JP2012233057A - Biodegradable scrubbing agent and skin cleansing agent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a scrubbing agent that has an extremely low influence even if the scrubbing agent is discharged into the nature and is excellent in detergency; to provide a method of producing the scrubbing agent; and to provide a detergent that contains the scrubbing agent and is excellent in detergency.SOLUTION: The scrubbing agent contains a biodegradable plastic and natural vegetable powder, wherein the biodegradable scrubbing agent is formed by curing a mixture of a melted or dissolved biodegradable plastic with the natural vegetable powder. The skin cleansing agent contains the biodegradable scrubbing agent.

Description

  The present invention relates to a biodegradable scrubbing agent, a method for producing the same, and a skin cleanser containing the biodegradable scrubbing agent.

  Skin cleansing agents are formulated with scrubbing agents such as synthetic resin, calcium carbonate, crystalline cellulose, walnut shells, carnauba wax, cork powder, poorly soluble dextrin, and corn powder for the purpose of cleaning and massaging the skin. (For example, Patent Documents 1 to 3).

However, for example, if a cleaning agent containing a scrub agent using synthetic resin or calcium carbonate is discharged into the natural world together with water after use, it will stay in the ecosystem for a long time, and further accumulation can have various effects. There is sex.
On the other hand, natural scrubbing agents such as crystalline cellulose, walnut shell, cork powder, poorly soluble dextrin, and corn powder have a low effect on the natural world, but the cleaning effect is not necessarily high.

JP 2004-189612 A JP 2003-342162 A JP-A-10-279470

Therefore, an object of the present invention is to provide a scrubbing agent that has an extremely low influence even when discharged to the natural world and has an excellent detergency, and a method for producing the same.
Another object of the present invention is to provide a skin cleanser having excellent cleaning power, containing the scrub agent.

  In order to solve the above problems, the present inventors have focused on biodegradable plastics and natural plant powders, and the powder obtained from these melted mixtures has a significant cleaning effect compared to conventional scrubbing agents. The present invention has been completed by finding improvements.

That is, the gist of the present invention is as follows.
[1] A scrubbing agent containing a biodegradable plastic and a natural vegetable powder, which is obtained by curing a mixture of a melted or dissolved biodegradable plastic and a natural vegetable powder. Biodegradable scrub agent,
[2] The biodegradable scrub agent, wherein the biodegradable plastic and the natural plant powder are contained in a weight ratio of 3: 7 to 9: 1.
[3] The biodegradable scrubbing agent, wherein the biodegradable plastic is at least one selected from the group consisting of microbial biodegradable plastics, chemically synthesized biodegradable plastics, and natural product biodegradable plastics,
[4] The biodegradable scrub agent wherein the natural plant powder is at least one selected from the group consisting of starch powder, wood powder, bamboo powder, plant seed powder, plant fiber powder and cellulose powder,
[5] The biodegradable plastic is at least one natural product plastic selected from the group consisting of starch fatty acid ester, chemically synthesized starch, starch polyester, cellulose acetate, and coconut shell powder, and the natural vegetable powder is The biodegradable scrubbing agent which is starch powder,
[6] The biodegradable scrub agent, which is a powder having an average particle size of 20 to 800 μm,
[7] The biodegradable scrub agent for skin cleanser,
[8] A skin cleanser containing the biodegradable scrub agent,
[9] The skin cleansing agent which is a cream detergent,
[10] The present invention relates to a method for producing a biodegradable scrubbing agent comprising the steps of mixing a heat-melted biodegradable plastic and natural vegetable powder and then curing the resulting mixture.

Since the biodegradable scrubbing agent of the present invention has an excellent cleaning effect as compared with conventional scrubbing agents, the cleaning power can be improved by blending with a detergent such as a skin cleaning agent.
In addition, since the biodegradable scrubbing agent of the present invention is composed of a material that is naturally decomposed by microorganisms and the like, it can be blended into a detergent such as a detergent for the skin of hands, scalp, body, etc. The impact on the is also significantly less.

  Hereinafter, the present invention will be described in detail.

(Biodegradable scrub agent)
The biodegradable scrubbing agent of the present invention is a scrubbing agent containing a biodegradable plastic and a natural vegetable powder, and cures a mixture of the melted or dissolved biodegradable plastic and the natural vegetable powder. It is characterized by.

  Biodegradable plastics can be used in the same way as normal plastics during use, and after use, low-molecular weight compounds such as bacteria, sputum, and algae can be used, for example, water and finally water if aerobic degradation occurs. Carbon dioxide, a plastic that can be decomposed into methane and carbon dioxide if anaerobic. The biodegradable plastic used in the present invention may be a so-called “green plastic” thermoplastic plastic, and can be used regardless of a production method such as a microbial system, a chemical synthesis system, or a natural product system. .

