JP5484624B1 - Remover gel for soft gel nail and method for producing the same - Google Patents

Abstract

[PROBLEMS] To provide a soft gel nail remover gel that can exhibit the same degree of removal effect as a conventional soft gel nail removal method performed in a nail salon or the like by directly applying to a nail, and a method for producing the same. .
The remover gel for soft gel nail of the present invention contains hydroxyalkyl cellulose, acetone-affected smectite and an organic solvent. The content of hydroxyalkyl cellulose ranges from 2% to 4% by weight, the content of acetone-affected smectite ranges from 0.3% to 2% by weight, the content of hydroxyalkyl cellulose and the content of acetone-affected smectite The total with the ratio is preferably in the range of 3.5 mass% or more and 4.75 mass% or less. The content of the organic solvent is in the range of 94% by mass to 96.5% by mass, and the content of acetone in the content of the organic solvent is preferably 91% by mass or more.
[Selection figure] None

Description

  The present invention relates to a gel-like remover for removing soft gel nails from nails, and a method for producing the same.

  Commonly used nail enamel removers use solvents such as acetone or ethyl acetate. When the nail enamel is removed with such a nail enamel remover, the nail may be degreased or the skin around the nail may be stimulated to cause a phenomenon such as redness, drying or whitening.

  In order to solve such problems, a type of remover in which the content of an organic solvent such as acetone is suppressed to a small amount has been proposed (Patent Document 1). A nail enamel remover containing cholesterol or a cholesterol derivative having an effect of protecting nails has also been proposed (Patent Document 2).

  Furthermore, a gel-like enamel remover has been proposed in order to increase the removal efficiency of nail enamel. Patent Document 3 discloses a gel enamel remover containing polyacrylic acid and hydroxypropyl cellulose as gelling agents, and using 60 to 80% by weight of acetone and 1 to 30% by weight of water as a solvent. Patent Document 4 is a gel-like enamel remover containing an organically modified clay mineral obtained by treating smectite with quaternary ammonium ions as a gelling agent, and using 40 to 90% acetone and 5 to 30% lower alcohol as a solvent. Is disclosed.

  On the other hand, in recent years, a manicure called “gel nail” has been developed, which is applied to nails and then hardened by irradiating with a special UV light. This gel nail contains an ultraviolet curable resin, lasts longer than ordinary nail polish, has a high gloss feeling, and is light in wearing feeling. Gel nails are roughly classified into soft gel nails and hard gel nails.

  Hard gel nails do not dissolve in solvents such as acetone, so it is necessary to scrape them off, it takes time to remove them, they scrape their nails, or the nails become thin after repeated use. It is easy to cause trouble. In contrast, soft gel nails are easy to use even for beginners because they can be removed using a solvent such as acetone.

JP-A-8-99839 JP 2006-282601 A JP 61-257912 A JP 2001-322915 A

  However, even for soft gel nails, it is necessary to use a remover containing acetone at a higher concentration than nail nail polish in order to remove the ultraviolet curable resin film formed on the surface of the nail. Usually, in a nail salon or the like, a cotton wool cut into nail size is soaked with acetone, placed on the nail, and left for 15 to 20 minutes with aluminum foil covered so that acetone does not evaporate. Then remove the cover and remove the gel nail. If the gel nail cannot be removed, the procedure must be repeated once again.

  In addition, the above method has a problem in that the skin around the nail is easily degreased and the toe is easily damaged. Therefore, development of a nail remover that is simple and has little influence on the skin has been desired.

  The present invention provides a soft gel nail remover gel that can exhibit the same degree of removal effect as a conventional soft gel nail removal method performed in a nail salon or the like just by directly applying to nails, and a method for producing the same. Objective.

  In order to apply the pin point only to the nail without dropping when applied to the nail, the remover must be in a gel form having a certain degree of viscosity. Moreover, if the vaporization rate is reduced by gelling acetone, which is a solvent, the gel is held for a long time to enhance the effect of removing soft gel nails, and the cooling of the fingertip due to the heat of vaporization can be reduced.

