Title of Invention

CLEANING COMPOSITION AND A METHOD FOR PREPARING THE SAME

Abstract The present invention relates to a cleaning composition comprising 5 to 100% by weight of a mixture of the following components (A), (B), and (C), the weight ratio of (A) to (B) to (C) in said mixture lying in the range 100: (8 to 50) (0.2 to 18) (A) N-iong chain acyl glycine or a salt thereof: (B) N-iong chain acyl glycylglycine or a salt thereof: (C) N-iong chain acyl glycylglycylglycine or a salt thereof; wherein said long chain acyl group is one, or a mixture, of carbon chains derivable from a linear or branched alkyl or alkenyl fatty acid having 8 to 22 carbon atoms. . The present invention also relates to a method for preparing the same.
Full Text FORM 2
THE PATENTS ACT, 1970 (39 of 1970)
COMPLETE SPECIFICATION
(See Section 10)
TITLE
“DETERGENT COMPOSITIONS AND PROCESSES FOR THE PRODUCTION THEREOF”
APPLICANT
AJINOMOTO CO., INC.
15-1, Kyobashi 1-chome
Chuo-ku
Tokyo 104-8315
Japan
Nationality : a Japanese corporation
The following specification particularly describes
the nature of this invention and the manner in which
it is to be performed

DF02PCT-C290
DESCRIPTION
CLEANING COMPOSITION AND METHOD FOR PREPARING THE SAME
Technical Field
The present invention relates to a cleaning composition comprising, as cleaning components, (A) N-long-chain acyl neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof, and further, in addition thereto, (D) a higher fatty acid or a salt thereof, if desired, at a specific weight ratio, and a method for preparing efficiently the cleaning components .
Background Art
An N-long-chain acyl neutral amino acid salt is a kind of N-long-chain acyl amino acid salt, and is used as a cleaning component for various cleaning compositions, since it has an excellent surface active effect and bacteriostatic effect, and has a low irritation to the skin.
However, when the N-long-chain acyl neutral amino acid salt is solely used as a cleaning agent, the resulting cleaning agent is likely to bring about such problems that it is insufficient in foamability such as lather amount and foam stabilizing property and is lacking in sensory feeling such as
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smooth feeling and moisture feeling to be provided after cleaning and drying the body or hair. In order to improve those properties, various attempts have been made.
For example, with respect to an N-long-chain acylglycine, there has been invented a method wherein it is added with a small amount of an N-long-chain acylglycylglycine in order to improve its foam stabilizing property and sensory feeling (Japanese Patent No. 2876173) . This method, however, has not yet achieved a satisfactory improvement to eliminate a tight feeling of the skin after cleaning, particularly after body cleaning, and is yet insufficient to give sustainable moisture feeling, though it has provided a little improvement.
Also, with respect to an N-long-chain acylalanine, similarly, it needs improving in foamability and smooth feeling for sensory feelings, though it provides moisture feeling, particularly after body cleaning. On the other hand, with respect to a surfactant such as an N-long-chain acylamino acid, and the like, there has been proposed a method wherein the surfactant is added with a small amount of an N-long-chain acylalanylalanine salt, in order to provide a cleaning composition which is enhanced in foamability and foam stabilizing property, gives no creaky feeling upon cleaning, has an excellent resistance to hard water, and is excellent in washing-up feeling or wet feeling (Japanese Patent No. 3296062) . The method, however, is insufficient in improvement of smooth feeling after body cleaning.
Therefore, there has been intensively desired a cleaning
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composition which comprises an N-long-chain acyl neutral amino acid or a salt thereof and will accomplish both foamability such as lather amount and foam stabilizing property and smooth feeling and moisture feeling after drying.
On the other hand, in order to prepare an N-long-chain acyl neutral amino acid or the salt thereof, there has been known a method wherein an amino acid and a fatty acid halide are condensed or reacted with each other in an aqueous solution under an alkaline condition according to the Schotten-Bauman reaction, followed by taking up the reaction product as an acyl amino acid using an acid (For example, JP-A-05-70418 and JP-A-07-157795). This method, which is useful because the reaction is gentle in conditions and proceeds for a relatively short period of time, has nevertheless problems that it requires expensive fatty acid halide as the starting material and by-produces a large amount of inorganic salt which is not easy to remove by purification.
As an example of avoiding such salt by-production, there may be mentioned U.S. Patent 2880219 which discloses a method wherein a fatty acid is reacted with N-methyl taurine or taurine (aminosulfonic acids) to directly amidate. The reaction of the fatty acid with the aminosulfonic acid, however, requires a sever reaction condition of a high temperature of more than 200 °C for a long time.
U.S. Patent 3150156 also discloses a preparation method of an acylmetyltaurine salt. In order to shorten the reaction time and to improve the reaction efficiency, various catalysts
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have been studied, and however, a lowered temperature of below 200°C has been required to achieve a high yield.
