JP7102760B2 - SAP sheet and absorbent articles - Google Patents

Description

The present invention relates to a SAP sheet on which a group of particles of SAP, which is a highly absorbent polymer, is arranged.

In absorbent articles such as disposable diapers, urine pads, and sanitary products, pulp and super absorbent polymer (SAP) are used as an absorbent material for absorbing urine and body fluids. Usually, these absorbents are arranged on the skin contact surface side of the absorbent article as an absorber formed into a thin sheet-like shape, a mat-like shape, or the like. For example, an absorber in which SAP particles are dispersed and arranged in a pulp mat, and an absorber in which the SAP particles are arranged in layers between a plurality of pulp mats are known.

Further, in recent years, in addition to the basic functions that the absorbent article has excellent absorbency of excrement and does not leak, it is required to improve the wearing feeling and the appearance at the time of wearing. Therefore, it has been proposed to reduce the thickness of the relatively bulky absorber among the constituent members of the absorbent article. For example, Patent Document 1 discloses an absorbent composite or the like in which the ratio of SAP particles is increased by fixing SAP particles to a non-woven fabric base material or the like using a binder such as a thermoplastic resin. Further, Patent Document 2 discloses a SAP sheet in which SAP particles are arranged between two sheet members, and by causing hydrogen bonds between the sheet members, the SAP receiving layer, and the SAP particles. , SAP particles are fixed to the sheet via the SAP receiving layer.

Japanese Unexamined Patent Publication No. 2000-240033 Japanese Unexamined Patent Publication No. 2013-39804

When the SAP sheet is used for the purpose of absorbing liquids such as urine and body fluids, it is possible to form an absorber that is thin and has high absorption performance. However, since the SAP particles have a relatively small particle size and are lightweight, it is not easy for the SAP particles to move easily inside the SAP sheet when the posture of the SAP sheet is changed, and it is not easy to restrain the movement of the SAP particles. If the SAP particles move in the SAP sheet and the SAP particles are unevenly distributed, there is a possibility that a region where the absorption performance is locally deteriorated may occur in the SAP sheet.

As shown in the above-mentioned prior art, when the SAP particles are fixed to the sheet member of the SAP sheet by using a binder such as a thermoplastic resin, the movement of the SAP particles in the SAP sheet can be suppressed, but the SAP Since the particles are in contact with the binder, the surface area of the SAP particles in contact with the liquid that has entered the SAP sheet is reduced. Therefore, the absorption rate of the liquid in the SAP sheet does not increase sufficiently, and its absorption performance is unlikely to be suitable. Further, when the SAP particles are fixed to the sheet member by using hydrogen bonds, the bond between the SAP particles and the sheet member is mentioned, but how the movement of the SAP particles in the SAP sheet is. There is no mention of being bound by.

An object of the present invention is to provide a SAP sheet having a novel structure in view of the above problems.

In order to solve the above problems, SAP particles were used to bond the two sheets constituting the SAP sheet and to limit the movement of the SAP particles.

Specifically, the present invention is a SAP sheet in which a group of SAP particles, which is a highly absorbent polymer, is arranged, and the SAP is between a first sheet made of a fibrous material and the first sheet. A second sheet made of a fibrous material, which is arranged with respect to the first sheet so as to sandwich the group of particles of SAP, and is arranged between the first sheet and the second sheet and contains the particles of SAP. It comprises a SAP layer formed of. Then, in the SAP layer, a part of the particle group of the SAP is interposed between the first sheet and the second sheet to adhere both sheets, and the SAP layer is sandwiched between the first sheet and the second sheet. An adhesive portion forming a closed space, and another part of the SAP particle group, which is freely sealed with respect to both sheets in the closed space of the adhesive portion. It has a free SAP particle group. The adhesive portion may form one or more closed spaces, and the size and shape of each closed space is not limited to a specific size and shape.

In the present invention, the SAP particles refer to particles of a resin composition containing SAP. The "resin composition containing SAP" refers to both a composition consisting of SAP alone and a composition containing SAP as a main component and containing other substances to the extent that it does not adversely affect water absorption. It is a concept to be included. Further, starch-based, cellulosic-based, and synthetic resin-based materials can be used for SAP, and the particle shape and particle size thereof are not limited to a specific shape and size as long as an adhesive portion can be formed.

Here, in the adhesive portion, both sheets may be adhered by entwining the particles of the SAP forming the adhesive portion with the fibrous materials of the first sheet and the second sheet. Further, the adhesive portion may be formed by being compressed by sandwiching a part of the particle group of SAP between the first sheet and the second sheet.

Further, in the SAP sheet, the SAP layer may contain only the SAP particles to form the adhesive portion and the free SAP particle group.

Further, in the SAP sheets described above, the adhesive portion may form a plurality of the closed spaces. In that case, each of the plurality of closed spaces may have substantially the same size. Further, substantially the same amount of the free SAP particle group may be sealed in each of the plurality of closed spaces.

The present invention can also be grasped from the aspect of absorbent articles such as disposable diapers, urine absorbing pads, and menstrual napkins. For example, the absorbent article includes an absorber containing at least the SAP sheet described above, a top sheet having at least a part made of a liquid permeable material and arranged so as to cover the surface of the absorbent body, and a liquid impermeable material. A back sheet made of a sex material and arranged so as to cover the back surface of the absorber may be provided. In the absorbent article, one or more SAP sheets as described above may be used.

