JP2015218149A - Aerosol composition, and aerosol product comprising aerosol composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an aerosol composition which can form a freezing material with soft properties, is hard to melt, can continuously impart a sufficient cool feel to an application part, and to provide an aerosol product comprising the aerosol composition.SOLUTION: The invention provides an aerosol composition which is used by cooling at 5°C or less to form a three-dimensional freezing material, wherein the water-containing undiluted solution containing 95 mass% or more of water, and dimethyl ether are contained, and the dimethyl ether is contained in an aerosol composition so as to exceeding the saturated dissolution amount to the water-containing undiluted solution.

Description

  The present invention relates to an aerosol composition and an aerosol product comprising the aerosol composition. More specifically, the present invention relates to an aerosol composition that can be used in a cooled state and freezes after spraying to obtain a soft three-dimensional freeze, and an aerosol product including the aerosol composition.

  2. Description of the Related Art Conventionally, an aerosol product that sprays an aerosol composition that can impart a cooling sensation to an application site such as skin is known. Patent Document 1 discloses an apparatus for spraying an aerosol composition and cooling a space, a body, and an object surface during use. The apparatus described in Patent Document 1 is used at room temperature, and the sprayed aerosol composition does not form icing. Patent Document 2 discloses a pressure-resistant container that can hold a cooled discharge product in a discharge product that is cooled and used in a refrigerator or a freezer. In the discharge product described in Patent Document 2, dimethyl ether contains an amount that dissolves in the stock solution (an amount that is less than the saturated dissolution amount of the stock solution).

Japanese National Patent Publication No. 8-503989 JP 2004-81834 A

  The apparatus described in Patent Document 1 is assumed to be used at room temperature. Also, the sprayed aerosol composition does not form icing. Therefore, according to the apparatus described in Patent Document 1, it is not possible to impart sufficient cooling sensation to an application site such as skin. Moreover, according to the discharge product described in Patent Document 2, the stock solution and dimethyl ether are uniformly dissolved. Therefore, the discharged content tends to form a hard icing in a flat shape. Such hard icing is likely to irritate the application site even when it is applied to an application site such as skin after being once discharged onto a cotton or sheet, for example. In addition, the planar ice is easily melted and cannot give a continuous cooling feeling to the application site.

  The present invention has been made in view of such conventional circumstances, and is an aerosol that can form a frozen product having a soft property, is not easily melted, and can continuously provide a sufficient cooling sensation to an application site. It is an object to provide a composition and an aerosol product comprising the aerosol composition.

  The following composition is mainly included in the aerosol composition of the present invention which solves the above-mentioned subject, and the aerosol product containing the aerosol composition.

  (1) An aerosol composition which is cooled to 5 ° C. or less and used to form a three-dimensional frozen product, and includes a hydrated stock solution containing 95% by mass or more of water and dimethyl ether. The aerosol composition contained so that it may exceed the saturated dissolution amount with respect to the said hydrous undiluted | stock solution in a thing.

  According to such a configuration, the aerosol composition includes dimethyl ether. Therefore, the aerosol composition does not freeze even when cooled to 5 ° C. or lower (preferably 0 ° C. or lower), and can be injected in a cooled state by appropriately filling an aerosol container to obtain an aerosol product. In addition, when an aerosol composition is appropriately filled in an aerosol container to form an aerosol product, for example, it does not form an iced product even when sprayed at room temperature. Forms freezing properties. At this time, in order to cool to “5 ° C. or lower”, the aerosol composition only needs to be cooled by a refrigerator or freezer for home use, and equipment that is routinely used in ordinary homes is used. Furthermore, dimethyl ether is contained in the aerosol composition so as to exceed the saturated dissolution amount with respect to the hydrous stock solution. Therefore, dimethyl ether that is not dissolved in the hydrous stock solution is easily dispersed (suspended) in the hydrous stock solution by filling the aerosol container into an aerosol product and mixing appropriately before use. In such aerosol products, even if a foaming agent such as a surfactant is not included in the aerosol composition, the aerosol composition in which dispersed dimethyl ether is injected and foamed is treated as a three-dimensional soft freeze. Can be frozen. In addition, since such frozen products are soft, it is difficult to irritate the application site such as the skin. Furthermore, since such an frozen thing is three-dimensional, it is hard to melt | dissolve in an application location and can provide sufficient cooling feeling.

