JP4109350B2 - Absorber - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an absorbent body used for pet sheets, disposable diapers, sanitary napkins and the like.
[0002]
[Prior art]
13 and 14 are explanatory views showing a conventional method for manufacturing an absorbent body.
In the manufacturing method of the absorber shown in FIG. 13, the carrier tissue 2 is pulled out from the raw fabric 2a supported by the shaft 1 and continuously fed.
A pulp laminator 3 is provided above the carrier tissue 2 that is continuously fed, and the pulverized pulp is laminated from the pulp laminator 3 onto the carrier tissue 2. An SAP (superabsorbent polymer) injection nozzle 4 is provided on the carrier tissue 2, and SAP is supplied onto the carrier tissue 2 as necessary.
[0003]
Further, a suction chamber 6 is opposed to the pulp laminator 3 and the charging nozzle 4 across the carrier tissue 2, and air is sucked through the carrier tissue 2, and pulverized pulp and SAP is aspirated. As a result, a strip-shaped absorbent material layer 5 in which pulverized pulp and SAP are mixed is formed on the carrier tissue 2.
A cover tissue is supplied on the strip-shaped absorbent material layer 5, and both sides of the laminate in which the absorbent material layer 5 is sandwiched between the carrier tissue 2 and the cover tissue are cut with a rotary cutter or the like, Further, the individual absorbers are separated and cut.
[0004]
In the manufacturing method of the absorbent body shown in FIG. 14, the carrier tissue 2 drawn out from the raw fabric 2a is continuously fed. A pattern drum 7 is provided on the carrier tissue 2 that is continuously fed, and the pattern drum 7 rotates around the shaft 8 in a clockwise direction at a peripheral speed that matches the traveling speed of the carrier tissue 2. .
[0005]
Concave portions 9 are formed on the outer peripheral surface of the pattern drum 7 at a constant pitch. A mesh 9 a having a predetermined opening size is formed at the bottom of the recess 9. The shape when the concave portion 9 is developed on a plane is a predetermined pattern shape such as an hourglass shape. Above the pattern drum 7, a pulp laminating machine 11 facing the outer peripheral surface of the pattern drum 7 is opposed, and similarly, a SAP injection nozzle 12 is opposed.
[0006]
In the manufacturing method of the absorbent body shown in FIG. 14, pulverized pulp is supplied from the pulp laminator 11 and SAP is supplied from the input nozzle 12 as needed into the recess 9 on the outer peripheral surface of the continuously rotating pattern drum 7. A suction means is provided in the pattern drum 7 at a position facing the pulp laminator 11 and the charging nozzle 12, and air is sucked through the mesh 9 a at the bottom of the recess 9, and pulverized in the recess 9 by this suction pressure. Pulp and SAP are laminated while being sucked, and the absorbent material layer 13 having a shape that matches the planar shape of the recess 9 is formed.
[0007]
When the pattern drum 7 rotates and the concave portion 9 faces the carrier tissue 2, air is sucked through the carrier tissue 2 by the suction means facing below the carrier tissue 2. Due to this suction force, the absorbent material layer 13 formed in the recess 9 is transferred onto the carrier tissue 2.
Thereafter, a cover tissue is supplied onto the carrier tissue 2 and the absorbent material layer 13, and the absorbent material layer 13 is sandwiched between the carrier tissue 2 and the cover tissue to form a laminate. Thereafter, the carrier tissue 2 and the cover tissue are cut in accordance with the outer shape of the absorbent material layer 13 to produce individual absorbent bodies.
[0008]
[Problems to be solved by the invention]
However, the problems described in the following (1) to (4) remain in the absorber manufactured by the conventional manufacturing method.
(1) As shown in FIG. 12, for example, in the case where an absorbent body in which two absorbent material layers 5 (or 13) having different SAP densities and SAP particle sizes are configured is formed, upper and lower absorbent material layers 5 It is necessary to further interpose tissue 2 between (or 13). As a result, three layers of tissue are required and the cost is increased. In addition, if a tissue or the like is interposed between the upper and lower absorbent material layers, the liquid that has passed through the upper absorbent material layer is retained by the tissue and the rate at which the liquid penetrates into the lower absorbent material layer is reduced. As a result, the absorption speed of the liquid in the entire absorbent body becomes slow. Further, when a large amount of liquid is applied to the upper absorbent material layer, the liquid may overflow upward before being absorbed by the lower absorbent material layer. The reason why three layers of tissue are required is as follows.
