JP7165500B2 - sunscreen cosmetics - Google Patents

Description

TECHNICAL FIELD The present invention relates to sunscreen cosmetics, and more particularly to sunscreen cosmetics using raw materials derived from natural products as all ingredients.

Conventionally, sunscreen cosmetics using metal oxides have been proposed. For example, U.S. Pat. No. 5,300,002 discloses a composition comprising a hydrophobic metal oxide with a first coating and a second coating of a silicone compound, which is incorporated into an oil-soluble or water-soluble sunscreen. (Patent Document 1, Claims 1 and 3). Patent Document 2 describes a sunscreen cosmetic containing (a) a volatile organopolysiloxane, (b) a silicone-based dispersant, (c) silicone surface-treated metal oxide fine particles, and (d) an organic ultraviolet absorber. (Patent document 2, claim 1 and paragraph 0012).

JP 2007-314533 A JP 2009-84171 A

From the viewpoint of providing safe cosmetics with lower skin irritation, cosmetics containing as few chemically synthesized substances as possible are desired. In addition, if the metal oxide aggregates in the sunscreen cosmetic or settles out over time, the sunscreen cosmetic may not feel good when used. In Patent Documents 1 and 2, a metal oxide is coated with silicone. However, when the sunscreen cosmetic is water-based, the silicone-coated metal oxide is not stably dispersed in the sunscreen cosmetic. In order to stably disperse the silicone-coated metal oxide in the sunscreen cosmetic, it is necessary to add a surfactant (emulsifier). However, surfactants (emulsifiers) are highly irritating to the skin. The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a sunscreen cosmetic that is less irritating to the skin, has good metal oxide dispersibility, and is excellent in feeling during use.
Another object of the present invention is to provide a method for producing a sunscreen cosmetic for improving the stability of the sunscreen cosmetic over time.

The sunscreen cosmetic of the present invention, which has solved the above problems, is characterized by containing the following components (a) to (c).
(a) metal oxide surface-treated with silica derived from natural products (b) quince seed extract (c) 1,3-propanediol derived from natural products

The sunscreen cosmetic of the present invention contains (a) a metal oxide surface-treated with silica derived from a natural product. In the present invention, the metal oxide is surface treated with silica rather than with a silicone compound. Metal oxides surface-treated with silica have good dispersibility and stability in water. Therefore, it is possible to reduce the amount of surfactant (emulsifier) compounded in the sunscreen cosmetic, or it is not necessary to compound it. Therefore, the sunscreen cosmetic of the present invention has a good feeling in use and low skin irritation. The sunscreen cosmetic of the present invention further contains (b) quince seed extract and (c) 1,3-propanediol derived from a natural product. By using (b) quince seed extract derived from a natural product and (c) 1,3-propanediol derived from a natural product, the content of chemically synthesized components can be kept low. By using (c) 1,3-propanediol derived from natural products, which has an antibacterial effect, the sunscreen cosmetic of the present invention can reduce the content of highly irritating preservatives such as parabens. or need not contain highly skin irritating preservatives. Therefore, the sunscreen cosmetic of the present invention containing (b) quince seed extract and (c) naturally-derived 1,3-propanediol has low skin irritation. In addition, by including (b) quince seed extract and (c) naturally-derived 1,3-propanediol, the dispersibility of component (a) in the sunscreen cosmetic of the present invention is further improved. Due to the improved dispersibility of the component (a), the sunscreen cosmetic of the present invention does not become "twisted" after being applied to the skin, and has a good feel during use.

In the present invention, the term “natural product” may be any synthetic substance produced by chemical synthesis, and includes plants and animals that exist in nature without human intervention, as well as artificially cultivated plants and cultured plants. It also includes animals such as animals. In addition, the term "substance derived from a natural product" refers to a natural product itself, a substance produced from a natural product, or a substance obtained by extracting a part of components constituting a natural product by a method such as extraction.

The present invention also includes a method for producing the sunscreen cosmetic. In the method for producing a sunscreen cosmetic of the present invention, (a) a metal oxide surface-treated with silica derived from a natural product is dispersed in (c) 1,3-propanediol derived from a natural product to prepare a dispersion. and (b) further dispersing the dispersion in an aqueous solution in which the quince seed extract is dissolved. The production method makes it difficult for the ingredients contained in the resulting sunscreen cosmetic to separate, thereby improving the temporal stability of the resulting sunscreen cosmetic.

