JP6636855B2 - Absorbent articles - Google Patents
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- JP6636855B2 JP6636855B2 JP2016093462A JP2016093462A JP6636855B2 JP 6636855 B2 JP6636855 B2 JP 6636855B2 JP 2016093462 A JP2016093462 A JP 2016093462A JP 2016093462 A JP2016093462 A JP 2016093462A JP 6636855 B2 JP6636855 B2 JP 6636855B2
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- 230000002745 absorbent Effects 0.000 title claims description 15
- 239000002250 absorbent Substances 0.000 title claims description 15
- 238000005304 joining Methods 0.000 claims description 22
- 239000006096 absorbing agent Substances 0.000 claims description 20
- 230000008602 contraction Effects 0.000 claims description 14
- 230000015556 catabolic process Effects 0.000 claims description 4
- 238000006731 degradation reaction Methods 0.000 claims description 4
- 230000006866 deterioration Effects 0.000 claims description 4
- 239000010410 layer Substances 0.000 description 124
- 238000000034 method Methods 0.000 description 34
- 239000000835 fiber Substances 0.000 description 22
- 239000004745 nonwoven fabric Substances 0.000 description 20
- 238000003466 welding Methods 0.000 description 20
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- 239000004698 Polyethylene Substances 0.000 description 10
- 230000037303 wrinkles Effects 0.000 description 9
- 229920000573 polyethylene Polymers 0.000 description 8
- 239000005060 rubber Substances 0.000 description 8
- 239000004743 Polypropylene Substances 0.000 description 7
- 230000035699 permeability Effects 0.000 description 7
- 239000000155 melt Substances 0.000 description 6
- 229920001155 polypropylene Polymers 0.000 description 6
- 229920000728 polyester Polymers 0.000 description 5
- 238000003825 pressing Methods 0.000 description 5
- 239000004831 Hot glue Substances 0.000 description 4
- PPBRXRYQALVLMV-UHFFFAOYSA-N Styrene Chemical compound C=CC1=CC=CC=C1 PPBRXRYQALVLMV-UHFFFAOYSA-N 0.000 description 4
- 239000000853 adhesive Substances 0.000 description 4
- 230000001070 adhesive effect Effects 0.000 description 4
- 238000005520 cutting process Methods 0.000 description 4
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- 238000003672 processing method Methods 0.000 description 4
- 229920000742 Cotton Polymers 0.000 description 3
- 229920000297 Rayon Polymers 0.000 description 3
- 150000001336 alkenes Chemical class 0.000 description 3
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- 229920002994 synthetic fiber Polymers 0.000 description 3
- 239000012209 synthetic fiber Substances 0.000 description 3
- 210000002700 urine Anatomy 0.000 description 3
- VTYYLEPIZMXCLO-UHFFFAOYSA-L Calcium carbonate Chemical compound [Ca+2].[O-]C([O-])=O VTYYLEPIZMXCLO-UHFFFAOYSA-L 0.000 description 2
- 239000004952 Polyamide Substances 0.000 description 2
- XLOMVQKBTHCTTD-UHFFFAOYSA-N Zinc monoxide Chemical compound [Zn]=O XLOMVQKBTHCTTD-UHFFFAOYSA-N 0.000 description 2
- TZCXTZWJZNENPQ-UHFFFAOYSA-L barium sulfate Chemical compound [Ba+2].[O-]S([O-])(=O)=O TZCXTZWJZNENPQ-UHFFFAOYSA-L 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 2
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- 239000002985 plastic film Substances 0.000 description 2
- 229920006124 polyolefin elastomer Polymers 0.000 description 2
- 229920001296 polysiloxane Polymers 0.000 description 2
- 239000004814 polyurethane Substances 0.000 description 2
- 229920002635 polyurethane Polymers 0.000 description 2
- 238000004080 punching Methods 0.000 description 2
- 239000005871 repellent Substances 0.000 description 2
- 241000196324 Embryophyta Species 0.000 description 1
- JOYRKODLDBILNP-UHFFFAOYSA-N Ethyl urethane Chemical compound CCOC(N)=O JOYRKODLDBILNP-UHFFFAOYSA-N 0.000 description 1
- 208000010201 Exanthema Diseases 0.000 description 1
- 240000007594 Oryza sativa Species 0.000 description 1
- 235000007164 Oryza sativa Nutrition 0.000 description 1
- 239000004793 Polystyrene Substances 0.000 description 1
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 1
- 239000002174 Styrene-butadiene Substances 0.000 description 1
- GWEVSGVZZGPLCZ-UHFFFAOYSA-N Titan oxide Chemical compound O=[Ti]=O GWEVSGVZZGPLCZ-UHFFFAOYSA-N 0.000 description 1
- 150000001408 amides Chemical class 0.000 description 1
- MTAZNLWOLGHBHU-UHFFFAOYSA-N butadiene-styrene rubber Chemical compound C=CC=C.C=CC1=CC=CC=C1 MTAZNLWOLGHBHU-UHFFFAOYSA-N 0.000 description 1
- 229910000019 calcium carbonate Inorganic materials 0.000 description 1
- 229920002301 cellulose acetate Polymers 0.000 description 1
- 239000004927 clay Substances 0.000 description 1
- 229910052570 clay Inorganic materials 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
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- 230000013872 defecation Effects 0.000 description 1
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- 230000000694 effects Effects 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 150000002148 esters Chemical class 0.000 description 1
- 201000005884 exanthem Diseases 0.000 description 1
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- 239000000945 filler Substances 0.000 description 1
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- 238000010438 heat treatment Methods 0.000 description 1
- 239000011256 inorganic filler Substances 0.000 description 1
- 229910003475 inorganic filler Inorganic materials 0.000 description 1
- 230000001788 irregular Effects 0.000 description 1
- 238000004898 kneading Methods 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000002156 mixing Methods 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- JRZJOMJEPLMPRA-UHFFFAOYSA-N olefin Natural products CCCCCCCC=C JRZJOMJEPLMPRA-UHFFFAOYSA-N 0.000 description 1
- 239000012188 paraffin wax Substances 0.000 description 1
- 239000000049 pigment Substances 0.000 description 1
- 229920003023 plastic Polymers 0.000 description 1
- 239000004033 plastic Substances 0.000 description 1
- 229920000642 polymer Polymers 0.000 description 1
- 229920005672 polyolefin resin Polymers 0.000 description 1
- 229920002223 polystyrene Polymers 0.000 description 1
- 206010037844 rash Diseases 0.000 description 1
- 239000002994 raw material Substances 0.000 description 1
- 230000002940 repellent Effects 0.000 description 1
- 229920005989 resin Polymers 0.000 description 1
- 239000011347 resin Substances 0.000 description 1
- 235000009566 rice Nutrition 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 239000011115 styrene butadiene Substances 0.000 description 1
- 229920003048 styrene butadiene rubber Polymers 0.000 description 1
- 229920000247 superabsorbent polymer Polymers 0.000 description 1
- 239000002344 surface layer Substances 0.000 description 1
- 239000000454 talc Substances 0.000 description 1
- 229910052623 talc Inorganic materials 0.000 description 1
- 229920002725 thermoplastic elastomer Polymers 0.000 description 1
- OGIDPMRJRNCKJF-UHFFFAOYSA-N titanium oxide Inorganic materials [Ti]=O OGIDPMRJRNCKJF-UHFFFAOYSA-N 0.000 description 1
- 238000009423 ventilation Methods 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
- 239000011787 zinc oxide Substances 0.000 description 1
Landscapes
- Absorbent Articles And Supports Therefor (AREA)
Description
本発明は、弾性フィルムをシート層で挟んでなる弾性フィルム伸縮構造を備えた吸収性物品に関する。 The present invention relates to an absorbent article having an elastic film elastic structure in which an elastic film is sandwiched between sheet layers.
吸収性物品においては、身体表面へのフィット性を向上するために、脚周りや胴周り等の適所に伸縮性を付与することが一般的である。伸縮性を付与するための手法としては、従来、糸ゴム等の細長状弾性伸縮部材を長手方向に伸長した状態で多数並べて固定する手法が広く採用されているが、面的なフィット性に優れるものとして、弾性フィルムを伸縮性の付与方向に伸長した状態で取り付ける手法も提案されている。(例えば特許文献1参照)。 In an absorbent article, in order to improve the fit to the body surface, it is general to give elasticity to appropriate places such as around the legs and around the torso. Conventionally, as a method for imparting elasticity, a method of arranging and fixing a number of elongated elastic elastic members such as thread rubber in a state of being elongated in the longitudinal direction has been widely adopted, but is excellent in area fit. As an alternative, a method has been proposed in which an elastic film is attached while being stretched in a direction in which elasticity is imparted. (See, for example, Patent Document 1).
この弾性フィルムをシート層で挟んだ伸縮構造(以下、弾性フィルム伸縮構造ともいう)は、伸縮領域が不織布からなる第1シート層と、不織布からなる第2シート層との間に弾性フィルムが積層されてなるとともに、弾性フィルムがそれらの表面に沿う伸縮方向に伸長された状態で、第1シート層及び第2シート層が、伸縮方向及びこれと直交する方向にそれぞれ間隔を空けて配列された多数の接合部で、弾性フィルムに形成された貫通孔を通じて接合されてなるものである。このような弾性フィルム伸縮構造は、自然長状態では、接合部間において弾性フィルムが収縮するのに伴い、接合部の間隔が狭くなり、第1シート層及び第2シート層における接合部間に伸縮方向と交差する方向に延びる収縮皺が形成される。反対に伸長時には、接合部間において弾性フィルムが伸長するのに伴い、接合部の間隔及び第1シート層及び第2シート層における収縮皺が広がり、第1シート層及び第2シート層の完全展開状態まで弾性伸長が可能となる。この弾性フィルム伸縮構造は、面的なフィット性に優れるのはもちろん、第1シート層及び第2シート層と弾性フィルムとの接合が無く、かつ第1シート層及び第2シート層の接合も極めて少ないため非常に柔軟であり、また、弾性フィルムの貫通孔が通気性向上にも寄与するという利点がある。 The elastic film in which the elastic film is sandwiched between sheet layers (hereinafter, also referred to as elastic film elastic structure) has a structure in which an elastic film is laminated between a first sheet layer made of a nonwoven fabric and a second sheet layer made of a nonwoven fabric. The first sheet layer and the second sheet layer are arranged at intervals in the stretching direction and in a direction perpendicular to the stretching direction in a state where the elastic film is stretched in the stretching direction along the surface thereof. A large number of joints are joined through through holes formed in the elastic film. In such a stretchable elastic film structure, in the natural length state, as the elastic film contracts between the joints, the interval between the joints becomes narrower, and the elastic film expands and contracts between the joints in the first sheet layer and the second sheet layer. Shrinking wrinkles are formed that extend in a direction intersecting the direction. Conversely, when the elastic film is stretched between the joints, the interval between the joints and the shrinkage wrinkles in the first sheet layer and the second sheet layer are widened, and the first sheet layer and the second sheet layer are completely developed. Elastic extension is possible up to the state. This elastic film stretch structure has excellent surface fitting properties, of course, there is no bonding between the first sheet layer and the second sheet layer and the elastic film, and very little bonding between the first sheet layer and the second sheet layer. There is an advantage that it is very flexible because it is small, and that the through holes of the elastic film also contribute to the improvement of air permeability.
