JP4916282B2 - Absorbent articles - Google Patents

Description

  The present invention relates to absorbent articles such as disposable diapers and sanitary napkins.

DESCRIPTION OF RELATED ART Conventionally, the absorbent article provided with the surface sheet, the back surface sheet, the absorber arrange | positioned between both sheets, and the intermediate | middle layer arrange | positioned between a surface sheet and an absorber is known. The intermediate layer here is a layer separate from the absorber and is also called a sublayer or a second sheet. In an absorbent article having such an intermediate layer, the intermediate layer is made of a nonwoven fabric composed of synthetic fibers and has a two-layer structure having a high-density layer and a low-density layer, and the high-density layer is on the absorber side. It is known that the low density layer is located on the surface sheet side (see, for example, Patent Documents 1 and 2).
According to the absorbent articles described in Patent Documents 1 and 2, since the body fluid (such as urine) absorbed from the topsheet is quickly held temporarily in the intermediate layer and diffuses in the plane direction, the absorbent capacity of the entire article And the leakage prevention ability can be improved.

JP 2003-210523 A JP-A-4-24026

  However, in the absorbent article described in Patent Document 1, the intermediate layer is configured so that the high-density layer and the low-density layer have substantially the same thickness, thereby improving the absorbability and the body fluid retention. Therefore, the high-density layer becomes hard, and as a result, not only has the problem that the fit to the wearer is reduced, but when the absorbency is further increased, the entire article needs to be thinned, Since it is necessary to increase the thickness of the entire article in order to improve body fluid retention, it is difficult to achieve both absorbability and body fluid retention.

  In the absorbent article described in Patent Document 2, the high-density layer of the intermediate layer has inherently hydrophilic fibers such as rayon and cotton (having hydrophilicity even without being subjected to hydrophilic treatment). Fiber) and a synthetic fiber. Therefore, the body fluid absorbed from the top sheet is held in the high-density layer of the intermediate layer and may not reach the absorber. As a result, the body fluid held in the high-density layer may reach the top sheet before reaching the absorber. There is a problem in that it evaporates from the side and stuffiness tends to occur.

  Accordingly, an object of the present invention is to provide an intermediate layer disposed between a top sheet and an absorber and having a high density layer and a low density layer, the high density layer is located on the absorber side, and the low density layer is the top sheet. In the absorbent article located on the side, a decrease in fit due to the high density layer becoming hard is unlikely to occur, and the body fluid absorbed from the top sheet evaporates without reaching the absorber, Another object of the present invention is to provide an absorbent article that is less prone to stuffiness due to evaporation of body fluid held in the absorber.

  The present invention is an absorbent article comprising a top sheet, a back sheet, an absorber disposed between both sheets, and an intermediate layer disposed between the top sheet and the absorber, the intermediate layer At least the absorber side is made of a nonwoven fabric composed of synthetic fibers and has a two-layer structure having a high-density layer and a low-density layer having a lower density than the high-density layer. Located on the body side, the low density layer is located on the top sheet side, the high density layer is thinner than the low density layer, and the synthetic fiber is inherently hydrophilic. The above object is achieved by providing an absorbent article which is a hydrophilic fiber that has hydrophilicity but is imparted with hydrophilicity by being subjected to a hydrophilic treatment.

  According to the absorbent article of the present invention, the intermediate article is provided between the top sheet and the absorber and has an intermediate layer having a high-density layer and a low-density layer, the high-density layer is located on the absorber side, and the low-density layer is In the absorbent article located on the top sheet side, the fit is less likely to deteriorate due to the high density layer becoming hard, and the body fluid absorbed from the top sheet evaporates without reaching the absorber. Steaming and steaming due to evaporation of body fluid held in the absorber are unlikely to occur.

  Hereinafter, an absorbent article of the present invention will be described based on a preferred embodiment thereof with reference to the drawings. The absorbent article of the present invention is mainly used for absorbing and holding excretory body fluids such as urine and menstrual blood. The absorbent article of the present invention includes, for example, disposable diapers, sanitary napkins, incontinence pads, etc., but is not limited thereto, and widely includes articles used for absorbing bodily fluids excreted from the human body. To do. The absorbent article of this embodiment is a disposable diaper.