Further, the present invention can be grasped from the aspect of the method of manufacturing the SAP sheet. That is, the present invention is a method for producing a SAP sheet in which a particle group of SAP, which is a highly absorbent polymer, is arranged, and a step of arranging the particle group of SAP on a first sheet made of a fibrous material. And the step of arranging the second sheet made of the fibrous material so as to sandwich the SAP particle group with the first sheet on which the SAP particle group is arranged, and the step of arranging the second sheet made of the fibrous material and the predetermined pressure. Pressurize the first sheet and at least one of the second sheets so that the pressurized portion surrounds the non-pressurized portion so as to form a continuous shape, and between the first sheet and the second sheet at the pressurized portion. A step of pressurizing a part of the particle group of the SAP intervening in and adhering both sheets is included.

In the above manufacturing method, in the step of arranging the SAP particle group, the SAP particle group may be evenly arranged on the first sheet in the thickness direction of the SAP sheet.

Further, in the manufacturing method described above, in the step of adhering the two sheets, at least an annular shape of the SAP particle group arranged sandwiched between the first sheet and the second sheet is formed. Pressurization may be performed with the predetermined pressing force by including the outermost edge portion in the pressurizing portion.

In the manufacturing method described above, in the step of adhering both sheets, the SAP particle group is applied to a pressure roller having a continuously shaped pressure surface portion corresponding to the continuous shape pressure portion. By relatively feeding the first sheet and the second sheet sandwiched between them, pressurization may be performed by the pressurizing roller at the predetermined pressing force. Further, as another method of pressurizing with a predetermined pressing force, a press using a mold having a continuously shaped pressurizing surface portion corresponding to the continuous shape pressurizing portion may be used.

According to the present invention, it is possible to provide a SAP sheet having a novel structure.

It is a figure which shows the schematic structure of the SAP sheet of this invention. It is sectional drawing of the SAP sheet shown in FIG. It is the first enlarged view near the boundary part of the SAP sheet and the SAP particle group at the time of pressurization. It is a second enlarged view near the boundary part of the SAP sheet and the SAP particle group at the time of pressurization. It is a figure which shows the structure of the pressure roller used for manufacturing the SAP sheet. It is a figure which shows the flow of the manufacturing method of the SAP sheet shown in FIG. It is a figure which shows the manufacturing state of the SAP sheet step by step when according to the manufacturing method shown in FIG. It is a figure which shows the schematic structure of the absorbent article formed by using the SAP sheet shown in FIG. It is a figure which disassembled the absorbent article shown in FIG. 7 for each part. FIG. 7 is a cross-sectional view of the absorbent article shown in FIG.

Hereinafter, the SAP sheet according to the embodiment of the present invention will be described with reference to the drawings. The configurations of the following embodiments are examples, and the present invention is not limited to the configurations of these embodiments.

<Structure of SAP sheet>
FIG. 1 is a diagram showing a schematic configuration of the SAP sheet 6 of the present embodiment. The SAP sheet 6 is formed between the first sheet 61 and the second sheet 62 made of a fibrous material and the particles of SAP (Super Absorbent Polymer: SAP) which is a super absorbent polymer between the two sheets. It also has a SAP layer 63 formed including the above. Further, FIG. 2 shows a case where the SAP sheet 6 is cut in the XX cross section (cross section along the width direction of the SAP sheet 6) and the YY cross section (cross section along the length direction of the SAP sheet 6) shown in FIG. It is a cross-sectional view. In FIG. 2, the state of each cross section is shown by emphasizing the change in the thickness direction of the SAP sheet 6.

Both the first sheet 61 and the second sheet 62 are formed of a fibrous material and have substantially the same shape (rectangular shape in the present embodiment). The first sheet 61 is a sheet that covers the surface of the SAP layer 63, and is arranged and used on the skin side of the user. The first sheet 61 is a hydrophilic sheet. The second sheet 62 is a sheet that covers the back surface of the SAP layer 63, and is arranged and used on the side facing the user's skin. The second sheet 62 does not necessarily have to be a hydrophilic sheet like the first sheet 61. For example, the second sheet 62 may be made of a water repellent material. When the second sheet 62 is made of a hydrophilic material, it is possible to absorb a liquid such as excrement from the surface on the second sheet 62 side as well. Therefore, the absorption efficiency of the entire SAP sheet 6 can be improved. Further, both the first sheet 61 and the second sheet 62 can face the skin of the user, and the SAP sheet 6 is highly convenient.

Here, as an example, both the first sheet 61 and the second sheet 62 can be formed of a non-woven fabric made of synthetic fibers such as polypropylene (PP) fibers and polyethylene terephthalate (PET) fibers. As an example, the "nonwoven fabric" can be a sheet or a web formed by adhering or entwining short fibers or filaments made of non-cellulosic synthetic fibers. In order to make each sheet a hydrophilic sheet, a hydrophilic treatment such as coating, spraying, or impregnating the raw cotton of the non-woven fabric with a surfactant may be performed.

The basis weight of the non-woven fabric used for the first sheet 61 and the second sheet 62 is preferably 10 to 30 g / m ² . By setting the content to 10 g / m ² or more, the strength of each sheet can be ensured. On the other hand, when the content is 30 g / m ² or less, the flexibility and flexibility of each sheet can be ensured, and the entire SAP sheet 6 can be suitably thinned. More preferably, the basis weight of the non-woven fabric is 15 to 25 g / m ² .

