JP4198314B2 - Absorber, manufacturing method thereof, and absorbent article provided with the absorber - Google Patents

Description

【０１０３】
さらに、これら製造した吸収体について下記の試験を行った。また試験結果を表２に示す。
【０１０４】
＜吸収体シート性能測定試験＞
（吸収量測定…その１）
（１） １００ｍｍ×１５０ｍｍにカットした吸収体を不織布で包んで周囲をシールし、サンプルとする。
（２） サンプルを３０分間人工尿に浸漬する。
（３） サンプルを網の上で３分間水切りし、重量（ａ）を測定する。
（４） さらにサンプルを２０ｇ／ｃｍ²荷重下で３分間水切りし、重量（ｂ）を測定する。
（５） サンプルから吸収体を取り出し、残った不織布の重量（ｃ）を測定し、次式に従って、常圧下で吸収し常圧下で水切りした後の吸収量Ａと、常圧下で吸収し荷重下で水切りした後の吸収量Ｂとをそれぞれ算出する。
吸収量Ａ（ｃｃ／ｃｍ²）＝（ａ−ｃ）／１５０
吸収量Ｂ（ｃｃ／ｃｍ²）＝（ｂ−ｃ）／１５０
【０１０５】
（吸収量測定…その２）
（１） １００ｍｍ×１５０ｍｍにカットした吸収体を不織布で包んで周囲をシールし、サンプルとする。
（２） サンプルに２０ｇ／ｃｍ²の荷重をかけた状態で、３０分間人工尿に浸漬する。
（３） サンプルを人工尿中から取り出し、そのままの状態で３分間水切りし、重量（ｄ）を測定する。
（４） サンプルから吸収体を取り出し、残った不織布の重量（ｅ）を測定し、次式に従って、荷重下で吸収し荷重下で水切りした後の吸収量Ｃを算出する。
吸収量Ｃ（ｃｃ／ｃｍ²）＝（ｄ−ｅ）／１５０
【０１０６】
（吸収速度の測定）
（１） １００ｍｍ×１５０ｍｍにカットした吸収体をサンプルとしてテーブル上に置く。
（２） 内径２７ｍｍの円筒器具(支持部１５０ｍｍ×１５０ｍｍ)をサンプル中央に置く。
（３） 円筒器具に重りを乗せる。合計でＡ：６００ｇ（４ｇ／ｃｍ²）の場合、およびＢ：３．０ｋｇ（２０ｇ／ｃｍ²）の場合の両方について本試験を行う。
（４）人工尿を注入し、吸収速度を測定する。人工尿の注入は、４０ｃｃの量を１０分間隔で３回行う。
【０１０７】
＜おむつ性能測定試験＞
（４５度液流れ試験）
（１） １００ｍｍ×３００ｍｍにカットした吸収体にセカンドシート・トップシートを乗せ、四方をシールしてサンプルとする。
（２） ４５度の傾斜板にサンプルを張り付け、上から５０ｍｍの位置に印をつける。
（３） 表面流れ測定用注入容器をセットし、印位置に対して１０ｍｍの高さから１２．５ｃｃ／秒で滴下する。人工尿の滴下は、５０ｃｃの量を１０分間隔で４回行う。
（４） 表面流れ距離を測定し、５分後に吸収体内の拡散距離（印からの距離）を測定する。
【０１０８】
（ストライクスルー／逆戻り試験）
（１） １００ｍｍ×３００ｍｍにカットした吸収体にセカンドシート・トップシートを乗せ、四方をシールしてサンプルとする。
（２） 内径２７ｍｍの円筒器具（支持部１５０ｍｍ×１５０ｍｍ）をサンプル中央に置く。円筒器具は、必要に応じて加重する。
（３） 人工尿を滴下し、吸収速度を測定する。人工尿の滴下は、５０ｃｃの量を１０分間隔で３回行う。
（４） ５分後に吸収体内の拡散距離を測定する。
（５） ３回目の滴下の１０分後、キッチンペーパー（２ｐｌｙ品３枚重ね４つ折り）を乗せ、５ｋｇの重りで１０秒間荷重を加えて逆戻り量を測定する。
【０１０９】
（吸収速度）
（１） １２０ｍｍ×３００ｍｍにカットした吸収体にセカンドシート・トップシートを乗せ、四方をシールしてサンプルとする。
（２） サンプルをＵ字器具にセットする。
（３） サンプルをセットしたＵ字器具をハンモックに装着し、５００ｇの重りを２個乗せる。
（４） 人工尿１００ｃｃを注入し、吸収速度を測定する。
（５） 拡散距離測定後すぐに、再び人口尿１００ｃｃを注入する。
（６） 注入時に吸収速度を測定し、１０分後に吸収体内の拡散距離を測定する。
【０１１０】
【表２】

【０１１１】
【発明の効果】
以上のとおり本発明によれば、薄型化を図りながらも、薄型化していない従来のものと同等の吸収性能を発揮できる吸収体となる。また吸収体の腰度を所定範囲とすることにより、十分な柔軟性を兼ね備えた吸収性物品となる。
【図面の簡単な説明】
【図１】 剛度試験の要領図である。
【図２】 穴加工吸収体を模式的に示した縦断面図である。
【図３】 穴加工吸収体を模式的に示した平面図である。
【図４】 （Ａ）は貫通穴の形態を示す要部拡大縦断面図であり、（Ｂ）は窪み穴の形態を示す要部拡大縦断面図である。
【図５】 穴加工処理装置の概要図である。
【図６】 穴加工処理の要部拡大縦断面図である。
【図７】 本発明に係る製造装置の概要図である
【図８】 ベルトコンベアのベルトの要部平面図である。
【図９】 ドラムタイプエアレイ装置の正面図である。
【図１０】 （ａ）は本発明に係る薄型吸収体を適用した吸収性物品の要部拡大縦断面図であり、（ｂ）は薄型化していない吸収体を適用した吸収性物品の要部拡大縦断面図である。
【図１１】 用語説明のための、パンツ型おむつの第１の実施形態の展開状態の使用面側からの平面図である。
【図１２】 パンツ型おむつの第１の実施形態の展開状態の使用面側からの平面図である。
【図１３】 図１２の５−５線矢視図である。
【図１４】 使用状態斜視図である。
【図１５】 パンツ型おむつの第２の実施形態の展開状態の使用面側からの平面図である。
【図１６】 パンツ型おむつの第２の実施形態の要部斜視図である。
【図１７】 パンツ型おむつの第３の実施形態の展開状態の使用面側からの平面図である。
【図１８】 パンツ型おむつの第３の実施形態の要部斜視図である。
【図１９】 パンツ型おむつの第４の実施形態の展開状態の使用面側からの平面図である。
【図２０】 伸縮部材の配設形態の説明図である。
【図２１】 製品表裏のデザイン例を示す図である。
【図２２】 他の実施形態の展開状態の使用面側からの平面図である。
【図２３】 別の実施形態の展開状態の使用面側からの平面図である。
【図２４】 さらに別の実施形態の展開状態の使用面側からの平面図である。
【図２５】 整形伸縮部材を設けた形態の展開状態の使用面側からの平面図である。
【図２６】 整形伸縮部材を設けた形態の展開状態の使用面側からの平面図である。
【図２７】 テープ式紙おむつの第１の実施形態の展開状態の使用面側からの平面図である。
【図２８】 その５−５線相当位置矢示図である。
【図２９】 テープ式紙おむつの第２の実施形態の展開状態の使用面側からの平面図である。
【図３０】 その５−５線相当位置矢示図である。
【図３１】 別の伸縮部材を設けた実施形態の展開状態の使用面側からの平面図である。
【図３２】 他の伸縮部材を設けた実施形態の展開状態の使用面側からの平面図である。
【図３３】 股間幅の好適な例を示す紙おむつの使用状態正面図である。
【図３４】 加圧下吸収試験の要領図である。
【符号の説明】
１０１…吸収体、１０２…穴、１３０…吸収体製造装置、１３１…無端ベルトコンベア、１３２…散布シュート、１３３…吸引装置、１３４…加熱加圧ロール群、１３５…巻取りロール、Ｓ…吸収体シート。[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an absorbent body that includes a superabsorbent polymer and absorbent fibers and is thinned by pressurization. More specifically, the absorbent body has sufficient absorption performance and flexibility while being thinned. The present invention relates to an absorbent body that fits in and has excellent wearability, a method for producing the absorbent body, and absorbent articles such as disposable paper diapers, sanitary napkins, incontinence pads, and medical pads provided with the absorbent body.
