JP5607500B2 - Absorbent articles - Google Patents

Description

  The present invention relates to absorbent articles such as sanitary napkins and panty liners (absorbent articles for women). More specifically, the present invention relates to absorption by washing with water, such as rice bran after use, while ensuring leakage resistance during use. The present invention relates to an absorbent article capable of easily washing and removing redness such as menstrual blood.

  For absorbent articles such as sanitary napkins and disposable diapers, there are various needs for performance depending on the region. For example, some people in Indonesia, Malaysia, etc. have a habit of washing used sanitary napkins with water and washing off absorbed menstrual blood. This washing is performed, for example, by applying pressure inward in the width direction to the sanitary napkin by squeezing and washing the sanitary napkin with the other hand while applying water with one hand. Conventionally, as a sanitary napkin suitable for such washing, a cloth napkin or a water absorbent material mainly composed of pulp fibers and containing no water absorbent polymer has been used. However, a sanitary napkin that does not contain such a water-absorbing polymer needs to use a large amount of pulp fiber in order to suppress liquid return due to low absorption and retention performance of menstrual blood and the like. For this reason, sanitary napkins become thick due to the bulkiness of the pulp fibers, and are particularly bulky when folded and packaged, are inconvenient to carry, and have a poor fit.

  In order to solve such a problem, Patent Document 1 discloses an improved pulp fiber with a water-absorbing polymer that is easy to wash. This water-absorbing polymer has a carboxy group and / or a carboxylate group and has physical properties such as a predetermined degree of neutralization, and has weakened adhesion to redness components such as hemoglobin in menstrual blood. In addition, redness such as menstrual blood can be easily removed by washing with water after use.

  As in Patent Document 2, side seals are applied to absorbent articles such as sanitary napkins and diapers to ensure leakage resistance.

JP 2010-17536 A JP 2006-280765 A

  In the sanitary napkin, the side seal portions on both sides of the absorbent body ensure leakage resistance when used. On the other hand, during cleaning, the side seal portion impedes liquid flow in the side direction and is long. There has been a problem that the cleaning speed is not sufficient because the cleaning water is not easily discharged to the outside because the liquid is easily passed only in the direction. In addition, it is easy to apply a large force to a specific part of the napkin, and the peripheral part and surface material of the sanitary napkin are broken, and the absorbent material breaks out (the internal absorbent body) May be leaked out). As a result, not only the surroundings of the washing area are soiled with fiber materials, but also menstrual blood is diffused in the plane direction near the surface of the napkin even when washed with water, and menstrual blood of the sanitary napkin after use is used. Etc. cannot be cleaned and removed from the inside of the napkin, so that they are not sufficiently cleaned.

  The problem of the present invention is that when the absorbent article such as a sanitary napkin after use is washed while using the side seal portions on both sides of the absorbent body during use, the absorbent article such as a sanitary napkin after use is washed. An object of the present invention is to provide an easy-to-clean absorbent article capable of quickly and satisfactorily removing menstrual blood and the like, and further effectively preventing breakage of the absorbent body material.

Therefore, as a result of intensive studies, the inventors have been able to effectively discharge cleaning water by forming a non-film formation region in the portion where the sheet member is sealed on the skin contact surface side on both sides of the article body. I found out. Specifically, the planar view shape of the side seal portion applied to the side sheet made of nonwoven fabric is a seal pattern having a plurality of corrugations and / or zigzag shapes that swing in the width direction, and the seal portion is located near the outside of the product. A portion protruding outward in the width direction (referred to as the wave outside region or simply the tip region) is made non-filmed, and a portion closer to the inside of the product (wave inside region) is made into a film. While ensuring the leak-proof property during use in the wave inner area, the cleaning water is discharged to the outside in the width direction of the cleaning water in the tip area, and the material inside the article breaks out even by scouring. Based on this finding, the present inventors have made the present invention.
In the present invention, it is possible to effectively wash the absorbed menstrual blood and the like without diffusing on the surface until it reaches the inside (1) internal passage in the absorbent of the washing water supplied to the absorbent, (2) It is thought that two things, discharge | emission to the exterior from the absorber of contaminated washing water, are balancing efficiently.

  That is, the present invention is arranged on each of a vertically long absorbent main body having a liquid retaining absorbent layer and a liquid impervious leak-proof layer, and on both sides in the longitudinal direction on the skin contact surface side of the absorbent main body. Each of the side sheets is provided with a side seal portion extending in the longitudinal direction of the absorbent main body, and the side seal portion is formed into a film. A seal pattern consisting of a plurality of waveforms and / or zigzag shapes that have an amplitude in the width direction in plan view is formed at least in the excretory part-facing region. In the side seal portion, the non-film formation region is formed in a tip region including a width direction outer tip portion of the corrugated and / or zigzag seal portion, and the width direction inner portion is formed from the non-film formation region. The above-mentioned problem is solved by an absorbent article in which a filmed region is formed in the region.