  The microbial biodegradable plastic refers to a biodegradable plastic that is cultivated from microorganisms and produced in the cell body. For example, poly-3-hydroxybutyrate, poly (3-hydroxybutyrate, co-hydroxyhexa Noate), polyhydroxyalkanoate, maltotriose and the like.

  Chemically synthesized biodegradable plastics refer to biodegradable plastics obtained by chemical synthesis, such as polybutylene succinate co-adipate, polybutylene succinate adipate, polybutylene succinate, polybutylene adipate copolyester.・ Terephthalate, polybutylene adipate / terephthalate, polyvinyl alcohol, polylactic acid / polycaprolactone copolymer, polylactic acid / polyether copolymer, polylactic acid / diol / dicarboxylic acid copolymer, polylactic acid, polytetramethylene adipate・ Terephthalate, polyglycolic acid, polycaprolactone, polyethylene terephthalate succinate, polyethylene terephthalate copolymer, polyethylene terephthalate co-succinate, polyethylene sebacate, polyethylene (.Epsilon.-caprolactone - butylene succinate), butanediol / long-chain dicarboxylic acid copolymer, aliphatic aromatic polyester, (1,4-butanediol, succinic acid, adipate, lactate) and the like copolymers.

  Natural product-based biodegradable plastic refers to biodegradable plastics using polysaccharides such as chitin contained in shellfish shells such as starch, cellulose, crabs and shrimps produced by plants, such as starch fatty acid esters, Examples include starch polyester, cellulose acetate, chitosan, and coconut shell powder.

One type of biodegradable plastic may be used, or two or more types may be used in combination.
There is no particular limitation on the molecular weight of the biodegradable plastic.

Examples of the natural vegetable powder include starch powder, wood powder, bamboo powder, plant seed powder, plant fiber powder, and cellulose powder. These natural vegetable powders may be used alone or in combination of two or more.
Moreover, there is no limitation in particular also about the kind of natural plant used as the raw material of the said natural vegetable powder.
Examples of starch powder include corn starch, wheat starch, rice starch, beans (broad beans, mung beans, red beans) starch, potato starch, sweet potato starch, tapioca starch and the like.
Examples of plant seed powder include apricot seed powder, peach seed powder, and walnut seed powder.
Examples of plant fiber powder include cellulose powder, corn powder, hemp powder, and cotton powder.

The average particle size of the natural vegetable powder is preferably 20 to 600 μm.
In addition, this average particle diameter can be measured with a laser particle size distribution meter or with a low tap type sieve shaker equipped with a standard sieve.

  In the biodegradable scrubbing agent of the present invention, the biodegradable plastic and the natural vegetable powder are more preferably contained in a weight ratio of 3: 7 to 9: 1. The biodegradable scrub agent may be composed of only the two components.

In addition to the biodegradable plastic and natural plant powder, the biodegradable scrub agent of the present invention includes optional components such as a plasticizer, a light stabilizer, an antioxidant, a stabilization aid, and a colorant. It may contain.
The content of these optional components is preferably 0.1 to 5 parts by weight with respect to 100 parts by weight of the biodegradable plastic.

The biodegradable scrub agent of the present invention is obtained by curing a mixture of the biodegradable plastic melted or dissolved and the natural vegetable powder.
The biodegradable plastic may be melted by heating to a temperature higher than its melting point.
For dissolving the biodegradable plastic, an appropriate solvent such as N-methylpyrrolidone, ethyl acetate, butyl acetate, ethyl lactate, methyl lactate, acetone, methyl isobutyl ketone, N, N-dimethylformamide, methyl ethyl ketone, etc. Any of these may be used depending on the use conditions. Alternatively, a solution synthesized by dissolving a biodegradable plastic raw material in an appropriate solvent may be used as the dissolved biodegradable plastic.

In addition, in the mixing of the melted or dissolved biodegradable plastic and the natural vegetable powder, it is sufficient that the biodegradable plastic and the natural vegetable powder can be mixed uniformly. For example, a stirrer such as a Henschel mixer, a plast mill, a corn mixer, a kneader, or a ribbon mixer can be used for mixing the melted biodegradable plastic and the natural vegetable powder.
In the agitator, the melted or dissolved biodegradable plastic and the natural vegetable powder may be added simultaneously or separately for mixing, and the order of the addition is not particularly limited.