On the other hand, JP-A-2002-234868 discloses a preparation method of an acyltaurine salt. In the method, a metal compound is used as a catalyst to react a fatty acid with a taurine salt, allowing the reaction time to shortern, but the method can not be exempted from a reaction temperature of beyond 190'C, and further, leaves a slight amount of the catalyst in the reaction product. Thus, the reaction mixture per se can not be used directly in a final product.
On the other hand, Published Japanese translation of W096/39375 (Tokuhyo) No. 506743/’99 discloses, as an example of direct amidation of an amino acid with a fatty acid, a preparation method of the alkali metal salt of an N-acylamino acid, particularly sodium N-acylsarcosinate. This method is more specifically a method wherein the alkaline metal salt of an amino acid is directly reacted with a fatty acid at a high temperature while the water produced during the reaction is continuously removed. The method, however, must be carried out in a non-aqueous system from the outset of the reaction, and needs a complicated procedure such that the amino acid salt and free amino acid should be added individually. In addition, the method has a drawback that to increase the reaction rate and to achieve a high conversion rate require an excessive free amino acid to be added in the reaction mixture of the alkali metal amino acid and the fatty acid, resulting in a surplus of the amino acid left after the reaction.
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Under the above-described background art, there has been intensively desired a method for preparing an N-long-chain acyl neutral amino acid or a salt thereof, which method can proceed or be carried out under a relatively gentle reaction condition to provide a reaction mixture which can be used directly in a final product.
Disclosure of the Invention
[Problems to be Solved by the Invention]
The present invention has been made in the light of the aforementioned background art, and an object thereof is to provide a cleaning composition which is used for cleaning to give abundant foams accompanied with smooth feeling and moisture feeling after cleaning and drying. Another object thereof is to provide an efficient and simple method for preparing an N-long-chain acyl neutral amino acid or a salt thereof. Herein, the smooth feeling means the smoothness felt when hair or body is touched with hand. And, herein, the moisture feeling means the state of hair which is free from dryness or drying out, or state of skin which feels fresh and soft.
[Means for Solving the Problems]
The present inventor has made an intensive study to solve the aforementioned problems, and, as a result, found that the following three components, that is, (A) N-long-chain acyl
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neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof can be mixed at a specific weight ratio to provide a cleaning composition which brings about abundant foams, is excellent in foam stabilizing property, and furnishes a cleaned and dried body or hair with sensory feeling of both smooth feeling and moisture feeling. Further, the inventor has found that (D) a higher fatty acid having 8 to 22 carbon atoms or a salt thereof is added to those three components at a particular weight ratio to mix, thereby to provide the cleaning composition with enhanced creamy property in foam quality. Furthermore, the inventor has found that a neutral amino acid, a long-chain fatty acid, and at least one of an alkaline substance selected from sodium hydroxide and potassium hydroxide are mixed, kept with heating, in an inert gas atmosphere if desired, and cleared continuously of the water produced during the reaction, allowing dehydration condensation reaction to proceed at a relatively low temperature for a relatively short time, resulting in the efficient production of an N-long-chain acyl neutral amino acid salt accompanied with no catalyst employed. On these findings has been completed the present invention.
Namely, the present invention includes the following embodiments:
(1) A cleaning composition comprising, as cleaning components, (A) N-long-chain acyl neutral amino acid or a salt
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thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof, at a weight ratio of (A): (B): (C) - 100: (8 to 50): (0.2 to 18).
(2) The cleaning composition of (1) above, wherein the weight ratio of the components is (A): (B): (C) = 100: (9 to 45): (0.4 to 10).
(3) The cleaning composition of (1) or (2) above, which further comprises, as cleaning components, (D) a higher fatty acid having 8 to 22 carbon atoms or a salt thereof.
(4) The cleaning composition of any one of (1) to (3) above, wherein the said cleaning composition is used for body cleaning.
(5) A method for preparing an N-long-chain acyl neutral amino acid salt, comprising mixing three components of (a) a long-chain fatty acid, (b) a neutral amino acid, and (c) at least one of an alkaline substance selected from sodium hydroxide and potassium hydroxide, and subjecting the mixture to heat-dehydration condensation reaction by heating at a maintained temperature of 150 to 190°C while the water produced during the reaction is continuously removed.
(6) The method for preparing an N-long-chain acyl neutral amino acid salt of (5) above, wherein the said long-chain fatty acid is in an amount of 1.5 to 4 moles per one mole of the said neutral amino acid.
(7) The method for preparing an N-long-chain acyl neutral amino acid salt of (5) or (6) above, wherein the said

