JP2004175671A - Nail enamel remover for finish - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a nail enamel remover for the final finish by automating and speeding up a removing treatment of a protruded part of the nail enamel in manicure and affording a composition and a constitution of the safe nail enamel remover for the final finish having excellent convenience and the above functions. <P>SOLUTION: Only a protruded enamel coated film in a deformed skin part is peeled by utilizing a difference in deformation physical properties between the nail and the skin and peeling actions with the deformation in the presence of a low-surface tension oil. Since the nail part is not peeled, the separated coating of the enamel can be made clear. The remover composition used is a fluid substance composed of ingredients without deteriorating the nail enamel coating film and the surface tension at 25°C is ≤23 mN/m. When using a wiping material consisting essentially of ultrafine fibers, the remover can be composed of a composition having ≤34 mN/m surface tension. The composition is composed of a volatile or a nonvolatile ingredient such as a silicone, a paraffin or an animal or a vegetable oil. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a nail enamel remover that removes nail enamel, which is a beauty nail cosmetic, and specifically, does not act on the nail enamel, but acts only on the enamel of the skin part protruding from the nail, in a nail treatment. The present invention relates to a finishing nail enamel remover having a coating function.
[0002]
[Prior art]
Nail enamel (manicure), nail enamel base coat, nail enamel over (top) coat, nail art paint, and nail crayon, which are beautiful nail cosmetics, are clearly painted on nails and skin, and are brushless and uniform It is desired to form a coating. In general, nail enamel is manually painted and applied to a brush or the like. However, this operation causes the enamel to protrude or remain uncoated, and it takes skill and time to obtain a satisfactory finish. In particular, manual work that is not the dominant arm that applies the claws of the dominant hand becomes even more difficult. In addition, the nail and the skin of the skin have a parting position at the back of the nail claw (three sides, one side of the back nail claw surrounding the nail and two sides of the side claw cage). It is extremely difficult to paint at this boundary.
[0003]
In general, the protruding portion of the enamel is dissolved by applying an enamel remover solution (a remover) to a stick wrapped with cotton, a cotton swab, a rod-shaped felt, or the like. The remover liquid used for these is a composition for dissolving or altering the film forming agent. This composition includes ketones such as acetone and methyl ethyl ketone, acetates such as ethyl acetate, butyl acetate and ethyl glycol acetate, lactate esters such as ethyl lactate and butyl lactate, alcohols such as ethyl alcohol and methyl alcohol, and butyl cellosolve. And ethers such as ethylcellosolve and cyclic ester compounds such as propylene carbonate as solvents, and are composed of an auxiliary agent for preventing degreasing and dehydration of nails and preventing skin irritation. In recent years, there have been various problems such as allergenicity, chemical sensitivity, and VOC (Volatile Organic Compound), and there is a demand for a material that considers living bodies and the environment. For example, a remover characterized by a protective component, or an alcohol or natural essential oil as a main agent has been proposed (for example, see Patent Documents 1, 2, and 3). Then, it is easy to recall that, with the removal form, it is efficient to carry out with a writing implement such as a writing implement. For this reason, a remover provided with a liquid applicator having a writing instrument structure (pen type) or a scraper has been used as a convenient remover (for example, see Patent Documents 4 and 5).
[0004]
Since these methods use the solvent's dissolving power, it is considered effective to remove them before the enamel is dried. This dissolving action also dissolves the finished enamel on the nails, so it is necessary to carefully wipe off the nails so as not to touch the nails. If you do, you'll need to re-apply the brush with enamel only on the scratches. Similarly, care must be taken not to touch the pen-type remover. Further, the wiping body and the wiping portion are contaminated with the dissolved enamel. In a writing implement structure, this contamination problem has a significant effect on the ability to remove. For this reason, a removal tool that supplies an unused portion by a wiping member winding mechanism or the like and recovers the removal ability has been proposed (for example, see Patent Document 6). However, this measure complicates the structure of the removal tool.
[0005]
Regarding the finish of nail enamel, a beautiful nail material having improved coatability, smoothness of coating film, and drying property has been proposed. However, it cannot improve the protrusion effectively. For this reason, means for preventing the enamel from protruding have been proposed. This prevention is an improvement of the masking method used for general coating. As the masking material, masking tapes, masking gels, pastes having different polarities, and the like have been proposed (for example, see Patent Documents 7 and 8). However, since it is a three-dimensional shape and the shape or the like differs depending on individual differences, it is difficult to accurately mask. Since this masking treatment time requires the same labor and time as enamel coating, it is not widely used in general nail enamel. This masking means is used only in the case of a special coating means such as a spray method.
[0006]
In the field of cosmetics and skin cleansing, including enamels, polysiloxane compounds, paraffin-based solvents, and fluorine-based solvents that have low surface tension and release properties are used as enamel quick-drying agents, It has been studied and often used as a functional component (see, for example, Patent Document 9, Patent Document 10, Patent Document 11, Patent Document 12, and Patent Document 13). These are used for the purpose of improving the finishing effect and the cleaning effect. The purpose of the cleaning agent is to completely remove the cleaning agent, and it has not been studied as a component used for the coating function of the present invention.
