JP2010116374A - Cosmetic-impregnated skin cover sheet, method of manufacturing the same, and face mask using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cosmetic-impregnated skin cover sheet which has an excellent contact and a soft touch feeling. <P>SOLUTION: The cosmetic-impregnated skin cover sheet is obtained by needle-punching a fiber web containing fibers having latent crimps to entangle fibers, heating the web of entangled fibers for developing the latent three-dimensional crimps to obtain a nonwoven fabric, pressing the nonwoven fabric, and impregnating the nonwoven fabric with a cosmetic. The sheet gives a user a soft touch feeling and a gentle fit feeling, because the fibers are not excessively entangled in spite of the high fiber density. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention is used by impregnating a cosmetic containing a moisturizing component, a cleansing component, an antiperspirant component, an aroma component, a whitening component, a blood circulation promoting component, an ultraviolet ray preventing component, a slimming component, etc. The present invention relates to a cosmetic-impregnated skin-covering sheet and a method for producing the same.

  Cosmetics-impregnated skin coating sheets such as face masks impregnated with cosmetics are already widely used. As a sheet impregnated with cosmetics, a nonwoven fabric mainly composed of cotton (cotton) or rayon is generally used. Cotton or rayon is used for water-absorbing and suitable for impregnating cosmetics, natural fibers or fibers derived from natural materials, and is widely used for products that come into contact with the skin, such as underwear. This is due to the fact that there is a track record and that there is a firm feeling when it is held by hand and has a high-class feeling.

  The present applicant has also proposed a three-layered sheet using cotton, rayon, or the like as a sheet to be used by impregnating a liquid (Patent Documents 1 and 2). Moreover, the sheet | seat which impregnates cosmetics using fibers other than cotton is also proposed (patent document 3).

JP 2007-7062 A JP 2005-177176 A Japanese Patent No. 3804784

Nonwoven fabrics containing cotton or rayon and having cotton or rayon on the surface give a tactile feel when impregnated with cosmetics and applied to the skin. In order to investigate the cause, when the surface and cross section of the nonwoven fabric which consisted only of cotton or rayon and made the fibers entangled by the hydroentanglement treatment were enlarged and observed with a microscope, the following was observed.
-Many fiber ends exist on the surface of the nonwoven fabric.
-The fiber itself is not completely straight, but has a curved portion where the curved portion is acute.
These were thought to be the cause of the tingling tactile sensation.

  Despite the tendency to give such a tactile feel, sheets using cotton or rayon are often used in the market. Moreover, although the sheet | seat described in patent document 3 does not use cotton and rayon actively, many convex parts are provided, and the sheet | seat is closely_contact | adhered and covered like a face mask Not suitable for.

  Furthermore, when the sheet is closely adhered to the skin and the skin is covered with the sheet, it is preferable to consider the softness that the user feels when touching the sheet. The softer the sheet, the more the skin irritation felt by the user can be reduced, and the adhesion to and followability to the skin can actually be increased, or the user can be given a sense of increasing their properties. .

  Furthermore, the sheet extensibility is one of the sheet performances that the user attaches importance to. When the sheet is brought into close contact with the skin, the user touches the skin while pulling the sheet. At that time, if the sheet has low extensibility, that is, if the sheet is difficult to stretch when pulled by hand, the user feels that the sheet is difficult to handle. For this reason, in the field of cosmetic-impregnated skin-covered sheets, there is a tendency to demand a sheet having an easily stretchable property.

  In this way, the user has a softness that gives the skin a gentle sensation, and evenly adheres so as to cover a specific part without omission, and spreads the cosmetic to every corner (or at least that sensation). It is always in demand for a sheet that can be applied in a stretched manner. Therefore, in the field of cosmetic-impregnated skin-covering sheets, there is always a demand for sheets that are soft, have appropriate stretchability, and better adhesion. In fact, a sheet that is softer and has extensibility and adhesion is provided to the user as a higher-grade sheet.

  The present invention has been made in view of these circumstances. An object of the present invention is to provide a cosmetic-impregnated skin-covering sheet that is softer and has excellent adhesion to the skin, and as a result, provides a user with a good comfort.

  As a result of investigations by the present inventors, it has been found that the adhesiveness felt by the skin is further enhanced when the sheet has a property of extending with a relatively small force when it is applied to the skin while pulling the sheet. Furthermore, if the sheet can be stretched with a relatively small force, it becomes easier to follow the sheet to a portion having unevenness or a curved surface, and this also improves the adhesion (or the feeling of increasing adhesion). I also understood that. Therefore, the inventors further examined that the force required to stretch the sheet by about 50% (ie, stress at 50% elongation) is related to the adhesion of the sheet, and this stress falls within a certain range. The non-woven fabric configured as described above has been found to function well as a sheet to be in close contact with the skin impregnated with cosmetics, and the sheet of the present invention has been devised.

In the first aspect, the present invention provides:
A non-woven fabric comprising a three-dimensional crimped fiber having a three-dimensional crimp;
A cosmetic impregnated in the nonwoven fabric,
There is a three-dimensional crimp on the surface of the nonwoven fabric on the side that comes into contact with the skin,
The nonwoven fabric is integrated by entanglement between fibers,
The 50% elongation stress in the transverse direction of the nonwoven fabric is 0.80 to 1.60 N / 3 cm,
Provided is a cosmetic-impregnated skin-coated sheet in which the fiber density (load 19.6 cN) of the nonwoven fabric is 0.08 g / cm ³ or more.

