JP4219223B2 - Sheet material - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multilayer sheet material that has a high liquid drawing property and can absorb liquid quickly. The sheet material of the present invention is particularly preferably used as a surface sheet or absorbent body of absorbent articles such as sanitary napkins and disposable diapers.
[0002]
[Prior art and problems to be solved by the invention]
The applicant first has a first layer and a second layer adjacent to the first layer, and the first layer and the second layer are partially joined by a joint portion having a predetermined pattern. The first layer has a three-dimensional solid shape, and the second layer is made of a material exhibiting an elastomeric behavior, and the whole sheet has an elastomeric behavior and has a breathable three-dimensional sheet material (patented) Reference 1). This three-dimensional sheet material is highly recoverable when stretched in the plane direction and highly recoverable when compressed in the thickness direction, and is suitably used as a constituent material for disposable absorbent articles and as a wiper for humans and objectives. The However, there is an increasing demand for stretch recovery and compression recovery.
[0003]
A surface sheet of an absorbent article is known in which an upper layer, which is a bundle of continuous filaments, is superimposed on a lower layer, which is a bundle of continuous filaments, and is partially fused by a joining line to form a sheet (Patent Document 2). reference). In this surface sheet, the lower layer has a higher hydrophilicity and density than the upper layer, thereby improving liquid permeability and preventing the liquid from returning. As a means for increasing the density, the number of crimps of the continuous filament is differentiated. However, since the constituent fibers are continuous filaments, it is not easy to increase the bulk of the sheet, and the sheet lacks a soft feeling.
[0004]
A step of obtaining a laminate comprising at least one hydrophilic fiber web and at least one heat-crimpable hydrophobic fiber web, a continuous plane portion, and a plurality of convex portions distributed intermittently and independently; / Or on the surface of the support provided with recesses and a large number of fine drainage holes, the laminate is sprayed with high-pressure water from the fine hole nozzles to entangle the fibers of both webs and rearrange the laminate. Produced by a method comprising the steps of: obtaining a non-woven fabric having uneven fiber distribution density in the surface direction; and dehydrating and / or drying the non-woven fabric and then heat-treating the synthetic fiber, at least on one side A non-woven wiper having many undulations is also known (see Patent Document 3). In this wiper, since the two fiber webs are bonded on the entire surface, it is not easy to raise the undulations. Moreover, it is not easy to increase the degree of freedom of design (design) due to undulations.
[0005]
[Patent Document 1]
JP 2002-187228 A
[Patent Document 2]
JP 2002-65738 A
[Patent Document 3]
JP-A-8-60509
[0006]
Accordingly, an object of the present invention is to provide a bulky and soft sheet material that has high liquid drawability and can absorb liquid quickly.
[0007]
[Means for Solving the Problems]
The present invention is formed by laminating a first fiber layer containing a three-dimensionally crimped fiber and a second fiber layer containing a same or different kind of three-dimensionally crimped fiber,
The degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer is higher than the degree of crimp of the three-dimensional crimped fiber contained in the first fiber layer, and the apparent density of the second fiber layer is the first. The object is achieved by providing a sheet material having an apparent density higher than that of the fiber layer.
[0008]
The present invention also relates to an absorbent article comprising a liquid-permeable surface layer, a liquid-impermeable leak-proof layer, and a liquid-retaining absorbent layer interposed between the two layers.
As the surface layer or absorption layer, a first fiber layer containing a three-dimensionally crimped fiber and a second fiber layer containing a same-type or different kind of three-dimensionally crimped fiber are laminated.
The degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer is higher than the degree of crimp of the three-dimensional crimped fiber contained in the first fiber layer, and the apparent density of the second fiber layer is the first. Using a sheet material that is higher than the apparent density of the fiber layer,
The said sheet material provides the absorbent article arrange | positioned so that the said 2nd fiber layer may face the said leak-proof layer side.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described below based on preferred embodiments with reference to the drawings. FIG. 1 shows a perspective view of an embodiment of the sheet material of the present invention, and FIG. 2 shows a cross-sectional view taken along line II-II in FIG.