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heat-dehydration condensation reaction is carried out in an inert gas atmosphere.
(8) The method for preparing an N-long-chain acyl neutral amino acid salt of (5) - (7) above, wherein the said alkaline substance is potassium hydroxide.
(9) A cleaning composition comprising, as the cleaning component, an N-long-chain acyl neutral amino acid salt prepared by the method of any one of (5) to (8) above.
(10) A cleaning composition comprising, as the cleaning component, the reaction mixture per se of an N-long-chain acyl neutral amino acid salt prepared by the method of any one of (5) to (8) above.
[Effects of the Invention]
The present invention can provide a cleaning composition which brings abundant foams, has an excellent foam stabilizing property, and furnishes a cleaned or dried body or hair with sensory feeling of both smooth feeling and moisture feeling. Further, it can provide a cleaning composition which is enhanced creamy property in foam quality. Furthermore, it can prepare an N-long-chain acyl neutral amino acid salt efficiently with no catalyst employed through dehydration condensation reaction which can proceed at a relatively low temperature for a short time. Therefore, it can provide a reaction mixture which can be used directly in a final product.

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Best Modes for Carrying Out the Invention
In the following, the present invention will be specifically explained.
Firstly, the cleaning composition of the present invention comprising, as cleaning components, three components
(A), (B) and (C), or four components, (D) in addition to (A),(B) and (C) will be explained.
The acyl group of the components: (A) N-long-chain acyl neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof, which are used in the cleaning composition of the present invention, is a carbon chain which is derivable from a linear or branched alkyl or alkenyl fatty acid having 8 to 22 carbon atoms, and may be a single chain or mixed chains. Preferred examples are octanoyl group, decanoyl group, lauroyl group, myristoyl group, palmitoyl group, stearoyl group, oleoyl group, coconut oil fatty acid acyl group, palm oil fatty acid acyl group, palm kernel oil fatty acid acyl group, and the like. Also, regarding an amino acid having an asymmetric carbon atom, it may be in the optically active form or the racemic form.
The neutral amino acid to be used as a starting material of the above-mentioned three components: (A) N-long-chain acyl neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C)