ADVANTAGE OF THE INVENTION According to this invention, the skin irritation|stimulation is lower, and the dispersibility of a metal oxide is good, and the sunscreen cosmetics which are excellent in a feeling of use can be provided. Moreover, according to this invention, the manufacturing method of the sunscreen cosmetics for improving the aging stability of the said sunscreen cosmetics can be provided.

The sunscreen cosmetic of the present invention is characterized by containing the following components (a) to (c).
(a) metal oxide surface-treated with silica derived from natural products (b) quince seed extract (c) 1,3-propanediol derived from natural products

The sunscreen cosmetic of the present invention contains (a) a metal oxide surface-treated with silica derived from a natural product. The (a) metal oxide surface-treated with silica derived from a natural product used in the present invention has higher dispersibility in a sunscreen cosmetic than a metal oxide that is not surface-treated. Moreover, since the surface activity of the metal oxide can be reduced by surface-treating the metal oxide with silica, the sunscreen cosmetic of the present invention has low skin irritation and is safe. (a) The metal oxide surfaced with silica derived from a natural product may have at least a portion of its surface coated with silica, and the entire surface of the metal oxide is preferably coated with silica. .

The metal oxide in (a) the metal oxide surface-treated with silica derived from a natural product will be described. In the present invention, a metal oxide is used as an ultraviolet scattering agent that physically shields ultraviolet rays by reflection and scattering. The metal oxide used in the present invention includes one or more selected from the group consisting of titanium oxide, zinc oxide, iron oxide, chromium oxide, and cerium oxide. Among these, the metal oxide is preferably titanium oxide and/or zinc oxide in terms of optical properties.

When the metal oxide is titanium oxide, the crystal structure of the titanium oxide includes rutile type, anatase type, and brookite type. The crystal structure of the titanium oxide is preferably a rutile type with a high refractive index. As the titanium oxide, those derived from natural products are preferable, and examples thereof include those derived from ilmenite ore.

Silica in the above (a) metal oxide surface-treated with silica derived from natural products will be described. Silica in the present invention means silicon dioxide. Examples of the silica include crystalline silica and amorphous silica, and amorphous silica is preferred. Moreover, the silica may be surface-treated with a metal oxide as silica hydrate (hydrous silica). By surface-treating a metal oxide with silica, the dispersibility of the metal oxide present as a dispersoid in a dispersion medium such as water is improved.

A method of surface treatment with silica is not particularly limited, but a wet method and the like can be mentioned. The wet method is a method in which a water-soluble compound such as sodium silicate is added to a metal oxide slurry, and then an acid or base is added. In this method, the metal oxide is coated with the silica hydrate by depositing the silica hydrate on the surface of the metal oxide. In the present invention, when the surface treatment with silica is performed by a wet method, the silica contained in the water-soluble compound such as sodium silicate is derived from natural products.

The natural product-derived silica is preferably mineral-derived silica, and more preferably silica sand-derived silica.

The (a) metal oxide surface-treated with silica derived from a natural product is preferably in the form of particles. When the metal oxide is particulate, the average primary particle size of the (a) metal oxide surface-treated with silica derived from a natural product is not particularly limited, but is preferably 100 nm or less, more preferably. is 80 nm or less, more preferably 50 nm or less, and preferably 10 nm or more. This is because when the average primary particle size is 100 nm or less, whitening and white residue are less likely to occur when the sunscreen cosmetic is applied to the skin. In the present invention, (a) the value of the average primary particle size of the metal oxide surface-treated with silica derived from natural products is 1000 from the image obtained by photographing the metal oxide using a transmission electron microscope. It is obtained by plotting the unidirectional diameters (the length of the horizontal line that divides the area of the particles in half) of the primary particles of the metal oxide and averaging them.

When the (a) metal oxide surface-treated with silica derived from a natural product is particulate, the shape of the metal oxide may be spherical, spindle-shaped, rod-shaped, starfish-shaped, plate-shaped, amorphous, or the like. Examples include, but are not limited to. A spherical shape, a spindle shape, or a plate shape is preferable, and a spherical shape or a spindle shape is more preferable, from the viewpoint of excellent ultraviolet shielding properties.

In the (a) metal oxide surface-treated with silica derived from a natural product, the mass ratio of silica to metal oxide (silica/metal oxide) is preferably 0.15 or more, more preferably 0.20 or more. , more preferably 0.30 or more, and most preferably 0.43 or more. This is because when the ratio is 0.15 or more, the dispersibility of the component (a) is further improved. Although the upper limit of the ratio is not particularly limited, the ratio is preferably 1.00 or less, more preferably 0.80 or less.

