JP2000143472A - Cosmetic having ultraviolet light-absorbing function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a cosmetic not only without having a irritating property to a skin and excellent in feeling in use, but also effectively absorbing a wider wave length ultraviolet light including not only UVB but also UVA comparing with that of silk fine particles obtained from a domestic silkworm. SOLUTION: This cosmetic having an ultraviolet light-absorbing function contains silk fine particles obtained by pulverizing a silk fiber produced by a wild silkworm to >=1 μm and <=100 μm particle diameter. It is preferable to contain in addition to the silk fine particles having an ultraviolet light- absorbing function, an organic-based ultraviolet light-absorbing agent and/or inorganic-based ultraviolet light-absorbing agent.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cosmetic agent having an ultraviolet absorbing function, and more particularly, to a cosmetic agent capable of absorbing ultraviolet rays of a wide wavelength range by using silk fibers produced by wild silkworms.

[0002]

2. Description of the Related Art In recent years, attention has been paid to the harmfulness of ultraviolet rays to the skin, triggered by attention to the problem of destruction of the ozone layer. It has been pointed out that the harmfulness of this ultraviolet ray is not limited to mere cosmetic problems such as spots, wrinkles, freckles, etc., and has also become extremely serious such as causing skin cancer. In order to respond to the harmful effects of ultraviolet rays, which is a serious problem, various ultraviolet shielding agents such as ultraviolet absorbers and ultraviolet protection agents,
In addition, cosmetics having an ultraviolet shielding function containing them have been developed.

[0003] By the way, ultraviolet rays reaching the ground surface are divided into UVB and UVA according to their wavelengths. UVB refers to ultraviolet light having a wavelength of about 280 nm or more and about 320 nm or less, and is about 10% of ultraviolet light reaching the surface of the earth. However, UVB has an acute action on the skin, and after inflammation occurs inside the skin, it causes an increase in melanin pigment, which causes spots and freckles.
Examples of the conventional ultraviolet shielding agent for shielding UVB include organic ultraviolet absorbers such as oxybenzone, para-aminobenzoic acids such as para-dimethylaminobenzoic acid ester, and cinnamic acids such as methoxycinnamic acid ester. And inorganic ultraviolet protective agents such as titanium oxide fine particles.

On the other hand, UVA has a wavelength of about 320 n.
UV light of not less than m and not more than about 400 nm, occupying about 90% of the UV light reaching the surface of the earth. UVA has a milder effect on the skin than UVB, but UVB is scattered and absorbed by the skin epidermis, whereas UVA reaches the dermis deep inside the skin. Therefore, even if the temporary effect is mild, chronic exposure to UVA for a long time causes chronic skin damage deep in the skin. Among various conventional UV shielding agents, such UV
Examples of conventional ultraviolet shielding agents that shield A include benzophenones such as butylmethoxydibenzoylmethane, organic ultraviolet absorbers such as salicylic acids, and inorganic ultraviolet protective agents such as zinc oxide fine particles. No.

[0005] The above-mentioned organic UV absorbers are all highly hydrophobic, and when a cosmetic containing such an organic UV absorber is prepared, for example, an organic base material such as petrolatum is coated with an organic base material. It is necessary to mix an ultraviolet absorber. Therefore, cosmetics such as creams and emulsions containing an organic ultraviolet absorber use a hydrophobic base material, so that when used, a so-called "stickiness" is caused by the hydrophobic base material.

On the other hand, the above inorganic UV protective agents have high hydrophilicity, and when preparing a cosmetic containing such an inorganic UV protective agent, a base material such as purified water can be used. . Therefore, in the case of a cosmetic containing such an inorganic ultraviolet protective agent, "stickiness" does not occur. However, the inorganic ultraviolet protective agent may cause a phenomenon in which whiteness remains on the skin after use of the cosmetic agent, or may cause a "squeaky feeling" on the skin, and deterioration of the feeling of use is inevitable. In particular, fine particles of metal oxides, such as titanium oxide fine particles and zinc oxide fine particles, are generally used as a catalyst, and thus adversely affect other chemical substances blended in the cosmetic, resulting in the performance of the cosmetic. There is a possibility that the color may decrease, coloring, irritation to the skin, etc. may occur. Therefore,
When such metal oxide fine particles are blended, it is usually necessary to perform a surface treatment on the metal oxide fine particles in order to block the catalytic activity, which is problematic in terms of cost.