[0010]
A sheet material 10 shown in FIG. 1 is made of a nonwoven fabric having a multilayer structure including a first fiber layer 1 and a second fiber layer 2 adjacent thereto. The first fiber layer 1 is composed of an aggregate of fibers. On the other hand, the second fiber layer 2 is composed of an aggregate of fibers of a different type and / or blend from the fibers constituting the first fiber layer 1. The first fiber layer 1 and the second fiber layer 2 are partially bonded by a large number of bonding portions 3. In other words, the first fiber layer 1 and the second fiber layer 2 are not joined on the entire surface. However, both fiber layers are in contact with each other even in the unbonded region. In the present embodiment, the joint portions 3 are small and discretely formed discontinuously, and form a rhombus lattice-like arrangement pattern as a whole. The joint portion 3 is consolidated and has a smaller thickness and a higher density than other portions of the sheet material 10.
[0011]
The joint portion 3 is formed by heat-sealing the first fiber layer 1 and the second fiber layer 2. Both fiber layers are integrated in the thickness direction by the joint portion 3. The joint 3 in the present embodiment is circular, but the shape of the joint 3 may be elliptical, triangular, rectangular, or a combination thereof. Moreover, you may form a junction part in continuous shape, for example, linear form, such as a straight line and a curve.
[0012]
In the sheet material 10, the first fiber layer 1 protrudes between the joint portions 3 to form a large number of convex portions 4. In the present embodiment, the sheet material 10 has a large number of closed regions formed by being surrounded by the joint portions 3 each having a rhombus-like array pattern, and the first fiber layer 1 is formed in the closed regions. As shown in FIG. 2, the projection 4 is formed so as to protrude. The convex part 4 in the present embodiment has a dome shape. The inside is filled with fibers constituting the first fiber layer 1. The joint portion 3 is a concave portion relative to the convex portion 4. On the other hand, in the 2nd fiber layer 2, between the junction parts 3, the substantially flat surface is maintained, or it protrudes a little (refer FIG. 2). When viewed as a sheet material 10 as a whole, the second fiber layer 2 side is flat or slightly protruding, and has a structure having a large number of irregularities on the first fiber layer 1 side.
[0013]
Each of the first fiber layer 1 and the second fiber layer 2 includes a three-dimensionally crimped fiber as a main constituent fiber. Examples of the three-dimensionally crimped fibers include latently crimpable fiber staple fibers in which crimps are expressed, and mechanically crimped fiber staple fibers. In particular, the three-dimensionally crimped fibers are preferably made of staple-crimped staple fibers in which crimps are manifested from the viewpoint of high compression recovery properties of the protrusions 4 and high stretch recovery properties of the first fiber layer 1. By using staple fibers, it is easy to increase the bulk of the sheet material 10 compared to the case of using continuous filaments, and it is easy to develop a soft feeling. From this viewpoint, the fiber length is preferably about 2 to 150 mm, particularly about 5 to 100 mm. The latent crimpable fiber in which crimps are expressed is in a coiled crimped state. The latent crimpable fiber preferably has a fineness of about 1 to 7 dtex. The latent crimpable fiber includes, for example, an eccentric core-sheath type composite fiber or a side-by-side type composite fiber containing two types of thermoplastic polymer materials having different shrinkage rates as components. Examples thereof include those described in JP-A-9-296325 and JP2759331A. For example, a combination of an ethylene-propylene random copolymer (EP) and polypropylene (PP) is preferable from the viewpoint of the softness of the sheet material 10 as an example of two types of thermoplastic polymer materials having different shrinkage rates.
[0014]
In the sheet material 10, the degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer 2 is higher than the degree of three-dimensional crimped fiber contained in the first fiber layer 1, thereby The apparent density of the second fiber layer 2 is higher than the apparent density of the first fiber layer 1. As a result, a gradient occurs in the apparent density of the sheet with respect to the thickness direction of the sheet material 10. This gradient causes a force to draw the liquid from the first fiber layer 1 toward the second fiber layer, and when the liquid is excreted into the first fiber layer 1, it is quickly absorbed. This makes it difficult for the liquid to remain on the surface of the first fiber layer 1. The force for drawing the liquid becomes higher particularly when a force is applied to the sheet material, specifically, when a force such as elongation or twist is applied to the sheet material.