  (2) The aerosol composition according to (1), wherein the dimethyl ether is contained in an amount of 1.01 to 1.5 times the saturated dissolution amount with respect to the water-containing stock solution.

  According to such a configuration, compared with the conventional aerosol composition that forms an iced product by spraying at room temperature, the aerosol composition is a dimethyl ether that is required for the sprayed aerosol composition to freeze. The amount of is small. Therefore, the aerosol composition is environmentally friendly. Moreover, the aerosol composition containing such an amount of dimethyl ether has a pressure close to the saturated vapor pressure of dimethyl ether, and is easily adjusted to an appropriate pressure for injection at a low temperature. Furthermore, the aerosol composition contains 1.01 to 1.5 times the saturated dissolution amount of dimethyl ether. Therefore, some dimethyl ether is present in the hydrous stock solution without dissolving. When this undissolved dimethyl ether is allowed to stand, it may form a separation layer. However, when dimethyl ether is contained in an amount of 1.01 to 1.5 times the amount of saturated solution with respect to the water-containing stock solution, before injecting the aerosol composition with the aerosol composition cooled to 5 ° C. or lower, for example, up and down By shaking or the like, the dimethyl ether forming the separation layer can be dispersed in a suspended state. As a result, the aerosol composition is easily injected with a uniform composition.

  (3) The aerosol composition according to (2), wherein the dimethyl ether is contained in the aerosol composition in an amount of 36 to 50 mass%, preferably 37 to 48 mass%.

  According to such a configuration, compared with the conventional aerosol composition that forms an iced product by spraying at room temperature, the aerosol composition is a dimethyl ether that is required for the sprayed aerosol composition to freeze. The amount of is less. In addition, an aerosol composition containing such an amount of dimethyl ether is easy to adjust with an appropriate pressure for injection at a low temperature. Furthermore, dimethyl ether present in the water-containing stock solution without being dissolved may form a separated layer when left standing. However, when 36 to 50% by mass of dimethyl ether is contained, a separation layer is formed by, for example, shaking up and down before spraying the aerosol composition with the aerosol composition cooled to 5 ° C. or lower. Dimethyl ether can be dispersed in a suspended state. As a result, the aerosol composition tends to be injected with a more uniform composition.

  (4) The aerosol composition according to any one of (1) to (3), wherein the water-containing stock solution further contains 5% by mass or less of an optional component in the aerosol composition.

  According to such a configuration, the water-containing stock solution further includes an optional component of 5% by mass or less in the aerosol composition. If the content of the optional component is 5% by mass or less, it does not inhibit the formation of soft-like icing. Therefore, according to such an aerosol composition, an effect brought about by an arbitrary component can be exhibited while obtaining a frozen product having a soft property.

  (5) A container body filled with the aerosol composition according to any one of (1) to (4), and an injection member having an injection hole for injecting the aerosol composition, the aerosol composition being And dimethyl ether in a state dissolved in the aqueous stock solution, and dimethyl ether having a particle diameter larger than that of the dimethyl ether dissolved in the aqueous stock solution and dispersed in the aqueous stock solution. , Aerosol products.

  According to such a configuration, the aerosol product includes dimethyl ether dissolved in the water-containing stock solution and dimethyl ether having a particle size larger than that of the dissolved dimethyl ether and dispersed in the water-containing stock solution. The aerosol composition is sprayed as follows. Thus, the aerosol composition contains not only dissolved dimethyl ether but also dispersed dimethyl ether. Two kinds of dimethyl ethers having different states can foam the sprayed aerosol composition three-dimensionally and then freeze to a soft property.

  (6) The injection member has a mechanical breakup mechanism that introduces the aerosol composition into the injection hole while swirling the aerosol composition, and the injection hole has a diameter of 0.2 to 0.4 mm. (5) The aerosol product described.

  According to such a configuration, the aerosol product is filled with the above-described aerosol composition and sprayed. The injection member has a mechanical breakup mechanism. According to such an injection member, the aerosol product can inject the aerosol composition in a wide range. The injection hole has a diameter of 0.2 to 0.4 mm. According to such an injection member, the aerosol product can inject the aerosol composition over a wide range without being frozen and clogged before injection, and form a three-dimensional soft freeze.

  ADVANTAGE OF THE INVENTION According to this invention, the aerosol composition which can form the soft property frozen thing, is hard to melt | dissolve, and can provide a sufficient cooling sensation continuously with respect to an application location, and the aerosol product containing this aerosol composition are provided. can do.