As the (a) metal oxide surface-treated with silica derived from a natural product, for example, titanium oxide surface-treated with silica commercially available under the trade name “MT-100WP” from Teika Co., Ltd., trade name Zinc oxide surface treated with silica sold as "MZ-500HP" can be used.

The content of component (a) in the sunscreen cosmetic of the present invention is preferably 5% by mass or more, more preferably 7.5% by mass or more, and even more preferably 10% by mass or more. This is because, if the content of component (a) is high, a sufficient UV protection effect in daily life will be exhibited. Although the upper limit of the content of component (a) is not particularly limited, the content of component (a) is preferably 20% by mass or less from the viewpoint of feeling during use.

The sunscreen cosmetic of the present invention contains (b) a quince seed extract. (b) Quince seed extract is a substance derived from natural products. (b) Quince seed extract is obtained by adding purified water and glycerin to the seeds of quince of the family Rosaceae. The (b) quince seed extract contains polysaccharides. (b) Examples of polysaccharides contained in the quince seed extract include celluloses and xylans.

(b) Quince Seed Extract improves the dispersibility of component (a) by being blended in the sunscreen cosmetic of the present invention together with (c) naturally-derived 1,3-propanediol. The (b) quince seed extract is a sticky liquid and has a unique refreshing feel. This feeling of use is unique and different from the feeling of use of synthetic polymers or other natural tacky liquids. (b) Quince Seed Extract reduces stickiness caused by (c) naturally derived 1,3-propanediol. Therefore, the sunscreen cosmetic of the present invention has improved usability.

The sunscreen cosmetic of the present invention has improved usability due to the component (b) as described above. The component (b) is a substance derived from natural products. Therefore, in the sunscreen cosmetic of the present invention, the content of chemically synthesized substances for improving usability can be kept low. Therefore, the sunscreen cosmetic of the present invention containing the component (b) has low skin irritation.

The content of component (b) in the sunscreen cosmetic of the present invention is 0.1% by mass or more, more preferably 0.2% by mass or more, and still more preferably 0.3% by mass or more. It is preferably 6% by mass or less, more preferably 0.55% by mass or less, and even more preferably 0.5% by mass or less. This is because when the content of component (b) is within the above range, the dispersion stability of component (a) is further improved. In the case of using a quince seed extract diluted with a solvent as the component (b) (diluted quince seed extract), the content of the component (b) is the quince seed extract in the sunscreen cosmetic of the present invention. It is the content of the pure component.

The sunscreen cosmetic of the present invention contains (c) 1,3-propanediol derived from a natural product. (c) 1,3-propanediol derived from natural products has a high moisturizing effect. In addition, (c) 1,3-propanediol, which is derived from a natural product, also has a high antibacterial effect and is less irritating to the skin than conventionally used preservatives such as ethyl alcohol and parabens. Therefore, the sunscreen cosmetic of the present invention containing (c) 1,3-propanediol derived from a natural product has lower skin irritation than conventional sunscreen cosmetics.

In addition, (c) 1,3-propanediol derived from a natural product is added to the sunscreen cosmetic together with (b) quince seed extract to improve the dispersibility of component (a). Therefore, the feeling of use of the sunscreen cosmetic of the present invention is improved.

The (c) natural product-derived 1,3-propanediol is preferably plant-derived, more preferably corn-derived. The (c) natural product-derived 1,3-propanediol is 1,3-propanediol alone or a propanediol-containing composition obtained from a natural product by a method such as extraction.

The content of component (c) in the sunscreen cosmetic of the present invention is preferably 10% by mass or more, more preferably 20% by mass or more, still more preferably 25% by mass or more, and most preferably 30% by mass or more. be. This is because when the content of component (c) is 10% by mass or more, the component (a) can be easily dispersed when the component (a) is dispersed in the component (c). Although the upper limit of the content of component (c) is not particularly limited, the content of component (c) is preferably 50% by mass or less.

The sunscreen cosmetic of the present invention preferably further contains glycerin. This is because if glycerin is contained, the moisturizing effect of the sunscreen cosmetic composition is further improved by a synergistic effect with (c) 1,3-propanediol. Moreover, from the viewpoint of reducing skin irritation, the glycerin is preferably derived from natural products.

The glycerin content in the entire sunscreen cosmetic is preferably 2.5% by mass or more, more preferably 4% by mass or more, and still more preferably 6% by mass or more. This is because the higher the glycerin content, the higher the moisturizing effect of the sunscreen cosmetic. Although the upper limit of the content is not particularly limited, the content of glycerin in the entire sunscreen cosmetic is preferably 50% by mass or less.