  In FIG. 1, a part of the topsheet 2 is broken and shown in a developed state of the disposable diaper 1 of the present embodiment. The disposable diaper 1 shown in FIG. 1 is a so-called unfolded diaper, and a pair of fastening tapes 11 are provided on both sides of the abdominal side. FIG. 2 shows the developed state of the disposable diaper 1 shown in FIG. 1 with the top sheet 2, the fastening tape 11 and the like virtually omitted. FIG. 3 is a cross-sectional view taken along the line III-III shown in FIG.

  As shown in FIGS. 1 to 3, the disposable diaper 1 according to the present embodiment includes a topsheet 2, a backsheet 3, and a liquid-retaining absorbent 4 interposed between the sheets 2 and 3. Further, an intermediate layer 7 disposed between the top sheet 2 and the absorber 4 is provided.

As the top sheet 2, the back sheet 3, and the absorber 4, materials usually used in the technical field can be used without particular limitation.
For example, as the surface sheet 2, a liquid-permeable sheet such as various nonwoven fabrics or apertured films can be used. The topsheet 2 may be subjected to a hydrophilic treatment as necessary. As the back sheet 3, a liquid-impermeable or water-repellent sheet such as a thermoplastic resin film or a laminate of the film and a nonwoven fabric can be used. The back sheet 3 may have water vapor permeability.

As the absorbent body 4, an absorbent core 5 mainly composed of a fiber aggregate 51 such as a short fiber or long fiber web, which is covered with a covering sheet 6 can be used. The absorbent core 5 may include a superabsorbent polymer 52. As the covering sheet 6, for example, paper, non-woven fabric, or an apertured film can be used.
The absorbent body 4 in the present embodiment has a vertically long and substantially rectangular shape extending in the longitudinal direction of the disposable diaper 1.

  The absorbent article of the present invention may further include various members depending on the specific application. For example, when the absorbent article is applied to a disposable diaper or a sanitary napkin, a pair or two or more pairs of side solid gathers can be disposed on the left and right sides of the topsheet. In the present embodiment, a pair of side solid gathers (not shown) are provided in a region where the left and right side portions of the absorbent body 4 are located in plan view on the skin contact surface side.

  Moreover, in the disposable diaper of this embodiment, the back surface sheet 3 not only covers the non-skin contact surface side of the absorbent body 4 but also functions as an outermost layer sheet that forms the entire outermost layer of the diaper. However, it is not limited to this configuration. For example, an outermost layer sheet (not shown) separate from the back sheet 3 is used, and instead, the back sheet 3 is a sheet having the same width as that of the absorber 4, that is, the non-absorbent body 4. It can be set as the sheet | seat which mainly aims to coat | cover the skin contact surface side. The outermost layer sheet separate from the back sheet 3 is formed of, for example, a nonwoven fabric or a film sheet.

  The absorbent article of this invention is divided into a front part, a center part, and a rear part in the longitudinal direction. The front part is a part located on the front side when worn. The division positions of the front part, the central part, and the rear part differ depending on the type of absorbent article. In the case of a disposable diaper as in this embodiment, the entire article is divided into three parts in the longitudinal direction, the part located on the ventral side corresponds to the front part, and the part located on the back side corresponds to the rear part. The part between the front part and the rear part corresponds to the central part. When the diaper is divided into two equal parts in the longitudinal direction, the central part is in the range of 25 to 60% of the total length of the diaper centered on the bisector, and preferably in the range of 30 to 50%.

  Next, the intermediate layer 7 will be described in detail. The intermediate layer 7 is a layer separate from the absorber 4 and interposed between the top sheet 2 and the absorber 4, and is also a layer called a sublayer or a second sheet. The intermediate layer 7 may be composed of one member, or may be formed by laminating two or more members in a bonded state or in an unbonded state. When the intermediate layer 7 is formed of two or more members, the physical properties can be easily changed for each member, and the intermediate layer 7 having desired characteristics as a whole can be easily configured.