[0015]
The apparent density ρ2 of the second fiber layer 2 and the apparent density ρ1 of the first fiber layer 1 are ρ2 / ρ1 = 1.1 or more, particularly 1.1 to 5, particularly 1.3 to 5. It is preferable from the point that the pulling force is sufficiently developed. The apparent density of each layer is ρ1 = 4 to 40 kg / m in the first fiber layer 1. ^Three , Especially 8-25kg / m ^Three In the second fiber layer 2, ρ2 = 20 to 200 kg / m ^Three , Especially 25-80kg / m ^Three It is preferable that The apparent density ρ of the entire sheet material 10 is 8 to 80 kg / m. ^Three , Especially 10-50kg / m ^Three It is preferable from the viewpoints of imparting a bulky feeling to the sheet material 10 and increasing the compressive deformability and thus the flexibility and softness.
[0016]
The apparent density of each layer and the entire sheet material 10 is 0.49 cN / cm on the basis weight. ² Calculated by dividing by the thickness measured under pressure. The thickness under pressure is measured using a compression change rate measuring method (KES method). As a measuring device, KES FB3-AUTO-A automated compression tester manufactured by Kato Tech Co., Ltd. is used. 0.49 cN / cm ² The thickness under pressure can also be measured by the following method. First, a plate having a size smaller than the measurement piece (a disk having a diameter of 5.6 cm, 12.4 g) is placed on the measurement table. The position of the upper surface of the plate in this state is set as a measurement reference point A. Next, the plate is removed, a measurement piece (10 cm × 10 cm) is placed on the measurement table, and the plate is placed again thereon. The position of the upper surface of the plate in this state is B. The thickness of the three-dimensional sheet material 10 is determined from the difference between A and B. A laser displacement meter [manufactured by Keyence Co., Ltd., CCD laser displacement sensor LK-080] is used as the measuring device, but a dial gauge type thickness meter may be used. However, when a thickness gauge is used, the measuring force of the measuring instrument and the weight of the plate should be 0.49 cN / cm. ² Adjust under pressure.
[0017]
In the sheet material 10 of this embodiment, since the three-dimensionally crimped fibers are included in both the first fiber layer 1 and the second fiber layer 2, these layers are all stretched in the plane direction. There is also an advantage that the recoverability is high. As a result, the sheet material 10 as a whole is highly recoverable when it is stretched in the plane direction. Therefore, when the sheet material 10 is used as, for example, a constituent member of an absorbent article, the followability to the wearer's movement is improved, the fit of the absorbent article is improved, and liquid leakage is effectively prevented. Further, when the sheet material 10 is used as a wiper, for example, the followability to the unevenness of the target surface is improved.
[0018]
Another advantage of including three-dimensionally crimped fibers in both the first fiber layer 1 and the second fiber layer 2 is that the recoverability and cushion feeling when the sheet material 10 is compressed are increased. Is mentioned. As described above, since the convex portion 4 is mainly composed of the first fiber layer 1, the fact that the first fiber layer 1 includes a three-dimensional crimped fiber means that the convex portion 4 includes a three-dimensional crimped fiber. It means that it contains. When the convex part 4 contains the three-dimensionally crimped fiber, the recoverability and cushion feeling when the convex part 4 is compressed are enhanced. As a result, the recoverability and cushion feeling of the entire sheet material are enhanced. Moreover, the sag of the convex part 4 when the sheet material 10 is impregnated with a liquid becomes small. Therefore, the sheet material 10 can be suitably used as a constituent material of a disposable absorbent article or a wet wiper for interpersonal / objective purposes. Furthermore, since the three-dimensional crimped fiber can be held with the fibrous dust sandwiched between the crimped portions, when the sheet material 10 is used as a wiper, the collection property of the fibrous dust is high. Become. In addition, since relatively large dust such as bread crumbs is easily held in the concave portions between the convex portions 4, it is preferable to use the three-dimensional sheet material 10 as a wiper from this point.
[0019]
In the present invention, the degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer 2 is higher than the degree of crimp of the three-dimensional crimped fiber contained in the first fiber layer 1. The number of crimps of the three-dimensional crimped fiber contained in the fiber layer 2 is greater than the number of crimps of the three-dimensional crimped fiber contained in the first fiber layer 1 and / or included in the second fiber layer 2. It means that the coil diameter of the three-dimensionally crimped fiber is smaller than the coil diameter of the three-dimensionally crimped fiber included in the first fiber layer 1. The number of crimps is measured according to JIS L1015. The coil diameter is measured from an electron micrograph of the fiber.