[0007]
[Patent Document 1]
JP-A-63-010710
[Patent Document 2]
JP-A-8-268842
[Patent Document 3]
JP-A-9-169621
[Patent Document 4]
Japanese Utility Model Publication No. 60-161910
[Patent Document 5]
JP-A-2002-128642
[Patent Document 6]
JP-A-6-052706
[Patent Document 7]
JP-A-10-243813
[Patent Document 8]
Japanese Utility Model Laid-Open No. 5-039405
[Patent Document 9]
Japanese Patent No. 3177917
[Patent Document 10]
JP 2000-044333 A
[Patent Document 11]
JP 2000-178173 A
[Patent Document 12]
JP-A 1-211513
[Patent Document 13]
JP-A-5-201851
[0008]
[Problems to be solved by the invention]
Various techniques for finishing nail enamel have been proposed, but it still takes skill and time to obtain an ideal finish that clearly separates the nail and the skin. Ideally, the nail enamel 1 is applied separately as shown in FIG. 1, but it is difficult to clearly apply the nail enamel 1 at the recessed position (A) between the nail 2 and the skin 3 or to melt out the protrusion 1a. Similarly, it is more difficult to coat a tape or the like at this boundary.
[0009]
A conventional solution to the protruding portion is a removal method utilizing the dissolving power of a solvent or the like. The enamel remover composition used contains at least a component that dissolves the film-forming agent. This dissolved component puts a burden on the consumer in terms of skill, time, health and safety, and cost. This problem is not solved by improving the dissolving power or adding an auxiliary.
[0010]
In terms of skill and time, this soluble component alters the already formed film. For this reason, great care must be taken not to touch the finished surface. This work has the same difficulty only by the difference between the inner and outer shells, and requires the same skills and time as enamel application. This restriction of contact makes the correction work difficult.
[0011]
In terms of health and safety, the film is dissolved again and becomes a decomposed component that easily acts on the skin. This dissolving means causes further invasion of chemical substances into the body and rough skin in the process. In terms of cost, the dissolved enamel component contaminates the wiping cloth and the wiping part. As a result, the removal capacity is reduced and the wiping material is consumed. The coloring or mixing of the enamel contaminants renders service with different nail colors and reuse of the wiping material impossible. The problem of each of these surfaces is caused by dissolving and removing the enamel.
[0012]
The present invention aims to speed up and automate the processing of the protruding portion of the enamel in beautiful nail makeup. A safe and convenient composition and composition having this function is obtained to provide a nail enamel remover for final finishing.
[0013]
[Means for Solving the Problems]
The surface of the finger is composed of protein keratin material and protects the inside. Nail and skin have the same protein, but differ greatly in hardness. Hard keratin such as nails and hair is called hard keratin, and the stratum corneum of soft skin is called soft keratin. The region of the difference in hardness is the region where nail enamel is applied separately. The first feature of the present invention is to pay attention to the difference in physical properties between the nail and the skin and to use it for finishing beautiful nails.
[0014]
In the painting operation, the paint adhered to the hard adherend is stably fixed, but the soft adherend experiences peeling off due to deformation of the adherend. However, the coating film of the soft adherend is not always peeled off. Unlike skin cosmetics such as lipstick and eyeshadow, nail enamels that require abrasion resistance in housework show a phenomenon similar to paints having a certain degree of hardness. Controlling the reliability of this peeling has become the technology that has achieved this problem.
[0015]
The adhesion mechanism of the film-forming cosmetic can be explained by the adhesion theory. Typical theories are mechanical bonding by the anchoring effect at the interface, chemical bonding by a chemical reaction called covalent bonding, chemical bonding by hydrogen bonding of OH groups, wetting of liquid substances such as lubricants and plasticizers (Van der • Four theories of electrical coupling by the power of Wales) have been considered. In cosmetics, since the adherend is a living body, only weak bonding means premised on removal can be adopted. For this reason, the adhesion of the enamel coating film is considered to be a state close to tackiness in the bonding by hydrogen bonding and wetting. In the fixing state due to the adhesion, the interfacial tension of the bonding interface and the polarity are greatly related.
[0016]
After enamel coating and drying, various oils are adhered to the fingertips and rubbed or pressed to deform. When the surface tension value of the oil agent was gradually reduced in this pre-peeling state, practical certainty of the peeling of the enamel adhered to the skin appeared from a certain value. When one that did not alter the enamel was selected from the oils, the coating on the skin (soft adherend) could be reliably removed without affecting the coating on the nail (hard adherend). The inclusion of a dissolving substance made the sticky or liquefied substance indistinguishable. The inventors have found that a nail enamel having film strength can be selectively removed with a composition that does not dissolve, and the present invention has been completed.
[0017]
The second feature of the present invention is to use an oil agent exhibiting physical properties of low surface tension in combination with the peeling action of deformation as means for removing protrusion. As a result, even if handled carelessly, only the protruding enamel on the skin is removed, and the enamel of the nail remains in an ideal state. The present invention is a nail enamel remover composition which is a fluid composed of components that do not alter the nail enamel coating film and has a surface tension at 25 ° C. of 23 mN / m or less. The upper limit of the surface tension value is a value applied to nail art paints having weak adhesion and peelable enamel.