他方で、吸収体物品においては、任意の部分にのみ伸縮性を付与する場合であっても、製造を容易にするために、伸縮性を付与する伸縮領域を含めた広範囲に弾性伸縮部材を取り付けた後、伸縮性が不要な非伸縮領域については、弾性伸縮部材による収縮力が作用しない状態に加工する(以下、伸縮性を殺すともいう)ことが行われてきた。例えば、パンツタイプ使い捨ておむつの胴周りに幅方向の伸縮性を付与する場合、幅方向全体にわたり細長状弾性伸縮部材を取り付けた後、吸収体と重なる幅方向中央部を細かく切断し、当該部分の伸縮性を殺すことが広く行われている。 On the other hand, in the absorbent article, even if elasticity is imparted only to an arbitrary portion, in order to facilitate manufacturing, elastic elastic members are attached to a wide area including an elastic region for imparting elasticity. After that, a non-stretchable region that does not require stretchability has been processed so that the contraction force of the elastic stretch member does not act (hereinafter, also referred to as killing the stretchability). For example, when imparting elasticity in the width direction around the trunk of a pants-type disposable diaper, after attaching an elongated elastic elastic member over the entire width direction, the width direction central portion overlapping with the absorber is finely cut, and Killing elasticity is widely practiced.
しかし、糸ゴムを用いた伸縮構造において糸ゴムの切断により伸縮性を殺す手法は、弾性フィルム伸縮構造にそのまま応用するとすれば、伸縮方向と交差する方向に弾性フィルム全体を切断することになり、広範囲にわたり連続的な切断が必要となるため、第1シート層及び第2シート層が切断されるおそれや、切断されないとしても第1シート層及び第2シート層に切断痕跡(溶融痕跡や加圧痕跡)が大きく残るおそれがある。 However, the method of cutting elasticity by cutting thread rubber in the elastic structure using thread rubber, if applied directly to the elastic film elastic structure, would cut the entire elastic film in the direction intersecting the stretching direction, Since continuous cutting is required over a wide range, the first sheet layer and the second sheet layer may be cut, or even if the first sheet layer and the second sheet layer are not cut, the first sheet layer and the second sheet layer may have cutting traces (melting traces and pressures). (Trace) may remain largely.
そこで本発明の主たる課題は、弾性フィルム伸縮構造における新規な非伸縮領域及びその形成形態を提供することにある。 Therefore, a main object of the present invention is to provide a novel non-stretchable region in an elastic film stretchable structure and a formation form thereof.
上記課題を解決した吸収性物品は、
第1シート層と、第2シート層との間に弾性フィルムが積層されてなるとともに、前記弾性フィルムが伸縮方向に伸縮可能であり、前記第1シート層及び第2シート層が、前記伸縮方向及びこれと直交する方向にそれぞれ間隔を空けて配列された多数の接合部で、前記弾性フィルムに形成された貫通孔を通じて接合された、弾性フィルム伸縮構造を備えており、
この弾性フィルム伸縮構造を有する領域は、非伸縮領域と、この非伸縮領域の少なくとも伸縮方向一方側に設けられた、前記伸縮方向に伸縮可能な伸縮領域とを有しており、
前記非伸縮領域では、前記接合部の面積率が前記伸縮領域よりも高いことにより、前記伸縮方向の弾性限界伸びが130%以下とされている、
ことを特徴とするものである。
Absorbent articles that have solved the above problems ,
An elastic film is laminated between a first sheet layer and a second sheet layer, and the elastic film can expand and contract in the expansion and contraction direction, and the first and second sheet layers are in the expansion and contraction directions. And, with a large number of joints arranged at intervals in a direction orthogonal to this, and joined through a through hole formed in the elastic film, comprising an elastic film stretchable structure,
The region having the elastic film stretchable structure has a non-stretchable region and a stretchable region that is provided on at least one side in the stretchable direction of the non-stretchable region and that can be stretched in the stretchable direction.
In the non-stretchable region, since the area ratio of the joint portion is higher than that of the stretchable region, the elastic limit elongation in the stretchable direction is 130% or less.
It is characterized by the following .
弾性フィルム伸縮構造の伸縮性を殺す手法について検討した結果、第1シート層及び第2シート層間に弾性フィルムを伸縮領域の伸縮方向に伸長しつつ挟んだ状態で、それらを伸縮方向及びこれと直交する方向にそれぞれ間隔を空けて配列された多数箇所で溶着することにより、多数箇所で弾性フィルムを溶融して貫通孔を形成するとともに、その貫通孔の位置で第1シート層及び第2シート層を接合する手法により弾性フィルム伸縮構造を形成する手法において、接合部の面積率(単位面積当たりの割合)をある程度以上に高くすると、伸縮性を実質的に殺すことができるという知見を得た。すなわち、このような弾性フィルム伸縮構造では、基本的に接合部の面積率が高くなるほど第1シート層及び第2シート層が弾性フィルムにより収縮する部分、つまり貫通孔間の部分が少なくなるため、弾性限界伸びが低下する傾向がある。そして、接合部の面積率がある程度以上に高くなると、弾性限界伸びの低下とともに、弾性フィルムの貫通孔間の部分の大部分が溶着の際の熱により劣化して弾性が低下することにより、伸縮性がほぼ消失し、非伸縮となるのである。したがって、本吸収性物品によれば、伸縮性を実質的に殺しながらも、伸縮領域及び非伸縮領域における弾性フィルムの連続性を維持でき、見栄えも良好になる。
ここで、「弾性限界伸び」とは、弾性限界(換言すれば第1シート層及び第2シート層が完全に展開した状態)における伸びを意味し、弾性限界時の長さを自然長を100%としたときの百分率で表すものであり、「面積率」とは単位面積に占める対象部分の割合を意味し、対象領域(例えば伸縮領域、非伸縮領域)における対象部分(例えば接合部、貫通孔の開口)の総面積を当該対象領域の面積で除して百分率で表すものであり、特に「接合部の面積率」とは、伸縮方向に弾性限界まで伸ばした状態の面積率を意味するものである。
As a result of examining a method of killing the elasticity of the elastic film elastic structure, the elastic film is sandwiched between the first sheet layer and the second sheet layer while extending in the elastic direction of the elastic region, and the elastic film is stretched in the elastic direction and perpendicular to the elastic direction. Are welded at a large number of places arranged at intervals in the direction in which the elastic film is melted at a large number of places to form through holes, and the first sheet layer and the second sheet layer are formed at the positions of the through holes. In the technique of forming the elastic film elastic structure by the technique of joining, when the area ratio (the ratio per unit area) of the joint portion is increased to a certain level or more, it has been found that the elasticity can be substantially killed. That is, in such an elastic film elastic structure, since the first sheet layer and the second sheet layer are contracted by the elastic film, that is, the portion between the through holes is basically reduced as the area ratio of the joining portion is increased, The elastic limit elongation tends to decrease. When the area ratio of the joint becomes higher than a certain level, the elastic limit elongation decreases, and most of the portions between the through holes of the elastic film are deteriorated by heat at the time of welding and the elasticity is reduced. The property almost disappears and it does not expand or contract. Therefore, according to the present absorbent article , the continuity of the elastic film in the stretchable region and the non-stretchable region can be maintained while substantially reducing the stretchability, and the appearance is improved.
Here, the “elastic limit elongation” means the elongation at the elastic limit (in other words, the state where the first sheet layer and the second sheet layer are completely expanded), and the length at the elastic limit is 100 times the natural length. %, And the “area ratio” means the ratio of the target portion to the unit area, and the target portion (for example, the joint, the penetration, The total area of the openings (openings of the holes) is divided by the area of the target region and expressed as a percentage. In particular, the “area ratio of the joint portion” means the area ratio in a state in which the area extends to the elastic limit in the direction of expansion and contraction. Things.
上述の吸収性物品は、前身頃及び後身頃を構成する外装体と、この外装体の内面に固定された、吸収体を含む内装体とを備え、前身頃における外装体の両側部と後身頃における外装体の両側部とがそれぞれ接合されてサイドシール部が形成されることにより、胴周り部が環状に形成されるとともに、ウエスト開口及び左右一対の脚開口が形成された、パンツタイプ使い捨ておむつであって、
前記前身頃及び後身頃の少なくとも一方における前記外装体は、少なくとも前後方向の一部の範囲における前記サイドシール部間に対応する幅方向範囲にわたり、前記弾性フィルム伸縮構造を、その伸縮方向が幅方向となるように備えており、
この弾性フィルム伸縮構造を有する領域のうち、前記吸収体と重なる領域内に前記非伸縮領域を有しており、その幅方向両側に前記伸縮領域を有している、
と好ましい。
The above-described absorbent article includes an outer body constituting a front body and a rear body, and an inner body including an absorber fixed to an inner surface of the outer body, and both sides of the outer body in the front body and a rear body. The disposable diaper having a waist opening and a pair of right and left leg openings formed by joining a side seal portion by joining the both side portions of the outer body to each other to form a waist opening and a pair of left and right leg openings. And
The exterior body in at least one of the front body and the back body extends in the width direction corresponding to the space between the side seal portions in at least a part of the front-rear direction, and the elastic film elastic structure has the elastic direction in the width direction. It is prepared so that
Among the regions having the elastic film stretching structure, the non-stretching region is provided in a region overlapping with the absorber, and the stretching region is provided on both sides in the width direction.
Is preferred .
本発明によれば、弾性フィルム伸縮構造に良好な非伸縮領域を形成できる、等の利点がもたらされる。 ADVANTAGE OF THE INVENTION According to this invention, the advantage that a favorable non-stretchable area | region can be formed in an elastic film stretchable structure is brought.
以下、本発明の一実施形態について、添付図面を参照しつつ詳説する。なお、断面図中の点模様部分はホットメルト接着剤等の接合手段を示している。
図1〜図7はパンツタイプ使い捨ておむつを示している。このパンツタイプ使い捨ておむつ(以下、単におむつともいう。)は、前身頃F及び後身頃Bをなす外装体20と、この外装体20の内面に固定され一体化された内装体10とを有しており、内装体10は液透過性表面シート11と液不透過性裏面側シート12との間に吸収体13が介在されてなるものである。製造に際しては、外装体20の内面(上面)に対して内装体10の裏面がホットメルト接着剤などの接合手段によって接合(図7の斜線部分10B)された後に、内装体10及び外装体20が前身頃F及び後身頃Bの境界である前後方向(縦方向)中央で折り畳まれ、その両側部が相互に熱溶着又はホットメルト接着剤などによって接合されてサイドシール部21が形成されることによって、ウエスト開口及び左右一対の脚開口が形成されたパンツタイプ使い捨ておむつとなる。
Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The dot pattern in the cross-sectional view indicates a joining means such as a hot melt adhesive.
1 to 7 show a pants-type disposable diaper. The pants-type disposable diaper (hereinafter, also simply referred to as a diaper) includes an outer body 20 forming a front body F and a back body B, and an inner body 10 fixed to and integrated with the inner surface of the outer body 20. The inner body 10 has an absorbent body 13 interposed between a liquid-permeable top sheet 11 and a liquid-impermeable back side sheet 12. At the time of manufacturing, after the back surface of the inner body 10 is joined to the inner surface (upper surface) of the outer body 20 by a joining means such as a hot melt adhesive (shaded portion 10B in FIG. 7), the inner body 10 and the outer body 20 are joined. Is folded at the center in the front-rear direction (longitudinal direction), which is the boundary between the front body F and the back body B, and both sides thereof are joined to each other by heat welding or hot melt adhesive to form the side seal portion 21. Thereby, a pants-type disposable diaper having a waist opening and a pair of left and right leg openings is formed.
(内装体の構造例)
内装体10は、図4〜図6に示すように、不織布などからなる液透過性表面シート11と、ポリエチレン等からなる液不透過性裏面側シート12との間に、吸収体13を介在させた構造を有しており、表面シート11を透過した排泄液を吸収保持するものである。内装体10の平面形状は特に限定されないが、図示形態のようにほぼ長方形とすることが一般的である。
(Example of structure of interior body)
As shown in FIGS. 4 to 6, the inner body 10 has an absorber 13 interposed between a liquid-permeable top sheet 11 made of a nonwoven fabric or the like and a liquid-impermeable backside sheet 12 made of polyethylene or the like. It has a structure which absorbs and retains the excreted liquid that has passed through the topsheet 11. The planar shape of the interior body 10 is not particularly limited, but is generally a substantially rectangular shape as shown in the illustrated embodiment.
