JP4041755B2 - Disposable wearing items - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disposable wearing article, and more particularly, to an improvement in a core used for a wearing article such as a disposable diaper, a sanitary napkin, and a waste disposal pad.
[0002]
[Prior art]
As a core used for disposable wearing articles such as conventional disposable diapers and sanitary napkins, a first fiber aggregate layer formed from a fiber web, and a second fiber aggregate layer formed from a fiber web and superabsorbent polymer particles (See Patent Document 1).
[0003]
In the core disclosed in Patent Document 1, the first and second fiber aggregate layers extend in the longitudinal direction, and many of the aggregate layers are alternately arranged in the lateral direction. The first fiber aggregate layer and the second fiber aggregate layer are connected in series in the lateral direction. This core utilizes the capillary action of the fibers forming the first fiber assembly layer, diffuses the body fluid excreted on the upper surface of the core in the longitudinal and transverse directions and the thickness direction of the core in the first fiber assembly layer, and then the body fluid Is absorbed and held in the polymer particles of the second fiber assembly layer. In this core, since the first and second fiber aggregate layers are alternately arranged in the lateral direction, the second fiber aggregate layer having polymer particles is compared with the case where the core is formed only from the second fiber aggregate layer. It is possible to prevent the body fluid from concentrating at one location, and the second fiber aggregate layer is unlikely to cause gel block. In addition, even if one of the second fiber aggregate layers causes a gel block, the other second fiber aggregate layer can absorb and retain body fluid, so that one second fiber aggregate layer has a gel block. Even after waking up, the body fluid absorption function of the core is not significantly reduced.
[0004]
[Patent Document 1]
JP-A 62-170246
[0005]
[Problems to be solved by the invention]
The core disclosed in Patent Document 1 has a slower diffusion rate of body fluid in the thickness direction of the first fiber assembly layer than the diffusion rate of body fluid excreted on the upper surface in the first and second fiber assembly layers. Before the body fluid diffuses in the thickness direction of the core, the body fluid diffused in the longitudinal and transverse directions may reach the second fiber aggregate layer, and the second fiber aggregate layer may instantly cause a gel block. In addition, since the fibers forming the first and second fiber assembly layers irregularly extend in the longitudinal and transverse directions and the thickness direction, the body fluid is excreted from the upper surface of the core toward the lower surface. It is difficult to guide in the thickness direction.
[0006]
An object of the present invention is to provide a disposable wearing article that can sufficiently utilize body fluid absorbing function in the longitudinal and lateral directions and thickness direction while quickly diffusing body fluid in the thickness direction of the core and preventing gel block of the core. There is to do.
[0007]
[Means for Solving the Problems]
The premise of the present invention to solve the above problems is a liquid-permeable front sheet positioned on the skin contact side, a liquid-impervious back sheet positioned on the skin non-contact side, and interposed between the sheets. A disposable wearing article composed of a liquid-absorbent core.
[0008]
The feature of the present invention in the premise is that the core includes a large number of units formed of a pair of first fiber aggregate layers facing each other and a second fiber aggregate layer interposed between the first fiber aggregate layers. It has a layered structure arranged in parallel in the laminating direction of the layers, the laminating direction is a direction intersecting the thickness direction of the article, and the first fiber assembly layer includes hydrophilic fibers and heat-fusible fibers. And the second fiber assembly layer is formed of at least the hydrophilic fiber and the superabsorbent resin among the hydrophilic fiber and the heat-fusible fiber. There is to be.
[0009]
As an example of an embodiment of the present invention, the highly water-absorbent resin is in the form of particles or fibers and is substantially uniformly mixed between the fibers forming the second fiber assembly layer.
[0010]
As another example of the embodiment of the present invention, most of the fibers forming the first and second fiber aggregate layers extend in the thickness direction of the article.
[0011]
As another example of the embodiment of the present invention, in the second fiber aggregate layer, the fibers forming the second fiber aggregate layer and the superabsorbent resin are fixed to each other via a thermoplastic binder.
[0012]
As another example of the embodiment of the present invention, the weight ratio of the hydrophilic fiber to the total weight of the core is in the range of 10 to 75 wt%, and the weight of the heat-fusible fiber with respect to the total weight of the core. The ratio is in the range of 5 to 20 wt%, and the weight ratio of the superabsorbent resin to the total weight of the core is in the range of 20 to 70 wt%.
[0013]
As another example of the embodiment of the present invention, the water absorption time of the superabsorbent resin according to JIS K-7224 (Vortex method) is within 20 seconds.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
The details of the disposable wearing article according to the present invention will be described below with reference to the accompanying drawings.