  In the present invention, “a waveform or zigzag shape that swings in the width direction” means that at least a portion protruding outward in the width direction and a portion protruding inward are arranged in pairs. A seal pattern is formed by alternately arranging a plurality of the two types of convex portions forming the pair. The convex portion may be a curved shape or a shape having an acute angle portion as long as it protrudes outward or inward, and can be appropriately determined depending on the size of the article, the purpose of use, and the like. Further, in a seal pattern in which a wave pattern and a zigzag are repeated in the longitudinal direction of the article, a region from the zigzag or wave width direction outer front end portion to the inner width of 10 mm is defined as a front end region. A non-film-forming region always exists at the tip of the tip region, but a film-formed portion may or may not be formed in the tip region. In the present invention, filming means that the fibers of the nonwoven fabric are melted by heat sealing or ultrasonic sealing, and the fibers are integrated to form a film-like shape. The state in which the fiber form disappears at 50 times) is a guide. On the other hand, non-film formation refers to the extent that fibers can be confirmed under the above conditions, and the state where fibers are separated can be confirmed. The seal pattern is formed at least in the excretory part-facing region of the side sheet, where menstrual coloring is likely to remain dark. It is preferable that it is formed over the entire length of the side sheet. However, the sealed regions at the front and rear ends of the absorbent article may be excluded. The excretory part facing region refers to a region where the wearer's vaginal opening is opposed at the time of wearing, and refers to a region having a wing part that is bent and fixed to shorts. When there is no wing, the napkin which is the front and rear object refers to a central area obtained by dividing the napkin into three equal parts.

  The absorbent article of the present invention may contain a water-absorbing polymer, and more than necessary diffuses menstrual blood absorbed at the time of washing while ensuring leakage prevention during use due to the film-formed region of the side seal part. Wash the menstrual blood etc. in the absorbent body without rinsing, and drain the washing liquid well from the non-film area of the side seal part, and menstrual blood such as used sanitary napkins etc. Can be prevented. Moreover, although the side seal portion is arranged, the washing water can be easily discharged at the time of washing, and the leakage of the absorbent body material can be effectively suppressed.

It is the partially notched perspective view which showed typically the sanitary napkin as one Embodiment in this invention from the skin contact surface direction. It is an expanded sectional view of the II-II line cross section of the sanitary napkin shown in FIG. (A) is a top view of the sanitary napkin of one Embodiment of this invention. (B) is the enlarged view of the part shown with the circle L which is a part of full length of the corrugated side seal part of (A). It is explanatory drawing of the method of utilizing the basis weight difference of the nonwoven fabric embossed as a method of processing the fiber of a nonwoven fabric into a film-forming area | region and a non-film-forming area | region. (A) is explanatory drawing of the embossing method, (B) shows the top view of the embossed nonwoven fabric. It is explanatory drawing of the method using applying a level | step difference to the embossing roll of a nonwoven fabric as a method of processing the fiber of a nonwoven fabric into a film-forming area | region and a non-film-forming area | region. (A) is explanatory drawing of the embossing method, (B) shows the top view of the embossed nonwoven fabric. It is explanatory drawing of the method of utilizing the lamination number difference of the nonwoven fabric embossed as a method of processing the fiber of a nonwoven fabric into a film formation area | region and a non-film formation area | region. (A) is explanatory drawing of the embossing method, (B) shows the top view of the embossed nonwoven fabric. It is an enlarged plan view which expands and shows the example of a change of the seal pattern of the side seal part of this embodiment typically. It is sectional drawing which shows typically the example of a change of the seal depth of the side seal part in FIG. It is a figure which shows typically the example of a change of the sanitary napkin of this embodiment, (a) is the top view, (b) is the sectional drawing.

  A sanitary napkin as a preferred embodiment of the absorbent article according to the present invention is indicated by 100 in FIGS. 1 and 2 and has a vertically long absorption having a liquid-retaining absorbent layer 11 and a liquid-impermeable leak-proof layer 12. Main body 10 and a pair of side sheets 5 and 5 arranged on both sides in the longitudinal direction on the skin contact surface side of absorbent main body 10. The absorbent layer 11 in the napkin 100 is composed of a liquid-permeable top sheet 1 and a liquid-retaining absorbent body 3, and the leak-proof layer 12 is composed of a liquid-impermeable back sheet 2. A part of the portion of the side sheet 5 that extends outward in the width direction protrudes further in the width direction together with the back sheet 2 to form wing portions 51, 51. The shape of the napkin 100 formed in this way is a vertically long shape having a longitudinal direction extending from the lower abdomen side to the buttock side via the wearer's crotch portion and a width direction perpendicular thereto. Shape. When the napkin 100 is used, the sanitary napkin 100 is fixed to the shorts by winding the wing portion 51 on the non-skin contact surface side of the crotch in the shorts. Further, an adhesive (not shown) such as a hot-melt adhesive is preferably applied to the non-skin contact surface side of the back sheet 2, and when worn, the adhesive is used together with the wing portion 51 for sanitary use. The napkin 100 is fixed to the underwear. In FIG. 2, 31 is a fiber layer, 32 is a water-absorbing polymer disposed in the lower layer of the absorber 3, and 7 is an adhesive.

  The pair of side sheets 5 and 5 in the napkin 100 of the present embodiment has side seal portions 4 and 4 formed by embossing or the like from the skin contact surface side, and the planar shape thereof has an absorber arranged in the center. The napkin 100 has a corrugated shape formed by a plurality of corrugated seal patterns that swing in the width direction from the upper end to the lower end in the longitudinal direction (hereinafter, this side seal portion is also referred to as the corrugated side seal portion 4). Each of the corrugated side seal portions 4 has a tip region (wave outer portion) 4a that protrudes outward in the width direction and a wave inner portion 4b that protrudes inward in the width direction. The entire tip region 4 a including the tip portion 4 p is a non-film forming region in which a gap between the nonwoven fabric fibers constituting the side sheet 5 is left. On the other hand, the wave inner side part 4b is made into the film formation area | region which the fiber of the said nonwoven fabric fuse | melted and integrated.