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N-long-chain acyl neutral amino acid tripeptide or a salt thereof, of the cleaning composition of the present invention, may be one usually used and is not particularly limited. Usable examples are neutral amino acids having no optically active center (asymmetric carbon atom) such as glycine, p-alanine, and the like, neutral amino acids having an optically active center such as alanine, leucine, isoleucine, valine, threonine, proline, phenylalanine and the like, and the like. These can be used solely or in the form of a mixture of two or more thereof. From the viewpoints of easy availability and processing and difficult decomposition, preferable are glycine, alanine, leucine, isoleucine and valine, more preferable are glycine and alanine, and most preferable is glycine.
The base as the salt-forming base component, which neutralizes the acyl-neutral amino acid, its dipeptide and its tripeptide of the three components: (A) N-long-chain acyl neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof in the cleaning composition of the present invention to give their respective corresponding salts, maybe one usually used and is not particularly limited. Usable examples are inorganic bases typically represented by alkaline metals such as sodium, potassium and the like, and alkaline earth metals such as magnesium, calcium and the like; and organic bases typically represented by organic amines such as ammonia, alkanol amine and the like, basic amino acids such as lysine,
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arginine and the like. These can be used solely or in the form of a mixture of two or more thereof.
The method for preparing the components (A) N-long-chain acyl neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof in the cleaning composition of the present invention is not particularly limited. For example, the component (A) N-long-chain acyl neutral amino acid can be prepared according to a usual method such as the Schotten-Bauman reaction of an acyl neutral amino acid with a long-chain fatty acid chloride derivable from a long-chain fatty acid. The component (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof can be prepared according to a reaction such as the Schotten-Bauman reaction of an acid chloride derivable from (A) with a neutral amino acid. Similarly, the component (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof can also be prepared according to a reaction such as the Schotten-Bauman reaction of an acid chloride derivable from (B) with a neutral amino acid.
The total content of the three components (A) N-long-chain acyl neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof to be employed in the cleaning composition of the present invention is usually within a range of from 5 to 100% by weight. From the viewpoint of achieving
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a sufficient effect, preferable is from 7 to 95% by weight, more preferable is from 10 to 90% by weight. The total content of less than 5% by weight can not provide sufficient sensory feelings.
A weight ratio of the component (A): the component (B): the component (C) in the cleaning composition of the present invention is usually within a range of 100: (8 to 50) : (0.2 to 18) . From the viewpoint of achieving a more distinct effect, preferable is 100: (9 to 45): (0.4 to 10), more preferable is 100: (10 to 40): (0.7 to 10), furthermore preferable is 100: (12 to 35) : (1 to 10) , and particularly preferable is 100: (14 to 25) : (1.5 to 5). The component (B) and the component (C), which are in an amount of less than 8 and less than 0.2 respectively, or in an amount of more than 50 and more than 18, fail to give sufficient effects in foamability upon cleaning the body or hair, and in smooth feeling and moisture feeling after drying.
The acylamino acid (A) , which is derivable from a neutral amino acid having no optical active center, has inherently a property to give smooth feeling or the like after drying, and can be added with the aforementioned given amount of (B), particularly the component (C) to bring about additionally the moisture feeling after drying. As the particularly preferable neutral amino acid having no optical active center, glycine is mentioned from the viewpoint of easy availability and processing and high stability.
The acylamino acid (A), which is derivable from the
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neutral amino acid having an optical active center, has inherently a property to give moisture feeling after drying, and can be added with the aforementioned given amount of (B) , particularly the component (C) to bring about additionally the smooth feeling after drying. As the particularly preferable neutral amino acid having an optical active center, alanine is mentioned from the viewpoint of easy availability and processing and high stability.
A higher fatty acid to be blended in the cleaning composition of the present invention can be the same as the linear or branched alkyl or alkenyl fatty acid having 8 to 22 carbon atoms from which the aforementioned long-chain acyl group is derivable.
The component (D) , a higher fatty acid or a salt thereof is usually blended to give a ratio relative to a total weight of the components (A), (B) and (C) , of (A+B+C) : (D) = 100: (30 to 400), and preferably 100: (40 to 300) from the viewpoint of increasing creamy property in foam quality. The ratio of less than 30 or more than 400 brings about insufficient creamy property in foam quality.
The cleaning composition thus prepared, of the present invention is usable for hair and body, and, can be used, for example, as shampoos, rinsing shampoos, conditioning shampoos, facial cleanser, makeup removers, cleansing foams, cleansing powders, cleansing lotions, cleansing creams, hand soaps, bar soaps, mouthwashes, shaving foams, body shampoos, and the like. Among them, it is preferably used for body.