[0018]
In the present invention, “alteration” is a phenomenon in which the physical properties of a film are degraded by chemical (dissolution, softening, swelling) and physical (abrasion, polishing) actions. Specifically, it is to reduce glossiness, smoothness, and strength (such as abrasion resistance) which are functions of the enamel. The presence or absence of chemical alteration of the composition is determined by comparing the glossiness, hardness, and swelling of the film by an immersion test. The immersion time is considered to be appropriate at 20 minutes at 25 ° C. from the actual work of enamel coating. The physical property is determined by comparing the glossiness. A conventional enamel remover contains at least one corresponding component, which causes deterioration. However, components that improve the physical properties as a function of nail enamel do not correspond to altered components.
[0019]
As a use form of the present invention, by making the fibers of the wiping material extremely fine, a composition having a high surface tension can be used. As a familiar use of ultrafine fibers, removal of an oil film such as dirt is known. It is said that this removal action can be completely cleaned by making the fibers thinner and penetrating into the lower part of the oil film layer and scooping up the oil film from the surface to be wiped. When this effect is viewed from the surface to be wiped (enamel coating surface), it means that the fiber directly touches the coating surface. The use of the wiping material containing the ultrafine fibers prevents the sliding on the membrane due to the remover liquid, and effectively generates a peeling action on the coating film.
[0020]
This effect increases the amount of oil that can be adopted by increasing the allowable value of the surface tension. As a means for improving wiping, a third feature of the present invention is to reduce the fibers of the wiping material to 1.0 denier or less. The present nail enamel remover is a fluid composed of components that do not alter the nail enamel coating. The composition has a surface tension at 25 ° C. of 34 mN / m or less, and an ultrafine fiber of 0.0001 to 1.0 denier. It consisted of the main wiping material. "Subject" means at least 40% of the fibers in contact with the wiping surface. With this surface tension value, natural animal and vegetable oils exist, and one of them can achieve the object.
[0021]
The composition of the present invention can be composed of an organosilicon compound, an aliphatic hydrocarbon compound, an organic fluorine compound containing no chlorine or bromine atom, an organic compound modified with these compounds, and an oil for animal and vegetable oils. One or more oil agents having the surface tension value or less can be prepared to constitute the composition. The oil agent having a surface tension value exceeding the surface tension value is prepared with one or more oil agents having a low surface tension value to constitute a composition having the surface tension value or less. In addition, within the range not exceeding the surface tension value, an effect such as maintenance of the homeostasis of the skin can be imparted to the composition by adding an oil agent or a drug such as a humectant, a humectant, an emollient, or a polish.
[0022]
When the composition is composed of 90% by weight or more of volatile components at 30 ° C., wiping after use is unnecessary, and the remover composition is easy to use. Here, the “volatile component” means a component that has a tendency to evaporate within one hour upon contact with skin or nails. A substance that is liquid at a temperature (30 ° C.) and an atmospheric pressure (760 mmHg) corresponding to the skin and has a vapor pressure of preferably 0.01 to 300 mmHg is selected. The amount of volatile components of the constituent composition is determined from the amount of residual evaporation under these conditions.
[0023]
The removal method of the present invention must exert at least the effect of deforming the skin in the environment where the remover composition is present. The closest thing to this effect is your nail. Alternatively, a spatula or stick having a structure and shape that does not damage the enamel surface is also possible. However, the composition is characterized in that it may be brought into contact with the enamel surface of the nail. It is more efficient to effectively utilize this and apply wiping and deformation simultaneously with the wiping material. As the wiping material, a fabric such as a woven or knitted fabric or a nonwoven fabric, a wiping paper (such as a tissue paper), a felt core, a cotton body, a sponge, or a brush can be used. In the case of using a composition having a surface tension of 34 mN / m or less, fibers such as cloth and felt are mainly composed of ultrafine fibers.
[0024]
As the container form of the present remover, a container having a structure to be applied by dripping or brush, a spray container, a container having a wiping unit, a package impregnated with a remover liquid, and the like can be adopted. In addition, by configuring a tool having a wiping unit capable of controlling the range of application and wiping, a remover with good usability can be manufactured. The combination of this composition with the characteristics of the container and the wiping method provides a remover suitable for the usage environment. For example, when the fingertip is wetted with the remover liquid and massaged with the wiping material, the enamel only in the protruding portion is peeled off, and the finishing is completed. This operability is close to automatic.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
The remover composition of the present invention is a component showing physical properties of low surface tension and showing no altering action on nail enamel. Compatibility of the degree of chemical dissolution can be determined by the SP (Solubility Parameter: solubility factor) value of the known substance. The dissolving effect decreases as the value of the SP value increases. Further, the action becomes stronger as the viscosity becomes smaller. The SP value of nitrocellulose, vinyl acetate, and the like, which are used for general film-forming resins, is 9.4 to 12. On the other hand, the SP value of the oil agent of the organosilicon compound is 5.5 to 7.5, the oil agent of the aliphatic hydrocarbon compound is 6 to 8, and the oil agent of the aliphatic fluorine compound is 5.5 to 6.5. 5 Conventional remover compositions such as acetone can be said to be oils in the range of 10 to 12 and utilize their compatibility. The difference in SP value is preferably 2 or more with respect to the main film-forming resin. In addition, priority shall be given to substances that do not fall under the rules for poisons and deleterious substances, specified chemical substances, and organic solvents, which will be judged as harmful.