Next, hardening of the obtained mixture can be performed by cooling at the temperature below room temperature.
In the case of the said hardening, you may shape | mold so that it may become a predetermined shape previously using a press machine, a cylindrical extruder, etc.

  The obtained cured product may be used as it is as a biodegradable scrub, but when adjusting to obtain a desired average particle size, the cured product may be crushed and classified as necessary. . For the pulverization, a pulverizer such as a pin mill, a jet mill, a rod mill, or a freeze pulverizer can be used.

  The biodegradable scrubbing agent may be in the form of a powder, but it is preferably a powder having an average particle size of 20 to 800 μm from the viewpoint of the effect of scratching the dirt, the touch and the touch.

  Preferable examples of the method for producing the biodegradable scrubbing agent include a mixing and melting method, a granulating method, and a cylindrical granulating method.

  In the mixing and melting method, first, natural vegetable powder is mixed with a biodegradable plastic powder or resin pellet, and the mixture is stirred with a stirrer such as a Henschel mixer. In the agitator, it is preferable that the natural vegetable powder is mixed while warming up to the melting point of the biodegradable plastic and well dissolving the biodegradable plastic. Next, the resulting mixture is processed into a desired shape such as a columnar shape by a pellet molding machine, then pulverized by a pin mill or the like, and sieved to obtain a biodegradable scrubbing agent having a target average particle diameter.

  In the granulation method, the biodegradable plastic is previously dissolved in a desired solvent, and the biodegradable plastic solution is added while mixing and stirring natural vegetable powder with a stirrer such as a Henschel mixer. Then, granulation is performed to obtain a biodegradable scrubbing agent having a target average particle size.

  In the cylindrical granulation method, the biodegradable plastic is first dissolved in a desired solvent, and the biodegradable plastic solution is separately mixed and stirred with a stirrer such as a Henschel mixer. Add and knead to make dumpling-like soft lump. Next, this is granulated with a granulator such as a basket ruser and processed into a desired shape such as a columnar shape, then dried by heating, pulverized with a pin mill or the like, and sieved to have the desired average particle size. A biodegradable scrub is obtained.

The biodegradable scrubbing agent of the present invention produced as described above has an advantage of being excellent in the detergency improving effect as compared with the conventional scrubbing agent.
Regarding this advantage, in the present invention, when a biodegradable scrubbing agent is produced using a natural product biodegradable plastic and starch powder as a natural vegetable powder, fine irregularities are generated on the surface of the scrubbing agent particles. ing.
Specifically, when the surfaces of starch fatty acid esters, which are natural product-based biodegradable plastics, and starch powder (corn starch), which is a natural vegetable powder, are observed with an electron microscope, there are not many fine irregularities on each surface. The surface of the scrub agent of the present invention obtained using these raw materials is viewed with an electron microscope, but fine irregularities that are not found in each raw material are generated. Has been confirmed.
As described above, it is conceivable that the surface roughness of the scrubbing agent particles can significantly improve the detergency against dirt attached to the skin surface such as hands.
In addition, although it is not clear as a mechanism which a fine unevenness | corrugation produces on the surface of a scrub agent, a convex part is formed when a natural vegetable powder particle exists in a biodegradable plastic uniformly, or one part peels. It is conceivable that a recess is formed.

  Therefore, the biodegradable scrub agent of the present invention can be suitably used as a scrub agent for a skin cleanser.

(Skin cleanser)
The skin cleansing agent of the present invention contains the biodegradable scrub agent.
The content of the biodegradable scrubbing agent in the skin cleansing agent of the present invention is preferably 1 to 35% by weight from the viewpoint of the feeling of use and the effect of removing dirt.
Among these, when the skin cleanser is a cream, the content of the biodegradable scrub agent is preferably 5 to 35% by weight.

  Further, the other components of the skin cleanser of the present invention may be the same as those of the conventional skin cleanser, and are not particularly limited. For example, in addition to the surfactant, a solvent, an increase Ingredients such as a sticking agent, a neutralizing agent, and a rough hand preventing agent are listed.

  The surfactant referred to in the present invention is not particularly limited as long as it is a surfactant that is usually used in a skin cleanser, but in order to carry out the present invention, a nonionic surfactant, an anionic surfactant, an amphoteric surfactant is used. Agents are preferred.

