Patent Description:
Absorbent articles for personal hygiene are designed to absorb and contain bodily exudates, such as a large quantity of urine and/or stool. Non-limiting examples of disposable absorbent articles include diapers, pants, training pants, pad, adult incontinence products, and feminine hygiene products (including, for example, sanitary napkins and tampons). Other examples of disposable absorbent articles include bandages and wound dressings. In some embodiments, for example, an absorbent article comprises several layers providing different functions, for example a topsheet, a backsheet and in-between an absorbent core, among other layers.

The function of the absorbent core is to absorb and retain the exudates for a prolonged amount of time, for example overnight for a diaper, minimize re-wet to keep the wearer dry and avoid soiling of clothes or bed sheets. The majority of currently marketed absorbent articles comprise as absorbent material a blend of comminuted wood pulp (also referred to as fluff pulp and/or cellulose fibers) with superabsorbent polymers (SAP) in particulate form, also called absorbent gelling materials (AGM), see for example <CIT>). Absorbent articles having a core consisting essentially of SAP as absorbent material (so called "airfelt-free" cores) have also been proposed but are less common than traditional mixed cores (see e.g. <CIT> and <CIT>).

A number of disclosures exist (see for example <CIT>) directed to limiting the risk of leakage by providing transversal barriers at the front and/or back of a diaper. However whilst such executions may be effective on diaper constructs they are less effective and or complex/costly to incorporate into a pant concept.

An attempt to overcome such shortcomings has been made in for example <CIT> wherein a nonwoven layer of the front and/or back belt is folded a plurality of times to form a waist guard. Although this provides for an effective way to introduce a transversal barrier in a pant construct, there are several drawbacks that have been identified: firstly, the nonwoven that is generally hydrophobic may be sufficient to capture solids but is less effective to capture larger amounts of liquid exudates (particularly under pressure such as when a baby is moving and/or application of sudden pressure such as sitting/dropping on the floor on its buttocks); secondly it limits the positioning thereof to a closer position at the waist edge which is less effective in providing a barrier since it is positioned further away from the core and to position it closer to the core and away from the waist edge would require a significant increase in length of the nonwoven which adds significant waste and cost; thirdly applying the multiple folds at different positions of the same component and especially further elasticizing the region when/if desired may add significant process complexity particularly at high speeds.

A need therefore exists for improved absorbent articles having leakage protection particularly for substantially liquid exudates such as urine and/or liquid stool yet in in a cost effective manner and with more limited additional waste as well as having an efficient method and apparatus for the manufacture of such absorbent articles.

In a first aspect the disclosure relates to an absorbent article for personal hygiene, preferably a disposable pant, comprising: a front panel preferably substantially transversely extending; a back panel preferably substantially transversely extending; and an absorbent insert, preferably substantially longitudinally extending, joined to each of said front and back panels, said absorbent insert comprising front and back transversal edges and left and right longitudinal edges connecting the front and back transversal edges to form a perimeter thereof and generally wherein the left and right longitudinal edges extend substantially along the longitudinal axis y and are oppositely disposed such that said longitudinal axis y extends therebetween, and the front and back transversal edges extend substantially along the transversal axis x, and typically substantially perpendicular to the longitudinal axis y, and are oppositely disposed such that said transverse axis x extends therebetween). The front and back panels are joined together to define a pair of side seams, and at least a portion of said absorbent insert proximal to the front and/or back transversal edges thereof comprises a transversal waist barrier comprising a substantially liquid impermeable film layer.

In a second aspect the disclosure relates to a method for the manufacture of an absorbent article comprising the steps of: providing a front panel; providing a back panel; providing an absorbent insert comprising front and back transversal edges and left and right longitudinal edges connecting the front and back transversal edges to form a perimeter thereof and generally wherein the left and right longitudinal edges extend substantially along the longitudinal axis y and are oppositely disposed such that said longitudinal axis y extends therebetween, and the front and back transversal edges extend substantially along the transversal axis x, and typically substantially perpendicular to the longitudinal axis y, and are oppositely disposed such that said transverse axis x extends therebetween); folding a portion of said absorbent insert proximal to the front and/or back transversal edges thereof onto itself, preferably in the shape of a substantially U-fold, to form transversal waist barrier(s); joining said insert to said front and back panels; and joining said front and back panels together along a pair of oppositely disposed side seams. Preferably, said folding step is carried out by static folding where a static element, i.e. a stator, such as a stationary folding blade deflects a portion of said absorbent insert proximal to the front and/or back transversal edges thereof onto itself. In other words, the folding is step is preferably done by passive folding meaning that the folding is done with a moving element, i.e. the absorbent insert, being folded by an unmoving, or immobile or fixed element, e.g. a blade. Such folding is more cost efficient and more reproducible. The present disclosure encompasses embodiments where the folding step is carried out by dynamic folding, where a mobile element, e.g. an actuated folding blade, moves or is actuated to fold a portion of said absorbent insert proximal to the front and/or back transversal edges thereof onto itself. In other words, the method preferably comprises a step such as statically folding a portion of said absorbent insert proximal to the front and/or back transversal edges thereof onto itself, preferably in the shape of a substantially U-fold, to form transversal waist barrier(s).

According to an embodiment, the method further comprising the steps of folding an outer nonwoven layer of the front and/or back panels over the folded absorbent insert and joining said folded outer nonwoven layer directly or indirectly to the folded absorbent insert.

According to an embodiment, the method further comprising the step of arranging an elastic material over the folded portion of the folded absorbent insert prior to step of folding an outer nonwoven layer of the front and/or back panels over the folded absorbent insert. Preferably the elastic material is arranged such that said elastic material is sandwiched between the absorbent insert and the outer nonwoven layer. More preferably, the absorbent insert comprises a backsheet and eventually an outer cover on the garment facing surface of the absorbent core, the elastic material being sandwiched between the backsheet and the outer nonwoven layer or the elastic material being sandwiched between the outer cover and the outer nonwoven layer or the elastic material being sandwiched between the backsheet and outer cover and the outer nonwoven layer e.g. in cases where the outer cover is transversally shorter than the backsheet. In other words, the elastic material is directly or indirectly joined to the backsheet, preferably by adhesive, and sandwiched between the backsheet and/or outer cover and the outer nonwoven layer.

According to an embodiment, the method further comprising the step of intermittently applying adhesive, preferably in the machine direction, onto said portion of the absorbent insert proximal to the front and/or back transversal edges.

According to an embodiment, the method further comprising the step of arranging an elastic material over the folded portion of the folded absorbent insert prior to step of folding an outer nonwoven layer of the front and/or back panels over the folded absorbent insert.

According to an embodiment, the method further comprising the step of intermittently applying adhesive onto said portion of the absorbent insert proximal to the front and/or back transversal edges.

According to an embodiment, the method further comprising the step of applying adhesive onto said portion of the absorbent insert proximal to the front and/or back transversal edges in an adhesive pattern, said adhesive pattern comprising at least two areas of adhesive arranged at the transversal extremities of the front and/or back transversal edges, a further area of adhesive extending transversally between said two areas of adhesive, said further area being at a longitudinal distance from the transversal edge, and an adhesive-free area arranged between the transversal edge of the absorbent insert and said further area.

According to an embodiment, the method further comprising the step of compressing the folded portion of the folded absorbent insert, preferably at least the transversal waist barrier(s), once formed prior to the steps of folding an outer nonwoven layer of the front and/or back panels over the folded absorbent insert and joining said folded outer nonwoven layer directly or indirectly to the folded absorbent insert.

According to an embodiment, the method further comprising the step of strand coating the elastic material prior to the step of arranging said elastic material over the folded portion of the folded absorbent insert.

According to an embodiment, the method further comprising the step of compressing the folded portion of the folded absorbent insert once the outer nonwoven layer has been joined directly or indirectly to the folded absorbent insert.

According to an embodiment, the method further comprising the step of mechanically bonding the folded transversal edge of the absorbent insert once the transversal waist barrier(s) has been formed.

In a third aspect the disclosure relates to an apparatus for the manufacture of an absorbent article according to a method as described herein wherein the apparatus comprises:.

According to an embodiment, the folding unit comprises comprises, preferably consists of, a stator, preferably in the form of a folding blade said blade comprising a curvature, said curvature spanning over an angle from <NUM>° to at least <NUM>°, preferably at least <NUM>°, more preferably at least <NUM>°, for example <NUM>°.

According to an embodiment, the folding unit further comprises a pressing blade arranged at a distance from the folding blade with respect to the cross direction and/or vertical direction and arranged to press on absorbent insert at a portion located between the portion of the absorbent insert proximal to the front and/or back transversal edges and the central portion of the absorbent insert.

According to an embodiment, the pressing blade is shorter in length, with respect to the machine direction.

According to an embodiment, the pressing blade comprise a sloped portion at the upstream portion of the pressing blade with respect to the machine direction, said sloped portion extending diagonally downward while extending downstream with respect to the machine direction.

According to an embodiment, the apparatus comprises an adhesive dispensing device arranged upstream of the folding unit with respect to the machine direction, said device being configured to apply adhesive intermittently.

According to an embodiment, a pressure roller is arranged to press the folded transversal edge of the absorbent insert, said pressure roller being arranged downstream of the folding unit and upstream of the rotating drum and/or second conveyor belt with respect to the machine direction.

According to an embodiment, the folding unit comprises a support device to carry the folding blade and/or pressing blade said support device comprising means to move the folding blade and/or pressing blade or comprising means to remove the folding blade and/or pressing blade, preferably in the cross and/or vertical directions (CD,Z).

According to an embodiment, the folding unit comprises an adjustable mechanism to adjust the distance between the pressing blade and the folding blade with respect to the cross direction and/or vertical direction.

According to an embodiment, the folding unit comprises two folding blades, preferably each with a pressing blade, said folding blades being arranged at each end of the conveyor belt with respect to the cross direction, the folding blades being substantially identical in dimensions and shape.

These embodiments can be taken alone or in combination.