The nonwoven fabric constituting the cosmetic-impregnated skin-coated sheet of the present invention (sometimes referred to as “skin-coated sheet” or “sheet” in the present specification including the following description) exhibits steric crimps on the surface thereof. Since the fibers are present, the end of the fibers is less likely to appear on the surface. Moreover, when the 50% elongation stress in the transverse direction of the nonwoven fabric is 0.80 to 1.60 N / 3 cm, the degree of entanglement between fibers does not become too strong, the degree of freedom of the fibers is ensured, and soft touch Is imparted to the non-woven fabric, has an appropriate stretchability, and has improved adhesion to the skin. Furthermore, when the fiber density (load 19.6 cN) of the nonwoven fabric is 0.08 g / cm ³ or more, a uniform surface that is dense, flat, and has little variation compared to the degree of entanglement between fibers can be obtained. It is obtained and gives a good tactile sensation to the user.

The present invention also provides, in the second aspect,
A non-woven fabric comprising a three-dimensional crimped fiber having a three-dimensional crimp;
A cosmetic impregnated in the nonwoven fabric,
There is a three-dimensional crimp on the surface of the nonwoven fabric on the side that comes into contact with the skin,
The nonwoven fabric is integrated by interlacing fibers by needle punch processing,
The nonwoven fabric is pressed after the fibers are entangled with each other,
A cosmetic-impregnated skin-covering sheet is provided. In the sheet of the present invention, the nonwoven fabric is obtained by once obtaining a relatively bulky nonwoven fabric by needle punching and then compressing it by pressing, so it is soft and exhibits superior extensibility. .

  In any aspect of the invention, the three-dimensional crimped fiber is preferably formed by the occurrence of crimp in the latent crimpable fiber. The latent crimpable fiber is a fiber that expresses three-dimensional crimps, for example, by heating. When latent crimpable fibers are used, three-dimensional crimps can be developed after obtaining a nonwoven fabric in which fibers are entangled with each other. Thus, such fibers are easy to handle in the production of nonwovens.

  The skin covering sheet of the present invention preferably has a shape that covers part or all of the face. That is, the skin coating sheet of the present invention is preferably used as a face mask. This is because a particularly good tactile sensation is required for the skin-coated sheet used on the face.

The present invention also provides a method for producing the skin-coated sheet of the present invention.
1) A fiber web containing latent crimpable fibers is subjected to needle punching to entangle the fibers.
2) Heating the fiber web after fiber entanglement treatment to express three-dimensional crimps to obtain a nonwoven fabric;
3) A manufacturing method is provided that includes pressing the nonwoven fabric, and 4) impregnating the nonwoven fabric with a cosmetic. According to this method, a skin-covering sheet that is soft and has good adhesion can be easily produced.

  The skin-coated sheet of the present invention is such that a fiber having a three-dimensional crimp is arranged on the surface in contact with the skin, and the stress at 50% elongation per 3 cm in the lateral direction is within a predetermined range and is stretched in the lateral direction. It is easy and the fiber density is larger than a predetermined value. Due to these characteristics, the skin-coated sheet of the present invention has a soft tactile sensation, does not give a tingling sensation when it comes into contact with the skin, and gives the user a feeling of good adhesion to the skin. Furthermore, since the fiber having a three-dimensional crimp is generally a synthetic fiber and absorbs less water than cotton, the amount of cosmetic liquid absorbed by the fiber itself is small in the skin covering sheet of the present invention. Therefore, the skin-coated sheet of the present invention easily forms a cosmetic film between the skin and the sheet during use, and this film prevents the fibers from directly contacting the skin to some extent, and makes the fibers feel tingy. Relax more. Therefore, the skin coating sheet of the present invention is particularly suitable for use on sensitive parts, particularly the face and neck muscles.

Embodiments of the present invention will be described below.
The sheet of the present invention is
A non-woven fabric comprising a three-dimensional crimped fiber having a three-dimensional crimp;
A cosmetic impregnated in the nonwoven fabric,
There is a three-dimensional crimp on the surface of the nonwoven fabric on the side that comes into contact with the skin,
The nonwoven fabric is integrated by entanglement between fibers,
The 50% elongation stress in the transverse direction of the nonwoven fabric is 0.80 to 1.60 N / 3 cm,
It is a cosmetic-impregnated skin-covering sheet in which the fiber density (load 19.6 cN) of the nonwoven fabric is 0.08 g / cm ³ or more.

  The term “three-dimensional crimp” refers to the fact that the bent portion (usually a substantially acute angle) of a crimp imparted by a spiral curve or curl and a stuffing box type crimper is deformed and rounded. It is used to distinguish from the crimps (also referred to as “mechanical crimps”) given only by stuffing box type crimpers.

  In the sheet of the present invention, the three-dimensional crimp preferably has a shape that can project a closed curve. Examples of such three-dimensional crimps are shown in FIGS. FIG. 1 is a projection of one three-dimensional crimp extracted from the fiber in which the spiral (coil-shaped) three-dimensional crimp shown in FIG. 4 is formed. The projection shown in the figure is obtained so that the bending portion is maximized, and is the projection in the direction indicated by the arrow X in FIG. The illustrated projection depicts a closed curve.

  FIG. 2 is another stereoscopic crimp projection. The illustrated three-dimensional crimp is not a spiral as shown in FIG. 1, and the end of the curved portion R1 forms another curved portion R2 and R3 (maximum or minimum of the curve) before forming the closed curve. Yes. In this case, assuming that the end of the bending portion R1 does not form another bending portion R2, a virtual extension line is drawn, and the virtual extension lines intersect to form a closed curve. It is considered a curved part that can be drawn. For example, it can be considered that a hairpin-shaped curved portion as shown in FIG. 3 can draw a closed curve. In either case, the virtual extension line extends in the tangential direction of an arbitrary point of the bending portion R1.