To solve the above problem, Japanese Patent Laid-Open No. 8-2
As disclosed in Japanese Patent No. 68905, silk fibers produced by dissolving silk fibers in a mixture of an aqueous solution of an inorganic salt and a water-miscible organic solvent, and dialyzing the resulting solution against water. Focusing on the fact that colloidal fibroin composed of fibroin protein and having a fine-grained gel structure has an ultraviolet absorbing function, an ultraviolet absorbent containing such colloidal fibroin has been developed.

However, the ultraviolet absorber containing the above-mentioned colloidal fibroin does not have a sufficient ultraviolet shielding effect by absorbing ultraviolet light as compared with an organic ultraviolet absorber and an inorganic ultraviolet protective agent. The ultraviolet rays that can be absorbed mainly have a wavelength of about 280 nm or more and about 3 nm.
It is limited to UVB of 20 nm or less, and could not absorb ultraviolet rays of a wide wavelength range including UVA.

[0009]

The inventors of the present invention have conducted intensive studies on the above problems, and as a result, have used silk fibers produced by wild silkworms, which are closely related to silkworms, as silk fibers. The present inventors have found that fine particles can effectively absorb ultraviolet rays having a wide range of wavelengths, and have completed the present invention. That is, the present invention has been made in order to solve the above-mentioned problems, and the object thereof is to not only have excellent sensation without irritation to the skin, but also to use UVB as compared with silk fine particles obtained from silkworm. Another object of the present invention is to provide a cosmetic agent capable of effectively absorbing ultraviolet rays having a wider wavelength range including UVA.

[0010]

Means for Solving the Problems A cosmetic agent having an ultraviolet absorbing function according to the present invention, which solves the above-mentioned problems, contains silk fine particles obtained by atomizing silk fibers produced by wild silkworm to a particle size of 1 μm to 100 μm. .

The term “wild silkworm” used in the present specification
The term “insects” refers to insects belonging to the order Lepidoptera Bombyidae, and the term “wild silkworm” is generally used as a generic term for such insects. Examples of such “wild silkworms” include, for example, natural silkworms, Saksan, Erisan, Tasarsang, Mugasan, Cricuura and the like, and these wild silkworms are bred on an industrial scale.

"Wild silkworms" are taxonomically distinct from "silkworms", which are generally called "silkworms" and are insects that have supported the silk fiber industry. The cocoons made by wild silkworms have higher mechanical strength than the cocoons made by silkworms and have water repellency. In addition, cocoons obtained from cocoons made by wild silkworms are porous, whereas cocoons obtained from cocoons made by silkworms are dense.

In the present invention, a silk fiber (cocoon thread) is obtained by unraveling a cocoon made by wild silkworm, and the silk fiber has a particle size of 1 as described later.
Atomization is performed so as to be not less than μm and not more than 100 μm. It is preferable that the silk fiber is refined in advance before atomizing the silk fiber. More specifically, silk fibers (cocoons) obtained from cocoons are called fibroin, which forms the fibers.
It consists of a book protein and a protein called sericin that covers these fibers and bundles them,
When the silk fiber (cocoon thread) is immersed in hot water, sericin is dissolved in hot water and separated, and the silk fiber is refined by removing such separated sericin.

In the present invention, the silk fiber (cocoon thread) produced by the wild silkworm as a cocoon is atomized. The means for atomizing is not particularly limited, and examples include means for physically pulverizing silk fibers (cocoons). The particle size of the silk fine particles obtained by the atomization is 1 μm or more and 100 μm or less, and preferably 10 μm or more and 60 μm or less.
It is difficult to atomize the silk fine particles so that the particle size is less than 1 μm. On the other hand, when the particle size of the silk fine particles exceeds 100 μm, the silk fine particles tend to aggregate with each other. In particular, when it is blended with the base material when producing a cosmetic, separation from the base material occurs due to aggregation, and substantially,
It becomes difficult to blend with the base material to make a cosmetic.

The silk fine particles thus obtained can be used as an ultraviolet absorber, and can be used as a cosmetic agent by blending the silk fine particles with an appropriate base material. As a substrate that can be used for such silk fine particles having an ultraviolet absorbing effect, any of a hydrophilic substrate and a hydrophobic substrate can be used, but when a cosmetic is used, the substrate may be used. From the viewpoint of eliminating the “stickiness”, it is preferable to use a hydrophilic substrate. Such hydrophilic substrates include purified water, lower alcohols, ethylene glycol, propylene glycol, glycerin,
Sorbitol, polyethylene glycol, N-methylpyrrolidone, pyrrolidone carboxylic acid group and the like. Examples of the hydrophobic substrate include liquid paraffin, squalane, lanolin derivative, higher alcohol, various ester oils, palm oil, tallow, cyclic silicone, and straight silicone. Chain silicone and the like can be mentioned. These hydrophilic and hydrophobic substrates may be used alone or in combination of two or more. In this case, the hydrophilic substrates or the hydrophobic substrates can be used in combination, and of course, the hydrophilic substrate and the hydrophobic substrate can be used in combination.

