JP2017119717A - Xyloglucan-containing gel composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a xyloglucan-containing gel composition having a shape-holding property to an extent of no deformation during use and storage and suppressing temporal syneresis within a general consumption time limit.SOLUTION: A xyloglucan-containing gel composition contains water, xyloglucan, and at least one of saccharides or alcohols.SELECTED DRAWING: None

Description

  The present invention relates to a xyloglucan-containing gel composition.

  Conventionally, xyloglucan is known as one of the polysaccharides. When such xyloglucan is dissolved in water, it becomes a Newtonian fluid solution. The obtained xyloglucan-containing composition is used in various fields such as foods and cosmetics.

  Conventional gel-like compositions sometimes have insufficient shape retention or have a lot of water separation. For this reason, since it is difficult to shape | mold so that it may have a desired shape, since it was not suitable for a long-term preservation | save, there existed a problem that the use and packaging form of this composition were restrict | limited. In addition, if water separation increases during the sale period of the product (for example, 20% by weight or more), the solution that has separated water from the gel composition foams in the container and the appearance of the product is impaired. It has been difficult to be used in applications where importance is attached. Since xyloglucan does not gel by itself, there is a demand for a xyloglucan-containing gel-like composition with improved shape retention and water separation inhibition (water retention).

  In view of the above problems, the present invention has a xyloglucan-containing gel-like composition that has a shape-preserving property that does not lose its shape during use and storage, and that suppresses water separation over time within a general expiration date. It is an issue to provide.

  When the present inventors examined the said subject, it has the shape retention property by containing water, xyloglucan, and at least 1 among saccharides or alcohols, and the desired water-removal was suppressed. It has been found that a xyloglucan gel-like composition can be provided. Further, the xyloglucan-containing gel-like composition has been further found to contain a water-soluble polymer, so that the shape retention is improved and water separation with time from the gel-like composition can be greatly suppressed. Was completed.

That is, the present invention provides the following xyloglucan gel composition.
Item 1. A xyloglucan-containing gel-like composition containing water, xyloglucan, and at least one of sugars or alcohols.
According to item 1, the xyloglucan-containing gel-like composition contains water, xyloglucan, and at least one of sugars or alcohols. , Water separation is reduced.
Item 2. Item 2. The xyloglucan-containing gel composition according to Item 1, wherein the saccharide contains at least one or two selected from the group consisting of monosaccharides and oligosaccharides.
Item 3. Item 3. The xyloglucan-containing gel composition according to Item 1 or 2, wherein the alcohol contains at least one or more selected from the group consisting of a lower alcohol, a polyhydric alcohol, and a sugar alcohol.
Item 4. Item 4. The xyloglucan-containing gel according to any one of Items 1 to 3, wherein the xyloglucan is 0.1 to 15% by weight and the total amount of at least one of sugars or alcohols is 5 to 70% by weight based on the total amount. Composition.
Here, the weight% of water is the remaining amount obtained by subtracting the total amount of xyloglucan, sugars and / or alcohols, and other components contained as necessary from 100%.
Item 5. Furthermore, the xyloglucan containing gel-like composition in any one of said claim | item 1 -4 containing the water-soluble polymer.
Here, the water-soluble polymer is an organic polymer such as a polymer of saccharides, amino acids or acrylic acid or a derivative thereof, or an inorganic polymer such as colloidal hydrous aluminum silicate, which is hydrated in water. Say.
Item 6. 6. The xyloglucan-containing gel-like composition according to item 5, wherein a weight ratio of the xyloglucan to the water-soluble polymer is xyloglucan: water-soluble polymer = 1: 10 to 50: 1.
Item 7. Item 7. The xyloglucan-containing gel-like composition according to any one of Items 1 to 6, wherein the weight of the solution that separates with time is less than 20% by weight with respect to the weight immediately after preparation.
Here, “time-dependent” means a period including a post-manufacturing product sales period, and usually means a period of 6 months at room temperature.
Item 8. Before use, it is separated into agent A and agent B, and the agent A and agent B are mixed at the time of use and gelled to form the xylo according to any one of items 1 to 7 above. Glucan-containing gel composition.
Item 9. The agent A contains the water and the xyloglucan,
Item 9. The xyloglucan-containing gel composition according to Item 8, wherein the agent B contains at least one of the sugars or alcohols.
Item 10. Using water, xyloglucan, and at least one of sugars or alcohols, agent A containing water and xyloglucan, and agent B containing the sugars or alcohols And make
A method for preparing a xyloglucan-containing gel composition in which the agent A and the agent B are mixed at the time of use.
Item 11. A xyloglucan-containing gel-like composition used by mixing the A agent and the B agent using the A agent containing water and xyloglucan and the B agent containing saccharides or alcohols How to use things.
Item 12. Item 12. The method according to Item 11, which is used as a pack agent.

  According to the present invention, there is provided a xyloglucan-containing gel-like composition that has a shape retaining property that does not lose its shape during use and storage, and that suppresses water separation over time within a general expiration date. .

The xyloglucan-containing gel-like composition of one embodiment of the present invention contains water, xyloglucan, and at least one of sugars or alcohols (hereinafter sometimes referred to as sugars and / or alcohols). doing. Thus, the shape retention property which does not lose shape at the time of use and storage is provided by mix | blending saccharide | sugar and / or alcohol with xyloglucan.
Here, the “mold-retaining property” means the performance of maintaining the forming mold alone without requiring a support material (or support material) for holding the gel mold such as a device for molding the gel.