[0020]
Various methods are used to make the degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer 2 higher than the degree of crimp of the three-dimensional crimped fiber contained in the first fiber layer 1. be able to. For example, the following method can be used when the three-dimensionally crimped fiber includes a latently crimpable fiber in which crimps are expressed. In the following description, the term “crimped crimped fiber” means either a latently crimped fiber in which crimps are developed or a latently crimped fiber before the crimps are developed depending on the context.
[0021]
(1) When different types of latent crimpable fibers are used in the first fiber layer 1 and the second fiber layer 2, the latent crimps are in a state before the latent crimpable fibers contained in each layer are crimped. When the crimpable fiber is crimped under the same conditions, the latent crimpable fiber contained in the second fiber layer 2 is crimped more than the latent crimpable fiber contained in the first fiber layer 1. Use the one that is likely to occur. Specifically, as the latent crimpable fiber contained in the second fiber layer 2, a crimp crimping temperature lower than that of the latent crimpable fiber contained in the first fiber layer 1 is used. Or, although the crimping expression temperature is the same, the potential crimpability included in the second fiber layer 2 is the one that crimps so that the number of crimps increases and / or the coil diameter decreases. Used as fiber. In order to crimp so that the number of crimps increases and / or the coil diameter decreases, for example, the degree of eccentricity of the eccentric core-sheath composite fiber is increased, or the ratio of the core component to the sheath component is increased. Adjust it.
[0022]
(2) When the same type of latent crimpable fiber is used in the first fiber layer 1 and the second fiber layer 2, the latent crimpable fiber contained in the first fiber layer 1 is crimped. The fiber which prevents this is included in the first fiber layer 1. Specifically, (a) the first fiber layer 1 includes latent crimpable fibers and normal fibers that do not crimp / shrink, while the second fiber layer 2 is composed only of latent crimpable fibers. The crimp of the latent crimpable fiber contained in the first fiber layer 1 is prevented more than the crimp of the latent crimpable fiber contained in the second fiber layer 2. In addition, (b) both the first fiber layer 1 and the second fiber layer 2 contain latent crimpable fibers and normal fibers that do not cause crimping / shrinking, and the mixing ratio of normal fibers in the second fiber layer 2 Is lower than the blending ratio of normal fibers in the first fiber layer 1. Also in this case, the crimp of the latent crimpable fiber contained in the first fiber layer 1 is prevented more than the crimp of the latent crimpable fiber contained in the second fiber layer 2.
[0023]
When the first fiber layer 1 or the second fiber layer 2 contains normal fibers that prevent crimping of the latent crimpable fibers, the normal fibers are substantially, for example, at the crimp start temperature of the latent crimpable fibers. Examples thereof include fibers that do not heat shrink. Specific examples include fibers that have heat shrinkability but do not substantially heat shrink at the crimp start temperature of the latent crimpable fibers, and fibers that do not substantially have heat shrinkability. In particular, it is preferable to use a heat-fusible fiber. As a result, the degree of crimping of the latent crimpable fibers is adjusted, and the surface strength of the convex portions 4 is increased, thereby preventing fuzzing effectively. The blending ratio of the normal fibers contained in the first fiber layer 1 is preferably 10 to 90% by weight, particularly 30 to 70% by weight, from the viewpoint of improving the surface strength of the convex portion 4. The proportion of normal fibers contained in the second fiber layer 2 is lower than that of the first fiber layer and is preferably 0 to 50% by weight, particularly preferably 0 to 30% by weight.
[0024]
In the sheet material 10 of the present embodiment, the hydrophilicity of the second fiber layer 2 is higher than the hydrophilicity of the first fiber layer 1. Due to this and the density gradient described above, in the sheet material 10 of the present embodiment, a force for drawing the liquid from the first fiber layer 1 toward the second fiber layer is generated more strongly, and the liquid is generated in the first fiber layer 1. As it is excreted, it will be absorbed more quickly. The hydrophilicity of the first fiber layer 1 and the second fiber layer 2 can be determined by, for example, the size of the surface liquid flow length measured by the following method. When the surface liquid flow length is small, the hydrophilicity is large, and when the surface liquid flow length is large, the hydrophilicity is small.
[0025]
[Measurement method of surface liquid flow length]
The measurement is performed in a temperature and humidity environment of 20 ° C. and 65% RH. Sheet materials, napkins and the like are allowed to stand in this environment for 12 hours or longer so that they can reach an equilibrium state sufficiently with respect to the temperature and humidity.