When the first sheet 61 and the second sheet 62 are hydrophilic sheets, both sheets can be made of paper. As an example, "paper" is a sheet or web formed by entwining cellulosic fibers. Cellular fibers constituting paper include, for example, coniferous and broadleaf wood pulp, waste paper pulp, non-wood pulp such as hemp and cotton, chemically synthesized pulp, cellulose fiber derived from cotton and the like, rayon (recycled cellulose fiber), and the like. Cellulous synthetic fibers such as lyocell (purified cellulose fiber) are also included. It is also possible to use two or more types of cellulosic fibers, or a mixed fiber of a cellulosic fiber and a non-cellulosic synthetic fiber (fiber such as PP or PET). In order that the swelling of SAP particles is not hindered by the paper sheet and the SAP sheet 6 exhibits high absorption performance, the paper forming the first sheet 61 and the second sheet 62 is a tissue or absorbent paper. It is preferable to have. Tissue and absorbent paper are more likely to tear than other papers and are less likely to interfere with the swelling of SAP particles.

Next, the SAP particles contained in the SAP layer 63 will be described. The SAP particles are granular SAP, and as the SAP, for example, those capable of absorbing and retaining water having a weight of 5 times or more of its own weight can be adopted. Further, as the SAP, a starch-based, cellulose-based, synthetic resin-based, etc. SAP can be used. It may be a crosslinked product or one made of an acrylic acid (salt) polymer. As for the particle shape of SAP, for example, crushed type and pearl type are known, but crushed type SAP particles are preferably adopted.

Further, the SAP particles of the present embodiment refer to particles of a resin composition containing SAP. The term "resin composition containing SAP" as used herein refers to both a composition consisting of SAP alone and a composition containing SAP as a main component and containing other substances to the extent that it does not adversely affect water absorption. It is a concept that includes. Examples of the "other substance" include additives (surface modifiers added for the purpose of hydrophobizing the particle surface), unreacted monomers remaining during the synthesis of SAP, and the like.

In addition, "granular" with respect to SAP particles includes, for example, granular and granular forms. With these shapes, it becomes easy to form a SAP layer having a uniform thickness when the SAP particles are arranged. Further, the particle size and particle size distribution of the SAP particles are not particularly limited as long as the first sheet 61 and the second sheet 62 can be adhered to each other by the SAP particles by the pressurizing step as described later. However, from the viewpoint of absorbency in the SAP layer 63 and adhesion by the SAP particles, the mass average particle diameter of the SAP particles is preferably 180 to 500 μm. The "mass average particle size" can be measured by a known sieving method.

Here, in the SAP sheet 6, the SAP layer 63 is arranged between the first sheet 61 and the second sheet 62 as shown in FIGS. 1 and 2. On top of that, a part of the SAP particle group forming the SAP layer 63 functions as an adhesive portion for adhering the first sheet 61 and the second sheet 62. Hereinafter, the adhesion of the sheet by this SAP particle group will be described.

In the state where the SAP particle group is sandwiched between the first sheet 61 and the second sheet 62, the inventor of the present application pressurizes with a predetermined pressing force, and the SAP particles corresponding to the pressurized portion on which the predetermined pressing force acts are generated. As a result of being pressurized and entangled with the fibrous member of each sheet, it was found that the SAP particles exert a binding force to the first sheet 61 and the second sheet 62 and substantially adhere both sheets. Here, FIGS. 3A and 3B show enlarged views of the vicinity of the boundary portion between each sheet and the SAP particle group when both sheets are adhered in this way. 3A and 3B are micrographs taken by SEM (Scanning Electron Microscope), the magnification of FIG. 3A is 200 times, and the magnification of FIG. 3B is 50.
It is 0 times. In both figures, a part of the SAP particles entwined with the fibrous member of the sheet is surrounded by a white circle and extracted by way of example. In particular, in FIG. 3A, it can be understood that the fibrous members of the sheet are also in a state where the gaps between the members are closed by pressurization on the substantially left side of the figure, and SAP particles are contained therein. Further, it is also considered that the SAP particles are compressed and crushed or deformed depending on a predetermined pressing force and are entangled with the fibrous members of both sheets, so that the two sheets are adhered to each other. The predetermined pressing force is the type of SAP, its particle diameter, the thickness of the SAP particle group arranged between the first sheet 61 and the second sheet 62, the material of the first sheet 61 and the second sheet 62, and the like. It is thought that it will change depending on the situation. Then, in the present embodiment, the SAP sheet 6 is formed by utilizing the adhesion by the SAP particles through the pressurization with the predetermined pressing force.

In the SAP sheet 6, as an adhesive portion between the first sheet 61 and the second sheet 62 by a part of the SAP particle group forming the SAP layer 63, the end adhesive portion 63A and the inside along the width direction (short direction) thereof. The adhesive portion 63B is formed, and the end adhesive portion 63C and the internal adhesive portion 63D are formed along the length direction (longitudinal direction) thereof. The end adhesive portions 63A and 63C are arranged at both ends in the length direction and the width direction of the SAP sheet 6, respectively. Further, in the length direction of the SAP sheet 6, five internal adhesive portions 63B are arranged at equal intervals between the two end adhesive portions 63A, and the width of the end adhesive portions 63A (the length of the SAP sheet 6). The length in the direction) is larger than the width of the internal adhesive portion 63B. Further, in the width direction of the SAP sheet 6, four internal adhesive portions 63D are arranged at equal intervals between the two end adhesive portions 63C, and the width of the end adhesive portions 63C (the width direction of the SAP sheet 6). The length) is about the same as that of the internal adhesive portion 63D. Therefore, in the SAP sheet 6, a grid-like adhesive portion is formed in the SAP layer 63.