  In the present invention, at least the absorber 4 side of the intermediate layer 7 is made of a nonwoven fabric composed of synthetic fibers, and has a two-layer structure having a high density layer 71 and a low density layer 72 having a lower density than the high density layer 71. ing. Moreover, the high density layer 71 is located on the absorber 4 side, and the low density layer 72 is located on the top sheet 2 side. That is, in the intermediate layer 7, at least the absorber 4 side is made of a nonwoven fabric composed of synthetic fibers, and has a two-layer structure having a high density layer 71 on the absorber 4 side and a low density layer 72 on the topsheet 2 side. It only has to be.

Therefore, for example, another layer may exist on the surface sheet 2 side of the low density layer 72. The other layer may be formed of a non-woven fabric, or may be formed of a material other than the non-woven fabric, for example, a fiber web, paper, an apertured film, or a woven or knitted fabric.
Moreover, you may have a 3rd layer between the high-density layer 71 and the low-density layer 72 in the range which does not inhibit the transfer to the absorber 4 of a bodily fluid. In that case, the density of the third layer is preferably lower than that of the high density layer 71 and higher than that of the low density 72.
In the present embodiment, as shown in FIG. 3, the entire intermediate layer 7 is made of a nonwoven fabric composed of synthetic fibers and has a two-layer structure having a high density layer 71 and a low density layer 72. .

  Although there is no restriction | limiting in particular in the nonwoven fabric which forms the high density layer 71 and the low density layer 72, For example, an air through nonwoven fabric, a heat roll nonwoven fabric, a spun bond nonwoven fabric, a spun bond (S) -melt blown (M) -spun bond (S) Nonwoven fabrics, SMMS nonwoven fabrics, resin bond nonwoven fabrics, needle punched nonwoven fabrics, spunlace nonwoven fabrics, and airlaid nonwoven fabrics may be mentioned.

  The synthetic fibers constituting the high-density layer 71 and the low-density layer 72 of the intermediate layer 7 are not hydrophilic in nature, but hydrophilic fibers imparted with hydrophilicity by being subjected to a hydrophilic treatment. It is. It is easy to use a hydrophilizing agent as a hydrophilizing treatment for fibers that are not inherently hydrophilic. Examples of fibers that are not inherently hydrophilic include, for example, a fiber using a polyolefin resin such as polyethylene or polypropylene, a fiber using a polyester resin such as polyethylene terephthalate alone, or a composite fiber using these resins (core sheath) Molds, side-by-side molds, etc.). As the core-sheath type composite fiber, a core-sheath type composite fiber having a relatively low melting point component as a sheath and a relatively high melting point component as a core is preferable. Particularly, a low melting point component is polyethylene, and a high melting point component is preferable. A core-sheath type composite fiber of polypropylene or polyethylene terephthalate is preferable.

  It is preferable that the synthetic fiber constituting the high-density layer 71 has higher hydrophilicity than the synthetic fiber constituting the low-density layer 72. The hydrophilicity is evaluated by the liquid passing time and the hydrophilic ratio as follows.

[Measurement method of liquid passage time and hydrophilic ratio]
Two cylinders with a diameter of 30 mm are arranged vertically so as to sandwich the test piece of high density layer 71 or low density layer 72 and qualitative filter paper (ADVANTEC 4A), and 40 cc of ion exchange water is injected from the upper end of the upper cylinder. The time until 20 cc of ion exchange water passes through the test piece and the qualitative filter paper is measured. As a test piece, a hydrophilized member having a basis weight of 20 g / m ² was used, and the test of liquid flow measurement (40 cc × 2 times) was repeated, and the time taken for the second passage (liquid flow time) was measured. The ratio of the liquid passage time of the members used for the low density layer and the high density layer is defined as the hydrophilic ratio (liquid passage time of the low density layer / liquid passage time of the high density layer).
If this hydrophilic ratio is set to be greater than 1, not only the excretory fluid is smoothly transferred to the absorber, but also the excretory fluid once retained in the absorber is prevented from returning to the topsheet. ,preferable.