[Aerosol composition]
The aerosol composition of one embodiment of the present invention contains a hydrated stock solution containing 95% by mass or more of water and dimethyl ether. Dimethyl ether is contained in the aerosol composition so as to exceed the saturated dissolution amount with respect to the hydrous stock solution. Therefore, a part of dimethyl ether is dissolved in the hydrous stock solution, and the remainder is dispersed (suspended) or separated without being dissolved in the hydrous stock solution. The aerosol composition of the present embodiment is used after being cooled to 5 ° C. or lower to form a three-dimensional frozen product. Hereinafter, each configuration will be described. In this embodiment, whether or not a three-dimensional frozen product is formed is determined by filling the aerosol composition of this embodiment into an aerosol container to be described later to prepare an aerosol product, cooling to 5 ° C. or less, For an object (for example, cotton or sheet) 10 cm away from the injection hole of the injection button of the product, 0.5 to 5 seconds (amount of aerosol composition injection: about 0.5 to 3.0 (unit g)) It can be evaluated by whether or not icing is formed when the aerosol composition is sprayed.

<Water-containing stock solution>
The hydrous stock solution is a liquid component that is sprayed from an aerosol product to form frozen products, for example, by filling an aerosol container, which will be described later, into an aerosol product. The hydrous stock solution contains 95% by mass or more of water. Further, the hydrated stock solution contains dimethyl ether, which will be described later, so as to exceed the saturated dissolution amount.

  The content of the water-containing stock solution in the aerosol composition is not particularly limited as long as dimethyl ether described below is contained so as to exceed the saturated dissolution amount. The content of the hydrous stock solution is preferably 50% by mass or more, and more preferably 52% by mass or more in the aerosol composition. Further, the content of the water-containing stock solution is preferably 64% by mass or less, and more preferably 63% by mass or less in the aerosol composition. If the content of the water-containing stock solution is less than 50% by mass, the frozen product tends to harden, and the amount of frozen product formed after the dimethyl ether is volatilized by injection is reduced, and the amount used to obtain the desired cooling effect is reduced. There is a tendency to increase. On the other hand, when the content of the hydrous stock solution exceeds 64% by mass, since the content of dimethyl ether in the aerosol composition is small, even when the aerosol composition is cooled to −20 ° C., the injected aerosol composition is frozen. Tends to be difficult to form.

(water)
Water is a major component of the water-containing stock solution, and is foamed by the evaporation of dimethyl ether when jetted. The foamed water is cooled by the heat of vaporization when dimethyl ether is vaporized and freezes three-dimensionally softly. Examples of water include purified water, ion exchange water, physiological saline, deep sea water, and the like.

  Water should just be contained 95 mass% or more in a hydrous stock solution, and it is preferable that 97 mass% or more is contained. When the water content is less than 95% by mass in the water-containing stock solution, even if the aerosol composition is stirred when cooled to 0 to −20 ° C., dimethyl ether not dissolved in the water-containing stock solution is difficult to be uniformly suspended. Therefore, when preparing an aerosol product using an aerosol composition containing a water-containing stock solution in which dimethyl ether is not uniformly suspended as described above, the aerosol composition is less likely to foam when sprayed and less likely to freeze. There is.

(Optional component)
The water-containing stock solution may contain water so as to be 95% by mass or more, and may contain an optional component other than water as long as the formation of soft-like icing is not inhibited. That is, the hydrous stock solution may contain an optional component of 5% by mass or less. The aerosol composition containing such a water-containing stock solution can exhibit the effects brought about by various arbitrary components while obtaining a soft three-dimensional frozen product. It does not specifically limit as an arbitrary component, Alcohol, an active ingredient, water-soluble polymer, surfactant, powder etc. are illustrated.

  Alcohols are used for the purpose of adjusting the state of ice or the solvent of an active ingredient described later that does not dissolve in water. Examples of alcohols include monohydric alcohols such as ethanol and isopropanol, polyhydric alcohols such as propylene glycol, 1,3-butylene glycol, and glycerin.

