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JP2014083228A - Absorbent article - Google Patents

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JP2014083228A
JP2014083228A JP2012234577A JP2012234577A JP2014083228A JP 2014083228 A JP2014083228 A JP 2014083228A JP 2012234577 A JP2012234577 A JP 2012234577A JP 2012234577 A JP2012234577 A JP 2012234577A JP 2014083228 A JP2014083228 A JP 2014083228A
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layer
absorbent
fiber
skin contact
surface side
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JP6166884B2 (en
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Atsushi Murai
淳 村井
Takahiro Kato
隆弘 加藤
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Kao Corp
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Kao Corp
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Abstract

PROBLEM TO BE SOLVED: To provide an absorbent article capable of further improving soft feeling to the skin and cushioning property and holding these surface characteristics even in use.SOLUTION: An absorbent article includes: a surface layer 1; a leakage preventing layer 3; and an absorption layer 2. The absorption layer 2 has a heat fusion fiber 25 and a hydrophilic fiber. The surface layer 1 has a plurality of projecting parts 11 and recessed parts 12 formed by integrally shaping the skin contact surface side and the skin non-contact surface side in the thickness direction. The projecting parts 11 and the recessed parts 12 are disposed adjacent to each other in different directions intersecting in a plan view to be rugged. The skin non-contact surface side of the projecting part of the surface layer 1 forms an arch 8 to dispose a space part 4 up to the absorption layer 2. A junction part 5 to the absorption layer 2 is disposed only on the skin non-contact surface sides of the recessed parts 12 dispersed in a plan view by connecting the arch 8 and the arch 8 adjacent thereto, and in the junction part 5, the surface layer 1 and the absorption layer 2 are fused and fixed by the heat fusion property of the heat fusion fiber 25. The surface layer 1 is gradually increased in fiber density as it goes from the top 11t of the projecting part 11 toward the recessed part 12.

Description

本発明は、生理用ナプキンやパンティライナー、使い捨ておむつなどの吸収性物品に関する。   The present invention relates to absorbent articles such as sanitary napkins, panty liners, and disposable diapers.

生理用ナプキン等の吸収性物品においては、各部材の材料や構造を改良し、その機能や着用感の向上が図られてきた。部材としての表面シートや吸収体についても、かかる改良を企図して開発がなされている。   In absorbent articles such as sanitary napkins, the material and structure of each member have been improved to improve its function and wearing feeling. The surface sheet and the absorbent body as members have also been developed with the aim of such improvement.

例えば、特許文献1には、表面層と吸収層とを一体化させて凸部と凹部とを交互に形成した吸収性物品が開示されている。この吸収性物品においては、前記凸部の表面層不織布の繊維密度が前記凹部の表面層不織布の繊維密度より疎であり、前記表面層が前記吸収層より嵩高くされている。
また、特許文献2には、複数条のひだで起伏を繰り返す不織布製透液性シートを備えた体液吸収性着用物品が開示されている。前記ひだは、長手方向に筋状に形成され、頂部及び底部の高密度域と、前記頂部と前記底部との間の低密度域とを有する。前記底部が吸収性コアに当接して液を引き込む。
加えて、特許文献3には、表面層から吸収層にかけて押圧された凹部が複数形成され、該凹部において前記表面層及び前記吸収層の繊維が接合された吸収性物品が開示されている。
For example, Patent Document 1 discloses an absorbent article in which convex portions and concave portions are alternately formed by integrating a surface layer and an absorbent layer. In this absorbent article, the fiber density of the surface layer nonwoven fabric of the convex part is sparser than the fiber density of the surface layer nonwoven fabric of the concave part, and the surface layer is made bulkier than the absorbent layer.
Further, Patent Document 2 discloses a body fluid-absorbing wearing article provided with a nonwoven fabric liquid-permeable sheet that repeatedly undulates with a plurality of pleats. The pleats are formed in a streak shape in the longitudinal direction, and have a high density region at the top and bottom, and a low density region between the top and the bottom. The bottom part comes into contact with the absorbent core and draws in the liquid.
In addition, Patent Document 3 discloses an absorbent article in which a plurality of concave portions pressed from a surface layer to an absorbent layer are formed, and the fibers of the surface layer and the absorbent layer are joined in the concave portions.

特開2008−161319号公報JP 2008-161319 A 特開2000−135239号公報JP 2000-135239 A 特開2003−291234号公報JP 2003-291234 A

本発明は、肌に対する柔らかな風合いとクッション性とをさらに向上させ、かつ、これらの表面特性を使用時においても持続可能とする吸収性物品に関する。   The present invention relates to an absorbent article that further improves the soft texture and cushioning properties of the skin and makes these surface characteristics sustainable even during use.

本発明は、肌当接面側に配置された液透過性の表面層、非肌当接面側に配置された液難透過性の防漏層、及び前記表面層と前記防漏層との間に配置された液保持性の吸収層を有する吸収性物品であって、前記吸収層は、熱融着繊維と親水性繊維とを有し、前記表面層は、肌当接面側及び非肌当接面側を一体的に厚み方向に賦形させた複数の凸部及び凹部を有し、該凸部及び凹部が平面視交差する異なる方向において交互に隣接して配されて凹凸形状をなし、前記表面層の凸部の非肌当接面側はアーチを形成し、前記吸収層との間に空間部が配されており、前記アーチとこれに隣接するアーチを繋いで平面視分散配置された前記凹部の非肌当接面側においてのみ、前記吸収層との接合部が配設されており、該接合部においては、前記熱融着繊維の熱融着性により前記表面層と前記吸収層とが融着固定されており、前記表面層は、前記凸部の頂部から前記凹部へ向かって繊維密度が高くなっている吸収性物品を提供する。   The present invention includes a liquid-permeable surface layer disposed on the skin contact surface side, a liquid-impermeable leak-proof layer disposed on the non-skin contact surface side, and the surface layer and the leak-proof layer. An absorbent article having a liquid-retaining absorbent layer disposed therebetween, wherein the absorbent layer includes heat-fusible fibers and hydrophilic fibers, and the surface layer includes a skin contact surface side and a non-contact surface. It has a plurality of convex portions and concave portions formed integrally in the thickness direction on the skin contact surface side, and the convex portions and the concave portions are arranged alternately adjacent to each other in different directions intersecting in plan view to form an uneven shape. None, the non-skin contact surface side of the convex portion of the surface layer forms an arch, and a space is disposed between the absorption layer and the arch and the arch adjacent thereto are connected to each other in a plan view dispersion. Only at the non-skin contact surface side of the disposed concave portion, a joint portion with the absorbent layer is disposed, and in the joint portion, the heat fusion fiber is disposed. The surface layer and the absorbent layer are fused and fixed by heat-fusibility, and the surface layer provides an absorbent article in which the fiber density increases from the top of the convex portion toward the concave portion. .

また、本発明は、前記吸収性物品の好適な製造方法として、
周面が凹凸形状となっている第1のロールと、該第1のロールの凹凸形状と噛み合い形状となっている凹凸形状を周面に有する第2のロールとの噛み合わせ部に、表面層用シートを搬送、挟持させて、該シートに凹部と凸部を賦形する工程と、前記賦形後の表面層用シートを前記第1ロールの周面に密着させた状態で、該表面層用シートを、前記第1ロールの凸部においてのみ、熱融着繊維を含有する吸収層前駆体に接触させ、前記第1ロールの凸部の熱によって前記接触部分の前記表面層用シートと前記吸収層とを融着する工程と、を有する、表面層と吸収層とを備えた吸収性物品の製造方法を提供する。
In addition, the present invention provides a suitable method for producing the absorbent article,
A surface layer is formed on a meshing portion between a first roll having a concavo-convex shape on the peripheral surface and a second roll having a concavo-convex shape meshing with the concavo-convex shape of the first roll on the peripheral surface. The surface layer in a state in which the sheet is conveyed and sandwiched, and the concave and convex portions are formed on the sheet, and the surface layer sheet after shaping is in close contact with the peripheral surface of the first roll. The sheet for contact is brought into contact with the absorbent layer precursor containing the heat-sealing fiber only at the convex portion of the first roll, and the sheet for the surface layer of the contact portion and the heat by the heat of the convex portion of the first roll The manufacturing method of the absorbent article provided with the surface layer and the absorption layer which has the process of fuse | melting an absorption layer is provided.

本発明の吸収性物品は、肌に対する柔らかな風合いとクッション性とをさらに向上させ、かつ、これらの表面特性を使用時においても持続させることができる。   The absorbent article of the present invention can further improve the soft texture and cushioning properties against the skin, and can maintain these surface characteristics even during use.

本発明の吸収性物品の好ましい一実施形態の要部断面により示した斜視図である。It is the perspective view shown by the principal part cross section of preferable one Embodiment of the absorbent article of this invention. 図1における22の部分(表面層、吸収層及び防漏層)を拡大して模式的に示した断面図である。FIG. 2 is a cross-sectional view schematically showing an enlarged portion 22 (a surface layer, an absorption layer, and a leak-proof layer) in FIG. 1. 図1の表面層の肌当接面側における凸部及び凹部の配置を接合部とともに模式的に示した一部拡大平面図である。FIG. 2 is a partially enlarged plan view schematically showing the arrangement of convex portions and concave portions on the skin contact surface side of the surface layer of FIG. 1 together with joint portions. 凸部及び凹部並びに接合部の配置の変形例を模式的に示した一部拡大平面図である。It is the partially expanded plan view which showed typically the modification of arrangement | positioning of a convex part, a recessed part, and a junction part. 本発明の吸収性物品の好ましい一実施形態を模式的に示した平面図である。It is the top view which showed typically one preferable embodiment of the absorbent article of this invention. 本発明の吸収性物品の好ましい製造方法の一部の工程を模式的に示した工程説明図である。It is process explanatory drawing which showed typically the one part process of the preferable manufacturing method of the absorbent article of this invention. 図5に示した工程において用いられるエンボスロールの一部を拡大して模式図に示した拡大斜視図である。FIG. 6 is an enlarged perspective view showing a part of an embossing roll used in the process shown in FIG. 5 in an enlarged manner. 図5に示した工程説明図の上層と下層とを接合する工程部分を拡大して模式的に示した説明図である。It is explanatory drawing which expanded and showed typically the process part which joins the upper layer and lower layer of process explanatory drawing shown in FIG.

以下、本発明の吸収性物品を、その好ましい実施形態に基づき図面を参照しながら詳しく説明する。
図1は本発明の吸収性物品の直交する2切断面で示した斜視図である。本実施形態の吸収性物品は、肌当接面側に配置された液透過性の表面層1、非肌当接面側に配置された液難透過性の防漏層3、及び前記表面層1と前記防漏層3との間に配置された液保持性の吸収層2を有する。
表面層1は、吸収層2の肌当接面側に配される凹凸形状を有するシート体であり、排泄液を吸収層2へと素早く透過させる。表面層1は、排泄された体液を速やかに透過させ、吸収層に伝達する観点と、肌触りのよさの観点から、親水性のエアスルー不織布からなる。防漏層3は、吸収層2の非肌当接面側の全面を覆って接合され、液漏れを防いでいる。防漏層3は、この観点から、液難透過性の部材からなり、例えば、通気性を有し液不透過性の透湿性フィルム等を用いて形成されたシート体である。前記液難透過性とは、液を透過させにくい性質を意味し、防水性、撥水性及び液不透過性を含む。なお、本発明においては、表面層1及び防漏層3は、本実施形態のシート体に限らず、複数の部材を組み合わせたものや厚みに変化を持たせたものなど、種々の態様のものを任意に採用できる。
Hereinafter, the absorbent article of this invention is demonstrated in detail, referring drawings based on the preferable embodiment.
FIG. 1 is a perspective view of the absorbent article of the present invention shown by two orthogonal cross sections. The absorbent article of this embodiment includes a liquid-permeable surface layer 1 disposed on the skin contact surface side, a liquid-impermeable leak-proof layer 3 disposed on the non-skin contact surface side, and the surface layer. 1 and a liquid-retaining absorbent layer 2 disposed between the leak-proof layer 3.
The surface layer 1 is a sheet body having a concavo-convex shape disposed on the skin contact surface side of the absorption layer 2, and allows the excretory fluid to quickly pass through the absorption layer 2. The surface layer 1 is made of a hydrophilic air-through nonwoven fabric from the viewpoint of promptly permeating the excreted body fluid and transmitting it to the absorption layer and from the viewpoint of good touch. The leak-proof layer 3 is bonded so as to cover the entire surface of the absorbent layer 2 on the non-skin contact surface side, thereby preventing liquid leakage. From this point of view, the leak-proof layer 3 is made of a liquid-impermeable member, and is a sheet formed using, for example, a breathable and liquid-impermeable moisture-permeable film. The liquid poor permeability means a property that hardly allows liquid to pass through, and includes waterproofness, water repellency, and liquid impermeability. In the present invention, the surface layer 1 and the leak-proof layer 3 are not limited to the sheet body of the present embodiment, but have various aspects such as a combination of a plurality of members and a variation in thickness. Can be arbitrarily adopted.

本発明においては、特に断らない限り、人体に接触する側を肌面側ないし肌当接面側あるいは表面側といい、これと反対側を非肌面側ないし非肌当接面側あるいは裏面側という。着用時に人体の前側に位置する方向を前方といいその端部を前端部とし、後側に位置する方向を後方といいその端部を後端部として説明する。吸収性物品の表面又は裏面の法線方向を厚み方向といいその量を厚みという。   In the present invention, unless otherwise specified, the side in contact with the human body is referred to as the skin surface side or the skin contact surface side or the surface side, and the opposite side is referred to as the non-skin surface side or the non-skin contact surface side or the back surface side. That's it. The direction positioned on the front side of the human body when worn is referred to as the front, and its end is referred to as the front end, and the direction positioned on the rear is referred to as the rear, and the end is referred to as the rear end. The normal direction of the front surface or the back surface of the absorbent article is called the thickness direction, and the amount is called thickness.