[0026]
In the oil agent of an organic silicon compound, dimethyl polysiloxane, diethyl polysiloxane, methyl phenyl polysiloxane, and methyl hydrogen polysiloxane are mentioned as the linear or branched polysiloxane. Examples of the cyclic polysiloxane include methylcyclopolysiloxane, octamethylcyclotetrasiloxane, decamethylcyclopentasiloxane, and tetradecamethylcycloheptasiloxane. Examples of the dimethylsiloxane copolymer include dimethylsiloxane / methylstearoxysiloxane copolymer, dimethylsiloxane / methylcetyloxysiloxane copolymer, dimethylsiloxane / methyl (polyoxyethylene) siloxane copolymer, and dimethylsiloxane / methyl (polyoxysiloxane). Examples thereof include an ethylene / polyoxypropylene) siloxane copolymer and a dimethylsiloxane / methyl (polyoxypropylene) siloxane copolymer. Examples of the modified polysiloxane include polyether-modified polysiloxane, epoxy-modified polysiloxane, amino-modified polysiloxane, carboxyl-modified polysiloxane, fluorine-modified polysiloxane, mercapto-modified polysiloxane, methacryl-modified polysiloxane, and alkyl-modified polysiloxane. Other examples include emulsified volatile polysiloxane. One or more of these are prepared to form a composition having the surface tension value.
[0027]
These oils are referred to as silicone oils, and there are volatile, low-volatile, and non-volatile oils depending on the polymerization molecular weight. Dimethylpolysiloxane having a low degree of polymerization (less than 5 cst at 25 ° C.) is preferable because it exhibits low surface tension physical properties. Further, since it is volatile, there is no contamination such as stickiness after use, and wiping is unnecessary. Further, it is preferable because it has compatibility with other oil agents including a polar solvent. Non-volatile ones need to be wiped off if used excessively. However, this residue can be used as a humectant or a polish. Since the object of the present invention is a finishing treatment for applying different nail enamels, it is preferable to mainly use a volatile oil agent.
[0028]
Oils of hydrocarbon compounds are obtained by means of refining synthetic or light petroleum components and are generally classified into aromatic hydrocarbons, naphthenic hydrocarbons and paraffinic hydrocarbons. Among them, paraffinic hydrocarbons having low dissolving power can be adopted. This is also called liquid paraffin, and is mainly a mixture of three components of normal paraffin, isoparaffin and monocyclic cycloparaffin. Among them, normal paraffin having 6 to 10 carbon atoms and isoparaffin are preferable. This paraffinic hydrocarbon is used as a detergent, but as a disadvantage, it has a weak detergency and is used in an azeotropic or pseudo-azeotropic state with other solvents. A single unit can exhibit only a degreasing ability. This drawback has the advantage of not damaging the material of the wash, and can be applied as a non-deteriorating component of the present invention. Normal paraffin includes n-hexane, n-heptane, n-octane, n-nonane, and n-decane. Isoparaffins include isohexane, isoheptane, isooctane, isononane, and isodecane. Examples of the monocyclic cycloparaffin include cyclohexane. One or more of these are prepared to form a composition having the surface tension value. However, the monocyclic cycloparaffin has an SP value of 8 or more, has a higher dissolving action than the above, and is limited by applicable enamel materials. Non-volatile materials can be used as humectants and glazes.
[0029]
Paraffinic oils contain a large amount of impurities such as sulfur compounds and harmful metals depending on the refining level. For this reason, those which have passed at least one of the purity test and the standard value in the cosmetic raw material standard, the Japanese Pharmacopoeia, the food additive standard, or the standard based thereon are preferable from the viewpoint of safety and health.
[0030]
Examples of the oil agent of an organic fluorine compound include compounds containing no chlorine atom, such as perfluorocarbons (PFC), hydrofluorocarbons (HFC), and hydrofluoroethers (HFE) of fluorine-containing compounds. These have low surface tension values, but have low latent heat of vaporization and are too volatile by themselves. For this reason, it is suitable as a low surface tension agent by mixing with a compound exhibiting compatibility.
[0031]
Animal and vegetable oils can be used as the main agent or the agent for maintaining skin homeostasis as the oil agent of the present invention. These animal and vegetable oils have a moisturizing effect and an emollient effect by fatty acids such as linoleic acid and oleic acid as main components. In addition, vitamin E, vitamin A, flavonoids, phytosterols, aromatic substances, and the like, which are contained as trace components, can be expected as medicinal components such as blood circulation promotion, cell repair promotion, and inflammatory healing effects. Further, it can be employed even if the surface tension value or the like is processed into a suitable property by purification or polymerization.
[0032]
As vegetable oils, olive oil, falling raw oil, camellia oil, coconut oil, soybean oil, wheat germ oil, cottonseed oil, sunflower oil, rapeseed oil, mustard oil, sesame oil, corn oil, safflower oil, linseed oil, walnut oil, tung oil, Rosemary oil, rice bran oil and the like. These can be used alone or in combination. Particularly, from the viewpoint of properties, low-viscosity olive oil and rapeseed oil, and inexpensive soybean oil are preferable.