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Also, of course, there can be blended component(s) usually used in cleaning compositions such as oil solutions, surfactants, gums, antiseptic agents, flagrance agents, UV absorbents, moisture holding agents, physiologically active components, antioxidants, anti-inflammatory agents, antibacterial agents, antiperspirants, chelating agents, neutralizing agents, pH regulating agents, and the like, in those cleaning composition, as far as they do not inhibit the effects of the present invention, according to exemplified uses and dosage forms.
Next, a preparing method of the present invention and a cleaning composition using the reaction product obtained according to the preparing method are explained.
The preparing method of the present invention is a preparing method wherein (a) a long-chain fatty acid, (b) a neutral amino acid, and (c) one or both of sodium hydroxide and potassium hydroxide are mixed and heated while the water produced during the reaction is removed continuously, thereby to obtain an N-long-chain acyl neutral amino acid salt, for example, an N-long-chain acylglycine salt. Herein, the continuous removal of the water produced means that the water generated by neutralization with an alkaline substance and the water generated by condensation reaction shall be both positively removed. Specifically, the removal can be achieved by removing together with an inert gas stream, or by removing under reduced pressure.
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The long-chain fatty acid to be used as one of the starting materials in the preparing method of the present invention is a saturated or unsaturated linear or branched fatty acid having 8 to 22 carbon atoms. In this connection, this fatty acid can be a fatty acid of one kind, or a so-called mixed fatty acid of two or more kinds of fatty acids. Such a long-chain fatty acid can be the same as the above-mentioned linear or branched alkyl or alkenyl fatty acid having 8 to 22 carbon atoms which has already been explained in connection with the long-chain acyl to be derivable therefrom. Examples are, for instance, saturated linear fatty acids such as octanoic acid, decanoic acid, undecanoic acid, lauric acid, myristic acid, pentadecanoic acid, palmitic acid, stearic acid, behenic acid and the like; unsaturated linear fatty acids such as oleic acid and linoleic acid; saturated branched fatty acids such as isostearic acid and the like; mixed fatty acids such as coconut oil fatty acid, palm oil fatty acid and the like; and the like. These can be used solely or in the form of a mixture of two or more thereof. Among them, taking into consideration the stability to oxidation during the reaction, the saturated fatty acids are preferable. From the viewpoint of general purpose, particularly preferable are lauric acid, mylistic acid, pentadecanoic acid, palmitic acid, and saturated mixed fatty acids containing these as the main component.
Another starting material used in the preparing method of the present invention is a neutral amino acid, and there can be mentioned glycine, alanine, valine, leucine, isoleucine,
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phenylalanine, and the like. These can be used solely or in the form of a mixture of two or more thereof. The reason why the neutral amino acid is particularly employed among various amino acids is based on the thermal stability of the amino acid itself. Among them, from the viewpoint of excellent sensory of the reaction product, preferable are glycine and alanine, and particularly preferable is glycine.
A long-chain fatty acid and a neutral amino acid are used at a molar ratio of 1.5 to 4 moles of the long-chain fatty acid per one mole of the neutral amino acid, and can be used preferably at a molar ratio of 1.5 to 3 moles from the viewpoint of cost and excellent sensory feelings of the reaction product. Further, from the viewpoint of improvement in reaction yield, the ratio is more preferably 2 to 3 moles. A surplus of fatty acid exists to liquefy the reaction mixture, but the reaction mixture, which has a small fatty acid content to lack in fluidity, if sufficiently blended before heating, allows the reaction to proceed in a solid state.
As the alkaline substance to be used in the preparing method of the present invention, any one or both of sodium hydroxide and potassium hydroxide can be used. Of the two alkaline substances, sodium hydroxide is preferable because of high reaction efficiency. The alkaline substance may be used as it is or in the form of an aqueous solution.
The alkaline substance is used in a molar ratio of equivalent or more to the neutral amino acid, from the viewpoint of reaction efficiency. No reaction takes place if no alkaline
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substance is used. On the other hand, a surplus of alkaline substance is used to cause uniform mixing to be difficult. Thus, a preferable molar ratio is 1 to 1.5. Moreover, taking into consideration the step for removing an excess fatty acid directly from the reaction mixture by manipulations such as reduction of pressure and the like, the more preferable molar ratio is 1 to 1.3.
The reaction temperature for the dehydration condensation with heating in the preparing method of the present invention is 150 to 190°C, preferably 160 to 180 °C. A temperature of less than 150°C does not allow the reaction to proceed, or needs a lot of time to complete the reaction. A temperature of more than 190°C is not necessary. The reaction is usually completed within 6 hours. A temperature of 160 to 180°C takes about 2 hours to complete the reaction. The water produced during the reaction is removed continuously, as described above.
As the reaction condition for the preparing method of the present invention, the reaction mixture is preferably put in an atmosphere of an inert gas such as nitrogen, helium or the like, in order to avoid coloration due to oxidation.
The N-long-chain acyl neutral amino acid salt prepared according to the preparing method of the present invention is in the form of the sodium salt and/or the potassium salt in the reaction mixture due to the used alkaline substance. The reaction mixture can be used as it is directly, or after purified, as a cleaning component for various cleaning