吸収体13の表面側(肌当接面側)を覆う液透過性表面シート11としては、有孔又は無孔の不織布や多孔性プラスチックシートなどが好適に用いられる。不織布を構成する素材繊維は、ポリエチレン又はポリプロピレン等のオレフィン系、ポリエステル系、ポリアミド系等の合成繊維の他、レーヨンやキュプラ等の再生繊維、綿等の天然繊維とすることができ、スパンレース法、スパンボンド法、サーマルボンド法、メルトブローン法、ニードルパンチ法等の適宜の加工法によって得られた不織布を用いることができる。これらの加工法の内、スパンレース法は柔軟性、ドレープ性に富む点で優れ、サーマルボンド法は嵩高でソフトである点で優れている。液透過性表面シート11に多数の透孔を形成した場合には、尿などが速やかに吸収されるようになり、ドライタッチ性に優れたものとなる。液透過性表面シート11は、吸収体13の側縁部を巻き込んで吸収体13の裏面側まで延在している。 As the liquid-permeable surface sheet 11 that covers the surface side (skin contact surface side) of the absorber 13, a perforated or non-porous nonwoven fabric or a porous plastic sheet is preferably used. The material fibers constituting the non-woven fabric can be synthetic fibers such as olefins such as polyethylene or polypropylene, polyesters, polyamides, etc., recycled fibers such as rayon and cupra, and natural fibers such as cotton. A nonwoven fabric obtained by an appropriate processing method such as a spun bond method, a thermal bond method, a melt blown method, and a needle punch method can be used. Among these processing methods, the spunlace method is excellent in that it is rich in flexibility and drapability, and the thermal bond method is excellent in that it is bulky and soft. When a large number of through-holes are formed in the liquid-permeable top sheet 11, urine and the like are quickly absorbed, resulting in excellent dry touch properties. The liquid-permeable topsheet 11 extends to the back side of the absorber 13 wrapping around the side edge of the absorber 13.
吸収体13の裏面側(非肌当接面側)を覆う液不透過性裏面側シート12は、ポリエチレン又はポリプロピレンなどの液不透過性プラスチックシートが用いられるが、近年はムレ防止の点から透湿性を有するものが好適に用いられる。この遮水・透湿性シートは、例えばポリエチレンやポリプロピレン等のオレフィン樹脂中に無機充填材を溶融混練してシートを形成した後、一軸又は二軸方向に延伸することにより得られる微多孔性シートである。 A liquid-impermeable backing sheet 12 covering the back side (non-skin contacting side) of the absorber 13 is a liquid-impermeable plastic sheet such as polyethylene or polypropylene. Those having wetness are preferably used. This water-impermeable and moisture-permeable sheet is, for example, a microporous sheet obtained by melt-kneading an inorganic filler in an olefin resin such as polyethylene or polypropylene to form a sheet, and then stretching it uniaxially or biaxially. is there.
吸収体13としては、公知のもの、例えばパルプ繊維の積繊体、セルロースアセテート等のフィラメントの集合体、あるいは不織布を基本とし、必要に応じて高吸収性ポリマーを混合、固着等してなるものを用いることができる。この吸収体13は、形状及びポリマー保持等のため、必要に応じてクレープ紙等の、液透過性及び液保持性を有する包装シート14によって包装することができる。
吸収体13の形状は、股間部に前後両側よりも幅の狭い括れ部分13Nを有するほぼ砂時計状に形成されているが、長方形状等、適宜の意形状とすることができる。括れ部分13Nの寸法は適宜定めることができるが、括れ部分13Nの前後方向長さはおむつ全長の20〜50%程度とすることができ、その最も狭い部分の幅は吸収体13の全幅の40〜60%程度とすることができる。このような括れ部分13Nを有する場合において、内装体10の平面形状がほぼ長方形とされていると、内装体10における吸収体13の括れ部分13Nと対応する部分に、吸収体13を有しない余り部分が形成される。
The absorber 13 is a known one, for example, a pile of pulp fibers, an aggregate of filaments such as cellulose acetate, or a nonwoven fabric, and is obtained by mixing and fixing a superabsorbent polymer as necessary. Can be used. The absorber 13 can be packaged with a packaging sheet 14 having liquid permeability and liquid holding properties, such as crepe paper, if necessary, for holding the shape and the polymer.
The shape of the absorber 13 is formed in an approximately hourglass shape having a constricted portion 13N narrower than the front and rear sides at the crotch portion, but may be any suitable shape such as a rectangular shape. Although the size of the constricted portion 13N can be appropriately determined, the length of the constricted portion 13N in the front-rear direction can be about 20 to 50% of the entire length of the diaper, and the width of the narrowest portion is 40% of the entire width of the absorber 13. About 60%. In the case where the inner body 10 has such a constricted portion 13N, if the planar shape of the inner body 10 is substantially rectangular, the remaining portion of the inner body 10 corresponding to the constricted portion 13N of the absorber 13 does not have the absorber 13. A part is formed.
内装体10の両側部には脚周りにフィットする立体ギャザーBSが形成されている。この立体ギャザーBSは、図5及び図6に示されるように、内装体の裏面の側部に固定された固定部と、この固定部から内装体の側方を経て内装体の表面の側部まで延在する本体部と、本体部の前後端部が倒伏状態で内装体の表面の側部に固定されて形成された倒伏部分と、この倒伏部分間が非固定とされて形成された自由部分とが、折り返しによって二重シートとしたギャザー不織布15により形成されている。 Solid gathers BS that fit around the legs are formed on both sides of the interior body 10. As shown in FIGS. 5 and 6, the three-dimensional gather BS includes a fixing portion fixed to the side of the back surface of the inner body, and a side portion of the surface of the inner body through the side of the inner body from the fixing portion. A main body portion extending to the front, a front and rear end portion of the main body portion being laid down and fixed to a side portion of the surface of the interior body, and a free portion formed by fixing the bottom portion to the side portion. The portion is formed of a gathered nonwoven fabric 15 formed into a double sheet by folding.
また、二重シート間には、自由部分の先端部等に細長状ギャザー弾性部材16が配設されている。ギャザー弾性部材16は、製品状態において図5に二点鎖線で示すように、弾性伸縮力により自由部分を起立させて立体ギャザーBSを形成するためのものである。 Further, between the double sheets, an elongated gather elastic member 16 is disposed at a free end portion or the like. The gather elastic member 16 is used to form a three-dimensional gather BS by erecting a free part by elastic stretching force as shown by a two-dot chain line in FIG. 5 in a product state.
液不透過性裏面側シート12は、液透過性表面シート11とともに吸収体13の幅方向両側で裏側に折り返されている。この液不透過性裏面側シート12としては、排便や尿などの褐色が出ないように不透明のものを用いるのが望ましい。不透明化としては、プラスチック中に、炭酸カルシウム、酸化チタン、酸化亜鉛、ホワイトカーボン、クレイ、タルク、硫酸バリウムなどの顔料や充填材を内添してフィルム化したものが好適に使用される。 The liquid-impermeable back sheet 12 is folded back together with the liquid-permeable top sheet 11 on both sides in the width direction of the absorber 13. As the liquid-impermeable back side sheet 12, it is desirable to use an opaque sheet so as to prevent browning such as defecation and urine. As the opacity, a film formed by internally adding a pigment or a filler such as calcium carbonate, titanium oxide, zinc oxide, white carbon, clay, talc, barium sulfate or the like to a plastic is preferably used.
ギャザー弾性部材16としては、通常使用されるスチレン系ゴム、オレフィン系ゴム、ウレタン系ゴム、エステル系ゴム、ポリウレタン、ポリエチレン、ポリスチレン、スチレンブタジエン、シリコーン、ポリエステル等の素材を用いることができる。また、外側から見え難くするため、太さは925dtex以下、テンションは150〜350%、間隔は7.0mm以下として配設するのがよい。なお、ギャザー弾性部材16としては、図示形態のような糸状の他、ある程度の幅を有するテープ状のものを用いることもできる。 As the gather elastic member 16, a commonly used material such as styrene-based rubber, olefin-based rubber, urethane-based rubber, ester-based rubber, polyurethane, polyethylene, polystyrene, styrene-butadiene, silicone, and polyester can be used. In addition, in order to make it difficult to see from the outside, it is preferable that the thickness is 925 dtex or less, the tension is 150 to 350%, and the interval is 7.0 mm or less. As the gather elastic member 16, a tape-shaped member having a certain width can be used in addition to a thread-shaped member as shown in the illustrated embodiment.
前述のギャザー不織布15を構成する素材繊維も液透過性表面シート11と同様に、ポリエチレン又はポリプロピレン等のオレフィン系、ポリエステル系、アミド系等の合成繊維の他、レーヨンやキュプラ等の再生繊維、綿等の天然繊維とすることができ、スパンボンド法、サーマルボンド法、メルトブローン法、ニードルパンチ法等の適宜の加工方法に得られた不織布を用いることができるが、特にはムレを防止するために坪量を抑えて通気性に優れた不織布を用いるのがよい。さらにギャザー不織布15については、尿などの透過を防止するとともに、カブレを防止しかつ肌への感触性(ドライ感)を高めるために、シリコーン系、パラフィン金属系、アルキルクロミッククラロイド系撥水剤などをコーティングした撥水処理不織布を用いるのが望ましい。 The material fibers constituting the gathered nonwoven fabric 15 are, similarly to the liquid-permeable surface sheet 11, olefin-based, polyester-based, amide-based, or other synthetic fibers such as polyethylene or polypropylene, as well as recycled fibers such as rayon or cupra, and cotton. Natural fibers such as spun bond method, thermal bond method, melt blown method, non-woven fabric obtained by an appropriate processing method such as a needle punch method can be used, especially to prevent stuffiness It is preferable to use a nonwoven fabric which has a low basis weight and is excellent in air permeability. Further, the gathered nonwoven fabric 15 is a silicone-based, paraffin-based metal-based, alkylchromic claroid-based water repellent to prevent the penetration of urine and the like, to prevent rash, and to enhance the feel (dryness) to the skin. It is desirable to use a water-repellent non-woven fabric coated with such a material.
(外装体の構造例)
外装体20は、図4〜図6にも示されるように、第1シート層20A及び第2シート層20Bの間に、弾性フィルム30及び幅方向に沿う細長状弾性部材24が配設され、幅方向の伸縮性が付与されている。外装体20の平面形状は、中間両側部にそれぞれ脚開口を形成するために形成された凹状の脚周りライン29により、全体として擬似砂時計形状をなしている。外装体20は、前後に二分割し、両者が股間部で前後方向に離間するように配置しても良い。
(Example of exterior structure)
As shown in FIGS. 4 to 6, the exterior body 20 is provided with an elastic film 30 and an elongated elastic member 24 along the width direction between the first sheet layer 20A and the second sheet layer 20B, Elasticity in the width direction is provided. The planer shape of the exterior body 20 has a pseudo hourglass shape as a whole due to the concave leg surrounding lines 29 formed to form the leg openings on both sides of the middle. The exterior body 20 may be divided into two parts in the front and rear, and may be arranged so that both are separated at the crotch part in the front and rear direction.