[0009]
When another absorbent material layer is to be laminated on the absorbent material layer 5 formed by the manufacturing method shown in FIG. 13, the carrier tissue 2 and the absorbent material layer 5 are passed through and further laminated thereon. It is necessary to suck the pulverized pulp (and SAP) to be sucked by the suction means. However, when the carrier tissue 2 and the absorbent material layer 5 are overlapped, the amount of air permeation decreases, and therefore, the absorbent material layer cannot be formed by newly sucking pulverized pulp or the like thereon. .
[0010]
Therefore, when manufacturing an absorbent body in which two absorbent material layers are stacked, each absorbent material layer is manufactured by the method shown in FIG. 13, and the carrier tissue 2 is laminated on the absorbent material layer. A laminate of the carrier tissue 2 and the absorbent material layer is placed. Therefore, it takes a lot of man-hours to manufacture an absorber having a two-layer structure. Moreover, in order to cut | disconnect a laminated body to a predetermined shape and isolate | separate into each absorber, it is necessary to place the cover tissue 10 on the upper absorbent material layer 5 (or 13).
[0011]
Similarly, even when an absorbent body in which two absorbent material layers are stacked by the production method shown in FIG. 14 is to be produced, the upper absorbent layer is formed on the carrier tissue 2 and the absorbent material layer 13. It is difficult to laminate the material layer by suction. Therefore, similar to the manufacturing method shown in FIG. 13, it is necessary to stack the absorbent material layer on the carrier tissue 2 in two stages, and the number of steps for realizing the two-layer stack increases. . In addition, the cover tissue 10 is put on the upper absorbent material layer, which requires a large number of tissues and increases the cost.
[0012]
(2) When an absorber having two absorbent material layers is manufactured using the pattern lamination method shown in FIG. 14, the yield of SAP deteriorates, and the density of SAP is slightly changed between each absorbent material layer. It is difficult to make adjustments such as mixing a small (fine) SAP in only one side. The reason is as follows.
When forming the absorbent material layer in accordance with the shape of the concave portion 9 with the concave portion 9 formed on the pattern drum 7, pulverized pulp is formed in the concave portion 9 by the suction force of air from the mesh 9 a at the bottom of the concave portion 9. And attracting SAP. In order to form the absorbent material layer by attracting the pulverized pulp and the SAP into the recess 9, the mesh 9a is generally 60 mesh or smaller in screen size (in the US Tyler standard, the mesh size is 0. 0). 246 mm or more).
[0013]
Therefore, the SAP supplied into the concave portion 9 easily penetrates the mesh 9a by the suction force and falls out into the pattern drum 7, and the yield of the SAP is deteriorated. In particular, if an attempt is made to increase the amount of SAP contained in the absorbent material layer 13, the SAP is likely to come off from the mesh 9 a, and an attempt is made to mold the absorbent material layer containing 20 wt% or more of SAP. As a result, the SAP yield is extremely poor. Therefore, it is very difficult to produce an absorbent material layer containing SAP of 20% by weight or more, 30% by weight or more, and further 50% by weight or more.
[0014]
Furthermore, in order to increase the liquid absorption rate of the absorbent material layer, it is necessary to include extremely fine SAP. However, when the nominal size of the mesh 9a is 60 mesh, the particle size is 100 mesh or more (mesh size 0. It is practically impossible to include fine SAP in the absorbent material layer, such as those that pass through 147 mm and those that pass 200 mesh or more (that pass through a mesh having an opening of 0.074 mm).
[0015]
(3) When two types of absorbent material layers are used and fine SAP is included in one of the layers to change the liquid suction speed between the two absorbent material layers, 2 As shown in FIG. 12, two absorbent material layers need to be stacked one above the other, and the thickness of the absorber increases.
[0016]
(4) In the manufacturing method shown in FIG. 13, since the absorbent material layer 5 is formed in a strip shape, when two absorbent material layers are stacked, the shape of the two absorbent material layers may be different. Can not. Also, when the carrier tissue 2 and the absorbent material layer 13 formed by the manufacturing method shown in FIG. 14 are stacked, the shapes of the upper and lower absorbent material layers are the same.
Thus, if the shape of the upper and lower two absorbent material layers is the same, it is not possible to construct an absorbent body that meets various requirements such as increasing the amount of liquid absorbed only in the central portion.
[0017]
The present invention solves the above-mentioned conventional problems, and when two absorbent material layers are stacked, it is not necessary to provide a tissue between the two absorbent material layers and is manufactured at a low cost. The object is to provide an absorbent body that can be made. In addition, the present invention provides an absorbent body capable of effectively preventing the return and side leakage of the absorbed liquid by providing a sufficient difference in the liquid absorption speed and water holding capacity between the two absorbent material layers. It is an object.