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compositions. The purification method is not particularly limited, and a method conducted generally in this field can be utilized. For example, there is a method wherein the reaction is completed followed by distilling off an excess fatty acid under a reduced pressure, or a method wherein the reaction mixture is neutralized with a mineral acid such as hydrochloric acid or sulfuric acid or the like to obtain the N-long-chain acyl neutral amino acid in the free form, and then an excess fatty acid and the like can be removed. In addition, the resulting free acid is neutralized with a proper base to prepare a desired N-long-chain acyl neutral amino acid salt. The reaction mixture is particularly preferably used directly as a cleaning component for various cleaning compositions, from the viewpoint that the reaction solution can be, as it is, a product accompanied with no waste solution to drain and can provide a cleaning composition which allows abundant foams upon cleaning and gives refreshing feeling and moisture feeling after cleaning, particularly after body cleaning.
The cleaning composition, wherein such N-long-chain acyl neutral amino acid salt is used as a cleaning component, is usable for hair and body in the same as has been explained above, and can be used, for example, as shampoos, rinsing shampoos, conditioning shampoos, facial cleanser, makeup removers, cleansing foams, cleansing powders, cleansing lotions, cleansing creams, hand soaps, bar soaps, mouth washes, shaving foams, body shampoos, and the like. Among them, it is preferably used for body.
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Also, in the same as has been explained above, various components usually used in cleaning compositions such as oil solutions, surfactants, gums, antiseptic agents, flagrance agents, UV absorbents, moisture holding agents, physiologically active components, antioxidants, anti-inflammatory agents, antibacterial agents, antiperspirants, chelating agents, neutralizing agents, pH regulating agents, and the like can be of course blended in those cleaning compositions, as far as they do not inhibit the effects of the present invention, according to exemplified uses and dosage forms.
[Example]
In the following, the present invention will be more specifically explained with reference to Examples and Comparative Examples, but is not limited by these Examples.
Examples 1 to 6 and Comparative Examples 1 to 3
(Foaming and sensory evaluation of the glycine type) Cleaning components were mixed at each proportion shown in Table 1 below, and then prepared into an aqueous solution containing a total content of 10% by weight of the components therein. Each of the aqueous solutions was diluted by 40 times (the cleaning components having a concentration of 0.25%), agitated with a mixer at a temperature of 30°C, and then measured for lather amounts at 1 minute and 5 minutes after the agitation. Form retaining rate is indicated in the percentage of a lather
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amount at 5 minutes after the mixer agitation based on the lather amount at 1 minute after the mixer agitation. In Example 1, the reaction mixture obtained in Preparation Example 9 as mentioned hereinafter was cleared of the fatty acid to obtain a mixture of the acylamino acid and the acylpeptide. Both the acylamino acid and the acylpeptide were then changed to their respective sodium salts for use.
Lather amounts in Table 1 were evaluated on the basis of the lather amounts at 1 minute after the mixer agitation (1 minute lather amount), i.e., 00: 285 ml or more, 0: 270 ml or more and less than 285 ml, A: 255 ml or more and less than 270 ml, and *: less than 255 ml. Foam stability was evaluated on the basis of foam retaining rate, i.e., 00: 80% or more, 0: 75% or more and less than 80%, A: 65% or more and less than 75%, and *: less than 65%.
Foam quality and Feelings after dried in the same table were the results obtained by hand washing evaluation by five professional panelists. The evaluation was done by calculating an average value on the basis of the following standards (a) and (b), and an average of 4 . 5 or more was regarded as very good (00), 3.5 to 4.4 was regarded as good (0), 2.5 to 3.4 was regarded as usual (A), 2.4 or less was regarded as bad
(*) •
(a) Foam quality (creamy)
5 : Very creamy
4 : Somewhat creamy
3 : Usual

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2 : Somewhat rough
1 : Rough
(b) Smooth feeling after dried / moisture feeling after dried
5 : Very smooth / very moisture
4 : Somewhat smooth / somewhat moisture
3 : Usual
2 : Somewhat bad smooth feeling / somewhat bad
moisture feeling 1 : No smooth feeling / no moisture feeling

Example 1 Example 2 Example 3 Example 4 Example 5 Example 6 Comp.Example1 Comp.Example2 Comp.j Example3
Lauroyl Gly Na 10C 100 100 100 100 100 100 10( 3 100
Lauroyl GlyGly Na 15 15 34 15 20 25 0 ( 5 55
Lauroyl GlyGlyGly Na 2 10 1 2 5 7 0 ( ) 20
Laurie acid Na C 0 0 50 190 530 0 ( ) 0
1 min. lather amount (ml) 28C 270 275 300 285 280 270 27( ) 260
5 min. lather amount (ml) 23E 225 230 265 245 235 150 20( 3 220
84 M 84 88 86 84 56 7i 1 8*1
Lather amount evaluation 0 0 0 00 00 0 0 0 A
Foam stability evaluation 00 00 00 00 00 00 X A 00
Foam quality (creamy) 0 0 0 00 00 00 X A 0
Smooth feeling after dried 00 00 00 00 00 00 0 00 00
Moisture feeling after dried 00 00 00 00 00 0 X X 00
Examples 7 to 12 and Comparative Examples 4 to 5
(Foaming and sensory evaluation of the alanine type) The alanine types were evaluated in the same manner. The
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results are shown in the following Table 2. In the same table, the lather amount was evaluated on the basis of the lather amount of 1 minute after the mixer agitation, i.e., 00: 250 ml or more, 0: 235 ml or more and less than 250 ml, A: 220 ml or more and less than 235 ml, and *: less than 220 ml. The foam stability was evaluated on the basis of the value of foam retaining rate, i.e., 00: 80% or more, 0: 75% and less than 80%, A: 65% or more and less than 75%, and *: less than 65%. The sensory evaluation is the same as the evaluation method for the glycine types.

