JP2009077752A - Tissue paper for makeup - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tissue paper for makeup use which is made by impregnating a tissue paper with glycerol and has improved tensile strength and also keeps flexibility. <P>SOLUTION: The tissue paper for makeup use is made by impregnating the tissue paper with glycerol, wherein the tissue paper is composed of pulp fibers, and bacterial cellulose is interlaced between the pulp fibers to form mesh structure, and the mesh structure improves the tensile strength and keeps the flexibility. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a cosmetic tissue paper in which tissue paper is impregnated with glycerin. More specifically, the present invention relates to a cosmetic tissue paper in which tissue paper made of pulp fibers is impregnated with glycerin and bacterial cellulose.

  Glycerin is known as a plasticizer for pulp, and glycerin was impregnated into tissue paper and was provided to the market as a cosmetic tissue paper. However, the demand for sticky touch did not increase due to its drawback. In order to solve this problem, a cosmetic tissue paper (see Patent Document 1) in which sorbitol is mixed with glycerin to improve the feel has been proposed, and this cosmetic tissue paper is effective as a cleansing tissue paper for makeup. It was known that demand grew rapidly.

However, by impregnating the tissue paper with glycerin, the bond strength between pulps constituting the tissue paper is loosened, so that the tensile strength is lowered. It is important for cosmetic tissue paper to maintain its softness to the skin, and those that do not have flexibility are not suitable, so the amount of pulp is within the range of 10 to ²⁰ g / m ² per tissue paper. More than that, it is not preferred because flexibility is impaired.
The cosmetic tissue paper is impregnated with 10 to 15% by weight of glycerin in a tissue paper having a tensile strength of 600 g / 25 mm before impregnation with glycerin. It is falling. Therefore, there is a problem that the cleansing tissue paper is easily broken when wiping the skin, and it is eager to improve the tensile strength of the cleansing tissue paper impregnated with glycerin.

Cosmetic tissue paper has been developed in which hyaluronic acid with moisturizing power and lipidine with higher moisturizing power have been developed in glycerin. However, as with the above-mentioned cosmetic tissue paper, a decrease in tensile strength is inevitable. Thus, in conventional cosmetic tissue paper, the decrease in tensile strength is inevitable by impregnating glycerin.
Furthermore, impregnating cosmetic tissue with glycerin is an environment in which mold growth tends to occur, and mold generation is also a problem.

  On the other hand, in a wrapping paper mainly composed of pulp, a film formed of bacterial cellulose in a sheet composed of pulp fibers by blending 1 to 30% by weight of bacterial cellulose with respect to the raw pulp. It is known that a high-quality packaging paper having high density and transparency of the sheet, high sheet strength, and excellent barrier properties can be obtained (see Patent Document 2). ).

JP 05-156596 A JP 09-195193 A

  The above-mentioned cosmetic tissue paper is used for wiping the skin as a cosmetic, and it is important for the above-mentioned conventional cleansing tissue paper to maintain flexibility against the skin, and for that purpose, increase the basis weight and increase the tensile strength. On the other hand, if the tensile strength of the cleansing tissue paper is 250 g / 25 mm or less, there is a problem that it is easily broken when wiping the skin.

On the other hand, in the invention described in Patent Document 2, bacterial cellulose is contained in a raw material pulp for the purpose of obtaining a high-quality packaging paper having high sheet density and transparency, high sheet strength, and excellent barrier properties. This object is achieved by blending. However, since the object of the invention is not a cosmetic tissue paper but a wrapping paper, the invention described in Patent Document 2 does not need to improve the tensile strength and maintain flexibility, so It is not necessary to impregnate the agent glycerin.
Therefore, the present invention has been made to solve such problems, and its technical problem is to improve the tensile strength and maintain flexibility with respect to cosmetic tissue paper in which tissue paper is impregnated with glycerin. To provide cosmetic tissue paper to do.