  The longitudinal ends of the side sheets 5 are joined together with the topsheet 1 and the backsheet 2, and the widthwise ends are joined to the extended portions of the backsheet 2. This joined portion becomes the outer peripheral edge 6 of the napkin 100. As shown in FIG. 2, the side sheet 5 has a two-layered portion of the sanitary napkin 100 positioned near the center in the width direction by folding the sheet. The folded portions of the side sheets 5 and the contact portions between the side sheets 5 and the absorbent main body 10 such as the top sheet 1 and the back sheet 2 are joined and fixed by an adhesive such as hot melt. The folded portions of the side sheets 5 are also joined by the corrugated side seal portion 4 described above.

  Here, the sanitary napkin 100 has, in the vertical direction, an excretory part facing region C disposed corresponding to the excretion point of the wearer, a front region F disposed on the lower abdomen in front of the excretion part facing region C, and It can be shown by being divided into a rear region R arranged on the back side of the buttocks-facing region C. The excretory part facing region C is a part having the wing parts 51 on both sides of the napkin 100. In addition, when it is a napkin which does not have the wing part 51, the excretion part opposing area | region C is a part with the highest absorbency which corresponds to a wearer's excretion point, for example, the predetermined position from a napkin front part, an absorber, or a napkin It is determined by the constricted position or the middle / high region where the absorber is thick.

  In this specification, unless otherwise specified, the surface in contact with the human body is referred to as the skin side surface or the skin contact surface or surface, and the underwear side when the absorbent article is worn in the absorbent article or its constituent members ( The surface opposite to the wearer's skin side) is referred to as a non-skin surface or non-skin contact surface or back surface. Of these two surfaces, the side close to the skin side or the extending direction is called the skin side, the skin contact surface side or the surface side, and the side close to the non-skin surface or the extending direction is the non-skin side, non-skin It is called the contact side or the back side. The direction positioned on the front side of the human body when worn is referred to as the front, and its end is referred to as the front end, and the direction positioned on the rear is referred to as the rear, and the end is referred to as the rear end. The normal direction of the front or back surface of the absorbent article is called the thickness direction, and the amount is called thickness. Furthermore, in a plan view of the absorbent article, a direction from the abdominal side to the back side through the crotch is referred to as a longitudinal direction, and a direction orthogonal to the longitudinal direction is referred to as a width direction. The longitudinal direction typically coincides with the front-rear direction of the human body when worn.

In a preferred embodiment of the present invention, the pair of corrugated side seal portions 4 and 4 of the sanitary napkin 100 leaks menstrual blood and the like absorbed by the absorbent body 3 in the film formation region of the corrugated side portions 4b on both sides of the corrugated shape. Make it harder. At the same time, the corrugated side seal portions 4 and 4 discharge and remove the contaminated cleaning water that has absorbed menstrual blood and the like in the non-film formation region of the wave outer portion (tip region) 4a in the outer width direction (side seat portions 5 and 5). As a result, the washing water does not stay and the inside of the absorber 3 is effectively circulated so that menstrual blood or the like is more easily washed out. This will be described with reference to FIGS. 3 (A) and 3 (B).
FIG. 3A schematically shows a state where the sanitary napkin of FIG. 1 is viewed from the skin contact surface side. FIG. 5B is a partially enlarged view of the portion indicated by the circle L of the corrugated side seal portion 4 in FIG. The flow in the absorbent body width direction of the wash water generated by the hand-washing of the napkin is indicated by an arrow Wa.

The corrugated side seal portion 4 is formed by repetition of a large number of corrugations (curved portions) as shown in a partially enlarged view 3B. The corrugated side seal portion 4 can be performed by embossing, for example. The corrugated embossed part has two parts, that is, a wave inner part 4b in which the nonwoven fabric fibers are melted and formed into a film by a seal having a large embossed compaction degree, and the nonwoven fabric fibers are heated by reducing the nonwoven compaction degree. It is the wave outer side part 4a which prevented welding and was made into the non-film. In this way, in the corrugated side seal portions 4 and 4 in the side sheets 5 and 5, a large number of wave outer side portions 4a which are non-film forming regions can be intermittently present in the longitudinal direction. The wave outer portion 4a is non-filmed and maintains a fibrous property, and in contrast to the film-formed wave inner portion 4b which is leakproof, it is liquid permeable to the wash water. In this embodiment, the wave outer side part 4a is intermittently present in the longitudinal direction so as not to overlap the wave inner side part 4b in the width direction. Since the non-film formation region of the wave outer side portion 4a serves as a passage for the washing water while ensuring the leakage prevention property at the wave inner side portion 4b, the cleaning property of the sanitary napkin is improved.
In this embodiment, the side seal portion is a continuous line of the wave outer side portion 4a and the wave inner side portion 4b, but the pattern in which the point embossing is substantially continuous (see FIG. 7A), the intermittent line is Patterns provided alternately (see FIGS. 7B and 7C), or patterns in which minute non-embossed regions (non-filming regions) are intermittently provided inside the continuous line (FIG. 7D) For example), and not necessarily a complete continuous line. If it is not a continuous line, at least the non-film area of the wave outer side (tip area) 4a is on the wave inner side in order to achieve both leakage prevention such as menstrual blood when using a napkin and effective discharge of washing water during washing. It is preferable not to overlap the portion 4b in the width direction, and it is more preferable that the tip end portion 4p does not overlap the range in the width direction of the wave inner side portion 4b. Further, the entire surface of the wave outer side portion 4a may or may not be formed into a non-film, and the amount of cleaning water discharged may be adjusted by providing a film forming region in a part thereof. Further, in order to efficiently discharge the wash water that has absorbed menstrual blood and the like, it is preferable that at least the excretory part opposing region C has a repetition of the wave outside part 4a and the wave inside part 4b.
In this embodiment, the pitch (h ₁ ) of the wavy mountain is preferably 4 mm to 50 mm, and more preferably 4 mm to 30 mm. Here, the pitch of the undulation indicates a state in which one undulation is included from the front end 4p to the front end 4p of the wave outer side portion 4a (see FIG. 2B). Further, the rocking width (h ₂ ) of the wave mountain is preferably 2 to 20 mm, and more preferably _{2 to} 15 mm. The swinging width here refers to the width from the front end 4p of the wave outside portion 4a to the vertex 4q of the wave inside portion 4b (see FIG. 2B).