Another object of the present invention is to provide an absorbent body that uses absorbent material layers having different liquid absorption capabilities and that can minimize the thickness dimension.
Moreover, this invention aims at providing the absorber which can respond to various requests | requirements, such as partially increasing the amount of water retention.
[0018]
[Means for Solving the Problems]
  The absorbent body of the present invention has a first absorbent material layer and a second absorbent material layer,Do not overlap in the thickness directionIn planeLined up and in contact with each otherCombinedAbsorbed absorbent material layerSandwiched between the first cover sheet and the second cover sheetAndAt least one of the cover sheets is liquid permeable.
[0025]
  The present inventionIn this absorber, the absorber which combined the absorptive material layer from which a water retention amount and the absorption speed of a liquid differ can be comprised thinly.
  In this case, both the first absorbent material layer and the second absorbent material layer can be formed into a predetermined shape by the concave portion of the pattern drum, and the shape of each absorbent material layer and both absorbent material layers Any combination of the shapes can be set.
[0026]
  For example, one absorbent material layer is a mixture of a water absorbent fiber and a super absorbent polymer, and the other absorbent material layer is formed of a water absorbent fiber, or both absorbent material layers are both water absorbent. Made of a mixture of fiber and superabsorbent polymer, the superabsorbent polymer contained in both absorbent material layers have different particle sizes, or the superabsorbent polymer contained in both absorbent material layersContentButEach otherCan be different.
  For example, it is preferable that the particle size of the superabsorbent polymer contained in the absorbent material layers located on both sides of the planarly combined absorbent material layers is 60 mesh or more.
[0027]
In the above absorbent body, the liquid given to the central part of the absorbent body is rapidly absorbed by the absorbent material layers on both sides, so that the liquid spreads quickly over the entire absorbent body, and the liquid toward the top sheet side Return and leakage to both sides are less likely to occur.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
  Figure 1Absorber of reference exampleIt is explanatory drawing which shows the manufacturing method which manufactures. In the manufacturing method of the absorbent body shown in FIG. 1, it is possible to manufacture an absorbent body in which two absorbent material layers are sandwiched between two cover sheets.
  In this manufacturing method, the pattern drum 21 is used. The pattern drum 21 continuously rotates around the shaft 22 in the clockwise direction in the drawing at a constant rotational speed. As shown in FIG. 3 in an enlarged manner, recesses 23 are formed on the outer peripheral surface 21a of the pattern drum 21 at a constant pitch. The planar shape of the developed state of the recess 23 is, for example, an hourglass shape. Moreover, when shape | molding the absorptive material layer 35 shown in FIG. 6, the recessed part 23 is frame shape. The bottom of the recess 23 is a mesh 23a having a nominal size of 60 mesh (aperture size is 0.246 mm) according to the American Tyler standard.
[0029]
As shown in FIG. 1, a pulp laminating machine 24 facing the outer peripheral surface 21 a and a feeding nozzle 25 for feeding SAP (super absorbent polymer) are opposed to the pattern drum 21. The relative positional relationship between the charging nozzle 25 and the pulp laminating machine 24 can be set as appropriate according to the SAP mixing position with respect to the pulverized pulp.
[0030]
A suction chamber 26 facing the pulp laminating machine 24 and the charging nozzle 25 is provided inside the pattern drum 21. In addition, a pressurizing chamber 27 is provided inside the pattern drum 21 so as to face the inside of the concave portion 23 that has moved to the lowermost portion. In the suction chamber 26, air is sucked through the mesh 23a of the recess 23 moved above, and in the pressurization chamber 27, air is pushed out through the mesh 23a of the recess 23 moved below.
[0031]
The cover tissue 31 serving as the first cover sheet is pulled out from the original fabric 31a attached to the shaft 32, wound around the outer peripheral surface 21a of the pattern drum 21, and then fed out in the left direction in the figure.
The carrier tissue 33 serving as the second cover sheet is pulled out from the original fabric 33a attached to the shaft 34, and continuously fed out at a constant speed in the left direction in the figure. A pulp laminating machine 36 is provided above the carrier tissue 33 to be fed out, and a suction chamber 37 facing the pulp laminating machine 36 is provided below the pulp laminating machine 36.
The carrier tissue 33 is sent out at a speed V1 by the rotation of a transport roll (not shown) provided on the left side of the pattern drum 21, and the cover tissue 31 after going around the outer peripheral surface 21a of the pattern drum 21 is sent out at a speed V2. . Here, the speed V1 = V2.