For example, suitable base materials for obtaining an emulsion include liquid paraffin, purified water and the like, and suitable base materials for obtaining a lotion include lower alcohols and purified water. In addition, when the cosmetic is used, any additive can be blended as long as it does not adversely affect the ultraviolet absorbing effect. In addition, as long as "sticky feeling", "squeaking feeling", and other properties of the cosmetic agent are not deteriorated, colored, and skin irritation does not occur, conventionally used organic ultraviolet absorbers and inorganic ultraviolet protective agents. An ultraviolet ray shielding agent such as, for example, may be added.

Such organic UV absorbers include:
As described in paragraphs 0003 and 0004,
For example, benzophenones such as oxybenzone and 2-hydroxy-4-methoxybenzophenone, paraaminobenzoic acids such as para-dimethylaminobenzoic acid-2-ethylhexyl, and cinnabar such as octyl methoxycinnamate and 2-ethylhexyl methoxycinnamate Examples include acids, salicylic acids such as phenyl salicylate and octyl salicylate.

Further, as the inorganic ultraviolet protective agent,
As described in paragraphs 0003 and 0004,
For example, titanium oxide fine particles, zinc oxide fine particles and the like can be mentioned.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below in detail. The cosmetic milky lotion as a cosmetic agent according to the present embodiment is a fine silk particle having a particle diameter of 1 μm or more and 100 μm or less obtained by refining and pulverizing a silk fiber (cocoon thread) produced by Saksan, a kind of wild silkworm, It is prepared by mixing a predetermined amount of liquid paraffin as a base material, purified water and the like, and sufficiently stirring the mixture.

The surface of fine silk particles obtained from cocoons produced by silkworms is dense, whereas the silk fibers (cocoons) produced by saksan, a kind of wild silkworm, are refined and pulverized. There are voids called pores everywhere on the surface of the silk fine particles having a size of 100 μm or less. In other words, in the case of silk fine particles obtained from a cocoon produced by wild silkworm, it is presumed that the pores called pores exhibit an ultraviolet absorbing effect in a wide wavelength region including any wavelength region of UVA and UVB.

The silk fibers obtained from wild silkworms also differ from the cross-sectional shapes of silk fibers (cocoon yarns) obtained from cocoons produced by wild silkworm and silk fibers (cocoon yarn) obtained from cocoons produced by silkworm. It is presumed that the ultraviolet ray absorbing action differs between the fine particles and the silk fine particles obtained from the silkworm. In addition, cocoons produced by wild silkworms contain components that are not detected in cocoons produced by silkworms, and these components contain tannins, which are thought to have an ultraviolet absorbing effect, and are also obtained from wild silkworms. It is presumed that the silk fine particles obtained have an ultraviolet absorbing effect in a wide wavelength range including any of the wavelength ranges of UVA and UVB and have a higher ultraviolet absorbing effect than silk fine particles obtained from silkworm. Therefore, the cosmetic emulsion according to the present embodiment can be used not only as a sunscreen, a skin cream and the like, but also as a hair shampoo and the like when mixed with a detergent.

Silk fine particles obtained from cocoons produced by wild silkworms are easier to dissolve or disperse in water than organic UV absorbers conventionally used. Therefore, a hydrophilic substrate such as purified water can be used as the substrate used when blended in the cosmetic. For this reason, when the cosmetic emulsion according to the present embodiment is used, "stickiness" hardly occurs on the skin.

Since silk fine particles obtained from cocoons produced by wild silkworms are natural materials, they are less irritating to the skin than conventional ultraviolet absorbers mainly used for chemical substances. A cosmetic emulsion containing fine silk particles has an excellent feeling in use. Furthermore, there is no "creaking feeling" that has conventionally occurred when an inorganic ultraviolet protective agent is used, and no whiteness remains on the skin. In addition, surface treatment required when using titanium oxide fine particles or the like is not required.

The fine silk particles obtained from cocoons produced by wild silkworms also have excellent moisturizing properties, heat retaining properties, antibacterial properties, and wound healing properties of the silk itself. Emulsions have very good properties. Therefore, by adding the silk fine particles according to the present embodiment to a cosmetic having a conventional sunscreen effect, it is possible to enhance the ultraviolet absorbing effect and improve the usability.