In the present invention, the term “leak-proof” means that the fibers of the nonwoven fabric are pressure-bonded by heat welding or the like to form a film-formed region. Non-woven fabric fibers remain as they are in such areas that are not film-forming regions or where film formation is insufficient, and washing water that has flowed out from the inside of the absorbent body or the like can pass through.
The action of the sanitary napkin of this embodiment will be described. The used napkin is held in one hand, and the washing water is applied to the absorbent body 3 that has absorbed menstrual blood and the like from the surface sheet. As a result, the wash water passes through the inside of the absorber 3 to wash out menstrual blood and the like, and the liquid flows toward the corrugated side seal portion 4 (in the direction of Wa), from the wave inner portion 4b to the side of the wave outer portion 4a. It flows into the non-film area | region of the seal | sticker part 4, and flows out from between the fibers of a side sheet (refer FIG.3 (B)). In this way, discharge and removal (cleaning) of the contaminated cleaning water containing menstrual blood and the like from the width direction of the absorber is effectively performed. This phenomenon occurs in the non-film formation region of the plurality of wave outer portions 4a that are intermittently arranged on the entire surface in the longitudinal direction of the corrugated seal pattern of the corrugated side seal portion 4. Therefore, the cleaning / removal speed is high, and the effect Is. Therefore, it is possible to prevent the cleaning liquid partially containing menstrual blood and the like from staying on the surface of the napkin 100 and preventing the white portion of the napkin from being stained red. .
In addition, as will be described later, since the filmed region and the non-filmed region are distinguished on the line e, liquid such as menstrual blood is absorbed from the corrugated side seal portion 4 during use in the filmed region of the corrugated side seal portion 4. It is possible to prevent leakage to the outside of the body, and there is an effect that both leakage prevention at the time of use and cleanability after use can be achieved. This line e is a boundary line between the tip region (wave outer portion 4a) including the non-film formation region and the film formation region (wave inner portion 4b) on the inner side in the width direction on the line of the corrugated side seal portion 4. it is sufficient functionally defined, typically swing width (h ₂₎ the center line of the wave crests, as in the present embodiment.

In the present invention, there is no particular limitation on the means for alternately providing the above-mentioned leakage-proof level in the curved portion of the corrugated side seal portion 4, but the non-film forming region and the non-film forming region of the nonwoven fabric fibers are not particularly limited. (1) Utilizing the basis weight difference of the embossed nonwoven fabric, (2) Making a step on the embossing roll of the nonwoven fabric, (3) Utilizing the difference in the number of laminated nonwoven fabrics, etc. is there. This will be described with reference to FIGS.
FIG. 4 shows a method using the basis weight difference of the embossed nonwoven fabric of (1). As shown in FIG. 4A, a non-woven fabric 42 composed of a portion 42b having a large basis weight and a portion 42a having a small basis weight is interposed between a processing substrate 41 and an embossing roll 43 for adding embossing to a corrugated shape, thereby embossing rolls. At 43, the nonwoven fabric 42 is embossed to form a corrugated embossed wave inner part 4b having a high degree of consolidation and a wave outer part 4a having a low degree of consolidation. A plan view of the corrugated side seal portion 4 of the nonwoven fabric after the sealing is shown in FIG. In the figure, 44 is a nonwoven fabric after embossing, 45b is a corrugated embossing with a high pressure density (sealed part is a film), 45a is a corrugated embossing with a low pressure density (the sealing part is non-filmed), 45b And 45a form one embossed wave 45 of the corrugated side seal portion 4. The boundary between 45b and 45a is a boundary line e between the film formation region and the non-film formation region, and is a boundary line between the wave outer side portion 4a and the wave inner side portion 4b.

  FIG. 5 shows a method using the step (2) of making a level difference on the embossing roll of the nonwoven fabric. As shown in FIG. 5A, a nonwoven fabric 52 having a uniform basis weight is interposed between a processing base 51 and an embossing roll 53 that adds embossing to a corrugated shape, and the nonwoven fabric 52 is embossed with the embossing roll 53. In this case, the embossing roll 53b is formed such that the corrugated portion 4b of the corrugated emboss with high pressure bonding and the corrugated portion 4a of low pressure bonding are formed by the lower pressure surface of the embossing roll being lower and thicker than the pressure lower surface of the portion 53a. . A plan view of the corrugated side seal portion 4 after the sealing is shown in FIG. In the figure, 54 is a non-woven fabric after embossing, 55b is a high-compression corrugated embossing (the seal part is a film), 55a is a low-compression corrugated embossing (the sealing part is a non-film), 55b and 55a Thus, one embossed wave 55 of the corrugated side seal portion 4 is obtained. The boundary between 55b and 55a is a boundary line e between the film formation region and the non-film formation region, and is a boundary line between the wave outer side portion 4a and the wave inner side portion 4b.