(1) Preparation of measurement sample
Only the surface sheet is removed from the Laurie smooth cushion wing (Pharmaceutical name: Laurier Nr) which is a sanitary napkin manufactured by Kao Corporation. Instead, the sheet material is wrapped around a napkin and fixed on the leak-proof layer side. In this case, if the surface liquid flow length of the first fiber layer is to be measured, the first fiber layer is directed to the surface. If the surface liquid flow length of the second fiber layer is to be measured, the second fiber layer is directed to the surface.
(2) Measurement of surface liquid flow length
A test bench for slopes is provided with acrylic plates. The inclination angle of the acrylic plate is set as appropriate (for example, 45 degrees). The angle is measured with an angle meter, and the inclination error is set to ± 1 degree. Further, the acrylic plate is leveled in a direction orthogonal to the tilt direction. Next, the measurement sample is placed on the acrylic plate. Lightly press the surface of the measurement sample a few times with a ruler, etc., to prevent the sheet material from floating. Under this condition, 1 g of model blood is dropped on the sheet material for 10 seconds using a microtube pump. At this time, the tip of the dropping tube is positioned 10 mm above the dropping position in the measurement sample. The dropping position in the measurement sample is a position closer to 150 mm upward from the lower end of the measurement sample and the center in the width direction of the measurement sample. As model blood, ion-exchanged water colored with 0.1 g / l edible red No. 2 was used. The distance from the position where the sheet material is first wetted by the model blood to the position where the model blood is first absorbed by the sheet material is measured, and this value is taken as the surface liquid flow length. The measurement is performed 5 times and the average value is obtained. Of the five measurements, if the model blood is not absorbed even once and reaches the lower end of the measurement sample, the surface liquid flow length of the sheet material is 150 mm. In addition, when the model blood does not flow at all on the surface of the sheet material and is completely absorbed when measurement of the surface liquid flow length is impossible when 1 g of model blood has been dropped, the sheet at the time when the model blood does not spread The distance from the upper end to the lower end of the wet part of the material is measured, and the value is defined as the surface liquid flow length.
[0026]
In order to make the hydrophilicity of the second fiber layer 2 higher than the hydrophilicity of the first fiber layer 1, for example, the first fiber layer 1 is mainly composed of hydrophobic fibers, while the second fiber layer 2 is hydrophilic. What is necessary is just to comprise a fiber as a main body. In the case where both the first fiber layer 1 and the second fiber layer 2 are composed of hydrophobic fibers, a hydrophilizing oil is applied only to the constituent fibers of the second fiber layer 2, or the configurations of both fiber layers Hydrophilic oil agent is imparted to any of the fibers, and in this case, the hydrophilized oil agent to be imparted to the constituent fibers of the second fiber layer 2 is more hydrophilic than the hydrophilized oil agent to be imparted to the constituent fibers of the first fiber layer 1. What is high may be used. The hydrophilizing oil may be applied to the surface of the fiber or kneaded into the fiber. When the hydrophilizing oil is applied to the surface of the fiber, it may be applied to the raw fiber, or may be applied after forming a fiber assembly from the raw fiber.
[0027]
The thickness of the sheet material 10 is preferably 0.7 to 13 mm, and particularly preferably 1.3 to 10 mm from the viewpoint of bulkiness and compressive deformation, although depending on its specific application. Regarding the thickness of each layer, the thickness of the first fiber layer 1 is preferably 0.5 to 10 mm, particularly 1 to 8 mm, and the thickness of the second fiber layer 2 is 0.2 to 3 mm, particularly 0.3 to 2 mm. It is preferable that The thickness is 0.49 cN / cm according to the same method as described above for the apparent density measurement method. ² Measured under pressure.
[0028]
From the viewpoint of expressing sufficient compressive deformability and bulkiness in the sheet material 10, the basis weight of the sheet material 10 is 15 to 200 g / m. ² , Especially 25-150 g / m ² It is preferable that From the same viewpoint, the basis weight of the first fiber layer 1 is 5 to 120 g / m. ² , Especially 10-100g / m ² The basis weight of the second fiber layer 2 is preferably 10 to 150 g / m. ² , Especially 15-100g / m ² It is preferable that The basis weight is obtained by cutting the sheet material 10 into a size of 50 mm × 50 mm or more, collecting a measurement piece, measuring the weight of the measurement piece using an electronic balance with a minimum display of 1 mg, and converting it to the basis weight. .