  However, when only acetone is used as a solvent for the remover, it is difficult to increase the viscosity with a thickener, so a gel remover is usually prepared by adding a thickener to water and then mixing with acetone. The However, this reduces the acetone content, thus reducing the soft gel nail removal effect. In addition, a gel with only a high viscosity tends to spill around the application site and easily contact the skin. Therefore, the gel-like remover is required to have an appropriate viscosity and thixotropy and an appropriate hardness.

  As a result of continual studies to solve the above problems, the present inventor, as a result of using hydroxyalkyl cellulose and acetone-affected smectite as a thickener in combination, even if a high concentration of acetone is used as a solvent, The present inventors have found that it is possible to prepare a remover of the present invention and have completed the present invention.

Specifically, the present invention
A soft gel nail remover gel comprising hydroxyalkyl cellulose, acetone-affected smectite and an organic solvent,
The hydroxyalkyl cellulose content is in the range of 2% by mass to 4% by mass,
The content of acetone-affected smectite is in the range of 0.3% by mass to 2% by mass,
The total of the content of hydroxyalkyl cellulose and the content of acetone-affected smectite is in the range of 3.5% by mass to 4.75% by mass,
The organic solvent content is in the range of 94% by mass to 96.5% by mass,
Of the organic solvent content, the acetone content is 91% by mass or more,
The water content is 2% by mass or less,
The present invention relates to a remover gel for soft gel nails.

  The remover gel for soft gel nails of the present invention is a combination of hydroxyalkyl cellulose and acetone-affected smectite as a thickening agent, thereby sufficiently gelling an organic solvent mainly composed of acetone without using water as a solvent. It was made possible for the first time to impart thixotropy. As a result, it is possible to apply and apply only to the nails, and the cooling of the fingertips accompanying the evaporation of the solvent can be reduced.

  The smectite (acetone affinity smectite) used in the present invention is a smectite having affinity for acetone used as an organic solvent. Smectite is a clay mineral having a function of swelling, such as montmorillonite, beidellite, hectorite, saponite or stevensite. Although smectite generally exhibits water affinity (hydrophilicity), in the present invention, smectite having affinity for acetone is used.

  Here, a clay mineral such as smectite has “affinity with acetone” means that 0.5 g of a clay mineral sample is collected in a glass container (for example, a wide mouth standard bottle or a wide mouth screw tube) with a capacity of about 100 mL. Then, after adding 49.5 g of acetone, the mixture is shaken for 1 hour to disperse and left to stand for 1 hour.

  The remover gel for soft gel nail of the present invention contains acetone as an organic solvent as a main component, but is an organic solvent that can be dissolved in acetone in the remover gel for soft gel nail, and contains an organic solvent other than acetone. May be. Specific examples of organic solvents other than acetone are: (1) ketones such as methyl ethyl ketone or methyl isobutyl ketone; (2) alcohols such as methanol, ethanol or isopropanol; (3) ethyl acetate, butyl acetate or ethylene glycol mono Esters such as butyl ether. However, organic solvents other than acetone are limited to organic solvents that do not inhibit the solubility of hydroxyalkyl cellulose and acetone-affected smectite in acetone.

  Here, “content” in the present invention means mass% in the soft gel nail remover gel.

  The hydroxyalkyl cellulose is preferably a hydroxyalkyl cellulose having a single alkyl substituent having 1 to 4 carbon atoms.

  The hydroxyalkyl cellulose used in the present invention must be of a type having solubility in acetone, and hydroxyalkyl cellulose having a single alkyl group having 1 to 4 carbon atoms as an alkyl substituent can be used. Here, “having a single alkyl group having 1 to 4 carbon atoms” means having only one kind of alkyl group having 1 to 4 carbon atoms, and two kinds of alkyl groups having 1 to 4 carbon atoms. The hydroxyalkyl cellulose having the above is not included.

  As hydroxyalkyl cellulose having a single alkyl substituent having 1 to 4 carbon atoms, hydroxypropyl cellulose is particularly preferable.