  FIG. 6 is an example of a method of using the difference in the number of laminated nonwoven fabrics in (3) above. The nonwoven fabric to be embossed is folded in half, and the difference in pressure density between the two nonwoven fabric portions and the one portion is shown. It is a method of using. As shown in FIG. 6 (A), a non-woven fabric 62 composed of a double-folded portion 62b and a single-piece portion 62a is interposed between the processing base 61 and an embossing roll 63 that adds embossing in a wavy line. The nonwoven fabric 42 is embossed to form a corrugated embossed wave inner portion 4b having a high compaction density and a wave compacting portion 4a having a low degree of consolidation. A plan view of the corrugated side seal portion 4 after sealing is shown in FIG. In the figure, 64 is a nonwoven fabric after embossing, 65b is a corrugated embossing with a high pressure density (sealed part is a film), 65a is a corrugated embossing with a low pressure density (the sealing part is a non-film), 65b And 65a form one embossed wave 65 of the corrugated side seal portion 4. The boundary between the 65b and 65a is the boundary line e between the film formation region and the non-film formation region, and the boundary line between the wave outside portion 4a and the wave inside portion 4b. In this method, as long as there is a non-woven / non-woven number difference, the number of laminated nonwoven fabrics is not limited to the combination of two and one illustrated, and can be arbitrarily set.

  In the sanitary napkin 100 of the present embodiment, the side sheet 5 provided with the corrugated side seal portion 4 is bonded to the top sheet 1 by hot melt or the like, and the absorbent body 3 and the leak-proof sheet 2 are arranged. Although it has taken the structure, it is not limited to such a structure, The side sheet | seat 5 and the surface sheet 1 are melt | fused by the corrugated side seal part 4, and the structure which arrange | positioned the absorber 3 and the back surface sheet 2 ( 8 (a)) and the configuration in which the side sheet 5, the top sheet 1 and the absorber 3 are fixed together by the corrugated side seal portion 4 and the back sheet 2 is disposed (FIG. 8 (b)). The effect of the invention is achieved.

The side sheet 5 made of a non-woven fabric forming the corrugated side seal portion 4 of the present invention is preferably a water-repellent non-woven fabric, a non-woven fabric produced by a card method, a spunbond non-woven fabric, a meltblown non-woven fabric, a spunlace non-woven fabric, a heat roll non-woven fabric, a needle punch Water-repellent materials or various non-woven fabrics subjected to water-repellent treatment can be used from nonwoven fabrics. Particularly preferably, for example, a spunbond nonwoven fabric, a spunbond-meltblown (SM) nonwoven fabric, a spunbond-meltblown-spunbond (SMS) nonwoven fabric, or the like is used.
Examples of the surface sheet 1 include, but are not limited to, a nonwoven fabric, a spunbond nonwoven fabric, a meltblown nonwoven fabric, a spunlace nonwoven fabric, a heat roll nonwoven fabric, and a needle punch nonwoven fabric manufactured by the card method. In particular, from the viewpoint of touch, an air-through nonwoven fabric, a heat-embossed nonwoven fabric, an airlaid nonwoven fabric, a needle punched nonwoven fabric, etc., in which heat-bonding points between fibers are formed on a fiber web obtained by a card method or the like by an air-through method, are particularly preferred. As a constituent fiber of the surface sheet 1, for example, various liquid-permeable sheet materials such as a nonwoven fabric and an apertured film can be used, and are made of a heat-fusible fiber or a heat-fusible resin, particularly a thermoplastic polymer material. Preferably it contains fibers. Examples of the thermoplastic polymer material include polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate, and polyamides. A core-sheath type composite fiber or a side-by-side type composite fiber made of a combination of these thermoplastic polymer materials can also be suitably used. The topsheet 1 may contain, as part of the constituent fibers, fibers other than the heat-fusible fibers that do not have heat-fusible properties.

  In the present invention, a leak-proof groove 8 squeezed from the top sheet 1 to the absorber 3 may be further provided in the configuration of the present embodiment (see FIG. 9). This leak-proof groove 8 is preferable because it effectively suppresses the spread of menstrual blood and the like during use in the width direction and can prevent lateral leakage, and at the same time can limit the washing range during washing. The planar shape of the leak-proof groove 8 is not limited to that shown in FIG. 9, and a shape used for this type of article can be arbitrarily adopted. Thus, from the viewpoint of firmly fixing the topsheet 1 and the absorber 3 to form the leak-proof groove 8, it is preferable that the topsheet 1 contains a heat-fusible fiber or a heat-sealing resin. Furthermore, in the leak-proof groove 8, the surface sheet 1, the fiber layer 31, the water-absorbing polymer 32, and the water-absorbing polymer 32 containing the heat-fusible fiber or the heat-fusible resin are fixed to the fiber layer 31. Therefore, it is preferable that all of the hot melt adhesive to be applied is consolidated and consolidated by pressing such as embossing. Further, when the side sheet 5 and the top sheet 1 are fused by the corrugated side seal portion 4, the production in which both the filmed region and the non-filmed region in the present invention can exist by controlling the thermal conditions in the processing step. From the viewpoint that the conditions can be easily found, it is preferable that the surface sheet 1 contains a heat-fusible fiber or a heat-fusible resin.

  In the absorber 3, it is preferable to dispose a polymer layer from the viewpoint of excellent absorption performance due to an increase in absorption capacity, in particular excellent leakage resistance. Moreover, the sheet-like absorber with which both were integrated by wet paper-making a pulp and a polymer can also be used. Moreover, the absorber manufactured by the method of depositing in the state which mixed the pulp and the polymer with air, and making it into a sheet | seat can also be used.