[0032]
As shown in an enlarged view in FIG. 4, the cover tissue 31 pulled out from the original fabric 31 a is in a concave shape along the inner surface of the concave portion 23 of the outer peripheral surface 21 a of the pattern drum 21, and the outer peripheral surface of the pattern drum 21. Circulate clockwise with 21a. Although the peripheral speed of the outer peripheral surface 21a of the pattern drum 21 coincides with the V1, the cover tissue 31 has entered the recess 23. Therefore, the feeding speed V3 of the cover tissue 31 from the raw fabric 31a is the speed described above. It is set to be slightly faster than V1 and V2.
[0033]
Next, the manufacturing method of the absorber using the manufacturing apparatus shown in FIG. 1 is demonstrated.
The pattern drum 21 rotates at a constant speed in the clockwise direction, and the cover tissue 31 serving as the first cover sheet is supplied to the outer peripheral surface 21 a of the pattern drum 21. Since the suction chamber 26 faces the concave portion 23 that has moved to the top, the suction pressure passes through the mesh 23 a and acts on the cover tissue 31, so that the cover tissue 31 follows the inside of the concave portion 23. It is deformed into a concave shape.
[0034]
At this time, pulverized pulp is applied from the pulp laminator 24 into the recess 23, and SAP is applied from the input nozzle 25 into the recess 23. The pulverized pulp and SAP are sucked into the recess 23. As a result, as shown in FIG. 4, in the recess 23, a cover tissue 31 is laid along the inner surface of the mesh 23 a, and an absorbent material layer that is a mixture of pulverized pulp and SAP is formed on the cover tissue 31. 35 is formed. The absorbent material layer 35 matches the opening shape of the recess 23, and when the pattern drum 21 shown in FIG. 3 is used, the planar shape of the absorbent material layer 35 is an hourglass shape.
[0035]
On the other hand, pulverized pulp is supplied from the pulp laminator 36 onto the carrier tissue 33. The pulverized pulp is attracted to the carrier tissue 33 by the air suction force of the suction chamber 37, and the absorbent material layer 40 is continuously formed in a band shape on the carrier tissue 33.
[0036]
When the concave portion 23 is moved to the lowest position by the rotation of the pattern drum 21 and reaches the position facing the absorbent material layer 40 on the carrier tissue 33, the absorbent material layer 35 and the cover tissue 31 formed in the concave portion 23. Are separated from the inside of the recess 23, and the absorbent material layer 35 is transferred onto the absorbent material layer 40.
[0037]
When the cover tissue 31 is separated from the recess 23, the absorbent material layer 35 is separated from the recess 23 together with the cover tissue 31. At this time, the air injection force from the pressurizing chamber 27 shown in FIG. 1 acts on the cover tissue 31, and the cover tissue 31 is pushed out from the inside of the recess 23. In this way, the absorbent material layer 35 comes out of the concave portion 23 of the pattern drum 21 together with the cover tissue 31, so that even if the pressurizing chamber 27 is not provided or the air pressure in the pressurizing chamber 27 is weak, The absorbent material layer 35 formed in the recess 23 can be easily separated from the recess 23.
[0038]
As a result, a laminated body in which the band-shaped absorbent material layer 40 and the patterned absorbent material layer 35 are interposed between the carrier tissue 33 and the cover tissue 31 can be formed, and this laminated body can be absorbed. The absorbent body is manufactured by cutting and separating according to the outer shape of the conductive material layer 35.
In this absorbent body, it is not necessary to interpose a tissue or the like between the lower second absorbent material layer 40 and the upper first absorbent material layer 35.
The first absorbent material layer 35 and the cover tissue 31 and the second absorbent material layer 40 and the carrier tissue 33 may be bonded with a hot-melt adhesive or absorbed. The cover tissue 31 and the carrier tissue 33 may be bonded to each other at the outer peripheral portions of the conductive material layers 35 and 40.
[0039]
As shown in FIG. 4, since the cover tissue 31 is laid on the mesh 23a at the bottom of the recess 23 of the pattern drum 21 and pulverized pulp and SAP are supplied thereon, the SAP is transferred from the mesh 23a into the pattern drum 21. Therefore, it is possible to eliminate SAP waste and improve yield.
[0040]
In addition, the SAP content in the absorbent material layer 35 can be increased, and the water retention amount of the absorbent material layer 35 can be increased. Further, since SAP does not escape from the mesh 23a, the amount of SAP in the absorbent material layer 35 can be arbitrarily set, and the SAP ratio can be easily set, and variation in SAP content among individual absorbers can also be achieved. Less.