"About" as used herein referring to a measurable value such as a parameter, an amount, a temporal duration, and the like, is meant to encompass variations of +/-<NUM>% or less, preferably +/-<NUM>% or less, more preferably +/-<NUM>% or less, even more preferably +/-<NUM>% or less, and still more preferably +/-<NUM>% or less of and from the specified value, in so far such variations are appropriate to perform in the disclosed disclosure.

The recitation of numerical ranges by endpoints includes all numbers and fractions subsumed within that range, as well as the recited endpoints unless otherwise stated.

As used herein, the "skin facing", "body-facing" or "bodyside" surface means that surface of the article or component which is intended to be disposed toward or placed adjacent to the body of the wearer during ordinary use, while the "outward", "outward-facing" or "garment-side" or "garment facing" surface is on the opposite side, and is intended to be disposed to face away from the wearer's body during ordinary use. Such outward surface may be arranged to face toward or placed adjacent to the wearer's garments or undergarments when the absorbent article is worn.

As used herein, the term "absorbent article" refers to disposable devices such as infant or adult diapers or pads, pants, training pants, and the like which are placed against or in proximity to the body of the wearer to absorb and contain the various exudates discharged from the body. Typically these articles comprise a topsheet, backsheet, an absorbent core and optionally an acquisition system (which may be comprised of one or several layers) and typically other components, with the absorbent core normally placed between the backsheet and the acquisition system or topsheet.

The absorbent articles of the disclosure will be further illustrated in the below description and in the Figures, though all embodiments described herein may equally be applied onto absorbent articles in the form of pants (or even in the form of feminine hygiene articles such as menstrual pants and/or slips/panties). Nothing in this description should be however considered limiting the scope of the claims unless explicitly indicated otherwise. Unless indicated otherwise, the description refers to the dry article, i.e. before use and conditioned at least <NUM> hours at <NUM>° C. +/-<NUM>° C. and <NUM>+/-<NUM>% Relative Humidity (RH).

A "nonwoven web" as used herein means a manufactured sheet, web or batt of directionally or randomly orientated fibers, bonded by friction, and/or cohesion and/or adhesion, excluding paper and products which are woven, knitted, tufted, stitch-bonded incorporating binding yarns or filaments, or felted by wet-milling, whether or not additionally needled. The fibers may be of natural or man-made origin and may be staple or continuous filaments or be formed in situ. Commercially available fibers have diameters ranging from less than about <NUM> to more than about <NUM> and they come in several different forms such as short fibers (known as staple, or chopped), continuous single fibers (filaments or monofilaments), untwisted bundles of continuous filaments (tow), and twisted bundles of continuous filaments (yarn). Nonwoven webs can be formed by many processes such as meltblowing, spunbonding, solvent spinning, electrospinning, carding and airlaying. The basis weight of nonwoven webs is usually expressed in grams per square meter (g/m2 or gsm).

The terms "joined" or "associated" or "bonded" or "attached", as used herein, encompasses configurations whereby an element is directly secured to another element by affixing the element directly to the other element, and configurations whereby an element is indirectly secured to another element by affixing the element to intermediate member(s) which in turn are affixed to the other element. The terms further include embodiments in which a pocket or other connector is formed in or attached to an area of the absorbent article. Further, these terms include configurations in which the elements are removably, or non-removably, joined, bonded, or attached. For example, wherein an element is described as "joined" within the configuration, it may be either removably joined or non-removably joined unless otherwise specified or evident from the context.

The terms "comprise," "comprising," and "comprises" are open ended terms, each specifies the presence of what follows, e.g., a component, but does not preclude the presence of other features, e.g., elements, steps, components known in the art, or disclosed herein. These terms based on the verb "comprise" should be read as encompassing the narrower terms "consisting of" which excludes any element, step, or ingredient not specified and "consisting essentially of" which limits the scope of an element to the specified materials or steps and those that do not materially affect the way the element performs its function. Any preferred or exemplary embodiments described below are not limiting the scope of the claims, unless specifically indicated to do so. The words "typically", "normally", "advantageously" and the likes also qualify elements which are not intended to limit the scope of the claims unless specifically indicated to do so.

By "absorbent material" it is meant a material which has some absorbency property or liquid retaining properties, such as SAP, cellulosic fibers as well as synthetic fibers, most preferably is selected from the group consisting of SAP, cellulose (or cellulosic) fibers, and mixtures thereof. Herein, absorbent materials in the form of fibrous absorbent materials have been found to be useful. These fibrous absorbent materials can comprise or consist of natural fibers, e.g. cellulosic fibers as well as synthetic fibers. Typically, glues used in making absorbent cores have no absorbency properties and are not considered as absorbent material.

As used herein, the term "absorbent core" refers to the component or components of the article having the most absorbent capacity and comprising an absorbent material and optionally a core wrap enclosing the absorbent material. The term "absorbent core" does not include the acquisition-distribution system or layer or any other component of the article which is not either integral part of the core wrap or placed within the core wrap. The core may consist essentially of, or consist of, a core wrap, absorbent material as defined below and glue enclosed within the core wrap.

The values indicated herein are measured according to the methods indicated herein below, unless specified otherwise. All measurements are performed at <NUM>±<NUM>° C. and <NUM>±<NUM>% RH, unless specified otherwise. All samples should be kept at least <NUM> hours in these conditions to equilibrate before conducting the tests, unless indicated otherwise. All measurements should be reproduced on at least <NUM> samples and the average value obtained indicated, unless otherwise indicated.

As exemplified in <FIG>, absorbent articles herein are for personal hygiene, preferably in the form of a pant, the absorbent article comprising: a substantially transversely extending front panel (<NUM>); a substantially transversely extending back panel (<NUM>); and a substantially longitudinally extending absorbent insert (<NUM>) joined to each of said front and back panels (<NUM>, <NUM>), said absorbent insert (<NUM>) comprising front and back transversal edges and left and right longitudinal edges connecting the front and back transversal edges to form a perimeter thereof (generally wherein the left and right longitudinal edges extend substantially parallel to the longitudinal axis y and are oppositely disposed such that said longitudinal axis y extends therebetween, and the front and back transversal edges extend substantially parallel to the transversal axis x, and typically substantially perpendicular to the longitudinal axis y, and are oppositely disposed such that said transverse axis x extends therebetween); wherein the front and back panels (<NUM>, <NUM>) are joined together to define a pair of side seams, and wherein at least a portion of said absorbent insert (<NUM>) proximal to the front and/or back transversal edges thereof comprises a transversal waist barrier(s) (<NUM>) comprising a substantially liquid impermeable film layer, preferably wherein said transversal waist barrier (<NUM>) is an up-standing barrier generally arranged to block substantially liquid exudates from flowing therethrough. Advantageously, this arrangement allows for an absorbent article with superior leakage prevention particularly for substantially liquid exudates such as urine and/or liquid stool.

Generally, the substantially liquid impermeable film layer is an integral component of at least one element or portion of the absorbent article such as a backsheet (<NUM>) thereof typically such that no additional and/or separate layer, element and/or material is incorporated to form the transversal waist barrier(s) (<NUM>). Advantageously this allows to reduce waste and/or cost associated with incorporating separate elements to create the transversal waist barrier(s).

The backsheet (<NUM>) is generally that portion of the absorbent article positioned adjacent the garment-facing surface of the absorbent core (<NUM>) and which prevents the exudates absorbed and contained therein from soiling articles such as bedsheets and undergarments. The backsheet (<NUM>) is typically impermeable to liquids (e.g. urine). The backsheet (<NUM>) may for example be or comprise a thin plastic film such as a thermoplastic film having a thickness of about <NUM> to about <NUM>. Preferably the basis weight of the backsheet (<NUM>) is less than or equal to <NUM>/m<NUM>, more preferably from <NUM>/m<NUM> to <NUM>/m<NUM>. Exemplary backsheet films include those manufactured by Tredegar Corporation, based in Richmond, Va. , and sold under the trade name CPC2 film. Other suitable backsheet materials may include breathable materials which permit vapors to escape from the absorbent article while still preventing exudates from passing through the backsheet (<NUM>). Exemplary breathable materials may include materials such as woven webs, nonwoven webs, composite materials such as film-coated nonwoven webs, microporous films such as manufactured by Mitsui Toatsu Co. , of Japan under the designation ESPOIR NO and by Tredegar Corporation of Richmond, Va. , and sold under the designation EXAIRE, and monolithic films such as manufactured by Clopay Corporation, Cincinnati, Ohio under the name HYTREL blend P18-<NUM>. Some breathable composite materials are described in greater detail in <CIT> in the name of E. DuPont; <CIT>, <CIT>, <CIT>; and <CIT>, <CIT>.

In a preferred embodiment the backsheet (<NUM>) is breathable. Breathable backsheet herein typically means that it comprises micro-openings sized to allow at least some water vapour to permeate through the backsheet that typically comprises a film such as a polyethylene (PE) film.

Preferably a backsheet (<NUM>) is breathable when the water vapour transmission rate (WVTR) of the backsheet is at least <NUM> grams/m2 - <NUM> hours, preferably at least <NUM>,<NUM> grams/m2 - <NUM> hours, even more preferably from <NUM>,<NUM> grams/m2 - <NUM> hours to <NUM>,<NUM> grams/m2 - <NUM> hours, even more preferably from <NUM>,<NUM> grams/m2 - <NUM> hours to <NUM>,<NUM> grams/m2 - <NUM> hours, as measured according to ASTM D6701-<NUM>.

The backsheet (<NUM>) may be joined to the topsheet (<NUM>), the absorbent core (<NUM>) or any other element of the absorbent article by any attachment means known in the art. Suitable attachment means are described above with respect to means for joining the topsheet to other elements of the article. For example, the attachment means may include a uniform continuous layer of adhesive, a patterned layer of adhesive, or an array of separate lines, spirals, or spots of adhesive. Adhesives which have been found to be satisfactory are manufactured by H. Fuller Company of St. Paul, Minn. and marketed as HL-<NUM> and HL <NUM>-XZP. Alternatively, the attachment means may comprise heat bonds, pressure bonds, ultrasonic bonds, dynamic mechanical bonds, or any other suitable attachment means or combinations of these attachment means as are known in the art.

