CN113230151A

CN113230151A - Water-oil dynamic self-balancing biphase moisturizing compound and application thereof

Info

Publication number: CN113230151A
Application number: CN202110556053.1A
Authority: CN
Inventors: 刘群; 石小霞; 邓森林
Original assignee: Eryuan Suzhou Industrial Technology Co ltd
Current assignee: Eryuan Suzhou Industrial Technology Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2021-08-10

Abstract

The invention discloses a water-oil dynamic self-balancing biphase moisturizing compound which comprises the following components in percentage by mass: 40% -65% of an efficacy component A and 35% -60% of an efficacy component B; the functional component A is a mixture of a xylitol component and water, wherein the water is used as a solvent, the addition amount of the xylitol component in the functional component A is 70-90% by mass, and the xylitol component is one or more of xylitol-based glucoside, dehydrated xylitol and xylitol; the functional component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the functional component B is recorded as 0.01-5% by mass percent. The invention realizes the dynamic self-balance of water and oil by establishing independent and definite passages related to water balance and oil balance in the skin, and realizing the synergistic and accurate effects.

Description

Water-oil dynamic self-balancing biphase moisturizing compound and application thereof

Technical Field

The invention relates to a compound and application thereof, in particular to a water-oil dynamic self-balancing biphase moisturizing compound and application thereof in cosmetics, belonging to the field of cosmetic application.

Background

The skin is the largest organ in human organs, covers the surface layer of the human body, accounts for 5-8% of the body weight of the human body in total mass, has the tasks of protecting, excreting, regulating body temperature, sensing external stimulation and the like, and can effectively keep the stability of the ground internal environment of the body and the dynamic balance of the skin. For skin care, it is desirable to artificially and exogenously supplement and use cosmetics and skin care products that promote the water-oil homeostasis of the skin, in addition to the metabolism of the skin itself.

Furthermore, the water balance and the oil balance in the skin of the human body are two completely different and relatively independent complex paths, and only by considering the skin structure really scientifically and comprehensively, the cosmetics with the synergistic effect of two dimensions of water and oil can really and effectively keep the skin health of the human body for a long time.

In view of the above, how to comprehensively grasp water balance and oil balance and provide a water-oil dynamic self-balancing two-phase moisturizing compound to satisfy the basic requirements of skin for water and oil is a problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention provides a water-oil dynamic self-balancing two-phase moisturizing compound and its use in cosmetics, as follows.

The water-oil dynamic self-balancing biphase moisturizing compound comprises the following components in percentage by mass: 40% -65% of an efficacy component A and 35% -60% of an efficacy component B;

the functional component A is a mixture of a xylitol component and water, wherein the water is used as a solvent, the addition amount of the xylitol component in the functional component A is 70-90% by mass, and the xylitol component is one or more of xylitol-based glucoside, dehydrated xylitol and xylitol;

the functional component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the functional component B is recorded as 0.01-5% by mass percent.

Preferably, the composition comprises the following components in percentage by mass: 45% of efficacy component A and 65% of efficacy component B; the efficacy component A is a mixture of xylitol-based glucoside, dehydrated xylitol and water, wherein the water is used as a solvent, the addition amount of the xylitol-based glucoside in the efficacy component A is recorded as 10% by mass, and the addition amount of the dehydrated xylitol in the efficacy component A is recorded as 15% by mass; the efficacy component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the efficacy component B is recorded as 25% by mass.

Preferably, the composition comprises the following components in percentage by mass: 55% of efficacy component A and 45% of efficacy component B; the efficacy component A is a mixture of xylitol-based glucoside and water, wherein the water is used as a solvent, and the addition amount of the xylitol-based glucoside in the efficacy component A is marked as 30% by mass; the efficacy component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the efficacy component B is recorded as 30% by mass.

The application of the water-oil dynamic self-balancing dual-phase moisturizing compound is characterized in that the water-oil dynamic self-balancing dual-phase moisturizing compound is added into an O/W type cosmetic, and the O/W type cosmetic comprises 1-5% of an effect component A and 0.5-5.5% of an effect component B in percentage by mass.

Preferably, the O/W type cosmetic comprises 3% of the efficacy component A and 1% of the efficacy component B in percentage by mass.

Compared with the prior art, the invention has the advantages that:

the water-oil dynamic self-balance two-phase moisturizing compound can effectively regulate the water flow in the skin and keep the water in the skin balanced. The specific expression is that the water produced by the skin and the water lost by the skin are always in a dynamic balance state, and the skin is healthy and smoother.

