JP2012006872A - Oil-dispersed type composition in water/oil - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an oil-dispersed type composition in water/oil, in which an oily substance is stably and uniformly dispersed into an aqueous or oily liquid even if an emulsifier or the like are not added thereto.SOLUTION: The oil-dispersed type composition in water is obtained, into an aqueous or oily liquid, by uniformly dispersing a mixture which is composed of an oily substrate and a specific gravity regulator and in which specific gravity is 0.95 to 1.05 to the aqueous or oily liquid. The specific gravity regulator is the one having a specific gravity of >1, e.g., sucrose acetate isobutyrate (SAIB). The mixture may be seal-capsuled with a film of a seamless capsule or the like.

Description

  The present invention relates to a water / oil-in-oil dispersion composition in which an oily substance is dispersed in an aqueous or oily liquid.

  Oily substances generally have a specific gravity smaller than that of aqueous liquids. Therefore, when oily substances are dispersed in an aqueous liquid, over time, oily substances gather on the upper layer side and aqueous liquids gather on the lower layer side to cause phase separation. .

  Therefore, conventionally, in order to stably and uniformly disperse the oily substance in the aqueous liquid, an emulsifier is added to use the surface active force, or fermented cellulose and a thickener are added to flow the aqueous liquid. I was down.

JP 2004-089146 A

However, when utilizing the surfactant power of an emulsifier, advanced knowledge about the emulsifier, its utilization technique, and appropriate equipment for emulsification are required.
Moreover, addition of an emulsifier, fermented cellulose, etc. may be avoided depending on a use. For example, in the case of an emulsifier, it is avoided for eating and drinking because of its unique flavor, and it is avoided as an external preparation for skin that places importance on the feeling of use because of its unique feel. In the case of fermented cellulose, etc., it is avoided for eating and drinking because of its unique texture and throat, and in the case of thickener, it is avoided as a topical skin preparation that emphasizes the feeling of use because of its stickiness. is doing.

Furthermore, when an emulsifier, fermented cellulose, or the like is added, the transparency of the aqueous liquid decreases or becomes cloudy, which is not preferable from the aspect of appearance that bears part of the commercial value. Patent Document 1 describes that any turbidity can be achieved by adjusting the emulsion particle size of the oily substance, but the adjustment is not easy.
In addition, in order to prevent spoilage, it is necessary to adjust the pH to an acidic range of less than 4 or to heat sterilize (for example, at 85 ° C. for 30 minutes or more). When the dispersed state is maintained, the dispersed state becomes unstable and the dispersed state often collapses instantaneously or early.

  On the other hand, if the oily substance itself has a unique flavor, etc. and is avoided for eating or drinking, or if the oily substance is destabilized by direct contact with an aqueous liquid, the oily substance is encapsulated in a capsule or the like. In this case, it is necessary to add a thickener or the like to stably and uniformly disperse the oily substance in the aqueous liquid, and to prevent spoilage. Although it is necessary to adjust the pH to an acidic range of less than 4 or to heat sterilize (for example, at 85 ° C. for 30 minutes or more), the encapsulating film dissolves, so the same problem as above It had occurred.

The present invention has been made by paying attention to the above-mentioned conventional problems, and a water / oil-in-oil dispersion type in which an oily substance is stably and uniformly dispersed in an aqueous liquid without adding an emulsifier or the like. An object is to provide a composition.
In addition, the dispersion medium for dispersing the oily substance is not limited to the aqueous liquid as described above, and if an oily liquid can also be used, a composition in which a plurality of types of oily substances / liquids are mixed and the use is expanded. It is also an object of the present invention to provide an oil-in-oil dispersion composition that is stably and uniformly dispersed in different oily liquids.