Example 7 Example 8 Example 9 Example 10 Example 11 Example 12 Comp.Example4 Comp.Example5
Lauroyl Ala K 10C 10C 100 100 100 100 100 100
LauroylAlaAlaK 8 2C 35 8 20 20 0 4
Lauroyl AlaAlaAlaK 0.3 0.5 2 0.3 0.5 0.5 0 0.1
Laurie acid K C C 0 90 160 325 0 0
1 min. lather amount (ml) 24C 25S 245 245 255 250 220 230
5 min. lather amount (ml) 20C 21C 205 200 205 200 140 180
10 min. lather amount (ml) 6C 6C 60 180 190 170 40 40
Form retaining rate (%) after 5 min. 85 82 > 84 82 80 80 64 78
Form retaining rate (%) after 10 min. 2E 24 24 73 75 68 18 17
Lather amount evaluation Foam stability evaluation after 5 min. O OO OO OO O OO O OO OO OO OO OO AX A O
Foam stability evaluation after 10 min. X X X A O A X X
Foam quality (creamy) O 0 O OO OO OO X X
Smooth feeling after dried O OO OO O OO OO A A
Moisture feeling after dried 0 0 OO OO OO OO O O
Preparation Example 1
5. 0 g of glycine (66.7mmole), 40. 0 g of lauric acid (200
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mmole) and 9.88 g of 27% sodium hydroxide solution (66.7mmole) were mixed and then heated in a nitrogen gas stream at 180°C for 1.5 hours. During the heating, the reaction mixture was in the state of liquid. The water produced during the reaction was continuously removed as water vapor together with the nitrogen gas stream. After cooling, pale-yellowish solid was obtained. The reaction mixture was quantitatively determined by HPLC, regarding the acylated forms, i.e., the lauroylglycine and laurolyglycylglycine, the non-acylated forms, i.e., the glycylglycine and glycyldiketopiperazine, and the unreacted glycine. As a result, the reaction efficiency (yield of the acylated forms) was 91.8% by mole, and the overall recovering rate of the glycine present in the mixture (including the unreacted glycine) was 97.1%.
Preparation Examples 2 to 11
Glycine or alanine, a fatty acid having a varying carbon chain length (different number of carbon atoms) and an alkaline substance shown in the following Table 3 were used to react in the same manner as in Preparation Example 1, except that the fatty acid and the alkaline substance were reacted in their various amounts (in molar ratio to the glucine or the alanine) and at various reaction temperatures. The results are also shown in the following Table 3. Note that the contents of the dipeptide and the tripeptide were shown as their relative weight values to the acylamino acid (the acylamino acid being assumed to be 100).

23
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24
DF02PCT-C290
Formulation Example 1
A solid cleaning composition was prepared according to the formulation shown in the following Table 4. The solid cleaning agent thus obtained was excellent in foamability and evaluated by hand washing to provide performance to give both moisture feeling and smooth feeling. The numerical values in

Reaction product of Preparation Example 6Reaction product of Preparation Example 7Sodium N-stearoyl-L-glutamateSodium salt of coconut oil fatty acidCetanolGlycerinSodium hydroxideEDTA-2NaTitanium oxideMethylparabenWater 35.025.015.05.05.05.03.50.20.10.1remainder
Total 100.0
Formulation Example 2 An example of formulation of a cleansing foam is shown in the following Table 5. The numerical values in the Table represent a percent by weight.
25

N-lauroylthreonine sodium saltN-lauroylthreonylthreonine sodium saltN-lauroylthreonylthreonylthreonine sodium saltSodium myristatePEG2000GlycerinCitric acidMethylparabenWater 10.0 2.0 0.3 8.0 5.0 2.0 0.5 0.2 remainder
Total 100.0
Industrial Applicability
Cleaning compositions, including shampoos, rinsing shampoos, conditioning shampoos, facial cleanser, makeup removers, cleansing foams, cleansing powders, cleansing lotions, cleansing creams, hand soaps, bar soaps, mouthwashes, shaving foams, body shampoos, and the like, which can provide abundant foams, are excellent in foam stabilizing property, and allow sensory feelings of both smooth feeling and moisture feeling after cleaning and drying a body or hair, can be provided.