Specific examples of the nonionic surfactant include the following (1) to (5).
(1) Palm oil fatty acid monoethanolamide, coconut oil fatty acid diethanolamide, lauric acid monoethanolamide, lauric acid diethanolamide, myristic acid monoethanolamide, myristic acid diethanolamide, lauric acid myristic acid diethanolamide.
(2) Polyoxyethylene (degree of polymerization 2 to 60) alkyl ether, polyoxyethylene (degree of polymerization 2 to 60) lauric acid amide, polyoxyethylene (degree of polymerization 2 to 60) nonylphenyl ether, polyoxyethylene (degree of polymerization) 2-60) dinonylphenyl ether, polyoxyethylene (degree of polymerization 2-60) octylphenyl ether, polyoxyethylene (degree of polymerization 2-60) dioctylphenyl ether, polyoxyethylene (degree of polymerization 2-60) lauryl ether, Polyoxyethylene (degree of polymerization 2 to 60) stearyl ether, polyoxyethylene (degree of polymerization 2 to 60) oleyl ether, polyoxyethylene (degree of polymerization 2 to 60) cetyl ether, polyoxyethylene (degree of polymerization 2 to 60) alkyl (C6-C30) ether.
(3) polyethylene glycol monooleate, polyethylene glycol dioleate, polypropylene glycol monooleate, polypropylene glycol dioleate,
Polyethylene glycol monostearate, polyethylene glycol distearate, polypropylene glycol monostearate, polypropylene glycol distearate,
Decaglyceryl monocaprylate, sorbitan monocaprylate, sorbitan monolaurate, sorbitan monopalmitate, sorbitan monooleate, sorbitan monostearate, sorbitan dicaprylate, sorbitan dilaurate, sorbitan dipalmitate, sorbitan dioleate, distearic acid Sorbitan, sorbitan trioleate, sorbitan tristearate.
(4) Polyoxyethylene monolaurate (degree of polymerization 2-30) sorbitan, polyoxyethylene monopalmitate (degree of polymerization 2-30) sorbitan, polyoxyethylene monooleate (degree of polymerization 2-30) sorbitan, monostearic acid Polyoxyethylene (polymerization degree 2-30) sorbitan, dicaprylic acid polyoxyethylene (polymerization degree 2-30) sorbitan, dilaurate polyoxyethylene (polymerization degree 2-30) sorbitan, dipalmitate polyoxyethylene (polymerization degree 2) -30) sorbitan, polyoxyethylene dioleate (degree of polymerization 2-30) sorbitan, polyoxyethylene distearate (degree of polymerization 2-30) sorbitan, polyoxyethylene trioleate (degree of polymerization 2-30) sorbitan, tristearin Acid polyoxyethylene (degree of polymerization 30) sorbitan.
(5) Polyoxyethylene tetraoleate (degree of polymerization 2 to 30) sorbit, polyoxyethylene tetrastearate (degree of polymerization 2 to 30) sorbit, polyoxyethylene (degree of polymerization 2 to 30) polyoxypropylene (degree of polymerization 2) -30) Alkyl (C6-C30) ether.

As an anionic surfactant, general formula (1):
R—O— (CH ₂ CHO) _n —SO ₃ M (1)
(In the formula, R represents an aliphatic group having 8 to 16 carbon atoms, preferably a saturated or unsaturated aliphatic group having 8 to 16 carbon atoms, n represents an average number of added moles, and n = 0 to 3; And M is triethanolamine, ammonium or sodium.)
Anionic surfactants represented by
As carbon number of said R, 10-16 are preferable. The average added mole number n is preferably 0 to 1 from the viewpoint of sterilization performance. The counter ion represented by M is triethanolamine, ammonium or sodium, and ammonium is preferable from the viewpoint of sterilization performance.

  Examples of the anionic surfactant represented by the general formula (1) include alkyl ether sulfate triethanolamine (alkyl sulfate triethanolamine), alkyl ether ammonium sulfate (alkyl ammonium sulfate), alkyl ether sodium sulfate (alkyl alkyl sulfate), Examples include polyoxyethylene (n = 1) alkyl ether sulfate triethanolamine, polyoxyethylene (n = 1) alkyl ether ammonium sulfate, polyoxyethylene (n = 2) sodium alkyl ether sulfate, foaming and bactericidal performance, skin From the viewpoint of irritation, polyoxyethylene (n = 1) alkyl ether sulfate triethanolamine and polyoxyethylene (n = 1) alkyl ether ammonium sulfate are preferred. In addition, in this specification, the numerical value in the bracket | parenthesis of these compounds means the average addition mole number of ethylene oxide.

  Examples of the amphoteric surfactant include coconut oil alkylbetaine.

  As the surfactant, one type of the nonionic surfactant and the anionic surfactant may be used alone, or a plurality of types may be used in combination.