  In the sanitary napkin 100, although not shown, waterproof sheets may be disposed in the longitudinal direction on both sides in the width direction of the absorbent body 3. The waterproof sheet is disposed on both the left and right sides of the absorbent body 3 so as to cover a part of the skin surface side, a part of the non-skin surface side, and a side surface of the absorbent body 3, thereby allowing menstrual blood and the like to be washed. It is preferable because side leakage of water can be more effectively suppressed. The material used to form this waterproof sheet can be arbitrarily selected from those used for this type of article, such as a liquid-impermeable resin film, a paper laminated with a resin film, and a spunbond / meltblown / spunbond nonwoven fabric. (SMS nonwoven fabric) etc. can be used.

  When the sanitary napkin 100 is washed with water, from the viewpoint that blood adhering to the napkin is likely to flow out quickly, the natural fiber may contain a modified pulp obtained by crosslinking the natural fiber. preferable. That is, the absorbent body 3 has a laminated structure in which a plurality of layers made of fiber assemblies are laminated, and a water-absorbing polymer is interposed between opposing layers in the laminated structure, and the fiber assemblies are modified. It is preferred to include pulp and natural fibers (preferably softwood and / or hardwood pulp). As a modified pulp, the below-mentioned crosslinked cellulose fiber and mercerized pulp can be used.

  The ratio of the modified pulp in the total fibers contained in the absorbent body 3 is preferably 20 to 100% by mass, more preferably 35 to 80% by mass. Moreover, the ratio of the natural fibers such as softwood pulp in the total fibers contained in the absorbent body 3 is preferably 0 to 80% by mass, and more preferably 20 to 55% by mass. Moreover, it is possible to contain a hygroscopic agent, a deodorizing agent, etc. in the absorber 3 as needed. Examples of the hygroscopic agent include silica gel, and examples of the deodorizer include activated carbon, activated clay, and a silver-containing compound.

As the water-absorbing polymer 32, those used for this type of article can be adopted, but it is particularly preferable that the polymer be easily washed. The easy-cleaning polymer means a water-absorbing polymer having an action of easily removing dirt during cleaning, and typically, a water-absorbing polymer described in JP 2010-17536 A is preferably used. This easily washable polymer is obtained by further subjecting a water-absorbing polymer having a carboxy group and / or a carboxylate group and having been subjected to a surface crosslinking treatment to a surface crosslinking treatment and a neutralization treatment in this order. The easily washable polymer thus obtained has a specific range of neutralization degree, a centrifugal retention amount, and physical properties in a specific range (water absorption rate by vortex method, water absorption rate by DW method, bulk specific gravity, pressure at 2.0 KPa) Or a liquid passing speed, absorption amount under pressure at 2.0 KPa). Due to this physical property, the easily washable polymer can easily remove hemoglobin in menstrual blood, and the water absorption speed can be controlled to suppress unnecessary breakage of the absorbent body 3 due to rapid swelling.
The water-absorbing polymer 32 used in the present invention has the above carboxy group and / or carboxylate group, has a neutralization degree of 75 mol% or more, and a centrifugal retention amount in accordance with JIS K 7223 is 5 to 20 g / g. It is preferred to include some easily washable polymer.

By setting the neutralization degree of the easy-cleaning polymer to 75 mol% or more, hemoglobin which is a red component in menstrual blood can be easily removed. When the easily washable polymer is an acrylic acid cross-linked polymer, the degree of neutralization is preferably 75 to 95 mol%, and more preferably 80 to 90 mol%. Although the phenomenon that occurs between the water-absorbing polymer having a neutralization degree of 75 mol% or more and hemoglobin is not clear, the neutralization degree of the water-absorbing polymer composed of the acrylic acid cross-linked polymer is 75 mol% or more, When the absorbent article is washed with water, the pH in the vicinity of the molecular chain of the water-absorbing polymer is higher than the isoelectric point of hemoglobin (usually pH 6.8 to 7), so that electric repulsion occurs between the water-absorbing polymer and hemoglobin. As a result of this, the adhesion rate or adhesion strength of hemoglobin to the water-absorbing polymer is reduced, and it is assumed that hemoglobin is easily detached by washing with water. In addition, the measuring method of the said neutralization degree and its adjustment can use the method of Unexamined-Japanese-Patent No. 2010-17536.
By suppressing the centrifugal retention amount of the easy-cleaning polymer to 5 to 20 g / g, the inherent absorption performance of the polymer can be maintained, and absorption and retention such as menstrual blood can be moderately suppressed to facilitate the removal of redness. . It is more preferable that the amount of centrifugal retention is 7 to 15 g / g. In addition, the measuring method of the said centrifugation holding | maintenance amount and its adjustment can use the method as described in Unexamined-Japanese-Patent No. 2010-17536.

  The back sheet 2 is composed of, for example, a liquid-impermeable film sheet, and the liquid-impermeable film sheet may have water vapor permeability, but is not limited thereto.

  As mentioned above, although this invention was demonstrated based on the preferable embodiment, this invention is not restrict | limited to the said embodiment. For example, the absorbent article of the present invention may not include the wing portion 51, or may include a rear flap portion. Each of the wing 51 and the rear flap is a portion extending outward from the both side edges in the longitudinal direction of the absorbent body 3, and the wing 51 is usually disposed opposite to the excretion portion of the napkin wearer. The rear flap portion is located behind the wing portion 6 in the longitudinal direction of the napkin.