  The xyloglucan is a nonionic polysaccharide having glucose and xylose as constituent sugars, and has a basic structure in which xylose is bonded as a side chain to a main chain in which glucose is β-1,4 bonded. In this specification, the term “xyloglucan” means both high-molecular (natural) xyloglucan and low-molecular-weight xyloglucan.

  The high molecular xyloglucan is a xyloglucan derived from a natural product and has a molecular weight of about 50,000 to 1,000,000. Such high molecular weight xyloglucan can be obtained, for example, by extracting from cell walls of higher plants such as peas, soybeans, poplars, rice, bamboo shoots, tamarind seeds, and the like. In addition, high molecular weight xyloglucan can be extracted from plant tissues using water, or when it is difficult to extract with water, it can be extracted using an alkaline aqueous solution, but it can be extracted more easily. Regardless of whether or not extraction is possible with water, it is preferable to perform extraction using an aqueous alkaline solution.

  The polymer xyloglucan obtained by such extraction can be further purified by alcohol precipitation, ion exchange chromatography, various types of chromatography utilizing differences in hydrophobicity or affinity, etc., if necessary. Good.

  Such tamarind seed-derived xyloglucan (tamarind seed xyloglucan) can be obtained as a commercially available product (eg, DSP Gokyo Food & Chemical Co., Ltd .: Griloid, Glyate). After dissolving in water and mixing this aqueous solution with ethanol or the like to separate and precipitate xyloglucan, it can be further purified and used.

  Furthermore, high molecular weight xyloglucan may be partially decomposed to reduce the molecular weight for easy use.

  A low molecular weight xyloglucan is a xyloglucan obtained by reducing the molecular weight of a high molecular weight xyloglucan. Such low-molecular-weight xyloglucans can be isolated by physical methods (for example, reduction of molecular weight by homogenizer, etc.), chemical methods (for example, reduction of molecular weight by acid hydrolysis, etc.), enzymatic degradation, or the like. It can be obtained by a known method such as chemical synthesis.

  For example, when low molecular weight xyloglucan is obtained from tamarind seed xyloglucan by enzymatic decomposition, a plant tissue-disintegrating enzyme having β-1,4-glucanase activity is used, and the addition amount, pH, temperature according to the characteristics of the enzyme The enzyme decomposition reaction can be carried out by appropriately setting the time.

  When cellulase is used as such a plant tissue disrupting enzyme, for example, tamarind seed xyloglucan in water and 0.01 to 2.0 parts by weight of cellulase with respect to 100 parts by weight of the tamarind seed xyloglucan. The resulting mixture is subjected to an enzymatic degradation reaction at pH 3 to 7 and a temperature of 35 to 60 ° C. for 3 to 96 hours. And after completion | finish of reaction, a low molecular weight xyloglucan whose molecular weight is 5000 or less can be obtained by deactivating cellulase and refine | purifying a reaction product by methods, such as a chromatography. Moreover, a side chain can also be partially decomposed and the method (partial decomposition method) includes an enzymatic or chemical method.

  The xyloglucan may be either a high-molecular xyloglucan or a low-molecular xyloglucan, or a mixture of both, and a mixture of xyloglucans derived from a plurality of types of plants. Also good.

The amount of the xyloglucan is usually in the range of 0.1 wt% to 15 wt%, preferably 0.5 wt% to 10 wt%, based on the total amount of the xyloglucan-containing gel composition. Preferably it is 0.5 weight%-5 weight%, More preferably, it is 0.8 weight%-3 weight%.
If this blending amount is less than 0.1% by weight based on the total amount of the xyloglucan-containing gel-like composition, the gel strength tends to be low and it tends to be difficult to have shape retention, while 15% by weight. If it exceeds%, the viscosity of the aqueous solution becomes too high before the gelling after xyloglucan is dissolved in water, and it tends to be difficult to form into a desired shape.
On the other hand, the gel strength becomes sufficiently high when the amount of xyloglucan is 0.1% by weight or more, and the viscosity of the aqueous solution becomes too high when it is 15% by weight or less. It can suppress and make it easy to shape | mold into a desired shape.

The saccharide can enhance the gelation ability of an aqueous xyloglucan solution. Such saccharides are not particularly limited as long as the gelation ability can be increased as described above. Examples of the saccharide include triose (tricarbon sugar such as glyceryl aldehyde and dihydroxyacetone), tetrose (tetracarbon sugar such as erythrose, threose and erythrulose) and pentose (pentose sugar such as ribose and lyxose). , Xylose, arabinose, abiose, ribulose, xylulose, etc.), hexose (hexose, for example, glucose (glucose), mannose, galactose, idose, fructose (fructose), sobose, etc.), heptose (septasaccharide, cedoheptulose, coliose) Degradation of water-soluble polymers such as aldose type, ketose type monosaccharides, disaccharides such as sucrose, maltose, trehalose, cellobiose, trisaccharides such as maltotriose, oligosaccharides such as galactooligosaccharide, and dextrin object, Xylitol, sorbitol, mannitol, sugar alcohols erythritol. The sugar may be one kind selected from these or a mixture of two or more kinds.
Of these, the saccharide preferably contains at least one or two selected from the group consisting of monosaccharides and oligosaccharides.

