JP2011116702A - Sheet for use in skin care - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide such a sheet for use in skin cares as has a high turn-over promotion effect and as has a capability of improving the feeling of skin smoothness. <P>SOLUTION: This sheet for use in skin cares is formed in such a way that a cleanly wiping fluid containing a turn-over promotion component is impregnated in a base material sheet 1. The base material sheet 1 has the first part 1a having a large number of convex parts and has the second part 1b of smoothness without a convex part, the first part 1a and the second part 1b extending by turns and in stripes. The base material sheet 1 for use in skin cares has a bulk softness, which is measured in the flow direction of the base material sheet 1, of 0.6-25 N. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a skin care sheet that is particularly preferably used for promoting turnover of human skin.

  There are various known wet sheet type cosmetics containing powder used for wiping the body. These products are blended with powders and oils to give the skin a smooth and moist feel. For example, the present applicant has previously proposed a sheet-like cosmetic comprising one or more powders made of a synthetic polymer substance or a natural mineral and an aqueous medium carried on a sheet-like substrate (Patent Document). 1). This sheet-form cosmetic has the advantage that the dynamic frictional resistance of the skin can be reduced to 95% or less before the transition by sliding the powder on the skin and transferring the powder onto the skin.

  Apart from this sheet-like cosmetic, the present applicant has a multilayer structure in which at least one sheet contains hydrophilic fibers and is laminated with two or more different or similar sheets, and the peel strength between layers is There has also been proposed a wet sheet obtained by impregnating a wet sheet base material having a thickness of 50 cN / 75 mm or more and a thickness of 0.3 to 5 mm (see Patent Document 2). This wet sheet has the advantage of being bulky and having a sufficient thickness, having good wiping comfort, not depending on use, being flexible and excellent in texture, and having sufficient liquid retention.

JP 2000-1424 A JP 2000-290899 A

  According to the sheet-form cosmetic described in Patent Document 1, it can give a smooth feeling to the skin, but since the effect of scraping the skin is low, the skin itself feels smooth by removing the skin. There is a limit to raising it. In addition, since the base sheet constituting the sheet cosmetic is a single-layered sheet made of cellulosic fibers such as cotton and rayon, the sheet has low rigidity, and when it is impregnated with liquid, the so-called “koshi” disappears. It may be difficult to clean the skin. On the other hand, the wet sheet described in Patent Document 2 has a multilayer structure, is as thick as 0.3 to 5 mm, and has high peel strength between layers, so that it does not depend on use and is easy to wipe. There is. However, even if this wet sheet is used, there is a limit in enhancing the smoothness of the skin itself by removing the keratin.

  The subject of this invention is providing the sheet | seat for skin care in which various performances further improved rather than the sheet | seat of the prior art mentioned above.

The present invention is a skin care sheet in which a base sheet is impregnated with a wiping liquid containing a turnover promoting component,
The base sheet has a first portion having a large number of convex portions and a flat second portion having no convex portions, and the first portion and the second portion are alternately arranged. And it extends like a streak,
The present invention provides a skin care sheet having a bulk softness of 0.6 to 2.5 N measured in the flow direction of the base sheet.

  ADVANTAGE OF THE INVENTION According to this invention, the turnover promotion effect is high and the sheet | seat for skin care which can raise the smooth feeling of skin is provided.

FIG. 1 is a schematic diagram illustrating a base sheet used in the skin care sheet of the present invention in a plan view. FIG. 2 is a schematic diagram showing a concavo-convex structure in the thickness direction at the first portion of the base sheet shown in FIG. FIG. 3 is a schematic diagram showing a laminated structure in the thickness direction of the base sheet shown in FIG. FIG. 4 is a view showing an example of an apparatus suitably used for producing a base sheet used in the skin care sheet of the present invention. FIG. 5 is an enlarged schematic view showing a main part of the manufacturing apparatus shown in FIG. 6A and 6B are schematic views showing a folded state of an embodiment of the skin care sheet of the present invention.

  The present invention will be described below based on preferred embodiments with reference to the drawings. In the skin care sheet, a base sheet is impregnated with a wiping liquid. FIG. 1 shows an embodiment of a base sheet 1. The base sheet 1 is roughly divided into a first part 1a and a second part 1b when viewed in plan. The first part 1a and the second part 1b have a predetermined width and extend alternately and in the same direction in a streak shape.

  The first portion 1a has a certain width in the extending direction. The second portion 1b is the same, and has a certain width in the extending direction. The width of the first part 1a and the width of the second part 1b may be the same or different. Moreover, the width | variety of the 1st site | part 1a currently formed in multiple numbers may be the same, or may differ. The same applies to the second part 1b.

  The 1st site | part 1a and the 2nd site | part 1b are extended in the same direction as the flow direction (MD) at the time of manufacture of the base material sheet 1. FIG. However, the extending direction of the first part 1a and the second part 1b is not limited to this, and may be the width direction (CD) when the base sheet 1 is manufactured, or may be the direction between the MD and the CD.

  The 1st site | part 1a has many convex parts. On the other hand, the 2nd site | part 1b is a flat site | part which does not have a convex part. The 1st site | part 1a is a site | part mainly used in order to scrape off the skin's keratin by the convex part currently formed there. Since the second portion 1b is a flat surface, the second portion 1b can be brought into contact with the skin by its surface, and is therefore mainly used to supply the wiping liquid impregnated in the base sheet 1 to the skin. It is a part to be done. From this point of view, it is preferable to set the width of the first part 1a to 13 to 40 mm, particularly 15 to 25 mm. On the other hand, it is preferable to set the width of the second portion 1b to 0.5 to 20 mm, particularly 1 to 10 mm. Moreover, it is preferable to set the ratio of the width | variety of the 2nd site | part 1b with respect to the width | variety of the 1st site | part 1a to 5-95, especially 10-80.