[0002]
[Prior art]
  Since the introduction of body fluid absorbent articles such as disposable paper diapers, sanitary napkins, and incontinence pads on the market, various improvements have been made with respect to absorbent bodies using superabsorbent polymers.
[0003]
  As is well known, a superabsorbent polymer (also referred to as SAP or superabsorbent resin) absorbs and swells when contacted with water to form a gel, and once absorbed, it can be separated by applying a certain amount of pressure. It has such characteristics as not to be absorbed, and its absorbency reaches several tens to several thousand times its own volume, and exhibits tremendous liquid absorption.
[0004]
  Although the superabsorbent polymer alone exhibits the above-mentioned absorbency, it cannot exhibit its absorbency unless it is moistened to some extent, and since the water absorption rate is slow, the absorbent body absorbs pulverized pulp, rayon, etc. For example, it is mixed in the form of granular powder, crushed powder or pellets in the fiber.
[0005]
  In recent years, in the case of this kind of absorbent articles, there are problems such as bulkiness, inconvenient to carry, poor storage, poor fit to the body, such as logistics efficiency and resource saving From the request, it has become possible to reduce the thickness and the size by pressing.
[0006]
[Problems to be solved by the invention]
  However, the absorber thinned by press working has an extremely increased product density of the absorber (pulverized pulp or the like), and thus the absorption capacity (absorption amount / absorption rate / liquid permeability) is lowered.
[0007]
  Therefore, normally, the weight per unit area is increased so that the absorption performance is not lowered while the absorber is thinned or compacted. If the density of the superabsorbent polymer becomes too high, so-called “gel blocking” occurs in which the voids between the swollen water-absorbing polymer particles are extremely lowered, and the desired absorbency cannot be expressed. As a result, urine permeation is inhibited by the binding between the water-absorbing polymer particles, and a phenomenon in which the urine that has been impeded permeation is reversed and flows out again can be seen.
[0008]
  On the other hand, since the absorber thinned by press working becomes harder due to the increase in product density, when this is applied to an absorbent article used in contact with the body, the wearer will only feel a feeling of stickiness. However, wrinkles are formed greatly, and problems such as leakage are likely to occur.
[0009]
  Accordingly, a main object of the present invention is to provide an absorbent body capable of exhibiting an absorption performance equivalent to that of a conventional product that is not thinned while being thinned, a manufacturing method thereof, and an absorbent article.
  Another object is to provide an absorbent article that can exhibit the absorption performance equivalent to that of a conventional product that is not thinned while being thinned, and that has sufficient flexibility.
[0010]
[Means for Solving the Problems]
  The present invention that has solved the above problems is as follows.
  <Invention of Claim 1>
  Airlaid which is made by collecting and molding absorbent fibers and superabsorbent polymer while being defibrated and mixed by airlay method.An absorber,
  The superabsorbent polymer has a gel elastic modulus of 2000 N / m according to a gel elastic modulus test.²20 g / cm by absorption test under pressure²The amount of artificial urine absorbed under pressure is 32 cc / g or more, and
  The ratio of the superabsorbent polymer to the total weight of the superabsorbent polymer and the absorbent fiber is 40.~ 80% by weightAnd
  The absorbent body is 300 kg / m by applying pressure and thinning after integration and molding. ^Three It has the above density and a thickness of 1.0 to 2.0 mm
  It is characterized byOf body fluid absorbent articlesAbsorber.
[0011]
  <Effect>
  In the case of a superabsorbent polymer having a low gel elastic modulus and a small amount of artificial urine absorbed under pressure, even if the content is in the range of 40 to 80% by weight, the amount of absorption is reduced due to the dense structure and gel blocking. On the other hand, when the content of the superabsorbent polymer is less than 40% by weight, the influence of the structure density and the gel blocking can be reduced, but the absorption amount is lowered due to the small content.
[0012]
  However, when a superabsorbent polymer having a gel elastic modulus greater than a predetermined value and the amount of artificial urine absorbed under pressure is used according to the present invention, even if the content is large, it is fundamentally added when the pressure is reduced. Not only is the amount of artificial urine absorbed under pressure reduced and it is difficult to be affected by pressure-intensification, but also due to its high gel elastic modulus, gel blocking is unlikely to occur. The same absorption performance as that of the product can be exhibited.
[0013]
  In addition, the absorption test under pressure and the gel elastic modulus test referred to in the present invention will be described in Examples described later.
[0014]
  <Invention of Claim 2>
  The superabsorbent polymer has an absorption rate of 30 cc of artificial urine by an absorption rate test of 60 seconds / g or less.Absorbent of body fluid absorbent article described.
[0015]
  <Effect>
In the present invention, as described above, the content of the superabsorbent polymer can be made 40% by weight or more without reducing the amount of absorption, but in this case, the content of the absorbent fiber having a high absorption rate is lowered. As a result, the absorption rate as an absorber decreases. Therefore, as the content of the superabsorbent polymer increases, it is desirable to prevent a decrease in the absorption rate of the absorbent body by using a superabsorbent polymer having a high absorption rate. The absorption rate test referred to in the present invention will be described in the examples described later.
[0016]
  <Invention of Claim 3>
  The superabsorbent polymer has a gel permeation rate test value of 100 seconds or less per 50 cc permeation amount and 300 seconds or less per 100 cc permeation amount.Absorbent of body fluid absorbent article described.
[0017]
  <Effect>
  By setting it as this range, a liquid can permeate | transmit smoothly and the absorption performance which an absorber originally has can fully be exhibited. The gel permeation rate test referred to in the present invention will be described in the examples described later.
[0018]
  <Invention of Claim 4>
  The superabsorbent polymer according to any one of claims 1 to 3, wherein the number of particles having a particle size of 250 µm or less is a particulate superabsorbent polymer having a total particle number of 20% or less.Absorbent of body fluid absorbent article described.
[0019]
  <Effect>
  By setting it as such a range, the particle | grain gap | interval at the time of absorbing and expanding a liquid is hard to become small, a liquid permeate | transmits smoothly, and can fully exhibit the absorption performance which an absorber originally has.
[0022]
  <Claim 5Invention of description>
  The absorbent body has a value measured by a stiffness test of 10 mm or less.4In any one ofAbsorbent of body fluid absorbent article described.
[0023]
  <Effect>
  By setting it as such a range, it is possible to provide an absorbent body that has sufficient flexibility, fits to the movement of the human body, and has excellent wearability while achieving a reduction in thickness. The stiffness test referred to in the present invention will be described later.
[0024]
  <Invention of Claim 6>
  The absorbent body for a body fluid absorbent article according to any one of claims 1 to 5, wherein a large number of processed holes having a depth of 30% or more with respect to the thickness are formed in the absorbent body from the surface side.
[0026]
  <Claim 7Invention of description>
  A superabsorbent polymer and absorbent fibers introduced by air flow from a plurality of spraying chutes spaced apart in the transport direction are accumulated and molded while being defibrated and mixed by the air array method, and a plurality of separates are placed apart in the transport direction. Thinned by pressurization with the applied pressure rollBecause
  The superabsorbent polymer has a gel elastic modulus of 2000 N / m according to a gel elastic modulus test.²20 g / cm by absorption test under pressure²The amount of artificial urine absorbed under pressure is 32 cc / g or more, and
  The ratio of the superabsorbent polymer to the total weight of the superabsorbent polymer and the absorbent fiber is 40.~ 80% by weightAnd
  The absorbent body is 300 kg / m by applying pressure and thinning after integration and molding. ^Three The above density and a thickness of 1.0 to 2.0 mm
  It is characterized byOf body fluid absorbent articlesManufacturing method of absorber.
[0027]
  <Effect>
  By this production method, an absorbent body in which the superabsorbent polymer and the absorbent fibers are uniformly mixed can be produced with high efficiency. The manufactured absorbent body has the same effect as that of the first aspect of the present invention.
[0028]
  <Claim 8Invention of description>
  Claims 1 to6In any one ofAbsorbent of body fluid absorbent article describedAn absorbent article comprising:
[0029]
  <Effect>
  The absorbent body of the present invention can be suitably used as an absorbent element for absorbent articles such as disposable paper diapers, sanitary napkins, incontinence pads, medical pads, and the like, and in this case, the above-described effects can be obtained.