The sunscreen cosmetic of the present invention preferably further contains a pH adjuster. Examples of pH adjusters include buffers such as lactic acid-sodium lactate, citric acid-sodium citrate, and succinic acid-sodium succinate. The sunscreen cosmetic of the present invention preferably contains citric acid-sodium citrate as the pH adjuster. From the viewpoint of reducing skin irritation, the pH adjusting agent is preferably derived from natural products.

The sunscreen cosmetic of the present invention may further contain the following ingredients. From the viewpoint of reducing skin irritation, each of the following components is preferably derived from natural products.
Mannitol: moisturizing agent Human oligopeptide-1: cell growth action, wound healing Glyceryl glucoside: emollient agent

The sunscreen cosmetic of the present invention may further contain optional ingredients that are commonly used in cosmetics, but from the viewpoint of reducing skin irritation, the optional ingredients are preferably derived from natural products.

From the viewpoint of reducing skin irritation, the sunscreen cosmetic of the present invention preferably does not contain an ultraviolet absorber. Examples of the ultraviolet absorber include octyl methoxycinnamate, dimethoxybenzylidenedioxoimidazolidinepropionate, hexyl diethylaminohydroxybenzoylbenzoate, t-butylmethoxydibenzoylmethane, octyltriazone, paramethoxycinnamate 2- and ethylhexyl.

From the viewpoint of reducing skin irritation, the sunscreen cosmetic of the present invention preferably does not contain a monohydric lower alcohol. A monohydric lower alcohol has one hydroxyl group and has 5 or less carbon atoms. Monohydric lower alcohols include ethanol, propanol, isopropanol, isobutyl alcohol, t-butyl alcohol and the like.

Although the dosage form of the sunscreen cosmetic of the present invention is not particularly limited, various forms such as liquid, milky lotion, cream, gel, and paste can be mentioned. The sunscreen cosmetic of the present invention is preferably gel. A gel-like sunscreen cosmetic does not need to contain an oil agent or a surfactant (excluding carryover components). Therefore, the gel-like sunscreen cosmetic has low skin irritation.

Each component constituting the sunscreen cosmetic of the present invention is preferably derived from natural products, and more preferably does not contain chemically synthesized substances due to carryover.

In the method for producing a sunscreen cosmetic of the present invention, (a) a metal oxide surface-treated with silica derived from a natural product is dispersed in (c) 1,3-propanediol derived from a natural product to prepare a dispersion. and (b) further dispersing the dispersion in an aqueous solution in which the quince seed extract is dissolved. Hereinafter, the details of the method for producing the sunscreen cosmetic of the present invention will be described.

First, the step of (a) dispersing a metal oxide surface-treated with silica derived from a natural product into (c) 1,3-propanediol derived from a natural product to obtain a dispersion will be described. Each of the sunscreen cosmetics obtained by previously dispersing the (a) metal oxide surface-treated with silica derived from a natural product in the (c) 1,3-propanediol derived from a natural product. Raw material components become difficult to separate. As a result, the obtained sunscreen cosmetic maintains a stable shape even during storage. In the production method of the present invention, it is preferable to disperse the component (a) into the component (c) using a known dispersing machine such as a roll mill, a ball mill, or a disper, and the component (a) is dispersed using a roll mill. It is more preferable to disperse in the component (c).

The roll mill is a device capable of kneading paste materials. In the production method of the present invention, it is preferable to knead the components (a) and (c) in a roll mill. By the kneading, the component (a) can be uniformly mixed and dispersed in the component (c). The roll mill preferably has two or more rollers, more preferably three or more rollers, and even more preferably a three-roll mill having three rollers.

The three-roll mill mentioned above will now be described. In a three-roll mill, the roll axes of the three rolls are arranged parallel to the horizontal plane. Moreover, each roll shaft is arranged so as to be parallel to each other. Each of the three rolls consists of a rear roll, a middle roll and a front roll. A three-roll mill has a rear middle roll nip and a front middle roll nip. The rear middle roll gap is the gap between the rear roll and the middle roll. The front middle roll gap is the gap between the front roll and the middle roll. These gaps range from several micrometers to several hundred micrometers, and are appropriately changed according to the material.