[0033]
Animal oils include horse oil, egg yolk oil, mink oil, cow oil, pork oil, sheep fat, fish oil, squalene and the like. These can be used alone or in combination. Particularly, in view of properties, horse oil excellent in permeability is preferable.
[0034]
When a non-volatile component is added to the composition, the component forms a protective layer or a serum layer after the treatment. According to the present invention, it is easy to add a component effective for homeostasis or improving skin to this layer. Conventionally used moisturizers and moisturizers for controlling and evaporating water on the skin surface, emollients for moisturizing the skin, blood circulation promoters for preventing skin aging, relax A blend of a fragrance for the purpose of effect can be adopted. Various oils, drugs, vitamins, and plant extracts having such properties as maintenance of skin homeostasis can be selected and blended as long as the object of the present invention is not impaired.
[0035]
For example, polyhydric alcohols such as glycerin and polyglycerin fatty acid ester, which have been used as moisturizers for a long time, can be mentioned. In addition, as extractables from animals and plants, for example, soluble collagen, eurastin, protein hydrolysates such as keratin, glycoprotein mucin, chitin chitosan and crab and shrimp shell chitin chitosan, bifidobacterium metabolites, Examples include yeast fermentation metabolites and extracts. Examples of the same or similar components as the biological component include amino acids, pyrrolidonecarboxylic acid, lactic acid, hyaluronic acid, and chondroitin sulfate. In addition, fungicides such as hinokitiol and licorice extract, and inhibitors such as antioxidants are also included.
[0036]
The remover composition composed of these is applied by applying the enamel to the nail and then dripping or applying to the protruding portion after the coating film has dried. Examples of applicable nail enamels include organic solvent-based nail polish such as nitrocellulose and alkyd resin, and water-based nail polish such as acrylic resin, polyester resin and polyurethane resin. Specific film-forming agents include peelable water-based enamels, nail art paints, and nail crayons. The means of the present invention eliminates adhesion elements such as wetting, and can be applied to various enamels with one type of remover composition. It is not necessary to use differently for each type of film forming agent. In addition, it can be easily applied to enamels that are difficult to dissolve, such as a lame tone or pearl tone containing a special filler. Beauty nail cosmetics have different adhesive forces depending on their performance and use. In an organic solvent system having a strong adhesive force, a remover liquid having a surface tension value of 20 mN / m or less is required. Peelable enamels, nail art paints, nail crayons, etc. can be handled with the upper limit.
[0037]
It is effective to remove the remover of the conventional dissolving means before the remover dries, but the remover becomes more efficient as the enamel dries. The greater the difference in stiffness between the enamel and the skin, the easier it is to release. The degree of drying of the coating film that can be treated is such that stickiness is eliminated. Drying is the slowest in the back of the nail fold, and this area is the reference. With commercially available organic solvent-based enamel, it can be carried out in 1 to 4 minutes in summer. In the application procedure, the protrusion may be processed after the application of ten fingers. For this reason, there is room for nail processing, and workability is improved.
[0038]
When the composition exerts a deforming action in the environment where it is present on the surface, the skin is deformed, causing a chain detachment due to peeling. This deformation means is implemented by combining elements such as pressing, sliding, and rubbing. Massage or brushing that does not deform the skin is not effective. It is effective to massage like massaging. In addition, the deformation can be performed with the fingernails of the person. It is a component remover that uses the storage container and the nails of the person in the least possible form. The use of already finished nails does not affect the enamel coating.
[0039]
Generally, the nail enamel is provided in a container with a brush on the lid. By replacing the brush with a felt core or brush and using it as a wiping portion, the brush can be applied to the present remover container. The point of this change is to make the stiffness of the felt or the like high enough to deform the skin. Similarly, when the ejection part of the eye drop container is covered with a cloth such as a microfiber, a remover having excellent usability can be obtained. Thus, the present remover can be easily manufactured by changing a part of the container used for the liquid cosmetics. The less volatile remover liquid can be applied by spraying as an aerosol type.
[0040]
Next, the end shape of the thin enamel attachment shape is gradually thinned. When this is viewed from the bonding structure, no peeling force acts on the end. In addition, since this end shape follows the skin and is deformed, it is difficult to peel it off. In addition, if the protrusion is wiped off at the time of enamel coating, the coating film becomes thin, and it becomes difficult to peel it off. It is better to dry it in a protruding state. As means for acting on such an end portion, the fibers of the fibrous wiping material are made thin. The effect appears as the fibers become thinner.
[0041]
Next, naturally extending nails have cuticles in the posterior nail folds. In a state where the cuticle has not been treated, it is difficult to distinguish between skin and nail from the viewpoint of deformability. When the cuticle is treated to the extent that it can be removed by nails, a clean line is obtained. Nail art paints, nail crayons, and the like have a low film strength and may be damaged by deformation. For this reason, workability is good if it processes after applying a top coat. Removed with the top coat.
[0042]
【Example】
Next, examples of the present invention will be described, but the present invention is not limited to these examples. In this example, “%” indicates “% by weight” unless otherwise specified. The surface tension value is a measured value at 25 ° C. or a catalog value.
