JP2016216417A - Oily cleansing cosmetic - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a high-quality oily cleansing cosmetic capable of stable combination of an enzyme in an oil solution, and having high detergency to oil pollution and protein pollution.SOLUTION: A cleansing oil that is an example of the oily cleansing cosmetic composition to which a present invention is applied has a weight ratio, based on the total amount, of 2-ethylhexyl palmitate: 41.60%, liquid paraffin: 30.00%, isostearic acid PEG - 8 glyceryl: 20.00%, cetyl 2-ethylhexanoate: 5.00%, water: 1.50%, isopentyldiol: 0.90%, protease: 0.70%, glyceryl glucoside: 0.30%. The cleansing oil is transparent.SELECTED DRAWING: None

Description

  The present invention relates to an oil-based cleansing cosmetic. Specifically, the present invention relates to a high-quality oil-based cleansing cosmetic that can stably maintain enzyme activity in an oil and has a high detergency against oil stains and protein stains.

  Since cosmetics for making the skin look beautiful are required to be hard to fall off, cosmetics that adhere the pigment to the skin with an oily base are generally used. Therefore, special cleansing cosmetics for removing cosmetics are used.

  Cleansing cosmetics can be applied, for example, by applying the cleansing cosmetics to makeup stains, transferring the stains to cleansing cosmetics, and then washing them with water, or after blending the cleansing cosmetics and makeup with cotton etc. Used in wiping method.

  Such cleansing cosmetics include oily cleansing cosmetics that do not contain water or water that can be solubilized in oily components, and milky or cream cleansings that contain a large amount of water by emulsification. Cosmetics are generally known. For example, as an oil-based cleansing cosmetic, there is a composition as described in Patent Document 1.

  In the field of cosmetics, various enzymes are blended in the composition for the purpose of cleaning sebum stains and activating skin components to prevent wrinkles and sagging. In particular, proteolytic enzymes are used in facial cleansers and the like in order to remove protein stains, which are representative of sebum stains.

  However, an enzyme is an unstable component that deactivates when it deviates from the conditions, when it has various optimal conditions such as moisture, heat, pH, and the like, and produces an action by an enzyme reaction. Therefore, it is functionally important to stably maintain the enzyme activity in the cosmetic composition.

  In conventional cosmetics, for example, as described in Patent Document 2, it has been proposed to blend an enzyme into an emulsified or cream cleansing cosmetic containing a large amount of water.

JP 2004-75566 A JP 2000-34221 A

  However, in general, enzymes that act in water are difficult to disperse in oils such as oil-based cleansing cosmetics, and when exposed to oils, their structures change and the desired effects cannot be obtained. That is, it has been difficult to stably maintain enzyme activity in oil-based cleansing cosmetics.

  In addition, since the enzyme exhibits its activity in the presence of water, it is considered that the effect cannot be exhibited in an environment that does not contain or hardly contains water such as oil-based cleansing cosmetics.

  Among enzymes, proteolytic enzymes are easy to disperse in water, but are also degraded in water, so that the enzyme activity is lost over time in a composition containing water.

  Furthermore, oil-based cleansing cosmetics usually need to ensure transparency in order to increase commercial value. However, when an enzyme is mixed with an oily cleansing cosmetic whose main component is an oily component and the structure of the enzyme changes, there is a problem that white turbidity and precipitation occur, and transparency cannot be maintained. It was.

  Because of the circumstances described above, oil-based cleansing cosmetics have no product that can achieve both the makeup removing action and the action of removing protein stains and aging keratin by proteolytic enzymes, and are neither commercially available nor proposed. Currently.

  The present invention was devised in view of the above points, and is a high-quality oil-based cleansing makeup that can stably maintain enzyme activity in an oil agent and has a high detergency against oil stains and protein stains. The purpose is to provide a fee.

  In order to achieve the above object, the oil-based cleansing cosmetic composition of the present invention is based on an oil component, a branched fatty acid ester nonionic surfactant, a polyhydric alcohol, water, a proteolytic enzyme, and a total content. And 0.1 to 0.5% glyceryl glucoside.

  Here, by containing an oily component and a branched fatty acid ester nonionic surfactant, it has an affinity for makeup pigments and stains thereof, and a makeup removing action can be obtained.

  In addition, by containing a branched fatty acid ester nonionic surfactant, the proteolytic enzyme can be stably retained in the composition.

  In addition, by containing a polyhydric alcohol, the proteolytic enzyme can be easily dissolved in the composition. In addition, the proteolytic enzyme can be stably retained in the composition.