[0030]
  <Claim 9Invention of description>
  The elastic member is not provided inside a portion corresponding to the vicinity of the side edge of the absorber.8The absorbent article as described.
[0031]
  <Effect>
  This type of absorbent article, especially a paper diaper, is provided with an elastic member for the purpose of improving fit, etc., but by having a configuration that does not have an elastic member inside the portion corresponding to the vicinity of the side edge of the absorber, The absorber will not shrink easily and will remain thin.
[0032]
  <Claim 10Invention of description>
  In use, both side edge portions of the front body and the back body of the outer shape sheet are joined to form a waist opening and left and right leg openings,6In any one ofAbsorbent of body fluid absorbent article describedIn a paper diaper with
  A paper diaper characterized in that the crotch side end of the outer shape sheet is located within 5 mm from the crotch side end of the absorber.
[0033]
  <Effect>
  In particular, when the thin absorbent body of the present invention is used in a paper diaper, the thinness reduces the volume and mummy feeling of the diaper (especially in the crotch), and the appearance is very neat. By forming the crotch side edge of the sheet so that it is located within 5 mm from the crotch side edge of the absorbent body, the outer shape sheet hardly protrudes from the side of the absorbent body, further reducing the sense of volume and muffledness in the crotch area. However, the appearance will be even cleaner.
[0034]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
  <About absorber>
  As described above, the absorbent body of the present invention includes a superabsorbent polymer and absorbent fibers, and is thinned by pressurization.
[0035]
  Examples of the absorbent fiber of the present invention include cellulose fibers such as chemical pulp and dissolved pulp obtained from wood, and artificial cellulose fibers such as rayon and acetate. Softwood pulp having a longer fiber length than hardwood pulp is used. It is preferably used in terms of function and price.
[0036]
  The superabsorbent polymer of the present invention includes carboxymethyl cellulose.The, Polyacrylic acid and its salts, crosslinked acrylate polymer, starch-acrylic acid graft copolymer, hydrolyzate of starch-acrylonitrile graft copolymer, polyoxyethylene crosslinked product, carboxymethylcellulose crosslinked product, polyethylene oxide , Polyacrylamide etc.JunFor example, a partially crosslinked polymer or a copolymer of isobutylene and maleic acid is preferably used. What added the blocking inhibitor in order to suppress the blocking property by moisture absorption of a product can also be used. In addition, the superabsorbent polymer has various forms such as powder, particles, granules, pellets, sol, suspension, gel, film, and nonwoven fabric. Any of them can be used in the present invention, and a particulate material is particularly preferably used.
[0037]
  On the other hand, an adhesive (agent), a diffusing agent, a deodorant, an absorptive fiber, and the like can be contained in addition to the main constituent absorbent fibers and superabsorbent polymer described above.
[0038]
  Characteristically in the present invention, the gel elastic modulus by the gel elastic modulus test is 2000 N / m.²20 g / cm by absorption test under pressure²A superabsorbent polymer having an artificial urine absorption amount of 32 cc / g or more under pressure is used. Particularly preferred is a superabsorbent polymer having a gel elastic modulus of 3000 cc / g or more and an artificial urine absorption of 35 cc / g or more. In the present invention, the superabsorbent polymer is contained in an amount of 40% by weight or more based on the total weight of the superabsorbent polymer and the absorbent fiber. A particularly preferred range is 40 to 80% by weight.
[0039]
  In the case of a superabsorbent polymer having a low gel elastic modulus and a small amount of artificial urine absorbed under pressure, even if the content is in the range of 40 to 80% by weight, the amount of absorption is reduced due to the dense structure and gel blocking. On the other hand, when the content of the superabsorbent polymer is less than 40% by weight, the influence of the structure density and the gel blocking can be reduced, but the absorption amount is lowered due to the small content.
[0040]
  However, when a superabsorbent polymer having a gel elastic modulus greater than a predetermined value and the amount of artificial urine absorbed under pressure is used according to the present invention, even if the content is large, it is fundamentally added when the pressure is reduced. Not only is the amount of artificial urine absorbed under pressure reduced, and it is difficult to be affected by pressure-intensification, but also because of its high gel modulus, gel blocking is unlikely to occur. The same absorption performance can be demonstrated.
[0041]
  Further preferred superabsorbent polymers are those having an absorption rate of 30 cc of artificial urine of 60 seconds / g or less, particularly 55 seconds / g or less. In the present invention, as described above, the content of the superabsorbent polymer can be made 40% by weight or more without reducing the amount of absorption, but in this case, the content of the absorbent fiber having a high absorption rate is lowered. As a result, the absorption rate as an absorber decreases. Therefore, as the content of the superabsorbent polymer increases, it is desirable to prevent a decrease in the absorption rate of the absorbent body by using a superabsorbent polymer having a high absorption rate.
[0042]
  The superabsorbent polymer preferably has a gel permeation rate test value described later of 100 seconds or less, particularly 55 seconds or less per 50 cc permeation, and 300 seconds or less, particularly 200 s or less per 100 cc permeation. . For this reason, especially when using a particulate superabsorbent polymer, the number of particles having a particle size of 250 μm or less is preferably 20% or less of the total number of particles. By setting it as this range, a liquid can permeate | transmit smoothly and the absorption performance which an absorber originally has can fully be exhibited. When the number of particles less than the particle size exceeds 20%, when the liquid is absorbed and expanded, the particle gap becomes small and the liquid becomes difficult to permeate, so that the absorption performance is deteriorated.
[0043]
  The absorbent body of the present invention is obtained by molding the absorbent fiber and the superabsorbent polymer described above into a mixed state.,that timeOr it is obtained by pressurizing and thinning after that. In this pressure thinning, the weight of the absorber is 300 gsm or more and the thickness is 2 mm or less, and the density is 150 kg / m.^ThreeIt is preferable to achieve the above. Particularly suitable ranges are a thickness of 1.0 to 1.5 mm and a density of 300 kg / m.^ThreeThat's it. Moreover, the absorption amount as an absorber is 28 cc / g or more and 20 kg / cm under normal pressure.²The pressure is preferably 20 cc / g or more under pressure. Furthermore, as an absorption rate as an absorber, it is preferable to absorb 25 cc of artificial urine per gram within 10 minutes.
[0044]
  By the way, the thickness of the absorber when it is not reduced in pressure is about 2.5 to 3.5 mm. Even in the case of increasing the density, in the case of the present invention, the absorption performance can be made equivalent to that of the conventional one that is not thinned due to the characteristics of the above-described superabsorbent polymer.
[0045]
  When the absorbent according to the present invention is applied to an absorbent article such as a disposable diaper that is used in contact with human skin, it is preferable to use an absorbent having a value measured by a stiffness test of 10 mm or less. As shown in FIG. 1, the stiffness test referred to in the present invention is a method in which an absorber sample 120 having a width and height dimension of 100 mm × 100 mm is folded so as to have a width of 50 mm, and the edge is set to a reference line L. Acrylic plate 121 having a size of 100 mm × 150 mm and a weight of 60 g is brought on it, and the center part is fixed to the reference line L, and one end is brought into contact with the horizontal plane, and the other side This is a test method in which the height H of the end (absorber bending side) is measured, and a value obtained by subtracting the volume (thickness t × 2) of the absorber from the height H is used as a stiffness index.
[0046]
  When the stiffness exceeds 10 mm, for example, as shown in FIGS. 2 and 3, the stiffness can be adjusted by applying a large number of holes 102, 102... On the surface of the absorber 101. These processed holes may be through holes 102a, 102a ... penetrating to the back surface as shown in FIG. 4 (A), or non-through hollow holes 102b, 102b ... as shown in FIG. 4 (B). It may be. The depth of the recessed hole 102b is 30% or more, preferably 50% or more, more preferably 70% or more with respect to the thickness of the absorber. By setting the depth of the hollow 102b to 30% or more with respect to the thickness of the absorbent body 101, the embossing process such as conventional diamond embossing can be differentiated and the absorbability and flexibility are remarkable in terms of functionality. Shows sex. The hole 102 is preferably circular, but may be a star shape or a polygonal shape such as a triangle or a quadrangle. Furthermore, the hole processing is 1cm²It is applied at a rate of 0.1 or more per hole, and the hole area is 0.03 mm on the absorber surface.²The above is desirable.