[0015]
1 and 2 are a partially broken perspective view of a diaper 1 shown as an example of a disposable wearing article, and a cross-sectional view taken along line II-II in FIG. 1, and FIGS. 3 and 4 are cores 2 constituting the diaper 1. FIG. 4 is a perspective view of FIG. 4 and an end view taken along line IV-IV in FIG. 3. In FIG. 1, the vertical direction is indicated by an arrow L, the horizontal direction is indicated by an arrow M, and the thickness direction is indicated by an arrow N. 3 and 4, the stacking direction of the units 15 is indicated by an arrow S. In addition, the inner surface of a front and back sheet or a leak-proof sheet refers to a surface facing the core, and the outer surface of the sheet refers to a surface not facing the core.
[0016]
The diaper 1 includes a liquid-permeable surface sheet 3 positioned on the skin contact side, a liquid-impermeable back sheet 4 positioned on the skin non-contact side, and a liquid-absorbent core interposed between the sheets 3 and 4. 2. The diaper 1 includes a front waistline region 5 and a back waistline region 6 in the vertical direction, and a crotch region 7 positioned between the waistline regions 5 and 6, and is positioned laterally outside the both edges of the core 2. It has a pair of end flaps 8 extending in the direction, and a pair of side flaps 9 positioned outside the both side edges of the core 2 and extending in the vertical direction. In the crotch region 7, the side flaps 9 form an arc toward the inner side in the lateral direction of the diaper 1. The diaper 1 has a substantially hourglass shape in plan view. A pair of leak-proof sheets 12 extending in the vertical direction is attached to the diaper 1.
[0017]
A plurality of waist elastic elastic members 11 extending in the lateral direction are attached to the end flap 8 so as to be shrinkable. A plurality of leg-around elastic members 10 extending in the vertical direction are attached to the side flaps 9 in the crotch region 7 so as to be contractible.
The leak-proof sheet 12 is fixed to the side flaps 9 and extends in the vertical direction, the fixed side portion 12A, the movable portion 12D extending in the vertical direction with the upright orientation above the top sheet 3, and the front and rear waists of the diaper 1 It has fixed both ends 12B and 12C which are located in the area | regions 5 and 6 and laid inward in the horizontal direction of the diaper 1. The fixed both end portions 12B and 12C are fixed to the outer surface of the top sheet 3. An elastic elastic member 14 extending in the vertical direction is attached to the movable portion 12D so as to be contractible. In the leak-proof sheet 12, when the diaper 1 is bent in the longitudinal direction with the surface sheet 3 inside, the elastic elastic member 14 contracts and the movable part 12D rises above the surface sheet 3, and the movable part 12D is a barrier against body fluid. Form.
[0018]
In the end flap 8, end portions of the front and back sheets 3, 4 extend from the edge of the core 2 to the outside in the vertical direction, and inner surfaces of the sheets 3, 4 are fixed to each other at the end portions. The elastic elastic member 11 for waistline is interposed between the top sheet 3 and the back sheet 4 and is fixed to the inner surfaces of the end portions of the sheets 3 and 4. In the side flap 9, the side part of the top sheet 3 slightly extends laterally outward from the side edge of the core 2, and the side part of the back sheet 4 and the leakproof sheet 12 are fixed further laterally outward from the top sheet 3. The side portion 12A extends. In the side flap 9, the side part of the leak-proof sheet 12 is interposed between the side parts of the front and back sheets 3 and 4, and the sheets 3 and 4 are fixed to each other at the side part. The leg elastic elastic member 10 is interposed between the back sheet 4 and the leak-proof sheet 12 and is fixed to the inner side surfaces of the sheets.
[0019]
A tape fastener 13 extending laterally outward is attached to the side flap 9 in the rear waistline region 6. A target tape for removably fastening the tape fastener 13 is attached to the outer surface of the back sheet 4 in the front waist area 5. When the diaper 1 is worn, the side flaps 9 in the rear waistline region 6 are overlapped on the outside of the side flaps 9 in the front waistline region 5, and the tape fastener 13 is fastened to the target tape so that the front waistline region 5 and the rear The waist area 6 is connected. The diaper 1 to which the front and rear waist areas 5 and 6 are connected is formed with a waist opening and a pair of leg openings (not shown).