From the viewpoint of obtaining a cleaning effect, the skin cleanser of the present invention preferably contains 5 to 75% by weight of the surfactant.
Among these, when the skin cleansing agent is a cream, the content of the surfactant is preferably 35 to 75% by weight.

The thickener referred to in the present invention is not particularly limited as long as it is a compound that has the effect of increasing the viscosity of an aqueous solution and improving the dispersibility of the powder, but the water-soluble polymer compound is also in view of its reactivity. preferable. Examples of the water-soluble polymer compound include water-soluble polymer compounds such as carboxyvinyl polymer, xanthan gum, and polysaccharides.
Examples of the carboxyvinyl polymer include cross-linked acrylic acid polymers.
Moreover, an inorganic type thickener can also be used as a thickener. Examples of inorganic thickeners include water-swellable clay minerals and fine particle silicic acid anhydride. Among these, water-swelling clay minerals such as bentonite, montmorillonite, hectorite, synthetic smectite, and water-swelling fluorinated mica are preferable from the viewpoint of obtaining an excellent effect of improving dispersion stability. These can be used by appropriately selecting one kind or two or more kinds.

In the skin cleanser of the present invention, it is preferable to blend the thickener in an amount of 0.1 to 35% by weight from the viewpoint of obtaining a stable effect of the cleanser.
In particular, when the skin cleanser is a cream, the content of the thickener is preferably 1 to 35% by weight.

  The neutralizing agent referred to in the present invention is sodium hydroxide, potassium hydroxide, acetyl monoethanolamide, aqueous ammonia, morpholine, diethanolamine, di-2-ethylhexylamine, dioctylamine, dimethylstearylamine, stearyldimethylamine, tetrakis ( 2-Hydroxypropyl) ethylenediamine, triethanolamine, trilaurylamine, polyoxyethylene oleylamine, polyoxyethylene stearylamine, N-lauryldiethanolamine and the like can be exemplified. These can be used by appropriately selecting one kind or two or more kinds.

The neutralizer is used to neutralize the water-soluble polymer compound such as the carboxyvinyl polymer of the thickener, so the blending amount of the neutralizer is changed depending on the amount of the blended water-soluble polymer compound, Make the final product detergent neutral.
Therefore, it is preferable to add 0.1 to 2.0% by weight of a neutralizing agent in the skin cleanser of the present invention.

In addition, when the skin cleanser of the present invention is used in combination with a rough hand preventing agent, rough skin due to excessive degreasing can be prevented, which can contribute to an improved feeling of use.
The rough hand preventing agent referred to in the present invention is not particularly limited as long as it is a substance that usually prevents rough hand, but higher alcohols such as oleyl alcohol, cetanol, stearyl alcohol, behenyl alcohol, myristyl alcohol, lauryl alcohol, and lanolin alcohol. , Polyalcohol fatty acid esters such as dekaleic acid decaglyceryl, polysaccharides such as hyaluronic acid and phytoglycogen, tocopherol acetate, lecithin, lecithin derivatives, aloe extract, orange extract, cuckoo extract, rice bran extract, tomato extract, tomato extract, loofah Examples include extracts such as extracts, royal jelly extracts, propolis extracts, jojoba seed oil, squalane, glycerin and the like.
From the viewpoint of obtaining a rough hand prevention effect, the skin cleanser of the present invention preferably contains 0.1 to 5.0% by weight of the rough hand preventing agent.

Examples of the solvent include ethylene glycol, polyethylene glycol, propylene glycol, 1,3-butylene glycol, 1,4-butylene glycol, dipropylene glycol, diglycerin, triglycerin, tetraglycerin and other polyglycerin, glucose, maltose, Examples thereof include polyhydric alcohols such as maltose, sucrose, fructose, xylitol, sorbitol, maltotriose, threitol and erythritol.
Other solvents include animal and vegetable oils such as beef tallow, olive oil, evening primrose oil and rice bran oil, mineral oils such as hydrocarbons and liquid paraffin, esters such as isopropyl myristate and pentaerythritol tetra-2-ethylhexanoate. Oil, silicone oil such as methylphenyl silicone, dimethyl silicone, ethanol, alcohol such as 2-octyldodecanol, 2-decyltetradecanol, oleyl alcohol, cetyl alcohol, fatty acid such as behenic acid, oleic acid, isostearic acid, vitamin A, vitamin B, vitamin D, vitamin K and derivatives thereof can be exemplified.
The skin cleansing agent of the present invention preferably contains 0 to 30% by weight of a solvent.