Meanwhile, the invention can also supplement endogenous lipid of the skin, and simultaneously protect the lipid from being oxidized by using fat-soluble active substances with strong oxidation activity, so that the oil balance of the skin is realized by double effects, and the skin has excellent water locking capacity and is healthier and more moist.

The following detailed description of the embodiments of the present invention is provided to facilitate understanding and understanding of the technical solutions of the present invention.

Detailed Description

The invention discloses a water-oil dynamic self-balance two-phase moisturizing compound and application thereof in cosmetics.

The water-oil dynamic self-balancing biphase moisturizing compound comprises the following components in percentage by mass: 40% -65% of an efficacy component A and 35% -60% of an efficacy component B. Further, the following are:

the functional component A is a mixture of a xylitol component and water, wherein the water is used as a solvent, and the addition amount of the xylitol component in the functional component A is 70-90% by mass.

The xylitol component herein is one or more of xylitol-based glucoside, anhydroxylitol, and xylitol. The xylitol component can regulate the water flow in the skin, so that the water in the dermis layer and the epidermis layer of the skin is increased, and simultaneously, the water loss rate of the epidermis of the skin is reduced due to the promotion of the synthesis of the lipid ceramide (related to oil balance) of the epidermis of the skin; the water in the skin is in a healthy dynamic equilibrium state.

The two substances selected here, squalane and skin surface lipid, are similar in structure, and due to the principle of similarity and compatibility, they are more skin-friendly and more easily absorbed by the skin. Meanwhile, the added fat-soluble strong antioxidant active substance fullerene has a molecular structure of football-shaped molecules consisting of 60 carbon atoms, and the fullerene can effectively protect skin surface lipid and lipid in cosmetics from decay caused by the attack of oxidation free radicals, so that the oil permeability is comprehensively improved.

In the scheme, two specific examples are provided, wherein the first example is a water-oil dynamic self-balancing two-phase moisturizing compound which comprises the following components in percentage by mass: 45% of efficacy component A and 65% of efficacy component B. The efficacy component A is a mixture of xylitol-based glucoside, dehydrated xylitol and water, wherein the water is used as a solvent, the addition amount of the xylitol-based glucoside in the efficacy component A is recorded as 10% by mass, and the addition amount of the dehydrated xylitol in the efficacy component A is recorded as 15% by mass; the efficacy component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the efficacy component B is recorded as 25% by mass.

In a second embodiment, the water-oil dynamic self-balancing two-phase moisturizing compound comprises the following components in percentage by mass: 55% of efficacy component A and 45% of efficacy component B; the efficacy component A is a mixture of xylitol-based glucoside and water, wherein the water is used as a solvent, and the addition amount of the xylitol-based glucoside in the efficacy component A is marked as 30% by mass; the efficacy component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the efficacy component B is recorded as 30% by mass.

The preparation method of the water-oil dynamic self-balance biphase moisturizing compound is similar to the conventional technology, and specifically comprises the following steps:

s1, taking a certain amount of raw materials, stirring and mixing to respectively obtain an efficacy component A and an efficacy component B.

S2, starting a material mixing reaction kettle, adding the effect component A and the effect component B into the material mixing reaction kettle, heating to 40-60 ℃, stirring at a speed of 20-55 r/min, and mixing for 10-20 min; the preferable scheme here is that the heating temperature is 40 ℃, the stirring speed is 30r/min, and the mixing and stirring time is 20 min.

S3, closing the mixing reaction kettle, and after the temperature in the mixing reaction kettle is reduced to 30-40 ℃, performing blanking operation on the compound in the mixing reaction kettle to obtain a water-oil dynamic self-balance biphase moisturizing compound; the preferable scheme here is that after the temperature in the mixing reaction kettle is reduced to 35 ℃, the compound in the mixing reaction kettle is subjected to blanking operation.

The application of the water-oil dynamic self-balancing dual-phase moisturizing compound is characterized in that the water-oil dynamic self-balancing dual-phase moisturizing compound is added into an O/W type cosmetic, and the O/W type cosmetic comprises 1-5% of an effect component A and 0.5-5.5% of an effect component B in percentage by mass. In the actual application process, the O/W type cosmetic preferably comprises 3% of the efficacy component A and 1% of the efficacy component B in percentage by mass.

In order to verify the effectiveness of the present invention, the laboratory conducted the following comparative experiment, wherein the laboratory conducted the following 3 groups of control experiments with blank group, the testing personnel were 30 persons, the half face was used 2 times a day in the morning and at night, and the blank group was used continuously for 28 days/half face, respectively, with the O/W type cosmetic added with the water-oil dynamic self-balancing two-phase moisturizing compound of the present invention.