The alcohols can enhance the gelation ability of an aqueous xyloglucan solution. Such alcohols include alcohols and alcohol derivatives. Such alcohols are not particularly limited as long as the gelability can be enhanced.
Examples of the alcohols include monohydric alcohols (eg, methanol, ethanol, isopropanol, etc.), dihydric alcohols (eg, propylene glycol, butylene glycol, pentanediol, etc.), trivalent alcohols (eg, glycerin, trimethylolpropane, etc.) ), Tetrahydric alcohols (for example, diglycerin, pentaerythritol such as 1,2,6-hexanetriol), polyhydric alcohol polymers (for example, dipropylene glycol, triethylene glycol, polyethylene glycol, polyglycerin, etc.), Examples include polyhydric alcohol derivatives. Further, the alcohols may be one kind selected from these or a mixture of two or more kinds.
Preferred examples of the polyhydric alcohol derivative include alkylene oxide addition polymers of 2- to 4-hydric alcohols. Examples of the alkylene oxide that undergoes addition polymerization include ethylene oxide (EO), propylene oxide (PO), and butylene oxide (BO).
Specifically, for example, as the alkylene oxide addition polymer of the divalent to tetravalent alcohol, PPG-40 butyl [that is, POP (40) butyl ether] (commercially available product such as “Unilube MB-370”), PPG-30, etc. Butes-30 [that is, POE (30) / POP (30) butyl ether] (commercially available "Unilube 50MB-72" etc.), PPG-16 glyceryl ether (commercially available "Uniol TG-1000" etc.), PPG- 24 glyceryl-24 (such as “Unilube 50TG-32” as a commercial product), PPG-25-polyethylene glycol-25 trimethylolpropane (such as “Unilube 43TT-2500” as a commercial product), PPG-14 diglyceryl (“Unilube DGP”) -950 "), PEG-5-PPG- 5 pentaerythrityl ( "Unilube 5TP-300KB", etc.) (all manufactured by NOF CORPORATION), and the like.
Here, PPG represents polypropylene glycol, POP represents polyoxypropylene, POE represents polyoxyethylene, and PEG represents polyethylene glycol.
Sugar alcohols, which are a kind of polyhydric alcohols, also function as the saccharides, but also function as alcohols, and preferred examples thereof include 5 to 6 alcohols such as sorbitol and mannitol. Preferred examples of these sugar alcohol derivatives include alkylene oxide addition polymers of sugar alcohols. Examples of the alkylene oxide for addition polymerization include EO, PO, and BO.
Specifically, POP sorbit (commercially available "Uniol HS-1600D" (manufactured by NOF Corporation)), POE (10) methylglucoside (commercially available "Glucam E-10" (Nippon Lubrizol Corporation) POP (20) methyl glucoside (as a commercial product, “Glucam P-20” (manufactured by Nippon Lubrizol Co., Ltd.)) and the like.
Such sugar alcohols also function as the saccharides, but in the present specification, they are included in the alcohols.

  Of the above, the alcohols preferably contain at least one or more selected from the group consisting of lower alcohols, polyhydric alcohols, and sugar alcohols. The alcohols are preferably butylene glycol, glycerin, and various methyl glucosides.

The blending amount of at least one of the saccharides or alcohols is not particularly limited, and the types and blending amounts of saccharides, alcohols, water-soluble polymers, cleaning components, other moisturizing agents, and the like used together, xylo The glucan can be appropriately set depending on the degree of gelation of the composition containing the glucan.
For example, with respect to the blending amount, the total amount of at least one of saccharides or alcohols is preferably 5% by weight to 70% by weight, more preferably 10% by weight to the total amount of the xyloglucan-containing gel composition. It can be set to be 60% by weight, more preferably 10% to 50% by weight.
When the blending amount is less than 5% by weight with respect to the total amount of the xyloglucan-containing gel-like composition, the gel strength tends to be low and it tends to be difficult to have shape retention, while 70% by weight If it exceeds 1, the solubility of xyloglucan in water significantly decreases, so that xyloglucan precipitates and it tends to be difficult to obtain a uniform gel composition.
On the other hand, when the blending amount is 5% by weight or more, there is an advantage that the shape retention is high, and when it is 70% by weight or less, water separation with time decreases.

  The weight% of water is not particularly limited, and is the remaining amount obtained by subtracting the total amount of xyloglucan, sugars and / or alcohols and other components contained as necessary from 100%. The weight% of water is appropriately set according to these components, for example, and can be set to 15 to 95% by weight, for example, and preferably 20 to 90% by weight.

  In addition to the above, the xyloglucan-containing gel composition can further improve the shape retention of the gel composition by blending a water-soluble polymer. The amount of the solution to be separated can be greatly suppressed.