[0041]
Further, even if the mesh 23a is 60 mesh, SAP having a finer particle size than the 60 mesh in the absorbent material layer 35, for example, 100 mesh or more (permeating a mesh having an opening size of 0.147 mm) or 200 mesh (Those that pass through a mesh having an opening size of 0.074 mm) or finer SAP can be mixed, and the liquid absorption rate of the absorbent material layer can be increased.
From the above, the first absorbent material layer 35 in the absorbent body manufactured according to the present invention can contain SAP having a particle size of 60 mesh or more and 200 mesh or less and 20 wt% or more and 90 wt% or less.
[0042]
Further, SAP can be mixed into the first absorbent material layer 35 so that the second absorbent material layer 40 does not contain SAP, and an SAP injection nozzle is disposed in the pulp laminator 36 portion. The absorbent material layer 40 can be a mixture of pulverized pulp and SAP. Alternatively, the absorbent material layer 40 may be a mixture of pulverized pulp and SAP, and the absorbent material layer 35 may be composed only of pulverized pulp.
[0043]
Further, when both the first absorbent material layer 35 and the second absorbent material layer 40 are formed of a mixture of pulverized pulp and SAP, the absorbent material layer 35 and the absorbent material layer 40 are made of SAP. It is also possible to change the mixing amount and density of each other, or to change the particle size (size) of the mixed SAP between the absorbent material layer 35 and the absorbent material layer 40.
[0044]
  FIG. 2 illustrates the present invention.AbsorberIt is explanatory drawing which shows the manufacturing method which manufactures.
  In this manufacturing method, the first pattern drum 21A and the second pattern drum 21B having the same structure as the pattern drum 21 shown in FIGS. 1, 2, 3 and 4 are provided side by side, and the first pattern drum is provided. 21A rotates continuously in the clockwise direction, and the second pattern drum 21B rotates continuously in the counterclockwise direction at the same speed.
[0045]
  A recess 23A is formed on the outer peripheral surface 21a of the pattern drum 21A, and a recess 23B is formed on the outer peripheral surface 21a of the pattern drum 21B. The recess 23A and the recess 23B areDifferentIn shapeis there. The bottom of the recess 23A and the bottom of the recess 23B are, for example, a mesh 23a having a mesh size of 60 mesh.
[0046]
Above the pattern drum 21A, a pulp laminator 24A and an SAP injection nozzle 25A face each other, and a suction chamber 26A is provided inside the pattern drum 21A. Similarly, the pulp laminator 24B and the SAP injection nozzle 25B are also opposed above the pattern drum 21B, and a suction chamber 26B is provided inside the pattern drum 21B.
[0047]
Further, in a portion where the outer peripheral surfaces 21a of the pattern drum 21A and the pattern drum 21B face each other, the pressurizing chamber 27A faces the inside of the pattern drum 21A, and the pressurizing chamber 27B faces the inside of the pattern drum 21B. Is provided.
[0048]
In the manufacturing method of the absorbent body shown in FIG. 2, the cover tissue 31A serving as the first cover sheet is supplied to the outer peripheral surface 21a of the first pattern drum 21A, and the cover tissue 31A is placed inside the recess 23A of the pattern drum 21A. First absorbent material comprising a mixture of pulverized pulp and SAP on the cover tissue 31A in the recess 23A when pulverized pulp is supplied from the pulp laminator 24A and SAP is supplied from the input nozzle 25A. Layer 35A is formed.
[0049]
A cover tissue 31B serving as a second cover sheet is also supplied to the outer peripheral surface 21a of the second pattern drum 21B. This cover tissue 31B is laid in a concave shape in the concave portion 23B of the second pattern drum 21B, on which pulverized pulp is supplied from the pulp laminating machine 24B, and SAP is supplied from the charging nozzle 25B. A second absorbent material layer 35B that matches the shape of is formed.
[0050]
In a portion where the outer peripheral surfaces 21a of the pattern drums 21A and 21B face each other, the cover tissue 31A is separated from the concave portion 23A together with the first absorbent material layer 35A, and the cover tissue 31B is separated together with the second absorbent material layer 35B. It isolate | separates from the recessed part 23B. And the 1st absorptive material layer 35A and the 2nd absorptive material layer 35B are piled up, and the laminated body by which both sides were pinched | interposed by the cover tissue 31A and the cover tissue 31B is formed.
And the said laminated body is cut | disconnected for every absorbent material layer 35A and 35B, and each absorber is completed.
[0051]
The absorbent material layer 35A and the cover tissue 31A and the absorbent material layer 35B and the cover tissue 31B may be bonded with a hot-melt adhesive, or the absorbent material layers 35A and 35B. The cover tissue 31A and the cover tissue 31B may be bonded to each other at the outer peripheral portion.