[0043]
[Example 1] A nail enamel remover composition containing dimethylpolysiloxane as a main component. The dimethylpolysiloxane was composed of dimethyl silicone oil “SH200 (trade name)” manufactured by Dow Corning Toray Silicone Co., Ltd. Liquid with a mixture of 50% of "SH200-0.65" (viscosity 0.65cs, surface tension: 15.9mN / m) and 50% of "SH200-1" (viscosity 1cs, surface tension: 17.4mN / m) Was obtained. “Cs” is centistokes. "SH200-0.65" is high purity hexamethyldisiloxane. Although this one type is possible, oil having a viscosity of 0.65 cs evaporates too quickly, and is not convenient in summer. Therefore, the volatility was adjusted to an oil having a viscosity of 1 cs to wet the fingertip for about 30 seconds. This remover composition corresponds to the remover liquid of the present invention having a surface tension of 23 mN / m or less. Further, it is a remover liquid having a volatile content of 100%. The composition is colorless and odorless.
[0044]
As dimethyl silicone oil equivalent to "SH200", "KF96 (trade name)" manufactured by Shin-Etsu Chemical Co., Ltd., "TSF451 (trade name)" manufactured by GE Toshiba Silicone Co., Ltd., manufactured by Dow Corning Asia Ltd. “FS200 (product name)”. Alternatively, a volatile cyclic polysiloxane can be used.
[0045]
[Example of use of Example 1] As a nail enamel, "SELFIT (trademark) NA25" manufactured by Shiseido Co., Ltd. was used. This was applied so as to be able to protrude to the skin and dried at room temperature for 3 minutes. Thereafter, the remover solution placed in the eyedropper is dropped onto the protruding portion. In this wet state, the protruding portion is deformed so as to be rubbed while lightly pushing with the nail of the person. Only the enamel attached to the protruding skin can be peeled off like scales. The peeled enamel pieces are not adherent and do not reattach to the nails. Doing this with an already finished nail does not affect the finished enamel. This deformation may be applied simultaneously with wiping with tissue paper or cotton cloth. Since this remover composition is composed of a volatile silicone oil, the components volatilize and do not remain after the treatment. The finish is completed by removing the enamel that has fallen off like scales and drying.
[0046]
[Example 2] When only a volatile oil was used, repeated use would cause skin whitening due to degreasing. This is an example of a composition for preventing this. This composition was composed of the above-mentioned dimethyl silicone oil “SH200” and a nonvolatile oil agent. A liquid remover composition was obtained from a mixture of 50% of "SH200-0.65", 45% of "SH200-1", and 5% of olive oil (a product compatible with the Japanese Pharmacopoeia) manufactured by Kenei Pharmaceutical Co., Ltd. This composition is a remover liquid having a volatile content of 95%. With this mixing ratio, an appropriate amount of olive oil remains after the dimethyl silicone oil is volatilized, and the fingertip is coated with a moisturizing layer without stickiness. In addition, the moisturizing effect of conventionally known olive oil is obtained. By changing this olive oil to various oils or drugs, or by using a mixed oil, compositions having various effects can be constituted. The composition is colorless and almost odorless.
[0047]
[Example of use of Example 2] Nail enamel used "Cellfit NA25". In this example, the embossed brush was emphasized, and it was applied at a stretch to ignore the protrusion. As a result, the skin portion protruded from the entire circumference by 1 to 3 mm. In the coating operation, each finger was successively applied, and the drying time was allotted at least about 3 minutes at room temperature per finger. The remover solution was dripped from the finger first applied, and the fingertip was wiped with a softer cloth than enamel. When massaging with a cloth, only the protruding enamel is gradually peeled off, leaving only the ideal nail enamel. In this removal method, the luster of the nail enamel is increased by the olive oil. In this procedure, when the process of sticking out of the nail is progressed in order, the nail processing of ten fingers is completed in 8 to 15 minutes. If the wiping cloth is made of ultrafine fibers, it can be processed more quickly. The finish of the enamel gives a smooth appearance without brush and good shine. It seems that this result has a favorable effect of not minding the protrusion.
[0048]
Next, reuse of the wiping cloth will be described. The removed enamel pieces or enamel powder adhere to the wiping cloth used in this treatment. For a comparative test, an enamel dissolved in acetone used in a conventional remover was attached thereto, and the stain was removed by hand washing with a neutral detergent in a kitchen. In the part used in the present invention, the fiber was not dyed to the extent that the fiber was dyed thinly. The portion dissolved with acetone was hardened in the fiber and was difficult to reuse as a cloth. The dirt removed in the present invention has the same adhesion state as dust, and the wiping material is repeatedly used by washing with a detergent.
[0049]
[Example 3] A nail enamel remover composition containing, as a main component, an isoparaffinic oil agent as a hydrocarbon solvent. With this configuration, an inexpensive remover composition can be provided. The oil agent was mainly composed of “IP Solvent 1016” (manufactured by Idemitsu Petrochemical Co., Ltd.) (surface tension at 23 ° C .: 20.7 mN / m). The oil has a purity according to the standards of the US Food and Drug Administration (FDA). To prevent whitening due to degreasing, 5% of olive oil was added. Further, a fragrance was added in an amount of 0.5% as a masking of a slight petroleum odor. This composition has the same functions and effects as in Example 2.