In addition, the skin cleanser of the present invention can be used in combination with sequestering agents, antioxidants, preservatives, etc. to prevent product changes under long-term or harsh conditions of use and provide a good feeling of use. Can continue.
For example, polyphosphates, polycarboxylates, phosphoates, complexing agents such as methylglycine diacetic acid and its salts, nitrilotriacetic acid and its salts, ethylenediaminetetraacetic acid and its salts, and optionally cobuilders and combinations.
The skin cleansing agent of the present invention preferably contains 0.001 to 1% by weight of a sequestering agent, an antioxidant, and a preservative.

  Moreover, a dye, a fragrance | flavor, etc. can be added to the skin cleansing agent of this invention. These contents are not particularly limited.

In the skin cleansing agent of the present invention, water may be the remainder of each of the above components, or may not contain water at all or hardly like a cream detergent.
Among them, the skin cleanser of the present invention is preferably a cream detergent because the biodegradable scrub agent can be easily dispersed uniformly in the detergent.

  The skin cleansing agent of the present invention can be obtained by mixing the above-described components. About manufacturing conditions, such as a mixing apparatus and mixing temperature, what is necessary is just the same as the conventional skin cleansing agent, and there is no limitation in particular.

  Next, the present invention will be specifically described based on examples, but the gist of the present invention is not limited thereto.

(Example 1: Formulation 1)
In Formulation 1 shown in Table 1, wood flour (average particle size: 10 μm, raw plant: birch) as natural vegetable powder, polycaprolactone (product name “TONE787” manufactured by Union Carbide) as biodegradable plastic, and plasticizer Triacetin (manufactured by Daihachi Chemical Co., Ltd.) was used, and these compounds were mixed and kneaded at 120 ° C. using a plastmill (Toyo Seiki 30C150 type), then molded at 120 ° C. by hot pressing, and prismatic (30 × 10 × 4 mm) ) Was obtained. This was pulverized with a pin mill and sieved with a 50 mesh sieve to obtain a powdery biodegradable scrubbing agent having an average particle size of about 100 μm.

(Example 2: Formulation 2)
In Formulation 2 shown in Table 1, bamboo flour (average particle size 30 μm) as natural vegetable powder, polylactic acid (product name “Terramac”, manufactured by Unitika) as biodegradable plastic is preheated at about 175 ° C., It dissolves well, is processed into a cylindrical shape with a diameter of 6 mm and a length of about 10 to 15 mm by a pellet molding machine, pulverized with a pin mill, sieved with a 50 mesh sieve, and powdery with an average particle size of about 100 μm A biodegradable scrub was obtained.

(Example 3: Formulation 3)
In Formulation 3 shown in Table 1, the same biodegradable plastic and plasticizer as in Example 1 were used except that apricot seed powder (average particle size of about 50 μm) was used as the natural plant powder. In the same manner, a biodegradable plastic composite molded body having the same shape was obtained. This was pulverized with a pin mill and sieved with a 50 mesh sieve to obtain a powdery biodegradable scrubbing agent having an average particle size of about 100 μm.

(Example 4: Formulation 4)
In Formulation 4 shown in Table 1, corn starch (average particle size of about 10 μm) as a natural vegetable powder, polylactic acid (product name “Terramac”, manufactured by Unitika) as a biodegradable plastic is preheated at about 175 ° C., It dissolves well, is processed into a cylindrical shape with a diameter of 6 mm and a length of about 10 to 15 mm by a pellet molding machine, pulverized with a pin mill, sieved with a 50 mesh sieve, and powdery with an average particle size of about 100 μm A biodegradable scrub was obtained.

(Example 5: Formulation 5)
In Formulation 5 shown in Table 1, cellulose powder (average particle size of about 5 μm) as natural plant powder, and poly (butylene succinate / adipate) as biodegradable plastic (made by Showa High Polymer, trade name “Bionore 3001”) Is pre-heated at about 175 ° C., dissolved well, processed into a cylindrical shape having a diameter of 6 mm and a length of about 10 to 15 mm with a pellet molding machine, pulverized with a pin mill, and then sieved with a 50 mesh sieve. A powdery biodegradable scrub agent having an average particle size of about 100 μm was obtained.

(Example 6: Formulation 6)
In Formulation 6 shown in Table 1, corn starch (average particle size of about 10 μm) as a natural vegetable powder and starch fatty acid ester (product name “Corn Pole CP”, manufactured by Nippon Corn Starch) as a biodegradable plastic at about 175 ° C. in advance. Warm, dissolve well, process into a cylindrical shape with a diameter of 6 mm and a length of 10-15 mm with a pellet molding machine, crush with a pin mill, sieve with a 50 mesh sieve, and have an average particle size of about 100 μm A powdery biodegradable scrub agent was obtained.