The present invention also provides
A method for producing a remover gel for soft gel nail, in which hydroxypropylcellulose is dissolved in an organic solvent in which acetone-affected smectite is dispersed,
The content of hydroxypropyl cellulose is in the range of 2% by mass to 4% by mass,
The content of acetone-affected smectite is in the range of 0.3% by mass to 1.5% by mass,
The total of the content of hydroxyalkyl cellulose and the content of acetone-affected smectite is in the range of 3.5% by mass to 4.75% by mass,
The organic solvent content is 94% by mass or more and 96.5% by mass or less,
Of the content of the organic solvent state, and are the content of acetone 91% by mass or more,
The water content is 2% by mass or less,
The present invention relates to a manufacturing method.

  In producing the soft gel nail remover gel of the present invention, acetone-affected smectite is dispersed in an organic solvent containing acetone as a main component, and then hydroxypropylcellulose is dissolved to produce a gel. When hydroxypropylcellulose is first dissolved in an organic solvent, the organic solvent does not easily penetrate into the hydroxypropylcellulose fine powder, and lumps are easily formed. As a result, it takes time to completely dissolve, and it becomes difficult to confirm dissolution. Therefore, in producing the remover gel for soft gel nails of the present invention, it is preferable to disperse the hydroxypropyl cellulose after first dispersing the acetone-affected smectite in the organic solvent.

  According to the remover gel for soft gel nail of the present invention, it is possible to obtain a removal effect equivalent to that of a conventional soft gel nail removal method at low cost by simply applying to the nail.

  Embodiments of the present invention will be described below. The present invention is not limited to the following description.

<Selection of first thickener capable of thickening acetone>
First, 14 types of thickeners were added at a ratio of 1% by mass, 3% by mass and 5% by mass with respect to 50 g of acetone (JIS special grade product), and the viscosity and solubility of the obtained gel were confirmed. The thickening was evaluated as “◯” when it was directly applied to the nail and placed 3 mm or more, and “X” when it was less than 3 mm. In addition, the solubility is “◯” when a 1 mass% acetone solution of each thickener is prepared, and when the thickener is completely dissolved, swollen or dispersed in acetone and no precipitate is formed, Otherwise, it was evaluated as “x”. Table 1 shows the types of thickeners used (trade names, manufacturers and general names) and the evaluation results of thickening and solubility.

  Lucentite SPN was a clay mineral (smectite) having affinity for acetone, but the other two types (Esben NX and Esben NZ) were not clay minerals (smectite) having acetone affinity. As shown in Table 1, acetone is gelled only when Celny H (hydroxypropyl cellulose), which is a hydroxyalkyl cellulose having a single alkyl group having 3 carbon atoms, is used among 14 types of thickeners. It was possible to increase the viscosity. In addition, when adding Cerney H to acetone so that it might become 5 mass%, the tendency to require time until it was made to melt | dissolve a little was recognized.

<Selection of second thickener capable of thickening acetone>
From the above experimental results, it was confirmed that when using only acetone as a solvent, Celny H must be used as a thickener, but it was also confirmed that it was difficult to dissolve at a concentration of 3% by mass or more. It was. When only celnie H was dissolved in acetone, it became a gel, but the gel hardness was insufficient as a remover, so the concentration of celnie H, the first thickener, was 3% by mass. The use of a second thickener was examined after fixing.

  As a second thickener, after adding 3% by weight of celney H to acetone (JIS special grade), the celnies shown in Table 1 are further added in proportions of 0.5%, 1%, and 2% by weight. Thirteen types of thickeners other than H were added, and the resulting gel was confirmed for thickening and thixotropy. Thickness and thixotropy can be applied directly to the nail and placed 3 mm or more, and “○” when the gel does not sag even if it is vertical for 5 seconds after placement, otherwise “×” evaluated. Table 2 shows the types of thickeners used (trade names and manufacturers) and the evaluation results of thickening and thixotropy.

