CN112891229A

CN112891229A - Oxidation-resistant micro-molecular air cushion BB cream

Info

Publication number: CN112891229A
Application number: CN202110158379.9A
Authority: CN
Inventors: 谢坤; 其他发明人请求不公开姓名
Original assignee: Dongshengyuan Research Institute Guangzhou Co Ltd
Current assignee: Dongshengyuan Research Institute Guangzhou Co Ltd
Priority date: 2021-02-05
Filing date: 2021-02-05
Publication date: 2021-06-04

Abstract

The invention belongs to the technical field of cosmetics and discloses an oxidation-resistant micro-molecular air cushion BB cream which comprises a component A of a preparation, wherein the component A comprises a titanium dioxide composition, a yellow iron oxide composition, a trimethoxy decanoyl silane composition, a talcum powder composition, a titanium dioxide composition, a cyclopenta dimethyl siloxane composition, mineral oil, ethylhexyl palmitate, C12-15 alcohol benzoate, dioctyl carbonate, magnesium stearate, a zinc oxide composition, a cetyl PEG/PPG-10/1 dimethyl siloxane composition, a component B of the preparation comprises water, magnesium sulfate, propylene glycol, glycerol polyether-26, p-hydroxyacetophenone, a glycerol composition and nicotinamide, a component C of the preparation comprises a octanoyl hydroximic acid composition, a glycerol composition and a hydrolyzed collagen composition, a component D of the preparation comprises a sandalwood oil composition, the superfine particle technology is used, the air cushion is more close to the skin, and the wet double silicon treatment technology is used, so that the powder has excellent water repellency and oil dispersibility, high covering power and no false surface.

Description

Oxidation-resistant micro-molecular air cushion BB cream

Technical Field

The invention belongs to the technical field of cosmetics, and particularly relates to an oxidation-resistant micro-molecular air cushion BB cream.

Background

BB cream is a color cosmetic product applied to the face, BB is an abbreviation of Blemish Balm, and means scar care cream, which is originally designed by a patient who is subjected to laser treatment in Germany, and the main purpose is to cover the flaws, so that higher powder amount is needed to be matched, and in order to improve the emulsion stability, higher content of emulsifier is generally needed to be added, so that the general texture is thicker. The air cushion BB cream is a form used by filling BB cream into an air cushion packaging material, and a carrier of the air cushion BB cream is loose and porous sponge, so that the air cushion BB cream has good material body adhesion, fresh skin feel and ensures filling efficiency in production.

The foundation products need to add a large amount of powder in the formula, the surfaces of the powder are mostly uneven, microorganisms are easily adsorbed on the uneven surfaces, and in order to better control the microorganisms, the foundation products need to reach higher preservative adding amount, so that the user feedback of skin allergy occurs occasionally.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to provide an oxidation-resistant micro-molecular air cushion BB cream.

The technical scheme adopted by the invention is as follows: an oxidation-resistant micromolecule air cushion BB cream comprises A, B, C, D group preparations, wherein the A group preparations comprise a titanium dioxide composition, a yellow iron oxide composition, a trimethoxy decanoyl silane composition, a talcum powder composition, a titanium dioxide composition, a cyclopentasiloxane composition, mineral oil, ethylhexyl palmitate, C12-15 alcohol benzoate, dioctyl carbonate, magnesium stearate, a zinc oxide composition, a cetyl PEG/PPG-10/1 polydimethylsiloxane composition, the B group preparations comprise water, magnesium sulfate, propylene glycol, glycerol polyether-26, p-hydroxyacetophenone, a glycerol composition and nicotinamide, the C group preparations comprise a octanoyl hydroximic acid composition, a glycerol composition and a hydrolyzed collagen composition, the D group preparations comprise a sandalwood oil composition, the preparation method of the preparation comprises the following steps:

s1, grinding the A group preparation uniformly by a grinder for later use;

s2, adding the raw materials of the preparation A into an emulsifying pot, stirring and heating to 75 ℃, and homogenizing for 2 MIN; adding the preparation B into water phase pot, stirring and heating to 90 deg.C, dissolving completely, sterilizing at constant temperature for 10MIN, and cooling to 80 deg.C;

s3, starting an emulsifying pot, stirring, slowly adding the raw materials in the water phase pot in the S2, adding the raw materials for about 30MIN, homogenizing for 3MIN, and stirring uniformly;

s4, cooling to 45 deg.C, adding the group C preparation and the group D preparation, stirring, and homogenizing for 2 MIN;

and S5, cooling to 38 ℃, and discharging after the plate is qualified.