より詳細に説明すると、図示形態の外装体20においては、前身頃Fと後身頃Bとが接合されたサイドシール部21の縦方向範囲として定まる胴周り領域Tの内、ウエスト部23にウエスト部弾性部材24が設けられている。図示形態のウエスト部弾性部材24は、縦方向に間隔をおいて配置された複数の糸ゴム等の細長状弾性部材であり、身体の胴周りを締め付けるように伸縮力を与えるものである。ウエスト部弾性部材24は、間隔を密にして実質的に一束として配置されるのではなく、所定の伸縮ゾーンを形成するように3〜8mm程度の間隔を空けて、3本以上、好ましくは5本以上配置される。ウエスト部弾性部材24の固定時の伸長率は適宜定めることができるが、通常の成人用の場合230〜320%程度とすることができる。ウエスト部弾性部材24としては、一本又は複数本の帯状弾性部材を用いることもできる。 More specifically, in the exterior body 20 of the illustrated embodiment, the waist portion 23 has a waist portion 23 in a waist portion 23 of a waist portion T defined as a vertical range of the side seal portion 21 to which the front body F and the back body B are joined. An elastic member 24 is provided. The waist elastic member 24 in the illustrated form is an elongated elastic member such as a plurality of thread rubbers arranged at intervals in the longitudinal direction, and gives an elastic force so as to tighten around the body of the body. The waist elastic members 24 are not arranged close to each other and are substantially arranged as a single bundle. Instead, the waist elastic members 24 are spaced at intervals of about 3 to 8 mm so as to form a predetermined elastic zone, and three or more, preferably, Five or more are arranged. Although the elongation rate when the waist elastic member 24 is fixed can be determined as appropriate, it can be about 230 to 320% for a normal adult. As the waist elastic member 24, one or a plurality of belt-like elastic members may be used.
ウエスト部弾性部材24は、図示例では糸ゴムを用いたが、例えばテープ状の伸縮部材を用いても良く、またこれに代えて、後述の弾性フィルムをウエスト部23まで延在させてもよい。図示形態のウエスト部弾性部材24は、第2シート層20Bの構成材をウエスト開口縁で内面側に折り返してなる折り返し部分20Cに挟持されているが、第1シート層20Aの構成材と第2シート層20Bの構成材との間に挟持しても良い。 As the waist elastic member 24, thread rubber is used in the illustrated example, but a tape-shaped elastic member may be used, for example. Alternatively, an elastic film described later may extend to the waist 23. . The waist elastic member 24 in the illustrated embodiment is sandwiched between the folded portion 20C formed by folding the constituent material of the second sheet layer 20B inward at the waist opening edge, and the constituent material of the first sheet layer 20A and the second member. It may be sandwiched between the components of the sheet layer 20B.
第1シート層20A及び第2シート層20Bの構成材は、シート状のものであれば特に限定無く使用できるが、通気性及び柔軟性の観点から不織布を用いることが好ましい。不織布は、その原料繊維が何であるかは特に限定されない。例えば、ポリエチレンやポリプロピレン等のオレフィン系、ポリエステル系、ポリアミド系等の合成繊維、レーヨンやキュプラ等の再生繊維、綿等の天然繊維などや、これらから二種以上が使用された混合繊維、複合繊維などを例示することができる。さらに、不織布は、どのような加工によって製造されたものであってもよい。加工方法としては、公知の方法、例えば、スパンレース法、スパンボンド法、サーマルボンド法、メルトブローン法、ニードルパンチ法、エアスルー法、ポイントボンド法等を例示することができる。不織布を用いる場合、その目付けは10〜25g/m2程度とするのが好ましい。また、第1シート層20A及び第2シート層20Bは、その一部又は全部が一枚の資材を折り返して対向させた一対の層であっても良い。 The constituent materials of the first sheet layer 20A and the second sheet layer 20B can be used without any particular limitation as long as they are sheet-shaped, but it is preferable to use a nonwoven fabric from the viewpoint of air permeability and flexibility. The material of the nonwoven fabric is not particularly limited. For example, synthetic fibers such as olefins such as polyethylene and polypropylene, polyesters and polyamides, regenerated fibers such as rayon and cupra, natural fibers such as cotton, and mixed fibers and composite fibers using two or more of these. And the like. Further, the nonwoven fabric may be manufactured by any processing. Examples of the processing method include known methods, for example, a spunlace method, a spunbond method, a thermal bond method, a melt blown method, a needle punch method, an air through method, a point bond method, and the like. When a nonwoven fabric is used, the basis weight is preferably about 10 to 25 g / m 2 . In addition, the first sheet layer 20A and the second sheet layer 20B may be a pair of layers in which a part or the whole thereof is formed by folding a single material and facing each other.
本実施形態では、図2に示すように、外装体20における前身頃Fの胴周り領域T、後身頃Bの胴周り領域T、及びそれらの間の中間領域Lに、弾性フィルム伸縮構造20Xが形成されている。すなわち、この外装体20の伸縮構造20Xでは、吸収体13と重なる部分を含む幅方向中間部分(重なる部分の一部でも全部でも良く、内装体固定部10Bのほぼ全体を含むことが望ましい)に非伸縮領域70が設けられるとともに、その幅方向両側におけるサイドシール部21までの部分が伸縮領域80とされている。そして、これら伸縮領域80及び非伸縮領域70の全体にわたり、図3に示すように、第1シート層20Aと、第2シート層20Bとの間に弾性フィルム30が積層されてなるとともに、弾性フィルム30が幅方向に伸長された状態で、第1シート層20A及び第2シート層20Bが、伸縮方向及びこれと直交する方向(図示形態のようなパンツタイプ使い捨ておむつではそれぞれ幅方向及び前後方向)にそれぞれ間隔を空けて配列された多数の接合部40で、弾性フィルム30に形成された貫通孔31を通じて接合されている。この場合、第1シート層20A及び第2シート層20Bと弾性フィルム30(後述の溶融固化物除く)とは接合されていないことが望ましいが、接合することも可能である。 In the present embodiment, as shown in FIG. 2, the elastic film elastic structure 20 </ b> X is provided in the waistline region T of the front body F, the waistline region T of the backbody B, and the intermediate region L therebetween in the exterior body 20. Is formed. That is, in the elastic structure 20 </ b> X of the exterior body 20, an intermediate portion in the width direction including a portion overlapping the absorber 13 (a part or all of the overlapping portion may be included, and it is desirable to include substantially the entire interior body fixing portion 10 </ b> B). A non-stretchable region 70 is provided, and a portion up to the side seal portion 21 on both sides in the width direction is a stretchable region 80. As shown in FIG. 3, the elastic film 30 is laminated between the first sheet layer 20 </ b> A and the second sheet layer 20 </ b> B over the entire stretchable region 80 and the non-stretchable region 70. In a state where 30 is stretched in the width direction, the first sheet layer 20A and the second sheet layer 20B are in the stretching direction and the direction orthogonal thereto (the width direction and the front-rear direction in the pants-type disposable diaper as illustrated). Are joined through through holes 31 formed in the elastic film 30 at a large number of joints 40 arranged at intervals. In this case, it is desirable that the first sheet layer 20A and the second sheet layer 20B and the elastic film 30 (excluding a melt-solidified material described later) are not joined, but they can be joined.
伸縮領域80では、図3(d)に示すように、弾性フィルム30の自然長状態で、接合部間の第1シート層20A及び第2シート層20Bが互いに離間する方向に膨らんで、伸縮方向と交差する方向に延びる収縮皺25が形成され、図3(c)に示すように、幅方向にある程度伸長した装着状態でも、収縮皺25は伸ばされるものの、残るようになっている。また、図示形態のように、第1シート層20A及び第2シート層20Bは、少なくとも接合部40における第1シート層20A及び第2シート層20B間以外では弾性フィルム30と接合されていないと、装着状態を想定した図3(c)及び第1シート層20A及び第2シート層20Bの完全展開状態を想定した図3(a)(b)からも分かるように、これらの状態では、弾性フィルム30における接合部の貫通孔31と、接合部40との間に隙間が形成され、弾性フィルム30の素材が無孔のフィルムやシートであっても、この隙間により通気性が付加される。なお、装着状態及び自然長状態の収縮皺25の状態は、図13及び図14のサンプル写真にも現れている。伸縮領域80の弾性限界伸びは、接合部40の面積率により調整することができ、通常の場合、伸縮領域80の伸縮方向の弾性限界伸びは200%以上(好ましくは265〜295%)とすることが望ましい。 In the elastic region 80, as shown in FIG. 3D, in the natural length state of the elastic film 30, the first sheet layer 20A and the second sheet layer 20B between the joints expand in the direction in which the elastic film 30 separates from each other, and Wrinkles 25 extending in a direction intersecting with the wrinkles 25 are formed, and as shown in FIG. 3 (c), even in a mounted state where the wrinkles 25 extend to some extent in the width direction, the wrinkles 25 are stretched but remain. Further, as shown in the illustrated embodiment, the first sheet layer 20A and the second sheet layer 20B are not joined to the elastic film 30 except at least between the first sheet layer 20A and the second sheet layer 20B in the joint 40. As can be seen from FIG. 3 (c) assuming the mounted state and FIGS. 3 (a) and 3 (b) assuming the fully expanded state of the first sheet layer 20A and the second sheet layer 20B, in these states, the elastic film A gap is formed between the through-hole 31 of the joint at 30 and the joint 40, and even if the material of the elastic film 30 is a non-porous film or sheet, air permeability is added by the gap. The state of the shrinking wrinkles 25 in the mounted state and the natural length state also appears in the sample photographs of FIGS. The elastic limit elongation of the elastic region 80 can be adjusted by the area ratio of the joint portion 40. In a normal case, the elastic limit elongation in the elastic direction of the elastic region 80 is 200% or more (preferably 265 to 295%). It is desirable.
特徴的には、図9に示すように、非伸縮領域70では、接合部40の面積率が伸縮領域80よりも高いこと及び弾性フィルム30における貫通孔31間の部分の一部又は全部が熱劣化により弾性が低下された熱劣化部分32とされていることにより、伸縮方向の弾性限界伸びが130%以下(好ましくは120%以下、より好ましくは100%)とされる。非伸縮領域70では、図13及び図14のサンプル写真からも分かるように、接合部40間に筋状に盛り上がった部分あるいは極めて微小な皺が形成されるが、接合部40の面積率が非常に高く、かつ接合部40間の部分も弾性フィルム30が熱劣化して熱劣化部分32となっているために、伸縮性は実質的に殺されることになる。しかも、伸縮領域80及び非伸縮領域70における弾性フィルム30の連続性を維持でき、見栄えも良好になる。 Characteristically, as shown in FIG. 9, in the non-stretchable region 70, the area ratio of the joining portion 40 is higher than that in the stretchable region 80, and a part or all of the portion between the through holes 31 in the elastic film 30 is heated. Since the heat-deteriorated portion 32 has reduced elasticity due to deterioration, the elastic limit elongation in the stretching direction is 130% or less (preferably 120% or less, more preferably 100%). In the non-stretchable region 70, as can be seen from the sample photographs in FIGS. 13 and 14, a streaky bulging portion or an extremely small wrinkle is formed between the joining portions 40, but the area ratio of the joining portion 40 is very small. In addition, since the elastic film 30 is thermally degraded into the thermally degraded portion 32 at the portion between the joints 40, the elasticity is substantially eliminated. In addition, the continuity of the elastic film 30 in the stretchable region 80 and the non-stretchable region 70 can be maintained, and the appearance can be improved.
個々の接合部40及び貫通孔31の自然長状態での形状は、真円形、楕円形、長方形等の多角形(線状や角丸のものを含む)、星形、雲形等、任意の形状とすることができる。 The shapes of the individual joints 40 and the through holes 31 in the natural length state are arbitrary shapes such as polygons (including linear and rounded shapes) such as a perfect circle, an ellipse, and a rectangle, a star, and a cloud. It can be.