Further, in the SAP sheet 6, the end adhesive portion 63A or the internal adhesive portion 63B extending along the width direction thereof, and the end adhesive portion 63C or the internal adhesive portion 63D extending along the length width direction thereof. The first sheet 61 and the second sheet 62 form a plurality of rectangular sealing spaces 60 in which the other part of the SAP particle group forming the SAP layer 63 is sealed. That is, the sealing space 60 is surrounded by the end adhesive portion 63A or the internal adhesive portion 63B and the end adhesive portion 63C or the internal adhesive portion 63D, and the vertical direction (thickness direction of the SAP sheet 6) thereof is It is a closed space surrounded by the first sheet 61 and the second sheet 62.

As described above, since the grid-like adhesive portion is formed in the SAP layer 63, 30 sealing spaces 60 are arranged in the SAP sheet 6. Then, the sealing space 60 is formed at a position corresponding to the non-pressurized portion where a predetermined pressing force did not act when forming the adhesive portion. Therefore, since a predetermined pressing force does not act on the SAP particles sealed in the sealing space 60 (the other part of the SAP particles of the above-mentioned SAP particle group), the SAP particles are the first. The sheet 61 and the second sheet 62 are sealed in a free state, and the SAP particle group sealed in the sealing space 60 corresponds to the free SAP particle group of the present invention.

The sealing space 60 is a space closed to the extent that the SAP particle group sealed inside the sealing space does not leak out of the sealing space. Therefore, the SAP particle group sealed in the sealing space 60 can move only in the sealing space 60 even though it is in a free state with respect to the first sheet 61 and the second sheet 62. Movement is extremely restricted. On the other hand, liquids such as urine and body fluids and air can enter the sealing space 60. That is, the liquid can enter the sealing space 60 through the first sheet 61 and the second sheet 62 and be absorbed by the SAP particles sealed therein. Further, air can freely enter and exit the sealing space 60 via the first sheet 61 and the second sheet 62, and the sealing space 60 does not reduce the air permeability of the SAP sheet 6.

As described above, since the sealing space 60 corresponds to the non-pressurized portion, as shown in FIG. 2, in the SAP sheet 6, the thickness of the SAP layer 63 of the sealing space 60 is the end. It is larger than the thickness of the SAP layer 63 of the partial adhesive portions 63A and 63C and the internal adhesive portions 63B and 63D. Therefore, the spatial density of the SAP particles sealed in the sealing space 60 is relatively small, the liquid easily enters the sealing space 60, and the liquid by the sealed SAP particles is effective. Absorption is possible.

In the SAP sheet 6 configured in this way, the SAP particle group sealed in the sealing space 60 is in a free state with respect to the first sheet 61 and the second sheet 62, and the movement thereof is sealed. It is restricted to space 60. As a result, since the movement of the SAP particle group is locally restricted in the SAP sheet 6, the uneven distribution of the SAP particles can be suppressed in the entire sheet, and the SAP particles can be evenly arranged as much as possible. Further, since the sealed SAP particle group is not fixed to the first sheet 61 and the second sheet 62 with a binder or the like in each sealing space and is in a free state, the sealed SAP particle group is in the sealing space 60. It is possible to exhibit suitable absorption performance for the invading liquid.

Further, the 30 sealing spaces 60 formed in the SAP sheet 6 shown in FIG. 1 have the same size, and substantially the same amount of SAP particles are sealed in each sealing space 60. ing. From this, the SAP particles can be arranged more evenly on the SAP sheet 6, and thus the absorption performance of the SAP sheet 6 can be maintained high. In particular, as the absorption area of the SAP sheet 6 becomes larger, it is possible to maintain the absorption performance regardless of the increase in the absorption area by arranging more sealing spaces 60 in the SAP sheet 6 according to the absorption area. can. The sealing spaces 60 formed on the SAP sheet 6 do not necessarily have to be all the same size, and the size of the sealing space 60 may be appropriately changed according to the arrangement location on the SAP sheet 6 and the like. good. For example, when there is a region in the SAP sheet 6 where a relatively large amount of liquid can enter, the amount of SAP particles sealed in a predetermined region including such a region is larger than that in other regions. The size and position of the sealing space 60 in the SAP sheet 6 may be adjusted so that the number of the SAP particles increases and the SAP particles are evenly arranged in the predetermined region.

Further, the SAP particles forming the end adhesive portions 63A and 63C and the internal adhesive portions 63B and 63D are pressurized unlike the SAP particles sealed in the sealing space 60, and the first sheet 61 and the second sheet 62 are formed. However, when it comes into contact with the liquid that has entered the sealing space 60, it can absorb the liquid. At this time, the binding force to the first sheet 61 and the second sheet 62 may decrease due to the absorption of the liquid, but most of the SAP particles sealed in the sealing space 60 absorb the liquid that has already entered. It is considered that the SAP particles are in a swollen state, and it is extremely unlikely that the problem of uneven distribution of SAP particles before liquid absorption will occur. Therefore, the SAP particles forming the adhesive portion can also be expected to absorb liquid like the SAP particles sealed in the sealing space 60, and can contribute to the improvement of the absorption performance of the entire SAP sheet 6.