Water-soluble polymers refer to organic polymers such as saccharides, amino acids, and acrylic acid polymerized or their derivatives, and inorganic polymers such as colloidal hydrous aluminum silicate that are hydrated in water. As long as it can be hydrated in water, it is not particularly limited. Examples of the water-soluble polymer include plant polymers, microbial polymers, animal polymers, and synthetic / semi-synthetic polymers.
Examples of the plant polymer include gum arabic, gum tragacanth, galactan, guar gum, carob gum, caraya gum, carrageenan, pectin, agar, quince seed (malmello), algae colloid (gypsum extract), starch (rice, corn, potato, wheat). ), Glucomannan and the like.
Examples of the microbial polymer include xanthan gum, gellan gum, curdlan, dextran, succinoglucan, pullulan, sodium polyglutamate, and the like.
Examples of animal polymers include gelatin and hyaluronic acid.
Examples of the semi-synthetic water-soluble polymer include starch polymers (for example, carboxymethyl starch, methyl hydroxypropyl starch, etc.), cellulose polymers (methyl cellulose, ethyl cellulose, hydroxypropyl methyl cellulose, hydroxyethyl cellulose, cellulose sodium sulfate). Hydroxypropylcellulose, carboxymethylcellulose, sodium carboxymethylcellulose, cationized cellulose, crystalline cellulose, cellulose powder, etc.), alginic acid polymers (for example, sodium alginate, propylene glycol alginate, etc.) and the like.
Examples of the synthetic water-soluble polymer include vinyl polymers (for example, carboxyvinyl polymer (carbomer), polyvinyl alcohol, polyvinyl methyl ether, polyvinyl pyrrolidone, etc.), polyoxyethylene polymers (for example, polyethylene glycol 20, 000, 40,000, 60,000 polyoxyethylene polyoxypropylene copolymers, etc.), acrylic polymers (eg, polyacrylic acid, polyethyl acrylate, polyacrylamide, etc.), polyethyleneimine, cationic polymers, etc. It is done.
The blending amount of the water-soluble polymer depends on the xyloglucan concentration (blending amount), the type and concentration of saccharides and polyhydric alcohols used together, and the type and concentration of optional components such as cleaning components and moisturizing agents. It can be set as appropriate and is not particularly limited. For example, as for the said compounding quantity, it is preferable that the weight ratio of a xyloglucan and a water-soluble polymer is xyloglucan: water-soluble polymer = 1: 10-50: 1.
If the weight ratio is out of the range, the effect of improving the shape retention of the xyloglucan-containing gel-like composition and the effect of suppressing water separation over time from the gel-like composition are less likely to be exhibited, and the viscosity of the aqueous solution increases. Thus, it tends to be difficult to form a desired shape.
On the other hand, when the weight ratio is xyloglucan: water-soluble polymer = 1: 10 to 50: 1, the effect of enhancing the shape retention of the xyloglucan-containing gel composition and the time-dependent water separation from the gel composition. It is easy to exhibit the effect of suppressing the viscosity, the viscosity of the aqueous solution does not become too high, and it becomes easy to mold into a desired shape.
Considering these viewpoints, a more preferable range is xyloglucan: water-soluble polymer = 1: 2 to 20: 1.
Preferred water-soluble polymers include sodium alginate, xanthan gum, hydroxypropyl methylcellulose, sodium polyacrylate, carboxyvinyl polymer, and cationized cellulose, which are components that are relatively easily dissolved in water.

Moreover, the xyloglucan-containing gel-like composition of the present invention can contain optional components usually used in foods and cosmetics in addition to the above components.
Such optional ingredients include hydrocarbons such as squalane, liquid paraffin, petroleum jelly, liquid fats such as olive oil, macadamia nut oil, castor oil, solid fats such as coconut oil, palm oil, shea fat, waxes such as beeswax, carnauba wax, lanolin, etc. , Higher alcohols such as stearyl alcohol, behenyl alcohol, isostearyl alcohol, ester oils such as cetyl octoate, isopropyl palmitate, glyceryl tri-2-ethylhexanoate, dimethylpolysiloxane, decamethylcyclopentasiloxane, silicone resin, amino Silicone oil such as modified polysiloxane and its derivatives, glyceryl monostearate, propylene glycol monostearate, sorbitan monostearate and other lipophilic nonionic surfactants, monostearate deca Hydrophilic nonionic surfactants such as lyseryl, POE-glycerin monoisostearate, POE-sorbitan tetraoleate, POE-behenyl ether, coconut oil fatty acid monoethanolamide, sodium stearate, sodium N-stearoyl-L-glutamate Anionic surfactants such as sodium POE-oleyl ether sodium phosphate, sodium lauroyl sarcosine, sodium lauroylmethylalanine, cationic surfactants such as stearyltrimethylammonium chloride, dimethylaminopropylamide stearate, benzalkonium chloride, palm Amphoteric surfactants such as oil fatty acid amidopropyl betaine, lauryldimethylaminoacetic acid betaine, sequestering agents such as disodium edetate, tetrasodium etidronate, etc. Powder component, scrub agent, ultraviolet absorber, antioxidant, neutralizer, pH adjuster (citric acid, sodium citrate, arginine, etc.), organic amine, preservative (phenoxyethanol, glycerin ethylhexyl ether, methyl paraben, etc.), bactericidal Agents, anti-inflammatory agents, astringents, whitening agents (sodium ascorbate, etc.), vitamins, amino acids, blood circulation promoters, activators, excipients, cooling agents, deodorants, various extracts, fragrances, pigments, pigments, In addition, active ingredients such as potassium glycyrrhizinate, aurene extract, and placenta extract are listed. However, the present invention is of course not limited to these examples.

In the xyloglucan-containing gel-like composition of the present embodiment, the weight of the solution that is water-separated with time is preferably less than 20% by weight with respect to the weight immediately after preparation.
When the weight is less than 20%, problems such as foaming in the package may occur. However, when the weight is less than 20%, these problems are further eliminated and the appearance is good and the product value is high. There is an advantage that it can be a thing. Further, when the weight of the solution that is water-separated with time is less than 10% by weight with respect to the weight immediately after the preparation, the commercial value becomes higher.

