excluded or otherwise limited. The mention of any document is not an admission that it is prior art in relation to any invention presented or claimed in this document, or that it, alone or in any combination with any other reference or references, teaches, suggest or present any invention like that. In addition, if
89/89 conflict between any meaning or definition of a term mentioned in this document and any meaning or definition of the same term in a document incorporated by reference, the meaning or definition assigned to that term in this document will take precedence.
[0166] Although the specific modalities of the present description have been illustrated and described, those skilled in the art will recognize that various other changes and modifications can be made without departing from the spirit and scope of the present disclosure. It is intended, therefore, to cover in the appended claims all such changes and modifications that are within the scope of this description.

权利要求:
Claims (15)
[1]
1. Absorbent article, characterized by the fact that understand: one material permeable to liquids; one material impervious to liquids; one core willing absorbent at least partially between the permeable material to liquids and the
liquid impermeable material and comprising an absorbent material, where the absorbent material comprises at least 85% superabsorbent polymers, by weight of the absorbent material, where the absorbent core defines a first channel substantially free of superabsorbent polymers, and where the first channel extends substantially through the thickness of the absorbent material; and a liquid control system positioned at least partially between the liquid-permeable material and the absorbent core, wherein the liquid control system is substantially free of any superabsorbent polymers, where the liquid control system defines a second channel , and where the second channel extends substantially through the thickness of the liquid control system.
[2]
2. Absorbent article according to claim 1, characterized in that the liquid control system comprises a first layer and a second layer, in which the first layer is positioned adjacent to the liquid-permeable material and in which the second layer is positioned adjacent to the absorbent core.
[3]
Absorbent article according to claim 2, characterized in that the first or second layer comprises a non-woven material or a carded non-woven material bonded by resin.
2/4
[4]
Absorbent article according to claim 2, characterized by the fact that the first or second layer comprises cross-linked cellulose fibers.
[5]
5. Absorbent article according to any one of the preceding claims, characterized by the fact that the liquid control system comprises an open cell foam.
[6]
6. Absorbent article according to any one of the preceding claims, characterized by the fact that the liquid control system comprises fibers produced by air deposition.
[7]
Absorbent article according to any one of the preceding claims, characterized in that at least a portion of the first channel overlaps with at least a portion of the second channel.
[8]
8. Absorbent article according to any one of the preceding claims, characterized in that at least one layer of the liquid control system has a different color than that of the liquid-permeable material or a portion of the absorbent core.
[9]
9. Absorbent article, according to any of the preceding claims, characterized by the fact that the body exudate is at least partially visible through the liquid impermeable material, when the body exudate is within, or close to, the first and second channels .
[10]
10. Absorbent article according to any one of claims 1 to 6, 8 or 9, characterized by the fact that the first channel does not overlap the second channel.
[11]
11. Absorbent article, according to any of the previous claims, characterized by the fact that it comprises an indicator configured to make the
3/4 transition from a first state to a second state when the body exudate is within the first or second channel.
[12]
12. Absorbent article according to any one of the preceding claims, characterized by the fact that the absorbent core comprises:
a periphery having a generally hourglass shape;
a first material;
a first layer of the superabsorbent polymers;
a second material;
a second layer of the superabsorbent polymers; and a fibrous thermoplastic adhesive material bonding, at least partially, the first material to the first layer of superabsorbent polymers and the second material to the second layer of superabsorbent polymers, wherein the first channel extends substantially through the thickness of the first layer of superabsorbent polymers and substantially through the thickness of the second layer of superabsorbent polymers.
[13]
13. Absorbent article according to any one of the preceding claims, characterized by the fact that the liquid-permeable material defines a plurality of openings therein.
[14]
14. Absorbent article according to any one of the preceding claims, characterized by the fact that it has an anterior region and a posterior region defined by a lateral axis of the absorbent article, and in which the liquid control system defines a third channel in the region later.
Ml ·
[15]
Absorbent article according to any one of the preceding claims, characterized in that the second channel is at least partially aligned with a visual element in the liquid-permeable material, in the liquid-impermeable material or in the absorbent core.

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CA2922874A1|2015-03-05|

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EP3038580A1|2016-07-06|

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JP2016532508A|2016-10-20|

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JP2016533822A|2016-11-04|

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CL2016000443A1|2016-10-28|

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JP2016532507A|2016-10-20|

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WO2015031243A1|2015-03-05|

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CA2922614C|2018-04-03|

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CN105530902A|2016-04-27|

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EP3038580B1|2020-03-25|

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CL2016000444A1|2016-10-28|

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WO2015031225A1|2015-03-05|

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法律状态:
2018-11-06| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

---

2020-05-12| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

---

2021-10-19| B350| Update of information on the portal [chapter 15.35 patent gazette]|

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2021-12-28| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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US201361870365P| true| 2013-08-27|2013-08-27|

---

US201361870397P| true| 2013-08-27|2013-08-27|

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US201361870391P| true| 2013-08-27|2013-08-27|

---

PCT/US2014/052446|WO2015031225A1|2013-08-27|2014-08-25|Absorbent articles with channels|

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