[0029]
Next, the preferable manufacturing method of the sheet material 10 of this embodiment is demonstrated. The sheet material 10 is formed by laminating a first fiber aggregate containing latent crimpable fibers and a second fiber aggregate containing latent crimped fibers of the same or different type from the latent crimped fibers. Partially heat-sealing to form a laminated body, and then heat-treating the laminated body to crimp the latent crimpable fibers contained in each fiber aggregate and heat each fiber aggregate in its in-plane direction. It is obtained by shrinking and forming a first fiber layer and a second fiber layer from the first fiber assembly and the second fiber assembly, respectively. And the convex part 4 is made to project the 1st fiber layer by making the area shrinkage rate of a 2nd fiber assembly larger than the area shrinkage rate of a 1st fiber assembly in the case of the heat shrink.
[0030]
Each fiber assembly preferably comprises a card web manufactured using a card machine. For example, ultrasonic embossing or heat embossing is used to partially heat-bond both fiber assemblies to obtain a laminate. The temperature of the heat treatment of the laminate is set to be equal to or higher than the crimp start temperature of the latent crimpable fiber included in each fiber assembly. For example, hot air blowing (air-through processing) or infrared irradiation is used for the heat treatment. The area shrinkage rate of each fiber assembly is the standard area before shrinkage, S ₀ And the area after contraction of the reference area is S ₁ Then, it is expressed by the following formula.
Area shrinkage rate (%) = (S ₀ -S ₁ ) / S ₀ × 100
[0031]
In order to make the area shrinkage rate of the second fiber assembly larger than the area shrinkage rate of the first fiber assembly, for example, the following methods (a) to (d) may be mentioned. In addition, by adopting the methods (a) to (d), the degree of crimp of the three-dimensional crimped fiber included in the second fiber layer 2 is three-dimensional crimped included in the first fiber layer 1. It can be higher than the degree of crimp of the fiber.
[0032]
(A) The first fiber aggregate contains fibers that are not substantially heat-shrinked at the heat treatment temperature of the laminate (hereinafter also referred to as non-heat-shrinkable fibers). On the other hand, the second fiber aggregate does not contain non-heat-shrinkable fibers, and the second fiber aggregate is composed only of latent crimpable fibers. By containing the non-heat-shrinkable fibers in the first fiber aggregate, crimping of the latent crimpable fibers contained in the first fiber aggregate is prevented. Therefore, during the heat treatment of the laminate, the degree of crimp of the latent crimpable fiber in the first fiber assembly is relatively larger than the degree of crimp of the latent crimpable fiber in the second fiber fiber assembly. Lower. As a result, the area shrinkage rate of the second fiber assembly becomes larger than the area shrinkage rate of the first fiber assembly.
[0033]
(B) A non-heat-shrinkable fiber is contained in each of the first fiber assembly and the second fiber assembly, and the blending ratio of the non-heat-shrinkable fiber in the first fiber assembly is determined as the non-heat shrinkage in the second fiber assembly. The blending ratio of the shrinkable fiber is set higher. In this case, in each fiber assembly, the crimp of the latent crimpable fiber contained therein is prevented. The degree of the hindrance is larger in the first fiber aggregate having a higher content of non-heat-shrinkable fibers. Therefore, during the heat treatment of the laminate, the degree of crimp of the latent crimpable fiber in the first fiber assembly is relatively lower than the degree of crimp of the latent crimpable fiber in the second fiber assembly. Become. As a result, the area shrinkage rate of the second fiber assembly becomes larger than the area shrinkage rate of the first fiber assembly.
[0034]
(C) Prior to laminating the first fiber assembly and the second fiber assembly, only the first fiber assembly is preliminarily heat embossed. As a result, the movement of the latent crimpable fiber contained in the first fiber assembly is limited by the fusion point formed by embossing. Therefore, during the heat treatment of the laminate, the degree of crimp of the latent crimpable fiber in the first fiber assembly is relatively lower than the degree of crimp of the latent crimpable fiber in the second fiber assembly. Become. As a result, the area shrinkage rate of the second fiber assembly becomes larger than the area shrinkage rate of the first fiber assembly.