  As shown in Table 2, among 13 types of thickeners, when combined with Selney H, which is hydroxypropylcellulose, it was possible to further thicken the gel and further impart thixotropy. Furthermore, it was only Lucentite SPN, which is a smectite having an affinity for acetone (acetone-affected smectite). Therefore, it was confirmed that acetone-affected smectite is suitable as the second thickener.

  In addition, when adding Lucentite SPN so that it might become 2 mass%, the tendency to require time until it melt | dissolves a little was recognized.

<Examination of suitable composition-1>
Fix the solvent to acetone and the thickener to Celny H (Nippon Soda Co., Hydroxypropylcellulose, 3% by mass content) and Lucentite SPN (Coop Chemical Co., acetone affinity smectite, 1% by mass content). The gel was manufactured by changing the water content. Lucentite SPN was dispersed in a solvent, acetone or a mixed solvent of acetone and water, and swollen while stirring with a magnetic stirrer. Thereafter, Selney H was swollen with stirring to obtain a prototype gel. The manufactured prototype gel was stored in a bottle until use. If it takes time to disperse and dissolve Lucentite SPN and Selney H with a magnetic stirrer, it is also possible to create a prototype gel using a pulverizer or disperser that uses a dispersion medium such as a bead mill. It is.

  About the manufactured gel, performance etc. were evaluated with the following method. The gel nail and LED UV irradiator were manufactured by Sunbird Co., Ltd. Gel nails were applied to the nail of the left hand of 8 subjects, and UV irradiation was performed for 10 seconds with the base coat, 10 seconds for each color coating, and 30 seconds for the top coat. After 1 hour, the topcoat portion was scraped with a file and scratched, and then the prototype gel was placed on the nails and left for 15 to 20 minutes, and the nail was removed using a wood stick.

  Evaluation items and evaluation methods were as shown below. For each evaluation item, each test item was evaluated as 1 point when the prototype gel felt superior, and 0 when it did not feel superior, and a total of 8 subjects per evaluation item. Score was calculated. And, if the total score of the evaluation items is 7-8 points, “◎”, if 5-6 points, “◯”, if 3-4 points, “△”, 0-2 points “×”. If there was at least one “x” evaluation item, the prototype gel was determined to be “unsuitable” and used as a comparative example. Other prototype gels were determined to be “suitable” and used as examples.

(1) Hardness of gel One point is added when it is felt that the hardness is suitable for placing on a nail.

(2) Ease of application One point was added when it felt that it was easy to apply to the nails.

(3) Removal power Acetone is soaked in absorbent cotton cut into nail size, the absorbent cotton is placed on the nail with the top coat shaved with a file beforehand, and covered with aluminum foil to prevent evaporation 15 ~ The removal time was measured when the conventional method was used, in which the gel nail was left untreated for 20 minutes, and the gel nail did not fall. The removal time for each subject was about 20-25 minutes. Then, if the removal time of each prototype gel is equal to or less than the removal time of the conventional method, one point is added.

(4) Ease of wiping One point was added when it was felt that it was superior to the conventional method.

(5) Whitening of skin After removing the prototype gel, 1 point was added when the skin and nails were not whitened.

(6) Odor One point is added when no unpleasant odor is felt.

(7) Transparency One point is added when it is felt that transparency is high.

  Table 3 shows the compositions and evaluation results of Examples 1 to 3 and Comparative Examples 1 to 4. The numerical value of a structural component shows the content rate (mass%) in trial manufacture gel.

  From Table 3, it was confirmed that when the acetone content in the prototype gel was 93% by mass or less, the evaluation of “gel hardness” and “easy to apply” was “x”. It was also confirmed that the evaluation of “removal power” decreased as the acetone content decreased. It was speculated that the water content was preferably 2% by mass or less.

<Examination of suitable composition-2>
Next, a prototype gel in which the solvent used was acetone alone and the contents of Selney H and Lucentite SPN were changed was produced in the same manner as described above, and evaluated in the same manner as described above. Tables 4 to 6 show the compositions and evaluation results of Examples 1, 4 to 13 and Comparative Examples 5 to 14. In Table 5, the evaluation of Comparative Example 11 is not described because Celnie H could not be completely dissolved in acetone, so a homogeneous gel could not be produced and evaluation was impossible.