(Example 7: Formulation 7)
In Formulation 7 shown in Table 1, peach seed powder (average particle size 30 μm) is used as a natural vegetable powder, and poly (butylene succinate / carbonate) (product name “Ubeck”, manufactured by Mitsubishi Gas Chemical) is used as a biodegradable plastic. Preheated at about 175 ° C., dissolved well, processed into a cylindrical shape having a diameter of 6 mm and a length of about 10 to 15 mm with a pellet molding machine, pulverized with a pin mill, sieved with a 50 mesh sieve, average A powdery biodegradable scrub agent having a particle size of about 100 μm was obtained.

(Example 8: Formulation 8)
In Formulation 8 shown in Table 1, starch fatty acid ester (manufactured by Nippon Corn Starch, trade name “Corn Pole CP”) as a biodegradable plastic was previously dissolved in acetone to prepare a 25% solution. Next, while stirring corn starch (average particle size 10 μm), which is a natural vegetable powder, with a high-speed stirrer Henschel mixer (Mitsui Mining Co., Ltd.), the above biodegradable plastic solution is added and granulated. A powdery biodegradable scrub agent having a particle size of about 100 μm was obtained.

(Example 9: Formulation 9)
In Formulation 9 shown in Table 1, 100 parts by weight of polytetramethylene adipate having a number average molecular weight of 2300 and a hydrogen group value of about 53 (KOHmg / g) was sufficiently dissolved in a toluene solvent. Further, 18 parts by weight of hexamethylene diisocyanate trimer type as a crosslinking agent and 0.5 parts by weight of dibutyltin diacetate as a crosslinking catalyst are added to the solution, and the poly (butylene succinate / adipate) solution is obtained by sufficiently stirring. Obtained. Separately, cellulose powder (average particle size 15 μm) was mixed and stirred with a high-speed stirring Henschel mixer (Mitsui Mining Co., Ltd.), the poly (butylene succinate / adipate) solution was added, and kneaded to make a soft dumpling lump. . This was granulated at a screen diameter of 3 mm with a basket ruser (manufactured by Dalton), processed into a cylindrical shape having a diameter of 3 mm and a length of about 10 to 10 mm, dried at 100 ° C., pulverized with a pin mill, and then 50 Sieve with a mesh sieve to obtain a powdery biodegradable scrub agent with an average particle size of about 100 μm.

  When the particle surface of the biodegradable scrubbing agent obtained in Example 6 was observed with an electron microscope at a magnification of 100 times, it was found that the surface of the starch fatty acid ester and corn starch as raw materials (both substantially smooth) was not found. It was confirmed that many irregularities were formed.

(Examples 10-19, Comparative Examples 1-8)
Each component was well stirred and mixed with additional propeller stirring to obtain a skin cleanser so as to have the composition shown in Tables 2-3.
The surfactants used are as follows.
(1) (C12-14) Palace-5:
Polyoxyethylene (average added mole number (n) = 5) alkyl (carbon number 12-14) ether (2) (C12-14) Palace-9:
Polyoxyethylene (n = 9) alkyl (C12-14) ether (3) PPG-3 Laureth-9:
Polyoxyethylene (n = 9) polyoxypropylene (n = 3) lauryl ether (4) PPG-7 laureth-10:
Polyoxyethylene (n = 10) Polyoxypropylene (n = 7) Lauryl ether (5) PEG / PPG-8 / 2 propylheptyl ether:
Polyoxyethylene (n = 8) polyoxypropylene (n = 2) propyl heptyl ether (6) PEG / PPG-6 / 2 propyl heptyl ether:
Polyoxyethylene (n = 6) polyoxypropylene (n = 2) propylheptyl ether (7) (C9-11) Palace-8:
Polyoxyethylene (n = 8) alkyl (carbon number 9 to 11) ether (8) Undeceth-7:
Polyoxyethylene (n = 7) undecyl ether alkyl (11 carbon atoms)
(9) ceteth-20: polyoxyethylene (n = 20) cetyl ether (10) cocamide DEA: coconut oil fatty acid diethanolamide (11) POE coconut oil fatty acid diethanolamide:
Polyoxyethylene coconut oil fatty acid monoethanolamide (12) Laureth sulfate Na: Polyoxyethylene lauryl ether sodium sulfate (13) Coco betaine: Coconut oil alkyl betaine