The absorbent core (<NUM>) of the absorbent article may comprise one or more core layers. As explained, the absorbent article may comprise an acquisition distribution system, which will typically consist of one or more layers. Most typically, the layers are arranged above the core layer. Hence, a number of layers can be arranged between the topsheet and the backsheet. The skilled person will usually have no difficulty in distinguishing between these layers. In case of doubt, a core layer can be identified as being a layer which is generally less permeable than a layer forming part of the acquisition-/distribution-system.

Permeability generally refers to the quality of a porous material that causes it to a lower liquid or gases to pass through it. Hence, the layers of the acquisition distribution system should generally be more permeable than the layers of the core system as these layers are meant to distribute liquid to the absorbent core, where the liquid is ultimately stored.

In an embodiment, as exemplified in <FIG>, the transversal waist barrier(s) (<NUM>) overlap at least a portion of an absorbent core (<NUM>) of the insert (<NUM>) typically such that the exudates collected and/or retained by the transversal waist barrier(s) (<NUM>) are substantially dehydrated and/or absorbed by the neighbouring absorbent core (<NUM>) surface(s). Advantageously this allows for reduced leakage risks of highly liquid exudates like urine or liquid stool such as diarrhoea (or other liquid stool that is generally and commonly observed e.g. with new-born babies).

Preferably the front and back panels (<NUM>, <NUM>) are separate and connected to each other by the insert (<NUM>) acting as a bridge element to form a substantially H-shaped pant. Advantageously this allows to omit cutting/shaping of panels in a crotch region of the article thus reducing waste and/or limiting the amount of panel material in view of its absence in the crotch region also helping to reduce waste and cost.

The insert (<NUM>) may be joined to the front and back panels (<NUM>, <NUM>) by adhesive and/or mechanical bonding such as ultrasonic bonding, pressure bonding, and/or thermal bonding and the like. In a preferred embodiment the insert (<NUM>) is joined to the front and back panels (<NUM>, <NUM>) by a discontinuous pattern of adhesive. Advantageously this may help to retain softness and pliability of the laminated structures and reduce stiffness when worn.

In an embodiment, the substantially liquid impermeable film layer comprises, preferably consists of, a backsheet (<NUM>) of the absorbent insert (<NUM>) and preferably comprises a material comprising, or consisting of, a polyester, more preferably said material being selected from the group consisting of polyethylene, polylactic acid, and polypropylene. Advantageously such transversal waist barrier(s) are not only impermeable to a much higher degree than hydrophobic nonwovens but further are formed by using a component already present in the absorbent article and hence does not require adding any further materials that would impact waste and/or cost.

Preferably, the at least portion of said absorbent insert (<NUM>) proximal to the front and/or back transversal edges thereof comprises one or more folds forming the transversal waist barrier(s) (<NUM>), preferably wherein said fold is substantially U-shaped. Advantageously such fold of the insert allows to form a liquid impermeable barrier to exudates, and particularly the U-shape (vs other shapes) allows to form a maximised pocket for exudate collection with the minimum use of material.

Preferably, the folded portion of said absorbent insert (<NUM>) is joined to the body-facing surface of the topsheet (<NUM>) at a pair of oppositely disposed extremities of the insert (<NUM>) along a portion of the left and right longitudinal edges thereof, generally wherein said oppositely disposed extremities are connected by a fold of said folded portion of said absorbent insert (<NUM>), such that a pocket is formed that acts as a barrier to exudates in both the longitudinal direction (i.e. substantially parallel to the longitudinal axis y) and the transverse direction (i.e. substantially parallel to the transverse axis x). The said extremities of the insert (<NUM>) may be joined by adhesive and/or mechanical bonding such as ultrasonic bonding, thermal bonding, and/or pressure bonding and the like.

In an embodiment, the absorbent insert (<NUM>) comprises a substantially liquid permeable topsheet (<NUM>), a substantially liquid impermeable backsheet (<NUM>), and an absorbent core (<NUM>) sandwiched therebetween, preferably wherein the absorbent core (<NUM>) is positioned inboard of the perimeter of said absorbent insert (<NUM>) when viewed in a planar direction (as generally depicted and illustrated in the figures herein and that typically corresponds to a plane formed by the x and y axis described and illustrated herein) such that the one or more folds are substantially free of absorbent material. Advantageously, a fold that is substantially free of absorbent material allows for a more flexible fold that can allow the barrier to better stand upright upon application of tension and yet limit piercing of the topsheet and/or backsheet that could arise if exerting a folding force in an area of the insert comprising SAP particles.

In an embodiment, the font and/or back panels (<NUM>, <NUM>) are elastic and comprise an inner nonwoven layer (<NUM>), an outer nonwoven layer (<NUM>), and an elastic material (<NUM>) sandwiched therebetween, wherein the elastic material is selected from the group consisting of an elastic film and a plurality of elastic strands. Preferably, the outer nonwoven layer (<NUM>) is wider than the inner nonwoven layer (<NUM>) (generally in a direction substantially parallel to the longitudinal axis y) and is folded over said inner nonwoven layer (<NUM>) such that it overlaps the portion of said absorbent insert (<NUM>) proximal to the front and/or back transversal edges, preferably such that said outer nonwoven layer (<NUM>) overlaps both a portion of the backsheet (<NUM>) and a portion of the topsheet (<NUM>) that remains exposed from said one or more transversal waist barrier(s) (<NUM>) such to form a flange (FL). Advantageously this allows to cover the backsheet with nonwoven so that the backsheet does not come into contact with the skin of a wearer which could otherwise result in skin irritations and/or less comfort.

The inner and outer nonwoven layers (<NUM>, <NUM>) may be the same or different meaning that they may have the same or different properties selected from basis weight (in gsm) and composition. In an embodiment, both the inner and outer nonwoven layers (<NUM>, <NUM>) each comprise a spunbond nonwoven, typically comprising monocomponent fibers of polypropylene, and each have a basis weight of from <NUM>/m<NUM> (gsm) to <NUM>/m<NUM> (gsm), preferably from <NUM>/m<NUM> (gsm) to <NUM>/m<NUM>. The outer nonwoven layer (<NUM>) may have a basis weight that is higher than the inner nonwoven layer (<NUM>). Advantageously, although it is customary to have the higher basis weight nonwoven on the inner nonwoven wearer skin facing side, in barrier embodiments herein (especially when the outer nonwoven layer is folded and/or extends over the insert; and/or when the transversal barrier is elasticised) such arrangement provides for added mechanical integrity desirable for resistance to tear on elastification and/or added softness for the wearer on the front and/or back waist regions up to the barrier location.

Preferably, and as exemplified in <FIG>, the elastic material (<NUM>), such as the plurality of elastic strands, is/are deactivated in an area of overlap of the insert (<NUM>) when viewed in a planar direction. The deactivation is preferably achieved by cutting of the elastic strands such as to render the deactivated region of the panel(s) (<NUM>, <NUM>) substantially inelastic and regions neighbouring said deactivated region and comprising said elastic strands being elastic. Typically the absorbent core (<NUM>) of the insert (<NUM>) is positioned within the deactivated region such that it substantially does not overlap the elastic strands (<NUM>). Advantageously this allows for improved core integrity as risks of core collapse due to excessive tension from the stretched elastics when the article is worn is limited.

Preferably more than <NUM>%, preferably more than <NUM>%, even more preferably from <NUM>% to <NUM>%, of the total surface area (generally when viewed in a planar direction) of the transversal waist barrier(s) (<NUM>) is positioned to overlap the deactivated region of the panel(s) (<NUM>, <NUM>). Advantageously this allows for improved fit of the barrier when the article is worn by a subject.

In addition or alternatively, more than <NUM>%, preferably more than <NUM>%, even more preferably from <NUM>% to <NUM>%, of a total transversal length (generally substantially parallel to the transversal axis x) of the transversal waist barrier(s) (<NUM>) overlaps the deactivated region of the panel(s) (<NUM>, <NUM>). Especially when the transversal waist barrier(s) is elastic, this arrangement may advantageously not only improve core integrity but further avoid excessive tension build-up.

In an embodiment, the transversal waist barrier(s) (<NUM>) is elastic, preferably comprising an elastic material selected from the group consisting of an elastic film and one or more elastic strands. Advantageously this allows for application of tension that permits the barrier to stand upright in close contact to the skin when the article is worn and under stretch.

The elastic strands in any of the embodiments herein may be strand-coated with adhesive prior to joining to one or more layers such as the inner and outer nonwoven layers (<NUM>, <NUM>) to form elastic panels (<NUM>, <NUM>) and/or the backsheet (<NUM>), outer cover (<NUM>'), and/or outer nonwoven layer (<NUM>) to form the elastic transversal waist barrier(s) (<NUM>). Advantageously this allows to join the one or more layers together by the said strand-coated elastic strands and by doing so limit the amount of adhesive used with resulting improved softness as well as reduced waste. Alternatively, or additionally, adhesive in the form of a plurality of stripes is applied such as by slot coating.

In a preferred embodiment, the one or more elastic strands of the transversal waist barrier(s) (<NUM>) comprise at least one flat elastic (such as elastics having a cross-section with an aspect ratio of longest to smallest dimension of greater than <NUM>, preferably greater than <NUM>, even more preferably greater than <NUM>), preferably in combination with at least one or at least two round elastics (such as elastics having a cross-section with an aspect ratio of longest to smallest dimension of about <NUM>). Although flat elastics are generally more expensive they are advantageous in providing better gasketing effects and comfort on the wearer's skin, by combining flat and normal/round elastics one can achieve the desired gasketing and comfort whist limiting the cost.

When one or more, preferably only one, flat elastic is used, it is preferably positioned adjacent to an apex of the transversal waist barrier(s) (<NUM>) that may be closest to a transversal edge of the insert (<NUM>) and further round elastic(s) positioned further from said apex compared to the flat elastic(s). Advantageously this allows for the flat elastic to be positioned at the closest contact position to the wearer with other elastics being inboard (or further away) therefrom hence contributing to the desired tensile strength yet permitting to lower the overall density/dtex of the flat elastic and hence also cost, with limited impact on performance.