The present invention has been made in order to solve the above problems, and is composed of a mixture of an oily substance and a specific gravity adjusting agent in an aqueous or oily liquid, and has a specific gravity of 0.95 to the aqueous or oily liquid. A water / oil-in-oil dispersion type composition in which 1.05 is uniformly dispersed.
When the dispersion medium is an aqueous liquid, the mixture as a dispersoid may be exposed as it is or may be an encapsulated material encapsulated by a film. However, when the dispersion medium is an oily liquid, the dispersion state may be changed. In order to hold, the mixture is an encapsulated material encapsulated by a film.

  According to the water / oil-in-oil dispersion type composition of the present invention, no emulsifier, fermented cellulose or thickener is added, but the oily substance is stably and uniformly dispersed in the aqueous liquid or oily liquid.

The water / oil-in-oil dispersion type composition according to the embodiment of the present invention will be described in detail.
(Composition policy of dispersion medium and dispersoid)
In order to stably maintain the dispersion state, the mixture as the dispersoid is adjusted so that the specific gravity is 0.95 to 1.05 with respect to the aqueous or oily liquid as the dispersion medium. More preferably, it is 0.99 to 1.01, but it is better that it is closer to 1 anyway.
The specific gravity mentioned here is not a specific gravity for water at a general temperature of 4 ° C., but is a specific gravity for an aqueous liquid as a dispersion medium. This is because, for example, an aqueous liquid having a specific gravity with respect to water at 4 ° C. exceeding 1.1, such as syrup having a solid content exceeding 70%, may be used as the dispersion medium.
The specific gravity is measured by a method using a specific gravity bottle, a Splengel-Ostwald pycnometer, a float, or a vibrating densimeter. Details are described in the 15th revised Japanese Pharmacopoeia. The measurement temperature is appropriately determined according to the environment of use and storage. For example, when the dispersion medium is liquid at room temperature and the water / oil-in-oil dispersion type composition of the present invention is used at room temperature, the measurement temperature is The measurement temperature is set to a temperature that is normally assumed as room temperature, such as 1 to 30 ° C., and when the dispersion medium is gelled by being allowed to cool like gelatin jelly, it is set near the gelation temperature.

(Dispersion medium)
<Aqueous liquid>
The aqueous liquid is simply water, but for food and drink, those containing milk, soybeans, coffee powder, carbonic acid, alcohol, tea, fruit juice and the like are listed as examples. In addition, for skin external use such as skin lotion, for washing hair and body, and for washing clothes, active ingredients suitable for each use are included.
In addition, as an aqueous liquid, not only a fluid liquid such as water and a thick semi-liquid liquid, but also a liquid that gels by cooling like jelly, or frozen like ice confectionery. Liquids that become solids are also included. For the purpose of stably and evenly dispersing oily substances in aqueous liquids, it can be made into a solid or jelly form after mixing with an appropriate viscosity, thick liquid, or oily substances. A water-soluble liquid is preferred. In this way, the liquid phase state only needs to be ensured in the manufacturing process, and strictly speaking, it is not required for the finished composition.

<Oil liquid>
In the case of oily liquids, for example, vegetable oils (soybean oil, sesame oil, corn oil, rapeseed oil, safflower oil, rice bran oil, cottonseed oil, castor oil, peanut oil, olive oil, palm oil, safflower oil, wheat germ oil, palm Oil, sunflower oil, camellia oil, cocoa butter, medium-chain fatty acid triglyceride (MCT, etc.), animal fat (beef tallow, pork fat, butter, etc.), fish oil (EPA, DHA, squalane, etc.), essential oil (lemon oil, orange oil) Mineral oils (gasoline, light oil, heavy oil, etc.), hydrocarbon-based organic solvents, waxes (waxes), and oils and fats obtained through the above decomposition process (soaps such as cosmetic soaps and transparent soaps) Or derivatives obtained by synthesis using them as raw materials (shortening, paraffin, solid paraffin, glycerin fatty acid ester, etc.). The origin and the structure are not particularly limited, and are appropriately selected according to the use such as eating and drinking or external use on the skin. As in the case of the aqueous liquid, the phase state of the liquid only needs to be ensured in the production process, and strictly speaking, it is not required for the finished composition. For example, palm oil, cocoa butter, beef tallow, butter, shortening, paraffin, solid paraffin, wax (wax), soaps (cosmetic soap, transparent soap, etc.), glycerin fatty acid ester, etc. are creamy at room temperature. Although it is pasty, gel, and solid, it does not show fluidity, but when it is heated above its melting point (softening point), it becomes liquid and shows fluidity. After the mixture encapsulated in the film is added and stirred and mixed, it is cooled again below the melting point (softening point) again to become a cream, paste, gel, and solid, and the dispersion stability of the mixture is further increased. Increase.