[0047]
  In order to perform such hole processing, as shown in FIG. 5, a hole processing roll 104 having a large number of projections 104a, 104a... On the roll surface and concave portions at positions corresponding to the projections 104a, 104a. An anvil roll 105 having 105a and 105a is arranged opposite to each other so that the absorbent body 101 (including the absorbent sheet) is passed between the rolls 104 and 105. As shown in FIG. 6, in the passage portion of the absorbent body 101, the protrusion 104 a is fitted into the concave portion 105 a, and a through hole 102 a or a non-penetrated hollow hole 102 b is formed in the back surface of the absorbent body 101. As the protrusion 104a of the hole processing roll, a needle-like (needle) or conical protrusion is preferable.
[0048]
  <About the manufacturing method of an absorber>
  There are various methods for producing the absorbent body of the present invention. From the viewpoint of uniform mixing of fibers and SAP and high production efficiency, the absorbent fibers and the superabsorbent polymer are produced according to the invention of claim 8. It is preferable to employ an air array method in which both are accumulated by an air flow and co-molded.
[0049]
  An outline of a manufacturing apparatus for this purpose is shown in FIG. The manufacturing apparatus 130 includes an endless belt conveyor 131 having a ventilation structure, a plurality of spraying chutes 132, 132,. 132... A belt conveyor type air array section composed of a plurality of suction devices 133, 133... Arranged at positions corresponding to 132. It is composed of a pressure roll group 134 and a take-up roll 135 that winds up the pressure-thinned forming sheet S.
[0050]
  In this apparatus, the absorbent fibers and the superabsorbent polymer are put into the same spraying chute 132, 132... In the air flow, and these are defibrated and mixed on the conveyor 131 by suction from the back side of the conveyor 131. It is integrated and molded as a web. Next, the integrally formed web S1 is fed from the endless collecting conveyor 131 to the heat and pressure roll group 134, and is sandwiched between the heat and pressure rolls 134a and 134b to reduce the thickness of the pressure and bond the fibers to each other. After being applied to form the airlaid absorbent sheet S of the present invention, it is wound up by a winding roll 135. For example, when the winding roll 135 is applied to an absorbent article, the winding roll 135 is brought into an absorbent article production line, unwound and attached to the absorbent article through cutting into a predetermined shape.
[0051]
  Although not shown, this absorbent body production line is incorporated into the absorbent article production line, and the formed absorbent sheet is intermittently or continuously supplied to the absorbent article production line without winding up the absorbent sheet. After being cut into a predetermined shape and attached to the absorbent article, or cut into a predetermined shape without winding up the absorbent sheet, it is supplied intermittently or continuously to the absorbent article production line, where it is supplied to the absorbent article. It can also be attached.
[0052]
  In the above example, since the absorber is manufactured as a sheet, it is necessary to cut into an appropriate shape thereafter. Therefore, as shown in FIG. 8, a plurality of absorbent-shaped concave portions 131C, 131C,... Are provided in the circumferential direction on the outer peripheral surface of the belt 131B of the belt conveyor, and only the concave portion is ventilated to perform suction accumulation. It is desirable to configure as follows. Moreover, instead of the air-laying portion of FIG. 7, as shown in FIG.136a,136a... a drum 136 having a plurality in the circumferential direction, and a concave portion of the drum 136136a,136a... the drum air-rear apparatus 135 provided with the suction means 137 for sucking outside air through the inside and the spray chute 138 opening toward the outer peripheral surface of the drum can also be used. In FIG. 9, reference numeral 139 denotes a drum concave portion.136a,136a... A conveyor for conveying the accumulated product discharged from the inside to the next pressurizing step is shown.
[0053]
  In the examples shown in FIGS. 8 and 9, since the absorbent body can be formed in a predetermined shape at the time of integration, there is an advantage that subsequent cutting is not necessary, and it becomes easier to incorporate the absorbent article into the production line. There are advantages.
[0054]
  As described above, the absorbent body of the present invention is preferably produced by the airlaid method in which both the absorbent fibers and the superabsorbent polymer are accumulated by an air flow.otherA known method, for example, a method of polymerizing a non-crosslinked gel-like superabsorbent polymer on a non-crosslinked non-woven fabric made of absorbent fibers after impregnating the non-woven fabric made of absorbent fibers with a monomer that becomes a superabsorbent polymer. A method of performing a crosslinking treatment later, an absorbent body (including the original fabric) formed by a wet method of forming a sheet using a dispersion liquid in which a superabsorbent polymer is dispersed in a slurry such as pulp, etc., and pressurizing and thinning with an appropriate press device Manufacturing methodIs not adopted.
[0055]
  <About absorbent articles>
  In this invention, what applied the above-mentioned absorber as an absorption element of absorbent articles, such as a disposable paper diaper, a sanitary napkin, an incontinence pad, a medical pad, is also proposed.
[0056]
  In such an absorbent article, as shown in FIG. 10A, the absorbent body 101 is usually wrapped in tissue paper or the like and sandwiched between a liquid-permeable top sheet 141 and a liquid-impermeable back sheet 142. In this state, the absorbent element 140 is attached to the outer sheet 143.
[0057]
  In this configuration example, since the thickness of the portion other than the absorber is 0.5 mm or more in a normal case, for example, when the thickness of the absorber 101 is reduced to 2.0 mm, the absorber 101 Can be reduced to 80% or less in the thickness direction, but exceeds 80% in the absorbent article 140 ′ using the conventional absorbent body 110 that is not compressed and thinned as shown in FIG. 10B. . The thickness of the absorber of the present invention is preferably 3.0 mm or less, particularly 2.0 mm or less.
[0058]
  The details of the absorbent body 101 of the present invention have already been described, and are omitted here. In particular, in an absorbent article used in contact with the skin, the absorbent body having a value measured by a stiffness test of 10 mm or less. Is preferably used.
[0059]
  As the liquid-impermeable back sheet 142, for example, a liquid-impermeable sheet made of a polyethylene sheet or the like, a water-permeable / moisture-permeable sheet having moisture permeability from the viewpoint of preventing stuffiness, and a composite sheet of a nonwoven fabric and a waterproof sheet are used. It is done. On the other hand, the liquid-permeable top sheet 141 is preferably a porous or rude nonwoven fabric or a porous plastic sheet. As the material fibers constituting the nonwoven fabric, in addition to olefins such as polyethylene or polypropylene, polyesters, polyamides, and other synthetic fibers, regenerated fibers such as rayon and cupra, and natural fibers such as cotton can be used. A nonwoven fabric obtained by an appropriate processing method such as a method, a spun bond method, a thermal bond method, a melt blown method, or a needle punch method can be used.
[0060]
  The air-laid absorbent body of the present invention is particularly suitable for disposable diapers among absorbent articles. Therefore, the paper diaper to which the air-laid absorbent body of the present invention can be applied will be explained in detail by first taking an example of a pants-type disposable diaper, and then the left and right side edges on the back side when the diaper is used (when worn) An application example to a so-called tape-type paper diaper of the type that is brought into the left and right side edges of the tape and joined with a tape fastener (including an adhesive tape fastener and a hook-and-loop fastener) will be described.
[0061]
  <Explanation of Terms of the Present Invention and First Embodiment of Pants-Type Disposable Diapers>
  The pants-type disposable diaper according to the first embodiment will be described with reference to FIG. 12 and FIG. 13 while explaining the terms relating to the site and direction of the present invention mainly with reference to FIG.
  As shown in FIGS. 11 and 12, the pants-type disposable diaper according to the first embodiment is fixed to the flexible outer sheet 1 and the inner surface of the outer sheet 1 and has a crotch part (inseam) 4 as the center. The main component is an absorbent main body 10 extending in the longitudinal direction (front-rear direction).
[0062]
  The outer sheet 1 is formed by laminating and fixing two or three or more breathable / water-repellent nonwoven fabrics. At the final stage of the manufacturing process after the outer sheet 1 and the absorbent main body 10 are superposed, By joining the entire longitudinal direction of both side edges with the back body B by means such as ultrasonic sealing or heat melting (this joint is denoted by reference numeral 30), a waist opening as shown in FIG. WO and a pair of left and right leg openings LO are formed.