When elastic strands are used they may have a dtex in the range of from <NUM> to <NUM>, preferably from <NUM> to <NUM>, even more preferably from <NUM> to <NUM>. When elastic strands are used in all of the front and/or back panels (<NUM>, <NUM>) and the transversal waist barrier(s) (<NUM>), the elastic strands of said panel(s) (<NUM>, <NUM>) have a dtex that is equal to or greater than, preferably greater than, that of the elastic strand(s) of said transversal waist barrier(s) (<NUM>). Preferably the elastic strand(s) of said transversal waist barrier(s) (<NUM>) have a dtex that is from <NUM>% to <NUM>%, preferably from <NUM>% to <NUM>%, even more preferably from <NUM>% to <NUM>%, of the dtex of the elastic strands of said panel(s) (<NUM>, <NUM>). Advantageously, this allows the barrier(s) to stand up and provide a gasketing effect close to the skin of the wearer without flattening or adding excessive resistance to stretch that would otherwise impact fit and comfort. The tension differential that results entails that a lower tension in the barrier(s) compared to the belt(s) is generated to a degree that upon stretching of the belt(s) the barrier(s) stand-up away from said belt(s).

The tensile stress (N/m) of the entirety of the front and back panels (<NUM>, <NUM>), respectively, may be profiled in order to provide the functional benefits of the present disclosure, such as ease of stretch and application, while also maintaining certain force during wear, to prevent the article from sagging after loading. When the elasticity of the front and back panels (<NUM>, <NUM>) are provided by a plurality of elastic strands (<NUM>) running in the transverse direction, the tensile stress may be adjusted by one or more of the following methods; <NUM>) elongation rate of the elastic strands (<NUM>); <NUM>) density (dtex) of the elastic strands (<NUM>); <NUM>) longitudinal pitch of multiple elastic strands (<NUM>); and <NUM>) effective length of elasticity of the elastic strands (<NUM>) in the transverse direction. By elongation, "<NUM>% elongation" is meant the original length of the elastic member.

The front and back panels (<NUM>, <NUM>) may each be divided into multiple zones spanning in the transverse direction and defined by its location from the distal edge to the proximal edge relative to the percentage of the seam length wherein the distal edge is considered <NUM>% and the proximal edge is considered <NUM>%. The multiple zones may be configured to provide different tensile stress, or different functions to the front and back panels (<NUM>, <NUM>), respectively.

In an embodiment, one or more second elastic strands (<NUM>) are comprised directly or indirectly between the outer nonwoven layer (<NUM>) and the backsheet (<NUM>), preferably between a body-facing surface of the outer nonwoven layer (<NUM>) and a garment-facing surface of the backsheet (<NUM>). An example of an indirect elastic arrangement is the presence of an outer cover layer (<NUM>') as described herein (that would generally be interposed between the backsheet (<NUM>) and the one or more second elastic strands (<NUM>)), and an example of a direct elastic arrangement is the absence of an outer cover layer (<NUM>') as described herein. Advantageously this arrangement allows for a simple yet effective elastification of the barrier(s) permitting optimal gasketing effects.

Preferably, the one or more second elastic strands (<NUM>) extends along the entire transversal length of the transversal waist barrier(s) (<NUM>) and beyond, preferably crossing the imaginary longitudinal axis (y) in a direction substantially parallel to the imaginary transverse axis (x). Preferably the one or more second elastic strands (<NUM>) extends from a first position substantially adjacent a seam edge of the outer nonwoven layer (<NUM>) to a second position substantially adjacent an opposite seam edge of the outer nonwoven layer (<NUM>) with the imaginary longitudinal axis (y) being positioned therebetween, more preferably wherein the one or more second elastic strands (<NUM>) extends from said first position to said second position and crosses and/or overlaps the entire transversal waist barrier(s) (<NUM>) generally along the imaginary transverse axis (x). Advantageously this allows not only to form a standing barrier upon stretching but further aids better fit on the wearer's front and/or back waist.

In an embodiment, the absorbent core (<NUM>) comprises absorbent material selected from the group consisting of superabsorbent polymer particles and/or fibers; and cellulose fibers, preferably wherein said absorbent material is enclosed within a core wrap comprising top and bottom core wrap layers being a same nonwoven layer folded to sandwich the absorbent material therein or distinct nonwoven layers joined together to sandwich the absorbent material therein. The superabsorbent polymer particles and/or fibers may be comprised in an amount of greater than <NUM>%wt, preferably greater than <NUM>%wt, even more preferably greater than <NUM>%wt, most preferably from <NUM>% to <NUM>%wt, by total weight of absorbent material.

In an embodiment, the back panel (<NUM>) is wider (generally in a direction substantially parallel to the longitudinal axis y) than the front panel (<NUM>) such that a length of the seams is substantially equal to a width (generally in a direction substantially parallel to the longitudinal axis y) of the front panel (<NUM>) and less than a width of the back panel (<NUM>); or wherein the front panel (<NUM>) is wider than the back panel (<NUM>) such that a length of the seams is substantially equal to a width of the back panel (<NUM>) and less than a width of the front panel (<NUM>). Advantageously this may permit comfort as well as improved protection compared to symmetric arrangements.

It is preferred that the backsheet (<NUM>) comprises a further outer cover layer (<NUM>') on a garment-facing surface thereof, preferably wherein said outer cover layer (<NUM>') comprising one or more nonwoven layers, and/or wherein the backsheet (<NUM>) comprises a further outer cover layer (<NUM>') that is shorter in the longitudinal direction (generally parallel to the longitudinal axis y) than the topsheet (<NUM>) and/or backsheet (<NUM>) such that at least a portion of an overlap length between the insert (<NUM>) and the panel (<NUM>, <NUM>) is free of said outer cover layer (<NUM>') and preferably wherein the backsheet (<NUM>) is directly joined to, or is in contact with, the panel (<NUM>, <NUM>) in said portion of an overlap length between the insert (<NUM>) and the panel (<NUM>, <NUM>) free of said outer cover layer (<NUM>'). Advantageously this allows for improved softness in areas where needed and yet allow for material savings thus permitting both reduced cost and waste.

The outer cover layer (<NUM>') is preferably different from the inner and/or outer nonwoven layers (<NUM>, <NUM>) meaning that they may have different properties selected from basis weight (in gsm) and composition. In an embodiment, the outer cover (<NUM>') comprises a spunbond nonwoven preferably comprising bicomponent fibers typically selected from the group consisting of polypropylene and polyethylene. The outer cover (<NUM>') preferably has a basis weight that is less than the basis weight of the inner and/or outer nonwoven layers (<NUM>, <NUM>). The outer cover (<NUM>') may have a basis weight of from <NUM>/m<NUM> (gsm) to <NUM>/m<NUM> (gsm), preferably from <NUM>/m<NUM> (gsm) to <NUM>/m<NUM>. Advantageously, the outer cover provides for softness to the touch to the care giver yet, as selected, it limits stress build-up particularly in embodiments with reduced length in the longitudinal direction as described above. Indeed without wishing to be bound by theory, stress build-up in the transition region corresponding to the terminal edge of the outer cover may result in a higher risk of tearing in the insert to panel joint.

In a preferred embodiment, the absorbent insert (<NUM>) is folded-over to form the waist barrier(s) (<NUM>) such that at least a portion of the topsheet (<NUM>) of the non-folded part of said insert (<NUM>) may come into contact with the folded part of said insert (<NUM>). Advantageously this allows the barrier to overlap the topsheet so as to help guide the exudates therethrough and into the core once stopped by said barrier.

Preferably, the waist barrier(s) (<NUM>) extends from <NUM>% to <NUM>%, preferably from <NUM>% to <NUM>%, even more preferably from <NUM>% to <NUM>%, of the total folded length (TFL) of the outer nonwoven layer (<NUM>) along the longitudinal axis (y). Advantageously, this may allow formation of a sufficiently large pocket yet avoid excessive resizing of the insert that may add cost and waste.

In an embodiment, the substantially liquid impermeable film layer or backsheet (<NUM>) comprises indicia, preferably a coloured print, at a position corresponding to the transversal waist barrier (<NUM>); and/or wherein the one or more second elastic strands (<NUM>) are coloured; and/or wherein a garment facing surface of the outer nonwoven layer (<NUM>) is coloured; and/or wherein the transversal waist barrier (<NUM>) comprises indicia selected from a coloured print and coloured adhesive (preferably comprising one or more pigments). Advantageously this allows the user or care giver to better visualise the barrier(s) so as to aid correct positioning and placement thereof onto a subject.

In an embodiment, the absorbent article further comprising a pair of longitudinally extending cuffs positioned along left and right longitudinal edges of the insert (<NUM>), and wherein the transversal waist barrier(s) (<NUM>) is positioned above said cuffs such that said barrier(s) (<NUM>) is closer to a wearer's skin than said cuffs; preferably wherein the cuffs are joined to a body-facing surface of the topsheet (<NUM>) and wherein each of said cuffs is folded and joined to itself on a body-facing surface thereof at a joining position (JP) corresponding to the transversal waist barrier(s) (<NUM>), preferably said joints or joining positions (JP) extending along a lengthwise portion of, and being substantially adjacent to, the left and/or right longitudinal edges of the insert (<NUM>). Advantageously this reduces risk of leakage multidirectionally and prevents leakage to seep through between the transversal barrier and cuffs unlike when otherwise arranged.

Preferably the transversal waist barrier (<NUM>) is an up-standing barrier generally arranged to block substantially liquid exudates from flowing therethrough. Preferably, the liquid impermeable film layer is breathable and has a basis weight of less than <NUM>/m<NUM>, preferably from <NUM>/m<NUM> to <NUM>/m<NUM>. The film may be elastic (or may comprise elastic material such as one or more elastic strands and/or elastic foam) and may comprise micro-openings sized to allow at least some water vapour to permeate therethrough. Preferably the film having a ratio of the MD load at break to the CD load at break of less than about <NUM>, and a machine-direction notched trapezoidal tear strength of at least about <NUM>.