As for the smooth transition of the excretory fluid to the absorber, the amount of the remaining liquid is evaluated as follows.
[Measurement method of remaining liquid amount]
Take out the surface sheet and the absorber used for a commercially available diaper, inject 80 cc of ion-exchanged water from above the surface sheet, using a sample with the intermediate layer sandwiched between them, and remove the surface sheet and intermediate layer after 3 minutes. Measure the mass. By subtracting the mass of the topsheet and intermediate layer measured in advance before the test from this mass, the remaining liquid amount of the topsheet and intermediate layer is measured. It shows that excretory body fluid has transferred to an absorber smoothly, so that this liquid remaining amount is small.

  In the intermediate layer 7, the high density layer 71 has a fineness lower than that of the low density layer 72. The fineness of the high-density layer 71 and the fineness of the low-density layer 72 are evaluated by average fineness. The fineness of the high-density layer 71 is preferably 1.0 to 5.6 dtex, more preferably 1.5 to 4.4 dtex. The fineness of the low density layer 72 is preferably 3.0 to 10.0 dtex, more preferably 4.0 to 8.0 dtex. The difference obtained by subtracting the fineness of the high-density layer 71 from the fineness of the low-density layer 72 is preferably 2 to 8 dtex, more preferably 2.5 to 5 dtex.

The density of the high density layer 71 is preferably 0.05 to 0.10 g / cm ³ , more preferably 0.06 to 0.08 g / cm ³ . The density of the low density layer 72 is preferably 0.01 to 0.04 g / cm ³ , more preferably 0.015 to 0.035 g / cm ³ . The density ratio between the high-density layer 71 and the low-density layer 72 (density of the high-density layer 71 / density of the low-density layer 72) is preferably 1.5 to 5, more preferably 2.0 to 4.5. .

The basis weight of the intermediate layer 7 (the whole) is preferably 15 to 50 g / m ² , more preferably 20 to 45 g / m ² . The basis weight of the high-density layer 71 is preferably 8 to 30 g / m ² , more preferably 10 to 25 g / m ² . The basis weight of the low density layer 72 is preferably 8 to 30 g / m ² , more preferably 10 to 25 g / m ² .

The surface roughness of the surface on the absorber 4 side in the intermediate layer 7 (that is, the high-density layer 71) is preferably 0.5 to 3.0, more preferably 0.5 to 2.5, and particularly preferably 1. 0-2.5. The method for measuring the surface roughness is as follows. Using a KES-FB4 surface tester (manufactured by Kato Tech Co., Ltd.), the MMD value (average deviation of the friction coefficient) in the MD direction of the nonwoven fabric measured under the conditions of SENS: 2 × 5, load 50 gf / cm ² Say it. When the surface roughness is within such a range, the space volume formed between the surface of the intermediate layer 7 on the side of the absorber 4 and the upper surface of the absorber 4 in contact with the surface is small, and body fluid can be retained. This is preferable in that the area can be reduced.
For example, when the intermediate layer 7 is formed by the air-through method, the high-density layer 71 formed facing the transport net is likely to have a surface roughness in the above range.

The intermediate layer 7 has a thickness under a load of 40 Pa, preferably 0.6 to 1.8 mm, more preferably 0.8 to 1.4 mm. The method for measuring the thickness is as follows. A 10 cm square plate with a mass of 41 g is placed on the intermediate layer 7, and an average value of thicknesses measured at 10 locations using a laser displacement meter (manufactured by Keyence Corporation: LK-085) is the intermediate layer 7 under a load of 40 Pa. It was set as the thickness. Moreover, when the high density layer 71 and the low density layer 72 are comprised from one member, after measuring the thickness of the intermediate | middle layer 7, the cross section of the thickness direction of the intermediate | middle layer 7 is observed using an optical microscope, By measuring the ratio of the thickness of each layer, the thickness of each layer was converted and determined. When the thickness is within such a range, it is preferable in that the liquid residue at the time of absorbing body fluid is not increased, a space is formed inside the diaper, and the relative humidity can be reduced.
The ratio of the thickness of the low density layer 72 and the high density layer 71 under a 40 Pa load is preferably 9: 1 to 6: 4, more preferably 9: 1 to 7: 3.
Since the low density layer 72 has many voids formed therein, it tends to be bulky.