(Oil substance)
As the oily substance applied to the present invention, the same oily liquid as described above can be used except for amphiphilic soaps (such as cosmetic soap and transparent soap), glycerin fatty acid ester and the like. One type or two or more types may be used in combination.
Needless to say, the active substance powder can be dispersed in the oily substance as in the conventional case.

(Specific gravity adjuster)
The specific gravity adjusting agent applied to the present invention is selected from those satisfying the specific gravity, and when an aqueous liquid is used as a dispersion medium, the specific gravity adjusting agent is a substance having an affinity with an oily substance and is aqueous. It is preferable that the liquid is difficult to adjust. Moreover, since the specific gravity with respect to the water of 4 degreeC general of the oily substance of the other party of mixing is usually less than 1, the specific gravity regulator of this invention usually has a specific gravity with respect to water of 4 degreeC exceeding 1.
For example, isobutyrate acetate sucrose (SAIB), brominated vegetable oil ester gum, natural rosin ester gum, polyether modified silicone oil, polyglycerin modified silicone oil, methylphenyl silicone oil, trimethylsiloxysilicic acid, chloroform, methylene chloride , Dimethyl sulfoxide, acetic acid, formic acid and the like.
More preferably, the specific gravity with respect to water at 4 ° C. exceeds 1.06. This is because as the specific gravity of the specific gravity adjusting agent increases, the amount of the adjusting agent used can be reduced, and the proportion of the oily substance to be originally increased in content can be increased.
Among the above, SAIB is a sucrose ester in which acetic acid and isobutyric acid are ester-bonded in a ratio of about 2: 6, and slightly yellowish and acetic acid odor, but the specific gravity at room temperature greatly exceeds 1. Since it is commercially available, it can be used as a simple specific gravity adjusting agent.

(Form of mixture)
A. Direct dispersion A mixture of an oily substance and a specific gravity adjusting agent may be directly dispersed as oil droplets in an aqueous liquid.
The specific gravity adjusting agent is set in a blending amount in consideration of its own specific gravity and the specific gravity of the oily substance to be mixed.
In the case of direct dispersion, the mixture of the oily substance and the specific gravity adjusting agent may be added to the aqueous liquid (the aqueous liquid may be added to the mixture of the oily substance and the specific gravity adjusting agent) and stirred. The stirring method is not particularly limited, but weak stirring may be performed to keep the oil droplets in the dispersion large, and stirring may be strengthened to make the oil droplets fine. However, finer oil droplets tend to increase the stability of dispersion. The apparatus used for stirring may be a batch type or a continuous type. In the batch type, an impeller type agitator may be used, and a blade type, closed rotor type, rotor / stator type agitator or the like may be used to further reduce oil droplets. For the continuous type, a static mixer, a prober / turbine mixer, a rotor / stator mixer, a colloid mill, a high-pressure homogenizer, or the like may be used. Moreover, you may irradiate an ultrasonic wave in combination with these stirring or independently.

B. Dispersion after Encapsulation with Film After mixing a mixture of an oily substance and a specific gravity adjusting agent with a film, the mixture may be dispersed in an aqueous liquid or an oily liquid.
In this case, the specific gravity adjuster sets the blending amount in consideration of the mass of the film.
By encapsulating with a film, even if the mixture exhibits a unique flavor or becomes unstable in an aqueous or oily liquid, the disadvantages thereof can be solved. The appearance is also unique and valuable.