When the liquid impermeable film layer is a discrete layer and generally applied in the form of a patch joined to said insert via suitable bonding techniques such as adhesive and/or mechanical bonding as described in more detail herein, it is preferably elastic. "Elastic," "elastomeric," and "elasticized/elasticised" herein generally mean the ability of a material to stretch by at least <NUM>% without rupture or breakage at a given load, and upon release of the load the elastic material or component exhibits at least <NUM>% recovery (i.e., has less than <NUM>% set). In this embodiment, it is preferable that the liquid impermeable film layer is joined to the insert by a combination of adhesive and mechanical bonding.

The adhesive may be applied in a first joining zone or bonding zone and the mechanical bonding may be applied on a second joining zone, and preferably wherein the adhesive is continuously applied along the first joining zone at an area generally comprising substantially the entire transversal-waist-barrier-width (typically extending along an axis parallel to the transversal axis x, and generally adjacent the front and back transversal edges). The first and second joining zones may be proximal to each other (or adjacent) such that the majority, preferably substantially all, the area of adhesive is not overlapped by mechanical bonds. Advantageously this allows for extra anchoring and breathability generally afforded by the mechanical bonding yet maintain an appropriate liquid seal to limit leakage through the barrier along the transversal edge of the insert.

The impermeable film layer may be discrete and joined to the insert (<NUM>) by at least one of adhesive and mechanical bonding such as ultrasonic bonding, heat bonding, pressure bonding, and the like; or may be an integral part of the insert (<NUM>) and may form barriers herein such as by folding a portion thereof as described in more detail hereinbelow.

As shown in <FIG>, in this embodiment, a portion of the insert proximal (typically adjacent) to the front and/or back transversal edges thereof may be folded onto itself and the fold (as described in embodiments herein) has a length (L) in a longitudinal direction running substantially parallel to a longitudinal axis (y), and wherein said insert (<NUM>) further comprises a pair of longitudinally extending cuffs positioned along left and right longitudinal edges thereof and joined thereto along a tack-down length (LT) extending from a position proximal (preferably adjacent) to at least the back transversal edge to a tack-down terminal position longitudinally displaced therefrom along said longitudinal axis (y), and wherein the tack-down length (LT) is less than or equal to about <NUM>, preferably said cuffs being joined to a body-facing surface of the topsheet (<NUM>). It is understood herein that whilst this embodiment makes specific reference to the "back" transversal edge, when the transversal waist barrier(s) (<NUM>) are positioned at the front of the article, the same dimensional characteristics apply with respect to the "front" transverse edge. Advantageously, this allows for a reduced tack-down length that permits to maximise the volume of the containment pocket formed by extending the lateral cavities when the fold stands up in contact with the user when the article is worn.

The back and/or front transversal edge (generally in folded state, as can be generally seen in the figures) typically coincides with a terminal edge (TE) of the transversal waist barrier (<NUM>) forming a pocket opening.

Preferably, the transversal waist barrier (<NUM>) comprises one or more second elastic strands (<NUM>) positioned at a distance (d) from a terminal edge (TE) of the transversal waist barrier (<NUM>) forming a pocket opening, and wherein the distance between the elastic closest to said terminal edge is less than about <NUM>, preferably from <NUM> to <NUM>, even more preferably from <NUM> to <NUM>. Advantageously this permits the transversal barrier to more easily stand-up and make a seal with the wearer's skin and preferably yet be sufficiently displaced from the terminal edge to minimize risk of elastic exposure to the skin of a wearer.

The font and/or back panels (<NUM>, <NUM>) are elastic and comprise an inner nonwoven layer (<NUM>), an outer nonwoven layer (<NUM>), and an elastic material (<NUM>) sandwiched therebetween, wherein the elastic material is selected from the group consisting of an elastic film and a plurality of elastic strands. Preferably, the outer nonwoven layer (<NUM>) is wider than the inner nonwoven layer (<NUM>) (generally in a direction substantially parallel to the longitudinal axis y) and is folded over said inner nonwoven layer (<NUM>) such that it overlaps the portion of said absorbent insert (<NUM>) proximal to the front and/or back transversal edges and generally over a fold length (LF), preferably such that said outer nonwoven layer (<NUM>) overlaps both a portion of the backsheet (<NUM>) and a portion of the topsheet (<NUM>) that remains exposed from said one or more transversal waist barrier(s) (<NUM>) such to form a flange (FL). Advantageously this allows to cover the backsheet with nonwoven so that the backsheet does not come into contact with the skin of a wearer which could otherwise result in skin irritations and/or less comfort.

The insert (<NUM>) may comprise a topsheet selected from an embossed nonwoven and/or a carded air-through-bonded nonwoven. The embossed nonwoven may comprise a spunbond nonwoven. Advantageously the topographical surface of such particular nonwoven selection allows for the formation of peaks and slumps that acts to not only slow down the movement of liquid stool towards the transversal edges but further allows for containment ridges in areas overlapping the barrier(s) (<NUM>).

Preferably, the thickness of the insert (<NUM>) in an overlap area of said waist barrier (<NUM>) (e.g. an area of the insert (<NUM>) overlapping with the waist barrier (<NUM>)) is less than the remaining thickness of said insert (<NUM>) (e.g. in areas other than the overlap area); and/or wherein the amount of absorbent material in in an overlap area of said waist barrier (<NUM>) is less (preferably at least <NUM>%wt less, preferably at least <NUM>%wt less, even more preferably at least <NUM>%wt less, even more preferably at least <NUM>%wt less) than the amount of absorbent material in other areas of said insert. Generally said overlap area further overlapping with the front and/or back panels respectively. Advantageously this allows for a larger pocket for exudate collection that synergistically cooperates with the overlapping front and/or back belts.

Methods herein for the manufacture of an absorbent article <NUM> comprise the steps of: providing a front panel <NUM>; providing a back panel <NUM>; providing an absorbent insert <NUM> comprising front and back transversal edges and left and right longitudinal edges connecting the front and back transversal edges to form a perimeter thereof (and generally wherein the left and right longitudinal edges extend substantially along the longitudinal axis y and are oppositely disposed such that said longitudinal axis y extends therebetween, and the front and back transversal edges extend substantially along the transversal axis x, and typically substantially perpendicular to the longitudinal axis y, and are oppositely disposed such that said transverse axis x extends therebetween); folding a portion of said absorbent insert <NUM> proximal to the front and/or back transversal edges thereof onto itself, preferably the fold being in the shape of a substantially U-fold, to form transversal waist barrier(s) <NUM>; joining said insert <NUM> to said front and back panels <NUM>, <NUM> (generally such that at least a portion of the insert <NUM> overlaps each of the front and back panels <NUM>, <NUM> and forms a connection bridge between said front and back panels); and joining said front and back panels <NUM>, <NUM> together along a pair of oppositely disposed side seams. Advantageously an absorbent article having transversal barrier(s) as described herein can be attained in a simple yet effective manner.

Generally the front and back panels herein are made from continuous webs that are subsequently severed into discrete front and back panels typically after the step of joining the insert <NUM> to said front and back panels <NUM>, <NUM>.

The present disclosure is not limited to this sequence of steps and the present disclosure encompasses different sequence of steps. For example, the present disclosure pertains to a method for the manufacture of an absorbent article <NUM> comprising the steps of: providing an absorbent insert <NUM> comprising front and back transversal edges and left and right longitudinal edges connecting the front and back transversal edges to form a perimeter thereof; folding a portion of said absorbent insert <NUM> proximal to the front and/or back transversal edges thereof onto itself, preferably in the shape of a substantially U-fold, to form transversal waist barrier(s) <NUM>; providing a front panel <NUM>; providing a back panel <NUM>; joining said insert <NUM> to said front and back panels <NUM>, <NUM>; and joining said front and back panels <NUM>, <NUM> together along a pair of oppositely disposed side seams.

Preferably, said folding step is carried out by static folding where a static element, i.e. a stator, such as a stationary folding blade deflects a portion of said absorbent insert <NUM> proximal to the front and/or back transversal edges thereof onto itself. In other words, the folding is step is preferably done by passive folding meaning that the folding is done with a moving element, i.e. the absorbent insert, being folded by an unmoving, or immobile or fixed element, e.g. a blade. Such folding is more cost efficient and more reproducible. The present disclosure encompasses embodiments where the folding step is carried out by dynamic folding, where a mobile element, e.g. an actuated folding blade, moves or is actuated to fold a portion of said absorbent insert <NUM> proximal to the front and/or back transversal edges thereof onto itself.

Preferably, the method further comprises the steps of folding an outer nonwoven layer <NUM> of the front and/or back panels <NUM>, <NUM> over the folded absorbent insert <NUM> and/or an inner nonwoven layer <NUM> and joining said folded outer nonwoven layer <NUM> directly or indirectly to the folded absorbent insert <NUM>. Advantageously this allows to prevent irritation or discomfort to the wearer as explained hereinabove whilst avoiding the use of added components/materials/elements whilst maintaining a simple and cost-effective production process.

Preferably, the method further comprises the step of arranging an elastic material <NUM> over the folded portion of the folded absorbent insert <NUM> prior to step of folding an outer nonwoven layer <NUM> of the front and/or back panels <NUM>, <NUM> over the folded absorbent insert <NUM>.

Preferably, the method further comprises the step of intermittently applying adhesive onto said portion of the absorbent insert proximal to the front and/or back transversal edges.

The adhesive is applied in joining zones or bonding zones. The joining or bonding zones comprises at least one area where the adhesive or mechanical bonding mean is applied.