まず、図1及び2を参照して、表面層1について以下に詳述する。
表面層1は、図1に示すように、肌当接面側及び非肌当接面側が一体的に厚み方向に賦形された複数の凸部11及び凹部12が繰り返す、凹凸形状を有している。凸部11は、肌当接面側から見れば肌当接面側(Z1)方向に突出した表面凸部11aであり、非肌当接面側から見れば非肌当接面側(Z2)から肌当接面側(Z1)へと窪んだ裏面凹部11bである。一方、凹部12は、肌当接面側から見れば非肌当接面側(Z2)に窪んだ表面凹部12aであり、非肌当接面側から見れば肌当接面側(Z1)から非肌当接面側(Z2)へと突出した裏面凸部12bである。
これらの凹部11と凸部12とが、平面視交差する異なる方向(図1におけるX方向、Y方向及びこれらと交差する異なる方向など)に交互に、隣接して周期的に複数配置されている。これにより、表面層1は、図1に示すように、凹凸の周期的な繰り返しを平面方向のほぼ全域に亘って有する形状である。
First, the surface layer 1 will be described in detail below with reference to FIGS.
As shown in FIG. 1, the surface layer 1 has a concavo-convex shape in which a plurality of convex portions 11 and concave portions 12 formed integrally in the thickness direction on the skin contact surface side and the non-skin contact surface side are repeated. ing. The convex portion 11 is a surface convex portion 11a protruding in the skin contact surface side (Z1) direction when viewed from the skin contact surface side, and the non-skin contact surface side (Z2) when viewed from the non-skin contact surface side. It is the back surface recessed part 11b dented from the skin contact surface side (Z1). On the other hand, the concave portion 12 is a surface concave portion 12a that is recessed toward the non-skin contact surface side (Z2) when viewed from the skin contact surface side, and from the skin contact surface side (Z1) when viewed from the non-skin contact surface side. It is the back surface convex part 12b which protruded to the non-skin contact surface side (Z2).
A plurality of the concave portions 11 and the convex portions 12 are periodically and alternately arranged adjacent to each other in different directions intersecting in plan view (X direction, Y direction and different directions intersecting with these in FIG. 1). . Thereby, the surface layer 1 is a shape which has the periodic repetition of an unevenness | corrugation over the substantially whole area of a plane direction, as shown in FIG.

このような表面層1の肌当接面側は、図2に示すように、表面凸部11aで着用者の肌と接触することとなり、接触面積を効果的に抑制できる。また、表面凹部12aは、肌との間に空間を形成し通気性に優れる。加えて表面凹部12aは、周囲の表面凸部11aから流れ落ちる排泄液の捕捉性が高く、表面層4の肌当接面側での液の拡散を効果的に抑制し得る。そのため、肌と排泄液との接触が好適に抑制され、着用者の肌の濡れた感じが抑制される。これらにより良好な着用感が奏される。
さらに、表面凸部11aは、肌との接触面積を低減する観点から、表面凹部12aから肌当接面側へと隆起して頂部11tを有するドーム形状であることが好ましい。また、表面凹部12aは、液捕捉性の観点から、その周辺の複数の表面凸部11aから底部頂部12tへと至る窪み形状であることが好ましい。例えば、円錐や円錐台、楕円錐、楕円錐台を逆さにした形状、すり鉢形状ないしお椀形状など凹部の広がりが底部頂部12tへと収束する形状であることが好ましい。
As shown in FIG. 2, the skin contact surface side of the surface layer 1 comes into contact with the wearer's skin at the surface convex portion 11a, and the contact area can be effectively suppressed. Moreover, the surface recessed part 12a forms space between skin and is excellent in air permeability. In addition, the surface concave portion 12a has a high ability to capture excretory fluid that flows down from the surrounding surface convex portion 11a, and can effectively suppress the diffusion of the liquid on the skin contact surface side of the surface layer 4. Therefore, contact with skin and excretion fluid is controlled suitably, and a wearer's skin's wet feeling is controlled. A good wearing feeling is produced by these.
Furthermore, it is preferable that the surface convex part 11a is a dome shape which protrudes from the surface concave part 12a to the skin contact surface side and has a top part 11t from the viewpoint of reducing the contact area with the skin. Moreover, it is preferable that the surface recessed part 12a is a hollow shape from the several surface convex part 11a of the periphery to the bottom top part 12t from a viewpoint of liquid capture property. For example, a conical shape, a truncated cone, an elliptical cone, an inverted inverted elliptical cone shape, a mortar shape or a bowl shape, and the like, preferably have a shape in which the expansion of the concave portion converges to the bottom top portion 12t.

一方、表面層1の非肌当接面側においては、図3に示すように、表面凹部12aに対応する裏面凸部12bが、吸収層2と接合部5において接合固定されている。接合部5では、エンボス処理が施され、表面層1と吸収層2とが接合されている。本実施形態の接合部5においては、接着剤等を用いずに、吸収層2にある熱融着繊維25の熱融着により表面層1と吸収層2とが融着接合されている。この点は、後述の吸収層2の説明においてさらに詳述する。
また、表面凸部11aに対応する裏面凹部11bは、複数の接合部5に囲まれた領域で吸収層2と非接合であり、その断面形状が吸収層2に対してアーチ8を形成する。これにより、裏面凹部11bと吸収層2との間には、空間部4が形成されている。つまり、アーチ8とアーチ8とを繋いで平面視分散配置される前記凹部の非肌当接面側(裏面凸部12b)においてのみ、表面層1と吸収層2とが接合されている。
On the other hand, on the non-skin contact surface side of the surface layer 1, as shown in FIG. 3, the back surface convex portion 12 b corresponding to the front surface concave portion 12 a is bonded and fixed at the absorbing layer 2 and the bonding portion 5. In the joining part 5, the embossing process is performed and the surface layer 1 and the absorption layer 2 are joined. In the joint portion 5 of the present embodiment, the surface layer 1 and the absorbent layer 2 are fusion-bonded by thermal fusion of the heat-fusible fibers 25 in the absorbent layer 2 without using an adhesive or the like. This point will be further described in detail in the description of the absorption layer 2 described later.
Further, the back surface concave portion 11 b corresponding to the front surface convex portion 11 a is not bonded to the absorbent layer 2 in a region surrounded by the plurality of bonded portions 5, and the cross-sectional shape forms an arch 8 with respect to the absorbent layer 2. Thereby, the space part 4 is formed between the back surface recessed part 11b and the absorption layer 2. FIG. That is, the surface layer 1 and the absorption layer 2 are joined only on the non-skin contact surface side (back surface convex portion 12 b) of the concave portion that is connected in a plan view by connecting the arch 8 and the arch 8.

空間部4の存在によって、凸部11と吸収層2とが分離した状態とされている。この部分において、表面層1は、吸収層2の厚みによる剛直性の影響を受けず、自在に変形可能とされている。つまり、表面層1の肌当接面側からの押圧に対し、表面凸部11aが吸収層2の制限を受けず圧縮仕事量が大きく、肌に触れたときのふんわりとした感触が増す。これによりやわらかなクッション感が得られる。
特に、本実施形態の表面層1及び吸収層2を組み込んだ吸収性物品は、複数の頂部11t付近で着用者の肌と接触することとなる。この場合、凸部11は、肌との接触面積を低減する一方で、体圧を直接受けることとなる。この体圧は、厚み方向の押圧(図2の白矢印f1)に限らず、着用者の動きに合わせた多方向からの圧力(図2の白矢印f2、f3)などとして加えられる。この場合でも、凸部11は、接合部5を基礎として、裏面凹部11bにおいて吸収層2に対しアーチ8が維持されつつ、空間部4の存在で表面凸部11aは、吸収層2とは分離して動きやすい(圧縮仕事量が大)。そして、多方向からの力に対しても柔軟に変形し、追従することができる。そのため表面凸部11aが弾けるようにして肌と擦れることが生じ難く、摩擦が少ない。その結果、肌に触れた感じが柔らかく、優しい肌触りとなる。これらのことが、後述の吸収層2の柔らかな風合いと相俟って、吸収性物品の着用感の向上をもたらす。加えて、凸部11は、空間部4の介在により吸収層2と密着せず、液を吸った後の吸収層2のヘタリの影響を受けず形状が維持され易い。
Due to the presence of the space portion 4, the convex portion 11 and the absorption layer 2 are separated. In this portion, the surface layer 1 is not affected by rigidity due to the thickness of the absorption layer 2 and can be freely deformed. That is, the pressing force from the skin contact surface side of the surface layer 1 causes the surface convex portion 11a to receive a large amount of compression work without being limited by the absorbent layer 2, and to increase the soft touch when touching the skin. This gives a soft cushion feeling.
In particular, the absorbent article incorporating the surface layer 1 and the absorbent layer 2 of the present embodiment comes into contact with the wearer's skin in the vicinity of the plurality of top portions 11t. In this case, the convex portion 11 directly receives body pressure while reducing the contact area with the skin. This body pressure is not limited to pressing in the thickness direction (white arrow f1 in FIG. 2), but is applied as pressure from multiple directions (white arrows f2, f3 in FIG. 2) in accordance with the movement of the wearer. Even in this case, the convex portion 11 is separated from the absorbent layer 2 by the presence of the space portion 4 while the arch 8 is maintained with respect to the absorbent layer 2 in the back concave portion 11b on the basis of the joint portion 5. Easy to move (large compression work). And it can deform | transform flexibly and can follow the force from many directions. For this reason, it is difficult for the surface convex portion 11a to rub and rub against the skin, and there is little friction. As a result, the feeling of touching the skin is soft and a gentle touch. These, together with the soft texture of the absorbent layer 2 described later, bring about an improvement in the wearing feeling of the absorbent article. In addition, the convex portion 11 is not in close contact with the absorption layer 2 due to the interposition of the space portion 4, and the shape is easily maintained without being affected by the settling of the absorption layer 2 after sucking the liquid.

次に、図2を参照して、吸収層2について説明する。さらに表面層1と吸収層2との相互作用について説明する。
吸収層2は、熱融着繊維25を有する。また、排泄液を吸収保持する部材として親水性繊維を有する。吸収層2は、これらの構成繊維が積繊されてなる積繊体であるが、本実施形態では、積層体を熱処理することにより、熱融着繊維25が構成繊維に対して融着しているシート状吸収体である。本実施形態における吸収層2は、周囲を被覆するコアラップシートを有さず、表面層1及び防漏層3と直接接合固定されている。なお、吸収層2は、高吸水性ポリマーなど他の機能素材を含んでもよい。この場合、本実施形態のシート状吸収体である吸収層2は、高吸水性ポリマー等の粒子が脱落しにくく、また湿潤時の保形性に優れるので、好ましい。
Next, the absorption layer 2 will be described with reference to FIG. Further, the interaction between the surface layer 1 and the absorption layer 2 will be described.
The absorbent layer 2 has a heat-fusible fiber 25. Moreover, it has a hydrophilic fiber as a member which absorbs and retains excretory fluid. The absorbent layer 2 is a stacked body in which these constituent fibers are stacked. In this embodiment, the heat-bonding fiber 25 is fused to the constituent fibers by heat-treating the laminate. It is a sheet-like absorber. The absorbent layer 2 in this embodiment does not have a core wrap sheet that covers the periphery, and is directly bonded and fixed to the surface layer 1 and the leak-proof layer 3. In addition, the absorption layer 2 may contain other functional materials, such as a super absorbent polymer. In this case, the absorbent layer 2 which is a sheet-like absorbent body of the present embodiment is preferable because particles such as a superabsorbent polymer are not easily dropped and shape retention is excellent when wet.

熱融着繊維25は、吸収層2の厚み方向(Z軸方向)にみて、肌当接面側に偏在している。この偏在というとき、肌当接面側における熱融着繊維25の含有率が、非肌当接面側よりも高いことをいい、含有率に相対的な差があることをいう。例えば、図2に示す、接合部5が配設された領域M1において、接合部5付近の領域P4における熱融着繊維25の含有率(r4)が、非肌当接面付近の領域P5及びP6における熱融着繊維25の含有率(r5及びr6)よりも高い(r4>r5、r4>r6)(図2においてこの部分の繊維の構成は図示せず)。この含有率の偏在においては、熱融着繊維25が領域P5及びP6に全くなく、肌当接面側の表面付近のみにある状態でもよい。この含有率は、後述の繊維密度の測定方法と同様の方法により測定することができる。   The heat-sealing fiber 25 is unevenly distributed on the skin contact surface side in the thickness direction (Z-axis direction) of the absorbent layer 2. When this uneven distribution is mentioned, it means that the content rate of the heat-fusible fiber 25 on the skin contact surface side is higher than that on the non-skin contact surface side, and there is a relative difference in the content rate. For example, in the region M1 where the joint portion 5 is disposed as shown in FIG. 2, the content (r4) of the heat-sealing fiber 25 in the region P4 near the joint portion 5 is the region P5 near the non-skin contact surface and It is higher (r4> r5, r4> r6) than the content (r5 and r6) of the heat-sealing fiber 25 in P6 (in FIG. 2, the structure of the fiber of this part is not shown). In the uneven distribution of the content rate, the heat-bonding fiber 25 may not be present in the regions P5 and P6 at all, but may be in the vicinity of the surface on the skin contact surface side. This content rate can be measured by the same method as the fiber density measuring method described later.

次に、接合部5が配設された吸収層2の領域M1についてさらに詳述する。領域M1においては、吸収層2の肌当接面側の表面が、表面層1の凸部11の根元にあたる凹部12と、接合部5で接合固定されている。接合部5では、エンボスにより、吸収層2の肌当接面側にある熱融着繊維25の熱融着性が発現し、表面層1と吸収層2とが融着固定されている。   Next, the region M1 of the absorption layer 2 in which the joint portion 5 is disposed will be described in detail. In the region M <b> 1, the surface on the skin contact surface side of the absorbent layer 2 is bonded and fixed to the concave portion 12 corresponding to the root of the convex portion 11 of the surface layer 1 by the bonding portion 5. In the joint portion 5, the heat-sealing property of the heat-sealing fiber 25 on the skin contact surface side of the absorbent layer 2 is expressed by embossing, and the surface layer 1 and the absorbent layer 2 are fusion-fixed.

熱融着繊維25の熱融着性による接合は、領域M2における表面層1の凸部のドーム、表面層1の吸収層2に対するアーチの良好な形成と空間部4の確保及び通液性と柔軟性の確保、並びにこれらの形態の保持性に好適である。これは、熱融着繊維25による融着接合の湿潤時の接合強度が高いことに加え、次の作用を奏することによる。また、接合部5の土台をなすシート状吸収体自体の湿潤時の優れた保形性が、前記のアーチの良好な形成等に好適である。   Joining of the heat-sealable fibers 25 by heat-sealability is achieved by forming the dome of the convex portion of the surface layer 1 in the region M2, the good formation of the arch with respect to the absorbent layer 2 of the surface layer 1, ensuring the space 4 and liquid permeability. It is suitable for ensuring flexibility and maintaining these forms. This is because, in addition to the high bonding strength when the fusion bonding by the heat fusion fiber 25 is high, the following effects are exhibited. In addition, the excellent shape retention during wetness of the sheet-like absorber itself that forms the base of the joint portion 5 is suitable for favorable formation of the arch.