[0063]
  In the code | symbol of FIG. 11, "vertical direction" means the direction which connects an abdominal side and a back side, and "circumferential direction" means the direction orthogonal to the said vertical direction. “Waist opening edge” means the edge of the waist opening WO, and “Leg opening edge” means the edge of the leg opening LO. “Leg opening start end” means the leg opening edge of the leg opening LO and the joint 30ButIt means the position where it intersects, meaning the beginning of the leg opening edge. "Torso circumference part" T means the whole area | region of the length range from a waist opening edge to a leg opening start end. The waistline portion T can be conceptually divided into a “waist portion” W and a “lower waist” U. These lengths in the vertical direction vary depending on the size of the product, but the waist W is 15 to 40 mm, and the lower waist U is 45 to 120 mm. “Crotch” L means the entire region of the length range that forms the leg opening LO. Further, the “center portion” means an intermediate region excluding the side portion including the center line of the product. The “side portions” mean both side portions of the waistline portion T.
[0064]
  As shown in FIG. 13, the absorbent main body 10 is mainly composed of a rectangular liquid-permeable top sheet 11 made of a nonwoven fabric or the like that directly touches the wearer's skin and cotton-like pulp, and has a certain degree of rigidity (semi-rigid). A rectangular thin film made up of a rectangular compressed lap absorbent AB according to the present invention, the upper and lower surfaces of which are wrapped by a rectangular crepe paper 14, and a polyethylene plastic film or the like reaching the vicinity of both side edges on the back surface of the absorbent AB. The liquid-permeable top sheet 11 wraps around the side edges of the absorber AB and reaches the back surface, and is superimposed on the liquid-impermeable back sheet 12. These elements are integrated by bonding with a hot-melt adhesive (indicated by * in the figure is the bonding portion). If necessary, a liquid-permeable second sheet 11S can be interposed between the liquid-permeable top sheet 11 and the crepe paper 14 as illustrated. The absorbent main body 10 is integrated by adhering almost the entire back surface to the outer sheet 1 with a hot melt adhesive.
[0065]
  Standing cuffs C and C around the legs projecting to the use surface side are formed on both sides of the absorbent main body 10, respectively. The standing cuffs C include a standing sheet 40 that is substantially continuous in the width direction, an elastic member, for example, It is composed of one elastic rubber member 50, 50 ... as shown in the figure.
[0066]
  In more detail, the standing cuff C is formed by doubling the standing sheet 40 and wrapping each of the elastic members 50, 50... With a hot melt adhesive or the like. The standing sheet 40 forming the standing cuffs C and C is preferably not liquid-permeable but liquid-permeable or hydrophobic. For this reason, it is good also as a structure which sticks another sheet | seat (a film, a nonwoven fabric, etc.) on the inner surface of the standing sheet 40, and improves leak-proof property. Moreover, you may make it become a property which repels a liquid by a silicon process etc. with respect to liquid-permeable sheets, such as a nonwoven fabric. Furthermore, it is desirable to have air permeability or vapor permeability.
[0067]
  The inner surfaces of the double upright sheets 40 go around the back surfaces of the absorber AB and the liquid-impermeable back sheet 12 and are fixed by a hot melt adhesive or the like. As a result, the fixed start end of the double upright sheet 40 forms the upright end of the upright cuff C.
[0068]
  The tip side from the standing end is a free part that is not fixed to the product body.
[0069]
  On the other hand, at the front and rear end portions in the longitudinal direction, the free part is applied to the article with a hot melt adhesive or the like, with its tip directed toward the center side of the article, specificallyLiquid-permeable top sheet 11It is fixed to the outer surface.
[0070]
  Further, the basic configuration is that at least one of the elastic members 50, 50... Is in the free part, but in particular, the elastic member 50 is preferably at the tip of the free part, and is further shown in FIG. As shown, it is preferable to have the elastic member 50 also on the base side. It is further desirable to have a plurality of tip portions as shown in the figure.
[0071]
  FIG. 12 shows a state in which the paper diaper is expanded in the longitudinal direction. At the time of wearing, the paper diaper is attached to the body in a boat shape, and the contraction force of each of the elastic members 50, 50. The standing cuff C is erected by the contraction force of each of the elastic members 50, 50. At this time, the side portion of the absorbent main body 10 is deformed and lifted, and the absorber AB is lifted while being slightly deformed to form a deep pocket space.
[0072]
  The space surrounded by the left and right standing cuffs C, C forms a urine or soft stool confinement space. When urinating into this space, the urine is liquid-permeable topsheet11In addition to being absorbed into the absorbent body AB, the rising cuff C becomes a barrier for the solid matter of soft stool, and overcoming it is prevented.
[0073]
  On the other hand, at the longitudinal ends of the front body F and the back body B, between the nonwoven fabrics of the outer sheet 1 in the waist W, the gap is parallel to the edge of the waist opening WO in order to enhance the fit around the waist. The waist elastic members 20F and 20B made of thin thread rubber are placed and fixed under extension so that they extend. Although the space | interval and the number of waist elastic members 20F and 20B in the waist part W can be determined suitably, for example, about 4-8 mm is preferable as an interval, and about 4-10 is preferable as the number.
[0074]
  Furthermore, in this embodiment, from the waist part W of the front body F and the back body B to the crotch LUntilLower waist elastic members 21F and 21B are provided along the circumferential direction on the lower abdomen of the front body F and the buttocks of the rear body B in the lower waist U, which is the area between the waist and the waist. The lower waist elastic members 21F and 21B are the left and right sides of the product excluding almost the entire absorber AB in the front body F and the back body B from the joint part 30 on one side to the joint part 30 on the other side. It is provided on the side.
[0075]
  As the lower waist elastic members 21F and 21B, thin rubber thread, specifically, an elastic member having a thickness of 620 dtex or less is used, and the vertical interval between the front body F and the back body B is 7. It is preferable that the length is 0 mm or less, and 15 to 40 pieces are arranged and fixed between the nonwoven fabrics of the outer sheet 1 in parallel. Moreover, the mutual space | interval in these waist lower elastic members 21F and 21B is the same as that of the waist elastic members 20F and 20B, or a thing shorter than it is desirable. By adopting such a configuration, a wrinkle that is narrow in the circumferential direction, short in the vertical direction, continuous in the vertical direction, small in unevenness, and almost free from constriction of the elastic member portion is formed, and the wrinkle is inconspicuous The outer surface is clean and smooth, and looks great. In addition, the part is pressed against the skin as a surface, there is no generation of rubber marks due to no local excessive pressure on the skin, and the friction between the inner surface of the product and the skin covers the whole. The close contact provides good fit and prevents the product from slipping off.
[0076]
  Further, the rubber thread used as the lower waist elastic members 21F and 21B is the waist elastic member described above.20F, 20BThe tensile stress and the outer diameter of the cross section are smaller than or substantially the same as those of the thin thread rubber used as the above. As the thin rubber thread used here, specifically, one having a tensile stress in the range of 4 to 17 g, particularly in the range of 5 to 10 g at 150% elongation is preferably used.
[0077]
  On the other hand, in the first embodiment, the crotch elastic member 23 is also provided in the left and right parts excluding the central part in the crotch part L. As for the crotch elastic member 23, similarly to the lower waist elastic members 21F and 21B, an elastic member having a thickness of 620 dtex or less can be disposed and fixed between the nonwoven fabrics with a vertical interval of 7.0 mm or less.
[0078]
  <Second embodiment of a pants-type disposable diaper>
  The second embodiment shown in FIGS. 15 and 16 is different from the first embodiment in that the crotch L is not provided with the crotch elastic member 23, and the lower waist elastic members 21F and 21B are absorbent. 10 is arranged and fixed between the nonwoven fabrics continuously in the circumferential direction across 10.
[0079]
  <Third embodiment of a pants-type disposable diaper>
  FIG. 17 is different from the first embodiment in that the crotch portion L is not provided with the crotch elastic member 23, and the waist elastic members 20F and 20B are not arranged in the center, but only on the side portions. Structure, diagram12The thing of the expansion | deployment state similar to is shown. FIG. 18 shows the state of use.
[0080]
  <Fourth embodiment of a pants-type disposable diaper>
  In FIG. 19, the outer shape sheet 1 is configured by a width direction center sheet 1 </ b> A and side sheets 1 </ b> B and 1 </ b> B on both sides.AsFor example, a thread rubber fixed in a mesh shape, for example, a lattice shape, between nonwoven fabrics is used. Then, the side sheets 1B and 1B on both sides are joined to the center sheet 1A in the width direction, and the side sheets 1B and 1B are expanded and contracted in the circumferential direction and the front-rear direction. In this case, the rubber thread in the circumferential direction forms elastic members for the waist part W and the lower waist part U.
