JPH05112427A - Foamy aerosol - Google Patents

Abstract

PURPOSE:To obtain an inexpensive foamy aerosol capable of efficiently jetting the contents using an aerosol container having a single room structure and a compressed and dissolved gas propellant and retaining foam state produced by jet and having high safety. CONSTITUTION:The objective obtained by enclosing an aqueous solution, a surfactant having action capable of foaming the aqueous solution, a compressed and dissolved gas (e.g. carbon dioxide or dinitrogen oxide capable of exhibiting a certain degree of solubility to the aqueous solution) of >=7000ppm concentration as well as a 5-7C hydrocarbon oil of >=10000ppm concentration, preferably a saturated aliphatic hydrocarbon oil into an aerosol container having a single room structure. The viscosity of the contents of the foamy aerosol is preferably <=100000 cs, generally 9000-3000O cs. When the compressed and dissolved gas is expanded and volatilized, the aqueous solution is foamed together with the hydrocarbon oil and membrane of the hydrocarbon oil is formed to retain the produced foam for proper time.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a foam aerosol. More specifically, the present invention uses an aerosol container having a single-chamber structure as a container, and using only a compressed dissolved gas as a propellant, the contents can be efficiently injected, and the foam state generated by the injection can be retained, Moreover, the present invention relates to an inexpensive and highly safe foam aerosol. The foam aerosol according to the present invention is a foam aerosol treatment agent, foam aerosol lotion, foam aerosol hair setting agent, foam aerosol shaving agent, by encapsulating various kinds of agents for human body in an aerosol container. Used as a foam aerosol face wash, or by encapsulating various industrial products in an aerosol container, foam aerosol rust preventive agent, foam aerosol cleaner, foam aerosol cleaner, foam aerosol insecticide It is also used as an agent and a foam aerosol polish.

[0002]

2. Description of the Related Art If a compressed dissolved gas is used as a propellant,
It is well known to make a temporary foam, but since this foam is a temporary one that disappears instantly, foam aerosols using only compressed dissolved gas as a propellant are not common. As an exception to this, foam aerosols for some food materials such as whipped cream are known. A foamable aerosol agent having a post-foaming property using a compressed dissolved gas as a foaming agent for use in human body products or industrial products (JP-A-2-247115).
It has been known. On the other hand, various types of foam aerosol agents such as freon gas and liquefied gas are known as foam aerosol agents that use a single-chamber structure aerosol container to spray the contents in a foam state. ..

[0003]

A foam aerosol for food materials, which uses only a compressed dissolved gas as a propellant, increases the viscosity of the contents by using a thickener or the like, and compresses the dissolved gas from the injected contents. The bubbles produced when the swells and volatilizes are forcibly maintained by a thickening film. In such a foam aerosol, since the content has a high viscosity, the fluidity of the content in the aerosol container is poor. Therefore, when the aerosol container having a single-chamber structure is filled with the content having such poor fluidity, it becomes impossible to spray the entire content. That is, such a foam aerosol has another problem that the contents cannot be efficiently ejected. Of course, if a double-structured container such as a piston container with a special structure or a back incan is used as the aerosol container, the entire amount of the content filled in the aerosol container can be injected, but the container cost is expensive. There is a problem.

Further, a foam aerosol for a human body product or an industrial product, which uses a compressed dissolved gas as a foaming agent,
A small amount of compressed dissolved gas sealed in the aerosol container under pressure is gradually foamed when the content is jetted from the aerosol container in a liquid state and then returned to normal pressure. Therefore, as the aerosol container used for this, a double structure container having a chamber for pressurizing and holding the content containing the compressed dissolved gas must be used in addition to the chamber for filling the propellant for discharge. However, there is a problem that the container cost becomes expensive.

