JPH1043282A - Transparent oily gel aromatic composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an aromatic which is transparent and excellent in beauty, and can be easily manufactured and give smells of a wide range by using aluminium octylate and specified mol.% of higher fatty acid aluminium salt with a specified carbon number as a gelling agent. SOLUTION: A gelling agent comprising aluminium octylate and 6-80mol% higher fatty acid aluminium salt with C12 -C24 is used as a gelling agent for oily gel aromatic composition. For example, about 5g of aluminium octylate, about 2g of aluminium stearate, about 9g of limonene, a very small amount of an antioxidant (BHT), and a very small amount of a pigment are mixed and let alone to generate a transparent gel. Thus, it is possible to obtain a composition which is transparent, excellent in beauty and will not cause dissolution and deliquescence at a high temperature. Further, at the time of manufacture, it is not necessary to heat, arbitrary smell can be given, and it can easily be manufactured.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention is transparent and excellent in appearance, does not melt even at high temperatures, does not deliquesce even at high humidity, and does not need to be heated at the time of production, and performs any flavoring. The present invention relates to a fragrance composition which can be easily manufactured.

[0002]

2. Description of the Related Art Sodium stearate, benzylidene sorbitol, amino acid-based gelling agents and the like have conventionally been used as gelling agents for oily gel-like fragrance compositions. However, it has the drawback that it is dissolved and liquefied in a car that has become hot in the summer, or it absorbs moisture in the high humidity during the rainy season and deliquesces, and the gel itself is opaque and its commercial value is low. Also,
With benzylidene sorbitol, it is difficult to form a gel with limonene or a hydrocarbon-based solvent, and an alcohol-based solvent is mainly used. However, alcohol is rapidly volatilized and is used only for a special purpose.

In recent years, gels using aluminum octylate (aluminum di-2-ethylhexanoate) have been put on the market, but have the drawback that heating at a temperature of 60 ° C. or more is required at the time of production (Japanese Patent Publication No. Hei. -320063). In addition, 3-975
In No. 8, no heating is required, but a terpene-based hydrocarbon is used as an essential component in an amount of 40% by weight or more.
The fragrance line has drawbacks limited to citrus.

[0004]

DISCLOSURE OF THE INVENTION The present invention improves the disadvantages of the conventional oily gel fragrance composition as described above, is transparent and excellent in appearance, can impart a wide range of fragrances, and It is an object of the present invention to provide an oily gel fragrance composition which is easy to produce.

[0005]

Means for Solving the Problems According to the present invention, as a result of intensive studies to solve the above-mentioned problems, aluminum octylate and 6 to 80 mol% of a C _{12 to} C ₂₄ higher fatty acid aluminum are used in combination. Or 3 of octylic acid in aluminum octylate
When a gelling agent obtained by substituting 〜40 mol% with a C ₁₂ -C ₂₄ higher fatty acid is used, not only terpene solvents such as limonene, but also isoparaffins and normal paraffins without using terpene hydrocarbons. Also found that a stable and oily gel was obtained at room temperature, and the present invention was completed.

Namely, the present invention is formed by using a gelling agent consisting of a higher fatty acid Aluminum C ₁₂ -C ₂₄ octylate aluminum and 6 to 80 mol%, as a gelling agent for oily gel fragrance composition It is a transparent oily gel fragrance composition characterized by the above-mentioned. The present invention also octylate octanoate in aluminum the C ₁₂ -C gelling agent comprising substituted 3 to 40 mole percent higher fatty acids _24, used as a gelling agent for oily gel fragrance composition And a transparent oily gel fragrance composition.

As the higher fatty acid used in the present invention, lauric acid, myristic acid, palmitic acid, stearic acid, oleic acid, linoleic acid, linoleic acid, behenic acid, lignoceric acid, whale oil acid and the like are used. In addition, polybasic acids and oxyfatty acids are often difficult to use because they are insoluble in petroleum hydrocarbons and terpene hydrocarbons.However, in the case of polyvalent fatty acids, partial esterification and other treatments are performed. Although it can be made soluble in solvents, it is expensive and unusual.

[0008] Then, the fatty acid of less than C ₁₂ has a strong odor itself, undesirable aroma products. Also,
Becomes a fatty acid of greater than C _24, it becomes quantitatively much needed,
Volatile residues increase, which is undesirable. Most easily used are myristic acid, stearic acid, oleic acid and the like. Higher fatty acid aluminum can be easily produced by a known method, and among them, aluminum salts such as oleic acid and linoleic acid may have a small-grained rice cake shape during the production process. No problem.