  The three-dimensional crimps shown in FIGS. 1 to 3 are rounded (that is, curled) and give a good tactile sensation to the skin. Moreover, when it has such a three-dimensional crimp, the edge part of a fiber will be hard to protrude toward the outer side from the nonwoven fabric surface. On the other hand, in the three-dimensional crimp that does not draw a closed curve, the projection is, for example, as shown in FIG. In the projection of the three-dimensional crimp shown in the figure, a closed curve is not formed even if a virtual extension line is drawn in the tangential direction of any point of the curve. Such three-dimensional crimps are less likely to give a good tactile sensation because the ends of the fibers are more easily exposed than those shown in FIGS.

  It is preferable that the three-dimensional crimp that the projection can draw a closed curve occupies at least a part of the total three-dimensional crimp. Specifically, the three-dimensional crimped fiber having at least one such three-dimensional crimp preferably occupies 10% by mass or more, more preferably 30% by mass or more of the nonwoven fabric. In particular, it is more preferable that the surface of the sheet contains 10% by mass or more of the three-dimensional crimped fiber.

  The steric crimp is preferably formed by the development of a latent crimp of a latent crimpable fiber that expresses the steric crimp, for example, by heating. Latent crimped fibers themselves are already known in the art. In the present invention, one or more kinds of known latent crimpable fibers are selected, and a part or all of the skin-covering sheet is constituted by the selected latent crimpable fibers. The latent crimpable fiber is, for example, a composite fiber composed of two resin components having different melting points and having a cross-sectional structure of a parallel type cross section or an eccentric core-sheath type cross section. Examples of combinations of resin components include polyethylene terephthalate / modified polyester, polypropylene / ethylene-propylene copolymer, polypropylene / linear low density polyethylene (LLDPE), and polyester / polyamide.

  The latent crimpable fiber has a property (crimpability) that expresses a predetermined size and number of three-dimensional crimps according to the constituent resin and the cross-sectional shape. The crimping ability is appropriately selected according to the application site of the skin covering sheet. In the present invention, the latent crimpable fiber to be a three-dimensional crimped fiber has a number of crimps of 25 or more per inch, preferably measured in accordance with JIS 1015 when crimps are expressed in a free state. Preferably has a crimping ability to express 30 or more steric crimps, for example, it expresses 90 to 100 steric crimps when heated at 170 ° C. in a free state. is there. However, if many three-dimensional crimps are excessively small (for example, 150 or more per inch), the nonwoven fabric may be hardened.

  The fineness of the latent crimpable fiber is appropriately selected according to the application site of the skin covering sheet. In general, the smaller the fineness, the better the tactile feel of the sheet, and the more the surface area of the fibers increases, the more cosmetics can be retained. In general, the fineness of the latent crimpable fiber is preferably about 0.5 to 4.4 dtex, more preferably 0.9 to 3.3 dtex, and 0.9 to 2.0 dtex. Is more preferable, and 0.9 to 1.5 dtex is most preferable. In the present invention, two or more kinds of latent crimpable fibers having different finenesses may be used.

  As will be described later, in the case where the sheet of the present invention is produced by a method in which fibers are entangled by a needle punch process, the process is easy even if the fineness is reduced. In addition, the smaller the fineness, the more easily the needle is damaged, but this may make the texture of the sheet more flexible. More specifically, damaged fibers are less likely to develop crimps at the damaged site, which may prevent excessively fine crimps from occurring. Furthermore, when the fineness is small, the distance between the fibers is shortened when the fibers are entangled with each other, and a non-woven fabric having a denser structure is obtained, and the liquid holding power is improved. This prevents or reduces dripping from the sheet.

  The latent crimpable fibers are preferably staple fibers having a fiber length of 10 to 150 mm when the fibers are entangled by needle punching or hydroentanglement as described later. The fiber length of the staple fiber is more preferably 20 to 120 mm, and even more preferably 30 to 100 mm. When the fiber length of the staple fibers is less than 10 mm, the fibers are often dropped and the processability is also inferior. When the fiber length of the staple fiber exceeds 200 mm, the entanglement by the needle punching process or the hydroentanglement process is deteriorated. On the other hand, when the fiber length exceeds 200 mm, the processability tends to deteriorate.

  In the skin-coated sheet of the present invention, the three-dimensional crimped fibers having three-dimensional crimps are preferably contained in an amount of 25% by mass or more, more preferably 35% by mass or more, and even more preferably 50% by mass or more. preferable. Moreover, it is preferable that 50 mass% or more of solid crimp fiber is contained in the sheet | seat surface, and it is more preferable that 80 mass% or more is contained. When the proportion of the three-dimensional crimped fibers is less than 25% by mass, the number of three-dimensional crimps present on the sheet surface is reduced, and good tactile sensation cannot be obtained. When the three-dimensional crimped fiber having a three-dimensional crimp is obtained by the expression of the crimp of the latent crimpable fiber, the preferred ratio listed here is the latent crimpable fiber before the expression of the crimp, Equal to the preferred proportion in the fiber web or sheet (eg nonwoven).

  The skin covering sheet of the present invention may contain fibers other than three-dimensional crimped fibers. For example, hydrophilic fibers may be included in order to increase the liquid absorption and / or liquid retention of the sheet. Hydrophilic fibers include natural fibers such as pulp, cotton, hemp, silk, and wool, regenerated fibers such as viscose rayon, copper ammonia rayon, and solvent-spun cellulose fibers, and synthetic fibers that have been subjected to a hydrophilic treatment. Etc.

  The hydrophilic fiber is preferably viscose rayon, solvent-spun cellulose fiber or cotton from the viewpoint of entanglement. Viscose rayon, solvent-spun cellulose fiber, and cotton are particularly preferably used because they can be used in the form of staple fibers, and therefore the amount of fallen fibers can be reduced during use of the nonwoven fabric.

  Alternatively, the fibers other than the three-dimensional crimped fibers may be synthetic fibers. The synthetic fibers are selected from polyolefin resins such as polypropylene, polyethylene, polybutene-1 and ethylene-propylene copolymers, polyester resins such as polyethylene terephthalate and polybutylene terephthalate, polyamide resins such as nylon 6 and nylon 66. It may be a single fiber or a composite fiber composed of one or a plurality of resins.