As an aspect of the xyloglucan-containing gel-like composition of the present embodiment, an aspect in which the xyloglucan-containing gel-like composition of the present embodiment is used as one agent is exemplified. For example, one agent contains water, xyloglucan, and sugars and / or alcohols, and one agent contains water, xyloglucan, sugars and / or alcohols, and water-soluble polymers. And the like. In addition, the said aspect may contain the said other arbitrary components.
Moreover, as an aspect of the xyloglucan containing gel-like composition of this embodiment, the aspect used by making it gelatinize by isolate | separating into 2 agents and mixing at the time of use is mentioned. For example, before use, water, xyloglucan, and sugars and / or alcohols are separated into an agent A and an agent B each containing at least one of these, and the agents A and B The aspect which is formed by mixing at the time of use and making it gelatinize is also mentioned. In this case, the form of the agent A and the agent B is not particularly limited as long as they have shape retention after mixing, and may be, for example, gel, liquid, granular (powder), or the like. In addition, when water-soluble polymer and other said arbitrary components are contained, these may be contained in A agent and / or B agent.

The method for preparing the xyloglucan-containing gel composition of the present embodiment is not particularly limited.
As the preparation method, for example, at least one of xyloglucan, saccharides or alcohols, and further the above water-soluble polymer is dissolved in water, and the above optional components are further dissolved or dispersed, and heated and stirred appropriately. And the like.
In addition, for example, using water, xyloglucan, and at least one of saccharides or alcohols, the agent A containing the water and the xyloglucan, and the saccharides or alcohols are contained. A method of preparing the agent B and mixing the agent A and agent B at the time of use is also included.

  The method for using the xyloglucan-containing gel-like composition of the present embodiment is not particularly limited. For example, it contains an agent A containing water and xyloglucan, and a saccharide or alcohol. It is preferable to mix and use the said A agent and the said B agent using B agent. Moreover, as a usage method of a xyloglucan containing gel-like composition, it is preferable to use as a pack agent mentioned later, for example.

Although the use of the xyloglucan-containing gel-like composition of the present embodiment is not particularly limited, it is preferable that the xyloglucan-containing gel-like composition is an external preparation. An external preparation is applied to the outer skin including mucous membranes such as the oral cavity. Such an external preparation is not particularly limited as long as it is applied to the outer skin. Examples of the external preparation include cosmetics and external pharmaceutical preparations (such as patches).
Examples of the above-mentioned external preparations include cosmetic gels, packs, sheet masks, facial cleansers, makeup removers (including cleansing agents), makeup agents such as foundations, eye shadows, lipsticks, hair care preparations, shampoos, hair restorers. Agents, hair care agents such as hair dyes, lip balms, sunscreen agents, body gels, body massage agents, antiperspirants, deodorants, soaps, body cleansers, hair removers, exfoliants, etc. Body care agents, nail care agents such as manicures and nail removers, toothpastes, bathing agents, protective agents and the like.
Moreover, the external appearance of the external preparation may be any appearance such as transparent, translucent, white turbidity, two or more layers, but aesthetically transparent is preferable. Furthermore, the dosage form (shape) may be any form that is gelled to maintain the shape-retaining properties, such as ellipses, spheres, polygons, heart shapes, animals and plants, food, buildings, characters, logo marks, etc. It can be freely molded by using any mold such as a simulated shape, a sheet shape, or a film shape. Examples of the mold include plastic containers, silicone containers, rubber containers, rubber-like packages, glass containers, resin containers, pouch bags, round or square cylinders, earthenware, impregnation into non-woven fabrics, etc. The invention is not limited to these examples. A molded product having a desired shape and appearance can be obtained by removing the molded gel composition from the above-described container, package, or the like by a desired operation. Moreover, it can utilize also as a pack agent of the preparation type at the time of use divided into the solution-form 2 agent which is not gelatinized. Specifically, the pack preparation at the time of use specifically includes, for example, one or both of xyloglucan and other components to the extent that they do not gel with a single agent, and preferably only one agent contains xylo Contains glucan. In addition, the pack agent is in a solution state with each single agent, but is a type of pack agent that is gradually gelled by mixing the two agents and removed after use as a pack, and is also referred to as a peel-off pack. The

  As described above, the xyloglucan-containing gel-like composition of the present embodiment has a shape retaining property that does not lose its shape during use and storage, and water separation is suppressed. There is a high product value that stimulates the willingness to purchase even in the touch.

  The xyloglucan-containing gel-like composition of the present embodiment is as described above, but the xyloglucan-containing gel-like composition according to the present invention is not particularly limited to the above-described embodiment. Moreover, the effect is not specifically limited.

  Hereinafter, the present invention will be described more specifically with reference to examples. However, the present invention is not limited to such examples. Unless otherwise specified, the amount of each component is expressed in terms of% by weight.

Production experiment examples 1 to 4 of gel composition containing xyloglucan
In accordance with the formulation shown in Table 1 below, the raw materials were dispersed in water and then heated, and after preparing a uniform solution, the xyloglucan-containing gel composition of Experimental Examples 1 to 4 was prepared by casting into a mold. .
In Experimental Examples 1 to 3, griroid (DSP Gokyo Food & Chemical Co., Ltd.) was used as tamarind gum, and in Experimental Example 4, Glyate (DSP Gokyo Food & Chemical Co., Ltd.) was used.
And about the obtained xyloglucan containing gel-like composition, after removing from a type | mold, the shape retention property was evaluated. The results are shown in Table 1.
In addition, evaluation of the shape retention was performed by visual observation, and was determined by the following items.
[Determination of shape retention]
○: The shape of the mold is clearly maintained and sufficient shape retention is recognized.
Δ: Although there is a part that is slightly collapsed, the shape of the mold is maintained, and the shape retention is recognized.
X: The liquid has fluidity and no shape retention is observed.