The compression elastic modulus of the mid layer 7 is preferably 700 to 2000 Pa, more preferably 800 to 1500 Pa. The method for measuring the compression modulus is as follows. In a stress-strain curve measured using a KES-FB3 compression tester (manufactured by Kato Tech Co., Ltd.) under the conditions of a measurement speed: 50 mm / sec and a maximum load: 50 gf / cm ² , the stress change at 0-30% strain Calculate The calculation formula is (stress (30% strain) −stress (0% strain)) / 0.3), and since correction is made with 0% strain at 49 Pa stress, stress (0% strain) = 49 Pa. It is. The measurement was performed three times, and the average value was taken as the compression modulus. When the compression elastic modulus is within such a range, it is preferable in that the thickness of the intermediate layer 7 can be maintained and soft when loaded.

It is preferable that the surface of the intermediate layer 7 on the surface sheet 2 side is bonded to the entire inner surface of the surface sheet 2 by an adhesive, or in particular, an area of 0 to 20% with respect to the intermediate layer 7. It is preferable that the adhesive is partially bonded to the inner surface of the topsheet 2 by an adhesive applied in a regular pattern.
Moreover, it is preferable that the surface on the absorber 4 side in the intermediate layer 7 is bonded to the upper surface of the absorber 4 entirely or partially by an adhesive, and particularly 10 to 30% with respect to the intermediate layer 7. It is preferable to be partially bonded to the upper surface of the absorbent body 4 by an adhesive applied in a regular pattern with an area ratio of.
The partial joining may be a regular pattern joining such as a stripe or a spiral, or an irregular joining.

  In the intermediate layer 7, when artificial urine is injected into the surface on the surface sheet 2 side at an injection speed of 2 cc / sec, the time until 10 cc of the artificial urine permeates through the surface on the absorber 4 side is 5.25. It is preferably ˜7.0 seconds, and more preferably 5.25 to 6.5 seconds. When the time is within such a range, it is preferable in that it can prevent absorption inhibition due to gel blocking caused by fast liquid absorption, and lateral leakage of body fluid caused by slow permeation rate.

The intermediate layer 7 has artificial urine (urea: 1.94% by weight, sodium chloride: 0.80% by weight, potassium sulfate: 0.20% by weight, magnesium sulfate 7 hydrate on the surface of the top sheet 2 side. Product: 0.11% by weight, calcium chloride dihydrate: 0.06% by weight, ion-exchanged water: 96.89% by weight, a small amount of a dye and a surfactant, and a surface tension of 50 to 55 dyne / cm When the artificial urine of 10 cc is injected into the intermediate layer 7, the diffusion area of the artificial urine on the surface sheet 2 side of the intermediate layer 7 is 1. is preferably 0~5.0cm ^2, and further preferably from 2.0~4.5cm ^2. When the diffusion area is within such a range, the body fluid is appropriately diffused in the intermediate layer 7 and the absorption of the body fluid into the absorbent body 4 extends over a wide range, so that gel blocking that causes absorption inhibition can be prevented. Is preferable.
The diffusion area is measured as follows.
[Diffusion area measurement method]
The sample of the intermediate layer 7 is stretched so as not to loosen, the artificial urine mixed with the dye is injected into the sample at a rate of 2 cc / sec with a metering pump, and the colored area of the sample after passing through the artificial urine is calculated by image analysis. .

  The intermediate layer 7 preferably covers 30 to 70% of the surface of the absorbent body 4 on the surface sheet 2 side, and more preferably covers 40 to 60%. The intermediate layer 7 preferably hangs on the center of the absorber 4 (intersection of the bisector in the longitudinal direction of the absorber 4 and the bisector in the width direction). Is more preferably located closer to the front part of the absorbent article with respect to the bisector in the longitudinal direction of the absorbent body 4.

  The plan view shape of the intermediate layer 7 can be changed as appropriate. For example, the absorbent body 4 may have a uniform width, a shape having a narrow width at the central portion of the absorbent article, and a shape having a wide width at the front portion and the rear portion of the absorbent article.

  The width of the intermediate layer 7 in the central portion is preferably 50 to 95% of the width of the absorber 4, and more preferably 60 to 90%. The width of the intermediate layer 7 in the front part and the rear part is preferably 40 to 90%, more preferably 50 to 90% of the width of the absorber 4. It is preferable that the side edge along the longitudinal direction of the intermediate layer 7 is located 10 to 100 mm inside from the side edge along the longitudinal direction of the absorber 4. If the width of the intermediate layer 7 extends over the entire width of the absorber 4, side leakage is likely to occur, which is not preferable.