A three-roll mill is used by setting the peripheral speed of each roll to be different. For example, the ratio of the peripheral speed of each roll is [rear roll peripheral speed]: [middle roll peripheral speed]: [front roll peripheral speed] = [1]: [1 to 4]: [4 to 12]. is set to In addition, the peripheral speed of each roll is appropriately changed according to the material. A paste-like material to be kneaded in the three-roll mill is supplied from above the gap between the rear and middle rolls. Material on the rear roll is transferred from the rear roll to the middle roll as it passes through the rear middle roll nip. Then, the material transferred to the middle roll is transferred from the middle roll to the front roll when passing through the front middle roll gap. Compressive and shear forces are applied to the material as it passes through these gaps. As a result, the materials are uniformly mixed and dispersed. The kneaded material transferred to the front roll is scraped off with a blade and collected. The steps from supplying the material to scraping it with a blade and recovering it are called one-time kneading by a three-roll mill.

In the method for producing a sunscreen cosmetic of the present invention, the step of kneading the (a) metal oxide surface-treated with silica derived from a natural product and the (c) 1,3-propanediol derived from a natural product in a roll mill. In the case of using a 3-roll mill, the number of times of kneading is preferably 3 or more. This is because component (a) is well mixed and dispersed in component (c) if the number of times of kneading is 3 or more. Although the upper limit of the number of times of kneading is not particularly limited, it is preferably 5 times or less.

In the step of kneading the (a) component and the (c) component in a roll mill, the mass of the (c) component in the kneaded product (dispersion) of the (a) component and the (c) component is (a) It is preferable to knead so that the mass of the ingredients is 1.5 to 2 times. This is because component (c) can be prevented from dripping between rolls if the mass of component (c) is within the above range. In addition to the component (c) used in the kneading step, (c) 1,3-propanediol derived from natural products may be added to the sunscreen cosmetic. The additional (c) natural product-derived 1,3-propanediol is preferably not kneaded with the component (a), but dispersed in an aqueous solution (b) in which the quince seed extract described later is dissolved.

Before the kneading, (a) the metal oxide surface-treated with silica derived from a natural product and (c) 1,3-propanediol derived from a natural product are preferably premixed. A known mixer can be used for the premixing. The premixing results in a mixture containing (a) the metal oxide surface-treated with the naturally occurring silica and (c) the naturally occurring 1,3-propanediol. In the step of kneading components (a) and (c), component (a) is well mixed and dispersed in component (c) by kneading the mixture.

Next, a dispersion obtained by dispersing (a) a metal oxide surface-treated with silica derived from a natural product (c) in 1,3-propanediol derived from a natural product and (b) a quince seed extract The step of further dispersing in the dissolved aqueous solution will be described. A known dispersing machine can be used when the dispersion is further dispersed in the (b) aqueous solution in which the quince seed extract is dissolved.

The aqueous solution is preferably one in which the component (b) and the pH adjuster are dissolved. Moreover, it is preferable that the aqueous solution is obtained by further dissolving (b) quince seed extract after dissolving the pH adjuster. Also, (b) the quince sheet extract is preferably added to purified water at room temperature and heated to 80° C. to dissolve.

The material temperature in the step (b) of further dispersing the dispersion in the aqueous solution in which the quince seed extract is dissolved is not particularly limited, but is preferably adjusted to room temperature to 80° C. or less. When other optional ingredients are added to the sunscreen cosmetic of the present invention, they are not particularly limited, but are preferably added before the sterilization step.

Hereinafter, the present invention will be described in detail with reference to examples, but the present invention is not limited to the following examples, and any modifications and embodiments that do not depart from the scope of the present invention can be made within the scope of the present invention. Included in scope.

A sunscreen gel having the composition shown below was prepared by the following manufacturing method. It should be noted that what is described in parentheses of the ingredients is the natural product from which the ingredients are derived.
[Example] Sunscreen gel Ingredients Amount (% by mass)
1 Titanium oxide (*1) (ilmenite ore) 10
2 Silica (*1) (silica sand) 4.3
3 1,3-propanediol (corn) 30
4 Glycerin (Palm, etc.) 6.24
5 Human oligopeptide-1 (fermentation) 0.01 or less 6 Mannitol (corn starch, etc.) 0.01 or less 7 Quince seed extract (*2) (quince seed) 0.42
8 Glyceryl glucoside (corn) 0.72
9 Citric acid (sweet potato starch cake, etc.) 0.01
10 Na citrate (citric acid, etc.) 0.15
11 Purified water remaining amount