On the other hand, the foamed aerosol agent using the aerosol container having the single-chamber structure has the following problems in terms of safety since it uses CFC gas or liquefied gas as the propellant. It is well known that the use of CFCs is being promoted from the viewpoint of protecting the global environment because it destroys the ozone layer above the earth and raises the temperature on the ground due to the greenhouse effect. Liquefied gas such as LPG or DME gas is being used as an alternative to CFCs. However, since they are highly flammable and have a large amount of volatilized vapor, when they are used in a large amount in a small room such as a bathroom, they cause a flammable explosion. That is, when using a liquefied gas such as LPG or DME gas, there is a problem that the types of products that can be applied are limited. In addition,
When using a liquefied gas such as LPG or DME gas,
The product must be labeled with "Caution for flammable fire" based on Notification No. 203 of the High Pressure Gas Control Act.

[0006]

Therefore, the present inventor has proposed an inexpensive aerosol container having a single-chamber structure as a container, and a propellant containing a highly safe compressed dissolved gas as a foam aerosol. As a result of conducting various studies with the idea that if the bubbles generated by the compressed dissolved gas can be retained, it is possible to achieve the intended purpose. We have obtained a new finding that the film-forming performance of the hydrocarbon oil is exhibited by allowing the specific hydrocarbon oil to coexist at a specific concentration or higher. And the present inventor, based on such new knowledge,
After further research, the present invention was completed. That is, the foamed aerosol agent according to the present invention has a concentration of 10000 with an aqueous solution, a surfactant and a compressed dissolved gas.
A hydrocarbon oil (carbon number 5 to 7) of ppm or more is enclosed in an aerosol container having a single-chamber structure.

In addition to purified water, the aqueous solution used in the present invention is used as a foaming aerosol agent such as a treatment agent, a hair setting agent, a shaving agent, a facial cleanser, an anticorrosive agent, a cleaner, a wax and a slip agent. An aqueous solution containing an active ingredient according to the above can be mentioned.

The surfactant has a function of foaming the above-mentioned aqueous solution, and the addition amount thereof is not particularly limited, but in order to obtain foam of an appropriate size, the total amount of the content is On the other hand, it is usually necessary to add 0.1 part by weight or more. When the amount of the surfactant added is less than 0.1 part by weight, the aqueous solution is unlikely to foam, and a foamed aerosol agent capable of spraying bubbles of an appropriate size cannot be obtained. Examples of the surfactant include sorbitan fatty acid ester, glycerin fatty acid ester, polyoxyethylene sorbitan fatty acid ester, polyethylene glycol fatty acid ester, polyoxyethylene alkyl ether, polyoxyethylene alkylphenyl ether, and polyoxyethylene. Nonionic surfactants such as ethylene castor oil, polyoxyethylene hydrogenated castor oil, fatty acid alkylamides, polypeptide ethylene fatty acid condensed salts, alkyl sulfates, polyoxyethylene alkyl ether sulfates, N-acyl amino acid salts, and other anions. Examples thereof include a surfactant, an amphoteric surfactant such as betaine alkylaminoacetate, and a cationic surfactant such as a dialkyldimethylammonium salt. These surfactants are used alone or as a mixture of two or more kinds.

As the propellant, only compressed dissolved gas is used. This compressed dissolved gas ejects the contents and
It functions to foam an aqueous solution with an appropriate foam density. Therefore, a compressed dissolved gas such as carbon dioxide or nitrous oxide, which has a certain degree of solubility in an aqueous solution, is used. Compressed gases such as air, nitrogen gas, oxygen gas, helium gas, argon gas, and neon gas have low solubility in an aqueous solution, and thus have a weak foaming power,
It is not possible to obtain a good foam aerosol.