[0050]
Examples of other paraffinic oil agents include, as isoparaffinic hydrocarbons, Kyowa Hakko Kogyo Co., Ltd.'s isohexane “Kyowazol (trademark) C-600M”, isooctane “Kyowazol (trademark) C-800”, and isononane. "Kyowazole (trademark) C-900", "Shellsol (registered trademark)" manufactured by Shell Chemicals Japan KK, and the like. Examples of the normal paraffin-based compound include “NS Clean (registered trademark)” manufactured by Nippon Petrochemical Co., Ltd. Examples of the liquid paraffin include “Moresco White (trademark) P-40” and “P-55” manufactured by Matsumura Petroleum Institute Co., Ltd., and liquid paraffin “No. 40-S” manufactured by Chuo Kasei Co., Ltd. "No. 55-S" and the like.
[0051]
[Example 4] A remover in which the wiping material is specified as ultrafine fibers and which is composed of dimethylpolysiloxane and animal and vegetable oils. The wiping material mainly composed of ultrafine fibers is a wiping cloth made of Kanebo Gosen Co., Ltd.'s "Gooddall (registered trademark)" cut to 150 mm in length and width. "Gooddall" is a superfine fiber knitted fabric made of a special composite split yarn of polyester and nylon having a density of 0.1 denier or less and having excellent elasticity. The remover liquid is 50% of "SH200-1" (surface tension: 17.4 mN / m) manufactured by Dow Corning Toray Silicone Co., Ltd. as dimethylpolysiloxane, and cosmetics of Shodoshima Olive Co., Ltd. as animal and vegetable oils. Virgin olive oil for use (surface tension: about 33 mN / m). When this remover solution is applied and the fingertip is massaged with a wiping cloth, only the enamel at the protruding part is gradually peeled off, leaving only the ideal enamel at the nail part. Excess oil is wiped off with a wipe. It is a remover that seeks the beauty of the fingertips while finishing the nail. It can also be carried out with animal and vegetable oils commonly used as cosmetics. An example is horse oil.
[0052]
[Example 5] The structure of a remover that was packaged for one nail treatment and used as a finishing pack. 0.4 g of cosmetic virgin olive oil of Shodoshima Olive Co., Ltd. as an oil agent in "Microflex (registered trademark)" manufactured by Kuraray Co., Ltd., and isooctane "Kyowasol C-800" manufactured by Kyowa Hakko Kogyo Co., Ltd. Was impregnated with 0.2 g. This is provided sealed in a bag made of an aluminum vapor-deposited film. “Microflex” is a nonwoven fabric formed into a sheet by bonding ultrafine fibers to each other. The nonwoven fabric and olive oil for one batch were set to have a capacity capable of processing ten fingers. The oil can also be made from edible olive oil. Alternatively, a plurality of removers impregnated with oil may be accommodated as a container with a lid instead of the packaging. By blending vitamins, blood circulation enhancers, whitening agents, and the like with this oil, a cosmetic effect can be easily imparted. In this remover composition, it is applied to a nail enamel having a weak adhesive force.
[0053]
Other wiping cloths made of ultrafine fibers include woven fabric "Zavina (registered trademark)" manufactured by Kanebo Gosen Co., Ltd., woven fabric "Tresee Miracle Clos (trademark)" manufactured by Toray Industries, and Toray Industries, Inc. Nonwoven fabric "Exeine (registered trademark)", nonwoven fabric "Microflex (registered trademark)" manufactured by Kuraray Co., Ltd., nonwoven fabric "Alcima (registered trademark)" manufactured by Unitika Ltd., nonwoven fabric manufactured by Toyobo Co., Ltd. Prereel (registered trademark) ", woven knitted fabric" Microstar (registered trademark) "manufactured by Teijin Limited, nonwoven fabric" Denktitol (trademark) "manufactured by Nippon Vilene Co., Ltd., nonwoven fabric" Charelia "manufactured by Asahi Kasei Corporation (Trademark) "and the like. In addition, cotton swabs, rod-like felts, felt cores, and the like having microfibers as the wiping portion have already been used for applications such as cleaning. These are effective as the wiping material mainly composed of the fine fibers of the present invention.
[0054]
[Example 6] Usability was greatly improved by storing the present remover composition in an applicator having a writing instrument structure. The pen core is a synthetic fiber binding core made of a nylon fiber and an elastomer resin. It is a round core (cannonball shape) with an outer diameter of 3 mm and a porosity of 50%. The pen core was used as a wiping part, and a felt in which the composition of Example 2 was penetrated by 3 cc was stored inside the handle to constitute a pen-type remover. The liquid is supplied to the pen core by a capillary effect. This remover can apply and effectively deform the target site with a pen tip. Then, the processing can be performed with a minimum consumption of the remover liquid. This remover is convenient to carry. Moreover, it has no odor, no adhesion of removed enamel and no toxicity, and can be carried out even in crowds.