[0081]
  <Supplementary explanation about each form of the pants-type disposable diaper and other embodiments>
  The above first to fourth embodiments are conceptually summarized as shown in FIGS. 20A to 20D, respectively. As can be estimated by comparing these, the waist elastic members 20F and 20B and the lower waist elastic members 21F and 21B are arranged and fixed continuously in the circumferential direction across the absorbent main body 10 and the absorber AB. It is possible to selectively adopt a configuration in which the arrangement is fixed only at the left and right side portions of the product, which does not exist in the central portion where the product is located. Also, the crotch elastic member 23 is disposed.ofThe presence or absence can also be selected. Furthermore, the arrangement of the elastic members can be made different between the front body F and the back body B. Therefore, as shown in FIG. 20E as another embodiment, the waist elastic members 20F and 20B and the lower waist elastic members 21F and 21B are not present in the central portion where the absorber AB is located. As shown in FIG. 20 (F) as another embodiment, the waist elastic members 20F and 20B are arranged and fixed only on the left and right sides of the product, and the crotch elastic member 23 is not provided. A configuration in which the lower waist elastic members 21F and 21B do not exist in the central portion where the absorber AB is located, is arranged and fixed only at the left and right side portions of the product, and a crotch elastic member 23 is further provided. Thus, it is added that the arrangement form of the elastic members is appropriate. The lower waist elastic members 21F and 21B or the crotch elastic member 23 are not present in the central portion where the absorber AB is located, and the left and right sides of the productInIn the case where the arrangement is fixed only in the case, the ends of the lower waist elastic members 21F and 21B or the ends of the crotch elastic members 23 overlap the side edges of the absorber AB, and do not reach the side edges of the absorber AB. And the case where they are separated from each other.
[0082]
  In particular, in the present invention, it is desirable that the elastic member is not provided in a portion corresponding to the vicinity of the side edge of the absorbent body, for example, within 10 mm from the side edge, particularly inside a portion within 5 mm. Thereby, an absorber becomes difficult to shrink | contract and is kept thin.
[0083]
  In the above example, the rectangular absorbent main body 10 is joined to the substantially hourglass-shaped outer sheet 1, but a liquid-permeable top sheet 11 having the same shape as the outer sheet 1 is provided, and the absorbent body AB is interposed between them. May be provided. Furthermore, the external sheet 1 and the absorbent main body 10 may be integrated with no boundary.
[0084]
  In the above example, the sheet constituting the outer surface of the product is obtained by laminating and fixing two or more breathable / water-repellent nonwoven fabrics, but it may be a single nonwoven fabric, in which case the nonwoven fabric is used. Elastic part on the sideMaterialCan be joined. Furthermore, a plastic sheet can be interposed between the laminated nonwoven fabrics, or can be bonded to the use surface side of the backside nonwoven fabric.
[0085]
  The lower waist elastic member 21F or 21B may be arranged in a lattice network. An example of this is the form shown in FIG. Even in this type of configuration, it is desirable that the elastic elastic member has the above-described thickness and spacing.
[0086]
  Further, at least the waist elastic member 20F and the lower waist elastic member 21F of the front body F are 60% or more, desirably 70% or more, more preferably 90% of the waist part T in the length range from the waist opening edge to the leg opening start end. As long as it exists over a length range of at least%, it is desirable to have the thickness and spacing described above. Therefore, in the maximum 40% region, even if the lower waist elastic member 21F does not have the above-described thickness or interval, the overall clean feeling is not impaired.
[0087]
  On the other hand, as shown in FIG. 21, a design such as a character can be applied to the back side of the liquid-impermeable back sheet 12 by, for example, printing in the center of the product (substantially the entire area of the absorber AB). This design portion can be clearly seen without breaking the design, for example, by being in a position corresponding to the absorber AB having a certain degree of rigidity. And as shown in the figure, if you apply the front and back of the character corresponding to the front and back of the product, anyone can distinguish the front and back at a glance, making changing diapers fun and the wearer will be pleased Become. In giving this design, the design design sheet which gave the design may be interposed between the external sheets. In addition, design printing can be performed on the outer sheet 1.
[0088]
  By the way, in order to fit the crotch part or the crotch part, the outer sheet 1 can be provided with an elastic member in various forms.
[0089]
  In FIG. 22, the crotch elastic members 24 and 24 are fixed between the nonwoven fabrics of the outer sheet 1 from the end of the front side to the end of the back side almost parallel to the leg opening edge of the crotch L. Is. In this embodiment, the crotch elastic member 24 contracts the leg opening LO to prevent the leakage of body fluid. In addition, in order to clearly indicate the crotch elastic members 24, 24, the absorbent main body 10 is indicated by a virtual line.
[0090]
  FIG. 23 shows the crotch and crotch elastic members 25F, extending from the end of the left side to the end of the right side so as to cross the crotch in the front body F and the back body B, respectively. 25B is fixed between the nonwoven fabrics of the outer sheet 1. Further, in this example, the crotch / crotch lower part elastic members 25F and 25B on the front body F side and the back body B side partially intersect.
[0091]
  FIG. 24 shows the crotch and crotch elastic members 26F, extending from the end of the left side to the end of the right side so as to cross the crotch in the front body F and the back body B, respectively. 26B is fixed between the nonwoven fabrics of the outer sheet 1. In this example, the crotch / crotch elastic members 26F and 26B are parallel to each other in the crotch portion without crossing each other.
[0092]
  On the other hand, as shown in FIG. 25, the width of the outer sheet 1 can be narrower than the width of the absorbent main body 10, particularly the absorbent body AB, in the crotch portion. In the form of this FIG. 25 and the above-mentioned form, it is outward from the side edge of the absorber AB.WhatThe protruding outer sheet 1 tends to flicker, which is a problem when trying to obtain a clean feeling throughout the product. Therefore, similarly to the crotch elastic member 23 of the first form, the shaping elastic member 27 is provided between the nonwoven fabrics of the outer sheet 1 on both sides of the crotch L, and the protruding outer sheet 1 is moved to the center side. The feeling of fluttering can be eliminated. In this case, the outer end portion of the shaping elastic member 27 group is fixed by the seal line 28 made of hot melt adhesive, thereby preventing the outer end portion of the shaping elastic member 27 group from being pulled into the center side.
[0093]
  Similarly, in order to eliminate the feeling of fluttering in FIG. 26, in the front body F and the back body B, from the end of the left side part to the end of the right side part so as to cross the crotch part, The shaping elastic members 29 and 29 are respectively fixed between the nonwoven fabrics of the outer sheet 1. In this form, the middle circumferential direction portion of the shaping elastic member 29 can move the outer sheet 1 that protrudes outward from the side edge of the absorber AB to the center side, thereby eliminating the fluttering feeling. Since the end portion of the shaping elastic member 29 extends to the end portion of the side portion, it acts to lift the crotch portion toward the waist portion T side, and the slackness of the abdomen and buttocks is eliminated, resulting in a cleaner feeling.
[0094]
  <First embodiment of tape-type paper diaper>
  As described above, the present invention covers not only pants-type disposable diapers but also tape-type paper diapers. This first embodiment is shown in FIGS. In this example, standing sheets 41 and 41 are provided on both side portions, and extensible members 51 and 51 are provided at the distal end portions of these free standing portions to constitute standing cuffs C and C. The standing sheet 41 is joined to the back sheet 1 similar to the outer sheet. 42 is a tape fastener for bringing the left and right sides on the back side into the left and right sides on the abdomen and joining them. In this example, in the longitudinal direction ends of the front body F and the back body B, between the nonwoven fabrics of the outer sheet 1 in the waist W, parallel to the edge of the waist opening WO in order to enhance the fit around the waist. The waist elastic members 20F and 20B made of thin rubber thread are arranged and fixed under extension so as to expand and contract at an interval. Further, lower waist elastic members 21F and 21B are provided along the circumferential direction on the side of the lower abdomen of the front body F and the buttocks of the rear body B except for the central part.
[0095]
  <Second embodiment of tape-type paper diaper>
  A second embodiment is shown in FIGS. 29 and 30. FIG. This form is an example which does not have a standing cuff. And the elastic members 52 and 52 are being fixed between the liquid-permeable top sheet 11 and the back seat | sheet 12 along the vertical direction at the flap part of the outer side of absorber AB. Also in this example, waist elastic members 20F and 20B and lower waist elastic members 21F and 21B are provided.