  Further, by containing water and a proteolytic enzyme, the active action of the proteolytic enzyme is exhibited, and the composition has a detergency against protein stains.

  Moreover, a usability | use_condition can be improved by containing water.

  Moreover, a proteolytic enzyme can be stably hold | maintained in a composition by containing glyceryl glucoside whose content is 0.1-0.5% by the whole quantity reference | standard.

  On the other hand, when the content of glyceryl glucoside is less than 0.1% or more than 0.5% based on the total amount, the stability of the proteolytic enzyme is affected, and the enzyme activity becomes insufficient.

  In addition, when the branched fatty acid ester nonionic surfactant is an isostearic acid ester nonionic surfactant, the proteolytic enzyme can be retained more stably in the composition.

  In addition, when the branched fatty acid ester nonionic surfactant is PEG-8 glyceryl isostearate or PEG-20 glyceryl triisostearate, the proteolytic enzyme can be more stably retained in the composition.

  In addition, when the polyhydric alcohol is isopentyldiol, the proteolytic enzyme can be more easily dissolved in the composition. In addition, the proteolytic enzyme can be retained more stably in the composition.

  Moreover, when the ratio of the content of the polyhydric alcohol and water is in the range of 1: 1 to 1: 2, it reduces the inactivation of the proteolytic enzyme by water and makes the proteolytic enzyme more stable. It can be held in

  The oil-based cleansing cosmetic according to the present invention is capable of stably incorporating an enzyme in an oil and has a high quality having a high detergency against oil stains and protein stains.

Hereinafter, the composition of the cleansing oil which is an example of the oil-based cleansing cosmetic to which the present invention is applied will be described.
In addition, the composition shown below is an example of this invention and the content of this invention is not limited to this.

  The cleansing oil shown here has a weight ratio based on the total amount of 2-ethylhexyl palmitate: 41.60%, liquid paraffin: 30.00%, PEG-8 glyceryl isostearate: 20.00%, 2-ethylhexanoic acid It has a composition containing cetyl: 5.00%, water: 1.50%, isopentyldiol: 0.90%, proteolytic enzyme: 0.70%, glyceryl glucoside: 0.30%. Cleansing oil is transparent.

  2-Ethylhexyl palmitate, liquid paraffin, and cetyl 2-ethylhexanoate are oil components that serve as cleaning components, and mainly remove oil stains and have a makeup removing effect.

  PEG-8 glyceryl isostearate is a branched fatty acid ester nonionic surfactant and serves as a cleaning component. It also contributes to the stabilization of the proteolytic enzyme.

  Water is necessary for producing an active action of the proteolytic enzyme.

  Isopentyldiol is a kind of polyhydric alcohol, and acts as a solubilizing agent for proteolytic enzymes. It also contributes to the stabilization of the proteolytic enzyme.

  Moreover, in said composition, ratio of content of isopentyldiol and water is 1: 1.67.

  The proteolytic enzyme is an enzyme exhibiting the activity of degrading protein stains, and serves as a cleaning component for sebum stains and protein stains on the skin.

  Glyceryl glucoside contributes to the stabilization of the proteolytic enzyme. Moreover, in said composition, 0.30% of glyceryl glucoside is contained.

  Here, the kind of oily component is not limited to 2-ethylhexyl palmitate, liquid paraffin, and cetyl 2-ethylhexanoate, and any component that has an affinity for makeup and its stains and can remove them. Good. For example, hydrocarbon oil, fatty acid ester oil, vegetable oil, etc. are mentioned, and it can be used alone or as a mixture of two or more.

  Examples of the hydrocarbon oil include liquid paraffin, squalane, squalene and the like. Examples of fatty acid ester oils include glyceryl tri-2-ethylhexanoate, glyceryl tri (capryl / caprate), cetyl 2-ethylhexanoate, butyl myristate, butyl stearate, cetyl isooctanoate, ethyl oleate, isostearic acid Examples include 2-hexyldecyl, 2-hexyldecyl myristate, 2-hexyldecyl stearate, 2-hexyldecyl palmitate, isopropyl isostearate, isopropyl myristate, isopropyl palmitate, cetyl palmitate, cholesteryl stearate, and the like. Examples of vegetable oils include palm oil, palm oil, olive oil, apricot oil, coconut oil, grape seed oil, sasanqua oil, safflower oil, sweet almond oil, corn oil, sunflower oil, hazelnut oil, jojoba oil, macadamian nut Oil, rosehip oil, rice bran oil, sesame oil, camellia oil, orange oil, eucalyptus oil, cottonseed oil and the like.