[0055]
[Example of use of Embodiment 6] The operation of the remover is such that the remover is lightly pressed with a pen tip to wet the liquid, and is moved along the groove of the nail wall. The enamel can be removed in about two reciprocations. In the protruding part, the surface to be peeled (skin side) and the surface not to be peeled (nail side) are clearly separated by the groove of the skull. Thereafter, the details are processed in the same manner. Thus, the final finishing can be performed by a simple operation while suppressing the consumption of the liquid. The difference from the pen type remover that stores the dissolved component is that it can be carried out without concern for the enamel surface of the finished nail. Further, the removed enamel can be easily removed with a tissue only by adhering a powdery substance. The pen core always keeps the same state without the enamel melting. The pen core of this remover can be used until the liquid is exhausted.
[0056]
A pen-type remover can be easily manufactured by replacing the ink of a commonly used coating type writing implement with the present remover composition. For example, in the liquid supply method, various mechanisms such as a pump effect by a steel ball and pressurized discharge can be adopted. The pen core structure may be a felt core, a sponge core, a sintered porous core, the pen core shape may be a rectangular core or a flat core, and the binding fiber may be an acrylic fiber, a polyester fiber, or a wool fiber. The hardness of the pen core is preferably smaller than the enamel coating. When applied to a remover liquid having a surface tension of more than 23 mN / m, the thickness of the fiber is made to be an ultrafine fiber, or the pen core is replaced with a pen core having a structure coated with an ultrafine fiber cloth.
[0057]
[Example 7] A remover was manufactured using a bottle container provided with a brush on a lid used for nail enamel. The brush portion of this container was replaced with a synthetic fiber binding core made of nylon fibers and an elastomer resin, and used as a wiping portion. The binding core is a round core (cannonball shape) having an outer diameter of 4 mm and a porosity of 50%. At least 3 mm from the tip is used as the binding core. The length is made the same as that of the conventional brush and shaft, and the remover is applied in the same manner as the enamel, and the protrusion is removed at the tip of the binding core. The processing operation is the same as in the sixth embodiment. Since the removed enamel is not in a liquid state, it precipitates in the form of a powder at the bottom of the bottle. It can be configured with the same specifications as the nail enamel bottle container, and uniformity can be obtained as a nail product. Similarly, a wiping tool having a pen structure that does not store the remover liquid and a storage container can be separately configured. The wiping tool is a stick having a binding core at the tip.
[0058]
The wiping portion of the remover may be replaced with a cotton swab, a rod-like felt, or the like, and may be made of an elastic body made of various rubbers, an elastic body made of an elastomer, or an elastic body made of a foam, as long as the wiping portion merely gives a deforming action to the skin. With a nib, a hard or soft ball is also possible. In order to obtain the rigidity of the wiping portion, various synthetic resins and metals can be used as the core material.
[0059]
Next, for lowering the surface tension of the composition used in these, an oil agent of an organic fluorine compound can be expected. For example, as the perfluorocarbons (PFC), “Fluorinert (trademark) FC-84” and “FC-77” manufactured by Sumitomo 3M Limited are listed. Examples of hydrofluorocarbons include "Bertrel (registered trademark) XF (HFC-43-10mee)" manufactured by DuPont-Mitsui Fluorochemicals. Examples of the hydrofluoroethers include “Novec ™ HFE-7100” and “HFE-7200” manufactured by Sumitomo 3M Limited. By blending these, the peelability of the enamel is improved.
[0060]
Thus, by specifying components conventionally used for cosmetic and industrial cleaning and utilizing the difference in hardness of living tissue, a nail product that achieves a desired finish can be easily manufactured. This can be interpreted as a cleaning agent having a sorting function, and can be used as a new beauty nail technology.
[0061]
【The invention's effect】
As described above, the present invention has the following effects.
(A) A configuration different from the conventional one, in which the dissolving action is excluded from the essential action, enables the contact of the finished claw portion and realizes a finishing process that does not require any skill. In beauty nail makeup, create a finishing style that can be applied naturally when massaged. In addition, the penetration of dissolved components during removal is reduced, and safety to the skin is enhanced.
(B) By utilizing the difference in physical properties between the nail and the skin, the paint can be automatically applied at an ideal position. The paint line has clarity that cannot be easily realized by brushing or wiping.
(C) The non-solubility of the enamel avoids fatal contamination of the wiping portion and enables repeated use. Thus, various types of removal tools having a simple structure and excellent convenience can be configured.
(D) Since the removal of the enamel protrusion can be performed quickly and safely, it is possible to apply the brush at a stroke without worrying about the protrusion, and as a result, a fine finish can be obtained. In addition, the speed and safety of this treatment can be utilized as a solution for a coating technique that is automated by means of masking or coating control.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing the structure of a fingernail.
[Explanation of symbols]
1 nail enamel
1a Protruding
2 claws
3 skin

Claims (3)

A nail enamel remover composition comprising a fluid that does not degrade the nail enamel coating film and has a surface tension at 25 ° C. of 23 mN / m or less. A fluid composed of components that do not alter the nail enamel coating. A composition having a surface tension at 25 ° C. of 34 mN / m or less and a wiping material mainly composed of ultrafine fibers of 0.0001 to 1.0 denier. Nail enamel remover, characterized by being. The nail enamel remover composition according to claim 1 or 2, wherein the composition comprises at least 90% by weight of volatile components at 30 ° C.

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