In a first set of comparative experiments, cosmetics added with an effective component A (the addition amount is 0.1-20% by mass percent) are used in an experimental group, and cosmetics not added with the components are used in a blank group. The water content of the epidermis of the skin is measured by using a cuticle film measuring instrument, the average increase of an experimental group is 14 percent, and the average increase of a blank group is 2 percent. The reduction in skin moisture loss was measured using a transdermal moisture loss tester, with an average reduction of 17% in the experimental group and 3.5% in the blank group. The smoothness of the skin surface is observed by using a microscope, and the average of the test group is improved by 28 percent, and the average of the blank group is improved by 3 percent.

In a second set of comparative experiments, the skin care products added with the effective component B (the addition amount is 0.01-10% by mass percent) are used in the experimental group, and the skin care products not added with the components disclosed by the invention are used in the blank group. The reduction in skin moisture loss was determined using a transdermal moisture loss tester, with an average reduction of 20% in the experimental group and 2.8% in the blank group. The skin elasticity tester is used for testing the increase of the skin elasticity, the average increase of an experimental group is 11 percent, and the average increase of a blank group is 1 percent. The oxidation resistance of the skin was tested using copper ion reduction, and the oxidation resistance of the experimental group was on average 250 times higher than VC, a common antioxidant.

In a third group of comparative experiments, the skin care products added with the functional component A and the functional component B (the addition amount is 2-15% by mass percent) are used in the experimental group, and the skin care products not added with the components disclosed by the invention are used in the blank group. The water content of the epidermis of the skin is measured by using a cuticle film measuring instrument, and the average increase of an experimental group is 30 percent, and the average increase of a blank group is 2 percent. The reduction in skin moisture loss was measured using a transdermal moisture loss tester, with an average reduction of 45% in the experimental group and 3.5% in the blank group. The skin elasticity is tested by using a skin elasticity tester, and the average increase of the experimental group is 15 percent, and the average increase of the blank group is 1 percent. The oxidation resistance of the skin was tested using copper ion reduction, and the oxidation resistance of the experimental group was on average 250 times higher than VC, a common antioxidant.

In conclusion, the water-oil dynamic self-balancing two-phase moisturizing compound disclosed by the invention can effectively regulate the water flow in the skin and keep the water in the skin balanced. The specific expression is that the water produced by the skin and the water lost by the skin are always in a dynamic balance state, and the skin is healthy and smoother.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Finally, it should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should integrate the description, and the technical solutions in the embodiments can be appropriately combined to form other embodiments understood by those skilled in the art.

Claims

1. The water-oil dynamic self-balancing biphase moisturizing compound is characterized by comprising the following components in percentage by mass: 40% -65% of an efficacy component A and 35% -60% of an efficacy component B;

2. The water-oil dynamic self-balancing biphase moisturizing compound as claimed in claim 1, comprising the following components in percentage by mass: 45% of efficacy component A and 65% of efficacy component B;

the efficacy component A is a mixture of xylitol-based glucoside, dehydrated xylitol and water, wherein the water is used as a solvent, the addition amount of the xylitol-based glucoside in the efficacy component A is recorded as 10% by mass, and the addition amount of the dehydrated xylitol in the efficacy component A is recorded as 15% by mass;

the efficacy component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the efficacy component B is recorded as 25% by mass.

3. The water-oil dynamic self-balancing biphase moisturizing compound as claimed in claim 1, comprising the following components in percentage by mass: 55% of efficacy component A and 45% of efficacy component B;

the efficacy component A is a mixture of xylitol-based glucoside and water, wherein the water is used as a solvent, and the addition amount of the xylitol-based glucoside in the efficacy component A is marked as 30% by mass;

the efficacy component B is a mixture of fullerene and squalane, and the addition amount of the fullerene in the efficacy component B is recorded as 30% by mass.

4. Use of a water-oil dynamic self-balancing dual-phase moisturizing compound according to any one of claims 1 to 3 in an O/W cosmetic, wherein: the O/W type cosmetic comprises 1-5% of an efficacy component A and 0.5-5.5% of an efficacy component B in percentage by mass.

5. The use of a water-oil dynamic self-balancing biphasic moisturizing compound as claimed in claim 4, wherein: the O/W type cosmetic comprises 3% of efficacy component A and 1% of efficacy component B in percentage by mass.