JP5985729B1 - Non-aerosol type foam sunscreen cosmetics - Google Patents

Abstract

Disclosed is a non-aerosol foam sunscreen cosmetic comprising an ultraviolet absorber-encapsulating silicone derivative microcapsule and having excellent usability and stability. A non-aerosol foam sunscreen cosmetic comprising the following (A) to (C): (A) UV absorber encapsulated silicone derivative microcapsule (B) amphoteric surfactant (C) anionic surfactant [selection] None

Description

  The present invention relates to a non-aerosol foam sunscreen cosmetic.

  Conventionally, sunscreen cosmetics containing various ultraviolet absorbers have been developed in order to prevent the adverse effects of ultraviolet rays on the skin. However, the UV absorber itself has problems in terms of use such as smell and stickiness, and depending on the skin condition, it has safety problems such as causing skin troubles such as contact dermatitis. .

  Therefore, sunscreen cosmetics have been developed in which UV absorbers are encapsulated in silicone derivative microcapsules so that the UV absorbers do not touch the skin directly, improving the feeling of use and safety. . (Patent Document 1, Patent Document 2 and Patent Document 3) However, the sunscreen cosmetics of Patent Document 1, Patent Document 2 and Patent Document 3 are applied to the skin in a non-foamed form such as liquid or cream. In addition, depending on the raw materials used to make the dosage form, there was a problem of poor spread and stickiness.

  On the other hand, non-aerosol type foam discharge containers such as pump formers and squeeze foamers allow foams to be applied to the skin in a foamy manner, so that foam can be obtained with a simple method of use. It is used.

  However, a sunscreen cosmetic excellent in usability and stability in which a non-aerosol foam discharge container filled with a silicone derivative microcapsule encapsulating an ultraviolet absorber has not been developed yet.

JP 2012-136453 A JP 2014-5250 A JP, 2014-5251, A

  Then, this invention makes it a subject to provide the non-aerosol type foam sunscreen cosmetics which were excellent in the usability and stability containing the ultraviolet absorber inclusion silicone derivative microcapsule.

That is, this invention provides the following non-aerosol type foam sunscreen cosmetics characterized by containing the following (A)-(C).
(A) UV absorber encapsulated silicone derivative microcapsule (B) amphoteric surfactant (C) anionic surfactant

  According to the present invention, it is possible to obtain a non-aerosol foam sunscreen cosmetic excellent in use feeling and stability.

  The component (A) ultraviolet absorber-encapsulating silicone derivative microcapsule used in the present invention is obtained by microcapsulating an ultraviolet absorber with a silicone derivative.

  As the ultraviolet absorber to be included, any ultraviolet absorber that is usually used in the cosmetics field can be used without particular limitation. Specifically, 2-hydroxy-4-methoxybenzophenone, 2-hydroxy-4-methoxybenzophenone-5-sulfonic acid, sodium 2-hydroxy-4-methoxybenzophenone-5-sulfonate, dihydroxymethoxybenzophenone, dihydroxymethoxybenzophenone Sodium sulfonate, 2,4-dihydroxybenzophenone, tetrahydroxybenzophenone, paraaminobenzoic acid, ethyl paraaminobenzoate, glyceryl paraaminobenzoate, amyl paradimethylaminobenzoate, octyl paradimethylaminobenzoate, ethyl paramethoxycinnamate, paramethoxycinnamon Isopropyl acid, ethyl hexyl paramethoxycinnamate, 2-ethoxyethyl paramethoxycinnamate, sodium paramethoxycinnamate, paramethoxy Potassium cinnamate, glyceryl mono-2-ethylhexanoate, paramethoxycinnamate, ethylhexyl salicylate, phenyl salicylate, homomenthyl salicylate, dipropylene glycol salicylate, ethylene glycol salicylate, myristyl salicylate, methyl salicylate, urocanic acid, ethyl urocanate, 4-tert -Butyl-4'-methoxydibenzoylmethane, 2- (2'-hydroxy-5'-methylphenyl) benzotriazole, methyl anthranilate, etc. may be mentioned, one kind may be used alone, or two or more kinds May be used in combination. Among these, it is preferable to use ethyl hexyl paramethoxycinnamate (cosmetic label: ethylhexyl methoxycinnamate) and 4-tert-butyl-4'-methoxydibenzoylmethane (cosmetic label: t-butylmethoxydibenzoylmethane).