  When alcohols are contained as optional components, the content is preferably 0.1% by mass or more, more preferably 0.5% by mass or more in the water-containing stock solution. Further, the content of alcohols is preferably 5% by mass or less, more preferably 3% by mass or less, in the water-containing stock solution. When the content of the alcohol is less than 0.1% by mass, the effect of adjusting the state of the solvent or ice of the active ingredient that does not dissolve in water tends to be difficult to obtain. On the other hand, when the alcohol content exceeds 5% by mass, dimethyl ether tends to be completely dissolved in the hydrous stock solution, and it tends to be difficult to contain dimethyl ether in the hydrous stock solution to exceed the saturated dissolution amount. In such a case, the aerosol composition does not foam even when sprayed, and tends to be difficult to freeze.

  The active ingredient is used for the purpose of imparting a desired effect to a portion where the aerosol composition is injected and the injected aerosol composition is injected. Active ingredients include: refreshing agents such as l-menthol, vitamins such as ascorbic acid and pantothenic acid, anti-inflammatory agents such as dipotassium glycyrrhetinate, antifungal agents such as butenafine hydrochloride, anti-inflammatory analgesics such as diclofenac sodium, isopropyl Examples include bactericides such as methylphenol and benzalkonium chloride, antiperspirants such as chlorohydroxyaluminum and zinc paraphenolsulfonate, humectants such as hyaluronic acid, and fragrances.

  When the active ingredient is contained as an optional component, the content is preferably 0.05% by mass or more, and more preferably 0.1% by mass or more. In addition, the content of the active ingredient is preferably 5% by mass or less, and more preferably 3% by mass or less. When the content of the active ingredient is less than 0.1% by mass, the desired effect exhibited by the active ingredient tends to be difficult to obtain. On the other hand, when the content of the active ingredient exceeds 5% by mass, the foamability and freezing properties of the aerosol composition are affected, and there is a tendency that soft-like icing is not easily formed.

  The water-soluble polymer is used for the purpose of adjusting the viscosity of the water-containing stock solution and adjusting the foamability and the frozen state of the aerosol composition. Examples of water-soluble polymers include cellulosic polymers such as hydroxyethyl cellulose, hydroxypropyl cellulose, and hydroxypropyl methyl cellulose; gums such as carrageenan, xanthan gum, cationized guar gum, guar gum, and gellan gum; gelatin, dextran, sodium carboxymethyldextran, and dextrin. Pectin, starch, corn starch, wheat starch, sodium alginate, modified potato starch, sodium hyaluronate, polyvinyl alcohol, polyvinyl pyrrolidone, carboxyvinyl polymer and the like.

  When the water-soluble polymer is contained as an optional component, the content is preferably 0.01% by mass or more, more preferably 0.05% by mass or more in the water-containing stock solution. In addition, the content of the water-soluble polymer is preferably 2% by mass or less, more preferably 1% by mass or less in the hydrous stock solution. When the content of the water-soluble polymer is less than 0.01% by mass, there is a tendency that it is difficult to obtain effects such as adjusting the viscosity of the water-containing stock solution and adjusting the foamability and frozen state of the aerosol composition. On the other hand, when the content of the water-soluble polymer exceeds 2% by mass, the aerosol composition tends to be hard to form frozen matter after injection.

  The surfactant is used for the purpose of making the aerosol composition easy to foam and making a three-dimensional freeze. Surfactants include sorbitan fatty acid esters, polyoxyethylene sorbitan fatty acid esters, glycerin fatty acid esters, polyglycerin fatty acid esters, polyoxyethylene glycerin fatty acid esters, polyethylene glycol fatty acid esters, polyoxyethylene sorbit fatty acid esters, polyoxyethylene alkyl ethers. , Polyoxyethylene polyoxypropylene alkyl ether, polyoxyethylene castor oil / hardened castor oil, polyoxyethylene lanolin alcohol, polyoxyethylene alkylamine, alkyldimethylamine oxide solution, polyoxyethylene fatty acid amide, fatty acid alkylolamide, alkyl Glucoside, alkyl polyglucoside, polyoxyethylene methylpolysiloxane copolymer, poly Polyoxypropylene-methylpolysiloxane copolymer, poly (oxyethylene-oxypropylene) methylpolysiloxane copolymer, and the like.

  When the surfactant is contained as an optional component, the content is preferably 0.05% by mass or more, and more preferably 0.1% by mass or more in the water-containing stock solution. Further, the content of the surfactant is preferably 3% by mass or less, more preferably 2% by mass or less, in the water-containing stock solution. When the content of the surfactant is less than 0.05% by mass, it tends to be difficult to obtain effects such as easy foaming of the aerosol composition and easy formation of a three-dimensional frozen product. On the other hand, when the content of the surfactant exceeds 3% by mass, the feeling of use tends to decrease, for example, it remains on the portion where the aerosol composition is sprayed and becomes sticky.