According to an embodiment as illustrated in <FIG>, which represents an absorbent article <NUM> prior to the folding step of the absorbent insert <NUM>, the adhesive is applied in a pattern <NUM> on one portion of said absorbent insert <NUM> proximal to the back transversal edge. <FIG> illustrates the same absorbent article <NUM> after the folding step where the portion of the absorbent insert <NUM> proximal to the back transversal edge is folded thereof onto itself. The adhesive can also be applied in such pattern <NUM> to one portion of said absorbent insert <NUM> proximal to the front transversal edge. Naturally, the adhesive can be applied in such pattern <NUM> to both portions of said absorbent insert <NUM> proximal to the front and back transversal edges. The pattern <NUM> of adhesive comprises the two portions or two areas of adhesive <NUM>, meaning two joining zones, as described hereabove, meaning the area <NUM> at the transversal extremities of the transversal edge, or in other words, the corners of the absorbent insert <NUM>, or also the portions where the back transversal edge and longitudinal edges of the absorbent insert <NUM> connect as illustrated in <FIG>. When applied, the pattern <NUM> of adhesive further comprises a further area <NUM> of adhesive extending transversally connecting the two areas <NUM> and an area free of adhesive <NUM>, said area free of adhesive <NUM> is arranged between the transversal edge of the absorbent insert <NUM> and the further area <NUM> of adhesive with respect to the longitudinal direction (y) and arranged between the two areas <NUM> at the corners with respect to the transversal direction (x). In other words, the pattern <NUM> of adhesive comprise a U-shaped pattern with two areas <NUM> corresponding to the upper branches of the U, said areas <NUM> being connected by a further area <NUM> corresponding to the lower branch of the U. Similarly, the pattern <NUM> of adhesive comprise a H-shaped pattern with two areas <NUM> corresponding to the side branches of the H, said areas <NUM> being connected by a further area <NUM> corresponding to the middle branch of the H. The pattern of adhesive can comprise two areas <NUM> at the corners and a further area <NUM> of adhesive which extend only partially along the transversal axis (x) and does not connect the two areas <NUM> while still defining an area free of adhesive <NUM> as described above. In other words, the further area <NUM> can comprise a gap free of adhesive. In other words, the pattern <NUM> of adhesive can comprise two areas <NUM> that are L shaped in facing relationship or in mirror relationship, said L-shaped areas being arranged at each corner.

With an adhesive pattern <NUM> as described hereabove, when folding the absorbent insert <NUM> along the folding line <NUM> illustrated in <FIG> or <FIG>, a transversal waist barrier <NUM> is defined with the area free of adhesive <NUM> not being joined to the absorbent insert <NUM> and therefore standing upright. In other words, the barrier(s) <NUM> herein form an opening, typically about a terminal edge of the folded outer nonwoven layer, of an exudate containing pocket wherein substantially the entire surface of the pocket being congruent with a topsheet <NUM> of the insert <NUM> comprises a liquid impermeable layer preferably being a film, more preferably an elastic film (generally according to the embodiments described herein). With such adhesive pattern <NUM>, the angle defined by the fold and the waist barrier is more acute and can provide a transversal waist barrier <NUM> with more resistance to exudates.

According to an embodiment, the method can comprise a mechanical bonding step where the portion of the absorbent insert <NUM> proximal to the back transversal edge is folded thereof onto itself and then mechanically bonded. The method comprises a step where the portion of the absorbent insert <NUM> proximal to the back transversal edge is glued to the absorbent insert <NUM> and/or a step where the portion of the absorbent insert <NUM> proximal to the back transversal edge is mechanically bonded to the absorbent insert <NUM>. For example, adhesive is intermittently applied to the portion of the absorbent insert <NUM> proximal to the back transversal edge, then said portion is folded thereof onto itself, then the folded portion is mechanically bonded, e.g. ultrasonic welding, to further secure the transversal waist barrier <NUM>.

According to another embodiment, the present disclosure pertains to a method for the manufacture of an absorbent article (<NUM>) comprising the steps of:.

The present disclosure is not limited to this sequence of steps and the present disclosure encompasses different sequence of steps. For example, the method for the manufacture of an absorbent article (<NUM>) comprising the steps of: providing a front panel (<NUM>); providing a back panel (<NUM>); providing an absorbent insert (<NUM>) comprising front and back transversal edges and left and right longitudinal edges connecting the front and back transversal edges to form a perimeter thereof; joining said insert (<NUM>) to said front and back panels (<NUM>, <NUM>); applying a pattern of adhesive onto a discrete layer comprising liquid impermeable film, e.g. a patch of liquid impermeable film, and/or applying a pattern of adhesive onto a portion of the absorbent insert (<NUM>) proximal to the front and/or back transversal edge said pattern of adhesive extending all along the transversal edges and partially along the longitudinal edges of the patch and/or absorbent insert (<NUM>); applying said discrete layer (<NUM>) comprising liquid impermeable film onto the top surface of the absorbent insert (<NUM>) at a portion of the absorbent insert being proximal to the front and/or back transversal edge to form transversal waist barrier(s) (<NUM>) and joining said front and back panels (<NUM>, <NUM>) together along a pair of oppositely disposed side seams.

Preferably, this embodiment further comprises the step of arranging an elastic material (<NUM>) over said discrete layer comprising liquid impermeable film prior to step of folding an outer nonwoven layer (<NUM>) of the front and/or back panels (<NUM>, <NUM>) over the folded absorbent insert (<NUM>) and patch.

Said discrete layer (<NUM>) comprising liquid impermeable film is preferably in the form of a rectangular patch. Said rectangular patch extends along the transversal edge of the absorbent insert (<NUM>) and partially along the longitudinal edges of the absorbent insert (<NUM>) as illustrated in <FIG>. In other words, said patch (<NUM>) covers the portion of the absorbent insert (<NUM>) proximal to the front and/or back transversal edge, preferably the portion of the absorbent insert (<NUM>) proximal to the back transversal edge.

The discrete layer (<NUM>) comprising liquid impermeable film is bonded, meaning joined or associated, to the absorbent insert (<NUM>) by at least one bonding means (<NUM>). Bonding means comprise and are not limited to for example adhesive bonding and/or mechanical bonding and/or ultrasonic bonding. The discrete layer (<NUM>) can be joined to the absorbent insert (<NUM>) two or more bonding means. As illustrated in <FIG>, the bonding means comprises here adhesive bonding (19a) in an area arranged along the transversal edge of the absorbent insert (<NUM>) and mechanical bonding (19b) in an area arranged along the longitudinal edge of the portion of the absorbent insert (<NUM>) proximal to the front and/or back transversal edge, preferably the back transversal edge. According to another embodiment, the bonding means comprise only adhesive bonding (19a) arranged along the transversal and longitudinal edges of the portion of the absorbent insert (<NUM>) proximal to the front and/or back transversal edge. Arranging the bonding means at the transversal and longitudinal edges of the absorbent insert (<NUM>) enables to have a proper waist transversal barrier (<NUM>) and contain any exudate within the absorbent insert (<NUM>).

According to an embodiment, the total surface area of the discrete layer (<NUM>) comprising liquid impermeable film is greater than the surface area of the bonding means (<NUM>), meaning that at least a portion of the total surface area of the discrete layer (<NUM>) comprising liquid impermeable film is not joined to the absorbent insert. In other words, the bonding means extend over a surface area of the discrete layer (<NUM>) comprising liquid impermeable film that is lesser than the total surface area of the discrete layer (<NUM>) comprising liquid impermeable film.

According to an embodiment, the adhesive (19a) can be applied in a pattern, such as in a U-shaped pattern extending along the transversal and longitudinal edges of the portion of the absorbent insert (<NUM>) proximal to the front and/or back transversal edge. Such pattern can optionally comprise notches 19c to save on raw material.

The present disclosure also pertains to an apparatus <NUM> to manufacture an absorbent article <NUM> as described herein and following the method disclosed herein. <FIG> illustrates one possible embodiment for an apparatus <NUM> for manufacturing such absorbent articles <NUM>. The apparatus <NUM> extends in a machine direction MD, a cross-direction CD and a vertical direction Z. The machine direction MD corresponds to the direction of travel of the webs, elastic materials or any components of the absorbent articles <NUM> being manufactured, the cross-direction CD is a direction perpendicular to the machine direction MD, and the vertical direction Z correspond to the height and is also a direction perpendicular to both the machine direction MD and the cross direction CD. In other words, the machine direction MD is the flow direction of an absorbent article and its components being assembled in the process line, e.g. the machine direction MD is the direction in which the absorbent insert <NUM> is conveyed. The terms "upstream" and "downstream" as used herein are with respect to the machine direction MD.

For sake of clarity, the coordinate system using longitudinal and transversal axis (x,y) pertains to the absorbent article <NUM> alone e.g. when laid flat on a surface, whereas coordinate system using machine, cross and vertical directions (MD, CD, Z) pertains to the apparatus for manufacturing absorbent article <NUM> with the absorbent articles <NUM> and their components being conveyed.

Following the method described herein, an absorbent insert <NUM> is provided. Here, the absorbent insert <NUM>, assembled beforehand, is transferred by a transfer device <NUM>, a unit <NUM> comprising a plurality of transfer heads <NUM> arranged on a support wheel <NUM> with both the support wheel <NUM> and the transfer heads <NUM> being configured to respectively rotate around a respective axis. The transfer device <NUM> is an apparatus that is configured to turn and repitch the discrete absorbent inserts <NUM>, turn the discrete absorbent inserts <NUM>, or merely transfer the discrete absorbent inserts <NUM> between a pick-up location and a drop-off location. The transfer device <NUM>, as illustrated in <FIG>, comprises a frame <NUM>, here a support wheel <NUM>, defining a rotation axis and a plurality of transfer heads <NUM> associated to said frame <NUM>. The transfer heads <NUM> are configured to circumnavigate about the rotation axis in an orbit. As illustrated in <FIG>, the support wheel <NUM> rotates around an axis parallel to the cross-direction CD and the transfer heads <NUM> circumnavigate about this rotation axis in an orbit. The orbit passes through the pick-up location and the drop-off location. The transfer device <NUM> turns the discrete absorbent inserts <NUM> in any suitable angle. For example, as illustrated in <FIG>, the transfer device <NUM> turns the discrete absorbent inserts <NUM> about <NUM> degrees. The discrete absorbent inserts <NUM> are turned by the transfer heads <NUM> turning. For instance, a transfer head <NUM> may pick up a discrete absorbent insert <NUM> in a pick-up location, turn <NUM> degrees about an axis perpendicular to the rotation axis of the frame, e.g. about the vertical direction Z, drop off the discrete absorbent insert <NUM> in a drop-off location, and the turn back to its original position (either in the same direction or an opposite direction) before orbiting back through the pick-up location. In other words, the transfer device <NUM> transfers an absorbent insert <NUM> extending in the machine direction (MD) and rotates it so that said absorbent insert <NUM> extends in the cross direction (CD).