In order to solve the above-mentioned problems, the present inventor has examined how tissue paper made of pulp fibers impregnated with glycerin can be improved in tensile strength and retained flexibility. By impregnating with bacterial cellulose, it was found that the network structure formed by entanglement of bacterial cellulose between pulp fibers has the property of improving the tensile strength and maintaining flexibility, and completed the present invention. It was.
In order to solve the above-mentioned problems, the present invention provides a cosmetic tissue paper according to claim 1, which is a cosmetic tissue paper obtained by impregnating tissue paper with glycerin, the tissue paper comprising pulp fibers, and the pulp. Bacterial cellulose is entangled between fibers to form a network structure, and the network structure has characteristics of improving tensile strength and maintaining flexibility.
Similarly, the cosmetic tissue paper according to claim 2 is characterized in that the tensile strength is 400 g / 25 mm or more and the flexibility is 30 or less with a handle ohmmeter.
The cosmetic tissue paper according to claim 3 is characterized in that the mesh structure is formed by containing at least 0.1 to 2.5% by weight of bacterial cellulose based on the weight of pulp fibers.
The cosmetic tissue paper according to claim 4 is characterized in that the network structure of bacterial cellulose carries trehalose and a silver antibacterial agent.
The cosmetic tissue paper according to claim 5 further includes liquid paraffin.
The cosmetic tissue paper according to claim 6 is 10 to 20% by weight of glycerin, 0.5 to 2.5% by weight of liquid paraffin, 0.1 to 2.5% by weight of trehalose and silver antibacterial, based on the weight of the pulp fiber. It contains 0.1 to 1.0% by weight of an agent.
The cosmetic tissue paper according to claim 7 is characterized in that the bacterial cellulose is produced by Acetobacter xylinum.

  Conventional cosmetic tissue paper has been difficult due to contradictory physical properties to have both improved tensile strength and flexibility, but the cosmetic tissue paper of the present invention is a coating liquid containing bacterial cellulose. By applying and impregnating with the above, bacterial cellulose is entangled between pulp fibers to form a network structure, which makes it possible to improve tensile strength and maintain flexibility, which are contradictory physical properties. Therefore, the cosmetic tissue paper of the present invention has an exceptional effect that when wiping the skin to remove cosmetics, it can be gently wiped to the skin and cannot be torn.

Further, the conventional cosmetic tissue paper has a low tensile strength when the wetness is high, but the cosmetic tissue paper of the present invention can obtain an excellent tensile strength while having a high wetness due to the network structure. Was made.
Furthermore, the conventional tissue paper containing glycene failed to prevent the growth of bacteria and fungi, but the cosmetic tissue paper of the present invention has antibacterial activity against bacteria due to the silver antibacterial material carried on the network structure. In addition, since trehalose is also supported in the same manner, even if it is dried, the moisturizing power is maintained, the water absorption is not impaired, and the moist feel of glycerin can be improved.

The present invention impregnates the pulp by impregnating the tissue paper composed of pulp fibers with glycerin and bacterial cellulose in order to impregnate the tissue paper with glycerin to prevent a decrease in the tensile strength of the tissue paper and maintain flexibility. Bacterial cellulose is entangled between the fibers to form a network structure, so that it has a much superior tensile strength and retains flexibility as compared with the prior art.
In addition, the bacterial cellulose network structure allows the antibacterial agent and trehalose to be supported in a cosmetic tissue paper, thereby suppressing the generation of mold and making it possible to have excellent moisturizing properties.
Bacterial cellulose is a nanocellulose fiber of 7 to 10 nm, and uses a water-containing gel of bacterial cellulose known as Nata de Coco produced by Acetobacter bacteria.

  In order to form a network structure between pulp fibers by bacterial cellulose, a method in which natadeco is disaggregated and an average particle diameter of 0.5 mm is mixed with a pulp suspension and mixed, or the disaggregated product is glycerin. Any of the methods of dispersing and applying to tissue paper may be used. When mixing into a pulp suspension, cut Nata de Coco to about 0.5 mm, disperse and disperse with a homomixer, mix and stir into the pulp suspension to make tissue paper, and then add 10 to 10 glycerin to the tissue paper. The same effect can be obtained by applying 20% by weight.