Further, the percentage ratios of the components of the A group of preparations are titanium dioxide composition (1.5%), yellow iron oxide composition (0.8%), trimethoxy decanoyl silane composition (0.29%), talcum powder composition (0.26%), titanium dioxide composition (4%), cyclopenta dimethyl siloxane composition (3%), mineral oil (15%), ethylhexyl palmitate (6%), C12-15 alcohol benzoate (2%), dioctyl carbonate (5%), magnesium stearate (0.7%), zinc oxide composition (3%), cetyl PEG/PPG-10/1 dimethyl siloxane composition (3%), and the percentage ratios of the components of the B group of preparations are water (41.97%), magnesium sulfate (1%), propylene glycol (8%), glyceryl polyether-26 (3%), p-hydroxyacetophenone (0.25%), (A-B group of preparations), The percentage ratio of the components of the preparation in the group C is caprylyl hydroximic acid composition (0.4%), the percentage ratio of the components of the preparation in the group C is glycerin composition (0.01%), the percentage ratio of the components of the preparation in the group D is hydrolyzed collagen composition (0.01%), and the percentage ratio of the components of the preparation in the group D is sandalwood oil composition (0.3%).

Furthermore, the titanium dioxide composition (1.5%) in the group A formulation includes titanium dioxide (90%), triethoxyoctylsilane (5.0%), aluminum oxide (5.0%), yellow iron oxide composition (0.8%), yellow iron oxide (78.4%), talc powder (19.6%), triethoxyoctylsilane (2%), trimethoxydecanoylsilane composition (0.29%), trimethoxydecanoylsilane (78.4%), talc powder (19.6%), triethoxyoctylsilane (2%), talc powder composition (0.26%), iron oxide (78.4%), talc powder (19.6%), triethoxyoctylsilane (2%), triethoxyoctylsilane composition (2%), titanium dioxide composition (4%), titanium dioxide (95.06%), triethoxyoctylsilane (2%), aluminum hydroxide (2.94, 2%), the cyclopentadimethylsiloxane composition (3%) included cyclopentadimethylsiloxane (70%), cyclohexasiloxane (30%). The zinc oxide composition (3%) comprises titanium dioxide (70-90%), zinc oxide (2-10%), polydimethylsiloxane (1-8%), magnesium palmitoylglutamate (1-10%), cyclohexasiloxane (2-6%), and cetyl PEG/PPG-10/1 polydimethylsiloxane composition (3%), and cetyl PEG/PPG-10/1 polydimethylsiloxane (80%), and isopropyl myristate (20%).

Further, the zinc oxide composition (3%) included titanium dioxide (70%), zinc oxide (10%), polydimethylsiloxane (5%), magnesium palmitoylglutamate (10%), cyclohexasiloxane (5%).

Further, the zinc oxide composition (3%) included titanium dioxide (80%), zinc oxide (5%), polydimethylsiloxane (8%), magnesium palmitoylglutamate (5%), cyclohexasiloxane (2%).

Still further, the zinc oxide composition (3%) included titanium dioxide (90%), zinc oxide (2%), polydimethylsiloxane (1%), magnesium palmitoylglutamate (3%), cyclohexasiloxane (4%).

Further, the glycerin composition (0.01%) in the group B formulation included water (92%), glycerin (5%), β -glucan (1%), 1, 2-hexanediol (1%), caprylyl glycol (0.6%), sodium benzoate (0.4%).

Further, the group C formulation of caprylyl hydroxamic acid composition (0.4%) included caprylyl hydroxamic acid (20%), propylene glycol (70%), glyceryl caprylate (10%), glycerin composition (0.01%) included water (60%), glycerin (36%), wild soybean protein (1%), superoxide dismutase (SOD) (1%), dextran sulfate sodium (1%), phenoxyethanol (0.7%), ethylhexyl glycerin (0.1%), sodium benzoate (0.1%), potassium sorbate (0.1%), hydrolyzed collagen composition (0.01%) included water (41%), hydrolyzed collagen (55%), butylene glycol (4%).

Further, the preparation in the group D comprises sandalwood oil (20%) and essence (80%).

The invention has the beneficial effects that:

the oxidation-resistant micro-molecular air cushion BB cream provided by the invention adopts an ultrafine particle technology, so that the air cushion is more close to the skin, the phenomena of powder agglutination, mud rubbing and pore blockage are avoided, and the powder has excellent water repellency and oil dispersibility by utilizing a wet double silicon treatment technology, has high covering power and cannot generate false surface; multiple plant components achieve the anti-oxidation effect, and the makeup and the maintenance are integrated, so that the popularization and the application of the market are facilitated.