  The length of the intermediate layer 7 is preferably 50 to 90% of the length of the absorber 4, and more preferably 60 to 85%. It is preferable that the edge along the width direction of the intermediate layer 7 is located 5 to 30 mm inside from the edge along the width direction of the absorber 4. If the length of the intermediate layer 7 extends over the entire length of the absorber 4, it is not preferable because leakage in the longitudinal direction tends to occur.

Next, a specific method for manufacturing the intermediate layer 7 will be illustrated.
The intermediate layer 7 can be formed by stacking and integrating a plurality of fiber webs. For example, in the first example, a fiber assembly mainly composed of low-definition fibers forming the high-density layer 71 (low-fine fiber assembly) is formed by the first card machine, and the low-density layer 72 is formed. A fiber aggregate (high-fine fiber aggregate) mainly composed of high-definition fibers is formed by the second card machine, and the low-fine fiber aggregate and the high-fine fiber aggregate are laminated. The laminate is transported with the low-fineness fiber assembly positioned on the transport net side, and hot air is blown from the high-fineness fiber assembly toward the low-fineness fiber assembly in the suction dryer. I do.

By blowing the hot air, the high-fineness fiber assembly to which the hot air is directly blown has its constituent fibers scattered, so that a lot of voids are formed in the inside thereof, and the density becomes low. On the other hand, the low-fineness fiber assembly located on the lower side of the high-fineness fiber assembly is pressed by the high-fineness fiber assembly, so that the internal voids are reduced and the density is increased.
Then, the constituent fibers of the low-fineness fiber assembly and the constituent fibers of the high-fineness fiber assembly are heat-sealed, and as a result, an integrated intermediate layer 7 having a two-layer structure is obtained.

  The intermediate layer 7 can be formed by overlapping and joining a plurality of separately formed nonwoven fabrics. For example, in the second example, an SMS nonwoven fabric to be the high density layer 71 is formed, and an air-through nonwoven fabric to be the low density layer 72 is formed. Both nonwoven fabrics are overlapped and joined by an adhesive, embossing, or the like. As a result, an intermediate layer 7 having a two-layer structure is obtained.

The intermediate layer 7 can also be formed by simply overlapping a plurality of nonwoven fabrics. In that case, it is preferable that the overlapped non-woven fabric is covered with a sheet so that separation is impossible.
The intermediate layer 7 can be composed of one member. Such an intermediate layer 7 is formed, for example, by superimposing fiber webs formed from a plurality of defibrating machines (card type, air laid type, etc.) and integrating them using hot air or high-pressure water flow. Can do.

According to the disposable diaper 1 of this embodiment, the following effects are produced.
In the disposable diaper 1 of the present embodiment, at least the absorber 4 side in the intermediate layer 7 is made of a nonwoven fabric composed of synthetic fibers and has a two-layer structure having a high density layer 71 and a low density layer 72, The high density layer 71 is located on the absorber 4 side, the low density layer 72 is located on the surface sheet 2 side, the high density layer 71 is thinner than the low density layer 72, and the synthetic fiber is inherently Although it has no hydrophilicity, it is a hydrophilic fiber imparted with hydrophilicity by being subjected to a hydrophilic treatment. Therefore, in the disposable diaper 1 of the present embodiment, the high-density layer 71 is not easily hardened, and the body fluid absorbed from the topsheet 2 can easily reach the absorber 4. As a result, a decrease in fit due to the high density layer 71 becoming hard is unlikely to occur, and the body fluid absorbed from the top sheet 2 evaporates without reaching the absorber 4, and the absorber 4 is less likely to cause stuffiness due to evaporation of the body fluid held in the body.