  The first part 1a preferably has an average deviation SMD of the surface roughness in the flow direction during the production of the base sheet 1 of 5.6 to 10 μm. More preferably, it is 8-9 micrometers. On the other hand, the second part 1b preferably has an average deviation SMD of the surface roughness in the flow direction during the production of the base sheet 1 of 1.8 to 3 μm, in order to effectively contact the skin. More preferably, it is 2 to 2.8 μm. Regarding the width direction (CD), the average deviation SMD of the surface roughness of each of the first part 1a and the second part 1b is preferably 4.5 to 13 μm in order to effectively scrape the keratin. Is more preferably 4.7 to 9 μm. These values may be satisfied on at least one side of the skin care sheet, and are preferably satisfied on both sides.

The average deviation SMD of the surface roughness at the MD of the first part 1a and the MD of the second part 1b and the average deviation SMD of the surface roughness at the CD of the first part 1a and the second part 1b are as follows: It is measured by the method.
[Measuring method of average deviation SMD of surface roughness]
Cut out the skin care sheet to a size of 200 mm × 200 mm. Set the skin care sheet on Kato Tech Co., Ltd. KES automated surface testing machine FB4-AUTO-A, slide the surface 2cm under the conditions of static friction load 50g, roughness static load 10g, tension 400g, average surface roughness The deviation SMD is measured.

  FIG. 2 schematically shows the structure in the thickness direction of the first portion 1 a in the base sheet 1. The base sheet 1 has a first surface 101 and a second surface 102 located on the opposite side. A large number of convex portions 103 are formed on the first surface 101 of the first part 1a. The convex portion 103 is formed by the base sheet 1 projecting from the second surface 102 toward the first surface 101. The inside of the convex part 103 is hollow. By forming the convex portion 103, the first surface 101 has a concave-convex structure. The arrangement of the protrusions 103 may be, for example, regular or irregular in a state in which the first part 1a is viewed in plan. When the convex portions 103 are regularly arranged, the convex portions 103 can be arranged at, for example, a staggered lattice-like position or a lattice-like position, but this is not restrictive.

  On the other hand, as for the 2nd surface 102 of the 1st site | part 1a, the site | part in which the convex part 103 is formed protrudes toward the 1st surface 101. FIG. Moreover, the site | part of the adjacent convex part 103 is the flat surface 102a. As a result, the second surface 102 of the first part 1a is flat as a whole.

  In the 2nd site | part 1b of the base material sheet 1, both the 1st surface and the 2nd surface are flat, and the thickness of this 2nd site | part 1b is substantially constant. On the condition that it is macroscopically flat, the second portion 1b of the base sheet 1 is preferably microscopically in a fine streak shape. This has an advantageous effect that the keratin left in the first part 1a can be scraped off. Such fine streaks can be formed, for example, by manufacturing a base sheet by a spunlace method. The second surface of the second part 1b is a continuous surface with the flat surface 102a of the second surface 102 of the first part 1a described above with reference to FIG.

  Since the first surface 101 and the second surface 102 have such a structure, the base sheet 1 has a flat structure in which the first surface 101 has a streaky portion having an uneven structure. On the other hand, all of the second surface 102 is formed of a portion having a flat structure.

Since the convex part 103 is formed in the 1st site | part 1a, the thickness of the 1st site | part 1a is larger than the 2nd site | part. The thickness of the first part 1a is preferably 0.54 to 1.18 mm, particularly preferably 0.70 to 1.02 mm under a load of 20 gf / cm ² from the viewpoint of enhancing the scraping effect by the convex portion 103. . On the other hand, the thickness of the second part 1b is 0.47 to 0.70 mm, particularly 0.48 to 0.65 mm under a load of 20 gf / cm ² , with the upper limit being smaller than the first part 1a. It is preferable. These thicknesses are substantially the same both in the state of the base sheet 1 and in the state of the skin care sheet impregnated with the wiping liquid. The thickness of the 1st site | part 1a and the 2nd site | part 1b is measured with the following method.

[Measurement method of thickness]
Cut out the skin care sheet to a size of 100 mm × 100 mm and obtain 20 gf / cm ^2.
Measure thickness under load.

  In the base material sheet 1, it is preferable that no opening is formed in any of the first part 1a where the convex portion 103 is formed and the second part 1b which is a flat part. When the openings are formed, the wiping liquid tends to move downward through the openings while a plurality of skin care sheets are stacked and stored. The impregnation amount of the wiping liquid in the skin care sheet tends to be different. If the wiping liquid contains particles, the particles are likely to move.

  The base sheet 1 has a multilayer structure having an inner layer made of hydrophilic fibers and an outer layer laminated on each surface of the inner layer and containing hydrophilic fibers and heat-fusible synthetic fibers. FIG. 3 shows this multilayer structure. In addition, in the same figure, the convex part 103 mentioned above is not shown for convenience. In the figure, reference numeral 2 indicates an outer layer, and reference numeral 3 indicates an inner layer.

  The inner layer 3 made of hydrophilic fibers is mainly used for holding a wiping liquid. As the inner layer 3, for example, a wet nonwoven fabric or a dry nonwoven fabric can be used. In particular, it is preferable to use a wet nonwoven fabric obtained by a wet papermaking method from the viewpoint of increasing the rigidity of the base sheet 1 and the amount of wiping liquid retained. As the hydrophilic fiber contained in the inner layer 3, it is preferable to use, for example, cellulose fibers including pulp fibers. Examples of hydrophilic fibers other than cellulose fibers include acrylic, polyamide, acetate, and PVA fibers.

  Examples of the pulp fiber include mechanical pulp, semi-chemical pulp, and chemical pulp. Examples of the chemical pulp include NBKP (coniferous bleached kraft pulp), LBKP (hardwood bleached kraft pulp), and the like. These pulp fibers may be used individually by 1 type, and may use 2 or more types together. The average fiber width of the pulp fibers is preferably 5 to 50 μm, and more preferably 13 to 35 μm, from the viewpoint of obtaining a good feel to the skin. The average fiber length of the pulp fibers is not particularly limited, but is preferably 0.5 to 6.0 mm from the viewpoint of productivity. Examples of cellulose fibers other than pulp fibers include rayon.