In the above embodiment, the end adhesive portions 63A and 63C and the internal adhesive portions 63B and 63D for adhering both sheets are formed by pressurizing the SAP particles, but both sheets are formed instead of the embodiment. In addition to the above-mentioned bonding method by pressurizing the SAP particles, another bonding method can also be used in combination. For example, in forming the end bonding portions 63A and 63C, a bonding method using a conventional hot melt or an ultrasonic welding method, which is different from the above-mentioned bonding method by pressurizing the SAP particles, can be adopted. On top of that, in forming the internal bonding portions 63B and 63D, the above-mentioned bonding method by pressurizing the SAP particles may be adopted. In such an adhesive form of both sheets, it is possible to more reliably prevent the SAP particles from leaking from the SAP sheet 6 to the outside, and the entire SAP sheet 6 is prevented from being unevenly distributed inside the SAP sheet 6. Absorption performance can be kept relatively high.

Further, the above-mentioned bonding method by pressurizing the SAP particles can be adopted not only for manufacturing the finished product of the SAP sheet 6, but also for the first sheet 61 and the first sheet before the finished product of the SAP sheet 6 is manufactured. It can also be adopted as a bonding method for temporarily bonding the two sheets 62, that is, for temporary fixing. For example, in the case where the first sheet 61 and the second sheet 62 are finally adhered to each other using a hot melt to produce a finished product of the SAP sheet 6, the first sheet is in a stage before the hot melt is used. In order to tentatively position the SAP particles with the SAP particles sandwiched between the 61 and the second sheet 62, the above-mentioned bonding method by pressurizing the SAP particles can be adopted.

<Manufacturing method of SAP sheet>
Next, a method for manufacturing the SAP sheet 6 will be described with reference to FIGS. 4 to 6. As described above, the end adhesive portions 63A and 63C and the internal adhesive portions 63B and 63D are formed in a grid pattern on the SAP layer 63 of the SAP sheet 6. Specifically, in the end bonding portions 63A and 63C and the internal bonding portions 63B and 63D, a predetermined pressing force is sandwiched between the first sheet 61 and the second sheet 62 by the pressure roller 75 shown in FIG. It is formed by being applied to the SAP particle group of the SAP layer 63. In order to enable the application of a predetermined pressing force in this way, the pressure roller 75 is provided with a pressure surface portion corresponding to the shapes of the end adhesive portions 63A and 63C and the internal adhesive portions 63B and 63D. There is.

Specifically, the pressure roller 75 is a cylindrical roller, the central axis of the columnar main body 71 serves as a rotation axis, and the side surface thereof serves as a rotation surface. Then, on the rotating surface of the pressure roller 75, three groups of recesses 70 are formed with 30 recesses 70 corresponding to the 30 sealing spaces 60 in one SAP sheet 6 as one group. There is. The shape of the recesses 70 generally corresponds to the rectangular shape of the sealing space 60, and the arrangement of the recesses 70 in one group corresponds to the arrangement of the sealing spaces 60 in one SAP sheet 6.

On the rotating surface between the recess 70 of the first group and the recess 70 of the other group, the recess 70 is not arranged in the width direction (direction orthogonal to the rotation direction of the rotating surface), the first pressurized surface. Part 73A is formed. Then, in the recesses 70 of the group, five second pressurized surface portions 73B extending along the width direction of the rotating surface are formed between the recesses 70 and the recesses 70. Also, 1
In the recess 70 of the group, a third pressurized surface portion 73C extending along the rotation direction is formed at both outermost edges of the rotating surface. Then, in the recesses 70 of the group, four fourth pressurized surface portions 73D extending along the rotation direction of the rotating surface are formed between the recesses 70 and the recesses 70.

When the pressure roller 75 formed in this way comes into contact with one of the sheets (for example, the first sheet 61) in order to pressurize the SAP layer 63 sandwiched between the first sheet 61 and the second sheet 62, the pressure is applied. Each pressurized surface portion having the same height as the rotating surface of the roller 75 comes into contact with the first sheet 61 to apply a predetermined pressing force. The portion on the first sheet 61 in which each pressurized surface portion contacts in this way corresponds to the pressurized portion of the present invention. On the other hand, the recess 70 having a height lower than the rotating surface of the pressure roller 75 does not come into contact with the first sheet 61. The portion on the first sheet 61 facing the recess 70 in this way corresponds to the non-pressurized portion of the present invention. Therefore, by using the pressurizing roller 75, it is possible to pressurize the first sheet 61 so that the pressurized portion in the first sheet 61 has a continuous shape surrounding the non-pressurized portion.

Then, by pressurization using the pressurizing roller 75, the first pressurized surface portion 73A forms the end adhesive portion 63A in the SAP layer 63, and the second pressurized surface portion 73B forms the internal adhesive portion 63B in the SAP layer 63. The third pressurized surface portion 73C forms the end adhesive portion 63C in the SAP layer 63, and the fourth pressurized surface portion 73D forms the internal adhesive portion 63D in the SAP layer 63. According to such a pressure roller 75, by having the first pressure surface portion 73A and the third pressure surface portion 73C, the outermost edge portion of the SAP sheet 6, that is, each side of the rectangular shape of the first sheet 61. A predetermined pressing force can be applied by including the edge portion including the above in the pressurized portion. As a result, it is possible to form an annular adhesive portion along the outermost edge portion of the SAP sheet 6, that is, end adhesive portions 63A and 63C. As a result, most of the SAP particles sandwiched between the first sheet 61 and the second sheet 62 in the manufacturing process can be used for the SAP sheet 6 as much as possible, and waste of the SAP particles in the manufacturing process can be suppressed. Can be done.