  As a silicone derivative which is a wall film of a microcapsule, any silicone derivative can be used without particular limitation. Among these, it is preferable to use polysilicone-14 (name of cosmetic display).

  The average particle size of the microcapsules is preferably 0.1 to 10 μm, and if the average particle size is outside this range, the feeling in use or stability may be affected.

  Component (A) may be used singly or in combination of two or more, and is 0.1 to 30% by mass relative to the total amount of the non-aerosol type foam sunscreen cosmetic of the present invention. Is preferable. When the blending amount is less than 0.1% by mass, the ultraviolet absorption effect may not be sufficiently exhibited, and when it exceeds 30% by mass, the usability may be deteriorated. Examples of commercially available products include SILASOMA MEA, SILASOMA MEA (L) (manufactured by Seiwa Kasei Co., Ltd.) and the like.

  The component (B) amphoteric surfactant used in the present invention is not particularly limited as long as it is usually used in the cosmetics field. Specifically, oleyl betaine, (capryl / capramide) propyl betaine, cocamidopropyl hydroxysultain, cocamidopropyl betaine, cocoamphoacetic acid Na, cocoamphodiacetate 2Na, cocoamphopropionate Na, cocobetaine, stearyl betaine, palm kernel Fatty acid amidoethyl hydroxyethylaminopropionic acid Na, palm kernel fatty acid amidopropyl betaine, hydroxyalkyl (C12,14) hydroxyethylalanine, myristamidopropyl betaine, lauramidopropyl hydroxysultain, lauramidopropyl betaine, lauraminopropionic acid Na , Lauriminodipropionate Na, lauryl hydroxysultain, lauryl betaine, lauroamphoacetate Na and the like. Among these, it is preferable to use cocoamphoacetic acid Na (cosmetic display name).

  Component (B) may be used singly or in combination of two or more, and 0.01 to 4% by mass relative to the total amount of the non-aerosol foam sunscreen cosmetic of the present invention. Is preferable. When the blending amount is less than 0.01% by mass, stability may be affected, and when it exceeds 4% by mass, the usability may be deteriorated. Examples of commercially available products include SOFTAZOLIN CL (manufactured by Kawaken Fine Chemical Co., Ltd.), Anon GLM-R-LV (manufactured by NOF Corporation), and the like.