[0020]
As shown in FIGS. 2 and 3, the core 2 is formed of a large number of units 15 in which a second fiber aggregate layer 15c is interposed between a pair of first fiber aggregate layers 15a and 15b facing each other. The units 15 are arranged in the lateral direction of the diaper 1 (the stacking direction of the first and second fiber assembly layers 15a and 15b). The first fiber assembly layers 15a and 15b of the units 15 that are adjacent in the lateral direction may be fixed or may not be fixed. In order to fix the first fiber aggregate layers 15a and 15b of the units 15 adjacent in the lateral direction, a hot-melt adhesive can be used.
[0021]
As shown in FIG. 4, the first fiber assembly layers 15 a and 15 b are formed of a plurality of hydrophilic fibers 16 and a plurality of heat-fusible fibers 17. In the first fiber aggregate layers 15a and 15b, these fibers are dispersed substantially uniformly. The second fiber assembly layer 15c is formed of a plurality of hydrophilic fibers 16 and heat-fusible fibers 17 and a superabsorbent resin 18 that is in the form of particles or fibers. In the second fiber assembly layer 15c, the fibers are dispersed substantially uniformly, and the superabsorbent resin 18 is mixed substantially uniformly between the fibers. These fibers and the highly water-absorbent resin 18 are fixed to each other via a thermoplastic binder. In the first and second fiber aggregate layers 15 a, 15 b, and 15 c, most of the fibers forming these layers extend in the thickness direction of the core 2.
[0022]
In the core 2, the first fiber assembly layers 15 a and 15 b may be formed from at least the heat-fusible fiber 17 of the hydrophilic fiber 16 and the heat-fusible fiber 17, and the second fiber assembly layer 15 c is formed. What is necessary is just to be formed from the hydrophilic fiber 16 and the highly water-absorbent resin 18 of the hydrophilic fiber 16 and the heat-fusible fiber 17.
[0023]
Semi-synthetic fibers and regenerated fibers can be used for the hydrophilic fibers 16. Cellulose fibers such as pulp, rayon and acetate are preferably used for the semisynthetic fibers and the regenerated fibers. Semi-synthetic fibers and regenerated fibers can be subjected to a hydrophilic treatment in order to improve hydrophilicity. As the heat-fusible fiber 17, a thermoplastic synthetic resin fiber that has been subjected to a hydrophilic treatment can be used. As the synthetic resin fiber, polyester fiber, polyacrylonitrile fiber, polyvinyl chloride fiber, polyethylene fiber, polypropylene fiber, and polystyrene fiber can be used. As the synthetic resin fiber, a core-sheath type composite fiber, a parallel type composite fiber, an atypical hollow fiber, a microporous fiber, or a bonded type composite fiber can be used.
[0024]
As the superabsorbent resin 18, starch, cellulose, or synthetic polymer can be used. The highly water-absorbent resin 18 can absorb a body fluid 20 times or more of its own weight, and the water absorption time in accordance with JIS K-7224 (Vortex method) is within 20 seconds, preferably within 10 seconds. As such a highly water-absorbent resin 18, a polyacrylic acid type is desirable. A thermoplastic synthetic resin such as polyethylene or polypropylene can be used as the thermoplastic binder.
[0025]
In the diaper 1, a large number of units 15 having the first and second fiber aggregate layers 15 a, 15 b, and 15 c are aligned in the horizontal direction to form the core 2, so that the body fluid excreted on the upper surface of the core 2 is the first While quickly diffusing in the longitudinal and transverse directions of the core 2 via the fiber assembly layers 15a and 15b, body fluid enters between the first fiber assembly layers 15a and 15b of the units 15 adjacent in the lateral direction and moves in the thickness direction of the core 2. Spread quickly. In this diaper 1, body fluid diffuses not only in the longitudinal and transverse directions of the core 2 but also in the thickness direction and is absorbed and held in the second fiber aggregate layer 15c, so that the body fluid absorbing function of the core 2 in the longitudinal and transverse directions and the thickness direction is achieved. Even if a large amount of bodily fluid is excreted, the bodily fluid does not remain on the outer surface of the topsheet.
[0026]
In the diaper 1, since the fibers forming the first and second fiber aggregate layers 15a, 15b, 15c extend in the thickness direction of the core 2, the capillary action of the fibers acts strongly in the thickness direction of the core 2, and the body fluid is absorbed. The core 2 can be quickly diffused in the thickness direction from the upper surface to the lower surface.
[0027]
In particular, when the first fiber aggregate layers 15a and 15b of the units 15 adjacent in the lateral direction are not fixed to each other, the body fluid easily enters between the first fiber aggregate layers 15a and 15b, and the body fluid enters the first fiber aggregate. Since the second fiber aggregated layer 15c is absorbed from the side surfaces of the layers 15a and 15b, the side surfaces of the first fiber aggregated layers 15a and 15b can be used for absorbing body fluid, and the body fluid is more quickly moved in the thickness direction of the core 2. Can be diffused.