[0052]
  Even in this manufacturing method, since it is not necessary to interpose a new tissue between the absorbent material layer 35A and the absorbent material layer 35B, an absorbent body having a two-layer structure can be manufactured at a low cost.
  In addition, SAP can be mixed in one absorbent material layer 35A, and the other absorbent material layer 35B can be free of SAP. Both absorbent material layers 35A and 35B can be a mixture of pulverized pulp and SAP. In the absorbent material layer 35A and the absorbent material layer 35B, the mixing amount or density of the SAP is mutually changed, or the particle size (size) of the SAP mixed in the absorbent material layer 35A and the absorbent material layer 35B. It is also possible to change.
  And9 to 11, the absorbent material layer 35A and the absorbent material layer 35B are planarly combined between the cover tissue 31A and the cover tissue 31B.Manufacturing the absorber.
[0053]
  Next, the structure of the absorbent body of the present invention manufactured by the manufacturing method is as follows.FIG.It will be described with reference to FIG.Reference examples of the absorbent body manufactured by the above manufacturing method are shown in FIGS.
  FIG. 5A shows an absorber manufactured by the manufacturing method shown in FIG. 1 or the manufacturing method shown in FIG.
  In the manufacturing method shown in FIG. 1, a first absorbent material layer 35 formed between the carrier tissue 33 and the cover tissue 31 in the band-shaped second absorbent material layer 40 and the recess 23 of the pattern drum 21. Are interposed in a stacked state.
[0054]
An example of the shape of the absorbent material layer laminated | stacked with the manufacturing method shown in FIG. 1 is shown in FIG. The frame-shaped absorbent material layer 35 is overlaid on the strip-shaped absorbent material layer 40. The frame-shaped absorbent material layer 35 can be formed by making the concave portion 23 of the pattern drum 21 into a frame shape.
[0055]
The absorbent body having the absorbent material layer shown in FIG. 6 can be used as, for example, a feces excrement absorbing sheet. In this case, the strip-shaped absorbent material layer 40 is formed of pulverized pulp alone or a mixture of pulverized pulp and SAP, and the frame-shaped absorbent material layer 35 is formed of a mixture of pulverized pulp and SAP. The SAP contained in the frame-shaped absorbent material layer 35 is finer than, for example, a particle having a particle size of 60 mesh, preferably finer than 100 mesh. 20% by weight or more, preferably 30% by weight or more, and more preferably 50% by weight or more is mixed with the layer 35.
[0056]
When a sheet for absorbing excrement of a pet is constructed by laminating a liquid-impermeable back sheet on the lower surface of the absorbent body having such absorbent material layers 40 and 35 and a liquid-permeable top sheet on the upper surface, Since the urine excreted on the functional material layer 40 is rapidly absorbed by the frame-shaped absorbent material layer 35, leakage of urine to the side is less likely to occur.
[0057]
The manufacturing method shown in FIG. 1 is characterized in that no other tissue need be sandwiched between the absorbent material layer 40 and the absorbent material layer 35. Since no tissue is interposed between the frame-shaped absorbent material layer 35 and the rectangular absorbent material layer 40, when a large amount of urine is given to the frame-shaped absorbent material 35 at once, This urine is absorbed by the absorbent material layer 35 and is immediately absorbed by the lower absorbent material layer 40. This also makes it difficult for urine to leak sideways.
[0058]
As shown in FIG. 5 (A), the absorbent body manufactured by the manufacturing method shown in FIG. 2 is also provided with the absorbent material layer 35B formed by the recess 23B on the second cover tissue 31B. The absorbent material layer 35A formed by the concave portion 23A is laminated thereon, and the upper surface thereof is covered with the first cover tissue 31A.
[0059]
  7 and 8 show the shape of the absorbent material layer 35B and the absorbent material layer 35A in the absorbent body manufactured by the manufacturing method shown in FIG.Reference exampleIs shown.
  In FIG. 7, both the first absorbent material layer 35A and the second absorbent material layer 35B have an hourglass shape with the same dimensions. This can be configured by making the concave portions 23A of the first pattern drum 21A shown in FIG. 2 and the concave portions 23B of the second pattern drum 21B into the same hourglass shape.
[0060]
In FIG. 8, the upper first absorbent material layer 35A has an hourglass shape, the lower second absorbent material layer 35B has a rectangular shape, and the lower absorbent material layer 35B has an upper absorption layer. It overlaps only at the center in the width direction of the conductive material layer 35A.