Moreover, the scrub agents used in Comparative Examples 1 to 8 are as follows.
(1) Polycaprolactone: Resin powder of polycaprolactone (average particle size 90 μm)
(2) Polylactic acid: Polylactic acid resin powder (average particle size 100 μm)
(3) Poly (butylene succinate / adipate): Poly (butylene succinate / adipate) resin powder (average particle size 90 μm)
(4) Starch fatty acid ester: Resin powder of starch fatty acid ester (average particle size 80 μm)
(5) Peach seed powder: Peach seed powder (average particle size 150 μm)
(6) Corn starch: Corn starch powder (average particle size 10 μm)
(7) Cellulose powder: Cellulose powder (average particle size 20 μm)

  Next, the cleaning effects of the skin cleansing agents obtained in Examples 10 to 19 and Comparative Examples 1 to 8 were measured according to the following, divided into cleaning power, feeling of use and odor. The results are shown in Table 4.

[Evaluation 1: Detergency]
Manufactured dirt is prepared by mixing waste engine oil in a ratio of 1: 1 to Cup Grease 1-2 (manufactured by Nippon Grease Co., Ltd.), and after application to the skin, it is washed using about 3 g of skin cleanser. Then, it was confirmed visually that there was no residual feeling of grease or the like by the degree of dirt removal and sensuality. The evaluation was performed by 10 panelists according to the following criteria, and the evaluation with the largest number of people was used as the representative value of the test product.
<Evaluation criteria>
○: Good detergency and no dirt is seen between wrinkles.
Δ: Dirt is not noticeable, but there is a feeling of residual grease.
X: Dirt remains and grease is not removed.

[Evaluation 2: Feeling of use]
For skin cleanser, when it was cleaned in Evaluation 1, familiarity with dirt during use, sliminess, rinsability and slime feeling (after towel drying) after use (drying towel), irritation (Hand roughness) was comprehensively evaluated. Evaluation was performed by 10 panelists according to the following criteria, and the evaluation with the largest number of people was used as the representative value of the test product.
<Evaluation criteria>
○: There is a thick and comfortable feeling of use and a refreshing feel that does not leave a slimy feeling.
Δ: The feeling is not so much, but there is a feeling of lingering and poor rinsing properties.
X: A feeling of use is bad and does not feel washed. A slimy feeling remains.

[Evaluation 3: Odor]
The skin cleanser was evaluated for whether or not it feels an unpleasant odor derived from dirt when used for hand washing with warm water of about 40 ° C. Evaluation was performed by 10 panelists according to the following criteria, and the evaluation with the largest number of people was used as the representative value of the test product.
<Evaluation criteria>
○: Not particularly concerned.
Δ: Slightly odor during use, but no odor remains in hands.
X: A smell remains in the hand.

  As a result of Table 4, the skin cleansing agents obtained in Examples 10 to 19 are significantly superior in the cleaning power, the feeling of use, and the odor after use as compared with those of Comparative Examples 1 to 8. In this respect, it can be seen that the total cleaning power is excellent.

Claims (10)

  A scrubbing agent containing a biodegradable plastic and a natural vegetable powder, wherein the biodegradability is obtained by curing a mixture of a melted or dissolved biodegradable plastic and a natural vegetable powder. Scrub agent.   The biodegradable scrub agent according to claim 1, wherein the biodegradable plastic and the natural vegetable powder are contained in a weight ratio of 3: 7 to 9: 1.   The biodegradability according to claim 1 or 2, wherein the biodegradable plastic is at least one selected from the group consisting of microbial biodegradable plastics, chemically synthesized biodegradable plastics, and natural product biodegradable plastics. Scrub agent.   The biodegradability according to any one of claims 1 to 3, wherein the natural vegetable powder is at least one selected from the group consisting of starch powder, wood powder, bamboo powder, plant seed powder, plant fiber powder and cellulose powder. Scrub agent.   The biodegradable plastic is at least one natural product plastic selected from the group consisting of starch fatty acid ester, chemically synthesized starch, starch polyester, cellulose acetate, and coconut shell powder, and the natural vegetable powder is starch powder. The biodegradable scrub agent according to any one of claims 3 and 4.   The biodegradable scrub agent according to any one of claims 1 to 5, which is a powder having an average particle size of 20 to 800 µm.   The biodegradable scrub agent according to any one of claims 1 to 6, which is used for a skin cleanser.   A skin cleanser containing the biodegradable scrub agent according to any one of claims 1 to 7.   The skin cleanser according to claim 8, which is a cream detergent.   A method for producing a biodegradable scrub agent comprising a step of mixing a melted or dissolved biodegradable plastic and natural vegetable powder, and then curing the resulting mixture.