[0028]
In the core 2, the unit 15 is formed of a pair of first fiber assembly layers 15 a and 15 b and a second fiber assembly layer 15 c interposed between the first fiber assembly layers 15 a and 15 b, so that a body fluid is present in the core 2. Even if excreted, body fluid does not concentrate in one place of the second fiber aggregate layer 15c, and the second fiber aggregate layer 15c is unlikely to cause a gel block. Even if one of the second fiber aggregate layers 15c causes a gel block, the core 2 can absorb the body fluid in the other second fiber aggregate layer 15c, so that one second fiber aggregate layer 15c Even after the gel block is raised, the body fluid absorption function of the core 2 is not significantly reduced.
[0029]
In the core 2, the weight ratio of the hydrophilic fibers 16 to the total weight is in the range of 10 to 75 wt%, and the weight ratio of the heat-fusible fibers 17 to the total weight is in the range of 5 to 20 wt%. When the weight ratio of the heat-fusible fiber 17 is less than 5 wt%, the core 2 is easily deformed when the highly water-absorbent resin 18 that absorbs body fluids swells because the shape retention of the core 2 is reduced. End up. When the weight ratio of the heat-fusible fiber 17 exceeds 20 wt%, the heat-fusible fiber 17 suppresses the swelling of the superabsorbent resin 18 in the second fiber aggregate layer 15c, and the body fluid in the second fiber aggregate layer 15c is reduced. Absorption function is reduced.
[0030]
The weight ratio of the superabsorbent resin 18 to the total weight of the core 2 is in the range of 20 to 70 wt%. When the weight ratio of the superabsorbent resin 18 is less than 20 wt%, a large amount of body fluid cannot be absorbed by the second fiber assembly layer 15c. When the weight ratio of the superabsorbent resin 18 exceeds 70 wt%, the proportion of fibers in the second fiber aggregate layer 15c is small, and body fluid cannot diffuse in the second fiber aggregate layer 15c, and the second fiber aggregate layer 15c. The gel block tends to occur.
[0031]
The basis weight about the thickness surface of the 1st fiber aggregate layer 15a, 15b in the unit 15 is 15-150 g / m. ² It is in the range. The basis weight about the thickness surface of the first fiber aggregate layers 15a, 15b is 15 g / m. ² If less, the fiber density of the first fiber aggregate layers 15a and 15b is low, the capillary action in the first fiber aggregate layers 15a and 15b does not sufficiently act, and the body fluid is sufficiently diffused in the first fiber aggregate layers 15a and 15b. I can't. The basis weight about the thickness surface of the first fiber assembly layers 15a and 15b is 150 g / m. ² Exceeding will increase the rigidity of the first fiber assembly layers 15a, 15b and lower the wearing feeling of the diaper 1.
[0032]
The basis weight about the thickness surface of the second fiber aggregate layer 15c in the unit 15 is 50 to 300 g / m. ² It is in the range. The basis weight with respect to the thickness surface of the second fiber assembly layer 15c is 50 g / m. ² If it is less than this, a large amount of body fluid cannot be absorbed and held in the second fiber assembly layer 15c, and the body fluid absorbing function of the core 2 is deteriorated.
[0033]
【Example】
EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited to a following example, unless the summary is exceeded.
Example 1
The core 2 has a substantially rectangular shape having a dimension in which the layers in the unit 15 are stacked in a direction of 120 mm, a vertical dimension approximately perpendicular to the stacking direction is 120 mm, and a thickness dimension is 30 mm.
[0034]
In the first fiber assembly layers 15a and 15b, 70 to 30 (pulp fiber as the hydrophilic fiber 16 and 1.7 dtex, 5 mm polyethylene-polypropylene core-sheath fiber (manufactured by Chisso Corporation) as the heat-fusible fiber 17 are 70:30. It is dispersed (hereinafter referred to as “fiber group”) at a weight ratio of 70 wt% pulp fiber and 30 wt% polyethylene-polypropylene core-sheath fiber.
[0035]
In the second fiber aggregate layer 15c, 35 wt% of pulp fibers and 15 wt% of 1.7 dtex, 5 mm polyethylene-polypropylene core-sheath fibers (manufactured by Chisso Corporation) are dispersed, the water absorption time is 15 seconds, and the water retention ratio is 30 g / g. 50 wt% of the superabsorbent resin 18 (manufactured by Sundia Polymer Co., Ltd.) is mixed. The basis weights of the fibers 16 and 17 and the superabsorbent resin 18 in the unit 15 are both 250 g / m. ² It is.