  The inner layer 3 may be composed of 100% by mass of hydrophilic fibers such as pulp, or may contain other components in addition to the hydrophilic fibers. Examples of other components include hydrophobic fibers and binders. When the inner layer 3 includes hydrophobic fibers and / or a binder, the content of the hydrophilic fibers is 50% by mass or more from the viewpoint of suppressing the movement of the wiping liquid and maintaining a large amount of the wiping liquid. preferable.

The basis weight of the inner layer 3, from the viewpoint of flexibility after laminated with the outer layer 2 is preferably 5 to 70 g / m ^2, more preferably a 10 to 60 g / m ^2. The basis weight is obtained by cutting the inner layer 3 in a state before being laminated with the outer layer 2 into a size of 100 mm × 100 mm, measuring its weight, and converting it to a weight of 1 m ² (hereinafter referred to as basis weight). Is the value measured by this method.) From the same viewpoint, the thickness of the inner layer 3 (the thickness of the inner layer 3 before impregnating the wiping liquid) is preferably 0.05 to 0.40 mm, more preferably 0.10 to 0.30 mm. The thickness was measured by cutting the inner layer 3 before being laminated with the outer layer 2 into a size of 100 mm × 100 mm under a load of 20 gf / cm ² (hereinafter referred to as thickness when measured by this method). Value.) In addition, the inner layer 3 is good also as 2 plies or more as needed.

  Next, the outer layer 2 disposed on both surfaces of the inner layer 3 will be described. The outer layer 2 is a portion that comes into contact with the skin when the skin care sheet of the present invention is used, and is mainly used for removing skin dead skin or wiping off sweat. The outer layer 2 is generally composed of a fiber material such as a nonwoven fabric or a web. It is preferable that the outer layer 2 includes a hydrophilic fiber and a heat-fusible synthetic fiber. The hydrophilic fiber is composed of a material that is inherently hydrophilic and a material that is inherently non-hydrophilic, and includes both fibers imparted with hydrophilicity during or after the production of the fiber. The hydrophilic fibers contained in the outer layer 2 are preferably of a different type from the hydrophilic fibers contained in the inner layer 3.

  Various kinds of cellulose fibers can be used as the fiber that is originally composed of a hydrophilic material. Examples of the cellulose fiber include cotton fiber, pulp fiber, rayon, cupra, lyocell (registered trademark), and tencel (registered trademark). These cellulose fibers may be used individually by 1 type, and may use 2 or more types together. Of these cellulose fibers, cotton fibers, rayon, lyocell, and tencel are preferable, and lyocell and tencel are particularly preferable. Lyocell or Tencel is a kind of cellulose fiber, and is a purified cellulose fiber by solvent spinning. Lyocell and Tencel have the advantage that the crystallinity is high and the fiber cross-section is circular due to the production method, so that the touch is good and the scraping property is good, and the feeling of use of the skin care sheet is improved.

  Although it is composed of a material that does not inherently have hydrophilicity, the fiber imparted with hydrophilicity during or after fiber production is obtained by kneading and spinning a hydrophilic agent in a hydrophobic fiber-forming synthetic resin. And fibers obtained by spinning a hydrophobic fiber-forming synthetic resin and fibers obtained by applying a hydrophilizing agent to the fibers.

  The hydrophilic fiber contained in the outer layer 2 has a thickness of preferably 0.11 to 11 dtex, more preferably 0.22 to 5.5 dtex, from the viewpoint of obtaining a good feel to the skin. When a cotton fiber (absorbent cotton fiber) is used as the hydrophilic fiber, the cross-sectional shape is not a perfect circle. Therefore, when the aspect ratio of the cross section is calculated as 3, it is preferable to fall within the fiber diameter range. Here, “the length and width of the cross section is 3” means that the ratio of the vertical length and the horizontal length of the cross section is 1: 3 when the longer side is set to be horizontal.

  The heat-sealable synthetic fiber contained in the outer layer 2 increases the rigidity of the outer layer 2 and, consequently, the rigidity of the base sheet 1, thereby enhancing the ability of the skin care sheet to scrape off the skin's keratin, and the skin care sheet. It is used for the purpose of increasing the rigidity. For this purpose, it is preferable to use a composite fiber as the heat-fusible synthetic fiber. Thermally fusible synthetic fibers are generally hydrophobic. The above-mentioned composite fiber is a fiber obtained by combining two or more kinds of resins having different melting points with a spinneret and simultaneously spinning, and has a structure in which a plurality of components are continuous in the length direction of the fiber. It is the one that is adhered to each other within the fiber. Although there exist parallel type | mold (side-by-side type), a core-sheath type, etc. in the form of a composite fiber, in this invention, the form of a composite fiber is not restrict | limited in particular. Examples of the composite fiber include a core-sheath type composite fiber having a core made of polypropylene (PP) and a sheath made of polyethylene (PE); a core-sheath type composite fiber having a core made of polyethylene terephthalate (PET) and a sheath made of PE; And a core-sheath type composite fiber having a sheath made of low melting point PET (PET having a melting point lower than that of the core PET); a core-sheath type composite fiber having PET as a core and PP as a sheath.

  The thickness of the heat-fusible synthetic fiber contained in the outer layer 2 is preferably 0.11 to 11 dtex, more preferably 0.22 from the viewpoint of obtaining a good feel against the skin while enhancing the scraping property of the keratin. 5.5 dtex. The fiber length of the heat-fusible synthetic fiber depends on the manufacturing method of the outer layer 2, but when using staple fibers, it is preferably 20 mm to 70 mm, and more preferably 30 mm, from the viewpoint of touch and productivity during use. ~ 60 mm.