Here, the flow of the manufacturing method of the SAP sheet 6 will be described with reference to FIGS. 5 and 6. FIG. 5 is a flowchart showing the flow of the manufacturing method of the SAP sheet 6, and FIG. 6 is a diagram showing the manufacturing state of the SAP sheet 6 step by step. First, in S101, the SAP particle group is arranged on the first sheet 61. At this time, the SAP particle group is arranged using a known powder feeder or the like so that the thickness Δh of the SAP particle group becomes a substantially constant value in the entire first sheet 61. This makes it easier to evenly distribute the SAPs on the manufactured SAP sheet 6. Next, in S102, the second sheet 62 is arranged on the SAP particle group arranged on the first sheet 61. The second sheet 62 is positioned so as to cover the SAP particle group arranged on the first sheet 61 without excess or deficiency. Then, the state in which the second sheet 62 is arranged in S102 is the state before pressurization by the pressurizing roller 75, and the laminated body of the first sheet 61, the SAP particle group, and the second sheet 62 in that state is added. It is referred to as a pre-compression laminate 65.

Then, in S103, the pressurizing roller 75 performs a pressurizing treatment on the pre-pressurized laminated body 65. Specifically, as shown in FIG. 6, the pre-pressurized laminated body 65 is sequentially fed into the pressurizing region between the pressurizing roller 75 and the auxiliary roller 76. The auxiliary roller 76 is a columnar roller like the pressure roller 75, but its rotating surface is a smooth surface, and no recesses or protrusions are provided. Therefore, a predetermined pressing force is applied to the pre-pressurized laminated body 65 sent into the pressurizing region through each pressurizing surface portion provided on the pressurizing roller 75. As a result, each of the adhesive portions shown in FIG. 1 is formed in the SAP layer 63 corresponding to the pressurized portion on the first sheet 61 that each pressurized surface portion comes into contact with. As described above, since the pressure roller 75 is formed with three groups of 30 recesses 70, it is possible to pressurize the three pre-pressurization laminates 65 with one rotation of the pressure roller 75. Is.

Although the pressurizing roller 75 is used in the pressurizing process in S103, it is equivalent to the press device by using a pressurizing die having a pressurizing protrusion equivalent to each pressurizing surface portion of the pressurizing roller 75. It is also possible to carry out the pressure treatment of.

<Modification example>
In the above embodiment, the sealing space 60 has a substantially rectangular shape, but the shape of the sealing space 60 is not limited to this. For example, the shape of the pressure surface portion of the pressure roller 75 may be adjusted so that the sealing space 60 has a polygonal shape such as a triangle or a hexagon, or a circular shape. Further, each adhesive portion formed on the SAP layer 63 of the SAP sheet 6 does not necessarily extend along the length direction and the width direction of the SAP sheet 6, and each adhesive portion extends in the length direction of the SAP sheet 6. , The shape of the pressure surface portion of the pressure roller 75 may be adjusted so as to extend diagonally with respect to the width direction.

<Absorbable article using SAP sheet>
As an example of the absorbent article using the SAP sheet 6, the tape-type disposable diapers disclosed in FIGS. 7 to 9 will be described. FIG. 7 is a perspective view of a tape-type disposable diaper (hereinafter, simply referred to as “diaper”) 1. The diaper 1 has an inseam region 1B that covers the wearer's pubic area in the wearing state, a front body region 1F located on the front side of the inseam region 1B, and a back body region 1R located on the back side of the inseam region 1B. Tapes 2L and 2R that can be attached to the front patch 2F provided on the non-wearer side of the front body area 1F are provided on the left and right edges of the back body area 1R. Therefore, in the diaper 1, when the front body area 1F is arranged on the ventral side of the wearer and the back body area 1R is arranged on the back side of the wearer, the tapes 2L and 2R are attached to the front patch 2F. , It is fixed to the wearer's body in a state surrounding the wearer's abdomen and thigh.

In the diaper 1, an absorber capable of absorbing and holding the liquid is mainly arranged around the inseam region 1B. The absorber includes the above-mentioned SAP sheet 6. Further, in the diaper 1, in order to suppress the formation of a gap that serves as a liquid outflow route between the diaper 1 and the wearer's skin, the three-dimensional gathers 3BL and 3BR are formed on the portion surrounding the wearer's thigh. Is provided, and a waist gather 3R is provided at a portion surrounding the wearer's abdominal circumference. The three-dimensional gathers 3BL, 3BR and waist gathers 3R come into close contact with the wearer's skin due to the elastic force of the rubber thread. Therefore, the liquid discharged from the pubic area of the wearer is absorbed by the absorber of the diaper 1 with almost no leakage from the diaper 1.