[0036]
The manufacturing method of this core 2 is as follows: (1) While a pulp fiber and a polyethylene-polypropylene core-sheath fiber are dispersed in a weight ratio of 70:30, 1.8 g of the fiber group is formed into a 320 mm × 120 mm mold by the airlaid method. Laminate inside. (2) In the same manner, while the pulp group and the polyethylene-polypropylene core-sheath fiber are dispersed in a weight ratio of 70:30, 6.0 g of the superabsorbent resin is mixed in the fiber group 6.0 g, and the mold according to the above (1) is used. It is further laminated on the fiber group laminated in the frame. (3) Next, 1.8 g of the fiber group in which pulp fibers and polyethylene-polypropylene core-sheath fibers are dispersed at a weight ratio of 70:30 is laminated thereon to laminate the first fiber assembly layer 15a / second fiber assembly. A laminated sheet composed of layer 15c / first fiber assembly layer 15b is formed. (4) This laminated sheet is heated in an oven (130 ° C.) for 1 minute to melt the polyethylene-polypropylene core-sheath fibers and fix them to the surrounding fibers to form a skeleton. (5) Thereafter, the laminated sheet is cut into strips at intervals of 30 mm to form a large number of units 15, and these units 15 are arranged in parallel in the laminating direction of the fiber assembly layers 15a, 15b, and 15c. The core 2 having a length in the direction of 120 mm is formed.
[0037]
According to the core 2, the multiple units 15 having the first and second fiber aggregate layers 15a, 15b, and 15c are formed side by side in the lateral direction, so that the body fluid excreted on the upper surface of the core 2 is the first fiber. Since it diffuses quickly in the vertical and horizontal directions of the core 2 via the aggregate layers 15a and 15b, body fluid does not concentrate in one place of the second fiber aggregate layer 15c, and one of the second fiber aggregate layers 15c is a gel block. Even if this occurs, the body fluid can be absorbed by the other second fiber aggregate layer 15c, so that the liquid passage can be secured by the first fiber aggregate layers 15a and 15b even after the superabsorbent resin 18 swells. it can. As a result, a large amount of urine can be held instantaneously.
[0038]
(Example 2)
The core 2 has a substantially triangular shape having a dimension in which the layers in the unit 15 are stacked in a direction of 80 mm, a dimension in a direction substantially perpendicular to the stacking direction is 120 mm, and a maximum dimension in the thickness direction is 60 mm.
In the first fiber assembly layers 15 a and 15 b, pulp fibers as the hydrophilic fibers 16 and 1.7 dtex, 5 mm polyethylene-polypropylene core-sheath fibers (manufactured by Chisso Corporation) as the heat-fusible fibers 17 are 90 to 10 ( It is dispersed (hereinafter referred to as “fiber group”) at a weight ratio of pulp fiber 90 wt% and polyethylene-polypropylene core-sheath fiber 10 wt%.
[0039]
In the second fiber aggregate layer 15c, the water absorption time is 3 in a fiber group in which pulp fibers and 1.7 dtex, 5 mm polyethylene-polypropylene core-sheath fibers (manufactured by Chisso Corporation) are dispersed at a weight ratio of 90:10. Second, 62 wt% of a superabsorbent resin 18 (manufactured by Sumitomo Seika Co., Ltd.) having a water retention ratio of 33 g / g is mixed. A thermoplastic binder was added to the superabsorbent resin 18 so as to be fixed to the fiber skeleton. The basis weights of the fibers 16 and 17 and the superabsorbent resin 18 in the unit 15 are both 250 g / m. ² It is.