  Further, the water vapor generated due to the body fluid absorbed by the absorber 4 is diffused from the upper surface side of the absorber 4, and then the diffusion direction is made planar by the high-density layer 71 of the intermediate layer 7 having low water vapor permeability. Be regulated. Therefore, water vapor hardly diffuses in the space between the skin contact surface of the disposable diaper and the wearer (hereinafter referred to as “diaper-enclosed space”), and the water vapor is transmitted through the inside of the disposable diaper in the plane direction to the outside of the disposable diaper. Is diffused. Therefore, it is difficult for stuffiness and rash to occur in the diaper enclosure space.

  Further, since the bulky low density layer 72 is provided in the intermediate layer 7, there are many voids inside the low density layer 72. Therefore, since the water vapor in the diaper surrounding space diffuses and dilutes also in the voids inside the low density layer 72, the humidity in the diaper surrounding space is reduced. Moreover, since the low density layer 72 has a high compression elastic modulus, even if pressure is applied when a disposable diaper is worn, the intermediate layer 7 is deformed in the thickness direction due to the presence of the low density layer 72 having a high compression elastic modulus. And the voids in the low density layer 72 are easily retained.

  Furthermore, the bodily fluid absorbed by the intermediate layer 7 through the topsheet 2 is diffused in the plane direction by the capillary force resulting from the density difference between the high-density layer 71 and the low-density layer 72, and in this state, the absorber 4 It is absorbed from the top surface. Therefore, since the liquid holding ability of the absorber 4 is effectively utilized, the body fluid is held in a form in which it is difficult for the absorber 4 to evaporate.

  As mentioned above, although the absorbent article of this invention was demonstrated based on the preferable embodiment, the absorbent article of this invention is not restrict | limited to the said embodiment, A various change is possible.

  Hereinafter, the effects of the present invention will be more specifically evaluated using Examples and Comparative Examples in which the structure and physical properties of the intermediate layer are varied. The structure and physical properties of the intermediate layer in each example and comparative example are also shown in [Table 1] below.

[Example 1]
The intermediate layer is made of a nonwoven fabric having a basis weight of 40 g / m ² (high density layer: 20 g / m ² , low density layer: 20 g / m ² ). The high-density layer is made of polypropylene (PP) / polyethylene (PE) core-sheath composite fiber (2.2 dtex), and the low-density layer is polyethylene terephthalate (PET) / PE core-sheath composite fiber (5.6 dtex). ).
[Example 2]
The intermediate layer is made of a nonwoven fabric having a basis weight of 40 g / m ² (high density layer: 20 g / m ² , low density layer: 20 g / m ² ). The high-density layer is composed of a PET / PE core-sheath composite fiber (2.2 dtex), and the low-density layer is composed of a PET / PE core-sheath composite fiber (5.6 dtex).
Example 3
The intermediate layer is made of a nonwoven fabric having a basis weight of 40 g / m ² (high density layer: 20 g / m ² , low density layer: 20 g / m ² ). The high-density layer is made of PP / PE core-sheath composite fiber (2.2 dtex), and the low-density layer is made of PET / PE core-sheath composite fiber (3.3 dtex).

[Comparative Example 1]
The intermediate layer has the same structure and physical properties as the intermediate layer in Example 1, but differs in that a low-density layer is disposed on the absorber side.
[Comparative Example 2]
The intermediate layer is made of a nonwoven fabric having a basis weight of 20 g / m ² (high density layer: 10.0 g / m ² , low density layer: 10.0 g / m ² ). The constituent fibers of the high-density layer and the low-density layer are the same as the intermediate layer in Example 1.
[Comparative Example 3]
An intermediate | middle layer consists of a nonwoven fabric by a single fiber with a basic weight of 40 g / m < ² >. The fiber is a PET / PE core-sheath composite fiber (3.3 dtex).

With respect to Examples 1 to 3 and Comparative Examples 1 to 3 including the intermediate layer having the above-described configuration and physical properties, the above-described hydrophilic ratio, liquid passing time, diffusion area, liquid remaining amount, and water vapor permeation suppression performance were measured, respectively. . The measurement results are shown in [Table 2] below.
In addition, the measuring method of the permeation | transmission suppression performance of water vapor | steam is as follows.
[Measurement method of water vapor permeation suppression performance]
Two cylinders with a diameter of 30 mm are placed one above the other with the test piece of the intermediate layer sandwiched between them, and air with a temperature of 27 ° C. and a humidity of 75% Rh is directed from the lower end of the lower cylinder toward the upper side slightly below. The relative humidity directly under the test piece in the lower cylinder is measured. In a test piece having a high water vapor permeation suppressing performance, the amount of water vapor that passes through the test piece is small, so that the humidity immediately below the test piece on the upstream side increases. Therefore, it shows that the permeation | transmission suppression function is so high that the humidity right under a test piece is high.