[0061]
The absorbent body in which the upper and lower sides of the absorbent material layers 35A and 35B shown in FIG. 7 or 8 are sandwiched between the cover tissues 31A and 31B can be used as a disposable diaper, a sanitary napkin, a urinary incontinence pad, or the like. In this case, a liquid-impermeable back sheet is stacked on the lower side of the absorber, and a liquid-permeable top sheet is stacked on the upper side.
[0062]
When the absorbent body shown in FIG. 7 or FIG. 8 is used, the upper first absorbent material layer 35A is formed of pulverized pulp alone or a mixture of pulverized pulp and SAP, and the lower second absorbent material. Layer 35B is formed of a mixture of ground pulp and SAP. In this case, the SAP contained in the lower absorbent material layer 35B is finer than, for example, a particle size of 60 mesh, preferably finer than 100 mesh, and absorbs the amount of fine SAP mixed therein. 20% by weight or more, preferably 30% by weight or more, more preferably 50% by weight or more and 90% by weight or less is mixed in the conductive material layer 35B.
[0063]
In the disposable diaper or sanitary napkin using the absorbent body shown in FIGS. 7 and 8, before the excrement or secretion given to the upper absorbent material layer 35A is dispersed in the upper absorbent material layer 35A In addition, the liquid is sucked by the fine SAP having a high absorption rate contained in the lower absorbent material layer 35B, so that the liquid does not easily return to the top sheet. In the case shown in FIG. 8, since the liquid applied to the central portion of the upper absorbent material layer 35A is actively sucked by the fine SAP in the lower absorbent material layer 35B, While returning of a liquid can be prevented, the liquid leakage to the side of 35 A of absorbent material layers becomes difficult to occur.
[0064]
Further, as shown in FIG. 5B, another absorbent material layer is formed on the absorbent body having the absorbent material layer having the two-layer structure shown in FIG. 52 may be laminated and covered with another cover tissue 53.
[0065]
  FIG.A structure in which the first absorbent material layer 35A and the second absorbent material layer 35B are planarly combined between the cover tissues 31A and 31B by the manufacturing method shown in FIG.To.Of the present inventionThe combination of the absorbent material layers will be described with reference to FIGS.
[0066]
In the structure shown in FIG. 9, the absorbent material layer 35 </ b> A has a rectangular shape, and the absorbent material layer 35 </ b> B has four protruding portions on both the left and right sides. In the structure shown in FIG. 10, the absorbent material layer 35A has a rectangular shape, and the absorbent material layer 35B has the same rectangular shape combined on both sides of the absorbent material layer 35A. In the structure shown in FIG. 11, the absorbent material layer 35A has a rectangular shape, and the absorbent material layer 35B has a frame shape combined with the outer periphery of the absorbent material layer 35A.
[0067]
2 is formed by the absorbent material layer 35A formed by the concave portion 23A of the first pattern drum 21A and the concave portion 23B of the second pattern drum 21B at the opposing portion of the pattern drum 21A and the pattern drum 21B shown in FIG. By combining the absorbent material layer 35B in a planar manner, an absorbent body in which the planar absorbent material layer shown in FIGS. 9 to 11 is interposed between the cover tissue 31A and the cover tissue 31B can be formed. it can.
[0068]
In the case shown in FIG. 9, the central absorbent material layer 35A is a mixture of pulverized pulp and SAP, and the SAP has a particle size smaller than 60 mesh, for example, and preferably has a particle size smaller than 100 mesh, The amount of fine SAP mixed is 20% by weight or more, preferably 30% by weight or more, more preferably 50% by weight or more and 90% by weight or less. The absorbent material layers 35B on both sides are only pulverized pulp or a mixture of pulverized pulp and SAP.
[0069]
When a disposable diaper or the like is configured using the absorbent body having the absorbent material layer shown in FIG. 9, the liquid is rapidly absorbed by the central absorbent material layer 35A, and the water retention amount is increased. Therefore, the penetration of the liquid in the direction of the absorbent material layer 35B on both sides is delayed, and the liquid leakage to the side can be prevented.
[0070]
In the example shown in FIG. 10, the SAP content of the absorbent material layer 35B located on the left and right sides is increased, and fine SAP is contained in the absorbent material layer 35B. The central absorbent material layer 35A is formed only of pulverized pulp, or is formed of a mixture of pulverized pulp and a relatively large SAP. Since the liquid absorbed in the central absorbent material layer 35A is pulled and absorbed by the SAP of the absorbent material layer 35B on both sides, the liquid returns from the central absorbent material layer 35A to the top sheet side. It is possible to prevent side leakage.