  When encapsulating with a film, a capsule form is typically assumed. Thus, the capsules are roughly classified into hard capsules and soft capsules. When soft capsules are used, the contents are filled and punched between two coating sheets using a rotary type automatic soft capsule molding machine or the like. There are those manufactured by the method, those manufactured by the dropping method using a double nozzle (seamless capsule), and those manufactured by the phase separation method (microcapsule). When it is desired to disperse without settling in the liquid and to increase the contents in the capsule, it is recommended to use a seamless capsule.

When the seamless capsule is employed, the viscosity of the mixture of the oily substance and the specific gravity adjusting agent is preferably 2000 cP or less, and more preferably 500 cP or less.
The method for producing seamless capsules generally uses gelatin or agar as the base of the coating liquid, and uses a two-layer flow consisting of a capsule capsule liquid with a hydrophilic outer side and a capsule content liquid with a hydrophobic inner side. Capsules are produced by wrapping the content liquid in a coating liquid that becomes a sphere by introducing it into a hydrophobic oil liquid or the like while cutting at equal intervals. However, if the above mixture exceeds 2000 cP, cutting becomes difficult or impossible. In some cases, the capsule is stable and cannot be encapsulated, or even if it can be encapsulated, the encapsulation of the content liquid is incomplete, and the content liquid leaks frequently, or the content of the content of each capsule varies. Also, the lower the viscosity of the mixture, the easier it is to produce fine capsules with a particle size of 2 mmφ or less, and this is for 500 cP or less. It is useful that the capsules are fine for the purpose of uniformly dispersing the oily substance.

The coating composition may be used in principle as long as it is conventionally used for encapsulation, particularly for capsules. Usually, the shape is maintained by a gelling agent such as gelatin or agar. Thus, gelatin, agar, etc. are relatively poor in acid resistance and heat resistance.
Therefore, depending on the application, about 0.1 to 10 parts by mass of alginate is added to the coating liquid with respect to 100 parts by mass of water, and the aqueous metal salt solution (for example, about 3% by mass) is obtained at the wet capsule stage. It is preferable to immerse in a calcium lactate aqueous solution or the like. This is because crosslinking occurs between metal alginate molecules (for example, calcium ions) between the alginate molecules, and the capsule film eventually has sufficient acid resistance and heat resistance. Furthermore, it has been confirmed that acid resistance and heat resistance are further improved by adding about 0.05 to 2 parts by mass of gellan gum to 1 part by mass of alginate.

Test systems 1 to 21 shown in Table 1 were carried out to evaluate the dispersion state and the like. The manufacturing method is based on the standard method.

(Test system 1-5)
In test systems 2 to 4 in which the mixture as the dispersoid has a specific gravity of 0.95 to 1.05 with respect to the aqueous liquid as the dispersion medium, it is apparent after standing for 1 day in test systems 1 and 5. Phase separation was not observed. In the test system 3 having a specific gravity in the range of 0.975 to 1.025, no phase separation was observed.
(Test system 6-9)
In the test systems 7 to 9 in which the specific gravity adjusting agent has a specific gravity with respect to water at 4 ° C. of more than 1, no clear phase separation after standing for 1 day, which is slightly observed in the test system 6, was observed.
Further, among test systems 8 and 9 having a specific gravity with respect to water at 4 ° C. exceeding 1.06, in test system 8, 40 parts by mass of MCT (oil-based substance) can be blended, and in test system 9 using SAIB, 60 parts by mass of MCT (oil-based substance) could be blended.

(Test system 10-12)
In the test systems 11 and 12 in which a mixture of an oily substance and a specific gravity adjusting agent is encapsulated in a film and dispersed in an aqueous liquid, the unique flavor (fish odor) of the mixture found in the test system 10 is hardly present. It was.
In the test system 12 which is a seamless capsule, no phase separation was observed.
(Test system 13-15)
In the test systems 14 and 15 in which the viscosity of the mixture of the oily substance and the specific gravity adjusting agent is 2000 cP or less, fine capsules having a particle size of 2 mmφ or less can be produced, and in the test system 15 having a viscosity of 500 cP or less, the particle size is 2 mmφ. It was easy to produce the following fine capsules.