The compressed dissolved gas preferably has a concentration of 7,000 ppm or more after being filled in an aerosol container. If it is less than 7,000 ppm, the jetting force becomes weak and it is difficult to foam at the same time as jetting. From this point as well, it is necessary to fill the compressed dissolved gas so that the pressure inside the aerosol container after filling becomes ^2.5 to 7.5 kg / cm ² at 20 ° C. If it is less than 2.5 kg / cm ² , the concentration of the compressed dissolved gas does not exceed the above-mentioned 7,000 ppm, and sufficient foamability cannot be obtained as the remaining amount of the content filled in the aerosol container decreases. On the other hand, if it exceeds 7.5 kg / cm ² , it becomes impossible to meet the requirement of “High Pressure Gas Control Law Notification No. 203,“ Gauge pressure at a temperature of 35 ° C., 8 kg / square centimeter or less ”.

The hydrocarbon oil used in the present invention functions to assist the foaming of the aqueous solution by the compressed dissolved gas and to hold the foam of the aqueous solution foamed by the compressed dissolved gas for an appropriate time. In order to exert such an action, the hydrocarbon oil must be filled in the aerosol container at a concentration of 10,000 ppm or more. By doing so, when the compressed dissolved gas expands and volatilizes from the injected content, the aqueous solution causes the hydrocarbon oil to foam together, and the hydrocarbon oil forms a film.
The foam of the aqueous solution foamed by the compressed dissolved gas can be held for a suitable time. Since foaming is performed according to this principle, it is possible to commercialize the product using an aerosol container having a single-chamber structure. If the concentration is less than 10000 ppm, the film-forming effect of hydrocarbon oil is too weak, which is not suitable.

The hydrocarbon oil used in the present invention must have 5 to 7 carbon atoms. Carbon number 4
This is because there is a problem from the viewpoint of safety and handling in the High Pressure Gas Control Law, and when the carbon number is 8 or more, the action and effect as a foaming aid and a foam retaining agent are poor. From the viewpoint of safety, non-toxicity, and odor, it is desirable to select and use an aliphatic hydrocarbon oil.

Examples of the hydrocarbon oil include pentane, hexane, heptane, isomers thereof, and unsaturated hydrocarbons such as pentene, which have double or triple bonds. However, n-pentane, isopentane, n-hexane, isohexane, methylpentane, neohexane, dimethylbutane, heptane, methylhexane, ethylpentane, which are the most stable saturated aliphatic hydrocarbon oils having no double bond or triple bond, ，
It is preferable to use dimethylpentane, trimethylbutane and the like. Although these hydrocarbon oils are flammable,
Compared with liquefied gas such as G or DME gas, the safety against fire is high. Also, since the amount of vaporized vapor is small and it can be used safely in a small room such as a bathroom, the range of applicable products is wide. In addition, the indication based on Notification No. 203 of the High Pressure Gas Control Law is also unnecessary except in special cases.

The foam aerosol according to the present invention may be filled with, for example, a thickener, a miscibility improver, a fluidity improver, a stabilizer, a preservative and the like in addition to the above-mentioned essential components. For example, the foaming degree, hardness, and retention of the foam can be adjusted by the type and amount of addition of the essential components, but in order to achieve an appropriate viscosity, for example, high-dispersion silica such as dry process silica or wet process silica, Silica Alumina, Magnesium Aluminate Silicate, Magnesium Silicate, Bentonite, Sno-Floss, Synthetic Polymer Polysaccharide, Natural Polymer Polysaccharide, Microfibrillated Cellulose, CMC
Inorganic or organic thickeners such as celluloses, sodium alginate, alginates, acrylic polymers, PEO polymers, etc. can be filled. For the same purpose, PEG or higher fatty acid can be filled. It should be noted that the above-mentioned thickeners should avoid those that deteriorate the fluidity of the contents. Further, the foamed aerosol agent according to the present invention can spray the contents as a uniform component liquid by shaking the aerosol container at the time of use, but in order to improve the miscibility of the contents, a lower alcohol Can be filled.