[0040]
The manufacturing method of this core 2 is as follows: (1) While a pulp fiber and a polyethylene-polypropylene core-sheath fiber are dispersed at a weight ratio of 90:10, a fiber group of 1.8 g is formed into a 320 mm × 120 mm formwork by the airlaid method. Laminate inside. (2) In the same manner as described above (1) while 6.0% of a fiber group in which pulp fibers and polyethylene-polypropylene core-sheath fibers are dispersed at a weight ratio of 90:10 is mixed with 9.6 g of a superabsorbent resin. And further laminating on the fiber group laminated in the mold. (3) Next, 1.8 g of the above fiber group in which pulp fibers and polyethylene-polypropylene core-sheath fibers are dispersed at a weight ratio of 90:10 is laminated thereon to form a first fiber aggregate layer 15a / second fiber aggregate. A laminated sheet composed of layer 15c / first fiber assembly layer 15b is formed. (4) This laminated sheet is heated in an oven (130 ° C.) for 1 minute to melt the polyethylene-polypropylene core-sheath fibers and fix them to the surrounding fibers to form a skeleton. (5) After that, one end of the laminated sheet is cut into a triangle shape with a diagonal line passing a length of 60 mm on one side extending in the lateral direction and passing through the vicinity of the corner on the other side facing the position. . Next, the other side has a length of 60 mm, is cut into a substantially triangular shape along a vertical line that passes through the position and the vicinity of the corner on one side and is substantially perpendicular to each opposite side. Units 15 are formed, and these unit 15 are arranged in parallel in the stacking direction of the fiber assembly layers 15a, 15b, and 15c so as to form a substantially triangular core 2 having a length of 80 mm in the stacking direction. Heat treatment was performed again at (130 ° C.) for 1 minute, and the adjacent first fiber assembly layers 15a and 15b were fixedly integrated by heat fusion.
[0041]
When the core 2 is formed in a substantially triangular shape, the core 2 is disposed between the sheets 3 and 4 so that the thickest portion of the core 2 is located in the crotch portion when the diaper 1 is worn. According to the core 2, the multiple units 15 having the first and second fiber aggregate layers 15a, 15b, and 15c are formed side by side in the lateral direction, so that the body fluid excreted on the upper surface of the core 2 is the first fiber. Since it diffuses quickly in the vertical and horizontal directions of the core 2 via the aggregate layers 15a and 15b, body fluid does not concentrate in one place of the second fiber aggregate layer 15c, and one of the second fiber aggregate layers 15c is a gel block. Even if this occurs, the body fluid can be absorbed by the other second fiber aggregate layer 15c, so that the liquid passage can be secured by the first fiber aggregate layers 15a and 15b even after the superabsorbent resin 18 swells. it can. As a result, a large amount of urine can be held instantaneously. Further, in Example 2, since the highly water-absorbing resin 18 is fixed to the fiber by the thermoplastic binder added to the highly water-absorbing resin 18, the movement of the highly water-absorbing resin 18 hardly occurs, and the second fiber assembly The function of absorbing body fluid in the layer 15c does not deteriorate.
[0042]
In the diaper 1 shown in FIG. 1, the core 2 has the stacking direction of the units 15 oriented in the lateral direction M of the diaper 1, but the stacking direction of the units 15 is the vertical direction L of the diaper 1 as shown in FIG. You may turn to. In other words, the core 2 should just be arrange | positioned toward the horizontal direction or vertical direction which cross | intersects the thickness direction of the diaper 1 which extends the lamination direction of each unit 15 in the direction between the sheets 3 and 4. As shown in FIG. In the diaper 1 shown in FIG. 5, the configuration other than the core 2 is substantially the same as that of the diaper 1 shown in FIGS. 1 and 2, and thus the same reference numerals are given to the same components as the diaper 1. Those descriptions are omitted.
[0043]
FIG. 6 is a schematic cross-sectional view showing a disposable diaper 1 according to another embodiment cut at the same position as the line II-II in FIG. 1. In the disposable diaper 1 according to the embodiment shown in FIG. 6, the core 2 is formed by folding the laminated sheet 19 in a zigzag shape and folding each laminated sheet portion 19 b divided by the bent portions 19 a as a unit 15. ing. Such a core 2 can also obtain the same effect as the diaper 1 shown in FIGS. Also in the diaper 1 shown in FIG. 6, the configuration other than the core 2 is substantially the same as the diaper 1 shown in FIGS. 1 and 2, and thus the same reference numerals are given to the same components as the diaper 1. The description thereof will be omitted.
[0044]
FIG. 7 is a perspective view showing an excrement disposal pad 20 according to another embodiment. 8 is a cross-sectional view taken along line VIII-VIII in FIG. The excrement disposal pad 20 includes a liquid-permeable front sheet 21 located on the skin contact side, a liquid-impervious back sheet 22 located on the skin non-contact side, and an absorbent interposed between the sheets 21 and 22. It consists of a liquid core 23. The topsheet 21 is formed from a hydrophilic nonwoven fabric. The back sheet 22 is formed of a composite sheet obtained by laminating a gas-impermeable liquid-impervious plastic film and a hydrophobic fiber nonwoven fabric. 7 and 8, the vertical direction is indicated by an arrow L and the thickness direction is indicated by an arrow N. In FIG. 7, the horizontal direction is further indicated by an arrow M.