  The powder is used for the purpose of improving the feeling of use of the aerosol composition foamed after being sprayed. Examples of powders include talc, titanium oxide, zinc oxide, zeolite, silica, cyclopentasiloxane / dimethicone crosspolymer, and silicone powder such as (dimethicone / vinyl dimethicone) crosspolymer, and resins such as polyamide, polyethylene, polystyrene, and polymethyl methacrylate. Examples thereof include powder.

  When the powder is contained as an optional component, the content is preferably 0.01% by mass or more, more preferably 0.05% by mass or more in the water-containing stock solution. Further, the content of the powder is preferably 3% by mass or less, and more preferably 2% by mass or less. When the content of the powder is less than 0.01% by mass, there is a tendency that it is difficult to obtain an effect such as improving the feeling of use. On the other hand, when the content of the powder exceeds 3% by mass, the sedimentation of the powder tends to be faster in the hydrous stock solution. Therefore, when an aerosol composition containing such a water-containing stock solution is used as an aerosol product, the aerosol composition tends to be difficult to be ejected with a uniform composition.

<Dimethyl ether>
Similarly to the water-containing stock solution, dimethyl ether is a component that is filled in an aerosol container of an aerosol product, which will be described later, and is a component for foaming and freezing an aerosol composition injected from the aerosol product. Dimethyl ether is liquid in a pressurized state. Further, dimethyl ether is contained in the aerosol composition so as to exceed the saturated dissolution amount with respect to the hydrous stock solution. Therefore, a part of dimethyl ether is dissolved in the hydrous stock solution, and the remainder is dispersed (suspended) or separated without being dissolved in the hydrous stock solution.

  By the way, when the aerosol composition is filled in, for example, a general-purpose aerosol container as described later to prepare an aerosol product and a normal temperature (eg, 25 ° C.) aerosol composition is injected, the injected aerosol composition is frozen. Does not form. This is because although the sprayed aerosol composition is somewhat cooled by the heat of vaporization when dimethyl ether contained in the sprayed aerosol composition is vaporized, the heat of vaporization freezes such aerosol composition. This is considered to be because it is smaller than the amount of heat required for this. However, the aerosol composition of this embodiment is used after being cooled to 5 ° C. or lower. Therefore, since the sprayed aerosol composition has already been cooled to 5 ° C. or less, the amount of heat necessary for freezing such an aerosol composition is reduced. As a result, the sprayed aerosol composition can form icing matter by the heat of vaporization when dimethyl ether is vaporized. Moreover, the aerosol composition of this embodiment is contained so that the amount of saturation dissolution may be exceeded with respect to a hydrous stock solution. Therefore, even when the aerosol composition is cooled to 5 ° C. or lower (for example, 0 ° C.), the hydrous stock solution does not freeze. As a result, the aerosol composition can be easily injected, for example, by filling an aerosol container into an aerosol product.

  It does not specifically limit as a method of cooling an aerosol composition to 5 degrees C or less. As an example, an aerosol product containing an aerosol composition is cooled to 5 ° C. or lower by being kept in a household or commercial refrigerator or freezer for a predetermined time. Thus, in order to cool the aerosol composition of the present embodiment to 5 ° C. or lower, a household refrigerator or freezer may be used, and facilities that are generally used by general consumers may be used. it can.

  The aerosol composition is preferably cooled to 0 ° C. or lower and used after being cooled to −1 ° C. or lower, from the viewpoint of easily forming a three-dimensional frozen product having a soft property after being sprayed. It is more preferable that it is used after being cooled to -5 ° C or lower. Further, from the viewpoint of preventing the aerosol valve from being unable to operate, and from the viewpoint of preventing the aerosol composition from being frozen and sprayed in the aerosol container, the aerosol composition may be cooled so as not to fall below -30 ° C. Preferably, it is more preferably cooled so as not to fall below −25 ° C., and more preferably used after cooling so as not to fall below −20 ° C.