熱融着繊維25の熱融着は、表面層2の凹部12、特に凹部12の底部頂部12t付近を的確に吸収層2に接合することができる。従来のホットメルト等の接着剤の場合は、必要箇所だけに塗布し必要箇所のみに接合部5を形成することは難しい。確実な接合のためには、吸収層の肌当接面側に、広い面積で接着剤を配置する必要があり、吸液性や柔軟性等に影響を与える。
これに対し、熱融着による接合では、凹凸賦形された表面層2の凹部12、特に底部頂部12t付近のみを吸収層2に押し当ててピンポイントに融着接合することができる。また、それ以外の部分で熱融着を生じさせないことが可能となる。そのため、表面層1の凸部11が押し潰されても吸収層2に接合されることはない。これにより領域M2において、凸部11つまり裏面凹部11bのアーチ8が好適に形成され易く、十分な空間部4の確保が可能となる。
また、吸収層2の肌当接面側において、接着剤の塗布と異なり、表面の硬化が接合部5のみと限定的である。しかも、表面層1の凹部12を吸収層2の熱融繊維25とピンポイントで融着させるので、それ以外の領域M2の表面層1及び吸収層2に張力が働き難く繊維は接合部5へ引きつられ難い。つまり、表面層1と吸収層2との接合による剛性が限定的である。これにより、表面層1及び吸収層2全体としても柔らかく、特に凸部11及び空間部4による前述の柔らかなクッション性がより効果的なものとなる。
The heat-sealing of the heat-sealing fiber 25 can accurately bond the concave portion 12 of the surface layer 2, particularly the vicinity of the bottom top portion 12 t of the concave portion 12, to the absorbent layer 2. In the case of a conventional adhesive such as hot melt, it is difficult to apply the adhesive only to the necessary part and form the joint 5 only at the necessary part. For reliable bonding, it is necessary to dispose an adhesive with a large area on the skin contact surface side of the absorbent layer, which affects liquid absorbency and flexibility.
On the other hand, in the joining by heat fusion, the concave portion 12 of the surface layer 2 formed with unevenness, particularly only the vicinity of the bottom top portion 12t can be pressed against the absorbent layer 2 to be fusion-bonded to the pin point. In addition, it becomes possible to prevent heat fusion from occurring in other portions. Therefore, even if the convex part 11 of the surface layer 1 is crushed, it is not joined to the absorption layer 2. Thereby, in the area | region M2, the arch 8 of the convex part 11, ie, the back surface recessed part 11b, is easy to be formed suitably, and sufficient space part 4 can be ensured.
Further, on the skin contact surface side of the absorbent layer 2, unlike the application of the adhesive, the surface hardening is limited to only the joint portion 5. In addition, since the concave portion 12 of the surface layer 1 is fused to the heat-melting fiber 25 of the absorbent layer 2 at a pinpoint, the tension hardly acts on the surface layer 1 and the absorbent layer 2 of the other region M2, and the fibers go to the joint portion 5. It is hard to be pulled. That is, the rigidity by joining the surface layer 1 and the absorption layer 2 is limited. Thereby, the surface layer 1 and the absorption layer 2 as a whole are soft, and in particular, the soft cushioning property by the convex portion 11 and the space portion 4 becomes more effective.

以上のとおり、表面層1のドーム状の凸部11ないしアーチ8の根元の接合部5として、湿潤時でも吸収層2から剥がれ難いものとするため、その接合強度は、乾燥時において、0.3N/10mm以上が好ましく、0.5N/10mm以上がより好ましい。また、湿潤時において、0.1N/10mm以上が好ましく、0.4N/10mm以上がより好ましい。一方、その上限は、接合部5における剛性を抑える観点から、乾燥時において、3N/10mm以下が好ましく、1N/10mm以下がより好ましい。   As described above, since the joint portion 5 at the base of the dome-shaped convex portion 11 or the arch 8 of the surface layer 1 is difficult to be peeled off from the absorbent layer 2 even when wet, the joint strength is 0. 3 N / 10 mm or more is preferable, and 0.5 N / 10 mm or more is more preferable. Further, when wet, 0.1 N / 10 mm or more is preferable, and 0.4 N / 10 mm or more is more preferable. On the other hand, the upper limit is preferably 3 N / 10 mm or less and more preferably 1 N / 10 mm or less during drying from the viewpoint of suppressing the rigidity of the joint 5.

・接合強度の測定方法
前述の接合強度の測定方法は、表面層1、吸収層2及び防漏層3の積層部分について幅30mm×長さ50mmで帯状に切り出して試験片とする。後述する所定の前処理を施した後、20℃、65%RHの環境下にて、オリエンテック(株)製のテンシロン引張試験機を用いて、前記試験片の長手方向の端部において、上部チャックに表面層1、下部チャックに吸収層2及び防漏層3をはさむ。その後、剥離速度300mm/分の速さで180°方向に引き剥がし、剥離強度を測定する。測定結果を試験片の幅(mm)で割って、単位幅当り接合強度(N/cm)とする。
また、乾燥状態の接着力は、切り出した試験片をそのまま測定に供し、一方湿潤状態の接着力は、試験片に生理食塩水を5cc流下して十分濡らして1分以上経過後、ペーパータオルを上面(ブロック状吸収部41)側から軽く押し付けて余分な水分を除去して、同様に強度測定を行う。測定はいずれもN=3平均とし、特に湿潤状態の測定は、濡らして1分後直ちに測定に入れるよう工夫する。
-Measuring method of joining strength The measuring method of the above-mentioned joining strength cuts out into the strip | belt shape by 30 mm in width x 50 mm in length about the laminated part of the surface layer 1, the absorption layer 2, and the leak-proof layer 3, and makes it a test piece. After performing the predetermined pretreatment described later, in the environment of 20 ° C. and 65% RH, using the Tensilon tensile tester manufactured by Orientec Co., Ltd. The surface layer 1 is sandwiched between the chuck and the absorption layer 2 and the leak-proof layer 3 are sandwiched between the lower chuck. Thereafter, the film is peeled off in the 180 ° direction at a peeling speed of 300 mm / min, and the peeling strength is measured. The measurement result is divided by the width (mm) of the test piece to obtain the bonding strength (N / cm) per unit width.
For the adhesive strength in the dry state, the cut test piece is used for measurement as it is, while in the wet state, 5 cc of physiological saline is poured on the test piece and wetted sufficiently, and after 1 minute or more has passed, the paper towel is placed on the top surface. The light is pressed lightly from the (block-shaped absorbing portion 41) side to remove excess moisture, and the strength is measured in the same manner. N = 3 average is used for all measurements, and in particular, measurements in a wet state are devised so that they are put into measurement immediately after being wetted.

さらに領域M1において、表面層1の凹部12は、前述のとおり高い捕集性により排泄液等が集まり易い。そのため、凹部12から排泄液等が素早く吸収層2の内部へと透過され、吸収保持される構造であることが好ましい。この液透過性の観点から、底部頂部12t付近に配される接合部5において、表面層1の凹部12及び吸収層2の繊維間の空間が保持されていることが好ましい。
この接合部5における繊維間の空間保持は、接着剤による接合ではなく、熱融着性繊維の熱融着性による繊維同士の接合により実現可能である。さらに言えば、フィルム化されない熱融着により実現可能である。つまり、接合部5において、熱融着で繊維間の距離が縮まる、つまり繊維密度が高まるとしても、繊維間の空間がなくなり膜状化しないことが好ましい。これにより、湿潤強度の高い確かな接合と良好な液透過性とが同時に達成され得る。また、確かな接合により、表面層の凹凸形状が維持され凹部の液捕集性が持続する。これがさらに前述の素早い液の透過性と相俟って、肌側での液残りが効果的に抑制される。さらに、接合部5における繊維間空間が保持されることで、フィルム化等に比して、その部分での剛性が適度に緩和されて、物品全体の柔らかさや柔軟性の向上に資する。
Further, in the region M1, the concave portion 12 of the surface layer 1 is easy to collect excretion fluid or the like due to the high collection property as described above. For this reason, it is preferable that the excretion fluid or the like is quickly transmitted from the recess 12 into the absorption layer 2 and absorbed and held. From the viewpoint of this liquid permeability, it is preferable that the space between the concave portion 12 of the surface layer 1 and the fibers of the absorbent layer 2 is maintained in the joint portion 5 disposed near the bottom top portion 12t.
The space holding between the fibers in the bonding portion 5 can be realized not by bonding with an adhesive but by bonding of fibers by heat-fusible fibers. Furthermore, it can be realized by heat fusion that is not formed into a film. That is, in the joint portion 5, it is preferable that the distance between the fibers is reduced by thermal fusion, that is, even if the fiber density is increased, the space between the fibers is lost and the film is not formed into a film. Thereby, reliable joining with high wet strength and good liquid permeability can be achieved simultaneously. Moreover, by the reliable joining, the uneven shape of the surface layer is maintained, and the liquid collecting property of the recessed portion is maintained. This further combined with the quick liquid permeability described above effectively suppresses liquid residue on the skin side. Furthermore, by maintaining the inter-fiber space in the joint portion 5, the rigidity at that portion is moderated as compared to film formation and the like, which contributes to improvement in the softness and flexibility of the entire article.

さらにこの液の透過性について言えば、前述のとおり、接合部5における表面層1の凹部12の繊維密度が高められ、その毛管力で吸収層2へと液が積極的に引き込まれる。その結果、液の透過性がより効果的なものとなる。また、エンボスによる圧着で、凸部11の頂部11t付近よりも凹部12の底部頂部12t付近の繊維密度が高くされる。さらに言えば、頂部11tから底部頂部12tに向けて繊維密度が高められている。例えば、図2に示すように、領域P1からP2を介してP3へと繊維密度が高められている。これにより表面層1において、凸部11で受けた液が凹部12へと引き込まれ易く、凹部12での捕集性がさらに高まる。この観点から、頂部11tに対する底部頂部12tの繊維密度の比は、1.2以上が好ましく、1.5以上がより好ましい。その上限は、特に制限はないが、風合いと液透過性を両立させる観点から、10 以下が好ましく、7以下がより好ましい。   Further, regarding the liquid permeability, as described above, the fiber density of the concave portion 12 of the surface layer 1 in the joint portion 5 is increased, and the liquid is actively drawn into the absorption layer 2 by the capillary force. As a result, the liquid permeability becomes more effective. Further, the fiber density in the vicinity of the bottom top portion 12t of the concave portion 12 is made higher than that in the vicinity of the top portion 11t of the convex portion 11 by pressure bonding using embossing. More specifically, the fiber density is increased from the top 11t toward the bottom top 12t. For example, as shown in FIG. 2, the fiber density is increased from the region P1 to P3 through P2. Thereby, in the surface layer 1, the liquid received by the convex part 11 is easy to be drawn into the recessed part 12, and the collection property in the recessed part 12 further increases. From this viewpoint, the ratio of the fiber density of the bottom top 12t to the top 11t is preferably 1.2 or more, and more preferably 1.5 or more. The upper limit is not particularly limited, but is preferably 10 or less, and more preferably 7 or less, from the viewpoint of achieving both texture and liquid permeability.

前述の液の透過性について、接合部5に加えて、接合部5の直下の吸収層2内部に、これと連接する繊維圧密融着部24が配設されていることが好ましい。この繊維圧密融着部24は、接合部5形成時のエンボス処理により吸収層2の繊維密度が高められ、かつ、熱融着繊維同士の交絡点ないしは熱融着繊維と親水性繊維との交絡点が融着して形成されたものである。吸収層2の内部で繊維が圧密化され繊維同士の交絡点が融着することで、押圧に対しても繊維間の空間が崩れることなく保持される。つまり、圧力下でも液の透過性に優れ、また高密度化による毛管力で、吸収層2の肌当接面側から液を下層へとより確実に素早く引き込むことができる。その結果、素早く吸収層2の下層等の内部で液を吸収保持させることができ、吸収層の肌当接面側に液を残し難くして液の表面層への液戻りを抑制できる。   Regarding the liquid permeability described above, in addition to the joint portion 5, it is preferable that a fiber-consolidated fusion portion 24 connected to the absorbent layer 2 immediately below the joint portion 5 is disposed. In the fiber-consolidated fusion part 24, the fiber density of the absorbent layer 2 is increased by the embossing process at the time of forming the joint part 5, and the entanglement point between the thermal fusion fibers or the entanglement between the thermal fusion fiber and the hydrophilic fiber. The dots are formed by fusing. The fibers are consolidated inside the absorbent layer 2 and the entanglement points between the fibers are fused, so that the space between the fibers is maintained without being broken even when pressed. That is, it is excellent in liquid permeability even under pressure, and can be more quickly and reliably drawn from the skin contact surface side of the absorbent layer 2 to the lower layer by capillary force due to higher density. As a result, the liquid can be quickly absorbed and held in the lower layer or the like of the absorption layer 2, and it is difficult to leave the liquid on the skin contact surface side of the absorption layer, and the liquid return to the surface layer can be suppressed.

繊維密度は、例えば、以下の方法で測定することができる。
吸収層2の切断面を、走査電子顕微鏡を用いて拡大観察(繊維断面が30〜60本計測できる倍率(好ましくは150〜500倍)に調整し、繊維の断面数を測定し、一定面積あたりの前記切断面によって切断されている繊維の断面数を数え、1mm当たりの繊維の断面数に換算する。次に、得られた拡大画像から各繊維の断面積を測定し、各々の繊維を測定した断面積を有する柱状の構造体と仮定し、1mm当りの占有体積を算出する。各々の繊維の占有体積にその繊維の比重を乗じて1mm当りに含まれる全繊維重量を求めることで繊維密度(g/cm)を算出する。測定は3ヶ所行い、平均してそのサンプルの繊維密度とする。上記走査電子顕微鏡には、日本電子(株)社製のJCM−5100(商品名)を用いることができる。
The fiber density can be measured, for example, by the following method.
The cut surface of the absorption layer 2 is enlarged and observed with a scanning electron microscope (the magnification (preferably 150 to 500 times) at which the fiber cross section can be measured 30 to 60), the number of cross sections of the fiber is measured, The number of cross-sections of the fibers cut by the cut surface is counted and converted to the number of cross-sections of fibers per 1 mm 2. Next, the cross-sectional area of each fiber is measured from the obtained enlarged image, and each fiber is measured. suppose columnar structure having a measured cross-sectional area, to determine the total fiber weight for calculating the occupied volume per 1 mm 3. by multiplying the specific gravity of the fibers to the volume occupied by each of the fibers contained per 1 mm 3 The fiber density (g / cm 3 ) is calculated using the following three measurements and averaged to obtain the fiber density of the sample: JCM-5100 manufactured by JEOL Ltd. (product) Name) Kill.