The absorbent insert <NUM> is deposited onto a first conveying device <NUM>, e.g. a conveyor belt <NUM>, and/or a rotating drum <NUM>. As illustrated in <FIG>, the absorbent insert <NUM> is deposited onto a rotating drum <NUM>, but said insert <NUM> can be directly deposited onto a first conveyor belt <NUM>. The first conveyor belt <NUM> and/or rotating drum <NUM> is/are associated with a negative pressure device such that the absorbent insert <NUM> when deposited onto the belt <NUM> and/or drum <NUM> is sucked onto the first conveyor belt <NUM> and/or rotating drum <NUM> and is maintained onto said conveyor belt <NUM> and/or rotating drum <NUM> by vacuum. In other words, the first conveyor belt <NUM> and/or rotating drum <NUM> comprises vacuum holes on its outer surface, meaning a foraminous outer surface, and the absorbent insert <NUM> is deposited onto said outer surface. The absorbent insert <NUM> is maintained on the foraminous drum <NUM> and/or foraminous first conveyor belt <NUM> by the negative air-pressure generated by the suction. As illustrated in <FIG>, the absorbent insert <NUM> is first deposited onto the rotating drum <NUM> and then transferred to the first conveyor belt <NUM>, the absorbent insert <NUM> is then conveyed by the first conveyor belt <NUM> in the machine direction MD.

According to an embodiment, once being conveyed by the first conveyor belt <NUM>, adhesive is applied intermittently on at least one transversal edges, namely the adhesive is applied intermittently on a portion of said absorbent insert <NUM> proximal to the front and/or back transversal edges, meaning on the portion described hereabove to be folded. In other words, the adhesive is applied intermittently on at least one edge arranged at one end of the absorbent insert <NUM> with respect to the cross direction CD as illustrated in <FIG>. The adhesive can be applied intermittently on one portion of said absorbent insert <NUM> proximal to the back transversal edges. The adhesive can be applied intermittently to one portion of said absorbent insert <NUM> proximal to the front transversal edges. The adhesive can be applied intermittently to both portions of said absorbent insert <NUM> proximal to the front and back transversal edges. The adhesive is applied intermittently such that the central area of said portion(s) proximal to the transversal edge(s) is not glued. In other words, the adhesive is applied on both portions <NUM> arranged at the corners of a transversal edge, but not in between said corners <NUM> as illustrated in <FIG>. For example, when considering <FIG>, the adhesive is applied in the portion <NUM> located at the corner of the back transversal edge but is not applied on the portion where the absorbent core <NUM> extends, meaning when the back transversal edge and the absorbent core are transposed on a same machine direction axis, the adhesive applied is present at the corners but not where the absorbent core <NUM> extends. According to one embodiment, the adhesive is applied intermittently on one transversal edge only, preferably the back transversal edge. According to another embodiment, the adhesive is applied intermittently on both transversal edges. Alternatively, the adhesive can also be applied continuously in an adhesive pattern <NUM> as described above, for example in a U-shaped or a H-shaped pattern.

The adhesive is applied by a glue dispensing device <NUM>. Such application of adhesive may be by various processes such as slot coating, spray coating and other topical applications using a pneumatic, piezo or electromagnetic actuator. For example, the glue dispensing device <NUM> comprises at least one nozzle, each nozzle, for instance, may comprise a slot coating device or several exit ports and an adhesive flow control device such as electromagnetic valve, e.g. a solenoid valve.

The absorbent insert <NUM> is then conveyed, or transported, by the first conveyor belt <NUM> to a folding unit <NUM>. The folding unit <NUM> comprises a folding blade <NUM> that is curved (<FIG>,<FIG>) and that can be associated with a support plate <NUM> as illustrated in <FIG>. The folding blade <NUM>, or curved blade <NUM>, comprises a blade with a curvature said curvature spanning over an angle from <NUM>° to at least <NUM>°. In other words, the curved blade comprises a concave portion, said concave portion varying along the machine direction and extending over an angle A° of at least <NUM>°, preferably at least <NUM>°, more preferably at least <NUM>°, meaning angle A° is preferably a reflex angle as illustrated in <FIG>. For sake of clarity, the folding blade <NUM> comprises a curve blade <NUM>, said curved blade <NUM> defines an angle A° that evolves along the machine direction MD, meaning that for a given point in the machine direction MD, the folding blade <NUM> extends in the vertical and cross directions Z,CD as illustrated in <FIG>, the two extremities of said blade <NUM> defining an angle A°, or folding angle A°, since the folding wall, meaning the wall used for folding the absorbent insert <NUM>, of the blade is curved. In the upstream portion of the folding blade, the angle A° defined by the two extremities of the blade <NUM> is small, e.g. between <NUM>° and <NUM>°. The angle A° increases along the machine direction MD and is greater than <NUM>° at the downstream portion of the folding blade <NUM>. The support plate <NUM> is fixed, or removably associated to the folding blade <NUM>. Having a blade <NUM> with a folding angle A° of <NUM>° is sufficient to fold the absorbent insert <NUM> onto itself but it can lead to having wrinkles or a gap in the fold. Having a blade <NUM> with a folding angle A° of <NUM>° or more enables to have a smoother fold and reduces the risks of wrinkles or a gap in the fold. Alternatively, the apparatus can comprise a liquid impermeable film layer depositing unit where a discrete layer of liquid impermeable film applied in the form of a patch can be joined to said insert via suitable bonding techniques such as adhesive and/or mechanical bonding as described hereabove.

The folding unit <NUM> can further comprise a pressing blade <NUM> arranged at a distance d from the curved blade <NUM> with respect to the cross direction CD and/or vertical direction Z. In other words, there is a gap between the curved blade <NUM> and the pressing blade <NUM> in the cross direction CD and/or vertical direction Z. The pressing blade <NUM> presses vertically against the absorbent insert <NUM> and maintain said absorbent insert <NUM> in place, at least vertically. The combination of the curved blade <NUM> folding the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edge, and the pressing blade <NUM> pushing the absorbent insert <NUM> at least vertically, ensures a proper folding of the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edges thereof onto itself, in order words a proper folding of the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edge to form a transversal barrier <NUM> as described herein. In other terms, the folding blade <NUM> deviates the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edge in the cross direction CD and in the vertical direction Z and the pressing blade <NUM> deviates a portion of the absorbent insert <NUM>, which is more distal to the transversal edge than said portion of the absorbent insert <NUM> proximal to the transversal edge e.g. in between said portion of the absorbent insert <NUM> proximal to the front and/or back transversal edge and the center of absorbent core <NUM>, in the vertical direction Z. Simply put, the pressing blade <NUM> at least maintains the absorbent insert <NUM> in place while the folding blade <NUM> is folding the portion of the absorbent insert <NUM> proximal to the transversal edge. The folding blade <NUM> alone can suffice to fold the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edge, and adding a pressing blade <NUM> further improves the folding. The folding blade <NUM> ensures a folding preferably in the shape of a substantially U-fold, to form transversal waist barrier(s) <NUM>. In the embodiment described above where adhesive is applied intermittently at the corners <NUM>, then only the corners <NUM> of the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edges are folded and glued thereof onto itself.

According to an embodiment, in order to properly fold the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edge thereof onto itself, the pressing blade <NUM> is preferably shorter in length, with respect to the machine direction MD, than the folding blade <NUM> so that when the curved blade <NUM> is folding the portion of the absorbent insert <NUM> proximal to the front and/or back transversal edge, namely once said portion has been folded by an angle of more than <NUM>°, it folds thereof onto itself, meaning onto the upper surface of the absorbent insert <NUM>, i.e. the topsheet <NUM>.

According to an embodiment, the pressing blade <NUM> can be a flat plate as illustrated in <FIG>, or it can be a rod or a cylindric tube. The pressing blade <NUM> can comprise an anti-adhesive coating to ensure that the absorbent insert <NUM> when being folded does not adhere onto the pressing blade <NUM>. The pressing blade <NUM> can also be connected to an air-compressor and comprise air-vents or holes on its surface to blow out pressurized air to ensure that the absorbent insert <NUM> when being folded does not adhere onto the pressing blade <NUM>.

According to an embodiment, the pressing blade <NUM> can comprise a sloped portion <NUM> at the upstream portion of the pressing blade <NUM> with respect to the machine direction MD as illustrated in <FIG>. The slope portion <NUM> extends diagonally downward while extending downstream for holding down the absorbent insert <NUM> and improving the folding as described hereabove.

Once the at least one portion of the absorbent insert <NUM> proximal to front and/or back transversal edge has been folded thereof onto itself thereby forming a transversal waist barrier <NUM>, the absorbent insert <NUM> can be conveyed toward one or more pressure roller(s) <NUM> which is arranged to press the folded portion, meaning the transversal waist barrier(s) <NUM>, thereby securing the fold and eventually securing the glued and/or welded portions together.

The partially folded absorbent insert <NUM> is then guided toward a rotating drum <NUM> where it is deposited onto two webs corresponding to front and back panels <NUM>,<NUM> comprising the inner nonwoven layer <NUM> and outer nonwoven layer <NUM> as described hereabove. The front and back panels <NUM>,<NUM> are assembled beforehand with the lamination of inner and outer nonwoven layers <NUM>,<NUM> and elastic material <NUM> and by intermittently severing the elastic material <NUM>.