[0071]
The one shown in FIG. 11 is obtained by flattening the one shown in FIG. 6, and the liquid is sucked by the frame-shaped absorbent material layer 35B.
[0072]
In FIG. 1, carrier tissue 33 and cover tissue 31 are used as the cover sheet. In the case shown in FIG. 2, cover tissues 31A and 31B are used as the cover sheet. An absorbent body in which an absorbent material layer is sandwiched between nonwoven fabrics or the like may be manufactured using a non-woven fabric or woven fabric as a cover sheet.
[0073]
【The invention's effect】
  As described above, the absorbent body of the present invention is manufactured at a low cost because no tissue is interposed between the absorbent material layers.it can.
  Moreover, the absorber according to various demands can be comprised by changing the mixing state and shape of SAP of two types of absorptive material layers.
  Furthermore, two kinds of absorbent material layers are combined in a plane.BecauseTherefore, it is possible to construct a thin absorbent body having an excellent absorption function.
[Brief description of the drawings]
[Figure 1]Reference exampleExplanatory drawing which shows the manufacturing method of the absorber of this,
FIG. 2 of the present inventionAbsorberExplanatory drawing which shows the manufacturing method of
FIG. 3 is a partial perspective view showing an outer peripheral portion of a pattern drum;
FIG. 4 is a partial cross-sectional view showing a state where an absorbent material layer is formed with a pattern drum;
FIG. 5 (A) and (B) are:Reference exampleCross section of the absorber,
6 shows the shape of the absorbent material layer manufactured by the manufacturing method shown in FIG.Reference exampleA perspective view,
7 shows the shape of the absorbent material layer manufactured by the manufacturing method shown in FIG.Reference exampleA perspective view,
8 shows the shape of the absorbent material layer manufactured by the manufacturing method shown in FIG.Reference exampleA perspective view,
9 is manufactured by the manufacturing method shown in FIG.The present inventionAbsorbent material layer shapeIndicatePerspective view,
10 is manufactured by the manufacturing method shown in FIG.The present inventionAbsorbent material layer shapeIndicatePerspective view,
11 is manufactured by the manufacturing method shown in FIG.The present inventionAbsorbent material layer shapeIndicatePerspective view,
FIG. 12 is a cross-sectional view of a conventional absorber,
FIG. 13 is an explanatory view showing a conventional method for producing an absorbent body,
FIG. 14 is an explanatory view showing a conventional method for producing an absorbent body,
[Explanation of symbols]
21, 21A, 21B Pattern drum
23, 23A, 23B Recess
23a mesh
24, 24A, 24B Pulp Laminator
25, 25A, 25B SAP injection nozzle
31, 31A, 31B Cover tissue
33 carrier tissue
35, 35A, 35B Absorbent material layer formed by recesses
40 Band-shaped absorbent material layer

Claims (9)

The first absorbent material layer and the second absorbent material layer, an absorbent material layer combined is dimensionally not aligned and in contact with each other so as not to overlap in the thickness direction, the first cover sheet And the second cover sheet, and at least one of the cover sheets is liquid permeable. The first absorbent material layer and the second absorbent material layer are both absorbent body according to claim 1, wherein those which are molded into a predetermined shape by the recess of the pattern drum. The first absorbent material layer has a rectangular shape, the second absorbent material layer has a shape protruding on both sides of the first absorbent material layer, and has an hourglass shape as a whole. The absorber as described in. The first absorbent material layer has a rectangular shape, and a rectangular second absorbent material layer is combined on both sides of the first absorbent material layer to form a rectangular shape as a whole. The absorber as described in. The first absorbent material layer has a rectangular shape, and a frame-shaped second absorbent material layer is combined with the outer periphery of the first absorbent material layer to form a rectangular shape as a whole. The absorber as described in. Both absorbent material layer are both made of a mixture of absorbent fibers and superabsorbent polymer, in any one of claims 1 to 5 content of the superabsorbent polymer contained in both absorbent material layer are different from each other The absorber of description. The absorbent body according to claim 6 , wherein one absorbent material layer is a mixture of water-absorbing fibers and a superabsorbent polymer, and the other absorbent material layer is formed of water-absorbing fibers. Both absorbent material layer are both made of a mixture of absorbent fibers and superabsorbent polymer, according to any one of claims 1 to 6 granularity of the superabsorbent polymer contained in both absorbent material layer are different from each other Absorber. The absorbent body according to claim 8 , wherein the particle size of the superabsorbent polymer contained in the absorbent material layers located on both sides of the planarly combined absorbent material layers is 60 mesh or more.

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