FIG. 8 is an exploded perspective view of the diaper 1, and FIG. 9 is a cross-sectional view of the inseam region 1B cut in the width direction thereof. The diaper 1 has a cover sheet 4 that forms an outer surface when worn. The cover sheet 4 is a sheet-like member having a substantially rectangular appearance with 4KL and 4KR constricted in a portion corresponding to a long side. The constriction 4KL and 4KR are provided at a position where the wearer's thigh is located. The cover sheet 4 is provided for reinforcing the back sheet 5 and improving the feel. For example, in order to suppress leakage of excrement, a non-woven fabric made of a liquid-impermeable thermoplastic resin may be used as the material thereof. can. Examples of the liquid-impermeable thermoplastic resin include polyethylene (PE) and polypropylene (PP).

The diaper 1 has a back sheet 5 which is sequentially laminated on the wearer side surface of the cover sheet 4, a SAP sheet 6 as an absorber, and a top sheet 7. As an example, the stacking is performed so that the first sheet 61 of the SAP sheet 6 is located on the top sheet 7 side and the second sheet 62 is located on the back sheet 5 side. The details of the SAP sheet 6 are as described above. Further, the back sheet 5 and the top sheet 7 are both sheet-like members having a rectangular appearance, and are laminated on the cover sheet 4 in order in a state where the longitudinal direction coincides with the longitudinal direction of the cover sheet 4. The back sheet 5 is a sheet formed of a liquid-impermeable thermoplastic resin as a material in order to suppress leakage of excrement, like the cover sheet 4. Further, the top sheet 7 is a sheet-like member arranged on the skin surface side of the wearer so as to cover the water absorption surface of the SAP sheet 6. The top sheet 7 has liquid permeability in a part or all of it. Therefore, when the diaper 1 is worn, the liquid excreted from the wearer enters the SAP sheet 6 through the top sheet 7 which can come into contact with the wearer's skin, and is absorbed there. For example, a woven fabric, a non-woven fabric, or a porous film can be used as a material for the top sheet 7. Further, the top sheet 7 may also have hydrophilicity.

Then, when the wearer's pubic area is covered with the cover sheet 4 in which the back sheet 5, the SAP sheet 6, and the top sheet 7 are laminated, both ends of the back sheet 5, the SAP sheet 6, and the top sheet 7 in the longitudinal direction are formed. It will be located on the ventral and dorsal sides of the wearer. That is, the genital area of the wearer is covered with the SAP sheet 6 from the ventral side to the dorsal side of the wearer. Therefore, regardless of whether the wearer discharges the liquid to the outside of the body in either the abdomen-down posture or the back-down posture, the discharged liquid contacts the SAP sheet 6 via the top sheet 7. Will be done.

Further, the diaper 1 has elongated strip-shaped side sheets 8L and 8R for forming the above-mentioned three-dimensional gathers 3BL and 3BR. The side seats 8L and 8R are provided on the long side portion of the top seat 7. Similar to the three-dimensional gathers 3BL and 3BR of the diaper 1, the side seats 8L and 8R are provided with 8KL and 8KR constricted at a position where the wearer's thigh is located. The thread rubbers 8EL and 8ER are woven along the longitudinal direction into the constricted 8KL and 8KR. Therefore, in the constricted 8KL and 8KR, when the diaper 1 is in the wearing state, that is, when the diaper 1 is in the U-shaped side view, it is attracted in the longitudinal direction by the contraction force of the rubber threads 8EL and 8ER and is pulled from the top sheet 7. It becomes a three-dimensional gather that stands up and prevents the outflow of liquid.

Further, the thread rubber 9ER for forming the waist gather 3R described above is provided between the back sheet 5 and the top sheet 7 at a position further back from the end portion in the longitudinal direction of the SAP sheet 6. The rubber thread 9ER is provided between the back sheet 5 and the top sheet 7 in a direction in which the longitudinal direction, which is the expansion and contraction direction, is the left-right direction of the diaper 1. Therefore, when the tapes 2L and 2R provided on the left and right sides of the rubber thread 9ER are attached to the front patch 2F on the ventral side of the wearer, the rubber thread 9ER exerts a contraction force to give the diaper 1 to the wearer. It is brought into close contact to prevent a gap from being formed between the diaper 1 and the wearer's abdominal circumference. Thread rubbers 9SL and 9SR are provided on both sides of the SAP sheet 6 along the longitudinal direction to prevent a gap from being formed between the diaper 1 and the wearer's abdominal circumference.

In the diaper 1 configured in this way, when the liquid is excreted from the wearer, the discharged liquid comes into contact with the SAP sheet 6 via the top sheet 7. Then, as described above, in the SAP sheet 6, the arrangement of the SAP particles is maintained as evenly as possible regardless of the posture of the SAP sheet 6 (that is, the posture of the wearer) while containing the SAP particles in the free state. ing. As a result, the SAP sheet 6 preferably absorbs the liquid discharged from the wearer and preferably suppresses the liquid from leaking from the diaper 1 to the outside.

Further, when the liquid is absorbed by the SAP sheet 6, each of the adhesive portions (end adhesive portions 63A and 63C and internal adhesive portions 63B and 63D) that are a part of the SAP layer 63 can also absorb the liquid. When each adhesive portion absorbs the liquid, the binding force of the SAP sheet 6 to the first sheet 61 and the second sheet 62 decreases, and it becomes difficult to hold the SAP in the swollen state by absorbing the liquid, but the liquid is already present. Therefore, it does not lead to a decrease in the absorption performance of the SAP sheet 6. Further, as shown in FIG. 9, since the SAP sheet 6 is surrounded by the top sheet 7 and the back sheet 5, even if the binding force is lowered, the swelled SAP is unnecessarily diapered. Leakage to the outside of 1 is suppressed.