(Other Embodiments) A cosmetic lotion as a cosmetic according to another embodiment is obtained by refining and pulverizing silk fibers (cocoons) produced by saksan, a kind of wild silkworm. Silk fine particles having a particle size of 1 μm or more and 100 μm or less are charged into a predetermined amount of a mixture of ethanol, purified water, or the like as a base material, and sufficiently stirred to prepare. This cosmetic lotion has the same effect as the above-mentioned cosmetic emulsion.

[0026]

The present invention will now be described in detail with reference to the following examples, which are used for illustrative purposes only and should not be used for limiting purposes. (Preparation of silk fine particles from wild silkworm) Silk fibers (cocoon thread) obtained from cocoons produced by wild silkworm Saksan are refined and pulverized to obtain silk fine particles (hereinafter referred to as "wild silk fine particles"). Was. The molecular weight of the wild silkworm silk fine particles is about 10,000 or more according to the gel filtration method, and when the particle size is measured by a Coulter counter, the maximum particle size is 100 μm.
m, the minimum particle size was 1 μm, and the particle size of many wild silkworm silk fine particles was about 10 μm or more and about 60 μm or less. It should be noted that wild silkworm microparticles can be obtained in a similar manner from other wild silkworms other than Saksan (for example, natural silkworm, Saksan, Erisan, Tasarsan, Mugasan, Cricuura, etc.).

Example 1 Preparation of Cosmetic Emulsion (Part 1)
10 parts by weight of wild silk fine particles, 30 parts by weight of liquid paraffin, 10 parts by weight of hydrogenated lecithin, and 50 parts by weight of purified water are mixed and sufficiently stirred to prepare a cosmetic emulsion as a cosmetic agent. did.

Example 2 Preparation of Cosmetic Lotion 1
0 parts by weight wild silk fine particles, 10 parts by weight ethanol, 1 part by weight
A cosmetic lotion as a cosmetic was prepared by mixing parts by weight of citric acid, 1 part by weight of lactic acid, and 78 parts by weight of purified water and thoroughly stirring.

Example 3 Preparation of Cosmetic Emulsion (Part 2)
10 parts by weight of wild silk fine particles, 10 parts by weight of titanium dioxide, 10 parts by weight of 2-ethylhexyl paramethoxycinnamate (manufactured by Harman & Reimer), 20 parts by weight of decamethylcyclopentanesiloxane (manufactured by Toray Dow Corning Silicone Co., Ltd.) ), 5 parts by weight of a polyoxyethylene-modified dimethylpolysiloxane (manufactured by Toray Dow Corning Silicone Co., Ltd.) and 40 parts by weight of ethanol were mixed and sufficiently stirred to prepare a cosmetic emulsion as a cosmetic. This cosmetic emulsion is obtained by adding wild silkworm fine particles to a commercially available sunscreen.

Comparative Example 1 Preparation of Comparative Cosmetic Emulsion (1) Instead of wild silkworm silk fine particles, silk fine particles obtained by refining and pulverizing a silk fiber (cocoon thread) obtained from a cocoon produced by silkworm ( Hereinafter, a comparative cosmetic emulsion was prepared in the same manner as in Example 1 except that the silk fine particles were referred to as “silkworm silk fine particles”.

Comparative Example 2 Preparation of Comparative Cosmetic Lotion A comparative cosmetic emulsion was prepared in the same manner as in Example 2, except that silkworm silk fine particles were used in place of wild silk fine particles.

Comparative Example 3 Preparation of Comparative Cosmetic Emulsion (2) A comparative cosmetic emulsion was prepared in the same manner as in Example 3 except that wild silk fine particles were not mixed. In addition,
The components contained in this comparative cosmetic emulsion are almost the same as the components contained in a commercially available sunscreen.

(Measurement of UV Absorbing Ability) The cosmetic emulsion prepared in Example 1 was poured into a quartz cell having an optical path of 10 mm, and a spectrophotometer (manufactured by Hitachi, Ltd., model number: U
-3210) was used to measure the absorbance in the wavelength range from 500 nm to 200 nm. Similarly, the absorbance was measured for the cosmetic emulsion or lotion prepared in Example 2, Example 3, and each comparative example. Table 1 shows the measurement results of the cosmetic emulsion and the cosmetic lotion prepared in Example 1, Comparative Example 1, Example 2 and Comparative Example 2, and those of the cosmetic emulsion prepared in Example 3 and Comparative Example 3. Table 2 shows the measurement results.