[0035]
(D) As the latent crimpable fiber contained in the first fiber assembly, one having a crimp start temperature higher than the crimp start temperature of the latent crimpable fiber contained in the second fiber assembly is used. When a fiber having a higher crimp start temperature and a fiber having a lower crimp start temperature than the fiber are heat-treated at the same temperature, the fiber having a higher crimp start temperature is less likely to be crimped. Therefore, during the heat treatment of the laminate, the degree of crimp of the latent crimpable fiber in the first fiber assembly is relatively lower than the degree of crimp of the latent crimpable fiber in the second fiber assembly. Become. As a result, the area shrinkage rate of the second fiber assembly becomes larger than the area shrinkage rate of the first fiber assembly.
[0036]
In the above methods (a) to (d), the method (a) can be combined with the methods (c) and / or (d). The method (b) can be combined with the method (c) and / or (d).
[0037]
The sheet material 10 thus obtained has a density gradient from the first fiber layer 1 to the second fiber layer 2, so that the sheet material 10 is made of, for example, a liquid-permeable surface layer, liquid-impermeable. Used as a surface layer (surface sheet) of an absorbent article having a liquid-proof leak-proof layer and a liquid-retaining absorbent layer interposed between both layers, and the surface on the first fiber layer 1 side is a skin facing surface, When the two-fiber layer 2 is arranged so as to face the leak-proof layer side, the liquid excreted by the first fiber layer 1 is quickly absorbed. In addition, the liquid hardly remains on the surface of the first fiber layer 1. When the convex part 4 is provided in the 1st fiber layer 1, since there is little contact area to skin and there is also cushioning property, an absorbent article with a favorable mounting feeling is obtained. Even when it is used as an absorbent body of an absorbent article and the second fiber layer 2 is arranged so as to face the leak-proof layer side, the first fiber layer 1 quickly absorbs the liquid transferred from the topsheet, and the second fiber layer 2 Therefore, it is possible to provide an absorbent article with high absorbency.
[0038]
In addition, when the sheet material 10 is used as a wiper, the convex part 4 includes three-dimensionally crimped fibers, so that it is excellent in collecting fine fibrous dust, and the concave part between the convex parts 4 is relatively large such as bread crumbs. Dust can also be collected. Furthermore, since the recoverability when stretched in the plane direction and the recoverability when compressed in the thickness direction are high, the followability to the surface to be cleaned is high and the cleaning efficiency is improved. In addition, the mounting property to the cleaning tool is improved. In addition, since the second fiber layer 2 also contains three-dimensionally crimped fibers, the second fiber layer 2 side can also be used for cleaning depending on the purpose. That is, it can be used as a double-sided wiper.
[0039]
In addition, since the sheet material 10 includes three-dimensionally crimped fibers in the convex portion 4, the sheet material 10 has high rigidity, and as a result, even when wet with liquid, the convex dome structure can be reliably maintained. Therefore, when the sheet material 10 is used as the top sheet of the absorbent article, the dome structure of the convex portion 4 can be maintained after the permeation or absorption of the body fluid, so that it is possible to prevent discomfort, stuffiness and blurring on the skin. Further, even when the wet wiper is impregnated with an aqueous cleaning agent, the cleaning property does not deteriorate.
[0040]
The present invention is not limited to the embodiment. For example, in the above embodiment, all the three-dimensional crimped fibers included in the first fiber layer 1 are lower than the degree of crimp of the three-dimensional crimped fibers included in the second fiber layer 2. Instead of the degree of crimp of the three-dimensionally crimped fibers contained in the second fiber layer in the first fiber layer 1 as long as the apparent density of the second fiber layer is higher than the apparent density of the first fiber layer. A small amount of three-dimensionally crimped fibers may be included to the same extent or more.
[0041]
Moreover, although the sheet material of the said embodiment was a three-dimensional sheet | seat which has many convex parts, it may replace with this and may become a flat sheet material which does not have a convex part. For example, such a sheet material is prepared by separately separately preparing a first fiber layer containing three-dimensional crimped fibers and a second fiber layer containing three-dimensional crimped fibers of the same type or different from the fibers. It is obtained by joining the layers using an adhesive such as a hot melt pressure-sensitive adhesive.
[0042]
【The invention's effect】
The sheet material of the present invention has a high liquid pull-in property and is bulky and soft enough to absorb liquid quickly.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an embodiment of a three-dimensional sheet material of the present invention.
FIG. 2 is a cross-sectional view taken along the line II-II in FIG.