  The mass ratio of the content of the hydrophilic fiber and the heat-fusible synthetic fiber contained in the outer layer 2 is hydrophilic fiber: heat-fusible synthetic from the viewpoint of the balance between the scraping property of the keratin, the touch and the impregnation property. Fiber = 50: 50 to 90:10 is preferable, and 60:40 to 80:20 is more preferable.

The basis weight of the outer layer 2 is preferably from 5 to 50 g / m ² , more preferably from 10 to 40 g / m, from the viewpoints of keratin scraping property, rigidity of the skin care sheet and flexibility after being laminated with the inner layer 3. ² . From the same viewpoint, the thickness of the outer layer 2 is preferably 0.07 to 0.65 mm, more preferably 0.10 to 0.40 mm. The basis weight of each outer layer 2 may be the same or different. The same applies to the thickness.

  The content weight ratio of the inner layer 3 and the outer layer 2 constituting the base sheet 1 is determined from the viewpoint of the rigidity of the skin care sheet, the scraping property of the keratin, the impregnation property of the wiping solution, the touch, and the like. The total amount of the outer layers 2 and 2 disposed on both surfaces of the inner layer 3) = 5: 95 to 50:50 is preferable, and the inner layer 3: outer layer 2 = 15: 85 to 45; 55 is more preferable. The inner layer 3 and the outer layer 2 are laminated and integrated. Examples of the means for integration include adhesion with an adhesive, thermal fusion, ultrasonic bonding, fiber entanglement, and combinations of two or more thereof. The integration may be performed over the entire contact surface of the inner layer 3 and the outer layer 2, or may be performed in a part of the contact surfaces of both layers. From the viewpoint of increasing the rigidity of the skin care sheet, it is preferable that the entire contact surface of the inner layer 3 and the outer layer 2 is integrated. Of the means for integration described above, it is preferable to use fiber entanglement from the viewpoint of improving the feel of the obtained skin care sheet.

  When the inner layer 3 and the outer layer 2 are integrated by fiber entanglement, a hydroentanglement method or a needle punch method can be used as a means for fiber entanglement. From the viewpoint of improving the feel of the obtained skin care sheet, it is preferable to use the hydroentanglement method.

  When the inner layer 3 and the outer layer 2 are integrated by the hydroentanglement method, the base sheet 1 does not contain an adhesive such as a binder for bonding the layers, or the content of the adhesive in the base sheet 1 It is preferable that the sheet form be maintained mainly by fiber entanglement by 5 mass% or less, particularly 3 mass% or less. By doing in this way, the skin care sheet is highly flexible, has a soft feeling, and gives comfort to the user.

The basis weight of the base sheet 1 composed of the inner layer 3 and the outer layer 2 (basis weight before impregnating with the wiping solution) is the rigidity of the skin care sheet, the scraping property of the keratin, the impregnation property of the wiping solution and the touch. From the viewpoint of the above, it is preferably 20 to 130 g / m ² , more preferably 40 to 100 g / m ² . From the same viewpoint, the thickness of the base sheet 1 (thickness before impregnation with the wiping solution) is preferably 0.54 to 1.18 mm, more preferably 0.70 to 1.02 mm.

  The base sheet 1 is impregnated with a wiping solution to form a skin care sheet. This skin care sheet is characterized by its increased rigidity. Specifically, the bulk softness of the sheet for skin care, measured in the flow direction (MD) or the width direction (CD) when the base sheet 1 is produced, is preferably 0.6 to 2.5 N, more preferably Is 0.7-2.2N. When the skin care sheet has such rigidity, the skin can be effectively scraped off when the human skin is wiped using the skin care sheet. Moreover, sufficient “stiffness” is imparted to the sheet, and the wiping operation can be performed smoothly. Furthermore, for example, when a skin care sheet is put in a pillow package of an aluminum laminate film, sufficient “stiffness” is imparted, so that the removal from the package is good. When the bulk softness is less than 0.6 N, not only the keratin can be effectively scraped off, but also the “stiffness” of the skin care sheet is too small to perform the wiping operation. On the other hand, when the bulk softness exceeds 2.5N, not only the touch of the skin care sheet is lowered but also the “stiffness” is too large to perform the wiping operation.

  The bulk softness value only needs to be satisfied by either MD or CD of the skin care sheet, and is particularly preferably satisfied by both MD and CD.

  In order to set the bulk softness of MD and the bulk softness of CD within the above-described ranges, for example, the basis weight and thickness of the outer layer, the amount and thickness of the heat-fusible synthetic fiber contained in the outer layer 2, and the inner layer What is necessary is just to set the basic weight ratio etc. of 3 and the outer layer 2 appropriately.

  MD bulk softness is measured by the following method. A compression tester (Tensilon RTA-100: Orientec) was used for the measurement. The skin care sheet is cut into a rectangle with a dimension of 100 mm along the CD of the base sheet 1 and 30 mm along the MD to produce a measurement piece. The measurement piece is rounded so that the long side thereof is in the circumferential direction to form a cylinder having a height of 30 mm and a circumference of 90 mm. A cylinder is installed in the compression tester, and the cylinder is compressed in a compression mode of 10 mm / min. Measure the compression load and use the maximum value as the bulk softness value. The bulk softness of the CD is the same procedure as described above using a measurement piece prepared by cutting a skin care sheet into a rectangle with a dimension of 100 mm along the MD of the base sheet 1 and 30 mm along the CD. Measured.

  The amount of the wiping liquid contained in the skin care sheet is preferably 100 to 1200%, more preferably 200 to 1000% with respect to the mass of the base sheet 1. By setting the amount of the wiping liquid within this range, the feeling of use of the skin care sheet is enhanced, and the feel during wiping is improved.

  The wiping solution contains a turnover promoting component. The wiping liquid is composed of an aqueous liquid using water as a medium. As a turnover acceleration | stimulation component contained in the wiping liquid, the thing similar to what was used so far in the said technical field can be used.