  Returning to the description of dimethyl ether, as described above, dimethyl ether is contained in the aerosol composition so as to exceed the saturated dissolution amount with respect to the hydrous stock solution, partly dissolved in the hydrous stock solution, and the remainder dissolved in the hydrous stock solution. Without being dispersed or separated. Since the aerosol composition is cooled to 5 ° C. or lower, for example, the viscosity is slightly higher than that at room temperature (25 ° C.). Therefore, the dimethyl ether dispersed in the hydrous stock solution is easily mixed uniformly in the hydrous stock solution having a relatively high viscosity by mixing appropriately before use to form a suspended state and is easily retained in the suspended state. . According to such an aerosol product, for example, even if a foaming agent such as a surfactant is not contained in the aerosol composition, it is foamed after being jetted by dimethyl ether dispersed in a water-containing stock solution without being dissolved. A three-dimensional soft freeze can be formed. In addition, since such frozen products are soft, it is difficult to irritate the application site such as the skin. Furthermore, since such an frozen thing is three-dimensional, it is hard to melt | dissolve in an application location and can provide sufficient cooling feeling. In the present embodiment, the “soft property” is an amount that does not contain a large amount of clumped icy matter in the icing matter or is not easily melted even if it is contained. When a person spreads ice on a cheek or the like, the person feels almost no grainy feeling and feels a smooth impression.

  The `` saturated dissolution amount '' of dimethyl ether with respect to the water-containing stock solution in the aerosol composition is a state in which the water-containing stock solution is only water and the aerosol composition does not contain other components such as the above-mentioned optional components. About 35% by mass (25 ° C.). The saturated dissolution amount varies depending on the presence of an optional component contained in the hydrous stock solution. However, the aerosol composition of the present embodiment is characterized in that dimethyl ether is contained so as to "exceed the saturated dissolution amount" regardless of the exact amount of saturation dissolution of dimethyl ether. That is, dimethyl ether may be included so as to exceed 35% by mass when the saturated dissolution amount is 35% by mass, and included so as to exceed 40% by mass when the saturated dissolution amount is 40% by mass. That's fine. Preferably, dimethyl ether is contained in an amount of 1.01 to 1.5 times the saturated dissolution amount at 25 ° C., so that a part of the dimethyl ether is not dissolved in the water-containing stock solution and is dispersed (suspended) for a long time at low temperature. Will be. The method for calculating the saturated dissolution amount is not particularly limited. As an example, the saturated dissolution amount can be experimentally calculated by a method of gradually adding dimethyl ether to a hydrous stock solution. Specifically, when dimethyl ether is gradually added to the hydrated stock solution via the aerosol valve, the hydrated stock solution starts to be suspended when a predetermined addition amount is exceeded. If the added dimethyl ether has not yet reached the saturation dissolution amount, such suspension is only partially concentrated in the hydrated stock solution. The turbid state can be eliminated to return to a uniform state. However, if dimethyl ether is continuously added in small steps step by step from such a state, a slight amount is added although it is in a uniform state at a certain point in time (the total addition amount at this point is referred to as addition amount A). When the amount is increased, it is possible to confirm a phenomenon in which the suspension is not eliminated even by shaking. In such a case, it can be considered that dimethyl ether was added in the water-containing stock solution slightly exceeding the saturated dissolution amount. Therefore, in the present embodiment, the dissolution amount calculated based on the addition amount A described above can be regarded as the saturation dissolution amount as an amount that is the same as or very close to the saturation dissolution amount.

  Further, when dimethyl ether is contained in an amount of 1.01 to 1.5 times the saturated dissolution amount at 25 ° C. with respect to the hydrous stock solution, the content of dimethyl ether is 36% by mass or more in the aerosol composition. It is preferable that it is 37 mass% or more. Moreover, it is preferable that it is 50 mass% or less in an aerosol composition, and, as for content of dimethyl ether, it is more preferable that it is 48 mass% or less. When the content of dimethyl ether is 36 to 50% by mass, the aerosol composition freezes the sprayed aerosol composition as compared with the conventional aerosol composition that is sprayed at room temperature to form a frozen product. Requires less dimethyl ether. Therefore, the aerosol composition is environmentally friendly. In addition, an aerosol composition containing such an amount of dimethyl ether is easy to adjust to an appropriate pressure for spraying at a low temperature. Furthermore, the dimethyl ether dispersed in the hydrous stock solution may be separated if left standing. However, when 36 to 50% by mass of dimethyl ether is contained, a separation layer is formed by, for example, shaking up and down before spraying the aerosol composition with the aerosol composition cooled to 5 ° C. or lower. The dimethyl ether can be dispersed in a temporarily suspended state. As a result, the aerosol composition is easily injected with a uniform composition. In particular, when the content of dimethyl ether is 37% by mass or more, the aerosol composition foams well after spraying, and a soft three-dimensional frozen product is easily obtained. Further, when the content of dimethyl ether is 50% by mass or less, the amount of dimethyl ether not dissolved in the water-containing stock solution becomes an appropriate amount, and even when a separation layer is formed, the thickness of the separation layer is thick. Without passing, the aerosol composition uniformly disperses dimethyl ether, which is not easily dissolved, for example, by shaking up and down.