加えて液の透過性の観点から、領域M1において、表面層1の凹部12の繊維、吸収層2の肌当接面側の繊維、吸収層2の非肌当接面側の繊維の順に親水度が高められていることが好ましい。これにより、液は親水度の高い方へと引き込まれ、吸収層における液吸収の駆動力となる。その結果、液は吸収層のより深い下層側に到達しその位置から順に吸収保持される。また、そこから隣接する領域M2への液拡散により吸収層の広い範囲での吸収保持が可能となる。
吸収層2の肌当接面側の繊維とは、肌当接面付近、例えば、接合部5周辺の領域P4(図2参照)の繊維であり、主としてこの部分に多く含まれる熱融着繊維の親水度として規定される。また、吸収層2の非肌当接面側の繊維とは、非肌当接面付近、例えば、領域P5及びP6(図2参照)の繊維であり、主として液保持性の親水性繊維の親水度である。つまり、吸収層2においては、熱融着繊維25と親水繊維との含有量の比率により決められる。なお、表面層1の繊維の親水度と吸収層2の肌当接面側の熱融着繊維の親水度との差は、親水化剤の使い分けによって適宜設定することができる。例えば、親水性の低い非イオン親水化剤等を表面層1の繊維に付着させ、親水性の高い陰イオン親水化剤等を吸収層2の熱融着繊維25に付着させることで親水度に差をつけることができる。
さらに言えば、吸収層2の親水度は、単に肌当接面側の表面と非肌当接面側の表面とにおける高低差のみならず、吸収層2の層厚み内部においても、肌当接面側よりも非肌当接面側の方が相対的に親水度が高いことが好ましい。例えば、領域M1の吸収層2の厚みを3等分(T1,T2,T3)とした場合に、(T1)<(T2)<(T3)と高まる親水度の勾配があることが好ましい。前記勾配とは、連続的に高まる親水度の傾斜のみならず、断続的ないしは多段的にでも肌当接面側から非肌当接面側へと親水性が高められている状態を含む意味である。
In addition, from the viewpoint of liquid permeability, in the region M1, the fibers in the concave portion 12 of the surface layer 1, the fibers on the skin contact surface side of the absorbent layer 2, and the fibers on the non-skin contact surface side of the absorbent layer 2 are hydrophilic in this order. The degree is preferably increased. Thereby, the liquid is drawn toward the higher hydrophilicity and becomes a driving force for liquid absorption in the absorption layer. As a result, the liquid reaches the deeper lower layer side of the absorption layer and is absorbed and held in order from that position. Further, absorption of the absorption layer in a wide range can be achieved by liquid diffusion from there to the adjacent region M2.
The fiber on the skin contact surface side of the absorbent layer 2 is a fiber in the vicinity of the skin contact surface, for example, the region P4 (see FIG. 2) around the joint portion 5, and is mainly included in this portion. Is defined as the degree of hydrophilicity. Further, the fibers on the non-skin contact surface side of the absorbent layer 2 are fibers in the vicinity of the non-skin contact surface, for example, the regions P5 and P6 (see FIG. 2), and are mainly hydrophilic of the liquid-retaining hydrophilic fibers. Degree. That is, in the absorption layer 2, it is determined by the content ratio of the heat-fusible fiber 25 and the hydrophilic fiber. In addition, the difference between the hydrophilicity of the fibers of the surface layer 1 and the hydrophilicity of the heat-fusible fibers on the skin contact surface side of the absorption layer 2 can be set as appropriate depending on the use of the hydrophilizing agent. For example, a non-ionic hydrophilizing agent having low hydrophilicity is attached to the fibers of the surface layer 1 and an anionic hydrophilizing agent having high hydrophilicity is attached to the heat-sealing fibers 25 of the absorbent layer 2 to increase the hydrophilicity. You can make a difference.
Furthermore, the hydrophilicity of the absorbent layer 2 is not only the difference in height between the surface on the skin contact surface side and the surface on the non-skin contact surface side, but also within the layer thickness of the absorbent layer 2. It is preferable that the non-skin contact surface side has a relatively higher hydrophilicity than the surface side. For example, when the thickness of the absorption layer 2 in the region M1 is divided into three equal parts (T1, T2, T3), it is preferable that there is a gradient of hydrophilicity that increases as (T1) <(T2) <(T3). The gradient means not only a continuously increasing gradient of hydrophilicity, but also includes a state in which the hydrophilicity is increased from the skin contact surface side to the non-skin contact surface side even intermittently or in multiple stages. is there.

前記親水度の程度は、クレム吸水度で示され、クレム吸水度が大きいほど、親水度が高いことを示す。接合部5を介して接触する表面層と吸収層とにおいて、表面層1の凹部12に相当するクレム吸水度と吸収層2の肌当接面側の表面付近(領域P4など)のクレム吸水度との差は、25mm以上が好ましく、50mm以上がより好ましい。また、吸収層2の肌当接面側の表面付近(領域P4など)のクレム吸水度と非肌当接面側の表面付近(領域P5など)のクレム吸水度との差は、10mm以上が好ましく、40mm以上がより好ましい。クレム吸水度試験は、JIS P8141に準じた試験方法で測定し、サンプルを水に浸漬させてから10分後の吸水高さ(距離)をクレム吸水度とする。   The degree of hydrophilicity is indicated by Klem water absorption, and the greater the Klem water absorption, the higher the hydrophilicity. In the surface layer and the absorption layer that are in contact with each other through the joint 5, the Klem water absorption corresponding to the concave portion 12 of the surface layer 1 and the Klem water absorption in the vicinity of the skin contact surface side surface of the absorption layer 2 (such as the region P4). Is preferably 25 mm or more, more preferably 50 mm or more. Further, the difference between the Klem water absorption near the surface of the absorbent layer 2 on the skin contact surface side (region P4, etc.) and the Klem water absorption near the surface on the non-skin contact surface side (region P5, etc.) is 10 mm or more. Preferably, 40 mm or more is more preferable. The Klem water absorption test is measured by a test method according to JIS P8141, and the water absorption height (distance) 10 minutes after the sample is immersed in water is defined as the Klem water absorption.

以上のとおり、表面層1において、複数の凸部11が排泄液を直接受けた後、凹凸形状におより凹部12へと排泄液が集まる。また、凸部11から凹部12へと繊維密度が高められた構造により、表面層1の内部においても凹部12の凹部底部12tへと排泄液が集まる(P1→P2→P3)。その結果、排泄液は、表面層1において肌から離間した位置に集まり易い。そして、凹部12の位置から接合部5における優れた液透過性、表面層1と吸収層2との親水度の差により、その位置で排泄液は吸収層へと素早く透過される。さらに、吸収層2内部にて、繊維圧密融着部24の毛管力や親水度勾配により、排泄液は下層側へと引き込まれる(P4→P5→P6)。その結果、吸収層2の内部奥深いところから順に排泄液を吸収保持することができる。また、隣接する領域M2への液拡散により、吸収層2の広い範囲で排泄液をしっかりと吸収保持することができる。この一連の作用は、湿潤強度の高い接合部5によって、吸収性物品の装着中において持続可能である。
このように、表面層1の凹凸形状及び繊維粗密構造、吸収層2の繊維粗密構造及び親水度勾配は、液引き込みの駆動力となって持続する。たとえ高粘性の液(経血やおりものなど)で透過され難い成分を含む場合でも、肌から離れた凹部12に集めて水分のみを引き抜く。そして、残った成分の粘度が高められて凹部12で固定化することができる。これにより、排泄液の肌への付着が生じ難く、肌のベタつきが抑制されて、良好なドライ感を得ることができる。
As described above, in the surface layer 1, after the plurality of convex portions 11 directly receive the excretory fluid, the excretory fluid gathers into the concave portion 12 in an uneven shape. Further, due to the structure in which the fiber density is increased from the convex portion 11 to the concave portion 12, the excretory fluid collects in the concave portion bottom portion 12t of the concave portion 12 also inside the surface layer 1 (P1 → P2 → P3). As a result, the excretory fluid tends to gather at a position separated from the skin in the surface layer 1. And the excretion liquid permeate | transmits rapidly to the absorption layer in the position from the position of the recessed part 12 by the outstanding liquid permeability in the junction part 5, and the hydrophilicity difference of the surface layer 1 and the absorption layer 2. FIG. Further, the excretory liquid is drawn to the lower layer side by the capillary force and the hydrophilicity gradient of the fiber consolidation / fusion part 24 inside the absorption layer 2 (P4 → P5 → P6). As a result, the excretory fluid can be absorbed and held in order from the deep inside of the absorption layer 2. Moreover, the excretory liquid can be firmly absorbed and held in a wide range of the absorption layer 2 by the liquid diffusion to the adjacent region M2. This series of actions can be sustained during the mounting of the absorbent article by the joint 5 having high wet strength.
Thus, the uneven shape and the fiber density structure of the surface layer 1, the fiber density structure and the hydrophilicity gradient of the absorption layer 2 are maintained as a driving force for liquid drawing. Even when a highly viscous liquid (such as menstrual blood or a cage) contains a component that is difficult to permeate, it is collected in the recess 12 away from the skin and only moisture is extracted. Then, the viscosity of the remaining component is increased and can be fixed in the recess 12. Thereby, adherence of the excretory fluid to the skin is difficult to occur, the stickiness of the skin is suppressed, and a good dry feeling can be obtained.

熱融着繊維25は、高い湿潤強度を付与しフィルム化を防止する観点から、吸収層2全体における含有率が10%以上が好ましく、20%以上がより好ましい。また、その上限は、吸収層2本来の液保持性能の観点から、親水性繊維とのバランスを考慮して、50%以下が好ましく、40%以下がより好ましい。さらに、吸収層2の厚みを3等分(T1,T2,T3)した場合に、肌当接面側の厚み(T1)における熱融着繊維25の含有率は、高い湿潤強度を付与しフィルム化を防止する観点から、接合部5や繊維圧密融着部24の圧密化された状態の部分を含めて、30%以上が好ましく、40%以上がより好ましい。また、その上限は、吸収層2本来の液保持性能の観点から、90%以下が好ましく、80%以下がより好ましい。   From the viewpoint of imparting high wet strength and preventing film formation, the heat-bonding fiber 25 preferably has a content of 10% or more, more preferably 20% or more in the entire absorbent layer 2. Further, the upper limit is preferably 50% or less, more preferably 40% or less from the viewpoint of the original liquid retention performance of the absorbent layer 2 in consideration of the balance with the hydrophilic fibers. Further, when the thickness of the absorbent layer 2 is divided into three equal parts (T1, T2, T3), the content of the heat-sealing fiber 25 in the thickness (T1) on the skin contact surface side gives high wet strength. From the standpoint of preventing the formation, it is preferably 30% or more, more preferably 40% or more, including the consolidated portion of the joint portion 5 and the fiber consolidation portion 24. Further, the upper limit is preferably 90% or less, and more preferably 80% or less, from the viewpoint of the original liquid retention performance of the absorbent layer 2.

前述のとおり、接合部5における繊維の融着性を高め、吸収層2の繊維交絡点を確実に融着させる観点から、熱融着繊維の繊度は1.2dtex以上が好ましく、2dtex以上がより好ましい。またその上限は、剛性を抑えフィルム化を防止して繊維間の空間を確保する観点から、7dtex以下が好ましく、5dtex以下がより好ましい。同様の観点から、熱融着繊維の繊維長は30mm以上が好ましく、50mm以上がより好ましい。その上限は70mm以下が好ましく、60mm以下がより好ましい。   As described above, the fineness of the heat-sealing fiber is preferably 1.2 dtex or more, more preferably 2 dtex or more from the viewpoint of enhancing the fiber fusion property at the joint 5 and reliably fusing the fiber entanglement point of the absorbent layer 2. preferable. Further, the upper limit is preferably 7 dtex or less, more preferably 5 dtex or less, from the viewpoint of suppressing rigidity and preventing film formation to ensure a space between fibers. From the same viewpoint, the fiber length of the heat-sealing fiber is preferably 30 mm or more, and more preferably 50 mm or more. The upper limit is preferably 70 mm or less, and more preferably 60 mm or less.

また、吸収層2における、領域M1の厚み(h3)に対する、接合部5から繊維圧縮融着部24までの厚み(h4)の厚みの比率(h4/h3)は、毛管力による液引き込み性を高める観点から、0.2以上が好ましく、0.3以上がより好ましい。その上限は、液の吸収保持性を良好なものとする観点から、0.75以下が好ましく、0.65以下がより好ましい。なお、たとえ繊維圧縮融着部24が領域M1の厚み(h3)全体に及んでも(h4=h3)、繊維間の空間が保持されていれば、そこから領域M2への液拡散が可能である。   Further, the ratio (h4 / h3) of the thickness (h4) from the bonded portion 5 to the fiber compression-fused portion 24 with respect to the thickness (h3) of the region M1 in the absorbent layer 2 indicates the liquid drawing property by capillary force. From the viewpoint of enhancing, 0.2 or more is preferable, and 0.3 or more is more preferable. The upper limit is preferably 0.75 or less, more preferably 0.65 or less, from the viewpoint of improving the liquid absorption retention. In addition, even if the fiber compression fusion part 24 reaches the whole thickness (h3) of the region M1 (h4 = h3), if the space between the fibers is maintained, liquid diffusion from there to the region M2 is possible. is there.