  The branched fatty acid ester nonionic surfactant is not limited to PEG-8 glyceryl isostearate. However, it is preferable to employ an isostearic acid ester nonionic surfactant as the branched fatty acid ester nonionic surfactant from the viewpoint that the proteolytic enzyme can be stably retained. From the viewpoint of stabilization of the proteolytic enzyme, it is more preferable to employ PEG-8 glyceryl isostearate, PEG-20 glyceryl triisostearate, PEG-12 isostearate, or PEG-20 sorbitan isostearate.

  The polyhydric alcohol is not limited to isopentyldiol. As the polyhydric alcohol, for example, 1,3-butylene glycol, propylene glycol, dipropylene glycol, glycerin and the like can be employed. However, isopentyldiol is preferably employed from the viewpoint of increasing the solubility of the proteolytic enzyme and increasing the stability of the proteolytic enzyme.

  In addition, the ratio of the content of isopentyldiol and water is not necessarily limited to 1: 1.67. However, from the viewpoint of improving the stability of the proteolytic enzyme, the content ratio of the polyhydric alcohol and water is preferably in the range of 1: 1 to 1: 2.

  The proteolytic enzyme is not particularly limited as long as it has a protein soil degrading activity. Examples include proteolytic enzymes derived from microorganisms such as Bacillus subtilis, proteolytic enzymes derived from animals such as pancreatin, and proteolytic enzymes derived from plants such as papain and bromelain. In addition, although the content rate of a proteolytic enzyme can be suitably determined according to the titer etc. of an enzyme, 0.001-2% is normally preferable with respect to cleansing cosmetics whole quantity.

  Further, the content of glyceryl glucoside is not necessarily limited to 0.30% based on the total amount. However, the content of glyceryl glucoside is preferably in the range of 0.1 to 0.5% on the basis of the total amount from the viewpoint of stably retaining the proteolytic enzyme.

  As described above, the oil-based cleansing cosmetic to which the present invention is applied is capable of stably maintaining enzyme activity in the oil agent, and has a high quality having a high detergency against oil stains and protein stains. .

  Examples of the present invention will be described below.

  Samples of cleansing oil examples and comparative examples, which are examples of oil-based cleansing cosmetics to which the present invention is applied, were prepared and evaluated as follows.

(1) Chemical component of sample First, the raw material component was mix | blended so that it might become a composition shown in Table 1, and each sample of Examples 1-5 and Comparative Examples 1-2 was produced. The numerical values shown in Table 1 below indicate the weight ratio (%) based on the total amount of raw materials.

(2) Confirmation of makeup stain removal action and keratin stain removal action The following stain washing test was performed by immobilizing casein stained in blue-purple with Coomassie Brilliant Blue on the skin as pseudo-keratin stain. Was done. First, a commercially available foundation and lipstick were applied on the skin on which pseudo-keratin stains were fixed. Next, the cleansing oils of Examples 1 to 5 and Comparative Examples 1 and 2 were applied to the foundation and lipstick, and then a small amount of water was added on the skin for further application. Subsequently, it was washed away with a large amount of water. The degree of makeup stain removal and pseudo-keratin stain removal was visually confirmed. Those in which all of makeup and pseudo-keratin stains could be removed (indicated by ◎ in Table 2), those that were almost removed (indicated by ◯ in Table 2), those that could not be removed much (indicated by △ in Table 2), It was judged that it was hardly removed (denoted by x in Table 2).

(3) Confirmation of stability of enzyme activity For cleansing oils of Examples 1 to 5 and Comparative Examples 1 and 2, proteolysis based on "Japanese Pharmacopoeia General Test Method Digestion Test Method Protein Digestion Test Method" Enzyme activity was measured. Here, the enzyme activity of the sample immediately after production and the sample after storage at 40 ° C. for 30 days were measured, and the residual rate of enzyme activity was calculated. The stability of the proteolytic enzyme was evaluated based on the residual rate of the calculation result. Residual rate of enzyme activity is 70% or more (indicated by ◎ in Table 2), 60% or more (indicated by ◯ in Table 2), 50% or more (indicated by △ in Table 2), 50% It was judged that it was less than (denoted by x in Table 2).