個々の接合部40の大きさは、適宜定めれば良いが、大きすぎると接合部40の硬さが感触に及ぼす影響が大きくなり、小さすぎると接合面積が少なく資材同士が十分に接着できなくなるため、通常の場合、個々の接合部40の面積は0.14〜0.75mm2程度とすることが好ましい。個々の貫通孔31の開口の面積は、貫通孔31を介して接合部が形成されるため接合部以上であれば良いが、接合部40の面積の1〜1.5倍程度とすることが好ましい。なお、貫通孔31の開口の面積は、当該伸縮構造20Xが自然長の状態における値を意味し、貫通孔31の開口の面積が、弾性フィルム30の表と裏で異なる等、厚み方向に均一でない場合には最小値を意味する。 The size of the individual joints 40 may be appropriately determined, but if it is too large, the hardness of the joints 40 has a large effect on the feel, and if it is too small, the joint area is small and the materials cannot be bonded sufficiently. Therefore, in the normal case, it is preferable that the area of each joint portion 40 is about 0.14 to 0.75 mm 2 . The area of the opening of each through-hole 31 may be equal to or larger than the joint because the joint is formed through the through-hole 31, but may be about 1 to 1.5 times the area of the joint 40. preferable. The area of the opening of the through hole 31 means a value in a state where the elastic structure 20X has a natural length, and the area of the opening of the through hole 31 is uniform in the thickness direction such that the front and back of the elastic film 30 are different. If not, it means the minimum value.
また、各領域における個々の接合部40の面積及び面積率は、通常の場合次のようにするのが好ましい。
(非伸縮領域70)
接合部40の面積:0.14〜0.75mm2(特に0.14〜0.35mm2)
接合部40の面積率:19〜53%
(伸縮領域80)
接合部40の面積:0.14〜3.5mm2(特に0.14〜1.0mm2)
接合部40の面積率:1.8〜19.1%(特に1.8〜10.6%)
In addition, it is preferable that the area and the area ratio of the individual bonding portion 40 in each region are usually as follows.
(Non-stretchable area 70)
Area of the joint 40: 0.14 to 0.75 mm 2 (particularly 0.14 to 0.35 mm 2 )
Area ratio of the joint 40: 19 to 53%
(Elastic area 80)
Area of the joint 40: 0.14 to 3.5 mm 2 (particularly 0.14 to 1.0 mm 2 )
Area ratio of the joint 40: 1.8 to 19.1% (especially 1.8 to 10.6%)
このように非伸縮領域70及び伸縮領域80における接合部40の面積率を異なるものとするには、図10(a)に示すように単位面積当たりの接合部40の数を変えたり、図10(b)に示すように個々の接合部40の面積を変えたりすればよい。前者の場合、接合部40の面積を、非伸縮領域70及び伸縮領域80で同じとすることも、異なるものとすることもでき、後者の場合、単位面積当たりの接合部40の数を、非伸縮領域70伸縮領域80で同じとすることも、異なるものとすることもできる。 In order to make the area ratios of the joints 40 in the non-stretchable region 70 and the stretchable region 80 different as described above, the number of the joints 40 per unit area can be changed as shown in FIG. The area of each joint 40 may be changed as shown in FIG. In the former case, the area of the joint 40 can be the same in the non-stretchable region 70 and the stretchable region 80 or can be different. In the latter case, the number of the joints 40 per unit area is The elastic region 70 can be the same or different in the elastic region 80.
接合部40及び貫通孔31の平面配列は適宜定めることができるが、規則的に繰り返される平面配列が好ましく、図15(a)に示すような斜方格子状や、図15(b)に示すような六角格子状(これらは千鳥状ともいわれる)、図15(c)に示すような正方格子状、図15(d)に示すような矩形格子状、図15(e)に示すような平行体格子(図示のように、多数の平行な斜め方向の列の群が互いに交差するように2群設けられる形態)状等(これらが伸縮方向に対して90度未満の角度で傾斜したものを含む)のように規則的に繰り返されるものの他、接合部40の群(群単位の配列は規則的でも不規則でも良く、模様や文字状等でも良い)が規則的に繰り返されるものとすることもできる。接合部40及び貫通孔31の配列形態は、伸縮領域80及び非伸縮領域70において同じものとする他、異なるものとすることもできる。 The planar arrangement of the bonding portion 40 and the through-holes 31 can be determined as appropriate, but is preferably a planar arrangement that is regularly repeated, such as an oblique lattice shape as shown in FIG. Hexagonal lattices (these are also called staggered), square lattices as shown in FIG. 15C, rectangular lattices as shown in FIG. 15D, and parallel as shown in FIG. A body lattice (a form in which two groups of a large number of parallel oblique rows are provided so as to intersect with each other as shown in the figure), etc. (these are inclined at an angle of less than 90 degrees with respect to the stretching direction. In addition to those that are regularly repeated as described above, the groups of the joints 40 (the arrangement of the groups may be regular or irregular, and may be patterns or characters) may be repeated regularly. Can also. The arrangement of the joints 40 and the through holes 31 may be the same in the stretchable region 80 and the non-stretchable region 70, or may be different.
図11に示すように、吸収体13と重なる部分以外にも、例えば接合部40を表示71状に配置する等した非伸縮領域70を設けることができる。なお、表示71としては、吸収性物品の分野で公知の表示、例えば装飾のための模様(ワンポイントの絵やキャラクターを含む)、使用方法や使用補助、サイズ等の機能表示、あるいは製造者や製品名、特徴的機能等の標章表示等とすることができる。図示形態では、植物模様である花模様の表示71が付加されているが、抽象模様や動物模様、自然現象模様等、各種の模様を使用できることはいうまでもない。 As shown in FIG. 11, a non-stretchable region 70 in which, for example, the joint portion 40 is arranged in the form of a display 71 can be provided other than the portion overlapping the absorber 13. In addition, as the display 71, a display known in the field of absorbent articles, for example, a pattern for decoration (including a one-point picture or a character), a method of use or use assistance, a function display such as a size, A mark such as a product name and a characteristic function can be displayed. In the illustrated form, a flower pattern display 71 as a plant pattern is added, but it goes without saying that various patterns such as an abstract pattern, an animal pattern, and a natural phenomenon pattern can be used.
弾性フィルム30は特に限定されるものではなく、それ自体弾性を有し、熱劣化により弾性が低下する樹脂フィルムであれば特に限定なく用いることができ、例えば、スチレン系エラストマー、オレフィン系エラストマー、ポリエステル系エラストマー、ポリアミド系エラストマー及びポリウレタン系エラストマー等の熱可塑性エラストマーの1種又は2種以上のブレンド物を、Tダイ法やインフレーション法などの押出成形によりフィルム状に加工したものを用いることができる。また、弾性フィルム30としては、無孔のものの他、通気のために多数の孔やスリットが形成されたものも用いることができる。特に、伸縮方向における引張強度が8〜25N/35mm、伸縮方向と直交する方向における引張強度が5〜20N/35mm、伸縮方向における引張伸度が450〜1050%、及び伸縮方向と直交する方向における引張伸度が450〜1400%の弾性フィルム30であると好ましい。なお、引張強度及び引張伸度(破断伸び)は、引張試験機(例えばSHIMADZU社製のAUTOGRAPH AGS−G100N)を用い、試験片を幅35mm×長さ80mmの長方形状とした以外は、JIS K7127:1999「プラスチック−引張特性の試験方法−」に準じて、初期チャック間隔を50mmとし、引張速度を300mm/minとして測定される値を意味する。弾性フィルム30の厚みは特に限定されないが、20〜40μm程度であるのが好ましい。また、弾性フィルム30の目付は特に限定されないが、30〜45g/m2程度であるのが好ましく、特に30〜35g/m2程度であるのが好ましい。 The elastic film 30 is not particularly limited, and may be used without particular limitation as long as it is a resin film which has elasticity itself and decreases in elasticity due to thermal deterioration. Examples thereof include a styrene-based elastomer, an olefin-based elastomer, and a polyester. One or a blend of two or more thermoplastic elastomers such as a system-based elastomer, a polyamide-based elastomer, and a polyurethane-based elastomer may be processed into a film by extrusion molding such as a T-die method or an inflation method. The elastic film 30 may be a non-porous film or a film having a large number of holes and slits for ventilation. In particular, the tensile strength in the stretching direction is 8 to 25 N / 35 mm, the tensile strength in the direction perpendicular to the stretching direction is 5 to 20 N / 35 mm, the tensile elongation in the stretching direction is 450 to 1050%, and the direction is perpendicular to the stretching direction. It is preferable that the elastic film 30 has a tensile elongation of 450 to 1400%. The tensile strength and the tensile elongation (elongation at break) were measured using a tensile tester (for example, AUTOGRAPH AGS-G100N manufactured by Shimadzu Corporation), except that the test piece was formed in a rectangular shape having a width of 35 mm and a length of 80 mm according to JIS K7127. : In accordance with 1999 "Plastic-Testing method for tensile properties-", it means a value measured at an initial chuck interval of 50 mm and a tensile speed of 300 mm / min. The thickness of the elastic film 30 is not particularly limited, but is preferably about 20 to 40 μm. The weight of the elastic film 30 is not particularly limited, but is preferably about 30 to 45 g / m 2 , and particularly preferably about 30 to 35 g / m 2 .
非伸縮領域70において、弾性フィルム30における貫通孔31間の部分の一部又は全部が熱劣化により弾性が低下されている限り、接合部40における第1シート層20A及び第2シート層20Bの接合は特に限定されない。例えば、接合部40における第1シート層20A及び第2シート層20Bの接合はホットメルト接着剤によりなされていても、ヒートシールや超音波シール等の素材溶着による接合手段によりなされていても良い。素材溶着による接合手段を用いる場合、特許文献1記載のように、弾性フィルムの貫通孔を押し出しにより形成し、その貫通孔の位置で第1シート層20A及び第2シート層20Bを直接に溶着により接合することもできるが、剥離強度が低く、強い力が加わると剥がれるおそれがある。また、特許文献1記載のものは、弾性フィルムの貫通孔を押し出しにより形成するため、図8(b)に示すように、第1シート層20A及び第2シート層20B間に弾性フィルム30が残らず、貫通孔31の周囲に図示しない押し出し破片が移動可能に残るおそれもある。
よって、素材溶着による接合手段を用いる場合には、図8(a)に示すように、接合部40における第1シート層20A及び第2シート層20Bの接合が、少なくとも、第1シート層20A及び第2シート層20Bにわたる弾性フィルム30の溶融固化物30mによりなされている形態が好ましい。このように弾性フィルム30の溶融固化物30mを接着剤として第1シート層20A及び第2シート層20Bを接合すると、剥離強度が高いものとなり、高い通気性と高い剥離強度とを両立できるようになる。
In the non-stretchable region 70, the joining of the first sheet layer 20A and the second sheet layer 20B in the joining portion 40 is performed as long as the elasticity of the elastic film 30 between the through holes 31 is partially or entirely reduced by thermal degradation. Is not particularly limited. For example, the bonding of the first sheet layer 20A and the second sheet layer 20B at the bonding portion 40 may be performed by a hot melt adhesive, or may be performed by bonding means such as heat sealing or ultrasonic sealing. When using joining means by material welding, as described in Patent Document 1, a through hole of an elastic film is formed by extrusion, and the first sheet layer 20A and the second sheet layer 20B are directly welded at the position of the through hole. Although they can be joined, they have low peel strength and may be peeled off when a strong force is applied. In the case of Patent Document 1, since the through holes of the elastic film are formed by extrusion, as shown in FIG. 8B, the elastic film 30 remains between the first sheet layer 20A and the second sheet layer 20B. Alternatively, there is a possibility that extruded fragments (not shown) remain movably around the through hole 31.
Therefore, when using the joining means by material welding, as shown in FIG. 8A, the joining of the first sheet layer 20A and the second sheet layer 20B at the joining portion 40 is at least performed by the first sheet layer 20A and the second sheet layer 20B. It is preferable that the elastic film 30 is formed by the molten and solidified product 30m over the second sheet layer 20B. When the first sheet layer 20A and the second sheet layer 20B are joined using the molten and solidified product 30m of the elastic film 30 as an adhesive as described above, the peel strength becomes high, so that both high air permeability and high peel strength can be achieved. Become.