  When using a hydrophilic fiber or a synthetic fiber, the fineness thereof is preferably 0.5 to 6.6 dtex, for example, and more preferably the same as the fineness of the three-dimensional crimped fiber. The fiber length is preferably 10 to 150 mm, more preferably 20 to 120 mm, and even more preferably 30 to 100 mm when the fibers are entangled by needle punching or hydroentanglement. .

  The skin-coated sheet of the present invention may be a single-layered sheet composed of only three-dimensional crimped fibers or other fibers, or a layer composed of only three-dimensional crimped fibers or these and other fibers. And a sheet having a laminated structure of layers made of other fibers.

  When the skin-coated sheet of the present invention has a laminated structure, the sheet is a layer composed of only three-dimensional crimped fibers or this and other fibers (hereinafter, this layer is also referred to as “three-dimensional crimped fiber layer”). It is arranged on the surface that touches. The skin covering sheet having a laminated structure may have a two-layer structure including a three-dimensional crimped fiber layer and another fiber layer, or a three-layer structure in which another fiber layer is located between the two three-dimensional crimped fiber layers. It may be. The other fiber layer may be a fiber layer containing hydrophilic fibers or consisting only of hydrophilic fibers.

  The skin-coated sheet of the present invention has a single layer structure and a laminated structure, the fibers are integrated by entanglement, maintain the sheet shape, and the stress at 50% elongation in the transverse direction of the nonwoven fabric is 0.80 to 1.60 N / 3 cm. The entanglement between fibers may be, for example, by needle punching or hydroentanglement, and is preferably the former. Here, the stress at 50% elongation in the transverse direction means that the nonwoven fabric is stretched by 50% in the transverse direction (the direction perpendicular to the longitudinal direction (machine direction when the nonwoven fabric is continuously produced)). It refers to the necessary power. In this specification, 50% of the force (N / 3 cm) required to stretch a nonwoven fabric piece (more specifically, a nonwoven fabric sample having a width of 3 cm subjected to a tensile test) having a dimension perpendicular to the transverse direction of 3 cm. Represents stress at elongation. The 50% elongation stress in the transverse direction of the nonwoven fabric is more preferably 0.90 to 1.50 N / 3 cm. The value of 50% is a value at which the user stretches the sheet when it is applied to the skin while pulling the sheet, or a value close to it. The magnitude of the stress when the sheet is stretched by 50% affects the handleability felt by the user. Therefore, in this specification, this is selected as a physical property which specifies a nonwoven fabric.

  A sheet in which fibers are entangled by the needle punching process does not become too entangled between fibers, has a soft texture, and is easy to stretch with a small force (that is, with low elongation stress). Suitable for sticking to the skin. Moreover, the nonwoven fabric formed by a needle punch process is obtained as a thing with a small difference of the physical property of a vertical direction (machine direction) and a horizontal direction by selecting suitably the fiber web attached | subjected to the said process. Furthermore, according to the needle punching process, when a latent crimpable fiber is used, as described above, the fiber is damaged, and an excessively fine crimp is not generated. It is thought that a soft tactile sensation can also be obtained. Needle punch processing may be combined with hydroentanglement processing as required. Moreover, as long as the stress at 50% elongation is 0.80 to 1.60 N / 3 cm and the fiber density is a predetermined value, only hydroentanglement treatment may be employed.

In the skin coating sheet of the present invention, the fiber density (load 19.6 cN) of the nonwoven fabric is 0.08 g / cm ³ or more. The fiber density of the nonwoven fabric affects the denseness and also affects the retainability (liquid retention) of the cosmetic. Here, “load 19.6 cN” means that the thickness of the nonwoven fabric necessary for obtaining the fiber density is measured in a state where a load of 19.6 cN (20 gf / cm ² ) is applied. When the fiber density of the nonwoven fabric is less than 0.08 g / cm ³ , the sheet is bulky and thick, and is fluffy and difficult to handle. In addition, as the fiber density is smaller, the sheet is more likely to become coarse and dense, and it becomes difficult to make the amount of the cosmetic liquid retained uniform throughout the sheet. The fiber density of the nonwoven fabric is preferably 0.10 g / cm ³ or more. Moreover, it is preferable that the fiber density of a nonwoven fabric is 0.15 g / cm < ³ > or less. When the fiber density of the nonwoven fabric is too large, it may be difficult to hold the cosmetic or the flexibility of the nonwoven fabric may be reduced.

  In the nonwoven fabric constituting the skin covering sheet of the present invention, the breaking strength in the longitudinal direction is preferably less than twice the breaking strength in the transverse direction. That is, it is preferable that the difference between the strength in the vertical direction and the strength in the horizontal direction is smaller. Such a non-woven fabric can be easily punched due to a difference in the direction of a cutter (blade) used when punching the sheet, for example, when it is processed as a directional skin coating sheet (for example, a face mask applied to the face). The problem that the difference occurs can be reduced. Such a nonwoven fabric can be produced by a method of entangling a cross web or a Chris cross web as will be described later.

  Moreover, it is preferable that the 50% extension | restoration recovery rate of the horizontal direction is 65-85%, and, as for the nonwoven fabric which comprises the skin coating sheet of this invention, it is more preferable that it is 70-80%. A nonwoven fabric having a high elongation recovery rate in the lateral direction exhibits stretchability in the direction. Therefore, when such a nonwoven fabric is used, for example, as a face mask, if the nonwoven fabric is processed so that the lateral direction of the nonwoven fabric is perpendicular to the nose, the nonwoven fabric will recover after it is stretched and brought into close contact with the face. As a force on the cheeks and temples. The force gives the user a higher feeling of adhesion and a feeling that the skin of the face is stretched or tightened, resulting in a feeling that a higher cosmetic effect is obtained.