  An example of a turnover promoting component is α-hydroxy acid. Examples of the α-hydroxy acid include glycolic acid, citric acid, lactic acid, malic acid, tartaric acid, 2-hydroxybutyric acid, 3-hydroxybutyric acid, and tartronic acid.

  As the turnover promoting component, a plant extract can also be used. Plant extracts include eye extract, akebia extract, ashitaba extract, asunaro extract, acerola extract, artea extract, aloe extract, ginkgo biloba extract, agar extract, hypericum extract, olive leaf extract Liquid, orange extract, seaweed extract, seaweed extract, licorice extract, chamomile extract, quince seed extract, grapefruit extract, chlorella extract, cinnamon extract, moon peach extract, gill extract, birch extract Extract, star fruit leaf extract, sage extract, assembly extract, Sakuhakuhi extract, tea extract, clove extract, carrot extract, Hamelis extract, rose extract, Himalayan raspberry extract, butcher bloom extract , Prune extract, peppermint extract, button pi extract, maronier extract, mematsuyoi Sauce extract, peach extract, cornflower extract, eucalyptus extract, yukinoshita extract, yuzu extract, yokuinin extract, orchid extract, lemon extract, astragalus extract, rosehip extract, rosemary extract And royal jelly extract. These extracts are generally used in the form of an aqueous solution having a pure content of 0.1 to 1% by mass.

  In particular, it is preferable to use a combination of an α-hydroxy acid and a moon peach leaf extract as a turnover promoting component, and it is particularly preferable to use a combination of malic acid and a moon peach leaf extract.

  The turnover promoting component is preferably contained in the wiping solution in an amount of 0.01 to 10% by mass from the viewpoint of effective turnover promotion. The α-hydroxy acid is more preferably 5% by mass or less from the viewpoint of skin irritation. Moreover, when using the combination of (alpha) -hydroxy acid and a moon peach leaf extract as a turnover acceleration | stimulation component, both ratio (mass ratio) is (alpha) -hydroxy acid / month peach leaf extract = 0.1-60, especially It is preferable to set it as 1-45.

  Granules may be contained in the wiping liquid. The granules are attached to the skin by a skin wiping operation using a skin care sheet, and give a smooth feeling to the skin. Examples of the granular material include powder made of synthetic polymer and powder made of natural mineral.

  As the synthetic polymer, for example, polymer fine particles (hereinafter referred to as polymer beads S) obtained by performing dispersion polymerization of a vinyl monomer in a solvent using a polysiloxane compound having a radical weight group at one end as a dispersant, Methylsiloxane network polymer, silicone rubber powder, cross-linked silicone / network type silicone block copolymer, organic silicone group-containing polymer, synthetic silica beads, hydrophobic silica powder, nylon resin, polystyrene resin, polyethylene resin, cross-linked (meta ) Acrylic ester resins, polyurethane resins, benzoguanamine resins, melamine resins, phenol resins, fluorine resins, and the like. Above all, the granules used for the skin care sheet are made of synthetic silica beads, cross-linked silicone / network silicone block copolymer, polymer beads S, methylsiloxane network polymer and polystyrene resin from the viewpoint of touch (smooth feeling). And powders made of a crosslinked (meth) acrylic acid ester resin are preferred.

  Examples of natural mineral particles include talc, sericite, mica, kaolin, bengara, clay, bentonite, silicic acid, anhydrous silicic acid, magnesium silicate, mica, magnesium oxide, zinc oxide, titanium oxide, and aluminum oxide. , Aluminum sulfate, alum, calcium sulfate, barium sulfate, magnesium sulfate and the like.

  Examples of the shape of the granule include a spherical shape and a plate shape. When the granules are plate-like, the average plate diameter is preferably 0.5 to 50 μm, and more preferably 1 to 30 μm. When the granules are spherical, the average particle size is preferably 0.1 to 40 μm, more preferably 0.5 to 15 μm from the viewpoint of touch.

  From the touch to the skin and the remaining white on the skin, the granules are preferably contained in the wiping liquid in an amount of 0.1 to 20% by mass, and contained in an amount of 0.5 to 10% by mass. More preferably.

  In the wiping liquid, water-soluble solvent, polymer dispersant, oil agent, viscosity modifier, pH adjuster, activator, preservative, colorant, antioxidant, chelating agent, anti-inflammatory agent, bactericidal agent, You may mix | blend a ultraviolet absorber, a moisturizer, a whitening agent, an antiperspirant, a refreshing agent, a flavoring agent, etc.

  Next, the suitable manufacturing method of the sheet | seat for skin care is demonstrated. The manufacturing method of the skin care sheet is roughly divided into a manufacturing process of the base sheet 1 and a wiping liquid applying process to the base sheet 1. Hereinafter, each process will be described.

  In the manufacturing process of the base sheet 1, the upper fiber fiber 2 a and the lower fiber web 2 b are superimposed on both surfaces of the inner layer 3, and the constituent fibers of the fiber webs 2 a and 2 b are entangled by hydroentanglement. An entanglement step of forming an aggregate and entanglement of the constituent fibers and the inner layer 3 to form an entangled body 6 in which both are formed; an uneven shape forming step of unevenly processing a part of the entangled body 6; However, it progresses in this order.

  FIG. 4 shows an example of an apparatus 10 that is preferably used for manufacturing the base sheet 1. The manufacturing apparatus 10 is roughly divided into an overlapping part 10A, an entanglement processing part 10B, an uneven shaping part 10C and a drying part 10D.

  In the manufacturing apparatus 10 having such a configuration, first, the fiber webs 2a and 2b are continuously fed out from each of the card machines 11A and 11B in the overlapping section 10A. The fiber webs 2a and 2b are materials that form the outer layer 2 of the target base sheet 1.