As an example of the production of higher fatty acid aluminum, 40 g of caustic soda is dissolved in a mixed solution of 360 g of water and 400 ml of methanol, and 180 g of oleic acid is added and dissolved therein. A solution obtained by dissolving 120 g of water salt in 500 g of water is gradually added,
After standing for 3 hours, the precipitate was filtered, washed with water until the sulfate group disappeared, and dried at 80 ° C. A granular aluminum oleate having a diameter of about 3 mm is obtained (yield 205 g).

Next, the ratio of higher fatty acid aluminum to aluminum octylate is 6 to 80 mol%, preferably 16 to 50 mol% of aluminum octylate. When the proportion of the higher fatty acid aluminum is less than 6 mol%, limonene-based hydrocarbons are good, but in the case of isoparaffin, normal paraffin, etc., the transparency is undesirably lowered. On the other hand, if it exceeds 80 mol%, the hardness is lowered and the amount of the gelling agent must be increased, which is not preferable.

Next, a method for replacing octylic acid in aluminum octylate with a higher fatty acid will be described. Dissolve the higher fatty acid in a solvent that does not form a gel with fatty acid aluminum, such as methanol, ethanol, or propylene glycol monomethyl ether (hereinafter abbreviated as PGM), add aluminum octylate, mix uniformly, and heat for several hours. Alternatively, the mixture is allowed to stand at room temperature for several days, filtered, washed with a small amount of a solvent, and then dried. The amount of the fatty acid is preferably 3 to 40 mol% of the aluminum octylate. If the amount of the higher fatty acid is less than 3 mol%, the petroleum hydrocarbon will not be transparent, and if it exceeds 40 mol%, it becomes undesirably in a rice cake-like form, which is not preferable. The gelation time can be adjusted by the mole% to be replaced.

In both cases where aluminum octylate and higher fatty acid aluminum are used in combination, and where octylic acid in aluminum octylate is replaced with higher fatty acids, the amount of the fatty acid aluminum used as a gelling agent is 2 to 15% by weight. % Is preferred. If the amount is less than 2% by weight, the gel is soft and may flow out of the container, which is not preferable. Also,
If it exceeds 15% by weight, the volatile residue increases, and it is not necessary except for special applications.

The base material of the composition of the present invention comprises isoparaffin,
It is a petroleum hydrocarbon such as normal paraffin or a terpene hydrocarbon such as limonene, and its use amount is preferably 60 to 98% by weight. The fragrance can be appropriately selected according to taste, and the amount of the fragrance to be added varies depending on the type of the fragrance, but can be added at 0 to 95% by weight. Other additives include antioxidants, fungicides, ultraviolet absorbers,
Dyes and the like are used.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION The following is an example of substitution of octylic acid in aluminum octylate with a higher fatty acid. (Substitution Example 1) 150 g of myristic acid is dissolved in 1 kg of PGM, and 500 g of aluminum octylate is added thereto and uniformly dispersed. After heating this mixture to 80 ° C. for 1 hour,
Wash with a small amount of PGM and dry at 60 ° C. Yield 52
0 g. (Substitution Example 2) 15 g of stearic acid and 200 g of ethanol
And heated to 60 ° C. to dissolve it, and 100 g of aluminum octylate was added thereto and uniformly dispersed.
After heating to 8 ° C. and cooling, the mixture is filtered, washed with a small amount of ethanol, and air-dried. The yield is 99 g.

(Substitution Example 3) 400 g of oleic acid was dissolved in 700 g of methanol, and 400 g of aluminum octylate was added thereto.
g, and the mixture is uniformly dispersed and left at room temperature for 3 days. During this time, stirring is performed once in the morning and at night. Thereafter, the mixture is filtered, washed with a small amount of methanol, and air-dried. The yield is 408 g. (Substitution Example 4) 60 g of linoleic acid was dissolved in 350 g of methanol, and 200 g of aluminum octylate was added thereto, dispersed uniformly, boiled for 2 hours with a reflux condenser, allowed to cool, filtered, and filtered in a small amount. After washing with methanol, about 4
Dry at 0 ° C. The yield is 198 g. (Substitution Example 5) 40 g of linoleic acid was dissolved in 200 g of PGM, and 100 g of aluminum octylate was added thereto, uniformly dispersed, heated at 80 ° C. for 1 hour, allowed to cool, filtered, and filtered with a small amount of OGM. , And then dried at 60 ° C.
The yield is 97 g.