Detailed Description

The present invention is further illustrated below with reference to specific examples.

The first embodiment is as follows:

this example provides an oxidation-resistant micro-molecular air cushion BB cream comprising A, B, C, D sets of formulations, the ingredients of the a set of formulations comprising a titanium dioxide composition, a yellow iron oxide composition, a trimethoxydecanoylsilane composition, a talc composition, a titanium dioxide composition, a cyclopentasiloxane composition, mineral oil, ethylhexyl palmitate, C12-15 alcohol benzoate, dioctyl carbonate, magnesium stearate, a zinc oxide composition, a cetyl PEG/PPG-10/1 dimethicone composition, the ingredients of the B set of formulations comprising water, magnesium sulfate, propylene glycol, glyceryl polyether-26, p-hydroxyacetophenone, a glycerin composition, niacinamide, the ingredients of the C set of formulations comprising a caprylhydroxamic acid composition, a glycerin composition, a hydrolyzed collagen composition, the ingredients of the D set of formulations comprising a sandalwood oil composition, the preparation method of the preparation comprises the following steps:

s1, grinding the A group preparation uniformly by a grinder for later use;

and S5, cooling to 38 ℃, and discharging after the plate is qualified.

Specifically, the percentage ratios of the components of the preparation in the group A comprise titanium dioxide composition (1.5%), yellow iron oxide composition (0.8%), trimethoxy decanoyl silane composition (0.29%), talcum powder composition (0.26%), titanium dioxide composition (4%), cyclopenta dimethyl siloxane composition (3%), mineral oil (15%), ethylhexyl palmitate (6%), C12-15 alcohol benzoate (2%), dioctyl carbonate (5%), magnesium stearate (0.7%), zinc oxide composition (3%), cetyl PEG/PPG-10/1 dimethyl siloxane composition (3%), and the percentage ratios of the components of the preparation in the group B comprise water (41.97%), magnesium sulfate (1%), propylene glycol (8%), glyceryl polyether-26 (3%), p-hydroxyacetophenone (0.25%), (A-B-group-preparation, The percentage ratio of the components of the preparation in the group C is caprylyl hydroximic acid composition (0.4%), the percentage ratio of the components of the preparation in the group C is glycerin composition (0.01%), the percentage ratio of the components of the preparation in the group D is hydrolyzed collagen composition (0.01%), and the percentage ratio of the components of the preparation in the group D is sandalwood oil composition (0.3%).

Specifically, the titanium dioxide composition (1.5%) in the group A preparation comprises titanium dioxide (90%), triethoxyoctylsilane (5.0%), aluminum oxide (5.0%), yellow iron oxide composition (0.8%), yellow iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), trimethoxydecanoylsilane composition (0.29%), trimethoxydecanoylsilane (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), talcum powder composition (0.26%), iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), triethoxyoctylsilane composition (2%), titanium dioxide composition (4%), titanium dioxide (95.06%), triethoxyoctylsilane (2%), aluminum hydroxide (2.94, 2%), the cyclopentadimethylsiloxane composition (3%) included cyclopentadimethylsiloxane (70%), cyclohexasiloxane (30%). The zinc oxide composition (3%) comprises titanium dioxide (70-90%), zinc oxide (2-10%), polydimethylsiloxane (1-8%), magnesium palmitoylglutamate (1-10%), cyclohexasiloxane (2-6%), cetyl PEG/PPG-10/1 polydimethylsiloxane composition (3%), cetyl PEG/PPG-10/1 polydimethylsiloxane (80%), isopropyl myristate (20%), and the zinc oxide composition (3%) comprises titanium dioxide (70%), zinc oxide (10%), polydimethylsiloxane (5%), magnesium palmitoylglutamate (10%), and cyclohexasiloxane (5%).

Specifically, the glycerin composition (0.01%) in the group B formulation includes water (92%), glycerin (5%), β -glucan (1%), 1, 2-hexanediol (1%), caprylyl glycol (0.6%), and sodium benzoate (0.4%).

Specifically, the ratio of the group C preparation caprylyl hydroximic acid composition (0.4%) includes caprylyl hydroximic acid (20%), propylene glycol (70%), glyceryl caprylate (10%), the ratio of the glycerin composition (0.01%) includes water (60%), glycerin (36%), wild soybean protein (1%), superoxide dismutase (SOD) (1%), dextran sulfate sodium (1%), phenoxyethanol (0.7%), ethylhexyl glycerin (0.1%), sodium benzoate (0.1%), potassium sorbate (0.1%), the ratio of the hydrolyzed collagen composition (0.01%) includes water (41%), hydrolyzed collagen (55%), butylene glycol (4%).