  A roll 12 of the inner layer 3 is disposed between the card machines 11A and 11B, and the inner layer 3 is fed out from the roll 12. Then, the fiber webs 2 a and 2 b are respectively overlapped on both surfaces of the inner layer 3 to form an overlapped body 7.

  In the entanglement processing unit 10B, the superposed body 7 has a peripheral surface of the drum 13a in a state where the peripheral surface is held by the peripheral surface of the drum 13a made of a water-permeable material such as a wire mesh or a punching metal. Is entangled by a high-pressure jet water stream ejected from a first water jet nozzle 14a installed opposite to the nozzle. The confounding process is performed from one surface of the superposed body 7. As a result, the constituent fibers of the fiber webs 2a and 2b in the superposed body 7 are entangled to form an entangled fiber assembly, and the constituent fabric and the inner layer 3 are entangled, and the three parties are integrated. The entangled body 6 is obtained. Although depending on the basis weight of the fiber assembly, a satisfactory entangled state can be obtained by jetting a jet water flow with a water pressure of about 1 to 5 MPa.

  Next, the entangled body 6 is transported together with the endless belt 15, and the front and back thereof are reversed, and the entanglement process is again performed by the high-pressure jet water flow ejected from the second water jet nozzle 14b. This entanglement process is performed from the surface opposite to the previously entangled surface. The entanglement process is performed in a state where the entangled body 6 is held on the peripheral surface of the drum 13b having the same structure as the drum 13a described above. The water pressure of the jet water flow can be set to the same conditions as the entanglement process performed previously. By performing the entanglement process on the front and back, the base sheet 1 having the same degree of entanglement on the front and back can be obtained.

  The entangled body 6 subjected to the second entanglement process is conveyed by an endless belt 16 made of a water-permeable material. The drums 13a and 13b can be efficiently entangled by performing suction, but a separate suction device may be installed behind each. The entangled body 6 at this point is in a flat state. Next, the entangled body 6 is introduced into the concavo-convex shaped portion 10C with the front and back reversed again. The concavo-convex shaped portion 10 </ b> C includes an endless belt 18 made of a water-permeable material that conveys the entangled body 6. A nozzle head 19 is installed on the endless belt 18. A suction box 20 is installed at a position facing the nozzle head 19 with the endless belt 18 in between.

  FIG. 5 shows an enlarged main part of the concavo-convex shaping portion 10C. In the concavo-convex shaping portion 10C, a nozzle head 19 in which a large number of injection nozzles 21 are arranged in a direction orthogonal to the conveyance direction of the entangled body 6 (indicated by an arrow in FIG. 5) is arranged. The spray nozzles 21 provided in the nozzle head 19 are equally spaced.

  The endless belt 18 provided in the concavo-convex shaped portion 10C is composed of a mesh belt having water permeability. As the mesh belt, a general single weave plain weave, twill weave, satin weave, double weave, spiral, cedar twill and the like are used. Examples of the material constituting the mesh belt include a plastic wire and a metal wire.

  In the concavo-convex shaped portion 10 </ b> C, the entangled body 6 is placed on the endless belt 18 and conveyed in the direction indicated by the arrow in FIG. 5, from the injection nozzle 21 of the nozzle head 19 to the entangled body 6. A high-pressure jet water stream is jetted in a straight line. The entangled body 6 is pressurized in a streak shape by the injection of the high-pressure jet water flow. At this time, a portion of the entangled body 6 located on the wire of the endless belt 18, particularly a crossing point (texture point) of the wire, is particularly pressurized, and the fibers in the portion are separated and defined by the wire. Move toward the empty space. As a result of the fiber separation, the portion of the entangled body 6 to which the high-pressure jet water stream is sprayed is unevenly shaped so as to have a complementary shape to the mesh structure of the endless belt 18. On the other hand, portions of the entangled body 6 where the high-pressure jet water stream is not sprayed are maintained flat. The uneven | corrugated shaped site | part respond | corresponds to the 1st site | part 1a in the base material sheet 1 shown in FIG. The flat site | part which is not unevenly shaped corresponds to the 2nd site | part 1b in the base material sheet 1 shown in FIG. Further, the surface of the entangled body 6 on which the high-pressure jet water flow is sprayed corresponds to the second surface 102 of the base sheet 1 shown in FIG. 1, and the surface in contact with the endless belt 18 is the base shown in FIG. This corresponds to the first surface 101 of the material sheet 1.

  The degree of irregularity shaping of the entangled body 6 can be appropriately determined according to the mesh opening of the endless belt 18, the thickness of the wire, the pressure of the jet of the high-pressure jet water flow, and the like. Regarding the pressure of the jet of the high-pressure jet water stream, it is preferably 1 to 8 MPa, particularly 4.5 to 6.5 MPa.

  In this way, the entangled body 6 is alternately formed with irregularly shaped streak portions and streak portions with flat front and back. Since the entangled body 6 in this state has water removed by the suction box 20, it is still in a water-containing state, so this is introduced into the drying unit 10D to further remove the water and make it dry. Thus, the target base material sheet 1 is obtained.

  If the base material sheet 1 is obtained in this way, a wiping liquid is applied to the base material sheet 1. There is no restriction | limiting in particular in the method of provision of a wiping liquid, For example, methods, such as spraying of a wiping liquid, the immersion of the base material sheet 1 in a wiping liquid, various coatings, such as a gravure coater and a die coater, are mentioned. When particles are contained in the wiping liquid, the particles can be present only on one surface of the substrate sheet 1 by employing spraying of the wiping liquid or various coating methods. When the base sheet 1 is immersed in the wiping liquid, particles are present on each surface of the base sheet 1.