  From Tables 4 to 6, the content of Selney H is in the range of 2 to 4% by mass, the content of Lucentite SPN is in the range of 0.3 to 2% by mass, and the content of Selney H And the content of lucentite SPN are in the range of 3.5 mass% to 4.75 mass%, and the acetone content is in the range of 94 mass% to 96.5 mass%, all evaluation items are “× It was confirmed that it was determined that the utility and utility were high.

<Examination of suitable composition-3>
Next, the content rate of Celny H is fixed to 3% by mass, the content rate of Lucentite SPN is fixed to 1% by mass, the content rate of the solvent is set to 96% by mass, and seven types of solvents other than acetone are used. A prototype gel was prepared in the same manner as the method. Each prototype gel was evaluated in the same manner as described above. Table 7 shows the evaluation results of Comparative Examples 17-23. In Table 7, the evaluation of Comparative Examples 18, 22 and 23 is not described because Celny H could not be completely dissolved in the solvent, so a homogeneous gel could not be produced and evaluation was impossible. is there.

  From Table 7, when only other solvents are used in place of acetone, either evaluation item becomes “x” or a homogeneous gel cannot be produced, which may lack practicality and usefulness. confirmed.

<Examination of suitable composition-4>
Next, the solvent content was fixed to 96 mass%, the celnie H content was 3 mass%, and the content of Lucentite SPN was fixed to 1 mass%. A prototype gel was prepared by setting the content of acetone to 91% by mass and the content of 7 solvents other than acetone to 5% by mass. Each prototype gel was evaluated in the same manner as described above. Table 8 shows the evaluation results of Examples 14-21.

  From Table 8, it was confirmed that the prototype gel using the mixed organic solvent of 91% by mass of acetone and 5% by mass of seven kinds of organic solvents other than acetone is highly practical and useful. From this, in the remover gel for soft gel nail of the present invention, the content of the organic solvent is in the range of 94% by mass or more and 96.5% by mass or less, and among the content of the organic solvent, the content of acetone is 91% by mass. If it was above, it was confirmed that organic solvents other than acetone can be used together.

  The remover gel for soft gel nail and the method for producing the same of the present invention are useful in the technical field of cosmetics or beauty industry.

Claims (4)

A soft gel nail remover gel comprising hydroxyalkyl cellulose, acetone-affected smectite and an organic solvent,
The hydroxyalkyl cellulose content is in the range of 2% by mass to 4% by mass,
The content of acetone-affected smectite is in the range of 0.3% by mass to 2% by mass,
The total of the content of hydroxyalkyl cellulose and the content of acetone-affected smectite is in the range of 3.5% by mass to 4.75% by mass,
The organic solvent content is in the range of 94% by mass to 96.5% by mass,
Of the organic solvent content, the acetone content is 91% by mass or more,
The water content is 2% by mass or less,
This is a remover gel for soft gel nails. Hydroxyalkyl cellulose is hydroxy alkyl cellulose having a single alkyl substituent having 1 to 4 carbon atoms, softgel Nail remover gel of claim 1. The remover gel for soft gel nails according to claim 2 , wherein the hydroxyalkyl cellulose having a single alkyl substituent having 1 to 4 carbon atoms is hydroxypropyl cellulose. A method for producing a remover gel for soft gel nail, in which hydroxypropylcellulose is dissolved in an organic solvent in which acetone-affected smectite is dispersed,
The content of hydroxypropyl cellulose is in the range of 2% by mass to 4% by mass,
The content of acetone-affected smectite is in the range of 0.3% by mass to 1.5% by mass,
The total of the content of hydroxyalkyl cellulose and the content of acetone-affected smectite is in the range of 3.5% by mass to 4.75% by mass,
The organic solvent content is 94% by mass or more and 96.5% by mass or less,
Of the content of the organic solvent state, and are the content of acetone 91% by mass or more,
The water content is 2% by mass or less,
The manufacturing method characterized by the above-mentioned.