次に、接合部5の平面形状について、図3−1及び図3−2を参照して説明する。
接合部5は、凹部12の底部頂部12tの配列に一致して形成されている。本実施形態においては、図3−1に示すとおり、接合部5は、表面層1の凸部11の間に等間隔で配置されている。より具体的には、Y方向に等間隔で配置された列をなし、この列がX方向に複数等間隔で規則的に配置されている。そして、個々の接合部5は、いずれもX方向に長い長方向形状である。これにより、肌と接する凸部11の配置を変えることなく、接合部5の面積を広く確保でき好ましい。また周囲の凸部11からすべり落ち底部頂部12tへと集束される液(矢印s1)を吸収層へと透過させる面積をできるだけ広く確保でき好ましい。
通常、接合部5の広い面積の確保は、吸収性物品の剛性を高めかねない。しかし、本実施形態では、前述のとおり、湿潤強度の高い接合部5を繊維間の空間の確保などにより剛性を低減できるため、吸収性物品全体の剛性を抑えて広い面積の確保が可能となる。
この接合部5の長さ(d)は、0.1mm以上が好ましく、0.3mm以上がより好ましい。その上限は、20mm以下が好ましく、10mm以下がより好ましい。上記下限以上とすることで、表面層と吸収層を確実に熱融着し、着用中に表面層と吸収層が剥離しなくなる。上記上限以下とすることで繊維同士が互いに熱圧着される結合部の硬化による表面層の風合い低下を抑制できる。また、接合部5の幅(e)も上記同様の理由から、0.1mm以上が好ましく、0.3mm以上がより好ましい。その上限は、20mm以下が好ましく、10mm以下がより好ましい。
Next, the planar shape of the joint portion 5 will be described with reference to FIGS. 3-1 and 3-2.
The joint portion 5 is formed so as to coincide with the arrangement of the bottom top portion 12 t of the recess 12. In the present embodiment, as shown in FIG. 3A, the joint portions 5 are arranged at regular intervals between the convex portions 11 of the surface layer 1. More specifically, there are columns arranged at equal intervals in the Y direction, and these columns are regularly arranged at equal intervals in the X direction. Each of the joint portions 5 has a long shape that is long in the X direction. Thereby, the area of the joint portion 5 can be secured widely without changing the arrangement of the convex portions 11 in contact with the skin, which is preferable. Further, it is preferable that an area through which the liquid (arrow s1) that slides from the surrounding convex portion 11 to the bottom top portion 12t is transmitted to the absorption layer can be as wide as possible.
Usually, securing a large area of the joint portion 5 may increase the rigidity of the absorbent article. However, in the present embodiment, as described above, since the rigidity of the joint portion 5 having high wet strength can be reduced by securing a space between fibers or the like, it is possible to secure a wide area by suppressing the rigidity of the entire absorbent article. .
The length (d) of the joint portion 5 is preferably 0.1 mm or more, and more preferably 0.3 mm or more. The upper limit is preferably 20 mm or less, and more preferably 10 mm or less. By setting it to the above lower limit or more, the surface layer and the absorption layer are surely heat-sealed, and the surface layer and the absorption layer do not peel off during wearing. By setting it as the upper limit or less, it is possible to suppress a decrease in the texture of the surface layer due to curing of the joint portion where the fibers are thermocompression bonded together. Further, the width (e) of the joint portion 5 is preferably 0.1 mm or more and more preferably 0.3 mm or more for the same reason as described above. The upper limit is preferably 20 mm or less, and more preferably 10 mm or less.

図3−1において、接合部5の長さ(d)は全てX方向に揃っている。また、これに限らず、Y方向に揃うようにしてもよい。たとえば、X方向が吸収性物品の長手方向で、Y方向が吸収性物品の幅方向であるときに(図4参照)、接合部5の長手方向が吸収性物品の長手方向(X方向)に一致していると、液の吸収とともに液の拡散も吸収性物品の長手方向(X方向)に誘導させ易く液の横漏れを抑制でき好ましい。他方、接合部5の長手方向が吸収性物品の幅方向(Y方向)に一致していると、吸収性物品を接合部5を基点に湾曲させ易く、装着時に着用者の股下から下腹部ないし臀部へと沿わせ易くなり好ましい。これらは用途に合わせ適宜設定可能である。   In FIG. 3A, the lengths (d) of the joint portions 5 are all aligned in the X direction. Further, the present invention is not limited to this, and they may be aligned in the Y direction. For example, when the X direction is the longitudinal direction of the absorbent article and the Y direction is the width direction of the absorbent article (see FIG. 4), the longitudinal direction of the joint 5 is the longitudinal direction (X direction) of the absorbent article. If they coincide with each other, the absorption of the liquid and the diffusion of the liquid can be easily induced in the longitudinal direction (X direction) of the absorbent article, and the lateral leakage of the liquid can be suppressed. On the other hand, when the longitudinal direction of the joint portion 5 coincides with the width direction (Y direction) of the absorbent article, the absorbent article can be easily bent with the joint portion 5 as a base point, and the wearer's crotch or lower abdomen or This is preferable because it is easy to follow the buttock. These can be appropriately set according to the application.

また、接合部5の配置は、図3−1に示すように、表面層1の凸部11の起立性を確実なものとするため、各列における接合部5のピッチを、隣り合う列同士で半ピッチすれた配列とすることが好ましい。
さらに、接合部5と重なる表面層1の凹部12の平面配置は、図3−1に示すように、4つの凹部12が1つの凸部11を囲む配置に限らず、凹凸が繰り返す配置を任意に設定できる。例えば、図3−2に示すように、1つの凸部の周囲を6つの凹部12及び接合部5が取り囲む配置などでもよい。この場合、幅方向に隣り合う2つの接合部を1組みとして接合部列の1構成要素とみなし、この構成要素が配置される列を接合部列ととらえることができる。つまり、図3−1における横長の接合部を2つに分割した組み合わせと捉えることができる。また、接合部5自体の平面形状は、円形、三角形、方形、多角形、楕円形、星型等の図形など、接合部としてとり得る形状を任意に採用できる。
In addition, as shown in FIG. 3A, the arrangement of the joint portions 5 is such that the pitch of the joint portions 5 in each row is equal to each other in order to ensure the uprightness of the convex portions 11 of the surface layer 1. It is preferable that the arrangement is half pitch away.
Furthermore, as shown in FIG. 3A, the planar arrangement of the concave portions 12 of the surface layer 1 that overlap with the joint portion 5 is not limited to the arrangement in which the four concave portions 12 surround the one convex portion 11, and any arrangement in which the concave and convex portions are repeated is arbitrary. Can be set. For example, as shown in FIG. 3B, an arrangement in which six concave portions 12 and a joint portion 5 surround one convex portion may be employed. In this case, two joint portions adjacent in the width direction can be regarded as one component of the joint row as a set, and the row in which this component is arranged can be regarded as the joint row. That is, it can be regarded as a combination in which the horizontally long joint in FIG. 3A is divided into two. In addition, as the planar shape of the joint 5 itself, a shape that can be taken as a joint, such as a circle, a triangle, a square, a polygon, an ellipse, a star, or the like, can be arbitrarily adopted.

加えて、図3−1及び図3−2に示すように、接合部5,5同士の間を区画して表面層1の凸部11,11同士を繋ぐ尾根部14が配設されている。尾根部14は、表面層1の凹部12を区画する高さを有する。そして、凸部11の内部における空間部4,4同士をつなぐ通路をなす。つまり、尾根部14によって、空間部4,4同士で液の移動が可能となり、表面層1と吸収層2との層間で液を素早く拡散させて、吸収層2の広い面積で素早く液を吸収保持することができる(図3−1の矢印S2)。この尾根部14の存在により、後述する空間部4による液の調整弁機能ないし液拡散機能をより効果的なものとできる。また、尾根部14の存在により、空間部4,4同士で空気の移動が可能となり(図3−1の矢印S2)、押し潰されても柔軟に変形し、かつ回復が容易となる。これにより良好なクッション感が持続し易い。   In addition, as shown in FIGS. 3A and 3B, a ridge portion 14 is provided that partitions the joint portions 5 and 5 and connects the convex portions 11 and 11 of the surface layer 1 to each other. . The ridge portion 14 has a height that defines the concave portion 12 of the surface layer 1. And it makes the channel | path which connects the space parts 4 and 4 in the inside of the convex part 11. FIG. That is, the ridge portion 14 allows the liquid to move between the space portions 4, 4, quickly diffuses the liquid between the surface layer 1 and the absorption layer 2, and quickly absorbs the liquid over a wide area of the absorption layer 2. Can be held (arrow S2 in FIG. 3A). Due to the presence of the ridge portion 14, a liquid regulating valve function or a liquid diffusion function by the space portion 4 described later can be made more effective. Further, the presence of the ridge portion 14 enables air to move between the space portions 4 and 4 (arrow S2 in FIG. 3A), and even when crushed, it is deformed flexibly and can be easily recovered. Thereby, a good cushion feeling tends to be sustained.

一方、接合部5が配されない領域M2においても、吸収層2の肌当接面側に熱融着繊維25が配されていることが好ましい。そして、構成繊維の交絡点が融着された熱融着部23が配設されていることが好ましい。これにより、表面層2の凸部11が肌と接触し、強い押圧を受けた場合でも、繊維間の空間が安定化する。そして、領域M1と同様に、液の通液性がされ吸収層2の下層から順に液が吸収保持される。その結果、液の肌側への逆戻りを抑制できる。この観点から、領域M1と同様に、吸収層2内に繊維密度や親水度の勾配があることが好ましい。
また、前述のとおり、接合部5で接着剤を用いず、また繊維の引き攣れが限定的なので、吸収層2の剛性が抑えられ良好なクッション感が得られる。この領域M2における熱融着繊維25は、含有率を前述の領域M1と同様とし、肌当接面側に偏在されていることが好ましい。
On the other hand, it is preferable that the heat-sealing fiber 25 is disposed on the skin contact surface side of the absorbent layer 2 also in the region M2 where the joint portion 5 is not disposed. And it is preferable that the heat sealing | fusion part 23 by which the entanglement point of the constituent fiber was fuse | melted is arrange | positioned. Thereby, even if the convex part 11 of the surface layer 2 contacts skin and receives strong press, the space between fibers is stabilized. And like the area | region M1, the liquid permeability is made, and a liquid is absorbed and hold | maintained in an order from the lower layer of the absorption layer 2. FIG. As a result, the return of the liquid to the skin side can be suppressed. From this point of view, it is preferable that the absorbent layer 2 has a gradient of fiber density and hydrophilicity as in the region M1.
In addition, as described above, no adhesive is used at the joint 5 and the twitching of the fibers is limited, so that the rigidity of the absorbent layer 2 can be suppressed and a good cushion feeling can be obtained. It is preferable that the heat-fusible fiber 25 in the region M2 has a content similar to that of the region M1 described above and is unevenly distributed on the skin contact surface side.

次に、領域M2における空間部4の液吸収性能に関する作用について説明する。
空間部4の配置により、表面凸部11aで直接受けた排泄液の一部は、裏面凹部11bにある空間部4に一旦取り込まれ、吸収層2へと引き渡される。空間部4が介在することで、排泄液の排泄量が一度に多量となった場合でも、空間部4が表面層1からの液を一時的に保持して液吸収の調整弁となり得る。そして、空間部4は、親水性繊維等からなる吸収層2とは違って保水力が低い。これにより、液を吸収層2へと素早く引き渡すことができる。このように空間部4は、液の調整弁として一時液を保持しつつもすぐに空間が回復し得るので、多量の排泄の場合のみならず、繰り返しの排泄の場合であっても、十分対応可能である。また、前述のとおり、吸収層2の肌当接面側の表面付近が繊維密度の粗な状態であれば、液透過性に優れ好ましい。
Next, the effect | action regarding the liquid absorption performance of the space part 4 in the area | region M2 is demonstrated.
Due to the arrangement of the space portion 4, a part of the excretory liquid directly received by the front surface convex portion 11 a is once taken into the space portion 4 in the back surface concave portion 11 b and delivered to the absorption layer 2. By interposing the space part 4, even when the excretion amount of the excretion liquid becomes large at a time, the space part 4 can temporarily hold the liquid from the surface layer 1 and serve as a liquid absorption adjusting valve. And the space part 4 has low water retention power unlike the absorption layer 2 which consists of hydrophilic fiber etc. As shown in FIG. Thereby, the liquid can be quickly delivered to the absorption layer 2. In this way, the space portion 4 can quickly recover the space while holding the temporary liquid as a liquid regulating valve, so that not only in the case of a large amount of excretion but also in the case of repeated excretion sufficiently Is possible. Moreover, as above-mentioned, if the surface vicinity of the skin contact surface side of the absorption layer 2 is a state with a coarse fiber density, it is excellent in liquid permeability and preferable.

また、空間部4に取り込まれた排泄液は、繊維密度の高い接合部5及び繊維圧密融着部24の周辺へも拡散して取り込まれる。つまり、空間部4は、表面層4と吸収層2との間で液を拡散し、吸収層2の広い面積で液を引き渡すことができる。また、前述の尾根部14が、空間部4同士を繋いで液をより効果的に拡散させることができる。   In addition, the excretion fluid taken into the space 4 is diffused and taken into the vicinity of the joint portion 5 and the fiber consolidation / fusion portion 24 having a high fiber density. That is, the space portion 4 can diffuse the liquid between the surface layer 4 and the absorption layer 2 and deliver the liquid over a wide area of the absorption layer 2. Moreover, the above-mentioned ridge part 14 can connect the space parts 4 and can diffuse a liquid more effectively.

一方、表面層4の肌当接面側での液拡散防止の観点では、表面層4の凹凸の繰り返しがさらに効果的な作用を奏する。図1に示すように、表面層1の肌当接面側には、すり鉢状に窪んだ表面凹部12aが複数分散配置されている。そのため、凹凸が筋状に形成される場合に比べて、表面凸部11aから流れ落ちる排泄液の捕捉性が高く、表面層4の肌当接面側での液の拡散を効果的に抑制し得る。
そして、表面凹部12aで捕捉された排泄液の一部は、凸部11と凹部12とを繋ぐ壁部13などを介して、空間部4へと素早く透過される。また同時に、接合部5ないし繊維圧密融着部24周辺の繊維密度が高められた領域から積極的に引き抜かれる。
On the other hand, from the viewpoint of preventing liquid diffusion on the skin contact surface side of the surface layer 4, the repetition of the unevenness of the surface layer 4 has a more effective action. As shown in FIG. 1, a plurality of surface recesses 12 a that are recessed in a mortar shape are dispersedly arranged on the skin contact surface side of the surface layer 1. Therefore, compared with the case where the irregularities are formed in a streak shape, the excretion liquid that flows down from the surface convex portion 11a is highly trapped, and the diffusion of the liquid on the skin contact surface side of the surface layer 4 can be effectively suppressed. .
A part of the excretory fluid captured by the surface recess 12a is quickly transmitted to the space 4 via the wall 13 connecting the projection 11 and the recess 12 or the like. At the same time, the fiber is actively pulled out from the region where the fiber density around the joint 5 or the fiber consolidation / fusion part 24 is increased.