DF02PCT-C290
AMENDED CLAIMS
(Received by IB on March 2, 2005 (02.03.2005): The initial Claim 9 has been withdrawn; The initial Claims 4-8 and 10 have been amended; The other Claims remain unchanged. (1 pp.))
1. A cleaning composition comprising, as cleaning components, (A) N-long-chain acyl neutral amino acid or a salt thereof, (B) N-long-chain acyl neutral amino acid dipeptide or a salt thereof, and (C) N-long-chain acyl neutral amino acid tripeptide or a salt thereof, at a weight ratio of (A): (B): (C) = 100: (8 to 50): (0.2 to 18).
2. The cleaning composition according to Claim 1, wherein the weight ratio of the components is (A): (B): (C) = 100: (9 to 45): (0.4 to 10).
3. The cleaning composition according to Claim 1 or 2, which further comprises, as cleaning components, (D) a higher fatty acid having 8 to 22 carbon atoms or a salt thereof.
4 . (After amended) The cleaning composition according to Claim 1 or 2, wherein the said cleaning composition is used for body cleaning.
4. (After amended) A method for preparing a cleaning composition of Claim 1 or 2, which comprises mixing three components: (a) a long-chain fatty acid, (b) a neutral amino acid, and (c) at least one of an alkaline substance selected from sodium hydroxide and potassium hydroxide, and subjecting the mixture to heat-dehydration condensation reaction by heating at a maintained temperature of 150 to 190°C while the
27

DF02PCT-C290
water produced during the reaction is continuously removed.
6. (After amended) The method for preparing a cleaning composition of Claim 5, wherein the said long-chain fatty acid is in an amount of 1.5 to 4 moles per one mole of the said neutral amino acid.
7. (After amended) The method for preparing a cleaning composition of Claim 5 or 6, wherein the said heat-dehydration condensation reaction is carried out in an inert gas atmosphere.
8. (After amended) The method for preparing a cleaning composition of any one of Claims 5 to 7, wherein the said alkaline substance is potassium hydroxide. 9 (Cancelled)
10. (After amended) A cleaning composition comprising, as a cleaning component, the reaction mixture resulting from the preparing method of any one of Claims 5 to 8.

28



Documents:

1187-CHENP-2006 CLAIMS GRANTED.pdf

1187-CHENP-2006 CORRESPONDENCE OTHERS.pdf

1187-CHENP-2006 CORRESPONDENCE PO.pdf

1187-CHENP-2006 FORM-18.pdf

1187-CHENP-2006 FORM-2.pdf

1187-CHENP-2006 FORM-3.pdf

1187-CHENP-2006 PETITION.pdf

1187-CHENP-2006 POWER OF ATTORNEY.pdf

1187-CHENP-2006 ABSTRACT.pdf

1187-chenp-2006 claims-duplicate.pdf

1187-chenp-2006 description (complete)-duplicate.pdf

1187-chenp-2006-abstract.pdf

1187-chenp-2006-claims.pdf

1187-chenp-2006-correspondnece-others.pdf

1187-chenp-2006-description(complete).pdf

1187-chenp-2006-form 1.pdf

1187-chenp-2006-form 3.pdf

1187-chenp-2006-form 5.pdf

1187-chenp-2006-pct.pdf


Patent Number 231255
Indian Patent Application Number 1187/CHENP/2006
PG Journal Number 13/2009
Publication Date 27-Mar-2009
Grant Date 04-Mar-2009
Date of Filing 05-Apr-2006
Name of Patentee AJINOMOTO CO., INC.
Applicant Address 15-1, Kyobashi1-chome, Chuo-ku, Tokyo 104-8315,
Inventors:
# Inventor's Name Inventor's Address
1 HATTORI, Tatsuya c/o Ajinomoto Co., Inc., 1-1, Suzuki-cho, Kawasaki-ku, Kawasaki-shi, Kanagawa 210-8681,
PCT International Classification Number C11D1/10
PCT International Application Number PCT/JP2004/014900
PCT International Filing date 2004-10-01
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 2003-345249 2003-10-03 Japan