Specifically, the formulation of the group D comprises sandalwood oil (20%) and essence (80%).

Example two:

the formulation of this example is substantially the same as the first example, except that:

s1, grinding the A group preparation uniformly by a grinder for later use;

and S5, cooling to 38 ℃, and discharging after the plate is qualified.

Specifically, the titanium dioxide composition (1.5%) in the group A preparation comprises titanium dioxide (90%), triethoxyoctylsilane (5.0%), aluminum oxide (5.0%), yellow iron oxide composition (0.8%), yellow iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), trimethoxydecanoylsilane composition (0.29%), trimethoxydecanoylsilane (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), talcum powder composition (0.26%), iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), triethoxyoctylsilane composition (2%), titanium dioxide composition (4%), titanium dioxide (95.06%), triethoxyoctylsilane (2%), aluminum hydroxide (2.94, 2%), the cyclopentadimethylsiloxane composition (3%) included cyclopentadimethylsiloxane (70%), cyclohexasiloxane (30%). The zinc oxide composition (3%) comprises titanium dioxide (70-90%), zinc oxide (2-10%), polydimethylsiloxane (1-8%), magnesium palmitoylglutamate (1-10%), cyclohexasiloxane (2-6%), cetyl PEG/PPG-10/1 polydimethylsiloxane composition (3%), cetyl PEG/PPG-10/1 polydimethylsiloxane (80%), isopropyl myristate (20%), the zinc oxide composition (3%) comprises titanium dioxide (80%), zinc oxide (5%), polydimethylsiloxane (8%), magnesium palmitoylglutamate (5%), cyclohexasiloxane (2%)

Example three:

s1, grinding the A group preparation uniformly by a grinder for later use;

and S5, cooling to 38 ℃, and discharging after the plate is qualified.

Specifically, the titanium dioxide composition (1.5%) in the group A preparation comprises titanium dioxide (90%), triethoxyoctylsilane (5.0%), aluminum oxide (5.0%), yellow iron oxide composition (0.8%), yellow iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), trimethoxydecanoylsilane composition (0.29%), trimethoxydecanoylsilane (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), talcum powder composition (0.26%), iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), triethoxyoctylsilane composition (2%), titanium dioxide composition (4%), titanium dioxide (95.06%), triethoxyoctylsilane (2%), aluminum hydroxide (2.94, 2%), the cyclopentadimethylsiloxane composition (3%) included cyclopentadimethylsiloxane (70%), cyclohexasiloxane (30%). The zinc oxide composition (3%) comprises titanium dioxide (70-90%), zinc oxide (2-10%), polydimethylsiloxane (1-8%), magnesium palmitoylglutamate (1-10%), cyclohexasiloxane (2-6%), cetyl PEG/PPG-10/1 polydimethylsiloxane composition (3%), cetyl PEG/PPG-10/1 polydimethylsiloxane (80%), isopropyl myristate (20%), and the zinc oxide composition (3%) comprises titanium dioxide (90%), zinc oxide (2%), polydimethylsiloxane (1%), magnesium palmitoylglutamate (3%), and cyclohexasiloxane (4%).

The present invention is not limited to the above-described alternative embodiments, and various other forms of products can be obtained by anyone in light of the present invention. The above detailed description should not be taken as limiting the scope of the invention, which is defined in the claims, and which the description is intended to be interpreted accordingly.

Claims

1. Anti-oxidation micro-molecular air cushion BB cream, its characterized in that: comprising A, B, C, D groups of preparations, wherein the components of the A group of preparations comprise a titanium dioxide composition, a yellow iron oxide composition, a trimethoxy decanoyl silane composition, a talcum powder composition, a titanium dioxide composition, a cyclopentadimethyl siloxane composition, mineral oil, ethylhexyl palmitate, C12-15 alcohol benzoate, dioctyl carbonate, magnesium stearate, a zinc oxide composition, a cetyl PEG/PPG-10/1 dimethyl siloxane composition, the component of the B group preparation comprises water, magnesium sulfate, propylene glycol, glycerol polyether-26, p-hydroxyacetophenone, glycerol composition and nicotinamide, the group C preparation comprises caprylyl hydroximic acid composition, glycerin composition, hydrolyzed collagen composition, the component of the preparation in the group D comprises sandalwood oil composition, and the preparation method of the preparation comprises the following steps:

s1, grinding the A group preparation uniformly by a grinder for later use;

and S5, cooling to 38 ℃, and discharging after the plate is qualified.