[0034]

[Table 1]

[0035]

[Table 2]

From Table 1, it can be seen that the cosmetic milky lotion and the cosmetic lotion containing the wild silkworm fine particles obtained in Examples 1 and 2 correspond to the comparative silkworm silk fine particles obtained in Comparative Examples 1 and 2. About 200 nm to about 400 nm compared to a cosmetic emulsion and a comparative cosmetic lotion.
It is understood that it shows higher absorbance in the ultraviolet wavelength region of nm. Therefore, the cosmetic agent according to the present invention comprises UVA
It is understood that ultraviolet rays having a wide wavelength range including both wavelength ranges of UVB and UVB can be absorbed.

In particular, when the UVA region having a wavelength of about 320 nm or more and about 400 nm or less is analyzed in detail, this UVA
In the region A, at the same wavelength, Examples 1 and 2
It is understood that the cosmetic emulsion and the cosmetic lotion in Comparative Example 1 have an absorbance almost 2-3 times that of the comparative cosmetic emulsion and the comparative cosmetic lotion in Comparative Examples 1 and 2. Therefore, the cosmetic according to the present invention has a UV
It is understood that the region A has excellent ultraviolet absorbing ability.

In the UVB region, the first embodiment
The cosmetic emulsion and cosmetic lotion in and 2 have an absorbance of at least about 1.4 or greater. on the other hand,
The comparative cosmetic emulsion and comparative cosmetic lotion in Comparative Examples 1 and 2 have an absorbance of at most less than 1.3 in the UVB range. In the UVB region, at the same wavelength, the cosmetic emulsion and the cosmetic lotion in Examples 1 and 2 were approximately 1.5 times the comparative cosmetic emulsion and the cosmetic lotion in Comparative Examples 1 and 2. It has an absorbance of up to 2.5 times, and it is understood that it has excellent ultraviolet absorbing ability even in the UVB region.

Also, from Table 2, it can be seen that a cosmetic emulsion containing the same components as those obtained by adding wild silkworm fine particles to a commercially available sunscreen (Example 3) is a comparative cosmetic containing the same components as the commercially available sunscreen. It is understood that it has excellent ultraviolet absorbing ability in both UVA and UVB ultraviolet regions as compared with the emulsion for use (Comparative Example 3). Therefore, the wild silkworm fine particles and the conventionally used ultraviolet ray absorbing component do not adversely affect each other, and it is possible to further enhance the ultraviolet ray absorbing effect by adding wild silkworm fine particles to a commercially available sunscreen. Understood.

[0040]

According to the present invention, silk fine particles obtained from a cocoon produced by wild silkworm absorb ultraviolet rays of a wide wavelength range including not only UVB but also UVA, as compared with silk fine particles obtained from silkworm. Can be. In addition, since such silk fine particles are easily dissolved in water as compared with organic UV absorbers which have been conventionally used, a hydrophilic base such as purified water is used as a base material when forming a cosmetic. Materials can be used. For this reason, when the cosmetic obtained using the above-mentioned silk fine particles is used, "stickiness" does not almost occur on the skin.

Further, since silk fine particles obtained from cocoons produced by wild silkworms are natural materials, they are less irritating to the skin. Therefore, when the cosmetic agent according to the present invention is used, there is no "squeaky feeling" that has conventionally occurred when an inorganic ultraviolet protective agent is used, and no whiteness remains on the skin. Furthermore, silk fine particles obtained from cocoons produced by wild silkworms also have very excellent properties such as excellent moisture retention, heat retention, antibacterial properties, and wound healing properties of the silk itself.

That is, the cosmetic agent according to the present invention is not only irritating to the skin and excellent in feeling of use, but also has a UVB
In addition, UV rays having a wider wavelength range including UVA can be effectively absorbed. Therefore, this cosmetic is expected to be used as a sunscreen, a skin cream, a hair shampoo and the like.

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4C083 AA071 AA072 AB242 AC022 AC102 AC211 AC302 AC331 AC351 AC352 AD162 AD172 AD572 CC01 CC04 CC05 CC19 EE06 EE17

Claims (2)

[Claims] Claims: 1. A silk fiber produced by a wild silkworm,
A cosmetic agent having an ultraviolet absorbing function, containing silk fine particles finely divided to a particle size of 0 μm or less. 2. The cosmetic agent having an ultraviolet absorbing function according to claim 1, comprising an organic ultraviolet absorbing agent and / or an inorganic ultraviolet protecting agent in addition to the silk fine particles.