このように、表面層1の凹凸形状、並びに吸収層2の領域M1における接合部5、及び領域M2における空間部4が相乗的に作用して、液の肌当接面側での液拡散を防止し、積極的に液を吸収層2へと取り込み、液残りや液戻りを防止して、液吸収性能の向上に貢献し得る。しかも、前述のとおり、湿潤時においても表面層1の凹凸形状が維持されるため、前記液吸収性能が持続可能である。その結果、表面層1の肌当接面側は、さらっとしたドライ感を呈し、良好な着用感が得られる。このように本発明の吸収性物品は、従来、サブレイヤやコアラップシートが担う機能までも備えるものである。つまり、本発明は、これらの従来からの部材の省略を可能とし、製造コストを抑制し、より薄型で軽量化された、吸収性能の良い吸収性物品の提供を可能とする。   As described above, the uneven shape of the surface layer 1 and the joint portion 5 in the region M1 of the absorption layer 2 and the space portion 4 in the region M2 act synergistically to cause liquid diffusion on the skin contact surface side of the liquid. It is possible to prevent, actively take in the liquid into the absorption layer 2, prevent liquid remaining and liquid return, and contribute to the improvement of the liquid absorption performance. Moreover, as described above, since the uneven shape of the surface layer 1 is maintained even when wet, the liquid absorption performance can be sustained. As a result, the skin contact surface side of the surface layer 1 exhibits a light dry feeling and a good wearing feeling is obtained. Thus, the absorbent article of this invention is equipped with even the function which a sublayer and a core wrap sheet | seat conventionally bear. In other words, the present invention makes it possible to omit these conventional members, to suppress the manufacturing cost, and to provide a thinner and lighter absorbent article with good absorption performance.

以上のとおり、凸部11が肌に柔らかく接触して優れたクッション性を得る観点から、凸部11の高さ(h6)は、1mm以上が好ましく、1.2mm以上がより好ましい。その上限は、10mm以下が好ましく、7mm以下がより好ましい。また、液吸収性能の向上させる空間部4を確保する観点から、裏面凹部11bのアーチ8の高さ(h7)は、0.9mm以上が好ましく、1.1mm以上がより好ましい。その上限は、クッション性凸部の形状安定性の観点から、8mm以下が好ましく、5mm以下がより好ましい。液拡散性を効果的なものとするべく空間部4の面積を好適なものとする観点から、凸部11の底面積は、4mm以上が好ましく、9mm以上がより好ましい。その上限は、900mm以下が好ましく、625mm以下がより好ましい。
さらに、空間部4による液吸収性能の向上の観点から、凸部11の高さ(h6)とアーチ8の高さ(h7)との比率(h7/h6)は、9/10以上が好ましく、4/5以上がより好ましい。一方、優れたクッション性の凸部11の形状維持の観点から、1/10以下が好ましく、1/5以下がより好ましい。
なお、図2に示すように、凸部11の高さ(h6)は、接合部5における凹部12の非肌当接面側(裏面凸部12b)から凸部11の頂部11aまでの高さである。また、アーチ8の高さ(h7)は、同じく裏面凸部12bから裏面凹部11bの最も肌当接面側へと窪んだ部分までの高さである。さらに、凸部11の底面積は、凸部11を囲む裏面凸部12bにおける接合部5で確定されるその内側の領域の広さである。
As described above, the height (h6) of the convex portion 11 is preferably 1 mm or more, and more preferably 1.2 mm or more, from the viewpoint that the convex portion 11 softly contacts the skin and obtains excellent cushioning properties. The upper limit is preferably 10 mm or less, and more preferably 7 mm or less. In addition, from the viewpoint of securing the space 4 for improving the liquid absorption performance, the height (h7) of the arch 8 of the back surface recess 11b is preferably 0.9 mm or more, and more preferably 1.1 mm or more. The upper limit is preferably 8 mm or less, and more preferably 5 mm or less, from the viewpoint of the shape stability of the cushioning convex portion. From the viewpoint of optimizing the area of the space portion 4 to make the liquid diffusibility effective, the bottom area of the convex portion 11 is preferably 4 mm 2 or more, and more preferably 9 mm 2 or more. The upper limit is preferably 900 mm 2 or less, 625 mm 2 or less being more preferred.
Furthermore, from the viewpoint of improving the liquid absorption performance by the space portion 4, the ratio (h7 / h6) between the height (h6) of the convex portion 11 and the height (h7) of the arch 8 is preferably 9/10 or more, 4/5 or more is more preferable. On the other hand, from the viewpoint of maintaining the shape of the convex portion 11 having excellent cushioning properties, 1/10 or less is preferable, and 1/5 or less is more preferable.
As shown in FIG. 2, the height (h6) of the convex portion 11 is the height from the non-skin contact surface side (back surface convex portion 12b) of the concave portion 12 in the joint portion 5 to the top portion 11a of the convex portion 11. It is. Similarly, the height (h7) of the arch 8 is the height from the back surface convex portion 12b to the portion of the back surface concave portion 11b that is most recessed toward the skin contact surface. Furthermore, the bottom area of the convex portion 11 is the size of the inner region determined by the joint portion 5 in the rear surface convex portion 12 b surrounding the convex portion 11.

次に、本実施形態の吸収性物品の全体構造について、その一実施形態としてのパンティライナー30を模式的に示す図4により説明する(これを拡大して2辺を断面により示しした斜視図が図1に相当する。)。ただし、本発明の吸収性物品はこの形態に限定して解釈されるものではない。本実施形態のパンティライナー30は、表面層1及び吸収層2からなる複合素材が防漏層3にホットメルト型接着剤による接合手段により接合されている。さらに吸収性物品の周辺部分においては、表面層1のみが延出され、防漏層3と熱シール、超音波シール等の接合手段、もしくは、ホットメルト型接着剤の併用により接合されている。また、着用者の排泄部に対向する排泄部対向部(縦横の中央部)を囲むように防漏溝38が形成されている。着用者に当接する表面には、凸部11が多数配設されている。これに加え、空間部4、接合部5及び繊維圧密融着部24については、既に図1〜図3を参照して詳しく説明した。   Next, the overall structure of the absorbent article of the present embodiment will be described with reference to FIG. 4 schematically showing a panty liner 30 as one embodiment thereof (a perspective view in which this is enlarged to show two sides in section) This corresponds to FIG. However, the absorbent article of the present invention is not construed as being limited to this form. In the panty liner 30 of this embodiment, a composite material composed of a surface layer 1 and an absorption layer 2 is joined to the leak-proof layer 3 by a joining means using a hot-melt adhesive. Furthermore, only the surface layer 1 is extended in the peripheral part of the absorbent article, and is bonded to the leak-proof layer 3 by a joining means such as a heat seal or an ultrasonic seal, or a hot melt adhesive. Moreover, the leak-proof groove | channel 38 is formed so that the excretion part opposing part (vertical and horizontal center part) which opposes a wearer's excretion part may be enclosed. A large number of convex portions 11 are arranged on the surface that contacts the wearer. In addition to this, the space part 4, the joint part 5, and the fiber consolidation part 24 have already been described in detail with reference to FIGS.

次に、本発明の吸収性物品の製造方法として好ましい態様を、図5〜7を参照しながら詳述する。ただし、本発明の製造方法はこれにより限定して解釈されるものではない。
図5は本発明の製造方法について、その工程の一部を模式的に示す工程説明図である。まず、原反ロール(図示せず)から表面層用シートである上層(不織布シート)42を矢印49aの方向に繰り出す。これとは別の原反ロール(図示せず)から吸収層前駆体である下層(繊維の積繊体)43を矢印49eの方向に繰り出す。下層43は、吸収層となるべく、熱融着性が発現する前の熱融着性繊維250と親水性繊維等とを積繊してなる。なお、下層43は、製造工程において搬送される前に、軽くプレスして上層42との接合面を平らに均しておくことが、後述の空間部4を良好に形成するために好ましい。
Next, a preferable aspect as a manufacturing method of the absorbent article of this invention is explained in full detail, referring FIGS. However, the production method of the present invention is not construed as being limited thereby.
FIG. 5 is a process explanatory view schematically showing a part of the process of the manufacturing method of the present invention. First, an upper layer (nonwoven fabric sheet) 42 that is a surface layer sheet is fed out in the direction of an arrow 49a from a raw fabric roll (not shown). A lower layer (fiber stack) 43, which is an absorbent layer precursor, is fed out in a direction indicated by an arrow 49e from another raw roll (not shown). The lower layer 43 is formed by stacking the heat-fusible fiber 250 and the hydrophilic fiber before the heat-fusibility is developed so as to become an absorption layer. In addition, before the lower layer 43 is conveyed in a manufacturing process, it is preferable to lightly press and level the joint surface with the upper layer 42 in order to satisfactorily form a space 4 described later.

次いで、繰り出された上層42を、周面が凹凸形状となっている第1ロール(凹凸パターンを有するエンボスロール)401と、第1のロールの凹凸形状と噛み合い形状となっている凹凸形状を周面に有する第2ロール402との噛み合わせ部に搬送する。この噛み合わせ部に上層42の不織布シートが噛み込まれて挟持され、凹部12と凸部11とが賦形される。   Next, the rolled-up upper layer 42 is wound around a first roll 401 (an embossing roll having a concavo-convex pattern) 401 having a concavo-convex shape on the peripheral surface and a concavo-convex shape meshing with the concavo-convex shape of the first roll. It conveys to the meshing part with the 2nd roll 402 which has on the surface. The nonwoven fabric sheet of the upper layer 42 is caught and held in this meshing portion, and the concave portion 12 and the convex portion 11 are shaped.

図6には、第1ロール401の部分拡大斜視図を示した。第1ロール401は、所定の歯幅を有する平歯車401a,401b,・・・を複数枚組み合わせてロール状に形成したものである。各歯車の歯幅は、所望の液吸収透過性シートの凸部の間隔に応じて定めることが好ましい。この態様においては隣り合う歯車は、その歯のピッチが半ピッチずつずれるように組み合わされている。
第1ロール401における各歯車の歯溝部には吸引孔403が形成されている。この歯溝部は、第1ロール401の周面における凹凸形状のうちの凹部に相当するものである。吸引孔403は、ブロワや真空ポンプなどの吸引源(図示せず)に通じ、図6に示すように、第1ロール401(回転方向:矢印49c)と第2ロール402(回転方向:矢印49b)との噛み合い部45から上層42と下層43との合流部46まで吸引されるように制御されている。したがって、第1ロールと第2ロールとの噛み合いによって凹凸賦形された上層42は、吸引孔403による吸引力によって第1ロール401周面に密着し、その凹凸賦形された状態が保持される。この場合、図8に示すように、隣り合う歯車間に所定の空隙Gを設けておくと、上層42に無理な伸長力や、ロールの凹凸噛み合いによる切断効果を加えることなく上層42を第1ロール401の周面に密着させられる。空隙Gは歯車の全歯たけや上層42の坪量にもよるが、上層42に破断や損傷を与えることなく密着を行うことができるため、0.1〜50mmが好ましく、0.1〜5mm程度がより好ましい。
FIG. 6 shows a partially enlarged perspective view of the first roll 401. The first roll 401 is a roll formed by combining a plurality of spur gears 401a, 401b,... Having a predetermined tooth width. The tooth width of each gear is preferably determined according to the interval between the convex portions of the desired liquid-absorbing and permeable sheet. In this embodiment, adjacent gears are combined so that the pitch of their teeth is shifted by half a pitch.
A suction hole 403 is formed in the tooth groove portion of each gear in the first roll 401. The tooth groove portion corresponds to a concave portion of the concave and convex shape on the peripheral surface of the first roll 401. The suction hole 403 communicates with a suction source (not shown) such as a blower or a vacuum pump, and as shown in FIG. 6, the first roll 401 (rotation direction: arrow 49c) and the second roll 402 (rotation direction: arrow 49b). ) And the joining portion 46 of the upper layer 42 and the lower layer 43 are controlled to be sucked. Therefore, the upper layer 42 formed with the unevenness by the meshing of the first roll and the second roll is brought into close contact with the peripheral surface of the first roll 401 by the suction force by the suction hole 403, and the uneven formed shape is maintained. . In this case, as shown in FIG. 8, if a predetermined gap G is provided between adjacent gears, the upper layer 42 can be formed in the upper layer 42 without applying an excessive stretching force or a cutting effect due to the uneven engagement of the rolls. It is brought into close contact with the peripheral surface of the roll 401. The gap G depends on the total tooth depth of the gear and the basis weight of the upper layer 42, but can adhere to the upper layer 42 without breaking or damaging, and is preferably 0.1 to 50 mm, preferably about 0.1 to 5 mm. Is more preferable.

次いで、図5に示すように、上層42を第1のロール401の周面に引きつづき密着させた状態で、合流部46で別に繰り出されている下層43を重ね合わせ、その重ね合わせたものを第1ロール401とアンビルロール404(回転方向:矢印49d)との間で挟圧し、複合シートが矢印49fの方向に得られる。この合流部46の近辺を図7に模式的に拡大した部分断面図として示した。   Next, as shown in FIG. 5, the upper layer 42 is kept in close contact with the peripheral surface of the first roll 401, and the lower layer 43 separately fed out at the junction 46 is superposed, and the superposed one is obtained. The composite sheet is obtained in the direction of the arrow 49f by pressing between the first roll 401 and the anvil roll 404 (rotation direction: arrow 49d). The vicinity of the merging portion 46 is shown as a partially enlarged cross-sectional view in FIG.

図7に示すように、第1ロール401の凸部(各歯車の歯先)51において、凸部51の熱で、上層42と下層43とが圧縮され熱融着される。その際、下層の上面側に配された熱融着性繊維250の熱融着性が発現し、上層42の不織布繊維及び下層の親水性繊維等と融着し固定される。これにより、接合部5が形成される。また、凸部51による圧縮で、下層43内部において熱融着性繊維250の熱融着性が発現し、繊維圧密融着部24が形成される。一方、接合部5及び繊維圧密融着部24の形成されない領域では、第1ロール401の凹部52に沿って窪んだ上層42と、下層43との間に空間部4が形成され、両層が非接合とされている。
また、本実施形態においては、上層42及び下層43の接合工程と、下層43における繊維圧密融着部24の形成工程とを、1回の工程で行う。つまり、第1ロール401の凸部51による圧着だけで、必要な個所に対し好適に加熱できる。これにより、工程数の増加による煩雑さや、余計な繊維融着を防止でき、上層42及び下層43の風合いを阻害しない。この点において本実施形態の製造方法は好ましい。
As shown in FIG. 7, in the convex part (tooth tip of each gear) 51 of the first roll 401, the upper layer 42 and the lower layer 43 are compressed and heat-sealed by the heat of the convex part 51. At that time, the heat-fusible fibers 250 arranged on the upper surface side of the lower layer exhibit heat-fusibility, and are fused and fixed to the nonwoven fabric fibers of the upper layer 42 and the hydrophilic fibers of the lower layer. Thereby, the junction part 5 is formed. Moreover, the compression by the convex part 51 expresses the heat-fusible property of the heat-fusible fiber 250 inside the lower layer 43, and the fiber-consolidated fusion part 24 is formed. On the other hand, in the region where the joint portion 5 and the fiber consolidation portion 24 are not formed, the space portion 4 is formed between the upper layer 42 and the lower layer 43 that are depressed along the concave portion 52 of the first roll 401, and both layers are formed. It is not joined.
Moreover, in this embodiment, the joining process of the upper layer 42 and the lower layer 43, and the formation process of the fiber consolidation part 24 in the lower layer 43 are performed by one process. That is, it is possible to suitably heat a necessary portion only by pressure bonding with the convex portion 51 of the first roll 401. Thereby, the complexity by the increase in the number of processes and an extra fiber fusion can be prevented, and the texture of the upper layer 42 and the lower layer 43 is not inhibited. In this respect, the manufacturing method of the present embodiment is preferable.