Although one SAP sheet 6 is used for the above diaper 1, a plurality of SAP sheets 6 may be used instead. For example, a plurality of SAP sheets 6 may be stacked and arranged in a space surrounded by the top sheet 7 and the back sheet 5.

<Action and effect of the embodiment>
In the SAP sheet 6, the SAP layer 63 is formed between the first sheet 61 and the second sheet 62. The SAP layer 63 is formed by including SAP particles, and more preferably is formed only by SAP particles. The SAP layer 63 has an adhesive portion formed of a part of the SAP particles of the SAP particle group arranged on the SAP sheet 6 and a free SAP particle group which is a part of the other SAP particles. The free SAP particle group is sealed in the sealing space 60, which is a closed space, and cannot move out of the sealing space 60. Therefore, the free SAP particle group is in a state of being confined in the sealing space 60, but liquids such as urine and body fluids and air can move between the sealing space 60 and the outside thereof.

As a result, since the movement of the free SAP particle group is locally restricted in the SAP sheet 6, the uneven distribution of the SAP particles can be suppressed in the entire sheet, and the SAP particles can be evenly arranged as much as possible. Further, since the free SAP particle group is not fixed to the first sheet 61 and the second sheet 62 with a binder or the like and is in a free state, it is suitable for absorption of the liquid that has entered the sealing space 60. It is possible to demonstrate its performance.

When the SAP layer 63 of the SAP sheet 6 contains only the SAP particles to form the adhesive portion and the free SAP particle group, the absorption performance of the liquid by the SAP particles on the SAP sheet 6 can be maximized. can. In particular, liquid absorption is effectively realized even in the bonded portion, and thus improvement in the absorption performance of the entire SAP sheet 6 is expected. When the adhesive portion absorbs the liquid, the adhesiveness of the adhesive portion to the first sheet 61 and the second sheet 62 does not necessarily have to be maintained at the same level as before the liquid is absorbed. This is because even if the SAP particles contained in the adhesive portion and the free SAP particle group absorb the liquid, the liquid is retained, and even if the adhesiveness is lowered, the absorption performance of the SAP sheet 6 is not hindered. Is.

In the SAP sheet 6, a plurality of sealing spaces 60 are formed, but the size of each sealing space 60 is substantially the same, and the amount of free SAP particle groups sealed in each is about the same. For example, the SAP particles can be arranged more evenly throughout the SAP sheet 6. In particular, even when the arrangement area of the SAP particles on the SAP sheet 6 becomes large, by arranging the sealing spaces 60 in the number corresponding to the arrangement area, it becomes easy to realize the uniform arrangement of the SAP particles.

1: Diapers (tape-type disposable diapers)
4: Cover sheet 5: Back sheet 6: SAP sheet 7: Top sheet 60: Sealing space 61: First sheet 62: Second sheet 63: SAP layer 63A: End adhesive portion 63B: Internal adhesive portion 63C: End Adhesive portion 63D: Internal adhesive portion 65: Laminated body before pressurization 70: Recessed portion 71: Main body 73A: First pressurized surface portion 73B: Second pressurized surface portion 73C: Third pressurized surface portion 73D: Fourth pressurized Surface 75: Pressurized roller

Claims (6)

A SAP sheet on which a group of SAP particles, which is a highly absorbent polymer, is arranged.
The first sheet made of fibrous material and
A second sheet made of a fibrous material, which is arranged with respect to the first sheet so as to sandwich the SAP particle group between the first sheet and the first sheet.
A SAP layer arranged between the first sheet and the second sheet and formed by containing the SAP particles,
With
The SAP layer is
Both sheets are formed in the pressurized portion by pressurizing both sheets in a state where a part of the particle group of SAP is interposed between the first sheet and the second sheet, and both sheets are adhered and the said An adhesive portion that forms a closed space sandwiched between the first sheet and the second sheet,
Another part of the SAP particle group formed in the non-pressurized portion of the pressurization and freely sealed with respect to both sheets in the closed space of the adhesive portion. Free SAP particle group, which is
Have,
In the adhesive portion, the particles of the SAP forming the adhesive portion are entangled with the fibrous materials of the first sheet and the second sheet, so that both sheets are adhered to each other.
SAP sheet. The adhesive portion is formed by being compressed by sandwiching a part of the particle group of SAP between the first sheet and the second sheet.
The SAP sheet according to claim 1 . The SAP layer contains only the SAP particles, and the adhesive portion and the free SAP particle group are formed.
The SAP sheet according to claim 1 or 2 . The adhesive portion forms a plurality of the closed spaces, and the adhesive portion forms a plurality of the closed spaces.
Each of the plurality of closed spaces has substantially the same size.
The SAP sheet according to any one of claims 1 to 3 . Approximately the same amount of the free SAP particle group is sealed in each of the plurality of closed spaces.
The SAP sheet according to claim 4 . An absorber containing at least the SAP sheet according to any one of claims 1 to 5 .
A top sheet made of at least a part of a liquid permeable material and arranged so as to cover the surface of the absorber.
A back sheet made of a liquid-impermeable material and arranged so as to cover the back surface of the absorber.
An absorbent article comprising.

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