When glycerin is 10% by weight or less, the wettability is poor, and when it is 20% by weight or more, the wettability is excessive, which is not preferable as a cosmetic tissue paper. The liquid paraffin blended with glycerin is just 0.5 to 2.5% by weight (vs. tissue paper weight), which is just a good range for improving the texture of glycerin.
Bacterial cellulose is used as a disaggregation material with 0.1 to 2.5% by weight (tissue paper weight) supported by trehalose 0.1 to 2.5% and silver antibacterial agent 0.1 to 1.0% by weight.
If the bacterial cellulose content is 0.1% by weight or less (weight of tissue paper), the network structure is insufficient and the tensile strength is insufficiently improved. It is difficult to mix glycerin with 2.5% by weight (vs. tissue paper weight) or more. When bacterial cellulose is mixed at the time of papermaking, 3% by weight (vs. tissue paper weight) can be blended. In the case of mixed paper, cosmetic tissue paper can be obtained by applying and impregnating glycerin.

  In the method in which bacterial cellulose disaggregation is dispersed in glycerin and applied to tissue paper, since it is difficult to disperse bacterial cellulose with little moisture, trehalose is supported on bacterial cellulose and dispersed in glycerin and applied to tissue paper. If trehalose is supported on bacterial cellulose, the moisturizing power is maintained even when dried, and the water absorption is not impaired, and the moist feel of glycerin can be improved to a dry feel.

  By supporting a silver antibacterial agent on bacterial cellulose, the antibacterial and antifungal effect can be obtained by fixing the silver antibacterial agent to tissue paper. Silver antibacterial agents include silver zeolite or silver glass. The conventional problem that mold tends to grow by impregnation with glycerin can be solved.

In the present invention, the basis weight of the tissue paper is preferably 10 to ²⁰ g / m ² . Tensile strength of 400 g / 25 mm or more is obtained at 10 g / m ² , so that it will not be broken during use. Since tissue paper is used after being commercialized in two layers, the tensile strength is indicated by the value of two layers. In the conventional glycerin-impregnated tissue paper, even when two sheets are stacked, the tensile strength is reduced to about 250 g / 25 mm, so it is easily broken and adheres to the skin. In the present invention, the tensile strength is increased and the flexibility is 30 or less with a handle ohmmeter.

EXAMPLES Hereinafter, the present invention will be described in more detail with reference to examples, but the invention described in the claims of the present invention is not limited to these examples.
(Bacterial cellulose)
Acetic acid 0.5% by weight and sucrose 10% by weight are mixed with coconut water to produce an aqueous solution of pH 3.5, and 5% by weight of Acetobacter xylinum is inoculated into the aqueous solution, 50 × 50 cm, depth A 30 mm-thick tray was poured at a temperature of 29 ° C. for 12 days and subjected to static culture to prepare a hydrous gel body of bacterial cellulose having a size of 50 × 50 cm and a thickness of 20 mm. The hydrogel body was immersed in running water for 2 days and washed until no acetic acid was detected. Next, a 0.1% by weight sodium hydroxide aqueous solution is used for 30 minutes at 95 ° C. to perform sterilization and sterilization treatment to obtain a hydrous gel body consisting of 1% by weight of bacterial cellulose and 99% by weight of water. It was.

(Coating solution adjustment)
The hydrated gel body of 1% by weight of bacterial cellulose was sliced into a sheet having a thickness of 1 mm, further cut into a dice having a side of 1 mm, and a shearing force was applied with a homomixer to form a slurry. 94 parts of water, 2 parts of bacterial cellulose, 2 parts of trehalose and 1 part of Zeomic AJlOD (product of Sinanen Zeomic Co., Ltd.) as a silver antibacterial agent were blended and stirred to obtain a blended solution.
The blended solution was dried under reduced pressure to reduce the water from 94 parts to 27 parts, and was composed of 2 parts of bacterial cellulose, 2 parts of trehalose, and 1 part of Zeomic AJlOD, and 60 parts of glycerin and 7 parts of liquid paraffin in the composition. Was added and stirred to prepare a coating solution.

(Examples 1-3)
The blending ratio of the coating liquid is 60% by weight of glycerin, 7% by weight of liquid paraffin, 2% by weight of bacterial cellulose, 2% by weight of trehalose, 1% by weight of Zeomic AJlOD, and 27% by weight of water, and the coating amount of the coating liquid is adjusted. The impregnation rate was adjusted by applying to tissue paper.
Relative tissue paper weight 17 g / m ^2, when coating the coating solution of the same weight, the coating amount to be applied to tissue paper as 1, weight 17 g / m ² in Examples 1 to 3 tissue paper The coating amount was adjusted to be 1/3, 1/4, and 1/6 with respect to the weight of. As shown in Table 1, each component of Example 1 is adjusted to 1/3, each component of Example 2 is adjusted to 1/4, and each component of Example 3 is adjusted to 1/6.