Experimental Examples 5-24
In Experimental Examples 5, 7, 8, 10, 12-15, and 17-24, Griroid (manufactured by DSP Gokyo Food & Chemical Co., Ltd.) was used as tamarind gum. In Experimental Examples 6, 9, 11, and 16, Gleate (made by DSP Gokyo Food & Chemical Co., Ltd.) was used as tamarind gum.
In accordance with the formulations shown in Tables 2 to 5 below, the xyloglucan-containing gel-like composition of Experimental Examples 5 to 24 was prepared by dispersing the raw material in water and then heating, preparing a uniform solution, and casting into a mold. Prepared.
And the shape retention property was evaluated like the above about the obtained xyloglucan containing gel-like composition. The results are shown in Tables 2-5.
As shown in Tables 2 to 5, it has the constituent requirements of the present invention, and further, it can form a gel having a shape retaining property by the concentration of alcohols and saccharides being 10% to 70%. all right.

  Hereinafter, in Experimental Examples 25 to 61, griroid (manufactured by DSP Gokyo Food & Chemical Co., Ltd.) was used as tamarind gum.

Experimental Examples 25-29
According to the formulation shown in Table 6 below, the xyloglucan-containing gel-like compositions of Experimental Examples 25 to 29 were prepared by dispersing the raw materials in water and then heating, preparing a uniform solution, and casting into a mold. .
And the shape retention property was evaluated like the above about the obtained xyloglucan containing gel-like composition. The results are shown in Table 6.
As shown in Table 6, in Experimental Examples 25 to 29 having the constituent requirements of the present invention, the shape retention was good.

Experimental Examples 30 to 33: Cleaning Materials In accordance with the formulation shown in Table 7 below, the raw materials were dispersed in water and then heated to prepare a uniform solution, which was then poured into a mold and molded into experimental samples 30 to 30. Thirty-three xyloglucan-containing gel compositions were prepared.
And the shape retention property was evaluated like the above about the obtained xyloglucan containing gel-like composition. The results are shown in Table 7.
The xyloglucan-containing gel composition obtained in Experimental Examples 30 to 33 having the constituent requirements of the present invention was a cleaning material having good foaming, but in particular, Experimental Example 33 showed good elasticity, Foaming was also very good.

Experimental Examples 34 to 37: Facial cleansing soap According to the formulation shown in Table 8 below, the raw materials were dispersed in water, heated as necessary, and after preparing a uniform solution, cast into a mold and molded. A gel cosmetic (face washing soap) was prepared as a xyloglucan-containing gel composition.
And the shape retention property was evaluated like the above about the obtained xyloglucan containing gel-like composition. The results are shown in Table 8.
As shown in Table 8, in Experimental Examples 35 to 37 having the constituent elements of the present invention, shape retention is imparted by adding butylene glycol and glycerin as alcohols, and an elastic gel composition is produced. It was done. Furthermore, by adding a water-soluble polymer, the shape retention was further improved and the water separation property was further improved. As a result of such improved shape retention, it has become possible to pour into more complex forms.
On the other hand, in Experimental Example 34 (Comparative Example) that does not include a part of the constituent requirements of the present invention, the shape retention was poor.

Experimental Examples 38 to 43: Facial cleanser According to the formulation shown in Table 9 below, the raw materials were dispersed in water, heated as necessary, and after preparing a uniform solution, cast into a mold and molded. A gel cosmetic (face wash) as a xyloglucan-containing gel composition was prepared.
And about the obtained xyloglucan containing gel-like composition, transparency was evaluated while evaluating the shape retention property and the presence or absence of water separation like the above. The results are shown in Table 9.
In addition, the presence / absence of water separation and the evaluation of transparency were carried out by visually checking the state of the gel composition that was allowed to stand at 40 ° C. for 3 days in a sealed container after the gel composition was prepared (taken out of the mold). Judged by item.
[Presence of water separation]
Existence: Water separation can be clearly observed in the gel composition.
No: Water separation is hardly confirmed in the gel composition.
(Judgment of transparency)
○: The gel composition has no turbidity and is completely transparent.
Δ: The gel composition is slightly cloudy but has a sufficient transparency.
X: The gel composition is completely cloudy.
As shown in Table 9, all of the xyloglucan-containing gel-like compositions of Experimental Examples 38 to 43 having the constituent requirements of the present invention had excellent shape retention. It was also clear that Experimental Examples 40 to 43 did not cause significant water separation compared to Experimental Examples 38 and 39 that did not have a water-soluble polymer. Moreover, it was clear that the xyloglucan-containing gel-like compositions of Experimental Examples 39 to 43 have transparency by containing a chelating agent such as edetate tetrasodium.