  In order to set the fiber density of the nonwoven fabric to a predetermined value, as will be described later, press working can be used. By adjusting the pressure or the like during the press working, for example, the thickness of a bulky nonwoven fabric having a low fiber density is reduced, and a nonwoven fabric having a high fiber density and a thickness that is easy to handle as a sheet is obtained.

The skin-coated sheet of the present invention as a whole preferably has a basis weight of 30 to 250 g / m ² , more preferably 40 to 120 g / m ² , and even more preferably 50 to 100 g / m ^2. Have a basis weight of If the basis weight is too small, the absolute amount of liquid that can be impregnated will be small, and the feeling when held by hand will not be firm. In addition, if the basis weight is small, the elasticity (especially the cushioning property in the thickness direction) becomes small, so that a good wearing comfort may not be obtained when it is applied to the skin. Further, when the basis weight is small, the sheet manufacturing processability tends to be lowered and / or the texture tends to be lowered. If the basis weight is too large, it becomes too thick, making it difficult to handle, and increasing the cost.

When the skin covering sheet of the present invention has a laminated structure, the overall basis weight is within the above range, and the basis weight of the layer containing the three-dimensional crimped fibers is 10 to 150 g / m ² , and the basis weight of the other fiber layer Is preferably 10 to 150 g / m ² . In the laminated structure, if the basis weight of the layer containing the three-dimensional crimped fibers is small, the elasticity (especially the cushioning property in the thickness direction) of the sheet becomes small, and a good tactile sensation may not be obtained. If the basis weight of the three-dimensional crimp layer is too large, a function (for example, a cosmetic holding function when a hydrophilic fiber layer is provided) by providing another fiber layer may not be sufficiently obtained.

Next, an example of the manufacturing method of the skin coating sheet of this invention is demonstrated. The cosmetic-impregnated skin coating sheet of the present invention is
1) A fiber web containing latent crimpable fibers is subjected to needle punching to entangle the fibers.
2) Heating the fiber web after fiber entanglement treatment to express three-dimensional crimps to obtain a nonwoven fabric;
It can be produced by a production method comprising 3) pressing the nonwoven fabric and 4) impregnating the nonwoven fabric with a cosmetic.

  The form of the fiber web containing latent crimpable fibers is not particularly limited. For example, the fiber web may be in any form selected from a card web such as a parallel web, a cross web, a Chris cross web, a semi-random web and a random web, an air lay web, a wet paper web, and a spunbond web. Also good. In consideration of the balance between the basis weight and the physical properties of the obtained nonwoven fabric in the vertical and horizontal directions, the fiber web is preferably a cross web or a Chris cross web. When it is desired to improve the handleability of the skin-coated sheet, the cross web is prepared so that the longitudinal and lateral fiber orientations are close to 1: 1. Further, in order to improve the fit when the sheet is mounted, it is preferable that the vertical / horizontal orientation ratio exceeds 1 so that the mask is easily stretched in the horizontal direction.

  Next, the fiber web is subjected to a needle punching process. That is, in the production of the skin covering sheet of the present invention, the fibers are entangled by needle punching. As described above, the non-woven fabric obtained by the needle punching process is soft and bulky with cushioning properties without being strongly entangled with each other. Moreover, according to the needle punching process, latent crimpable fibers having relatively small fineness (even if the three-dimensional crimp is expressed by heating) can be entangled satisfactorily. It is easy to obtain a non-woven fabric that has a dense and smooth feel.

The needle punching process can be performed using a normal needle punching machine. For example, the needle punching process is performed by using 36 to 42 needles having 3 to 9 barbs, setting the needle depth to 3 to 20 mm, and driving at a density of 30 to 500 needles / cm ^2. It is good to carry out.

  Next, the fiber web after the entanglement treatment is heat-treated to develop steric crimps in the latent crimpable fibers. The heat treatment is preferably performed by overfeeding (overfeeding) the fiber web (or non-woven fabric) in the machine direction (machine direction) so that crimps are sufficiently developed. That is, it is preferable to set the web conveyance speed of the heat treatment machine smaller than the speed of the web (or non-woven fabric) fed to the heat treatment machine. Specifically, the overfeed rate represented by the following formula is preferably set to 30 to 200%.

  The heat treatment may also be performed with controlled lateral (CD direction) dimensions. For example, the heat treatment may be performed to ensure that the fiber web contracts in the transverse direction so that the crimps are sufficiently developed in the latent crimped fibers. Specifically, when the fiber web is heat-treated by a method of blowing hot air, a pin tenter is used so that tension is not excessively applied when the transverse dimension of the fiber web is reduced by the heat treatment. The transverse dimension of the web may be gradually reduced while passing through the heat treatment machine.

  The heat treatment temperature and the heat treatment time are selected according to the resin constituting the latent crimpable fiber so that the three-dimensional crimp is developed. For example, when the latent crimpable fiber is a composite fiber composed of a combination of polyethylene terephthalate / modified polyester (melting point 170 ° C. or higher), the heat treatment temperature is preferably 120 to 145 ° C., and the heat treatment time is 10 to 120 seconds. It is preferable that For example, when the latent crimpable fiber is a composite fiber made of a combination of polypropylene / ethylene-propylene copolymer, the heat treatment temperature is preferably 120 to 135 ° C., and the heat treatment time is 10 to 120 seconds. Is preferred.

  The heat treatment is preferably performed by a hot air blowing method (air-through method). According to this method, the three-dimensional crimp is not easily crushed. The heat treatment may be performed by a method using a hot roll.