In other words, Table 1 shows the coating amount obtained by impregnating the tissue paper having a weight of 17 g / m ² with the coating solution. The coating amount of Example 1 is 33% by weight, which is 1/3, the coating amount of Example 2 is 1/4, and the coating amount of 25% by weight, which is 1/4, and Example 3 is 1/6 of the coating amount. .5% by weight is indicated.
In Comparative Example 1, the coating amount of 60% by weight of glycerin and 8% by weight of liquid paraffin was set to 1 in the same manner as in the above-described example, and 1/4 of the coating amount 1 with respect to a tissue paper having a weight of 17 g / m ^2. The coating amount of 25% by weight is the same as that of Comparative Example 2, where the coating amount is 1 for a tissue paper having a weight of 17 g / m ² where the coating amount is 20% by weight of glycerin and 4% by weight of liquid paraffin. Table 1 shows a coating amount of 5% by weight which is 1/4 of the above.

Example 4
The hydrated gel body of 1% by weight of bacterial cellulose was sliced into a sheet having a thickness of 1 mm, further cut into a dice having a side of 1 mm, and a shearing force was applied with a homomixer to form a slurry. 94 parts of water, 2 parts of bacterial cellulose and 2 parts of trehalose were mixed and stirred to obtain a blended solution.
The blended solution is dried under reduced pressure, the water is reduced from 94 parts to 20 parts, and a concentrated solution consisting of 2 parts of bacterial cellulose and 2 parts of trehalose, that is, 8.3% by weight of bacterial cellulose, 8.3% by weight of trehalose, A concentrated solution consisting of 83.3% by weight of water was obtained.
80% by weight of glycerin and 10% by weight of liquid paraffin were mixed with 10% by weight of the concentrated liquid (0.83% by weight of bacterial cellulose, 0.83% by weight of trehalose) and stirred to prepare a coating solution. An application amount of 1/8 based on the weight of the tissue paper was applied and impregnated.
As shown in Table 1, coating amounts of 10% by weight of glycerin, 1.25% by weight of liquid paraffin, 0.1% by weight of bacterial cellulose and 0.1% by weight of trehalose with respect to the weight of the tissue paper were obtained.

(Examples 5-6)
The hydrated gel body of 1% by weight of bacterial cellulose was sliced into a sheet having a thickness of 1 mm, further cut into a dice having a side of 1 mm, and a shearing force was applied with a homomixer to form a slurry.
94 parts of water, 2 parts of bacterial cellulose, 2 parts of trehalose and 0.5 part of Zeomic AJlOD (Sinen Zeomic Co., Ltd.) as a silver antibacterial agent were blended and stirred to obtain a blended solution. The blended solution was dried under reduced pressure to obtain a dried product comprising 44.4% by weight of bacterial cellulose, 44.4% by weight of trehalose, and 11.1% by weight of Zeomic AJlOD as a silver antibacterial agent. The dried product was mixed with 73% by weight of glycerin and 5% by weight of liquid paraffin with 22% by weight of the dried product, and stirred to obtain a coating solution.
The blending ratio of the coating solution is glycerin 73 wt%, liquid paraffin 5 wt%, bacterial cellulose 9.7 wt%, trehalose 9.7 wt%, and silver antibacterial agent 2.4 wt%.
The coating liquid was adjusted to the following coating amount on tissue paper to give Examples 5 and 6.
As shown in Table 1, in Example 5, 1/7 coating solution was applied and impregnated with respect to the weight of the tissue paper, and in Example 6, 1/4 coating solution was applied and impregnated.