  In particular, when the content of dimethyl ether is 37 to 48% by mass, the aerosol composition is cooled to −1 to −3 ° C., and when sprayed as an aerosol product, three-dimensional freezing with a desired soft property. Things can be formed. Here, as a means to cool to -1 to -3 degreeC, the partial room of a household refrigerator is illustrated, for example.

  In addition, the aerosol composition of the present embodiment may be contained so that at least a part of dimethyl ether is dispersed or separated without being dissolved in the aqueous stock solution, and in such a range that such a dispersed or separated state is not inhibited, Other gas components that do not dissolve in water may be included. Examples of such other gas components include liquefied petroleum gas and hydrofluoroolefin.

  The above-mentioned aerosol composition is filled in an aerosol container, for example, and used as an aerosol product. Below, an example of the aerosol product for injecting the aerosol composition of this embodiment is demonstrated.

[Aerosol products]
The aerosol product of the present embodiment includes a pressure-resistant container (an example of a container main body) filled with the aerosol composition, an aerosol valve attached to the container main body, and an injection button (injection member of an injection member) that injects the aerosol composition. An example). Hereinafter, each configuration will be described. In addition, the structure of an aerosol product is not limited to this embodiment, What is necessary is just the structure which can be filled with the said aerosol composition and can be injected appropriately.

(Pressure vessel)
The pressure vessel is a vessel for filling the aerosol composition in a pressurized state. The pressure vessel may have a general-purpose shape. The pressure vessel of this embodiment has a bottomed cylindrical shape having an opening at the top. The opening is a filling port for filling the hydrated stock solution, and is closed by an aerosol valve to be described later.

(Aerosol valve)
The aerosol valve is a member that is attached to the above-described opening of the pressure vessel and seals the inside of the pressure vessel. The aerosol valve is provided with a valve for switching communication / blocking between the inside and outside of the pressure vessel, and by opening the valve, the aerosol composition filled in the pressure vessel can be taken and sent to an injection button described later. The aerosol valve can press-fit dimethyl ether into the pressure vessel from the valve. The dimethyl ether that is press-fitted from the valve is pressurized in a pressure-resistant vessel, partly dissolved in the hydrous stock solution, and the remainder is dispersed (suspended) or separated in the hydrous stock solution.

  The structure of the aerosol valve is not particularly limited, and a general-purpose aerosol valve is appropriately used. The method for filling the pressure-resistant container with the aerosol composition is not particularly limited. As an example, a method is adopted in which a hydrous stock solution is filled from the opening of the pressure vessel, the opening is closed by an aerosol valve, and dimethyl ether is press-fitted from the valve of the aerosol valve. In addition, under-cup filling in which dimethyl ether is filled before the aerosol valve is fixed may be employed.

(Jet button)
An injection button is a member for injecting the aerosol composition taken in via an aerosol valve. The injection button is formed with an injection port for injecting the aerosol composition. In the aerosol product of the present embodiment, a nozzle tip having a mechanical breakup mechanism is attached to the tip of the spray button (near the spray port). The mechanical breakup mechanism is a mechanism suitably provided in the present embodiment, and is not essential.

  The size (diameter) of the injection hole is not particularly limited. The diameter of the injection hole is preferably 0.2 mm or more. Moreover, it is preferable that the diameter of an injection hole is 1.0 mm or less, and it is more preferable that it is 0.4 mm or less. When the diameter of the injection hole is less than 0.2 mm, the aerosol composition is frozen during the injection and tends to become uninjectable. On the other hand, when the diameter of the injection hole exceeds 1.0 mm, the injected aerosol composition tends to scatter and tends to hardly form a three-dimensional frozen matter.