  If the component (C) anionic surfactant used by this invention is normally used in the cosmetics field | area, it can be used without a restriction | limiting in particular. Specifically, palm kernel fatty acid (C11-15) Palace-3 sulfate Na, (C12,13) Palace-3 sulfate Na, (C12-15) Palace-3 sulfate Na, (C12,13) Palace-3 sulfate TEA, (C12,13) Palace-3 sulfate (TEA / Na), PEG-3 coconut oil fatty acid amide MEA sulfate Na, PEG-5 coconut oil fatty acid amide MEA phosphoric acid, PEG-5 lauryl citrate sulfosuccinate 2Na, PPG -5 ceteth-10 phosphoric acid, PPG-25 butyl phosphoric acid, alkyl (C14-18) sulfonic acid Na, alkyl (C11,13,15) sodium sulfate, alkyl (C12,13) sodium sulfate, alkyl (C11,13, 15) sulfuric acid TEA, alkyl (C12,13) sulfuric acid TEA, alkyl (C20-22) phosphoric acid, isostearoyl lactate Na, isola Res-4 phosphate, undecinoyl glycine, oleoyl sarcosine, oleoyl methyltaurine Na, oleth-3 phosphate, oleth-4 phosphate, oleth-5 phosphate, oleth-10 phosphate, oleth-20 phosphate Oleth-7 phosphate Na, oleth-8 phosphate Na, olefin (C14-16) sulfonate Na, capryloylglycine, cocoyl amino acid Na, cocoylalanine TEA, cocoyl isethionate Na, cocoyl isethionate ammonium, cocoyl Glycine K, cocoyl glycine Na, cocoyl glutamine TEA, cocoyl sarcosine, cocoyl sarcosine Na, cocoyl sarcosine TEA, cocoyl taurine Na, cocoyl methyl alanine, cocoyl methyl alanine Na, cocoyl methyl taurine K, cocoyl methyl taurine Mg Cocoyl Methyl Taurine Na, Cocoyl Apple Amino Acid Na, Kose Sulfate Na, Di (C12-15) Palace-2 Phosphate, Di (C12-15) Palace-4 Phosphate, Di (C12-15) Palace-6 Phosphate, Di (C12-15) Palace-6 Phosphate, Di (C12-15) Palace-8 Phosphate, Di (C12-15) Palace-10 Phosphate, Dioleyl Phosphate, Geoles-8 Phosphate Na, Dicocoylethylenediamine PEG -15 sulfate Na, dilaureth-10 phosphate Na, steareth-2 phosphate, steareth-3 phosphate, stearoyl lactate Ca, stearoyl lactate Na, stearoyl methyl taurine Na, sulfosuccinic acid (C12-14) palace-2Na, sulfosuccinic acid (C12-15) Palace 2Na, sulfosuccinic acid PEG-5 lauramide 2Na, sulfo Undecylenamide succinate MEA-2Na, dioctyl sulfosuccinate, lauramide sulfosuccinate MEA-2Na, lauryl sulfosuccinate 2Na, laureth sulfosuccinate 2Na, cetyl sulfate Na, cetyl phosphate DEA, cetyl phosphate K, cetearyl sulfate Na, ceteth-10 phosphate Ceteth-20 phosphoric acid, dodecylbenzenesulfonic acid Na, dodecylbenzenesulfonic acid TEA, tricetearis-4 phosphoric acid, trideceth-4 carboxylic acid, trideceth-8 carboxylic acid, trideceth-4 carboxylic acid Na, trideceth-7 carboxylic acid Na , Trideceth-3 acetate Na, trideceth-7 phosphate K, trilaureth-4 phosphate, oleyl lactate, palmitoyl sarcosine Na, palmitoyl proline, palmitoyl proline Na, palmitoyl methyl Urine Na, Myristyl sulfate Na, Myristoyl sarcosine Na, Myristoyl methyl alanine, Myristoyl methyl alanine Na, Myristoyl methyl taurine Na, Lauraminodiacetic acid Na, Lauryl glycol acetate Na, Lauryl sulfoacetate Na, Lauryl sulfate K, Lauryl sulfate Mg, Lauryl sulfate Na Lauryl sulfate TEA, ammonium lauryl sulfate, lauryl phosphate, sodium lauryl phosphate, 2Na lauryl phosphate, laureth-5 carboxylic acid, laureth-6 carboxylic acid, laureth-11 carboxylic acid, laureth-5 carboxylic acid Na, laureth-6 Carboxylic acid Na, laureth-11 carboxylic acid Na, laureth-5 acetic acid, laureth-6 acetic acid, laureth-4,5 acetic acid K, laureth-3 acetic acid Na, laureth-4 acetic acid Na, laureth-5 acetic acid N Laureth-6 acetate Na, laureth-11 acetate Na, laureth sulfate MIPA, laureth sulfate Na, laureth sulfate TEA, laureth-2 sulfate ammonium, laureth-3 sulfate sulfate, laureth-1 phosphate, laureth-2 phosphate, laureth-4 Phosphoric acid, lauroyl aspartate Na, lauroyl oat amino acid Na, lauroyl sarcosine, lauroyl sarcosine K, lauroyl sarcosine Na, lauroyl sarcosine TEA, lauroyl lactate Na, lauroyl methylalanine, lauroylmethylalanine K, lauroylmethylalanine Na, lauroylmethylalanine TEA , Lauroylmethyltaurine Na, dilauroylglutamate lysine Na and the like. Among these, it is preferable to use dilauroyl glutamic acid lysine Na (cosmetic label).