  According to the measurement results shown in [Table 2], it can be seen that the example has superior characteristics as compared with the comparative example. For example, Examples 1 to 3 show excellent absorbency because both the short liquid passing time and the wide diffusion area are compatible and the remaining liquid amount is small. Moreover, the water vapor permeation suppressing performance is also high, and it exhibits excellent characteristics in terms of preventing the diffusion of water vapor into the diaper enclosure space. On the other hand, Comparative Example 1 has a wide diffusion area when passing through the liquid, there is a concern about leakage of body fluid, and there is a large amount of remaining liquid, so that the absorbed body fluid evaporates without reaching the absorber. Is likely to occur. In Comparative Example 2, since the liquid passing time is short, gel blocking is likely to occur, and since the permeation suppression performance of water vapor is low, stuffiness due to evaporation of the body fluid held in the absorber is likely to occur. In Comparative Example 3, gel blocking is likely to occur because the liquid passing time is short, and since the remaining amount of liquid is large, stuffiness due to evaporation of the absorbed body fluid without reaching the absorber is likely to occur.

FIG. 1 is an exploded perspective view showing a disposable diaper that is an embodiment of the absorbent article of the present invention. FIG. 2 is a plan view showing the unfolded state of the disposable diaper shown in FIG. 1 with the surface sheet and the like virtually omitted. 3 is a cross-sectional view taken along the line III-III shown in FIG.

Explanation of symbols

1 Absorbent article (disposable diaper)
2 Surface sheet 3 Back sheet 4 Absorber 5 Absorbent core 6 Cover sheet 7 Intermediate layer 71 High density layer 72 Low density layer

Claims (7)

An absorbent article comprising a top sheet, a back sheet, an absorber disposed between both sheets, and an intermediate layer disposed between the top sheet and the absorber,
At least the absorber side in the intermediate layer is made of a nonwoven fabric composed of synthetic fibers and has a two-layer structure including a high-density layer and a low-density layer having a lower density than the high-density layer, and the high-density layer Is located on the absorber side, the low density layer is located on the top sheet side,
The high-density layer is thinner than the low-density layer,
The synthetic fibers are free of hydrophilic inherently, Ri hydrophilic fibers der which hydrophilicity was imparted by hydrophilic treatment is applied,
The intermediate layer is an absorbent article having a thickness of 0.6 to 1.8 mm and a thickness ratio of the low density layer to the high density layer of 9: 1 to 7: 3 under a load of 40 Pa .   The absorbent article according to claim 1, wherein the intermediate layer covers 30 to 70% of the surface of the absorbent body on the surface sheet side.   The surface of the intermediate layer on the surface sheet side is bonded to the inner surface of the surface sheet by an adhesive applied in a regular pattern with an area ratio of 0 to 20% with respect to the intermediate layer. The surface on the absorber side of the layer is bonded to the upper surface of the absorber by an adhesive applied in a regular pattern with an area ratio of 10 to 30% with respect to the intermediate layer. The absorbent article as described. The absorbent article according to any one of the claims 1-3 surface roughness of the surface of the absorbent body side in the intermediate layer is 0.5 to 2.5. The density of the high density layer is 0.05 to 0.10 g / cm 3, and the density ratio of the high density layer to the low density layer is 1.5 to 5,
The basis weight of the intermediate layer is 15 to 50 g / m @ 2, the basis weight of the high density layer is absorbent article according to any one of claims 1 to 4 is 8~30g / m2. The absorptive article given in any 1 paragraph of Claims 1-5 whose compression elastic modulus of said middle class is 800-1500Pa. The direction of the synthetic fibers, absorbent article according the to any one of high claims 1-6 is hydrophilic than the synthetic fibers constituting the low-density layer constituting the high-density layer.

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