  After the crimp is developed, the nonwoven fabric is pressed with a flat roll or a flat press plate. Thereby, the nonwoven fabric which has a bulky surface after needle punching, a large unevenness on the surface, and a soft tactile feel can be obtained from a non-woven fabric having a tactile feel. The pressing is performed by selecting a pressure and a temperature that do not collapse the developed three-dimensional crimp. For example, when the latent crimpable fiber is a composite fiber composed of a combination of polyethylene terephthalate / modified polyester (melting point: 170 ° C. or higher), a preferable press temperature is 30 to 100 ° C., and a more preferable press temperature is 40 to 80 ° C. The preferable pressing pressure is larger than 0 and about 10 MPa (linear pressure 2.19 kN / cm) or less, and the more preferable pressing pressure is 2 to 8 MPa (linear pressure 0.44 to 1.75 kN / cm). These preferred pressing temperatures and pressures can be used when using other latently crimpable fibers, and can be similarly preferred temperatures and pressures in that case as well.

The nonwoven fabric produced in this way may have a transverse stress of 50% elongation of 0.80 to 1.60 N / 3 cm and a fiber density of 0.08 g / cm ³ or more. Further, when the nonwoven fabric produced in this way is produced from a fiber web in which the orientation direction of the fibers is not biased in one direction, the ratio of longitudinal breaking strength / lateral breaking strength is less than twice. obtain. The ratio of the breaking strength in the machine direction / breaking strength in the transverse direction can be reduced by selecting a cross web or a cross cloth web as the fiber web. Furthermore, the nonwoven fabric produced in this way can have a 50% stretch recovery in the transverse direction of 65-85%. Furthermore, by using a needle punching process, for example, a non-woven fabric in which fibers are entangled so that the fiber density is 0.08 g / cm ³ or more before being pressed by jetting a high-pressure columnar water stream. In comparison, the physical properties in the vertical and horizontal directions can be reduced.

  The non-woven fabric thus obtained is impregnated with a cosmetic that is usually liquid to obtain the skin-coated sheet of the present invention. The cosmetic can be impregnated into the sheet by an ordinary method, and can be impregnated by, for example, a dipping method or a coating impregnation method using a die coater or a reverse coater.

  The skin covering sheet is formed by impregnating the liquid cosmetic material in the range of 100 parts by mass to 1500 parts by mass, preferably 400 parts by mass to 700 parts by mass with respect to 100 parts by mass of the nonwoven fabric before impregnation with the cosmetic. By setting the amount of the cosmetic within this range, it is possible to supply a sufficient amount of the active ingredient to the skin and avoid inconvenience during use such as dripping. The optimal amount of cosmetic is appropriately determined according to the properties of the coated sheet, particularly the water absorption. In a preferred embodiment, the amount of the cosmetic is adjusted so that there is a cosmetic that is equal to or greater than the saturation amount of the coated sheet during the set use time.

  The cosmetic preferably contains, for example, a moisturizing component, a cleansing component, an antiperspirant component, an aroma component, a whitening component, a blood circulation promoting component, an ultraviolet ray preventing component, or a slimming component as an active ingredient. The active ingredient of the cosmetic is not limited thereto, and may include any ingredient that is expected to exhibit a specific action on the skin.

  The skin coating sheet of the present invention is preferably a face mask that covers a human face. The face mask is manufactured by processing a non-woven fabric before impregnating the cosmetic into a shape suitable for covering the face. In the face mask, for example, punched portions or cut portions are provided in portions corresponding to eyes, nose, and mouth as necessary. Alternatively, the face mask may be provided in a shape that covers only a part of the face (for example, the eyes, mouth, nose or cheek). Alternatively, the face mask may be provided as a set of sheets that separately cover two or more portions. Such a set of two or more sheets facilitates the task of covering the entire face with a sheet.

  The skin covering sheet of the present invention may be used to cover a part other than the face. For example, the skin coating sheet of the present invention impregnated with a liquid cosmetic containing a moisturizing component may be used by sticking to the neck, elbow or heel. Alternatively, the skin coating sheet of the present invention impregnated with a liquid cosmetic containing a slimming component may be used by sticking to the abdomen or thigh.

  The skin-coated sheet of the present invention includes a three-dimensional crimped fiber having a three-dimensional crimp, the stress at 50% elongation in the lateral direction is 0.80 to 1.60 N / 3 cm, and the fiber density is high. It is soft and can be stretched with relatively little force. Therefore, this sheet is easy to follow the skin and has good adhesion. Furthermore, since the three-dimensional crimp serves as a spring and gives the sheet an appropriate elasticity, the skin-coated sheet of the present invention has a good cushioning property in the thickness direction.

  When the three-dimensional crimp in the skin-coated sheet of the present invention is formed by developing a crimp of a latent crimpable fiber, the sheet is densified in the manufacturing process. For this reason, the obtained skin-coated sheet is uniform and less dense, which ensures a good tactile sensation. Further, in the process of developing the crimp of the fiber, the fiber contracts in both the machine direction and the transverse direction, so that the fiber arrangement in the sheet becomes relatively uniform (that is, the fiber orientation in one direction). Bias is small). When the fiber arrangement is uniform, the skin-coated sheet has a small difference in softness due to the difference in direction and the unevenness of the face, coupled with the entanglement of the fibers so as to have a specific extensibility. It will be particularly easy to fit.

  This feature, that is, because it is composed of three-dimensional crimped fibers, the fibers are uniformly arranged, the sheet is soft, the lateral stretchability is specific, and it easily fits the skin This feature is expressed by the sum of the handle ohm values at two places in the longitudinal direction and two places in the transverse direction of the nonwoven fabric before impregnating the cosmetic (this is referred to as “flexibility”). In the skin-coated sheet of the present invention, the bending resistance is preferably 20 to 55 g, and more preferably 20 to 40 g. A sheet in which the bending resistance of the nonwoven fabric before impregnation with the cosmetic is in this numerical range has excellent flexibility and high followability (fit property) to the skin.