* 1 "MT-100WP" manufactured by Tayka (microparticle titanium oxide surface-treated with silica by a wet method, the average primary particle size of the fine particle titanium oxide is 15 nm, and the average primary particle size is measured using a transmission electron microscope. Obtained by plotting the directional diameters (the length of the horizontal line that bisects the area of the particles) of 1000 or more primary particles of the metal oxide from the image obtained by photographing the metal oxide, and averaging them. is the one)
*2 Quince Seed Extract pure content contained in Quince Seed Extract Dilution “Quince Seed G” manufactured by Dainippon Kasei Co., Ltd. (Quince Seed Extract Pure Content: 6% by mass, Glycerin: 88% by mass, Purified Water: 6% by mass)

(Manufacturing method of sunscreen gel of Example)
A: Component 1 surface-treated with component 2 and part of component 3 were mixed at room temperature. The mass ratio of part of Component 3 to Component 1 was mixed to 1.5-2.
B: A was kneaded three times with a three-roll mill. RIII-1R-2 model manufactured by Kodaira Seisakusho Co., Ltd. was used as a three-roll mill.
C: The rest of component 3, 4, 7, 8, 9 and 10 were added to component 11 and heated to 80°C with stirring to dissolve them. In addition, the quince seed extract was dissolved so that the ratio of the pure quince seed extract in the aqueous solution obtained in C was 0.2% by mass to 0.6% by mass.
D: C was sterilized after visually confirming that C reached 80°C and component 7 had dissolved. E: While D was cooled, B, component 5 and component 6 were added to D and mixed uniformly.
F: After E was adjusted to 35°C and filled into a container, a sunscreen cosmetic was obtained.

[Comparative Example 1]
A sunscreen gel was produced with the same composition and production method as those of the sunscreen gel of the example, except that the quince seed extract was changed to xanthan gum.

[Comparative Example 2]
A sunscreen gel was produced with the same composition and production method as those of the sunscreen gel of the example except that the quince seed extract was changed to locust bean gum.

[Comparative Example 3]
A sunscreen gel was produced using the same composition and production method as those of the sunscreen gel of the example, except that the quince seed extract was changed to trehalose.

(Evaluation method and evaluation results)
The sunscreen gels of the examples show no separation of the raw material components even after one month has passed at 45°C after being filled in the container, and spreads well when applied to the skin, giving a good feeling of use. Met. Further, the sunscreen gel of the example was measured by the measurement method published as ISO24444 for SPF and ISO24442 for UVA prevention effect, and found to be SPF=17 and PA++. This sunscreen gel had a sufficient UV protection effect.

In the sunscreen gel of Comparative Example 1, the raw material components were uniformly mixed, and no separation of the raw material components was observed even after one month at 45° C. after filling the container. However, when it was applied to the skin, it did not spread well and the feeling of use was not good. In the sunscreen gels of Comparative Examples 2 and 3, separation of the raw material components was observed before one month had passed since filling the containers at 45°C. Therefore, the sunscreen gels of Comparative Examples 1 to 3 were unsuccessful as commercial products.

INDUSTRIAL APPLICABILITY The present invention is useful as a sunscreen cosmetic. The sunscreen cosmetic of the present invention is useful as a cosmetic containing all ingredients derived from natural products.

Claims (4)

A sunscreen cosmetic containing the following ingredients ,
(a) metal oxide surface-treated with silica derived from natural products (b) quince seed extract (c) 1,3-propanediol derived from natural products
glycerin,
glyceryl glucoside,
citric acid,
sodium citrate,
The content of (a) metal oxides surface-treated with silica derived from natural products is 10% to 20% by mass, and (b) the content of quince seed extract is 0.2% by mass in the sunscreen cosmetic. % to 0.6% by mass, (c) the content of 1,3-propanediol derived from natural products is 25% to 50% by mass, and all components constituting the sunscreen cosmetic are natural products A sunscreen cosmetic characterized by being derived from . The sunscreen cosmetic according to Claim 1, wherein the metal oxide is titanium oxide. 3. The sunscreen cosmetic according to claim 1, wherein the metal oxide is a particulate metal oxide having an average primary particle size of 10 nm to 100 nm. A method for producing a sunscreen cosmetic according to any one of claims 1 to 3 ,
(a) obtaining a dispersion by dispersing a metal oxide surface-treated with silica derived from natural sources into (c) 1,3-propanediol derived from natural sources; and
A method for producing a sunscreen cosmetic, comprising the step of further dispersing the dispersion in (b) an aqueous solution in which a quince seed extract is dissolved.