この繊維圧密融着部24を形成するにあたり、繊維圧密融着部24の確実な形成の観点から、第1ロール410の凸部分を吸収層前駆体(下層43)の表面から一定深さまでくい込ませて、表面層用シート(上層42)が吸収層前駆体(下層43)の表面から一定深さの位置で接触するようにすることが好ましい。   In forming the fiber-consolidated fusion part 24, from the viewpoint of reliable formation of the fiber-consolidated fusion part 24, the convex portion of the first roll 410 is inserted from the surface of the absorbent layer precursor (lower layer 43) to a certain depth. Thus, it is preferable that the surface layer sheet (upper layer 42) is in contact with the surface of the absorbent layer precursor (lower layer 43) at a certain depth.

次いで、図示しないが、上層42及び下層43が接合された複合体に対し、上層42側から熱風を吹き付けて、繊維の熱風回復処理を行う。この熱風回復処理においては、上層42の不織布の繊維の嵩高さが回復するとともに、下層43の接合部5以外の肌当接面側において、熱融着性繊維250の熱融着性が発現する。これにより、下層43の接合部5以外の部分において、繊維間の空間が安定化した繊維融着部23が形成される。そして、下層43は全体としてシート状吸収体となる。   Next, although not shown in the drawing, hot air is blown from the upper layer 42 side to the composite body in which the upper layer 42 and the lower layer 43 are joined to perform a hot air recovery process on the fibers. In this hot air recovery treatment, the bulkiness of the nonwoven fabric fibers of the upper layer 42 is recovered, and the heat-fusibility of the heat-fusible fibers 250 is expressed on the skin contact surface side other than the joint portion 5 of the lower layer 43. . Thereby, in parts other than the junction part 5 of the lower layer 43, the fiber melt | fusion part 23 in which the space between fibers was stabilized is formed. And the lower layer 43 becomes a sheet-like absorber as a whole.

その後、本発明の吸収性物品の製造方法においては、上層(表面層用シート)42と下層(吸収層前駆体)43とを一体化した複合シート41に防漏シートを積層する。このとき防漏シートは、下層43の上層42を付されていない側に積層される。これにより例えば図1に示したような、表面層、吸収層、及び防漏層の設けられた吸収性物品の構成が得られる。
このようにして、本発明の製造方法によれば、吸収性物品に用いられる複合素材に、優れた液体吸収機能と、柔らかなふんわり感とを与えることができる。具体的には例えば、図1に示した実施形態のような優れた機能を発揮しうる吸収性物品を連続した工程で効率的に製造することができる。
Then, in the manufacturing method of the absorbent article of this invention, a leak-proof sheet | seat is laminated | stacked on the composite sheet 41 which integrated the upper layer (sheet for surface layer) 42 and the lower layer (absorption layer precursor) 43. FIG. At this time, the leak-proof sheet is laminated on the side not provided with the upper layer 42 of the lower layer 43. Thereby, for example, the configuration of the absorbent article provided with the surface layer, the absorption layer, and the leak-proof layer as shown in FIG. 1 is obtained.
Thus, according to the manufacturing method of the present invention, an excellent liquid absorbing function and a soft soft feeling can be given to the composite material used in the absorbent article. Specifically, for example, an absorbent article that can exhibit an excellent function as in the embodiment shown in FIG. 1 can be efficiently manufactured in a continuous process.

次に、本発明の吸収性物品に用いられる部材の好ましい形成素材について説明する。   Next, the preferable forming material of the member used for the absorbent article of the present invention will be described.

表面層1、吸収層2及び防漏層3の形成材料としては、この種の物品に採用されるものを特に制限なく用いることができる。   As a material for forming the surface layer 1, the absorption layer 2, and the leak-proof layer 3, those employed for this type of article can be used without particular limitation.

例えば、表面層1は、排泄された体液を速やかに吸収し、吸収体に伝達する観点と肌触りのよさの観点とから親水性のサーマルボンド不織布が好ましく、特にエアスルー不織布が好ましい。表面層1には親水化処理された熱可塑性樹脂繊維であり、かつ、該繊維が2次クリンプ又は3次クリンプのような立体捲縮がなされた繊維が含まれることが好ましい。具体的には、ポリエチレン、ポリプロピレン、ポリエステル、ナイロン、及びこれらの複合繊維を作成し、所定の長さにカットしてステープルを形成する前の段階で、各種親水化剤を塗工する。親水化剤としては、αオレフィンスルホン酸塩に代表される各種アルキルスルホン酸塩、アクリル酸塩、アクリル酸塩/アクリルアミド共重合体、エステルアミド、エステルアミドの塩、ポリエチレングリコール及びその誘導物、水溶性ポリエステル樹脂、各種シリコーン誘導物、各種糖類誘導物、及びこれらの混合物など、当業者公知の親水化剤による親水化処理を用いることができる。   For example, the surface layer 1 is preferably a hydrophilic thermal bond nonwoven fabric from the viewpoint of promptly absorbing excreted bodily fluid and transmitting it to the absorbent body and from the viewpoint of good touch, and particularly preferably an air-through nonwoven fabric. It is preferable that the surface layer 1 is a thermoplastic resin fiber that has been subjected to a hydrophilic treatment, and that the fiber includes a steric crimped fiber such as a secondary crimp or a tertiary crimp. Specifically, polyethylene, polypropylene, polyester, nylon, and composite fibers thereof are prepared, and various hydrophilizing agents are applied at a stage before cutting into a predetermined length to form staples. Hydrophilic agents include various alkyl sulfonates represented by α-olefin sulfonates, acrylates, acrylate / acrylamide copolymers, ester amides, ester amide salts, polyethylene glycol and derivatives thereof, water-soluble Hydrophilic treatment with a hydrophilizing agent known to those skilled in the art, such as a reactive polyester resin, various silicone derivatives, various sugar derivatives, and mixtures thereof, can be used.

防漏層3としては、防水性があり透湿性を有していれば特に限定されないが、例えば、疎水性の熱可塑性樹脂と、炭酸カルシウム等からなる微小な無機フィラー又は相溶性のない有機高分子等とを溶融混練してフィルムを形成し、該フィルムを一軸又は二軸延伸して得られる多孔性フィルムが挙げられる。前記熱可塑性樹脂としては、ポリオレフィンが挙げられる。該ポリオレフィンとしては、高〜低密度ポリエチレン、線状低密度ポリエチレン、ポリプロピレン、ポリブテン等が挙げられ、これらを単独で又は混合して用いることができる。   The leak-proof layer 3 is not particularly limited as long as it has waterproofness and moisture permeability, but for example, a hydrophobic inorganic resin and a minute inorganic filler made of calcium carbonate or the like, or an organic high compatibility material. Examples include a porous film obtained by melt-kneading molecules and the like to form a film, and uniaxially or biaxially stretching the film. Examples of the thermoplastic resin include polyolefin. Examples of the polyolefin include high to low density polyethylene, linear low density polyethylene, polypropylene, polybutene and the like, and these can be used alone or in combination.

吸収層2における熱融着繊維としては、この種の物品に用いられるものを任意に作用できる。例えばポリエチレン系繊維やポリプロピレン系繊維、ポリエチレンテレフタレート系繊維、ポリアミド系繊維が挙げられる。また、芯鞘型複合繊維やサイドバイサイド型複合繊維を用いることもできる。   As the heat-fusible fiber in the absorbent layer 2, those used for this type of article can be used arbitrarily. Examples thereof include polyethylene fibers, polypropylene fibers, polyethylene terephthalate fibers, and polyamide fibers. A core-sheath type composite fiber or a side-by-side type composite fiber can also be used.

熱融着繊維以外の吸収層2の構成素材としては、親水性繊維、該親水性繊維と高吸水性ポリマー粒子との混合物、または、親水性繊維と高吸水性ポリマー粒子と熱可塑性合成樹脂繊維との混合物などが挙げられる。親水性繊維としては、親水性表面を有する繊維を用いることができ、例えば天然パルプ繊維やレーヨン繊維等、合成繊維を必要に応じ界面活性剤等により親水化処理したものが挙げられる。具体的には、例えば、木材パルプ、木綿パルプ及びワラパルプ等の天然セルロース繊維、レーヨン及びキュプラ等の再生セルロース繊維、ポリビニルアルコール繊維及びポリアクリロニトリル繊維等の親水性合成繊維などが挙げられ、これらを複数と組み合わせてもよい。ポリマー粒子としては、デンプン系、セルロース系、合成ポリマー系のものを使用することができる。
本実施形態のように吸収層をシート状吸収体とする場合、親水性繊維がパルプ繊維からなるエアレイド吸収体であることが、湿潤時の保形性や圧力下での液吸収速度の観点から好ましい。
The constituent material of the absorbent layer 2 other than the heat-sealing fibers includes hydrophilic fibers, a mixture of the hydrophilic fibers and superabsorbent polymer particles, or hydrophilic fibers, superabsorbent polymer particles and thermoplastic synthetic resin fibers. And a mixture thereof. As the hydrophilic fiber, a fiber having a hydrophilic surface can be used. For example, a synthetic fiber such as natural pulp fiber or rayon fiber, which has been subjected to a hydrophilic treatment with a surfactant or the like as necessary, can be mentioned. Specific examples include natural cellulose fibers such as wood pulp, cotton pulp and straw pulp, regenerated cellulose fibers such as rayon and cupra, and hydrophilic synthetic fibers such as polyvinyl alcohol fibers and polyacrylonitrile fibers. And may be combined. As the polymer particles, starch-based, cellulose-based or synthetic polymer-based particles can be used.
When the absorbent layer is a sheet-like absorber as in the present embodiment, the hydrophilic fiber is an air-laid absorber composed of pulp fibers, from the viewpoint of the shape retention property when wet and the liquid absorption rate under pressure. preferable.

本発明の吸収性物品は、上記の実施形態の生理用ナプキンのほか、失禁パッド、失禁ライナ、使い捨ておむつや尿とりパッド等に適応することができる。また、吸収性物品として適用される形態に併せて、前記の構成部材にその他の部材を組み合わせることもできる。例えば、使い捨ておむつにおいて、防漏層の外側に柔らかな不織布を配して肌触りを良くしたりしてもよい。また、生理用ナプキンや使い捨ておむつにおいて、表面層の両側にサイドシートを配して起立ギャザーを設けてもよい。   The absorbent article of the present invention can be applied to an incontinence pad, an incontinence liner, a disposable diaper, a urine collection pad and the like in addition to the sanitary napkin of the above-described embodiment. Moreover, according to the form applied as an absorbent article, another member can also be combined with the said structural member. For example, in a disposable diaper, a soft non-woven fabric may be provided outside the leak-proof layer to improve the touch. Further, in sanitary napkins and disposable diapers, standing gathers may be provided by arranging side sheets on both sides of the surface layer.

上述した実施形態に関し、本発明はさらに以下の吸収性物品及びその製造方法を開示する。   This invention discloses the following absorbent articles and its manufacturing method further regarding embodiment mentioned above.

<1>肌当接面側に配置された液透過性の表面層、非肌当接面側に配置された液難透過性の防漏層、及び前記表面層と前記防漏層との間に配置された液保持性の吸収層を有する吸収性物品であって、前記吸収層は、熱融着繊維と親水性繊維とを有し、前記表面層は、肌当接面側及び非肌当接面側を一体的に厚み方向に賦形させた複数の凸部及び凹部を有し、該凸部及び凹部が平面視交差する異なる方向において交互に隣接して配されて凹凸形状をなし、前記表面層の凸部の非肌当接面側はアーチを形成し、前記吸収層との間に空間部が配されており、前記アーチとこれに隣接するアーチを繋いで平面視分散配置された前記凹部の非肌当接面側においてのみ、前記吸収層との接合部が配設されており、該接合部においては、前記熱融着繊維の熱融着性により前記表面層と前記吸収層とが融着固定されており、前記表面層は、前記凸部の頂部から前記凹部へ向かって繊維密度が高くなっている吸収性物品。 <1> A liquid-permeable surface layer disposed on the skin contact surface side, a liquid-impermeable leak-proof layer disposed on the non-skin contact surface side, and between the surface layer and the leak-proof layer An absorbent article having a liquid-retaining absorbent layer disposed on the skin, wherein the absorbent layer has heat-fusible fibers and hydrophilic fibers, and the surface layer includes a skin contact surface side and a non-skin It has a plurality of convex portions and concave portions formed integrally in the thickness direction on the contact surface side, and the convex portions and concave portions are arranged alternately adjacent to each other in different directions intersecting in plan view to form an uneven shape. Further, the non-skin contact surface side of the convex portion of the surface layer forms an arch, and a space is disposed between the absorption layer and the arch and the arch adjacent thereto are connected to each other in a plan view dispersed arrangement. The bonded portion with the absorbent layer is disposed only on the non-skin contact surface side of the recessed portion, and the heat of the heat-fusible fiber is provided at the bonded portion. And the absorbent layer and the surface layer by wear properties are fused fixed, the surface layer, the absorbent article fiber density toward the recess from the top of the convex portions is high.