このような接合構造は、例えば図18及び図19に示すように、第1シート層20Aと第2シート層20Bとの間に、弾性フィルム30を伸縮方向と直交する方向にほぼ均等な伸長率で伸縮方向に伸長しつつ挟んだ状態で、伸縮領域80及び非伸縮領域70の所定の接合部40のパターンで溶着することにより、多数箇所で弾性フィルム30を溶融して貫通孔31を形成すると同時に、その貫通孔31の位置で少なくとも弾性フィルム30の溶融物の固化により第1シート層20A及び第2シート層20Bを接合する手法を用いて簡素かつ効率的に製造することができる。この手法により製造される伸縮領域80及び非伸縮領域70では、自然長状態では、個々の接合部40の形状・面積と個々の貫通孔31の形状・面積とがほぼ等しくなる。そして、この手法を用いて伸縮領域80及び非伸縮領域70の溶着を行う際、非伸縮領域70では、接合部40の面積率を伸縮領域80よりも高くし、溶着の熱を弾性フィルム30における貫通孔31間の部分の一部又は全部に伝えることにより、当該貫通孔31間の部分の一部又は全部を溶着の熱により劣化させて弾性を低下させることにより、前述の熱劣化部分32を有する非伸縮領域70を形成することができる。よって、非常に簡素かつ効率的に伸縮領域80及び非伸縮領域70を有する弾性フィルム30伸縮構造20Xを製造することができる。また、製造される伸縮領域80は、高い通気性と高い剥離強度とを両立したものとなる。 As shown in FIGS. 18 and 19, for example, such a joint structure can provide a substantially uniform elongation rate between the first sheet layer 20A and the second sheet layer 20B in a direction orthogonal to the direction of expansion and contraction. In a state where the elastic film 30 is sandwiched while being stretched in the expansion and contraction direction, and is welded in a predetermined pattern of the joint portion 40 between the expansion and contraction region 80 and the non-stretchable region 70, the elastic film 30 is melted at many places to form the through holes 31. At the same time, it is possible to simply and efficiently manufacture the first sheet layer 20A and the second sheet layer 20B at a position of the through hole 31 by joining at least the melt of the elastic film 30 to join the first sheet layer 20A and the second sheet layer 20B. In the stretchable region 80 and the non-stretchable region 70 manufactured by this method, in the natural length state, the shape and area of each joint 40 and the shape and area of each through hole 31 are substantially equal. Then, when welding the stretchable region 80 and the non-stretchable region 70 using this method, in the non-stretchable region 70, the area ratio of the joining portion 40 is set higher than that in the stretchable region 80, and the heat of welding is reduced in the elastic film 30. By transmitting a part or all of the portion between the through holes 31 to partially or entirely degrade the portion between the through holes 31 by the heat of welding to reduce the elasticity, the above-described thermally deteriorated portion 32 is formed. The non-stretchable region 70 can be formed. Therefore, the elastic film 30 elastic structure 20X having the elastic region 80 and the non-elastic region 70 can be manufactured very simply and efficiently. In addition, the manufactured elastic region 80 has both high air permeability and high peel strength.
なお、図18は、パンツタイプ使い捨ておむつの製造方法の一例を示したものである。この製造ラインは、おむつ幅方向がMD方向(マシンディレクション、ライン流れ方向)となる横流れ形態となっており、ここで外装体20が形成され、別のラインで製造された内装体10が外装体20に取り付けられた後、前後方向中央で折り畳んで前後の外装体20の両側部が接合されるとともに、個々のおむつDPに分割される。なお、説明を分かりやすくするために、製造過程で連続している部材についても、製造後の部材と同じ名称及び符号を用いている。 FIG. 18 shows an example of a method for manufacturing a pants-type disposable diaper. This production line has a lateral flow form in which the diaper width direction is the MD direction (machine direction, line flow direction), and the exterior body 20 is formed here, and the interior body 10 manufactured in another line is the exterior body. After being attached to the diaper 20, the diaper is folded at the center in the front-rear direction to join both sides of the front and rear exterior body 20 and is divided into individual diapers DP. In addition, in order to make the description easy to understand, the same names and reference numerals are used for the members that are continuous in the manufacturing process as those of the members after manufacturing.
より詳細に説明すると、この製造ラインは、外装体組立工程301、内装体取付工程302、脚開口打ち抜き工程303、折り畳み工程304、側部接合・切り離し工程305を有しており、このうち外装体組立工程301が特徴的な工程となっている。すなわち、外装体組立工程301では、図19に拡大して示すように、所定の幅で帯状に連続する第1シート層20A及び第2シート層20Bがその連続方向に沿って貼り合わされるようにシール装置60,61に供給されるとともに、所定の幅で帯状に連続する弾性フィルム30がシール装置60,61よりも遅い送り速度のニップロール90を経て、その速度差によりMD方向に伸長された状態で第1シート層20A及び第2シート層20B間に挟むようにしてシール装置60,61に供給される。図示形態では、第1シート層20Aを前後別々に供給するために一枚のシート材をスリッター62により二分割しているが、前後別々のシート材を供給しても良く、また第1シート層20Aを前後別々とせず、第2シート層20Bと同様に前後一体的なシート材を供給しても良い。同様に、図示形態では、弾性フィルム30を前後別々に供給するために一枚の弾性フィルム30をスリッター62により二分割しているが、前後別々の弾性フィルム30を供給しても良く、また弾性フィルム30を前後別々とせず、前後一体的な弾性フィルム30を供給しても良い。 More specifically, this production line includes an exterior body assembly step 301, an interior body attachment step 302, a leg opening punching step 303, a folding step 304, and a side joining / separating step 305. The assembling process 301 is a characteristic process. That is, in the exterior body assembling step 301, the first sheet layer 20A and the second sheet layer 20B that are continuous in a band shape with a predetermined width are stuck together in the continuous direction, as shown in an enlarged manner in FIG. A state in which the elastic film 30 that is supplied to the sealing devices 60 and 61 and is continuous in a band shape with a predetermined width passes through the nip roll 90 having a lower feeding speed than the sealing devices 60 and 61 and is stretched in the MD direction due to a difference in speed. Is supplied to the sealing devices 60 and 61 so as to be sandwiched between the first sheet layer 20A and the second sheet layer 20B. In the illustrated embodiment, one sheet material is divided into two by the slitter 62 in order to separately supply the first sheet layer 20A, but separate sheet materials may be supplied before and after the first sheet layer 20A. Instead of separating the front and rear 20A, a front and back integrated sheet material may be supplied similarly to the second sheet layer 20B. Similarly, in the illustrated embodiment, one elastic film 30 is divided into two parts by the slitter 62 in order to separately supply the elastic film 30 before and after. However, separate elastic films 30 before and after the supply may be supplied. The elastic film 30 which is integral with the front and rear may be supplied without separating the film 30 from the front and rear.
シール装置60,61では、前述の伸縮領域80及び非伸縮領域70における接合部40のパターンに配列された多数の加圧凸部60pを外周面に備えたシールロール60と、これに対向配置された表面平滑なアンビルロール61とにより、第1シート層20A、MD方向に伸長した弾性フィルム30、及び第2シート層20Bを挟み、加圧凸部60pを加熱することにより、加圧凸部60pとアンビルロール61の外周面との間で厚み方向に加圧される部位のみ、弾性フィルム30を溶融して貫通孔31を形成するとともに、その貫通孔31の位置で第1シート層20A及び第2シート層20Bを溶着により接合するものである。図示形態のシール装置60,61はヒートシール装置を想定したものであるが、超音波シール等の他の装置を用いることもできる。 In the sealing devices 60 and 61, the seal roll 60 provided on the outer peripheral surface with a large number of pressurizing protrusions 60 p arranged in the pattern of the joints 40 in the above-described stretchable region 80 and the non-stretchable region 70 is disposed to face the seal roll 60. The first sheet layer 20A, the elastic film 30 extended in the MD direction, and the second sheet layer 20B are sandwiched by the anvil roll 61 having a smooth surface, and the pressing protrusion 60p is heated by heating the pressing protrusion 60p. Only at a portion pressed in the thickness direction between the elastic film 30 and the outer peripheral surface of the anvil roll 61, the through hole 31 is formed by melting the elastic film 30, and the first sheet layer 20A and the The two sheet layers 20B are joined by welding. Although the illustrated sealing devices 60 and 61 are assumed to be heat sealing devices, other devices such as an ultrasonic seal may be used.
以降は、公知の製造工程を採用してパンツタイプ使い捨ておむつを形成することができる。図示形態では、シール装置60,61で形成された外装体20に対して、内装体取付工程302で、別ラインで製造される内装体10がMD方向に所定の間隔を空けて供給され、ホットメルト接着剤やヒートシール等の適宜手段により外装体20に対して接合されることにより、内装組み付け体10,20が形成され、次いで脚開口打ち抜き工程303ではカッター装置63により脚開口が順に形成された後、折り畳み工程304において内装組み付け体10,20がCD方向(MD方向と直交する横方向)中央で折り畳まれた後、側部接合・切り離し工程305において、個々のおむつDPの両側部となる部分で前身頃Fの外装体20及び後身頃Bの外装体20が接合されてサイドシール部21が形成されるとともに、個々のおむつの境界で外装体20が切断されて、個々のおむつDPが得られる。 Thereafter, a pants-type disposable diaper can be formed by using a known manufacturing process. In the illustrated embodiment, the inner body 10 manufactured on a separate line is supplied to the outer body 20 formed by the sealing devices 60 and 61 at a predetermined interval in the MD direction in the inner body mounting step 302, The interior assembling bodies 10 and 20 are formed by being joined to the exterior body 20 by an appropriate means such as a melt adhesive or heat sealing, and then in a leg opening punching step 303, leg openings are sequentially formed by the cutter device 63. Then, after the interior assembled bodies 10 and 20 are folded at the center in the CD direction (horizontal direction orthogonal to the MD direction) in the folding step 304, they become both sides of each diaper DP in the side joining / separating step 305. The outer body 20 of the front body F and the outer body 20 of the back body B are joined to form a side seal portion 21 and a boundary of each diaper. And the outer package 20 is cut, the individual diapers DP is obtained.
超音波シール(超音波溶着)を用いて貫通孔31及び接合部40の形成のための溶着を行い、かつその熱を利用して非伸縮領域70の弾性を低下させる場合、製造ラインの速度が遅い(30m/min程度)条件であれば、超音波振動が伝わりやすく、非伸縮領域70における個々の接合部40の面積をある程度大きくすることにより弾性フィルム30の熱劣化面積を十分に確保することができるが、製造ラインの速度が速い(120m/min程度)条件になると、個々の接合部40の面積をある程度まで低減しないと接合部40の溶着が不十分になるおそれがある。しかし、単に接合部40の溶着を十分なものとするために接合部40の面積を低減すると、弾性フィルム30の熱劣化面積が非伸縮とするには不十分となるおそれがある。これに対して、前述のように、非伸縮領域70における接合部40の面積を0.14〜0.75mm2とし、かつ非伸縮領域70における接合部40の面積率を19〜53%とすると、小さな接合部40を狭い間隔で高密度に配置して超音波溶着を行うことになり、溶着が不十分となるおそれが少なく、また弾性フィルム30の熱劣化面積は小さくなるものの、貫通孔31の間隔も狭くなるため十分に非伸縮となる。非伸縮領域70における接合部40の面積を0.14〜0.75mm2とし、かつ非伸縮領域70における接合部40の伸縮方向(MD方向)の間隔40m、及び伸縮方向と直交する方向(CD方向)の間隔40cはそれぞれ1mm以下としても同様である。 When welding for forming the through hole 31 and the joint 40 is performed by using an ultrasonic seal (ultrasonic welding), and the heat is used to reduce the elasticity of the non-stretchable region 70, the speed of the production line is reduced. If the condition is slow (approximately 30 m / min), ultrasonic vibration is easily transmitted, and the area of the individual joints 40 in the non-stretchable region 70 is increased to a certain extent to ensure a sufficient thermal degradation area of the elastic film 30. However, when the speed of the production line is high (about 120 m / min), the welding of the joints 40 may be insufficient unless the area of each joint 40 is reduced to some extent. However, if the area of the joint portion 40 is simply reduced in order to sufficiently weld the joint portion 40, there is a possibility that the heat-deteriorated area of the elastic film 30 is insufficient to make the elastic film 30 non-stretchable. On the other hand, as described above, when the area of the joint 40 in the non-stretchable region 70 is 0.14 to 0.75 mm 2 and the area ratio of the joint 40 in the non-stretchable region 70 is 19 to 53%. The ultrasonic welding is performed by arranging the small joining portions 40 at high density at a small interval, and there is little possibility that the welding becomes insufficient, and the thermal degradation area of the elastic film 30 is reduced. Is also narrow, so that it does not expand and contract sufficiently. The area of the joint 40 in the non-stretchable region 70 is 0.14 to 0.75 mm 2 , and the distance (CD) between the stretch and contraction direction (MD direction) of the joint 40 in the non-stretchable region 70 is 40 m. The same applies to the case where the distances 40c in the directions are 1 mm or less.