  Component (C) may be used singly or in combination of two or more, and is 0.01 to 3% by mass based on the total amount of the non-aerosol type foam sunscreen cosmetic of the present invention. Is preferable. When the blending amount is less than 0.01% by mass, the stability may be affected, and when it exceeds 3% by mass, the usability may be deteriorated. Examples of commercially available products include Perisea L-30 (manufactured by Asahi Kasei Chemicals Corporation).

  The non-aerosol type foam sunscreen cosmetics of the present invention can be blended with optional components used in ordinary cosmetics in addition to the above-mentioned components to such an extent that the effects of the present invention are not impaired. Specific examples include oil agents, thickeners, preservatives, fragrances, moisturizers, antioxidants, anti-inflammatory agents, antibacterial agents, and the like. It is preferable not to mix UV scattering agents such as titanium oxide and zinc oxide.

  The non-aerosol foam sunscreen cosmetic of the present invention is a non-aerosol foam discharge container other than an aerosol type using a propellant and the contents obtained by mixing and mixing the above-mentioned components by a conventional method. A product and air are mixed and allowed to pass through a porous membrane, thereby being used in the form of foam. The dosage form of the contents is preferably liquid or emulsion. Examples of the non-aerosol type foam discharge container include a pump former and a squeeze foamer.

  Hereinafter, the present invention will be specifically described by way of examples. However, the scope of the present invention is not limited thereby. In addition, unless otherwise indicated, a compounding quantity is the mass%.

  The ingredients in Table 1 were mixed uniformly at room temperature using a propeller. Subsequently, the obtained contents were filled in a pump former container, and non-aerosol foam sunscreen cosmetics of each Example and Comparative Example were produced.

  And about the non-aerosol type foam sunscreen cosmetics of each Example and the comparative example, the usability | use_condition and stability were evaluated by the following method. The results are shown in Table 1.

a) Foamability, foam texture, spread, and stickiness panel test conducted by 10 panelists, and according to the following evaluation criteria, the foamability and foam texture of the non-aerosol foam sunscreen cosmetics shown in Table 1 In addition, an absolute evaluation was made on the spread and stickiness, and the average score of the 10 people was determined according to the following criteria. The judgment criteria were common for foaming properties, foam texture, stretch and stickiness.
<Criteria>
A: 2.5 or more ○: 1.8 or more and less than 2.5 Δ: 1.0 or more and less than 1.8 × ×: less than 1.0

1) Foamability <Evaluation criteria>
3 points: very good 2 points: good 1 point: somewhat bad 0 point: bad

2) Texture of foam <Evaluation criteria>
3 points: very good 2 points: good 1 point: somewhat bad 0 point: bad

3) Nobi <Evaluation criteria>
3 points: very good 2 points: good 1 point: somewhat bad 0 point: bad

4) Stickiness <Evaluation criteria>
3 points: No stickiness 2 points: Little stickiness 1 point: Slightly sticky 0 point: Sticky

b) The appearance of the non-aerosol foam sunscreen cosmetics shown in Table 1 when stored at 5 ° C, 25 ° C, and 40 ° C for 3 months was determined according to the following criteria. .
<Criteria>
A: No change B: Little change Δ: Some separation or sedimentation is observed X: Separation or sedimentation is observed

As is clear from the results shown in Table 1, the non-aerosol type foam sunscreen cosmetics of each example were excellent in terms of use feeling and stability. On the other hand, the non-aerosol type foam sunscreen cosmetics of each comparative example were inferior in terms of usability and stability.

Claims (1)

A non-aerosol foam sunscreen cosmetic comprising the following (A) to (C):
(A) Ultraviolet absorber inclusion silicone derivative microcapsule (B) Cocoamphoacetic acid Na 0.01-4% by mass
(C) Dilauroyl glutamate lysine Na 0.01-3 mass%