[0096]
  <About elastic members>
  As the elastic member, in addition to materials such as natural rubber and synthetic rubber, elastic elastic materials such as urethane can be used. A thin elastic band or a sheet having a large area can also be used. Examples of these include a band such as urethane, a film or a sheet. A non-porous film or a perforated film can be selected as the film, and a mesh-like sheet can be selected as the sheet. An example of the arrangement of the non-porous film 60 is shown in FIG. An example of the arrangement of the net-like film 61 is shown in FIG. Also in these forms, it is important that the region where the elastic member is attached to the outer sheet 1 of the product exists over a length range of 60% or more of the waist portion.
[0097]
  <About width of each part of suitable product>
  In the paper diaper to which the pressurized thin absorbent body of the present invention is applied, it is preferable that the width d2 of the absorbent body is 40% or less with respect to the waist width d1, as shown in FIG.
[0098]
  Further, in accordance with the invention as set forth in claim 11, it is desirable that the side edge of the outer shape sheet 1 is located within 5 mm from the side edge of the absorber AB in the crotch portion. For this, as shown in FIG. 33 (A), the crotch part side end of the outer sheet 1 protrudes outside the crotch part side end of the absorber AB, and the protrusion width d3 is 5 mm or less. As shown in FIG. 33 (B), the crotch part side end of the outer sheet 1 enters the crotch part side end of the absorbent body AB, and the crotch part side end of the absorbent body AB extends from the crotch part side end of the outer sheet 1. It includes a case where it protrudes and its protruding width d4 is 5 mm or less. Moreover, although not shown in figure, the case where the crotch part side end of the external shape sheet 1 and the crotch part side end of absorber AB overlap is also included.
[0099]
  In the paper diaper to which the pressurized thin absorbent body of the present invention is applied, the diaper (particularly in the crotch) is reduced in volume and muffled feeling only by the thinness of the absorbent body, and the appearance is very clean. However, as described above, by forming the crotch part side end of the outer shape sheet within 5 mm from the crotch part side end of the absorbent body, the outer shape sheet hardly protrudes from the absorber side part, The sense of volume and lumps in the crotch area is further reduced, and the appearance is even cleaner.
[0100]
【Example】
  Various superabsorbent polymers were prepared and subjected to the following tests.
  (Absorption test under pressure)
  An outline of this test is shown in FIG. That is,
(1) 0.2 g of SAP sample 200 is weighed and dispersed uniformly in a circle with a diameter of 40 mm on a filter paper 201 with a diameter of 50 mm.
(2) On top of that, a weight20320g / cm using²Load the load. At this time, the four sides of the weight 203 are connected to the filter paper 201 and fixed using a cellophane tape having a width of 1.5 mm.
(3) A measuring device is prepared in which the outlet of the burette 204 and the lower opening of the funnel 205 are connected by a conduit 206.203With the filter paper 201 sandwiched between them, the filter paper 201 is placed on the lower side and placed gently in the funnel 205, and the amount of absorption for 60 minutes is measured.
(4) On the other hand, as a blank, the absorption amount of the filter paper is similarly measured.
(5) The amount of absorption after 60 minutes is converted to 1.0 g to obtain the amount of absorption under pressure.
  (Absorption test under normal pressure)
(1) A 0.3 g sample is placed in a nylon tea bag (bag) and immersed in physiological saline (0.9% NaCl aqueous solution).
(2) After 10 minutes, the tea bag is completely lifted from the physiological saline, kept in a state of being lifted for 10 minutes, and drained.
(3) After draining, the weight is measured, and the value obtained by subtracting the weight of the tea bag from this is taken as the normal pressure absorption.
  (Measurement test of water retention)
(1) Place 0.5 g of sample in a nylon tea bag.
(2) The tea bag is immersed in 0.9% physiological saline and swollen for 30 minutes, and then centrifuged and dehydrated at 15000 rpm for 3 minutes.
(3) Subtract the weight of the tea bag from the dehydrated weight and divide by the sample weight to obtain the water retention amount.
  (Absorption rate test)
  A sample of 1 g is uniformly spread on a petri dish having a diameter of 90 mm, 30 cc of artificial urine is poured, and the time taken to absorb all of the artificial urine is measured, and this is taken as the absorption rate.
  (Gel permeation rate test)
(1) Place 1.0 g of sample in 200 cc of artificial urine and wait for one hour until saturation.
(2) Put the solution of (1) in a burette with a diameter of 36 mm and let stand for 30 minutes.
(3) Twist the cock of the burette, measure the time when artificial urine passed 50 cc and 100 cc, and use this as the gel permeation rate.
  (Measurement test of particle size distribution)
  10 g of a sample is passed through a sieve of 500, 300, 250, 212, 180, 150, 106, 75 μm, the weight of the sample remaining on each sieve is measured, and the percentage is shown in consideration of the loss due to clogging. When sifting, instead of using eight sieves at once, four sieves are stacked, and the first stage is divided into two stages, such as 500 to 212 μm, and the second stage is 180 to 75 μm. Do work. The time for sieving is 1 minute.
  (Gel modulus test)
(1) Place 2.0 g of sample in a 50 ml beaker and add 50 ml of physiological saline to make a 25-fold swollen gel.
(2) The elastic modulus of the swollen gel is measured with a card meter. The measurement conditions of the card meter are as follows.
  Card meter condition: Spring weight 200g
                      Pressure shaft diameter 8mm
                      Movable shaft plate lifting speed 0.4mm / sec
[0101]
  Next, various absorbers were produced from these superabsorbent polymers and pulp by the airlaid method described above. Moreover, the thing which abbreviate | omitted pressurization thinning was also manufactured. This is shown in Table 1.
[0102]
[Table 1]

[0103]
  Furthermore, the following test was done about these manufactured absorbers. The test results are shown in Table 2.
[0104]
  <Absorbent sheet performance measurement test>
  (Absorption measurement ... 1)
(1) An absorbent body cut to 100 mm × 150 mm is wrapped with a nonwoven fabric and the periphery is sealed to obtain a sample.
(2) Immerse the sample in artificial urine for 30 minutes.
(3) Drain the sample on the net for 3 minutes and measure the weight (a).
(4) Furthermore, a sample is 20 g / cm.²Drain for 3 minutes under load and measure weight (b).
(5) Remove the absorbent from the sample, measure the weight (c) of the remaining non-woven fabric, and absorb the amount A after absorbing under normal pressure and draining it under normal pressure according to the following formula: Then, the absorption amount B after draining is calculated.
  Absorption A (cc / cm²) = (Ac) / 150
  Absorption amount B (cc / cm²) = (Bc) / 150
[0105]
  (Absorption measurement ... 2)
(1) An absorbent body cut to 100 mm × 150 mm is wrapped with a nonwoven fabric and the periphery is sealed to obtain a sample.
(2) 20g / cm on the sample²Soaked in artificial urine for 30 minutes under the condition of
(3) The sample is taken out from the artificial urine, drained for 3 minutes as it is, and the weight (d) is measured.
(4) The absorbent body is taken out from the sample, the weight (e) of the remaining nonwoven fabric is measured, and the amount of absorption C after absorbing under load and draining under load is calculated according to the following formula.
  Absorption C (cc / cm²) = (D−e) / 150
[0106]
  (Measurement of absorption rate)
(1) An absorber cut into 100 mm × 150 mm is placed on a table as a sample.
(2) A cylindrical instrument (support portion 150 mm × 150 mm) having an inner diameter of 27 mm is placed in the center of the sample.
(3) Put a weight on the cylindrical device. A: 600 g in total (4 g / cm²) And B: 3.0 kg (20 g / cm²) Perform this test for both cases.
(4) Inject artificial urine and measure the absorption rate. The artificial urine is injected three times at an interval of 10 minutes with a volume of 40 cc.
[0107]
  <Diaper performance measurement test>
  (45 degree liquid flow test)
(1) A second sheet / top sheet is placed on an absorber cut to 100 mm × 300 mm, and four sides are sealed to obtain a sample.
(2) A sample is stuck on a 45-degree inclined plate, and a mark is placed at a position 50 mm from the top.
(3) Set the surface flow measurement injection container and drop it at a height of 10 mm from the mark position at 12.5 cc / sec. The artificial urine is dripped in an amount of 50 cc four times at 10 minute intervals.