また、超音波シール(超音波溶着)を用いて貫通孔31及び接合部40の形成のための溶着を行い、かつその熱を利用して非伸縮領域70の弾性を低下させる場合、接合部40の形状、つまり超音波溶着における溶着パターンの個々の溶着部の形状を図12(b)(c)に示すように、MD方向に長い形状とすると、同じ面積の等方的形状と比べて、弾性フィルム30の熱劣化面積を広くすることができ、また、図12(a)に示すようなCD方向に長い形状と比べて、同時に超音波振動が加わる面積が大きくならないため接合部40の溶着が不十分となりにくいという利点がある。なお、MD方向に長い形状とは、例えば長軸がMD方向に対して45度未満の楕円形、長辺がMD方向に対して45度未満の長方形等の多角形(線状や角丸のものを含む)、長手方向がMD方向に対して45度未満の雲形等を意味するものである。 When welding for forming the through hole 31 and the joint portion 40 is performed by using an ultrasonic seal (ultrasonic welding), and the heat of the welding is used to reduce the elasticity of the non-stretchable region 70, the joint portion 40 may be used. 12B, that is, the shape of each welded portion of the welding pattern in the ultrasonic welding is long in the MD direction as shown in FIGS. 12B and 12C, compared with the isotropic shape having the same area, The area of the elastic film 30 that has been thermally degraded can be increased, and the area to which ultrasonic vibrations are simultaneously applied does not increase as compared with the shape long in the CD direction as shown in FIG. Has the advantage that it is hard to be insufficient. Note that the shape that is long in the MD direction is, for example, a polygon such as an ellipse whose major axis is less than 45 degrees in the MD direction, a rectangle whose long side is less than 45 degrees in the MD direction (linear or rounded corners). And a cloud shape whose longitudinal direction is less than 45 degrees with respect to the MD direction.
前述のように、溶着により接合部40及び貫通孔31の形成を同時に行う場合、弾性フィルム30の融点、並びに第1シート層20A及び第2シート層20Bの融点、溶着箇所における加工温度の高低の関係は適宜定めることができるが、第1シート層20A及び第2シート層20Bの融点が弾性フィルム30の融点以下とされ、溶着箇所において第1シート層20A及び第2シート層20Bの全体及び弾性フィルム30の全体が溶融・混合し、接合部40が形成されるよりも、第1シート層20A及び第2シート層20Bの融点が弾性フィルム30の融点よりも高く、溶着箇所で弾性フィルム30が溶融するとともに、第1シート層20A及び第2シート層20Bの一部又は全部が溶融しない方が好ましい。すなわち、後者の場合、図16及び図17からも分かるように、接合部40の周囲から連続する第1シート層20A及び第2シート層20Bの繊維20fが残っており、第1シート層20A及び第2シート層20Bにわたり浸透し固化した弾性フィルム30の溶融固化物30mにより第1シート層20A及び第2シート層20Bが接合された構造となり、第1シート層20A及び第2シート層20Bに対する弾性フィルム30の溶融固化物30mの食い付きが良好となるだけでなく、第1シート層20A及び第2シート層20Bの強度が低下しにくくなるため、より一層剥離強度に優れたものとなる。なお、第1シート層20A及び第2シート層20Bの一部が溶融しないことには、接合部の全繊維について芯(複合繊維における芯だけでなく単成分繊維の中心部分を含む)は残るがその周囲部分(複合繊維における鞘だけでなく単成分繊維の表層側の部分を含む)は溶融する形態や、一部の繊維は全く溶融しないが、残りの繊維は全部が溶融する又は芯は残るがその周囲部分は溶融する形態を含む。 As described above, when the joint 40 and the through-hole 31 are simultaneously formed by welding, the melting point of the elastic film 30 and the melting points of the first sheet layer 20A and the second sheet layer 20B, and the processing temperature at the welding point may vary. Although the relationship can be appropriately determined, the melting points of the first sheet layer 20A and the second sheet layer 20B are set to be equal to or lower than the melting point of the elastic film 30, and the whole of the first sheet layer 20A and the second sheet layer 20B and the elastic The melting point of the first sheet layer 20A and the second sheet layer 20B is higher than the melting point of the elastic film 30, and the elastic film 30 It is preferable that the first sheet layer 20A and the second sheet layer 20B do not partially or entirely melt while being melted. That is, in the latter case, as can be seen from FIGS. 16 and 17, the fibers 20f of the first sheet layer 20A and the second sheet layer 20B continuous from the periphery of the joint 40 remain, and the first sheet layer 20A and The first sheet layer 20A and the second sheet layer 20B are joined by the molten and solidified product 30m of the elastic film 30 that has permeated and solidified over the second sheet layer 20B, and has an elasticity with respect to the first sheet layer 20A and the second sheet layer 20B. Not only is the bite of the melt-solidified product 30m of the film 30 good, but also the strength of the first sheet layer 20A and the second sheet layer 20B is not easily reduced, so that the peel strength is further improved. In order that the first sheet layer 20A and a part of the second sheet layer 20B do not melt, the core (including the central part of the monocomponent fiber as well as the core in the composite fiber) remains for all the fibers at the joint. The surrounding part (including not only the sheath of the conjugate fiber but also the surface layer side of the monocomponent fiber) melts, or some of the fibers do not melt at all, but the rest of the fibers melt completely or the core remains However, the surrounding portion includes a form in which it melts.
このような観点から、弾性フィルム30の融点は80〜145℃程度のものが好ましく、第1シート層20A及び第2シート層20Bの融点は85〜190℃程度、特に150〜190℃程度のものが好ましく、また、第1シート層20A及び第2シート層20Bの融点と弾性フィルム30の融点との差は60〜80℃程度であるのが好ましい。 From such a viewpoint, the melting point of the elastic film 30 is preferably about 80 to 145 ° C, and the melting points of the first sheet layer 20A and the second sheet layer 20B are about 85 to 190 ° C, particularly about 150 to 190 ° C. The difference between the melting points of the first sheet layer 20A and the second sheet layer 20B and the elastic film 30 is preferably about 60 to 80 ° C.
図1及び図2等に示される例は、外装体20のウエスト部23以外の伸縮構造に弾性フィルム伸縮構造20Xを適用した例であるが、図18に示される例のようにウエスト部23も含めて適用したり、前身頃Fの胴周り領域Tと後身頃Bの胴周り領域Tとの間の中間領域Lには弾性フィルム伸縮構造20Xを設けない形態としたりする等、適宜の変更が可能である。また、上述の伸縮構造20Xは、パンツタイプ使い捨ておむつだけでなく、テープタイプ使い捨ておむつの胴周りやファスニングテープ、吸収性物品全般に汎用されている立体ギャザー、平面ギャザー等、他の伸縮部等にも適用することができる。また、本実施形態は非伸縮領域70を有するものであるが、弾性フィルム30伸縮構造20Xの全体を伸縮領域80とし、非伸縮領域70を有しない形態とすることも可能である。さらにまた、図示例は伸縮方向が幅方向とされているが、前後方向としたり、幅方向及び前後方向の両方向としたりすることも可能である。 The examples shown in FIGS. 1 and 2 and the like are examples in which the elastic film elastic structure 20X is applied to the elastic structure other than the waist portion 23 of the exterior body 20, but as in the example shown in FIG. Appropriate changes may be made such as applying or including such a form that the elastic film elastic structure 20X is not provided in the intermediate region L between the waist circumference region T of the front body F and the waist circumference region T of the back body B. It is possible. In addition, the above-mentioned elastic structure 20X is applicable not only to pants-type disposable diapers, but also to other elastic parts such as a waist around a tape-type disposable diaper, fastening tape, three-dimensional gathers, planar gathers, and the like, which are widely used in absorbent articles in general. Can also be applied. In the present embodiment, the non-stretchable region 70 is provided. However, the entire elastic film 30 stretchable structure 20 </ b> X may be configured as the stretchable region 80, and the non-stretchable region 70 may be omitted. Furthermore, although the expansion and contraction direction is the width direction in the illustrated example, the expansion and contraction direction may be the front and rear direction, or both the width direction and the front and rear direction.
(前後押さえシート)
図1及び図4にも示されるように、外装体20の内面上に取り付けられた内装体10の前後端部をカバーし、且つ内装体10の前後縁からの漏れを防ぐために、前後押さえシート50,60が設けられていても良い。図示形態について更に詳細に説明すると、前押さえシート50は、前身頃F内面のうちウエスト側端部の折り返し部分20Cの内面から内装体10の前端部と重なる位置まで幅方向全体にわたり延在しており、後押さえシート60は、後身頃B内面のうちウエスト側端部の折り返し部分20Cの内面から内装体10の後端部と重なる位置まで幅方向全体にわたり延在している。前後押さえシート50,60の股間側の縁部に幅方向の全体にわたり(中央部のみでも良い)若干の非接着部分を設けると、接着剤がはみ出ないだけでなく、この部分を表面シート11から若干浮かせて防漏壁として機能させることができる。
(Front and back holding sheet)
As shown also in FIGS. 1 and 4, the front and rear holding sheets cover the front and rear ends of the interior body 10 attached on the inner surface of the exterior body 20 and prevent leakage from the front and rear edges of the interior body 10. 50 and 60 may be provided. Explaining the illustrated form in more detail, the front pressing sheet 50 extends over the entire width direction from the inner surface of the folded back portion 20C at the waist side end of the inner surface of the front body F to a position overlapping the front end of the interior body 10. The rear pressing sheet 60 extends over the entire width direction from the inner surface of the folded portion 20C at the waist side end of the inner surface of the rear body B to a position overlapping the rear end of the interior body 10. If a slight non-adhesive portion is provided over the entire crotch-side edge of the front and rear holding sheets 50 and 60 in the width direction (only the central portion may be provided), not only the adhesive does not protrude but also this portion is removed from the topsheet 11. It can be slightly lifted to function as a leak-proof wall.
図示形態のように、前後押さえシート50,60を別体として取り付けると、素材選択の自由度が高くなる利点があるものの、資材や製造工程が増加する等のデメリットもある。そのため、外装体20をおむつ内面に折り返してなる折り返し部分20Cを、内装体10と重なる部分まで延在させて、前述の押さえシート50,60と同等の部分を形成することもできる。 When the front and rear holding sheets 50 and 60 are attached separately as in the illustrated embodiment, there is an advantage that the degree of freedom of material selection is increased, but there are also disadvantages such as an increase in materials and manufacturing processes. Therefore, the folded portion 20 </ b> C formed by folding the outer body 20 on the inner surface of the diaper can be extended to a portion overlapping the inner body 10 to form a portion equivalent to the pressing sheets 50 and 60 described above.