The measurements of tensile strength, handle ohmmeter, moisture content, antibacterial properties, and mold resistance shown in Table 1 were performed under the following conditions.
Tensile strength: According to JIS P8113. The tensile strength is 25mm.
Handle ohmmeter: J-TAPPI No. According to 34 softness test methods.
Loss on drying: According to JIS P8127. It calculated | required from 130 degreeC and the drying loss of 5 hours.
Antibacterial property: Based on the antibacterial property test of JIS Z2801, 2 × 10 ⁵ E. coli / ml were inoculated, cultured for 24 hours under specified conditions, and the number of bacteria was measured.
Mold resistance: Based on the JIS Z2911 mold resistance test, the specified combination bacteria (5 types of mold fungi) were cultured for 4 weeks, and the growth of the mold was examined with the naked eye.

The experimental results shown in Table 1 show that the values of Comparative Examples 1 and 2 are 264 and 203 g / 25 mm in terms of tensile strength, while Examples 1 to 6 have a value of 500 g / 25 mm or more, which is twice that of the Comparative Example. The tensile strength tends to increase as the amount of bacterial cellulose applied and impregnated increases. It can be seen that the tensile strength is clearly improved when the cosmetic tissue paper of the present invention is coated and impregnated with a coating solution containing bacterial cellulose.
Regarding the handle ohmmeter, the values of 65 mN / 100 mm for the untreated tissue paper and 39 and 36 mN / 100 mm for the tissue papers of Comparative Examples 1 and 2, whereas Examples 1-5 are 20-30 mN. It is a value in the range of / 100 mm, about 1/3 of the untreated tissue paper, and about 2/3 of the tissue paper of the comparative example.
From the above, it can be seen that the cosmetic tissue paper of the present invention improves the tensile strength and retains flexibility.

With respect to the loss on drying, the values of 6.6% for the untreated tissue paper and 14.6 and 8.2% for the tissue papers of Comparative Examples 1 and 2 versus those of Examples 1-5. The value is in the range of 12.5 to 21.0%, which is much higher in weight loss than the untreated tissue paper and higher in weight loss than the tissue paper of the comparative example. A high dry weight loss indicates a high wettability, indicating that the cosmetic tissue paper of the present invention is excellent in wettability. With the conventional tissue paper, the above tensile strength could not be obtained at such high wetness.
As shown in Table 1, the anti-bacterial test and the fungus resistance test show that the cosmetic tissue paper of the present invention shows safety against bacteria and fungi. Yes, it is recognized that mold does not grow. On the other hand, tissue paper containing conventional glycene has a remarkable growth of bacteria and fungi than untreated tissue paper.

FIG. 1 is a 10000 × electron micrograph of the cosmetic tissue paper of the present invention. It is shown that bacterial cellulose is entangled between pulp fibers to form a network structure.
FIG. 2 is a 5000 × electron microscope photograph of a cosmetic tissue paper containing the silver antibacterial agent of the present invention. It is shown that trehalose and a silver antibacterial agent are supported on a network structure formed by entanglement of bacterial cellulose between pulp fibers.

FIG. 1 is a 10000 × electron microscope photograph of a cosmetic tissue paper. FIG. 2 is a photo of a 5000 × electron microscope of a cosmetic tissue paper containing trehalose and a silver antibacterial agent.

Claims (7)

A cosmetic tissue paper impregnated with glycerin in tissue paper,
Cosmetic tissue characterized in that the tissue paper is made of pulp fibers, and bacterial cellulose is entangled between the pulp fibers to form a network structure, which improves the tensile strength and retains flexibility. paper.   The cosmetic tissue paper according to claim 1, wherein the tensile strength is 400 g / 25 mm or more and the flexibility is 30 mN or less with a handle ohmmeter.   The cosmetic tissue paper according to claim 2, wherein the network structure is formed by containing at least 0.1 to 2.5% by weight of bacterial cellulose based on the weight of pulp fibers.   The cosmetic tissue paper according to claim 3, wherein the network structure of the bacterial cellulose carries trehalose and a silver antibacterial agent.   Furthermore, liquid paraffin is included, Cosmetic tissue paper of Claim 4 characterized by the above-mentioned.   10 to 20% by weight of glycerin, 0.5 to 2.5% by weight of liquid paraffin, 0.1 to 2.5% by weight of trehalose and 0.1 to 1.0% by weight of silver antibacterial agent based on the weight of the pulp fiber The cosmetic tissue paper according to claim 5, comprising:   The cosmetic tissue paper according to any one of claims 1 to 6, wherein the bacterial cellulose is produced by Acetobacter xylinum.