2. The oxidation-resistant micro-molecular air bearing BB cream of claim 1, wherein: the percentage ratio of the components of the preparation in the group A comprises a titanium dioxide composition (1.5%), a yellow iron oxide composition (0.8%), a trimethoxy decanoyl silane composition (0.29%), a talcum powder composition (0.26%), a titanium dioxide composition (4%), a cyclopenta dimethyl siloxane composition (3%), mineral oil (15%), ethylhexyl palmitate (6%), C12-15 alcohol benzoate (2%), dioctyl carbonate (5%), magnesium stearate (0.7%), a zinc oxide composition (3%), a cetyl PEG/PPG-10/1 dimethyl siloxane composition (3%), and the percentage ratio of the components of the preparation in the group B comprises water (41.97%), magnesium sulfate (1%), propylene glycol (8%), glyceryl polyether-26 (3%), p-hydroxyacetophenone (0.25%), (magnesium sulfate), The percentage ratio of the components of the preparation in the group C is caprylyl hydroximic acid composition (0.4%), the percentage ratio of the components of the preparation in the group C is glycerin composition (0.01%), the percentage ratio of the components of the preparation in the group D is hydrolyzed collagen composition (0.01%), and the percentage ratio of the components of the preparation in the group D is sandalwood oil composition (0.3%).

3. The oxidation-resistant micro-molecular air bearing BB cream of claim 2, wherein: the titanium dioxide composition (1.5%) in the group A preparation comprises titanium dioxide (90%), triethoxyoctylsilane (5.0%), aluminum oxide (5.0%), yellow iron oxide composition (0.8%), yellow iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), trimethoxydecanoylsilane composition (0.29%), trimethoxydecanoylsilane (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), talcum powder composition (0.26%), iron oxide (78.4%), talcum powder (19.6%), triethoxyoctylsilane (2%), titanium dioxide composition (4%), titanium dioxide (95.06%), triethoxyoctylsilane (2%), aluminum hydroxide (2.94%), cyclopenta-polydimethylsiloxane composition (3%), comprises cyclopentadimethylsiloxane (70%), cyclohexasiloxane (30%), zinc oxide composition (3%), titanium dioxide (70-90%), zinc oxide (2-10%), polydimethylsiloxane (1-8%), magnesium palmitoglutamate (1-10%), cyclohexasiloxane (2-6%), cetyl PEG/PPG-10/1 polydimethylsiloxane composition (3%), cetyl PEG/PPG-10/1 polydimethylsiloxane (80%), isopropyl myristate (20%).

4. The oxidation-resistant micro-molecular air bearing BB cream of claim 3, wherein: the zinc oxide composition (3%) comprises titanium dioxide (70%), zinc oxide (10%), polydimethylsiloxane (5%), magnesium palmitoylglutamate (10%) and cyclohexasiloxane (5%).

5. The oxidation-resistant micro-molecular air bearing BB cream of claim 3, wherein: the zinc oxide composition (3%) comprises titanium dioxide (80%), zinc oxide (5%), polydimethylsiloxane (8%), magnesium palmitoylglutamate (5%) and cyclohexasiloxane (2%).

6. The oxidation-resistant micro-molecular air bearing BB cream of claim 3, wherein: the zinc oxide composition (3%) comprises titanium dioxide (90%), zinc oxide (2%), polydimethylsiloxane (1%), magnesium palmitoylglutamate (3%) and cyclohexasiloxane (4%).

7. The oxidation-resistant micro-molecular air bearing BB cream of claim 2, wherein: the glycerol composition (0.01%) in the group B preparation comprises water (92%), glycerol (5%), beta-glucan (1%), 1, 2-hexanediol (1%), caprylyl glycol (0.6%) and sodium benzoate (0.4%).

8. The oxidation-resistant micro-molecular air bearing BB cream of claim 2, wherein: the C group preparation of caprylyl hydroximic acid composition (0.4%) comprises caprylyl hydroximic acid (20%), propylene glycol (70%), glyceryl caprylate (10%), and the glycerin composition (0.01%) comprises water (60%), glycerin (36%), wild soybean protein (1%), superoxide dismutase (SOD) (1%), dextran sulfate sodium (1%), phenoxyethanol (0.7%), ethylhexyl glycerin (0.1%), sodium benzoate (0.1%), potassium sorbate (0.1%), and the hydrolyzed collagen composition (0.01%) comprises water (41%), hydrolyzed collagen (55%) and butylene glycol (4%).

9. The oxidation-resistant micro-molecular air bearing BB cream of claim 2, wherein: the preparation in the group D comprises sandalwood oil (20%) and essence (80%).