[0016]

Embodiments of the present invention will be described below. (Example 1) Aluminum octylate 5 g Aluminum stearate 2 g Limonene 93 g Antioxidant (BHT) Trace pigment Trace trace When the above ingredients were mixed and left to stand, a transparent gel was formed the next day.

(Example 2) Aluminum octylate 3 g Aluminum oleate 2 g Isoparaffin (No. 0 solvent, manufactured by Nippon Oil Co., Ltd.) 90 g Fragrance (Gardenia, manufactured by Hasegawa Perfume) 5 g Antioxidant (BHT) Trace lame (Silver C 0.1) ) Trace amount of antifungal agent (PCMX) Trace amount of pigment Trace amount of ultraviolet absorber Trace amount When the above ingredients were mixed and left to stand, a transparent gel was obtained after 6 hours.

(Example 3) 6 g of the gelling agent of Substitution Example 1 94 g of limonene Pigment trace amount Antioxidant trace amount The above blended materials were mixed and allowed to stand, and after 3 hours, a transparent gel was obtained.

Example 4 Gelling Agent of Substitution Example 3 6 g Isoparaffin (IP Solvent 1620, manufactured by Idemitsu Petroleum) 66 g Limonene 23 g Flavor (lemon, made of Takasago) 5 g Pigment Trace antioxidant (BHT) Trace antifungal agent (PCMX) Trace UV absorber Trace A 6 g gelling agent was placed in a beaker, and a mixed solution of isoparaffin and limonene was poured and allowed to stand. The next day, a transparent and uniform gel was obtained.

(Example 5) Gelling agent of Substitution Example 4 6 g Normal paraffin (N-C10, manufactured by Nippon Mining) 91 g Fragrance (Cymbidium, manufactured by Hasegawa fragrance) 3 g Antioxidant (BHT) Trace amount antifungal agent (PCMX) A trace amount When the above ingredients were mixed and left, a transparent and uniform gel was obtained the next day.

Example 6 Gelling agent of Substitution Example 3 6 g Isoparaffin (IP Solvent 1620, manufactured by Idemitsu Oil) 86 g Flavor (carnation, manufactured by Kobayashi) 8 g Antioxidant (BHT) Trace amount Antifungal agent (PCMX) A trace amount of the above ingredients was mixed and allowed to stand, and a transparent gel was obtained after 3 hours.

Example 7 Gelling Agent of Substitution Example 2 4 g Isoparaffin (Isobar G, manufactured by Exxon) 93 g Fragrance (Rose, manufactured by Hasegawa Perfume) 3 g Antioxidant (BHT) Trace pigment Trace trace antifungal agent (PCMX) Trace Ultraviolet absorber (Oisolex) Trace amount Lame (Silver C 0.1) Trace amount After mixing and leaving the above ingredients, a transparent gel was obtained after 4 hours.

(Example 8) Aluminum octylate 5 g Aluminum oleate 2 g Normal paraffin (N-C10, manufactured by Nippon Mining Co., Ltd.) 73 g Fragrance (Squash, Hasegawa fragrance) 20 g Antioxidant (BHT) Trace antifungal agent (PCMX) Trace amount of pigment Trace amount of ultraviolet absorber Trace amount When the above ingredients were mixed and left to stand, a transparent gel was obtained after 6 hours.

[0024]

The composition of the present invention is transparent and excellent in appearance,
Even at high temperatures, there is no dissolution or deliquescent, and there is no need to heat during production, any scenting can be carried out, and production can be made easily.

Claims (2)

[Claims] The method according to claim 1 gelling agent consisting of octyl acid aluminum and 6 to 80 mol% of a higher fatty acid Aluminum C ₁₂ -C _24, and characterized by using as gelling agent oily gel fragrance composition Transparent oily gel fragrance composition. 2. The method of claim 1, wherein the octylic acid in the aluminum octylate is C ₁₂
~C gelling agent comprising substituted 3 to 40 mole percent higher fatty acids _24, transparent oily gel fragrance composition characterized by using as gelling agent oily gel fragrance composition.