Experimental Examples 44 to 48: Gel Packs In accordance with the formulation shown in Table 10 below, the raw materials are dispersed in water, heated as necessary, and after preparing a uniform solution, the mixture is thinly poured into a mold, and then Experimental Examples 44 to 48 are performed. 48 gel packs were prepared as gel compositions containing xyloglucan.
And about the obtained xyloglucan containing gel-like composition, the shape retention property was evaluated similarly to the above, and the presence or absence of water separation was evaluated. The results are shown in Table 10.
The evaluation of water separation was carried out by the weight immediately after preparation of the gel composition obtained (taken out of the mold) (initial gel composition weight) and the gel composition after standing at 40 ° C. for 3 days in a sealed container. The weight of the product (the weight of the gel composition over time) was measured, and the water separation rate (%) = (initial gel composition weight−time gel composition weight) / initial gel composition weight × 100 based on the formula: This was done by calculating.
As shown in Table 10, in Experimental Examples 45 to 48 having the constituent requirements of the present invention, shape retention was imparted by adding butylene glycol and glycerin as alcohols. Furthermore, water separation was suppressed by adding a water-soluble polymer. It was found that a shape-retaining property can be imparted to form a thin sheet, and a product with a high commercial value can be produced with little water separation.
On the other hand, in Experimental Example 44 (Comparative Example) that does not have all the constituent features of the present invention, the shape retention was poor, and this did not lead to the evaluation of water separation.

Experimental Example 49: Transparent scrub containing gel scrubbing In accordance with the formulation shown in Table 11 below, the raw materials were mixed and heated to prepare a uniform solution, which was then poured into a mold and molded. A transparent scrub containing gel scrub as a composition was prepared.
Then, the obtained xyloglucan-containing gel composition was evaluated for shape retention and transparency in the same manner as described above. The results are shown in Table 11.
As shown in Table 11, the xyloglucan-containing gel-like composition of Experimental Example 49 having the constituent features of the present invention had sufficient shape retention.
Therefore, since the gel-like slab-containing transparent face wash has such a shape-retaining property, it could be poured into various types. Further, since it has an appropriate elasticity, it can be cleaned by rubbing directly on the skin. Since the raw material mixture of the gel-like slab-containing transparent face wash has an appropriate viscosity, the slab could be uniformly dispersed. In addition, the addition of a chelating agent increased the transparency, and the state in which the slab was dispersed was clearly seen, so that the appearance was good.

Experimental Example 50: Gel-like bathing agent According to the formulation shown in Table 12 below, the raw material is dispersed in water, heated as necessary, and after preparing a uniform solution, it is poured into a mold and molded to form a gel composition containing xyloglucan A gel bathing agent (cosmetic) as a product was prepared.
And the shape retention property was evaluated like the above about the obtained xyloglucan containing gel-like composition. The results are shown in Table 12.
As shown in Table 12, the xyloglucan-containing gel composition of Experimental Example 50 having the constituent features of the present invention had sufficient shape retention.

Experimental Examples 51 and 52: Bathing Agent According to the formulation shown in Table 13 below, the raw materials are dispersed in water, heated as necessary, and after preparing a uniform solution, the mixture is poured into a mold and molded. A gel bath agent (cosmetic) as a xyloglucan-containing gel composition was prepared.
And about the obtained xyloglucan containing gel-like composition, while maintaining the shape retention property similarly to the above, the presence or absence of water separation was evaluated. The results are shown in Table 13.
As shown in Table 13, the gel baths of Experimental Examples 51 and 52 having the constituent requirements of the present invention have shape retaining properties, so that they can be poured into various types and enjoy variations in shape. It was possible. Moreover, as shown in Experimental Example 52, it was found that water separation was suppressed by containing a carboxyvinyl polymer that is a water-soluble polymer.

Experimental Example 53: Gel-like makeup remover In accordance with the formulation shown in Table 14 below, the raw materials were mixed and heated to prepare a uniform solution, which was then poured into a mold and molded into a gel as a xyloglucan-containing composition of Experimental Example 53 A makeup remover was prepared.
And the shape retention property was evaluated like the above about the obtained xyloglucan containing gel-like composition. The results are shown in Table 14.
As shown in Table 14, the xyloglucan-containing gel-like composition of Experimental Example 53 having the constituent features of the present invention had sufficient shape retention.

Experimental Examples 54 and 55: Makeup Remover According to the formulation shown in Table 15 below, the raw materials were mixed and heated to prepare a uniform solution, which was then poured into a mold and molded to give a xyloglucan-containing gel composition of Experimental Examples 54 and 55 A gel cosmetic (makeup remover) was prepared as a product.
And while evaluating the shape retention property of the obtained cosmetics, the presence or absence of water separation was evaluated similarly to the above. The results are shown in Table 15.
As shown in Table 15, the gel-like makeup removers in Experimental Examples 54 and 55 have shape-retaining properties, so they can be poured into various types and have an appropriate elasticity, so they are rubbed directly onto the skin. You can remove makeup like an eraser.
In addition, in Experimental Example 55, it was found that water separation was suppressed by using a carboxyvinyl polymer that is a water-soluble polymer in combination.

Experimental Example 56: Peel-off gel pack bath preparation prepared at the time of use According to the formulation shown in Table 16 below, the raw materials are mixed and heated appropriately to prepare A solution (A agent) and B solution (B agent) as uniform solutions, A ready-to-use peel-off gel pack of Experimental Example 56 was prepared.
And the shape retention property of the cosmetics obtained by mixing A liquid and B liquid was evaluated similarly to the above. The results are shown in Table 16.
As shown in Table 16, the peel-off gel pack bath agent of Experimental Example 56 had shape retention.
Moreover, A liquid and B liquid were liquid after each preparation, and were easy to mix, without gelling with time. And by mixing both at the time of use, when apply | coating to a face, it was sol form, but after application | coating, the gelatinization with shape retention property was formed on the face. This pack has moderate moisture and elasticity, so it fits the skin and can be easily peeled off after use. Ingredients can be spread over the skin.