[Explanation of symbols]
1 First fiber layer
2 Second fiber layer
3 Heat fusion part
4 Convex
10 Sheet material

Claims (7)

A first fiber layer containing a three-dimensionally crimped fiber and a second fiber layer containing the same or different kinds of three-dimensionally crimped fibers, and laminated.
Both the first fiber layer and the second fiber layer include the staple fibers of latent crimpable fibers in which crimps are expressed as the three-dimensional crimped fibers,
The degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer is higher than the degree of crimp of the three-dimensional crimped fiber contained in the first fiber layer, and the apparent density of the second fiber layer is the first. It is higher than the apparent density of the fiber layer ,
A sheet material in which the hydrophilicity of the second fiber layer is higher than the hydrophilicity of the first fiber layer . The latent crimpable fiber contained in the first fiber layer and the latent crimpable fiber contained in the second fiber layer are different types,
When the latent crimpable fiber is crimped under the same conditions before the latent crimpable fiber contained in each layer is crimped, the latent crimp contained in the first fiber layer The sheet material according to claim 1, wherein the latent crimpable fiber contained in the second fiber layer is more easily crimped than the crimpable fiber. The latent crimpable fiber contained in the first fiber layer and the latent crimpable fiber contained in the second fiber layer are of the same type,
The first fiber layer includes the latent crimpable fiber and the normal fiber that does not cause crimping / shrinking, while the second fiber layer includes only the latent crimpable fiber, or the latent crimpable fiber and the crimp.・ Contains normal fibers that do not shrink,
When the second fiber layer includes the latent crimpable fiber and the normal fiber, the mixing ratio of the normal fiber in the second fiber layer is lower than the mixing ratio of the normal fiber in the first fiber layer. Item 1. A sheet material according to Item 1.   2. The fiber layers are partially joined at a number of joints and integrated in the thickness direction, and the first fiber layer protrudes between the joints to form a number of protrusions. The sheet material according to any one of? Both the first fiber layer and the second fiber layer are composed of hydrophobic fibers, and the hydrophilized oil is applied only to the constituent fibers of the second fiber layer, or any of the constituent fibers of both fiber layers. Claims wherein a hydrophilized oil agent is imparted and the hydrophilized oil agent imparted to the constituent fibers of the second fiber layer has a higher degree of hydrophilization than the hydrophilized oil agent imparted to the constituent fibers of the first fiber layer. The sheet material according to 1 . In an absorbent article comprising a liquid-permeable surface layer, a liquid-impermeable leak-proof layer, and a liquid-retaining absorbent layer interposed between both layers,
As the surface layer or absorption layer, a first fiber layer containing a three-dimensionally crimped fiber and a second fiber layer containing a same-type or different kind of three-dimensionally crimped fiber are laminated.
Both the first fiber layer and the second fiber layer include the staple fibers of latent crimpable fibers in which crimps are expressed as the three-dimensional crimped fibers,
The degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer is higher than the degree of crimp of the three-dimensional crimped fiber contained in the first fiber layer, and the apparent density of the second fiber layer is the first. It is higher than the apparent density of the fiber layer ,
Using a sheet material in which the hydrophilicity of the second fiber layer is higher than the hydrophilicity of the first fiber layer ,
The said sheet | seat material is an absorbent article arrange | positioned so that the said 2nd fiber layer may face the said leak-proof layer side. In an absorbent article comprising a liquid-permeable surface layer, a liquid-impermeable leak-proof layer, and a liquid-retaining absorbent layer interposed between both layers,
As the surface layer or absorber layer, a first fibrous layer comprising a three-dimensional crimped fibers and a second fiber layer stacked comprising fibers three-dimensionally crimped in the fiber and different species,
Both the first fiber layer and the second fiber layer include the staple fibers of latent crimpable fibers in which crimps are expressed as the three-dimensional crimped fibers,
In a state before the latent crimpable fiber contained in each layer are crimped, if allowed to crimp the latent crimpable textiles under the same conditions, the potential contained in the first fibrous layer The latent crimpable fiber contained in the second fiber layer is more likely to crimp than the crimpable fiber,
The degree of crimp of the three-dimensional crimped fiber contained in the second fiber layer is higher than the degree of crimp of the three-dimensional crimped fiber contained in the first fiber layer, and the apparent density of the second fiber layer is the first. Using a sheet material that is higher than the apparent density of the fiber layer,
The said sheet | seat material is an absorbent article arrange | positioned so that the said 2nd fiber layer may face the said leak-proof layer side.

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