  The skin coating sheet of the present invention will be described in detail with reference to examples. The thickness, breaking strength, breaking elongation, 10% and 50% elongation stress, and bending resistance of the nonwoven fabric before impregnation with the cosmetic were measured or evaluated as follows.

[thickness]
Using a thickness measuring machine (trade name: THICKNESS GAUGE model CR-60A, manufactured by Daiei Kagaku Seiki Seisakusho Co., Ltd.), the measurement was performed with a load of 19.6 cN per 1 cm ^{2 of} the sample.

[Breaking strength and breaking elongation]
In accordance with JIS L 1096 8.12.1 A method (strip method), using a constant-speed tension type tensile tester, tension was performed under the conditions of a sample piece width of 3 cm, a grip interval of 10 cm, and a tensile speed of 30 ± 2 cm / min. It applied to the test and the load value at the time of cutting | disconnection and the elongation rate were measured, and it was set as the breaking strength and breaking elongation, respectively. Tensile tests were conducted in each of the machine direction (MD direction) and the transverse direction (CD direction) of the sheet. In addition, when subjected to the tensile test, the strength required to elongate the sample by 10% and the strength necessary for elongating the sample by 50% are respectively 10% elongation stress and 50% elongation stress. did.

[Bending softness]
Measurement was performed using a handle ohmmeter (model HOM-200, manufactured by Daiei Kagaku Seiki Seisakusho). More specifically, a test piece having a machine direction × lateral direction of 20 cm × 17.5 cm is set on a slit having a width of 10 mm so as to be perpendicular to the slit, and 6.7 cm (test width) from the side of the test piece. Was pushed by 8 mm with a penetrator blade, and the resistance value at this time was evaluated as the bending resistance. The bending resistance was measured for each sample in the machine direction and the transverse direction. The bending resistance shown in Table 1 below is measured for each sample by measuring the longitudinal bending resistance on the front and back surfaces, and measuring the transverse bending resistance on the front and back surfaces. The sum of the values is shown as a value.

[Sample 1]
An eccentric core-sheath type composite fiber (trade name T-81, manufactured by Unitika Ltd.) whose core / sheath is polyethylene terephthalate (melting point 250 ° C.) / Modified polyester (melting point 230 ° C.) was prepared as the latent crimpable fiber. . In this example, a fineness of 1.1 dtex and a fiber length of 44 mm were used. This latent crimpable fiber develops 90-100 steric crimps whose projections are as shown in FIGS. 1-3 when heat treated at 170 ° C. for 15 minutes in a free state. It was something to do.

A parallel web was produced using only these latently crimpable fibers. Using a cross layer, this web was overlapped to produce a cross web having a basis weight of 31 g / m ² . This was subjected to a needle punching process to produce a nonwoven fabric for a skin coating sheet. The needle punching process was performed using a 40th needle (number of barbs: 9) with a needle depth of 5 mm and a density of 130 / cm ² .

Next, the fiber web after needle punching was heat-treated using an air-through heat treatment machine. During the heat treatment, the fiber web was conveyed using a pin tenter so that the width at the outlet after heat treatment was about 63% of the width at the inlet of the heat treatment machine. The heat treatment temperature was 135 ° C. and the heat treatment time was 85 seconds. The overfeed rate was 48.4%. By this heat treatment, the three-dimensional crimp of the latent crimpable fiber was expressed. The area of the web contracted by about 57% by the heat treatment. Furthermore, the nonwoven fabric after the heat treatment was subjected to press working by a calendar. The press working was performed at a temperature of 50 ° C. with a linear pressure of 1.36 kN / cm. The basis weight of the obtained nonwoven fabric was about 70 g / m ² .

[Sample 2]
A nonwoven fabric was prepared in the same procedure as that used when preparing Sample 1 except that the weight of the cross web was 35 g / m ² and the basis weight of the nonwoven fabric was about 82 g / m ² .

[Sample 3]
The latent crimpable fiber having a fineness of about 1.7 dtex is used, and the heat treatment for expressing the three-dimensional crimp is about 62 in width at the outlet after the heat treatment relative to the width at the inlet of the heat treatment machine. %, And a non-woven fabric was prepared by the same procedure as that used when preparing Sample 1 except that the overfeed rate was 47.0%.

[Sample 4]
A nonwoven fabric was prepared in the same procedure as that used when preparing Sample 3 except that the weight of the cross web was 37 g / m ² and the basis weight of the nonwoven fabric was about 89 g / m ² .

[Sample 5 (comparison)]
An eccentric core-sheath type composite fiber (trade name T-81, manufactured by Unitika Ltd.) whose core / sheath is polyethylene terephthalate (melting point 250 ° C.) / Modified polyester (melting point 230 ° C.) was prepared as the latent crimpable fiber. . In this example, a fineness of 2.2 dtex and a fiber length of 44 mm were used. This latent crimpable fiber develops 90-100 steric crimps whose projections are as shown in FIGS. 1-3 when heat treated at 170 ° C. for 15 minutes in a free state. It was something to do.

A semi-random card web having a basis weight of 40 g / m ² was produced using only the latent crimpable fiber and using a semi-random card machine. Next, a columnar water flow with a water pressure of 2.5 MPa was jetted twice on one surface of the web using a nozzle having orifices with a pore diameter of 0.13 mm provided at intervals of 1.0 mm, and then the pore diameter on the other surface. Using a nozzle in which 0.13 mm orifices were provided at intervals of 1.0 mm, a columnar water flow having a water pressure of 2.5 MPa was jetted twice to entangle the fibers. The fiber web was then dried using a drum dryer set at 60 ° C.