Experimental Example 57: Hair Hair Cleaner According to the formulation shown in Table 17 below, the raw materials were mixed and heated to prepare a uniform solution, which was then poured into a mold and molded to obtain a xyloglucan-containing gel composition of Experimental Example 57 No. 1 hair cleanser was prepared.
And the shape retention property of the obtained cosmetics was evaluated similarly to the above. The results are shown in Table 17.
As shown in Table 17, the hair cleaning agent of Experimental Example 57 had shape retention.
Since the hair cleaning agent of Experimental Example 57 is not a liquid but a solid having a certain shape such as soap, it can be enjoyed not only in a container but in its own form and elasticity.

Experimental Example 58: Cosmetic Gel According to the formulation shown in Table 18 below, the raw materials were mixed and heated to prepare a uniform solution, which was then poured into a mold and molded to prepare a cosmetic gel.
And the shape retention property of the obtained beauty gel was evaluated similarly to the above. The results are shown in Table 18.
As shown in Table 18, the cosmetic gel of Experimental Example 58 had sufficient shape retention.
Since the cosmetic gel of Experimental Example 58 has a shape-retaining property, it can be molded into various molds, and a new type of product such as a cosmetic liquid that can be applied to the skin can be provided.

Experimental Examples 59, 60, 61: Facial cleanser According to the formulation shown in Table 19, the raw materials were mixed and heated to prepare a uniform solution, which was then poured into a mold and molded to prepare a facial cleanser.
And the shape retention property of the obtained beauty gel was evaluated similarly to the above. Further, the evaluation of water separation was carried out in the same manner as in the above Experimental Examples 44 to 48. The weight immediately after preparation of the gel composition (taken out of the mold) (initial gel composition weight) and the gel composition were prepared (from the mold). The gel composition was measured by measuring the weight of the gel composition after standing for 3 days at 40 ° C. in a sealed container (the weight of the gel composition with time) and calculating the water separation rate according to the following formula. The weight immediately after the preparation (taken out of the mold) (initial gel composition weight) and the gel composition after the gel composition was prepared (taken out of the mold) and left in a sealed container at room temperature for 3 months (Weight of gel composition with time) was measured, and the water separation rate was calculated by the following formula.
Water separation rate (%) = (initial gel composition weight−time-dependent gel composition weight) / initial gel composition weight × 100
The results are shown in Table 19.
As shown in Table 19, the xyloglucan-containing gel-like composition of Experimental Example 59 had sufficient shape retention, but the water separation rate tended to increase with time. On the other hand, in Experimental Example 60 and Experimental Example 61 in which a water-soluble polymer was used in combination, it was found that the water separation rate was remarkably suppressed, and it was possible to provide a product with little risk of impairing the product appearance during the product sales period.

  As described above, the embodiments and examples of the present invention have been described, but it is also planned from the beginning to appropriately combine the features of the embodiments and examples. The embodiments and examples disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the embodiments and examples described above but by the claims, and is intended to include all modifications within the meaning and scope equivalent to the claims.

Experimental Example 49: Transparent scrub containing gel scrubbing In accordance with the formulation shown in Table 11 below, the raw materials were mixed and heated to prepare a uniform solution, which was then poured into a mold and molded. A transparent scrub containing gel scrub as a composition was prepared.
Then, the obtained xyloglucan-containing gel composition was evaluated for shape retention and transparency in the same manner as described above. The results are shown in Table 11.
As shown in Table 11, the xyloglucan-containing gel-like composition of Experimental Example 49 having the constituent features of the present invention had sufficient shape retention.
Thus, the gel Josu club containing transparent facial cleanser, since in this way there is a shape retention and can flow in various types. Further, since it has an appropriate elasticity, it can be cleaned by rubbing directly on the skin. Raw material mixture of the gel Josu club containing transparent cleanser was able to uniformly disperse the crow clubs to have an appropriate viscosity. Moreover, transparency is increased by the addition of a chelating agent, scan clubs were those good-looking because you know the state of being dispersed clear.

Claims (6)

  A xyloglucan-containing gel-like composition comprising water, xyloglucan, and at least one of sugars or alcohols.   The xyloglucan-containing gel according to claim 1, wherein the xyloglucan is 0.1 to 15% by weight and the total amount of at least one of saccharides or alcohols is 5 to 70% by weight with respect to the total amount. Composition.   Furthermore, the water-soluble polymer is contained, The xyloglucan containing gel-like composition of Claim 1 or 2 characterized by the above-mentioned.   The xyloglucan-containing gel composition according to claim 3, wherein a weight ratio of the xyloglucan to the water-soluble polymer is xyloglucan: water-soluble polymer = 1: 10 to 50: 1.   Before use, it is separated into the A agent and the B agent, and the A agent and the B agent are mixed at the time of use and gelled to form. A xyloglucan-containing gel-like composition as described above. The agent A contains the water and the xyloglucan,
The xyloglucan-containing gel composition according to claim 5, wherein the agent B contains at least one of the sugars or alcohols.