(Test system 16-18)
A test in which about 0.1 to 10 parts by mass of alginate is added to the coating liquid with respect to 100 parts by mass of water, and the film is immersed in a metal salt aqueous solution (3% by mass calcium lactate aqueous solution) at the stage of a wet capsule. In systems 17 and 18, the capsule shape was maintained even after heat treatment at pH 3.8 ± 0.1 and 85 ° C. for 30 minutes, and the unique flavor (fish odor) of the mixture was observed to tend to be suppressed. Moreover, in the test system 18 which added about 0.05-2 mass parts gellan gum with respect to 1 mass part of alginate, acid resistance and heat resistance were improving further.
(Test system 19-21)
Fluids such as water (test system 19), thick semi-fluid liquids (test system 20), and gelled liquids (test system 21), such as jelly, are both 1 No obvious phase separation was observed after standing for 1 day, but no phase separation was observed for the test system 21 even after standing for 1 month.
(Test system 22-24)
Even when an oily liquid is used as a dispersion medium, the specific phase of the mixture with respect to the dispersion medium is adjusted to a predetermined range, and the mixture is encapsulated, so that in any test system, an obvious phase after standing for 1 day Although no separation was observed, in particular, for the test system 24, no phase separation was observed even after standing for 1 month.

  The present invention can be used in manufacturing industries such as foods and drinks and cosmetics.

Claims (11)

  Water / oil-in-oil dispersion comprising a mixture of an oily substance and a specific gravity adjusting agent in an aqueous or oily liquid, and having a specific gravity of 0.95 to 1.05 uniformly dispersed in the aqueous or oily liquid. Mold composition. The water / oil-in-oil dispersion composition according to claim 1,
An oil-in-water dispersion composition using an aqueous liquid, wherein the specific gravity adjusting agent has a specific gravity of more than 1 with respect to water at 4 ° C. The water / oil-in-oil dispersion composition according to claim 2,
A water / oil-in-oil dispersion type composition, wherein the specific gravity adjusting agent is isobutyrate acetate sucrose (SAIB). In the water / oil-in-oil dispersion type composition according to any one of claims 1 to 3,
An oil-in-water dispersion composition using an aqueous liquid, wherein the aqueous liquid is a fluid liquid such as water, a thick semi-fluid liquid, or gelled by cooling like a jelly A water / oil-in-oil dispersion type composition characterized by being a liquid that becomes a solid upon freezing, such as liquid or ice confectionery. The water / oil-in-oil dispersion composition according to claim 4,
A water / oil-in-oil dispersion type composition characterized in that an aqueous liquid is gelled. In the water / oil-in-oil dispersion type composition according to any one of claims 1 to 5,
A water / oil-in-oil dispersion composition, wherein the mixture is encapsulated. The water / oil-in-oil dispersion composition according to claim 6,
A water / oil-in-oil dispersion composition, wherein the capsule is a seamless capsule. The water / oil-in-oil dispersion composition according to claim 7,
A water / oil-in-oil dispersion type composition characterized in that the viscosity of a mixture of an oily substance and a specific gravity adjusting agent is 2000 cP or less. The water / oil-in-oil dispersion type composition according to any one of claims 6 to 8,
A water / oil-in-oil dispersion type composition, wherein the capsule film contains an alginate. The water / oil-in-oil dispersion composition according to claim 9,
A water / oil-in-oil dispersion type composition, wherein gellan gum is contained in a capsule film. The water / oil-in-oil dispersion type composition according to any one of claims 6 to 10,
An oil-in-water composition in water / oil, wherein the oily liquid does not exhibit fluidity at room temperature.