Next, the fiber web after hydroentanglement was heat-treated using an air-through heat treatment machine. During the heat treatment, the fiber web was conveyed using a pin tenter so that the width at the outlet after heat treatment was about 87% of the width at the inlet of the heat treatment machine. The heat treatment temperature was 140 ° C. and the heat treatment time was 30 seconds. The overfeed rate was 85.4%. By this heat treatment, the three-dimensional crimp of the latent crimpable fiber was expressed to obtain a non-woven fabric for a skin covering sheet. The basis weight of the obtained nonwoven fabric was 80.9 g / m ² , and the area shrunk by about 50% by the heat treatment. Furthermore, the nonwoven fabric after the heat treatment was subjected to press working by a calendar. The press working was performed at a temperature of 30 ° C. with a linear pressure of 1.53 kN / cm.

[Sample 6 (Comparison)]
A non-woven fabric was produced in the same procedure as that employed when producing Sample 1 except that the pressing was not performed.

[Sample 7 (comparison)]
A non-woven fabric was produced in the same procedure as that employed when producing Sample 2 except that the pressing process was not performed.

  Table 1 shows the basis weight, thickness, density, breaking strength, breaking elongation, stress at 10% and 50% elongation, and bending resistance of the nonwoven fabrics of Samples 1 to 7.

In each of Samples 1 to 4, the 50% elongation stress in the transverse direction is less than 1.60 N / 3 cm, the breaking strength in the longitudinal direction is less than twice the breaking strength in the transverse direction, and the fiber density is 0.10 g / It was larger than cm ³ . These had a dense surface and were less dense in appearance. These were soft, and when processed into a face mask, they were able to be firmly attached to the face while being pulled with an appropriate force. Furthermore, all of the samples 1 to 4 had a moist feel. Sample 5 was not so different from Samples 1 to 4 in terms of fiber density, but it had a large 50% elongation stress in the lateral direction and was difficult to stretch when processed into a face mask. Sample 5 had a slightly harder tactile sensation than Samples 1-4. Samples 6 and 7 had a soft touch, but the thickness was nearly double that of Samples 1 and 2, and did not have flexibility suitable for following the skin. Furthermore, Sample 7 was difficult to handle because the stress at the time of 50% elongation in the lateral direction was small and the sheet was stretched with a slight force.

  Further, Sample 1, Sample 6 and Sample 7 were evaluated for slip resistance in a wet state. Specifically, after the sample was cut to a size of 10 cm × 10 cm and its mass was measured, a gum tape (cloth adhesive tape No. 750) was applied to the back surface of the sample (the surface opposite to the side in contact with the glass plate described later). Nitto Denko Co., Ltd.) was attached. Then, an amount of water corresponding to 5 times the mass of the sample was impregnated by spraying the surface to which no gum tape was applied. In addition, a clip was attached to one side of the sample, and the wet sample was placed on the glass plate. A plate-like weight having a mass of 200 g was placed on the sample, and a hook of only a spring (manufactured by Sanko Seisakusho Co., Ltd., 78.4 to 196 cN (80 to 200 gf) measurement) was put on the clip. The average resistance value when the sample was slowly slid 50 cm on the glass surface was measured twice to obtain the average value. The results are shown in Table 3.

  Sample 1 had higher slip resistance in the wet state than Samples 5-7. This is considered to show that the adhesion of the sample 1 in a wet state is higher than that of the samples 5 to 7.

  The skin-coated sheet of the present invention is useful as a face mask for wearing on the face, a sheet for allowing the active ingredients of cosmetics to penetrate into the neck and thighs, and the like.

It is a projection view of an example of a preferable three-dimensional crimp. It is a projection figure of another example of a preferable three-dimensional crimp. It is a projection figure of another example of a preferable three-dimensional crimp. It is a schematic diagram which shows a three-dimensional crimp. It is a projection figure of an example of the three-dimensional crimp which does not form a closed curve.

Claims (7)

A non-woven fabric comprising a three-dimensional crimped fiber having a three-dimensional crimp;
A cosmetic impregnated in the nonwoven fabric,
There is a three-dimensional crimp on the surface of the nonwoven fabric on the side that comes into contact with the skin,
The nonwoven fabric is integrated by entanglement between fibers,
The 50% elongation stress in the transverse direction of the nonwoven fabric is 0.80 to 1.60 N / 3 cm,
A cosmetic-impregnated skin-covering sheet, wherein the nonwoven fabric has a fiber density (load: 19.6 cN) of 0.08 g / cm ³ or more. A non-woven fabric comprising a three-dimensional crimped fiber having a three-dimensional crimp;
A cosmetic impregnated in the nonwoven fabric,
There is a three-dimensional crimp on the surface of the nonwoven fabric on the side that comes into contact with the skin,
The nonwoven fabric is integrated by interlacing fibers by needle punch processing,
The nonwoven fabric is pressed after the fibers are entangled with each other,
Cosmetic impregnated skin coating sheet.   The cosmetic-impregnated skin-coated sheet according to claim 1 or 2, wherein the nonwoven fabric has a longitudinal breaking strength less than twice the transverse breaking strength.   The cosmetic-impregnated skin-coated sheet according to any one of claims 1 to 3, wherein the 50% elongation recovery rate in the transverse direction of the nonwoven fabric is 65 to 85%.   The cosmetic-impregnated skin-coated sheet according to any one of claims 1 to 4, wherein the three-dimensional crimp is formed by the occurrence of crimp in the latent crimpable fiber.   The cosmetic-impregnated skin-covering sheet according to any one of claims 1 to 5, which has a shape covering part or all of the face. 1) A fiber web containing latent crimpable fibers is subjected to needle punching to entangle the fibers.
2) Heating the fiber web after fiber entanglement treatment to express three-dimensional crimps to obtain a nonwoven fabric;
3) A method for producing a cosmetic-impregnated skin-covering sheet, comprising: pressing the nonwoven fabric; and 4) impregnating the nonwoven fabric with a cosmetic.

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