[0045]
The excrement disposal pad 20 includes a front region 24 and a rear region 25 arranged in the vertical direction, and peripheral portions 26 and 27 extending in the circumferential direction of the front and rear regions 24 and 25, and peripheral portions 26 and 27 of the front and rear regions 24 and 25. 27 and an elastically expandable / contractible peripheral wall portion 28 that is positioned above 27 and extends in the circumferential direction. The peripheral portions 26 and 27 are composed of front and back sheets 21 and 22 and a core 23.
[0046]
The pad 20 has peripheral edges 26 and 27 of the front and rear regions 24 and 25 forming an arc, and the space between the front and rear regions 24 and 25 is narrowed inward in the lateral direction. ). In the pad 20, the area of the front region 24 is smaller than that of the rear region 25. A pair of first and second strips 29 capable of pulling the pad 20 in the vertical direction and a fastening tape 30 for maintaining the folded state of the pad 20 are attached to the pad 20.
[0047]
The core 23 includes a first core 23 a disposed over the front and rear regions 24, 25 and a second core 23 b disposed on the first core 23 a in the front region 24. The second core 23b has substantially the same configuration as the core 2 used in the disposable diaper 1 of the embodiment shown in FIG. 5, but the units 15 are spaced apart from each other by a small interval 15d. Are in parallel. In such an excrement disposal pad 20, a large number of units 15 having the first and second fiber aggregate layers 15a, 15b, and 15c are arranged in the vertical direction to form the second core 23b. Therefore, the second core 23b The body fluid excreted on the upper surface of the first core 15b quickly diffuses in the vertical and horizontal directions of the second core 23b via the first fiber aggregate layers 15a and 15b, while the body fluid is in the first fiber aggregate layers 15a and 15b of the units 15 adjacent in the horizontal direction. Since it enters from the minute space 15d between the two and quickly diffuses in the thickness direction as well as in the vertical and horizontal directions and is absorbed and held in the second fiber aggregate layer 15c, the body fluid absorbing function of the core 2 in the vertical and horizontal directions and the thickness direction Even when a large amount of body fluid is excreted, the body fluid does not remain on the outer surface of the topsheet.
[0048]
For the topsheets 3 and 21, any of a hydrophilic fiber nonwoven fabric, a hydrophobic fiber nonwoven fabric having a large number of openings, and a liquid-permeable plastic film having a large number of fine holes can be used. On the back sheets 4 and 22, a hydrophobic fiber nonwoven fabric, a liquid-impervious plastic film, a composite nonwoven fabric laminated with two hydrophobic fiber nonwoven fabrics, and a composite laminated with a hydrophobic fiber nonwoven fabric and an air-permeable liquid-impervious plastic film Any of the sheets can be used.
[0049]
As the nonwoven fabric for forming the front and back sheets 3, 21, 4 and 22, those produced by each method of spun lace, needle punch, melt blown, thermal bond, spun bond, chemical bond and air through can be used. . As the constituent fibers of the nonwoven fabric, polyolefin-based, polyester-based, polyamide-based fibers, core-sheath type composite fibers or parallel type composite fibers made of polyethylene / polypropylene or polyethylene / polyester can be used.
[0050]
For fixing non-woven fabrics, fixing front and back sheets 3, 21, 4, 22 and fixing core 2 to front and back sheets 3, 21, 4, 22, hot melt adhesive, heat seal or sonic seal, etc. It is possible to use welding means by heat.
[0051]
【The invention's effect】
According to the disposable wearing article according to the present invention, the unit in which the liquid-absorbent core is formed from a pair of first fiber aggregate layers facing each other and a second fiber aggregate layer interposed between the first fiber aggregate layers. The layer has a layered structure in which a large number of layers are juxtaposed in the laminating direction of the layers, the laminating direction is a direction intersecting the thickness direction of the wearing article, and the first fiber assembly layer is formed of at least a heat-fusible fiber. In addition, since the second fiber aggregate layer is formed from hydrophilic fibers and a superabsorbent resin, the body fluid excreted on the upper surface of the core quickly diffuses in the vertical and horizontal directions of the core via the first fiber aggregate layer. The body fluid enters between the first fiber aggregate layers of the units adjacent in the lateral direction and quickly diffuses in the thickness direction of the core. Therefore, in this wearing article, the body fluid is quickly diffused not only in the longitudinal and transverse directions of the core but also in the thickness direction so as to be absorbed and retained in the second fiber aggregate layer. Can be used.