(4) Confirmation of transparency after low-temperature storage For the cleansing oils of Examples 1 to 5 and Comparative Examples 1 and 2, the transparency of the samples after storage at 5 ° C for 30 days was visually confirmed. It was judged that the properties remained transparent (indicated by “◎” in Table 2), slightly cloudy (indicated by “◯” in Table 2), or cloudy (indicated by “x” in Table 2).

  In Table 2, the result of each evaluation item in the sample of Examples 1-5 and Comparative Examples 1-2 is shown.

  In Examples 1 to 4, a sufficient makeup stain removing action was confirmed. Further, the keratin stains can be completely removed or almost removed. In addition, the stability of the enzyme activity was confirmed to be that the remaining rate of activity was 60% or more, and the enzyme was stably retained. Further, Examples 1 to 4 were transparent even after being stored at low temperature, and Example 5 was somewhat cloudy.

  In each of Comparative Examples 1 and 2, the residual rate of enzyme activity was less than 50%, and the action for removing keratinous dirt was insufficient. Moreover, turbidity was confirmed in the sample after low-temperature storage.

  Samples of cleansing oil examples and comparative examples, which are examples of oil-based cleansing cosmetics to which the present invention is applied, were prepared and evaluated as follows.

(5) Chemical component of sample First, the raw material component was mix | blended so that it might become a composition shown in Table 3 and Table 4, and each sample of Examples 6-13 and Comparative Examples 3-8 was produced. The numerical values shown in Table 3 and Table 4 below represent weight ratios (%) based on the total amount of raw materials. Table 3 shows Examples 6 to 13, and Table 4 shows Comparative Examples 3 to 8.

(6) Confirmation of makeup stain removal effect and keratin stain removal effect Each sample was evaluated for makeup stain removal effect and keratin stain removal effect in the same manner as described above. Those in which all of makeup and pseudo-keratin stains could be removed (indicated by “◎” in Tables 5 and 6), those that could be almost removed (indicated by “◯” in Tables 5 and 6), and those that could not be removed much (Table 5) In Table 6 and Table 6, it was judged that it was hardly removed (indicated by x in Tables 5 and 6).

(7) Confirmation of stability of enzyme activity In the same manner as described above, the stability of enzyme activity was evaluated for each sample. Residual rate of enzyme activity is 70% or more (indicated by ◎ in Tables 5 and 6), 60% or more (indicated by ◯ in Tables 5 and 6), 50% or more (in Tables 5 and 6) 6 was described as Δ) and less than 50% (denoted as x in Tables 5 and 6).

(8) Confirmation of transparency after low-temperature storage In the same manner as described above, each sample was evaluated for transparency after low-temperature storage. Those whose properties remain transparent (indicated by ◎ in Tables 5 and 6), those that tend to be slightly cloudy (indicated by ◯ in Tables 5 and 6), and those that are cloudy (Tables 5 and 6) Then, it was determined as x).

  In Table 5, the result of each evaluation item in the samples of Examples 6 to 13 is shown. In Table 6, the result of each evaluation item in the samples of Comparative Examples 3 to 8 is shown.

  In Examples 6 to 13, makeup stains could be completely removed or almost removed. Further, the keratin stains can be completely removed or almost removed. In addition, the stability of the enzyme activity was confirmed to be that the remaining rate of activity was 60% or more, and the enzyme was stably retained. Furthermore, Examples 6 to 13 were transparent even after low-temperature storage.

  In all of Comparative Examples 3 to 5, the residual rate of enzyme activity was less than 50%, and the action for removing keratinous soil was insufficient. In all of Comparative Examples 6 to 8, the residual rate of enzyme activity was about 50%, and the keratin stains could not be removed much.

Claims (5)

An oil component, a branched fatty acid ester nonionic surfactant,
Polyhydric alcohol,
water and,
With proteolytic enzymes,
An oil-based cleansing cosmetic containing glyceryl glucoside whose content is 0.1 to 0.5% based on the total amount. The oil-based cleansing cosmetic according to claim 1, wherein the branched fatty acid ester-based nonionic surfactant is an isostearic acid ester-based nonionic surfactant. The oil-based cleansing cosmetic according to claim 2, wherein the branched fatty acid ester nonionic surfactant is PEG-8 glyceryl isostearate or PEG-20 glyceryl triisostearate. The oil-based cleansing cosmetic according to claim 1, 2, or 3, wherein the polyhydric alcohol is isopentyldiol. The oil-based cleansing cosmetic according to claim 1, 2, 3, or 4, wherein the content ratio of the polyhydric alcohol and the water is in the range of 1: 1 to 1: 2.