  The absorbent article of the present invention is not limited to sanitary napkins, and can also be applied to disposable diapers, incontinence pads, urine-absorbing pads, pet diapers, pet sheets, and the like. As the easy-cleaning polymer used in the present invention, the water absorption ratio is suppressed by adjusting the centrifugal retention amount to the specific range, and the liquid passing rate under pressure at 2.0 kPa is the specific range. Since the liquid flow rate under pressure is high when it is adjusted to, the absorption rate under repetition or pressure is very fast, and the liquid can diffuse quickly to the details of the absorber, Even if it swells, there is little so-called gel feeling, which leads to an improvement in discomfort when worn.

  Hereinafter, the present invention will be described in more detail based on experimental examples, but the present invention is not limited thereto.

[Example]
An absorber having a pulp absorbent basis weight of 250 g / m ² (length 190 mm, width 70 mm) and a water-absorbing polymer basis weight 80 g / m ² (spreading length 190 mm, spreading width 45 mm) is disposed between the top sheet and the back sheet. A corrugated side seal portion that is sandwiched and fixed with an adhesive, and further uses the number of laminated side sheets to form a two-layer laminated portion as a wave-inside portion of a film-forming region and one piece as a wave-outside portion of a non-film-forming region. The sanitary napkin of the Example was obtained by using embossing rolls and laminating the side sheet having the corrugated side seal portion on the skin surface side on both sides of the top sheet.

[Comparative Example 1]
The sanitary napkin in the example was prepared in the same manner as in the example except that the side seal portion was not provided on the side sheet, and this was used as the sanitary napkin of comparative example 1.
[Comparative Example 2]
The sanitary napkin in the example was prepared in the same manner as in the example except that the corrugated side seal part on the side sheet was a filmed region, and this was used for the sanitary use of Comparative Example 2 It was a napkin.

About the sanitary napkins of these Examples and Comparative Examples 1 and 2, the degree of redness removal by washing can be evaluated by the L ^* value indicating the lightness in the napkin after blood is injected and washed. The larger the L ^* value is, the closer it is to white, which means that the blood has been washed away with water. The brightness L ^* value was measured according to the following procedures 1-3. Further, the state of the napkin after completion of the procedure 3 was visually observed, and it was confirmed whether or not the napkin was broken (washing breakage) due to washing with water. Moreover, as evaluation of the absorption performance of these sanitary napkins, the absorption time and the liquid return amount were measured by the following methods. These results are shown in Table 1 below.

[Measurement method of brightness]
Procedure 1: Inject 12 g of blood into the sanitary napkin from the surface layer side of the sanitary napkin, leave it in an environment of 25 ° C. for 30 minutes, and then remove the sanitary napkin with water having a water temperature of 25 ° C. and a hardness of 12 ° DH. The sanitary napkin is squeezed by hand, and the water contained in the napkin is squeezed out as much as possible.
Procedure 2: Spectral color difference meter (simple model made by JASCO Corporation) on the five most reddish spots of the red part stained with blood on the surface layer side of the sanitary napkin in the wet state obtained in the procedure 1 The brightness L ^* value is measured using a spectral color difference meter “NF333” (pen-type detector).
Procedure 3: The average of the three measured values obtained by removing the maximum value and the minimum value from the five measured values obtained in the procedure 2 is set as the lightness L ^* value of the sanitary napkin.
This time, in addition to the above method, the cleaning time was set to 2 minutes in order to confirm the cleaning properties under more severe conditions.

In the procedures 1 to 3, horse blood is used as blood to be injected into the napkin. More specifically, equine defibrinated blood manufactured by Japan Biotest Laboratory Co., Ltd. is used. The viscosity of this horse defibrinated blood is less than 15 mPa · S as measured with a (B type) viscometer TVB-10M (measurement temperature 25 ° C., rotor L adapter) manufactured by Toki Sangyo Co., Ltd.
In the above procedures 1 to 3, water used for washing the napkin is water prepared by dissolving calcium chloride and magnesium chloride in ion-exchanged water having an electric conductivity of 1 μS / cm or less, and calcium ions and magnesium. Water having an ion content ratio (calcium ion: magnesium ion) of 7: 3 and a German hardness of 12 ° DH is used.
In addition, Indonesian water for daily use, which is one of the countries that have a habit of washing used sanitary napkins, has different hardness depending on the region, but water with a German hardness of 12 ° DH used in the above steps 1 to 3 It is almost the same as domestic water used in at least part of Indonesia.

In the procedure 1, the environment in which the napkin into which blood has been injected is allowed to stand for 30 minutes before washing is an air temperature of 25 ° C. and a humidity of 60%.
The napkin is washed by hand, and “the operation of putting about 100 g of water on the napkin with one hand and squeezing the napkin with the other hand” is repeated three times in 10 seconds. That is, the operation performed for 10 seconds is “sprinkle water → squeeze the napkin → spread water → squeeze the napkin → spread water → squeeze the napkin”. Therefore, the amount of water used for washing the napkin for 3 minutes in the procedure 1 is approximately 100 g as described above because the amount of water used in one water application operation is approximately 100 g as described above. 3 =) 5400 g. In the above formula, 100 × 3 corresponds to the amount of water used for 10 seconds, and 100 × 3 × 6 corresponds to the amount of water used for 1 minute.
When watering the napkin, use a beaker or the like, and do not squeeze the napkin while watering.
In Procedure 1, the pressure when hand-squeezing the napkin after washing the napkin for 3 minutes, that is, the gripping force of the hand is usually about 10 to 15 kg.
When measuring the lightness L ^* value, the measurement sample and the spectral color difference meter are brought into close contact with each other so that external light does not enter.