The viscosity of the content of the foamed aerosol agent according to the present invention is not particularly limited, but in order to minimize the remaining amount of the content in the aerosol container by use, the specific gravity of the content And it depends on the liquid,
Usually, it is preferably 100,000 cs or less. However,
This does not apply as long as the fluidity in the aerosol container is good, such as the content showing thixotropic properties or the content having a property that the liquid is well separated from the inner wall of the aerosol container and hardly leaves the remaining amount. Furthermore, considering the fineness of the texture and stability of the foam, it is generally 9000 cs to 30,000 cs.
Is preferred.

[0016]

When the content of the foamed aerosol agent according to the present invention is sprayed from the aerosol container, when the compressed dissolved gas expands and volatilizes, the aqueous solution containing the surfactant foams. At the same time foam is obtained. In the present invention, since the hydrocarbon oil (carbon number 5 to 7) having a concentration of 10,000 ppm or more is filled together with the compressed dissolved gas, when the compressed dissolved gas expands and volatilizes from the injected content, the aqueous solution becomes Along with the hydrocarbon oil, it foams, and the hydrocarbon oil forms a film. As a result, the foam aerosol according to the present invention can hold the foam of the aqueous solution foamed by the compressed dissolved gas for an appropriate time.

[0017]

EXAMPLES Next, the present invention will be explained based on examples. Example 1 Formulated solution Polyoxyethylene cetyl ether 0.5% by weight Polyoxyethylene coconut oil fatty acid monoethanolamide 1.0% by weight Methacrylic acid / stearyl copolymer 5.0% by weight Methacrylic acid / butyl copolymer 5.0% by weight 1,3-butylene glycol 1.0% by weight Silicone 1.0% by weight Preservative 0.3% by weight Alcohol 10.0% by weight Purified water 76.2% by weight As shown in Table 1, the isopentane content was mixed with the solution from 5000 ppm to 100000 ppm, and the mixture was filled in an aerosol can together with carbon dioxide gas having a content of 12000 ppm to obtain a foamy aerosol hair setting agent. The foam state and spray state of this foam aerosol setting agent were examined. The results are shown in Table 1.

[0018]

[Table 1]

Further, as shown in Table 2, in the same preparation liquid as above, the isopentane content was 50,000 ppm, the carbon dioxide gas content was changed from 5000 ppm to 15000 ppm, and the foamed aerosol hair setting agent was filled in an aerosol can. Obtained. The foam state and spray state of this foam aerosol setting agent were examined. The results are shown in Table 2.

[0020]

[Table 2]

Example 2 Formulation Polyoxyethylene hydrogenated castor oil 0.5% by weight Isopropyl myristate 1.0% by weight Sodium lauroyl glutamate 0.2% by weight Silicone 0.2% by weight Hydrolyzed collagen 0.2. 1% by weight Hyaluronate 0.1% by weight Preservative 0.3% by weight Alcohol 5.0% by weight Purified water 92.6% by weight 95 g of the above-mentioned formulation solution and 5 g of isopentane (50,000 pp)
m) was taken in an aerosol container having an inner volume of 130 ml, a valve was attached to the aerosol container, and carbon dioxide gas was pressure-filled at 25 ° C. to an inner pressure of the container of 6.0 kg / cm ² to obtain a foamy aerosol lotion. When sprayed with this foamy aerosol lotion, fine foam was produced, and this foam was retained for about 3 minutes or more after spraying.

Example 3 Formulation Polyoxyethylene alkyl ether 5.0% by weight Stearic acid 2.5% by weight Dibutylhydroxytoluene 0.1% by weight Triethanolamine 1.3% by weight Squalane 10.0% by weight 1 , 3-butylene glycol 30.0% by weight Hydrolyzed collagen salt 0.1% by weight Purified water 51.0% by weight 93 g of the above preparation and 7 g of isopentane (70000 pp)
m) was placed in an aerosol container having an internal volume of 130 ml, a valve was attached to the aerosol container, and carbon dioxide gas was pressure-filled at 25 ° C. until the container internal pressure was 5.5 kg / cm ² to obtain a foamy aerosol cleansing agent. When sprayed with this foamy aerosol cleansing agent, fine foams were produced, which were retained for about 3 minutes or more after spraying.