<2>前記熱融着繊維が前記吸収層の肌当接面側に偏在している<1>記載の吸収性物品。
<3>前記表面層の繊維、前記吸収層の肌当接面側の繊維、該吸収層の非肌当接面側の繊維の順に親水度が高くなっている<1>又は<2>記載の吸収性物品。
<4>前記接合部において、前記表面層及び前記吸収層の構成繊維がともに繊維間空間を保持している<1>〜<3>の何れか1に記載の吸収性物品。
<5>前記表面層において、前記凸部の肌当接面側は頂部を有するドーム形状であり、前記凹部の肌当接面側は該凹部を囲む複数の前記凸部から底部頂部へと至る窪み形状である<1>〜<4>の何れか1に記載の吸収性物品。
<6>前記表面層の凸部は、アーチの高さが0.9〜8mmで、底面積が4〜900mmであり、前記個々の接合部は、長方形状で、その長手方向をいずれも吸収性物品の幅方向又は長手方向に揃えて配しており、該長方形状の長さが0.1〜20mmで、幅が0.1〜20mmである<1>〜<5>の何れか1に記載の吸収性物品。
<7>前記表面層と前記吸収層との接合部は、前記吸収性物品の長手方向に等間隔で配置された列をなし、該列が幅方向に複数列配置されており、前記接合部の列は隣り合う列と半ピッチずれた配置とされている<1>〜<6>の何れか1に記載の吸収性物品。
<8>前記接合部の直下に、熱融着繊維と親水性繊維の交絡部が熱融着された繊維圧密融着部が存在する、<1>〜<7>の何れか1に記載の吸収性物品。
<9>前記接合部は長方形形状である<1>〜<8>の何れか1に記載の吸収性物品。
<10>前記吸収層は、構成繊維である熱融着繊維に親水性繊維が融着接合されてなるシート体である<1>〜<9>の何れか1に記載の吸収性物品。
<11>前記シート体は、前記親水性繊維がパルプ繊維からなるエアレイド吸収体である<10>記載の吸収性物品。
<11>前記凸部の高さと前記アーチの高さとの比(前者/後者)が9/10以上、4/5以下である<1>〜<10>の何れか1に記載の吸収性物品。
<12>前記吸収層が熱収縮性繊維を含まない<1>〜<11>の何れか1に記載の吸収性物品。
<13>前記吸収層に、高吸水性ポリマーが含有されている<1>〜<12>の何れか1に記載の吸収性物品。
<14>前記表面層には親水化処理された熱可塑性樹脂繊維で、かつ該繊維が立体捲縮がなされた繊維が含まれて構成される、<1>〜<13>の何れか1に記載の吸収性物品。
<15>前記吸収性物品がパンティライナーである<1>〜<14>の何れか1に記載の吸収性物品。
<16>周面が凹凸形状となっている第1のロールと、該第1のロールの凹凸形状と噛み合い形状となっている凹凸形状を周面に有する第2のロールとの噛み合わせ部に、表面層用シートを搬送、挟持させて、該シートに凹部と凸部を賦形する工程と、
前記賦形後の表面層用シートを前記第1ロールの周面に密着させた状態で、該表面層用シートを、前記第1ロールの凸部においてのみ、熱融着繊維を含有する吸収層前駆体に接触させ、前記第1ロールの凸部の熱によって前記接触部分の前記表面層用シートと前記吸収層とを融着する工程と、を有する、表面層と吸収層とを備えた吸収性物品の製造方法。
<17>前記第1のロールの凸部分を前記吸収層前駆体の表面から一定深さまでくい込ませて、前記表面層用シートの前記凸部が吸収層前駆体の表面から一定深さの位置で接触するようにする<16>記載の製造方法。
<2> The absorbent article according to <1>, wherein the heat-sealing fibers are unevenly distributed on the skin contact surface side of the absorbent layer.
<3> The <1> or <2> description, wherein the hydrophilicity increases in the order of the fibers of the surface layer, the fibers on the skin contact surface side of the absorbent layer, and the fibers on the non-skin contact surface side of the absorbent layer. Absorbent articles.
<4> The absorbent article according to any one of <1> to <3>, in which the constituent fibers of the surface layer and the absorbent layer both maintain an inter-fiber space in the joint portion.
<5> In the surface layer, the skin contact surface side of the convex portion has a dome shape having a top portion, and the skin contact surface side of the concave portion extends from the plurality of convex portions surrounding the concave portion to the bottom top portion. The absorbent article according to any one of <1> to <4>, which has a hollow shape.
<6> The convex portion of the surface layer has an arch height of 0.9 to 8 mm and a bottom area of 4 to 900 mm 2 , and each of the joint portions has a rectangular shape, and the longitudinal direction thereof is all Any one of <1> to <5>, which is arranged in the width direction or the longitudinal direction of the absorbent article, has a rectangular length of 0.1 to 20 mm, and a width of 0.1 to 20 mm. 2. The absorbent article according to 1.
<7> The joint portion between the surface layer and the absorbent layer has a row arranged at equal intervals in the longitudinal direction of the absorbent article, and the plurality of rows are arranged in the width direction, and the joint portion The absorbent article according to any one of <1> to <6>, wherein the row is arranged so as to be shifted by a half pitch from the adjacent row.
<8> Directly below the joint, there is a fiber-consolidated fusion part in which an entangled part of the thermal fusion fiber and the hydrophilic fiber is thermally fused, according to any one of <1> to <7>. Absorbent article.
<9> The absorbent article according to any one of <1> to <8>, wherein the joint portion has a rectangular shape.
<10> The absorbent article according to any one of <1> to <9>, wherein the absorbent layer is a sheet formed by fusion-bonding hydrophilic fibers to heat-fusible fibers that are constituent fibers.
<11> The absorbent article according to <10>, wherein the sheet body is an airlaid absorbent body in which the hydrophilic fibers are pulp fibers.
<11> The absorbent article according to any one of <1> to <10>, wherein a ratio of the height of the convex portion to the height of the arch (the former / the latter) is 9/10 or more and 4/5 or less. .
<12> The absorbent article according to any one of <1> to <11>, wherein the absorbent layer does not include heat-shrinkable fibers.
<13> The absorbent article according to any one of <1> to <12>, wherein the absorbent layer contains a superabsorbent polymer.
<14> Any one of <1> to <13>, in which the surface layer includes a thermoplastic resin fiber that has been subjected to a hydrophilic treatment, and the fiber includes a sterically crimped fiber. The absorbent article as described.
<15> The absorbent article according to any one of <1> to <14>, wherein the absorbent article is a panty liner.
<16> In a meshing portion between a first roll having a concavo-convex shape on the peripheral surface and a second roll having a concavo-convex shape meshing with the concavo-convex shape of the first roll on the peripheral surface A step of conveying and sandwiching the sheet for the surface layer, and forming a concave portion and a convex portion on the sheet;
In a state where the surface layer sheet after shaping is in close contact with the peripheral surface of the first roll, the surface layer sheet is absorbed only in the convex portion of the first roll. A step of contacting the precursor and fusing the sheet for the surface layer of the contact portion and the absorbent layer by heat of the convex portion of the first roll, the absorption comprising the surface layer and the absorbent layer A method for producing a functional article.
<17> The convex portion of the first roll is inserted from the surface of the absorbent layer precursor to a certain depth, and the convex portion of the surface layer sheet is located at a certain depth from the surface of the absorbent layer precursor. <16> The production method according to <16>, wherein contact is made.

1 表面層(不織布シート)
11 凸部
11t 凸部の頂部
11a 表面凸部
11b 裏面凹部
12 凹部
12t 凹部の底部頂部
12a 表面凹部
12b 裏面凸部
13 壁部
2 吸収層(繊維の積繊体)
25 熱融着繊維
250 熱融着性繊維
23 繊維融着部(領域M2において)
24 繊維圧密融着部(領域M1において)
3 防漏層
4 空間部
5 接合部
8 アーチ
41 複合シート
42 上層(表面層用シート)
43 下層(吸収層前駆体)
401 第1ロール(エンボスロール)
402 第2ロール(噛み合いロール)
403 吸引孔
404 アンビルロール
51 第1ロールの凸部
52 第1ロールの凹部
1 Surface layer (nonwoven fabric sheet)
11 convex part 11t top part 11a of convex part surface convex part 11b back surface concave part 12 concave part 12t bottom part top part 12a of concave part surface concave part 12b rear surface convex part 13 wall part 2 absorbent layer (fiber pile)
25 heat-sealable fiber 250 heat-sealable fiber 23 fiber fusion part (in region M2)
24 Fiber-consolidated fusion part (in region M1)
3 Leakproof layer 4 Space 5 Joint 8 Arch 41 Composite sheet 42 Upper layer (surface layer sheet)
43 Lower layer (absorption layer precursor)
401 First roll (embossing roll)
402 2nd roll (meshing roll)
403 Suction hole 404 Anvil roll 51 Convex part 52 of first roll Concave part of first roll

Claims (9)

肌当接面側に配置された液透過性の表面層、非肌当接面側に配置された液難透過性の防漏層、及び前記表面層と前記防漏層との間に配置された液保持性の吸収層を有する吸収性物品であって、
前記吸収層は、熱融着繊維と親水性繊維とを有し、
前記表面層は、肌当接面側及び非肌当接面側を一体的に厚み方向に賦形させた複数の凸部及び凹部を有し、該凸部及び凹部が平面視交差する異なる方向において交互に隣接して配されて凹凸形状をなし、
前記表面層の凸部の非肌当接面側はアーチを形成し、前記吸収層との間に空間部が配されており、前記アーチとこれに隣接するアーチを繋いで平面視分散配置された前記凹部の非肌当接面側においてのみ、前記吸収層との接合部が配設されており、該接合部においては、前記熱融着繊維の熱融着性により前記表面層と前記吸収層とが融着固定されており、前記表面層は、前記凸部の頂部から前記凹部へ向かって繊維密度が高くなっている吸収性物品。
A liquid-permeable surface layer disposed on the skin contact surface side, a liquid-impermeable leak-proof layer disposed on the non-skin contact surface side, and disposed between the surface layer and the leak-proof layer An absorbent article having a liquid-retaining absorbent layer,
The absorption layer has a heat-fusible fiber and a hydrophilic fiber,
The surface layer has a plurality of convex portions and concave portions in which the skin contact surface side and the non-skin contact surface side are integrally formed in the thickness direction, and the convex portions and the concave portions in different directions intersecting in plan view. Are arranged adjacent to each other in an uneven shape,
The non-skin contact surface side of the convex portion of the surface layer forms an arch, and a space is disposed between the absorption layer and the arch and the arch adjacent thereto are connected in a plan view dispersedly arranged. Further, a joint portion with the absorbent layer is disposed only on the non-skin contact surface side of the concave portion, and in the joint portion, the surface layer and the absorption layer are formed by the heat fusion property of the heat fusion fiber. An absorbent article in which a layer is fused and fixed, and the surface layer has a fiber density that increases from the top of the convex portion toward the concave portion.
前記熱融着繊維が前記吸収層の肌当接面側に偏在している請求項1記載の吸収性物品。   The absorptive article according to claim 1 in which said heat fusion fiber is unevenly distributed in the skin contact surface side of said absorption layer. 前記表面層の繊維、前記吸収層の肌当接面側の繊維、該吸収層の非肌当接面側の繊維の順に親水度が高くなっている請求項1又は2記載の吸収性物品。   The absorbent article according to claim 1 or 2, wherein the hydrophilicity increases in the order of the fibers of the surface layer, the fibers on the skin contact surface side of the absorption layer, and the fibers on the non-skin contact surface side of the absorption layer. 前記接合部において、前記表面層及び前記吸収層の構成繊維がともに繊維間空間を保持している請求項1〜3のいずれか1項に記載の吸収性物品。   The absorptive article according to any one of claims 1 to 3 in which the constituent fiber of said surface layer and said absorption layer holds the space between fibers in said junction part. 前記表面層において、前記凸部の肌当接面側は頂部を有するドーム形状であり、前記凹部の肌当接面側は該凹部を囲む複数の前記凸部から底部頂部へと至る窪み形状である請求項1〜4のいずれか1項に記載の吸収性物品。   In the surface layer, the skin contact surface side of the convex portion is a dome shape having a top portion, and the skin contact surface side of the concave portion is a hollow shape extending from the plurality of convex portions surrounding the concave portion to the bottom top portion. The absorbent article according to any one of claims 1 to 4. 前記表面層と前記吸収層との接合部は、前記吸収性物品の長手方向に等間隔で配置された列をなし、該列が幅方向に複数列配置されており、前記接合部の列は隣り合う列と半ピッチずれた配置とされている請求項1〜5のいずれか1項に記載の吸収性物品。   The joint portion between the surface layer and the absorbent layer forms a row arranged at equal intervals in the longitudinal direction of the absorbent article, the row is arranged in a plurality of rows in the width direction, the row of the joint portion is The absorbent article according to any one of claims 1 to 5, wherein the absorbent article is arranged at a position shifted by a half pitch from adjacent rows. 前記吸収層は、構成繊維である熱融着繊維に親水性繊維が融着接合されてなるシート体である請求項1〜6のいずれか1項に記載の吸収性物品。   The absorbent article according to any one of claims 1 to 6, wherein the absorbent layer is a sheet formed by fusion-bonding hydrophilic fibers to heat-fusible fibers that are constituent fibers. 周面が凹凸形状となっている第1のロールと、該第1のロールの凹凸形状と噛み合い形状となっている凹凸形状を周面に有する第2のロールとの噛み合わせ部に、表面層用シートを搬送、挟持させて、該シートに凹部と凸部を賦形する工程と、
前記賦形後の表面層用シートを前記第1ロールの周面に密着させた状態で、該表面層用シートを、前記第1ロールの凸部においてのみ、熱融着繊維を含有する吸収層前駆体に接触させ、前記第1ロールの凸部の熱によって前記接触部分の前記表面層用シートと前記吸収層とを融着する工程と、を有する、表面層と吸収層とを備えた吸収性物品の製造方法。
A surface layer is formed on a meshing portion between a first roll having a concavo-convex shape on the peripheral surface and a second roll having a concavo-convex shape meshing with the concavo-convex shape of the first roll on the peripheral surface. Conveying and sandwiching the sheet for forming, and forming the concave and convex portions on the sheet;
In a state where the surface layer sheet after shaping is in close contact with the peripheral surface of the first roll, the surface layer sheet is absorbed only in the convex portion of the first roll. A step of contacting the precursor and fusing the sheet for the surface layer of the contact portion and the absorbent layer by heat of the convex portion of the first roll, the absorption comprising the surface layer and the absorbent layer A method for producing a functional article.
前記第1のロールの凸部分を前記吸収層前駆体の表面から一定深さまでくい込ませて、前記表面層用シートの前記凸部が吸収層前駆体の表面から一定深さの位置で接触するようにする請求項8記載の製造方法。   The convex portion of the first roll is inserted from the surface of the absorbent layer precursor to a certain depth so that the convex portion of the surface layer sheet contacts at a certain depth from the surface of the absorbent layer precursor. The manufacturing method of Claim 8.
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