The partially folded absorbent insert <NUM> and front and back panels <NUM>,<NUM> are then guided, for example by a second conveying device <NUM>, such as a conveyor belt, to an elastic depositing unit or station, where a second elastic material <NUM>, e.g. one or more elastic strands <NUM>, is deposited onto the backsheet <NUM> or the outer cover <NUM>' of the absorbent insert <NUM> at the region that has been folded over. The elastic strand(s) <NUM> is beforehand coated with adhesive by a adhesive dispensing unit <NUM> such that when the elastic strand(s) <NUM> is applied on the backsheet <NUM> or outer cover <NUM>' on the portion of the absorbent insert <NUM> that has been folded thereof onto itself, it remains in place. The adhesive is preferably continuously applied on the elastic strand(s) <NUM>. In other words, the elastic strands <NUM> in any of the embodiments herein may be strand-coated with adhesive prior to joining to one or more layers such as the inner and outer nonwoven layers <NUM>, <NUM> to form elastic panels <NUM>, <NUM> and/or the backsheet <NUM>, outer cover <NUM>' and/or outer nonwoven layer <NUM> to form the elastic transversal waist barrier(s) <NUM>.

Preferably the elastic material <NUM>, e.g. the elastic strand(s) <NUM>, is arranged such that said elastic material <NUM> is sandwiched between the absorbent insert <NUM> and the outer nonwoven layer <NUM>. More preferably, the absorbent insert <NUM> as described herein comprises a backsheet <NUM> and eventually an outer cover <NUM>' on the garment facing surface of the absorbent core <NUM>. The present disclosure encompasses embodiments where the elastic material <NUM> is sandwiched between the backsheet <NUM> and the outer nonwoven layer <NUM>, embodiments where the elastic material <NUM> is sandwiched between the outer cover <NUM>' and the outer nonwoven layer <NUM> or even embodiments where the elastic material <NUM> is sandwiched between the backsheet <NUM> and outer cover <NUM>' and the outer nonwoven layer <NUM> e.g. in cases where the outer cover <NUM>' is transversally shorter than the backsheet <NUM>. In other words, the elastic material <NUM> is directly or indirectly joined to the backsheet <NUM>, preferably by adhesive, and sandwiched between the backsheet <NUM> and/or outer cover <NUM>' and the outer nonwoven layer <NUM>.

The outer nonwoven layer <NUM> is then folded over the elastic strand <NUM>, backsheet <NUM>, outer cover <NUM>' and/or the transversal elastic barrier <NUM> and by a second folding apparatus <NUM>, in order to form the absorbent article <NUM> as illustrated in <FIG>. The apparatus <NUM> can further comprise an additional adhesive dispensing device <NUM> to apply adhesive on the portion of the front and/or back panels <NUM>,<NUM> to be folded. The apparatus <NUM> can further comprise a pressure roller <NUM> to apply pressure on the transversal edges of the front and/or rear panels <NUM>,<NUM> and ensure the structural integrity of the chassis. Preferably the outer nonwoven layer <NUM> is folded over the absorbent insert and/or thereof onto itself by the second folding apparatus <NUM> at the front and back panels <NUM>,<NUM> and the additional adhesive dispensing device <NUM> applies adhesive on a portion of the absorbent insert <NUM> proximal to the transversal edges of the front and back panels <NUM>,<NUM>. The second folding apparatus <NUM> comprises a roller <NUM> that is arranged to cover a portion of the front and/or back panels <NUM>,<NUM>, namely the roller is arranged at a distance from the transversal edge of the front and/or back panel <NUM>,<NUM> so that said roller deviates vertically said portion of the front and/or back panels <NUM>,<NUM>, the transversal edge of the front and/or back panel which is not deviated by the roller naturally folds upward. The folding apparatus <NUM> can further comprise a railing <NUM> oriented diagonally with respect to the cross direction CD toward the center of absorbent insert <NUM> to guide and facilitate the folding of the non-deviated portion of the outer nonwoven layer <NUM>, i.e. the transversal edge of the front and/or back panel <NUM>,<NUM> onto the absorbent insert <NUM>, namely onto the transversal barrier <NUM>, backsheet <NUM> and/or outer cover <NUM>'.

The belt, meaning the front and back panels <NUM>,<NUM> are then cut in the cross direction CD into individual pieces, each individual piece comprising an absorbent insert <NUM> with a front and back panel <NUM>,<NUM>. Each individual piece is then folded to bring the front and back panels <NUM>,<NUM> in proximity of one another and then associated in side seams to form an individual absorbent article <NUM> with a transversal barrier <NUM>. The front and back panels <NUM>,<NUM> are joined, or associated, by bonding said panels <NUM>,<NUM> together at a bonding unit. The bonding unit can be selected from and not limited to an adhesive dispensing device, an ultrasonic device or a welding device. Alternatively, the front and back panel <NUM>,<NUM> can be joined first and then cut in the cross direction into individual pieces.

According to an embodiment, the folding unit <NUM> comprises a support device <NUM> to carry the folding blade <NUM> and/or support plate <NUM> and/or pressing blade <NUM>. The support device <NUM> can comprise means to move the folding blade <NUM> and/or support plate <NUM> and/or pressing blade <NUM>, e.g. a system with rails and an actuator to slide the folding blade <NUM> and/or support plate <NUM> and/or pressing blade <NUM> in the cross direction CD and/or vertical direction Z. The support device <NUM> can comprise means to remove the folding blade <NUM> and/or support plate <NUM> and/or pressing blade <NUM>, e.g. a plurality or screws, bolts, threaded rods and nuts, etc. so that the folding blade <NUM> and/or support plate <NUM> and/or pressing blade <NUM> can be removed entirely. Such system enables to easily change the production from an absorbent article <NUM> with transversal barrier(s) <NUM> to a standard product without transversal barrier(s) <NUM>. The adhesive dispensing device and elastic strand(s) <NUM> guiding device are turned off for standard products. Alternatively, the adhesive dispensing device <NUM> can continuously apply adhesive.

According to an embodiment, the folding blade <NUM> comprises an extension <NUM> as illustrated in <FIG> where the extension <NUM> extends beyond the curvature of the blade <NUM> to ensure that the transversal edge is well folded thereof onto itself.

According to an embodiment, the first conveyor belt <NUM> comprises a foraminous portion arranged at the central portion <NUM> of the first conveyor belt <NUM> with respect to the cross direction CD as illustrated in <FIG>. Such arrangement ensure that the absorbent insert <NUM> is well fastened in the central portion <NUM>, meaning in the crotch region of the absorbent insert <NUM>, and is loosely secured at the at least one portion of the absorbent insert <NUM> proximal to the transversal edge. Such arrangement ensures that the folding blade <NUM> does not meet any resistance and that the portion of the absorbent insert <NUM> proximal to the transversal edge can be folded more easily. In other words, the vacuum should not impede the folding at the one or both cross direction extremities. The first conveyor belt <NUM> can also comprise a portion blowing out air at one cross direction extremity, the extremity proximal to the folding unit <NUM>, to favor the lifting and thus folding of the portion of said absorbent insert <NUM> proximal to the front and/or back transversal edge.

According to an embodiment, the folding unit <NUM> comprises an adjustable mechanism <NUM> to adjust the distance between the pressing blade <NUM> and the folding blade <NUM>. Such adjustable mechanism comprises for example a plate with notches and screws enabling the sliding of the plate between the notches and adapt the distance with respect to the cross direction and/or vertical direction.

According to an embodiment, the absorbent insert <NUM> associated with, or deposited onto, the front and back panels <NUM>,<NUM> are conveyed from the rotating drum <NUM> to the elastic strand(s) <NUM> application unit by a second conveying unit <NUM>, e.g. a second conveyor belt <NUM>. The first conveyor belt <NUM> and the second conveyor belt <NUM> can transport the absorbent inserts <NUM> at the same speed to avoid the formation of wrinkles or creases. The first conveyor belt <NUM> and the transfer device <NUM> can also rotate at matching speed to avoid the formation of wrinkles or creases.

According to an embodiment, the two webs of front and back panels can be conveyed at same speed or at different speed. If the two webs of front and back panels are conveyed at same speed, front and back panels will have the same lengths with respect to the transversal direction or machine direction and the side seams will be arranged at the sides of the wearer. If the two webs of front and back panels are conveyed at different speed, e.g. the web of back panel is conveyed faster than the web of front panel then the back panel will be longer than the front panel and the side seams will be more toward the front at the sides of the wearer.

According to an embodiment, the folding unit <NUM> comprises two folding blades <NUM> each with eventually with a pressing blade <NUM>, one arranged at each transversal edge of the absorbent insert <NUM>, meaning one arranged at each end of the first conveyor belt <NUM> with respect to the cross direction CD. The two folding blades <NUM> are substantially identical in dimensions and shape and are preferably arranged in facing relationship or in mirror relationship, meaning at the same area with respect to the machine direction MD. Such arrangement enables to balance the force exerted onto the absorbent insert <NUM> and optionally to remove the pressing blade(s) <NUM>. The rest of the process is arranged accordingly, namely an elastic thread(s) <NUM> is arranged between the absorbent insert <NUM> and the front panel which is folded onto the elastic thread(s) <NUM>. Such arrangement also enables to have a transversal waist barrier <NUM> in the front and in the back.

According to an embodiment the elastic material <NUM> sandwiched between the inner nonwoven layer <NUM> and the outer nonwoven layer <NUM> and the elastics strands <NUM> are different. The elastics <NUM>,<NUM> can differ in cross-sectional shapes, e.g. round or flat, in dtex, in composition and/or in color. Alternatively, said elastic material <NUM> and elastic strands <NUM> can the same material.

Claim 1:
A method for the manufacture of an absorbent article (<NUM>) comprising the steps of:
• providing a front panel (<NUM>);
• providing a back panel (<NUM>);
• providing an absorbent insert (<NUM>) comprising front and back transversal edges and left and right longitudinal edges connecting the front and back transversal edges to form a perimeter thereof;
• folding a portion of said absorbent insert (<NUM>) proximal to the front and/or back transversal edges thereof onto itself, preferably in the shape of a substantially U-fold, to form transversal waist barrier(s) (<NUM>);
• joining said insert (<NUM>) to said front and back panels (<NUM>, <NUM>); and
• joining said front and back panels (<NUM>, <NUM>) together along a pair of oppositely disposed side seams.