[0052]
Thus, in the absorbent core in this wearing article, the absorbed body fluid is absorbed not only in the plane direction parallel to the front and back sheets but also in the thickness direction, so that the absorbed area is reduced. It can be made small and the absorbent core can be made compact. In addition, since the ventilation part in the whole liquid-absorbent core increases, comfort is improved, and the uncomfortable feeling when wearing this wearing article can be reduced.
[0053]
Moreover, in this wearing article, since most of the fibers forming the first and second fiber aggregate layers in the core extend in the thickness direction of the wearing article, the capillary action of the fibers in the thickness direction of the core. It acts strongly, and body fluid can be quickly diffused in the thickness direction from the upper surface to the lower surface of the core, and the body fluid absorption function of the core in the vertical and horizontal directions and the thickness direction can be fully utilized.
[0054]
Further, in this wearing article, the fibers forming the second fiber aggregate layer and the superabsorbent resin are fixed to each other through a thermoplastic binder, so that the superabsorbent resin moves from the second fiber aggregate layer. It is difficult to reduce the body fluid absorption function due to the second fiber aggregate layer.
[Brief description of the drawings]
FIG. 1 is a perspective view of a disposable diaper according to an embodiment.
FIG. 2 is a schematic cross-sectional view of a disposable diaper shown cut along the line II-II in FIG.
FIG. 3 is a perspective view of a core used for a disposable diaper.
4 is a schematic view schematically showing a cross-sectional structure of a unit constituting a core, cut along line IV-IV in FIG. 3; FIG.
FIG. 5 is a perspective view of a disposable diaper according to another embodiment.
FIG. 6 is a schematic cross-sectional view of a disposable diaper according to another embodiment.
FIG. 7 is a perspective view showing an excrement disposal pad according to another embodiment.
8 is a cross-sectional view showing the cross-sectional structure of the excrement disposal pad cut along the line VIII-VIII in FIG.
[Explanation of symbols]
1 disposable diapers (wearing articles)
2 Absorbent core
3 Liquid-permeable surface sheet
4 Impervious back sheet
5 Front waist area
6 Rear waist area
7 Inseam
8 End flap
9 Side flaps
10 Elastic elastic members for legs
11 Elastic elastic member for waist
12 Leak-proof sheet
13 Tape fastener
14 Elastic elastic members
15 units
15a, 15b first fiber assembly layer
15c Second fiber assembly layer
16 Hydrophilic fiber
17 Heat-fusible fiber
18 Super absorbent resin
19 Laminated sheet
20 Excrement disposal pad
21 Liquid-permeable surface sheet
22 Impervious back sheet
23 Absorbent core
23a 1st core
23b 2nd core

Claims (6)

In a disposable wearing article composed of a liquid-permeable surface sheet positioned on the skin contact side, a liquid-impermeable back sheet positioned on the skin non-contact side, and a liquid-absorbent core interposed between the sheets ,
A layer in which a large number of units in which the core is formed of a pair of first fiber aggregate layers facing each other and a second fiber aggregate layer interposed between the first fiber aggregate layers are arranged in parallel in the stacking direction of these layers Having a cumulative structure, the laminating direction is a direction intersecting the thickness direction of the article,
The first fiber assembly layer is formed from at least the heat-fusible fiber of hydrophilic fibers and heat-fusible fibers, and the second fiber assembly layer is formed of the hydrophilic fiber and the heat-fusible fiber. The said wearing article characterized by being formed from this hydrophilic fiber and superabsorbent resin at least among fiber. The wearing article according to claim 1, wherein the highly water-absorbent resin has a particle shape or a fiber shape and is mixed substantially uniformly between fibers forming the second fiber assembly layer. The wearing article according to claim 1 or 2, wherein most of the fibers forming the first and second fiber aggregate layers extend in a thickness direction of the article. The wearing article according to any one of claims 1 to 3, wherein in the second fiber aggregate layer, fibers forming the layer and the superabsorbent resin are fixed to each other via a thermoplastic binder. The weight ratio of the hydrophilic fiber to the total weight of the core is in the range of 10 to 75 wt%, and the weight ratio of the heat-fusible fiber to the total weight of the core is in the range of 5 to 20 wt%, The wearing article according to any one of claims 1 to 4, wherein a weight ratio of the superabsorbent resin to a total weight of the core is in a range of 20 to 70 wt%. The wearing article according to any one of claims 1 to 5, wherein the superabsorbent resin has a water absorption time of 20 seconds or less based on JIS K-7224 (Vortex method).

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