Example 4 Preparation liquid Higher fatty acid / triethanolamine 9.3% by weight Isopropyl myristate 1.0% by weight Cetanol 0.5% by weight Liquid paraffin 5.0% by weight Lepta-326 0.5% by weight Cinepyrine 500 2.0% by weight Diethyltriamide 2.0% by weight Purified water 79.7% by weight 95 g of the above preparation and 5 g of n-pentane (50000 pp)
m) was taken in an aerosol container having an inner volume of 130 ml, a valve was attached to the aerosol container, and carbon dioxide gas was pressure-filled at 25 ° C. to a container internal pressure of 6.0 kg / cm ² ,
A foamy aerosol insect repellent capable of spraying a stable foam was obtained. After using this foamy aerosol insect repellent until it was no longer sprayed, the contents of the aerosol container were examined and the remaining amount was 1.5 g. In addition, Reppa-326
Is the commercial abbreviation for di-n-propylisocincomeronate. Cinepyrine 500 is a commercial abbreviation for N- (2-ethylhexyl) -1-isopropyl-4-methylbicyclo [2,2,2] oct-5-ene-2,3-dicarboximide.

Example 5 Formulation Polyoxyethylene alkyl ether 2.95% by weight Isopropyl alcohol 5.39% by weight Methyl methoxybutanol 9.90% by weight Morpholine. 0.92% by weight Sodium tripolyphosphate 1.28% by weight Purified water 79.56% by weight 90 g of the above preparation liquid and 10 g of n-hexane (10000)
(0 ppm) was placed in an aerosol container having an internal volume of 130 ml, a valve was attached to the aerosol container, and nitrous oxide gas was pressurized and filled to a container internal pressure of 6.5 kg / cm ² at 25 ° C., and stable foam could be sprayed. A foamy aerosol radiator cleaner was obtained. After using this foamy aerosol radiator cleaner until it was no longer sprayed, the contents of the aerosol container were examined and the remaining amount was 1.1 g.

[0025]

[Effect] Since the present invention adopts the above-mentioned configuration, the following effects are exhibited. That is, the foamed aerosol agent according to the present invention,
Concentration of 10 with aqueous solution, surfactant and compressed dissolved gas
Since hydrocarbon oil (carbon number 5 to 7) of 000 ppm or more is enclosed in an aerosol container having a single-chamber structure, the content can be efficiently injected, and the foam state generated by the injection can be changed. It can be held and is inexpensive and highly safe. Therefore, it is possible to enable foaming of various products which could not be achieved by a propellant containing only compressed dissolved gas. For example, foam-like aerosol treatment agents,
Foam aerosol lotion, foam aerosol hair setting agent, foam aerosol shaving agent, foam aerosol face cleanser, etc., foam aerosol rust inhibitor, foam aerosol cleaner, foam aerosol cleaner, foam aerosol insecticide Agents, foam aerosols, polishes, etc. can be used.

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Shoichiro Tanaka 1-11-5 Higashikyusyo, Kawanishi-shi, Hyogo (72) Inventor Toshiyuki Kitagawa 3-15-24 Tsuruga, Nada-ku, Kobe-shi, Hyogo

Claims (3)

[Claims] 1. A hydrocarbon oil (having 5 carbon atoms) having a concentration of 10,000 ppm or more together with an aqueous solution, a surfactant and a compressed dissolved gas.
To 7) are enclosed in an aerosol container having a single-chamber structure, which is a foamy aerosol agent. 2. The foam aerosol composition according to claim 1, wherein the hydrocarbon oil is a saturated aliphatic hydrocarbon oil. 3. The concentration of the compressed dissolved gas after filling the aerosol container is 7,000 ppm or more.
The foamed aerosol according to any one of 1.