<Measurement method of absorption>
Each of the Examples and Comparative Examples 1 and 2 was used as a test sample, mounted on a movable female waist model, and after wearing shorts, the waist model was walked at a walking speed of 100 steps / minute. Then, defibrinated horse blood (manufactured by Nippon Biotest Laboratories Co., Ltd.) was injected with a tube at a rate of 2 g / 15 seconds while walking, followed by walking for 2 minutes, then 3 g injection, 2 minutes walking motion, 2 g injection 2 Walking was continued for a minute, and injection was repeated until the product leaked, and the amount of absorption when the leak occurred was measured.

<Measurement method of absorption time>
With the sanitary napkin to be measured spread in a plane and fixed on a horizontal surface with the top sheet facing up, an acrylic plate with a cylindrical injection part is placed on the top sheet in the center of the absorber. Further, a weight is placed on the acrylic plate, and a load of 5 g / m ² is applied to the center of the absorber. The injection part provided on the acrylic plate has a cylindrical shape with an inner diameter of 10 mm, and the central axis of the cylindrical injection part coincides with the central axis in the longitudinal direction and the width direction of the acrylic plate, and the cylindrical injection part A through-hole having an inner diameter of 10 mm is formed so as to communicate between the inside and the surface sheet facing surface of the acrylic plate. Next, the acrylic plate is arranged so that the central axis of the cylindrical injection portion coincides with the central portion of the absorber in plan view, and 3 g of blood is injected from the cylindrical injection portion and absorbed by the sanitary napkin. The time (seconds) from when the blood reached the surface of the napkin until the total amount of 3 g was absorbed by the napkin was measured, and this was taken as the first absorption time. In addition, 3 minutes after the first blood injection, the above procedure is repeated until 3 g of blood is further injected (a total of 6 g of blood is injected) until the total amount of the reinjected blood is absorbed by the napkin. Time (seconds) was measured, and this was taken as the second absorption time. The smaller the value of these absorption times, the faster the absorption speed and the higher the evaluation. Table 1 below shows the absorption time for the second time (when 6 g of blood was injected). In addition, in the first time, when it exceeded 3 minutes until the total amount (3 g) of the injected blood was absorbed, the next 3 g was injected immediately after the total amount was absorbed.

<Measurement method of liquid return amount>
In <Measurement method of absorption time>, after 3 minutes from the third blood injection, the acrylic plate and the weight are removed, and the basis weight of 30 g / 7 cm × 7 cm is formed on the skin contact surface of the napkin (on the top sheet). Ten sheets of m ² absorbent paper (commercial tissue paper) were placed on top of each other, and a load of 68 g / cm ² was applied to the absorbent paper for 1 minute. After the loading, 10 sheets of absorbent paper were removed, and the weight of the 10 sheets of absorbent paper was measured. From this measured value and the measured value of the weight of 10 sheets of absorbent paper before the load obtained in advance, the mass (g) of blood absorbed in 10 sheets of absorbent paper is determined, and this mass is taken as the liquid return amount. did. The smaller the liquid return amount, the higher the napkin absorption performance and the higher the evaluation.

  As is clear from Table 1, the sanitary napkins of the Examples have higher maximum absorption and ensure leakage-proofing than the sanitary napkins of Comparative Examples 1 and 2, and suppress tearing during cleaning. As a result, redness could be removed, and both leakage prevention and cleaning performance could be ensured.

DESCRIPTION OF SYMBOLS 1 Top sheet 2 Back sheet 3 Absorber 31 Fiber layer 32 Water-absorbing polymer 4 Corrugated side seal part 4a Wave outer side part (tip region)
4b Rough side part 4p Tip part 5 Side sheet part 6 Outer peripheral edge part 100 Sanitary napkin

Claims (4)

A pair of a vertically long absorbent main body having a liquid retaining absorbent layer and a liquid impervious leak-proof layer, and a nonwoven fabric disposed on both sides in the longitudinal direction on the skin contact surface side of the absorbent main body An absorbent article having a side sheet of
Each of the side sheets is provided with a side seal portion extending in the longitudinal direction of the absorbent main body, and the side seal portion maintains a fibrous property by preventing heat welding and a filmed region in which the nonwoven fabric fibers are thermally melted. The side seal portion has at least a portion formed by a seal pattern having a plurality of waveforms and / or zigzag shapes that swing in the width direction in plan view in the region facing the excretion portion. And
Wherein the side sealing portions, the non-film region on the tip region including a width outward tip portion of the seal pattern portion comprising the wave shape and / or zigzag shape is formed, the non-filming width inward from the area An absorbent article in which a filmed region is formed in the region.   Two or more layers of nonwoven fabric sheets are laminated in the film-formed region in the side seal portion, and the nonwoven film sheet having a smaller number of layers than the film-formed region is arranged in the non-film-formed region, and the boundary where the number of layers is different. The absorbent article according to claim 1, wherein the side seal has a non-film forming region on the outer side in the width direction and a film forming region on the inner side.   The absorbent article according to claim 1 or 2, wherein a basis weight of the nonwoven fabric sheet in the film formation region is larger than a basis weight of the nonwoven fabric sheet in the non-film formation region.   A surface sheet on the skin contact surface side, a liquid-impermeable back sheet on the non-skin contact surface side, a vertically long absorbent main body having an absorbent body disposed between the two sheets, and a longitudinal direction of the main body Both sides side sheets are provided, and the absorbent body contains pulp and a water-absorbing polymer, and the water-absorbing polymer has a carboxy group and / or a carboxylate group and has a neutralization degree of 75 mol% or more, JIS. The absorbent article according to any one of claims 1 to 3, wherein the absorbent article is an easily washable water-absorbing polymer having a centrifugal retention amount of 5 to 20 g / g based on K 7223.

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