<非伸縮領域の形成試験>
第1シート層20A及び第2シート層20Bとして、繊度1.7〜1.9dtexのPE/PP複合繊維(芯:ポリプロピレン(融点165℃)、鞘:ポリエチレン(融点130℃))を原料とする目付け17g/m2のスパンボンド不織布を、また弾性フィルム30としてExten社製の商品名MD3(目付け35g/m2、厚み:0.04mm、融点:90〜100℃)を使用し、不織布のMD方向が伸縮方向となるようにして弾性フィルムをMD方向に3.5倍に伸長した状態で、図12(b)に示すパターンで、かつ表1に示される各種間隔で、MD方向長さ40mが1mm、CD方向長さ40cが0.5mm、面積が0.5mm2の長方形接合部40及び貫通孔31を超音波シールにより形成し、弾性限界伸びを測定した。超音波シールは、弾性フィルムと第1シート層及び第2シート層の繊維のPE層が溶融する条件を目安として設定した。その結果、表1に示されるように、接合部のMD方向間隔が1mm以下かつCD方向間隔が1mm以下のものは、貫通孔間の大部分が熱劣化したことにより伸縮性が殺されて、非伸縮となることが判明した。
<Formation test of non-stretchable area>
As the first sheet layer 20A and the second sheet layer 20B, PE / PP composite fibers having a fineness of 1.7 to 1.9 dtex (core: polypropylene (melting point: 165 ° C), sheath: polyethylene (melting point: 130 ° C)) are used as raw materials. A spunbond nonwoven fabric having a basis weight of 17 g / m 2 , and MD3 (trade name: 35 g / m 2 , thickness: 0.04 mm, melting point: 90 to 100 ° C.) manufactured by Exten, as the elastic film 30, are used for MD of the nonwoven fabric. With the elastic film stretched 3.5 times in the MD direction so that the direction becomes the stretching direction, the length in the MD direction is 40 m in the pattern shown in FIG. 12B and at various intervals shown in Table 1. The rectangular joint 40 having a length of 1 mm, a length 40c in the CD direction of 0.5 mm, and an area of 0.5 mm 2 was formed by ultrasonic sealing, and the elastic limit elongation was measured. The ultrasonic seal was set based on the conditions under which the elastic film and the PE layers of the fibers of the first sheet layer and the second sheet layer melted. As a result, as shown in Table 1, when the distance between the joints in the MD direction is 1 mm or less and the distance in the CD direction is 1 mm or less, the stretch between the through-holes is deteriorated due to thermal deterioration of most of the through holes, It was found to be non-stretchable.
<明細書中の用語の説明>
明細書中の以下の用語は、明細書中に特に記載が無い限り、以下の意味を有するものである。
・「伸長率」は、自然長を100%としたときの値を意味する。
・「目付け」は次のようにして測定されるものである。試料又は試験片を予備乾燥した後、標準状態(試験場所は、温度20±5℃、相対湿度65%以下)の試験室又は装置内に放置し、恒量になった状態にする。予備乾燥は、試料又は試験片を相対湿度10〜25%、温度50℃を超えない環境で恒量にすることをいう。なお、公定水分率が0.0%の繊維については、予備乾燥を行わなくてもよい。恒量になった状態の試験片から米坪板(200mm×250mm、±2mm)を使用し、200mm×250mm(±2mm)の寸法の試料を切り取る。試料の重量を測定し、1平米あたりの重さを算出し、目付けとする。
・「厚み」は、自動厚み測定器(KES−G5 ハンディ圧縮計測プログラム)を用い、荷重:0.098N/cm2、及び加圧面積:2cm2の条件下で自動測定する。
・試験や測定における環境条件についての記載が無い場合、その試験や測定は、標準状態(試験場所は、温度20±5℃、相対湿度65%以下)の試験室又は装置内で行うものとする。
<Description of terms in the specification>
The following terms in the specification have the following meanings unless otherwise specified in the specification.
-"Elongation rate" means the value when the natural length is 100%.
・ "Cost" is measured as follows. After pre-drying the sample or test piece, the sample or test piece is left in a test room or apparatus in a standard condition (the test place is at a temperature of 20 ± 5 ° C. and a relative humidity of 65% or less) to make it a constant weight. Predrying refers to making a sample or a test piece a constant weight in an environment where the relative humidity is 10 to 25% and the temperature does not exceed 50 ° C. Preliminary drying may not be performed for fibers having an official moisture content of 0.0%. A sample having a size of 200 mm × 250 mm (± 2 mm) is cut from a test piece in a constant weight state using a rice tsubomi (200 mm × 250 mm, ± 2 mm). The weight of the sample is measured, and the weight per square meter is calculated and used as the basis weight.
- "thickness" is used automatic thickness measuring instrument (KES-G5 Handy Compression measurement program), load: 0.098 N / cm 2, and the pressure area: automatically measured under the conditions of 2 cm 2.
-If there is no description of environmental conditions in tests and measurements, the tests and measurements shall be performed in a test room or apparatus under standard conditions (test location: temperature 20 ± 5 ° C, relative humidity 65% or less). .
本発明は、上記例のようなパンツタイプ使い捨ておむつの他、テープタイプ、パッドタイプ等の各種使い捨ておむつ、生理用ナプキン等、伸縮構造を備える吸収性物品全般に利用できるものである。 INDUSTRIAL APPLICABILITY The present invention can be used for general absorbent articles having a stretchable structure, such as various types of disposable diapers such as a tape type and a pad type, sanitary napkins, etc., in addition to the pants type disposable diapers as described above.
B…後身頃、F…前身頃、T…胴周り領域、L…中間領域、10…内装体、11…表面シート、12…液不透過性裏面側シート、13…吸収体、13N…括れ部分、14…包装シート、15…ギャザー不織布、16…ギャザー弾性部材、20…外装体、20A…第1シート層、20B…第2シート層、20C…折り返し部分、20X…伸縮構造、21…サイドシール部、24…ウエスト部弾性部材、25…収縮皺、29…脚周りライン、30…弾性フィルム、31…貫通孔、32…熱劣化部分、40…接合部、70…非伸縮領域、71…表示、80…伸縮領域。 B: back body, F: front body, T: waist area, L: middle area, 10: interior body, 11: top sheet, 12: liquid-impermeable back side sheet, 13: absorber, 13N: constricted portion , 14: packaging sheet, 15: gather nonwoven fabric, 16: gather elastic member, 20: exterior body, 20A: first sheet layer, 20B: second sheet layer, 20C: folded portion, 20X: elastic structure, 21: side seal Part, 24 ... waist elastic member, 25 ... shrinking wrinkle, 29 ... leg circumference line, 30 ... elastic film, 31 ... through hole, 32 ... heat degraded part, 40 ... joint, 70 ... non-stretchable area, 71 ... display , 80...
Claims (4)
この弾性フィルム伸縮構造を有する領域は、非伸縮領域と、この非伸縮領域の少なくとも伸縮方向一方側に設けられた、前記伸縮方向に伸縮可能な伸縮領域とを有しており、
前記非伸縮領域では、前記接合部の面積率が19〜53%であり、前記弾性フィルムにおける前記貫通孔間の部分の一部又は全部が熱劣化により弾性が低下されていることにより、前記伸縮方向の弾性限界伸びが130%以下とされており、
前記接合部の形状がMD方向に長い形状である、
ことを特徴とする吸収性物品。 An elastic film is laminated between a first sheet layer and a second sheet layer, and the elastic film can expand and contract in the expansion and contraction direction, and the first and second sheet layers are in the expansion and contraction directions. And, with a large number of joints arranged at intervals in a direction orthogonal to this, and joined through a through hole formed in the elastic film, comprising an elastic film stretchable structure,
The region having the elastic film stretchable structure has a non-stretchable region and a stretchable region that is provided on at least one side in the stretchable direction of the non-stretchable region and that can be stretched in the stretchable direction.
In the non-stretchable region, the area ratio of the joint portion is 19 to 53%, and the elasticity of the elastic film is partially or entirely reduced by thermal degradation, thereby reducing the elasticity. direction of the elastic limit elongation are 130% or less,
The shape of the joint is a shape long in the MD direction,
An absorbent article characterized by the above.
この弾性フィルム伸縮構造を有する領域は、非伸縮領域と、この非伸縮領域の少なくとも伸縮方向一方側に設けられた、前記伸縮方向に伸縮可能な伸縮領域とを有しており、
前記非伸縮領域では、前記接合部の面積が0.14〜0.75mm2であり、前記接合部の前記伸縮方向の間隔及び前記伸縮方向と直交する方向の間隔がそれぞれ1mm以下であり、前記弾性フィルムにおける前記貫通孔間の部分の一部又は全部が熱劣化により弾性が低下されていることにより、前記伸縮方向の弾性限界伸びが130%以下とされている、
ことを特徴とする吸収性物品。 An elastic film is laminated between a first sheet layer and a second sheet layer, and the elastic film can expand and contract in the expansion and contraction direction, and the first and second sheet layers are in the expansion and contraction directions. And, with a large number of joints arranged at intervals in a direction orthogonal to this, and joined through a through hole formed in the elastic film, comprising an elastic film stretchable structure,
The region having the elastic film stretchable structure has a non-stretchable region and a stretchable region that is provided on at least one side in the stretchable direction of the non-stretchable region and that can be stretched in the stretchable direction.
In the non-stretchable region, the area of the joining portion is 0.14 to 0.75 mm 2 , and the spacing of the joining portion in the stretching direction and the spacing in the direction orthogonal to the stretching direction are each 1 mm or less, Since a part or all of the portion between the through holes in the elastic film is reduced in elasticity due to thermal deterioration, the elastic limit elongation in the stretching direction is 130% or less.
An absorbent article characterized by the above.
前記前身頃及び後身頃の少なくとも一方における前記外装体は、少なくとも前後方向の一部の範囲における前記サイドシール部間に対応する幅方向範囲にわたり、前記弾性フィルム伸縮構造を、その伸縮方向が幅方向となるように備えており、
この弾性フィルム伸縮構造を有する領域のうち、前記吸収体と重なる領域内に前記非伸縮領域を有しており、その幅方向両側に前記伸縮領域を有している、
請求項1〜3のいずれか1項に記載の吸収性物品。 An exterior body constituting the front body and the back body, and an interior body including an absorber fixed to the inner surface of the exterior body, including both sides of the exterior body in the front body and both sides of the exterior body in the back body. Are joined to form a side seal portion, the waist opening and a pair of left and right leg openings are formed, and a pants-type disposable diaper,
The exterior body in at least one of the front body and the back body extends in the width direction corresponding to the space between the side seal portions in at least a part of the front-rear direction, and the elastic film elastic structure has the elastic direction in the width direction. It is prepared so that
Among the regions having the elastic film stretching structure, the non-stretching region is provided in a region overlapping with the absorber, and the stretching region is provided on both sides in the width direction.
The absorbent article according to claim 1.
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US11925537B2 (en) | 2017-09-01 | 2024-03-12 | The Procter & Gamble Company | Beamed elastomeric laminate structure, fit, and texture |
US11147718B2 (en) | 2017-09-01 | 2021-10-19 | The Procter & Gamble Company | Beamed elastomeric laminate structure, fit, and texture |
US11547613B2 (en) | 2017-12-05 | 2023-01-10 | The Procter & Gamble Company | Stretch laminate with beamed elastics and formed nonwoven layer |
US11969325B2 (en) | 2018-01-25 | 2024-04-30 | The Procter & Gamble Company | Absorbent article with function-formed topsheet, and method for manufacturing |
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US20220183902A1 (en) * | 2019-04-15 | 2022-06-16 | Zuiko Corporation | Wearable article production method, wearable article, and wearable article production device |
US12053357B2 (en) | 2019-06-19 | 2024-08-06 | The Procter & Gamble Company | Absorbent article with function-formed topsheet, and method for manufacturing |
US11819393B2 (en) | 2019-06-19 | 2023-11-21 | The Procter & Gamble Company | Absorbent article with function-formed topsheet, and method for manufacturing |
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