(4) Measure the surface flow distance and measure the diffusion distance (distance from the mark) in the absorbent body after 5 minutes.
[0108]
  (Strike-through / return test)
(1) A second sheet / top sheet is placed on an absorber cut to 100 mm × 300 mm, and four sides are sealed to obtain a sample.
(2) A cylindrical instrument (support portion 150 mm × 150 mm) having an inner diameter of 27 mm is placed in the center of the sample. The cylindrical instrument is weighted as necessary.
(3) Drop artificial urine and measure the absorption rate. The artificial urine is dripped in a 50 cc amount three times at 10 minute intervals.
(4) Measure the diffusion distance in the absorbent body after 5 minutes.
(5) Ten minutes after the third dripping, place kitchen paper (2 ply products, 3 layers, 4 folds), apply a load with a 5 kg weight for 10 seconds, and measure the amount of reversion.
[0109]
  (Absorption rate)
(1) A second sheet / top sheet is placed on an absorber cut to 120 mm × 300 mm, and four sides are sealed to obtain a sample.
(2) Set the sample on the U-shaped instrument.
(3) Put a U-shaped instrument with a sample on the hammock and place two 500g weights on it.
(4) Inject 100 cc of artificial urine and measure the absorption rate.
(5) Immediately after measuring the diffusion distance, inject 100 cc of artificial urine again.
(6) The absorption rate is measured at the time of injection, and the diffusion distance in the absorbent body is measured after 10 minutes.
[0110]
[Table 2]

[0111]
【The invention's effect】
  As described above, according to the present invention, it is possible to provide an absorbent body capable of exhibiting an absorption performance equivalent to that of a conventional one that is not thinned while being thinned. Moreover, it becomes an absorbent article which has sufficient softness | flexibility by making the elasticity of an absorber into a predetermined range.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of a stiffness test.
FIG. 2 is a longitudinal sectional view schematically showing a hole processing absorber.
FIG. 3 is a plan view schematically showing a hole processing absorber.
[Figure 4] (A) Is an enlarged vertical cross-sectional view of the main part showing the form of the through hole, (B) Is an enlarged vertical cross-sectional view of the main part showing the shape of the hollow.
FIG. 5 is a schematic diagram of a hole processing apparatus.
FIG. 6 is an enlarged vertical cross-sectional view of a main part of hole processing.
FIG. 7 is a schematic diagram of a manufacturing apparatus according to the present invention.
FIG. 8 is a plan view of the main part of the belt of the belt conveyor.
FIG. 9 is a front view of the drum type air array device.
FIG. 10 (a) is an enlarged longitudinal sectional view of a main part of an absorbent article to which a thin absorbent body according to the present invention is applied, and FIG. It is an enlarged vertical sectional view.
FIG. 11 is a plan view from the use surface side in the unfolded state of the first embodiment of the pant-type diaper for term explanation.
FIG. 12 is a plan view from the use surface side in the unfolded state of the first embodiment of the pant-type diaper.
13 is a view taken along line 5-5 in FIG.
FIG. 14 is a perspective view of the usage state.
FIG. 15 is a plan view from the use surface side in the unfolded state of the second embodiment of the pant-type diaper.
FIG. 16 is a perspective view of a main part of a second embodiment of a pants-type diaper.
FIG. 17 is a plan view from the use surface side in the unfolded state of the third embodiment of the pant-type diaper.
FIG. 18 is a perspective view of an essential part of a third embodiment of a pants-type diaper.
FIG. 19 is a plan view from the use surface side in the unfolded state of the fourth embodiment of the pant-type diaper.
FIG. 20 is an explanatory view of an arrangement form of the elastic members.
FIG. 21 is a diagram showing a design example of the product front and back.
FIG. 22 is a plan view from the use surface side in a developed state according to another embodiment.
FIG. 23 is a plan view from the use surface side in a developed state according to another embodiment.
FIG. 24 is a plan view from the use surface side in a developed state of still another embodiment.
FIG. 25 is a plan view from the use surface side in an unfolded state in which a shaping elastic member is provided.
FIG. 26 is a plan view from the use surface side in an unfolded state in which a shaping elastic member is provided.
FIG. 27 is a plan view from the use surface side in the unfolded state of the first embodiment of the tape-type paper diaper.
FIG. 28 is a view showing the position corresponding to the line 5-5.
FIG. 29 is a plan view from the use surface side in a developed state of the tape-type paper diaper according to the second embodiment.
FIG. 30 is a view showing a position corresponding to the line 5-5.
FIG. 31 is a plan view from the use surface side in the unfolded state of the embodiment in which another elastic member is provided.
FIG. 32 is a plan view from the use surface side in the unfolded state of the embodiment in which another elastic member is provided.
FIG. 33 is a front view of the disposable diaper in use, showing a preferred example of the crotch width.
FIG. 34 is a schematic diagram of an absorption test under pressure.
[Explanation of symbols]
  DESCRIPTION OF SYMBOLS 101 ... Absorber, 102 ... Hole, 130 ... Absorber manufacturing apparatus, 131 ... Endless belt conveyor, 132 ... Scattering chute, 133 ... Suction device, 134 ...heatingPressure roll group, 135 ... winding roll, S ... absorber sheet.

Claims (10)

An airlaid absorber obtained by compressing and thinning an absorbent fiber and a superabsorbent polymer which are collected and formed by defibrating and mixing by an airlay method ,
The superabsorbent polymer has a gel elastic modulus of 2000 N / m ² or more according to a gel elastic modulus test and an artificial urine absorption amount under a pressure of 20 g / cm ² according to an absorption test under pressure of 32 cc / g, and The ratio of the superabsorbent polymer to the total weight of the superabsorbent polymer and the absorbent fiber is 40 to 80% by weight ,
The absorber, integrated and 150 kg / m ³ or more density by press圧薄-type after molding, and the absorber body fluid absorbent article and having a thickness of 1.0 to 2.0 mm. The absorbent body of the body fluid absorbent article according to claim 1, wherein the superabsorbent polymer has an absorption rate of 30 cc of artificial urine by an absorption rate test of 60 seconds / g or less. The absorbent body of the body fluid absorbent article according to claim 1 or 2, wherein the superabsorbent polymer has a gel permeation rate test value of 100 seconds or less per 50 cc permeation amount and 300 seconds or less per 100 cc permeation amount. . The body fluid absorption according to any one of claims 1 to 3, wherein the superabsorbent polymer is a particulate superabsorbent polymer in which the number of particles having a particle size of 250 µm or less is 20% or less based on the total number of particles. Absorber for functional articles . The absorbent body of a body fluid absorbent article according to any one of claims 1 to 4 , wherein the absorbent body has a value measured by a stiffness test of 10 mm or less. The absorbent body for a body fluid absorbent article according to any one of claims 1 to 5, wherein a large number of processed holes having a depth of 30% or more with respect to the thickness are formed in the absorbent body from the surface side. A superabsorbent polymer and absorbent fibers introduced by air flow from a plurality of spray chutes spaced apart in the transport direction are accumulated and molded while being defibrated and mixed by the air array method, and a plurality of dispersers are spaced apart in the transport direction. It was thinned by pressurization with a pressurized roll ,
The superabsorbent polymer has a gel elastic modulus of 2000 N / m ² or more according to a gel elastic modulus test and an artificial urine absorption amount under a pressure of 20 g / cm ² according to an absorption test under pressure of 32 cc / g, and The ratio of the superabsorbent polymer to the total weight of the superabsorbent polymer and the absorbent fiber is 40 to 80% by weight ,
The absorber manufacturing method of the absorbent body of the body fluid absorbent article, characterized in that the thickness of the integrated and 150 kg / m ³ or more density by press圧薄-type after molding, and 1.0~2.0mm . An absorbent article comprising the absorbent body of the body fluid absorbent article according to any one of claims 1 to 6 . The absorbent article of Claim 8 which does not have an expansion-contraction member inside the part corresponding to the side edge vicinity of the said absorber. The both side edge part of the front body and back body of an external shape sheet | seat is joined in a use condition, a waist opening part and a right-and-left leg opening part are formed, and a center part is described in any one of Claims 1-6. In the disposable diaper provided with the absorbent of the body fluid absorbent article ,
A paper diaper characterized in that the crotch side end of the outer shape sheet is located within 5 mm from the crotch side end of the absorber.

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