  In particular, when particles are included in the wiping liquid, it is preferable that the particles exist only on the first surface 101 of the base sheet 1, that is, the surface on which the convex portions 103 are formed. By doing in this way, when the 1st surface in which the convex part 103 is formed is used for skin wiping, the scraping effect of the keratin by the convex part 103 is promoted by presence of a granular material, and it is more efficient. Can scrape off the skin. In addition, the transferability of the granules to the skin is improved, and the smoothness of the skin is increased. On the other hand, the second surface 102 in which no particles are present, that is, a flat surface, can be used for finishing wiping after scraping of the keratin, sweat wiping, or the like.

  A plurality of the skin care sheets obtained in this way are stacked and packaged to become a product. In the case where the above-mentioned granules are present only on the first surface of the skin care sheet, the movement of the granules does not occur between the skin care sheets adjacent in the vertical direction during storage in the laminated body. In order to achieve this, as shown in FIGS. 6A and 6B, it is preferable to fold and laminate so that the first surface 101 where the grains are present is on the inside. 6 (a) and 6 (b) are folded in a C shape so that both side edges of the skin care sheet are in a butted state. In the folded body, it is preferable from the viewpoint of effectively preventing the movement of the particles that the outer surface is entirely composed of the second surface 102 and the first surface 101 is not exposed. Instead of making the both side edges of the skin care sheet face each other, the side edge parts may be folded in a C shape so that they overlap each other with a width of about 10 mm. By doing so, the folded skin care sheet can be easily taken out and opened easily.

  The skin care sheet of the present invention is suitably used for wiping human skin using the sheet. For example, the skin care sheet of the present invention can be used for wiping the face, arms, legs, joints, armpits, and the like.

  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 base sheet 1 of the above embodiment has a single-layer inner layer and an outer layer, and has a three-layer structure as a whole. Alternatively, the inner layer may have a multilayer structure of two or more layers, or At least one outer layer may have a multilayer structure using two or more fiber webs.

  Hereinafter, the present invention will be described in more detail with reference to examples. However, the scope of the present invention is not limited to such examples. Unless otherwise specified, “%” means “mass%”.

[Example 1]
The base material sheet 1 shown in FIGS. 1-3 was manufactured using the apparatus 10 shown in FIG. A conventional card made of 30% core-sheath composite fiber (1.7 dtex, fiber length 51 mm) and core 70% (1.7 dtex, fiber length 38 mm) made of PP and sheath made of PE. Using the method, a fiber web having a basis weight of 26.5 g / m ² was obtained. As the inner layer 3, a wet papermaking paper having a basis weight of 17 g / m ² made of 100% pulp fiber was used. After the fiber webs were superposed on the upper and lower sides of the wet papermaking paper, they were entangled and integrated with jet water streams ejected from a plurality of nozzles under a water pressure of 1 to 5 MPa to obtain an entangled body 6 having a fiber assembly. The entanglement integration was performed once on both sides of the sheet.

Next, a stream of jet water was sprayed onto the entangled body 6 placed on the endless mesh belt 18 to form a plurality of linear first portions 1a extending in one direction. The width of the first part 1a was 20 mm. On the other hand, the width of the second portion 1b was 5 mm. The water pressure of the jet water flow was 5.5 MPa. Thus, the base material sheet 1 (basis weight 70g / m < ² >) shown in FIGS. 1-3 was obtained.

  Next, the wiping liquid was sprayed on the base material sheet 1. The wiping liquid was sprayed toward the 1st surface in the base material sheet 1, ie, the surface in which the convex part 103 is formed. The impregnation amount of the wiping liquid was 450% with respect to the mass of the base sheet 1. The composition of the wiping solution was as follows.

[Composition of wiping solution]
・ DL-malic acid 0.3%
・ Moon peach leaf extract 1%
・ Spherical anhydrous silica 3%
・ Ethanol 25%
・ Polyethylene glycol 1000 1.5%
・ Purified water balance

  The skin care sheet thus obtained was folded in a C shape so that the first surface, that is, the surface on which the convex portion 103 was formed, was inside. In the folded body, the outer surface is composed only of the second surface.

[Example 2]
The base material sheet 1 shown in FIGS. 1-3 was manufactured using the apparatus 10 shown in FIG. A conventional card made of 40% (1.7 dtex, fiber length 51 mm) of core-sheath composite fiber having a core made of PP and sheath made of PE, and 60% Tencel (1.7 dtex, fiber length 38 mm). Using the method, a fiber web having a basis weight of 26.5 g / m ² was obtained. As the inner layer 3, a wet papermaking paper having a basis weight of 17 g / m ² made of 100% pulp fiber was used. After the fiber webs were superposed on the upper and lower sides of the wet papermaking paper, they were entangled and integrated with jet water streams ejected from a plurality of nozzles under a water pressure of 1 to 5 MPa to obtain an entangled body 6 having a fiber assembly. The entanglement integration was performed once on both sides of the sheet.

Next, a stream of jet water was sprayed onto the entangled body 6 placed on the endless mesh belt 18 to form a plurality of linear first portions 1a extending in one direction. The width of the first part 1a was 10 mm. On the other hand, the width of the second portion 1b was 15 mm. The water pressure of the jet water flow was 5.5 MPa. Thus, the base material sheet 1 (basis weight 70g / m < ² >) shown in FIGS. 1-3 was obtained. Thereafter, in the same manner as in Example 1, a skin care sheet was obtained.

[Comparative Example 1]
The base material sheet 1 shown in FIGS. 1-3 was manufactured using the apparatus 10 shown in FIG. 10% (1.7 dtex, fiber length 51 mm), 10% PET fiber (1.6 dtex × 51 mm), 50% Tencel (1.7 dtex, fiber) with a core made of PP and a sheath made of PE A fiber web having a basis weight of 48 g / m ² was obtained using a conventional card method. The entangled body 6 having a fiber assembly was obtained by entanglement and integration with jet water streams ejected from a plurality of nozzles under a water pressure of 1 to 5 MPa. The entanglement integration was performed once on both sides of the sheet.

Next, a stream of jet water was sprayed onto the entangled body 6 placed on the endless mesh belt 18 to form a plurality of linear first portions 1a extending in one direction. The width of the first part 1a was 12 mm. On the other hand, the width of the second portion 1b was 12 mm. The water pressure of the jet water flow was 5.5 MPa. Thus, the base sheet 1 (basis weight 48 g / m ² ) shown in FIGS. 1 to 3 was obtained. Thereafter, in the same manner as in Example 1, a skin care sheet was obtained.

[Comparative Example 2]
Pulp (NBKP) 85% and core-sheath type composite fiber (1.7 dtex × 5 mm) 15% consisting of PET, whose core is made of low melting point PET, are mixed in water, beaten, removed foreign matter, and then wet. Paper making was performed to obtain a single-layer paper (basis weight 28 g / m ² ). Two sheets of this single-layer paper were overlapped, and steel match embossing was applied thereto to obtain a concavo-convex multilayer paper. Two concavo-convex multilayer papers were stacked and heat-sealed in a predetermined pattern to obtain a 4-ply base material sheet (basis weight 112 g / m ² ). Thereafter, in the same manner as in Example 1, a skin care sheet was obtained.

[Evaluation]
For the sheets obtained in the examples and comparative examples, the bulk softness was measured by the method described above. In addition, 10 panelists were wiped, and the following criteria were used to evaluate the plump feeling, the difficulty of kinking, the feeling of unevenness, the prevention of fuzziness, the elongation, and the scraping ability. Furthermore, comprehensive evaluation was also performed. The results are shown in Table 1 below.

[Feeling plump]
A: Very good. More than 8 out of 10 responded that they feel good.
○: Good. Seven out of 10 responded that they feel good.
○ to △: Usually. 6 out of 10 responded that they feel good.
Δ: Bad. 4 to 5 out of 10 responded that they had a good feeling of plumpness.
X: Very bad. Less than 3 people responded that the feeling of plumpness is good.

[Difficulty of swaying]
A: Very good. More than 8 out of 10 responded that there was no problem.
○: Good. 7 out of 10 responded that there was no problem with the twist.
○ to △: Usually. 6 out of 10 responded that there was no problem.
Δ: Bad. 4 to 5 out of 10 responded that there is no problem.
X: Very bad. Less than 3 people answered that there was no problem.

[Roughness]
A: Very good. More than 8 out of 10 responded that the unevenness was good.
○: Good. More than 7 out of 10 responded that the unevenness was good.
○ to △: Usually. More than 6 out of 10 responded that the unevenness was good.
Δ: Bad. 4 to 5 out of 10 responded that the unevenness was good.
X: Very bad. Less than 3 people answered that the unevenness is good.

[Fuzz prevention]
A: Very good. More than 8 out of 10 responded that there was no fuzzing problem.
○: Good. More than 7 out of 10 responded that there was no problem with fuzz.
○ to △: Usually. More than 6 out of 10 responded that there was no fuzzing problem.
Δ: Bad. 4 to 5 out of 10 responded that there was no problem with fuzz.
X: Very bad. Less than 3 people answered that there was no problem with fuzz.

[Elongation]
A: Very good. More than 8 out of 10 responded that there was no problem with growth.
○: Good. More than 7 out of 10 responded that there was no problem with growth.
○ to △: Usually. More than 6 out of 10 responded that there was no problem with growth.
Δ: Bad. 4 to 5 out of 10 responded that there was no problem with growth.
X: Very bad. Less than 3 people answered that there was no problem with growth.

[Scraping property]
A: Very good. More than 8 out of 10 responded that scraping was good.
○: Good. More than 7 out of 10 responded that scraping was good.
○ to △: Usually. More than 6 out of 10 responded that scraping was good.
Δ: Bad. 4 to 5 out of 10 responded that the scraping property was good.
X: Very bad. Less than 3 people answered that scraping is good.

〔Comprehensive evaluation〕
A total score was obtained by multiplying the evaluations of the above items by multiplying x by 1 point, Δ by 2 points, ○ to Δ by 3 points, ○ by 4 points, and ◎ by 5 points, and judged according to the following criteria.
◎: Total score is 24 points or more ○: Total score is 21-23 points ○-△: Total score is 18-20 points △: Total score is 12-17 points ×: Total score is 11 points or less

  As is apparent from the results shown in Table 1, the skin care sheet of each example (product of the present invention) has a feeling of plumpness, less kinking, unevenness, and fluffing as compared with the sheet of the comparative example. It is difficult to occur and it can be seen that the scraping property is high.

DESCRIPTION OF SYMBOLS 1 Base sheet 1a 1st site | part 1b 2nd site | part 101 1st surface 102 2nd surface 103 Convex part

Claims (7)

A skin care sheet in which a base sheet is impregnated with a wiping liquid containing a turnover promoting component,
The base sheet has a first portion having a large number of convex portions and a flat second portion having no convex portions, and the first portion and the second portion are alternately arranged. And it extends like a streak,
A skin care sheet having a bulk softness of 0.6 to 2.5 N, as measured in the flow direction of the base sheet.   The skin care according to claim 1, wherein the base sheet has a multilayer structure having an inner layer made of hydrophilic fibers and an outer layer laminated on each surface of the inner layer and containing hydrophilic fibers and heat-fusible synthetic fibers. Sheet.   The skin care sheet according to claim 1, wherein the hydrophilic fibers contained in the inner layer are pulp, and the hydrophilic fibers contained in the outer layer are purified cellulose fibers.   The skin care sheet according to any one of claims 1 to 3, wherein the turnover promoting component contained in the wiping liquid is an α-hydroxy acid and / or a plant extract.   The skin care sheet according to claim 4, wherein the plant extract is a moon peach extract.   The skin care sheet according to any one of claims 1 to 5, wherein particles are present on the surface of the base sheet.   The skin care sheet according to claim 6, wherein the skin care sheet is folded so that the surface on which the particles are present is on the inside.

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