  The mechanical breakup mechanism is a mechanism for introducing the aerosol composition into the injection hole while turning the aerosol composition when the aerosol composition is injected, and allows the aerosol composition to flow from the outer periphery toward the injection hole at the center. A plurality of grooves. The aerosol composition is swirled as it passes through these grooves and is sprayed so as to spread over a wide range from the spray holes. When a nozzle tip equipped with a mechanical breakup mechanism is mounted, the diameter of the injection hole is preferably 0.2 to 0.4 mm. When the diameter of the spray hole exceeds 0.4 mm, the sprayed aerosol composition tends to spread over a wide range and it is difficult to form iced matter.

  Here, in general, when a nozzle tip having a mechanical break-up mechanism is mounted, the aerosol composition is sprayed over a wide range and hardly forms icing. However, the aerosol product of this embodiment can inject an aerosol composition containing dimethyl ether so as to exceed the saturated dissolution amount with respect to the water-containing stock solution. Such an aerosol composition contains dimethyl ether dissolved in a hydrous stock solution and dimethyl ether dispersed in the hydrous stock solution. Dispersed dimethyl ether has a larger particle size than dissolved dimethyl ether. Two kinds of dimethyl ethers having different states can foam the sprayed aerosol composition three-dimensionally and then freeze to a soft property. Therefore, even if the aerosol product of the present embodiment sprays the aerosol composition over a wide range by a mechanical breakup mechanism, the aerosol composition is foamed three-dimensionally over a wide range, and then the foamed aerosol composition is It can be frozen with soft properties so as to maintain a three-dimensional shape. As a result, according to the aerosol product of the present embodiment, a three-dimensional frozen product with soft properties can be formed even when sprayed over a wide range.

  The internal pressure of the aerosol container filled with the aerosol composition may be higher than the saturated vapor pressure of dimethyl ether in terms of ensuring a pressure that can be injected to the outside even when the aerosol composition is cooled to 5 ° C. or less, particularly 0 ° C. or less. preferable. For example, the internal pressure is 0.48 to 0.55 MPa at 25 ° C.

  The application location of the aerosol product of this embodiment is not particularly limited. The application location is preferably a human body such as skin. At that time, it may be sprayed directly onto the application site, but it is preferable to spray it once onto cotton or a sheet, and press or spread the formed three-dimensional freeze on the application site such as the skin. . The resulting frozen product is soft and therefore difficult to irritate the application site. Moreover, since such an frozen thing is three-dimensional, it is hard to melt | dissolve, it can be given longer than before with respect to an application location, and sufficient cooling feeling can be provided.

  EXAMPLES Hereinafter, although an Example demonstrates this invention more concretely, this invention is not limited to these Examples at all.

Example 1
Purified water (hydrated stock solution) adjusted to 25 ° C. at the ratio (unit: mass%) shown in Table 1 was filled in a pressure resistant glass pressure vessel, and an aerosol valve was attached. Thereafter, dimethyl ether was gradually filled from the aerosol valve. In this example, dimethyl ether was filled in small steps step by step, and the amount of filling before one step was measured at the point when the suspension of the water-containing stock solution was not eliminated even if shaken as appropriate. It was regarded as the dissolved amount (unit: mass%). The internal pressure of the container after filling was 0.51 MPa (25 ° C.). In addition, as the aerosol valve, two stem holes having a diameter of 0.5 mm were formed, a lower hole of a housing having a diameter of 2.0 mm was formed, and there was no lateral hole (vapor tap hole). The injection button was attached when confirming the state of the injected aerosol composition described later.

(Examples 2-4, Comparative Examples 1-2)
An aerosol product was prepared in the same manner as in Example 1 except that the composition of the aerosol composition was changed as described in Table 1.

  About the aerosol product obtained in Examples 1-4 and Comparative Examples 1-2, according to the following evaluation criteria, the state of the filled aerosol composition and the state of the injected aerosol composition were confirmed.

(State of aerosol composition)
The pressure-resistant container filled with the aerosol composition was stored for one day in a refrigerator or freezer in which the internal temperature was adjusted to 25 ° C., 0 ° C., −5 ° C., −10 ° C., and −20 ° C., respectively. The state of the aerosol composition after storage was visually observed and evaluated according to the following evaluation criteria. The results are shown in Table 2.
<Evaluation criteria>
(Double-circle): The separation layer was hardly formed and it suspended slightly by shaking a pressure vessel up and down. Thereafter, when the pressure vessel was allowed to stand, the time until separation again exceeded 60 seconds or did not separate.
○: A part was separated, and suspended when the pressure vessel was shaken up and down and stirred. Thereafter, when the pressure vessel was left still, the time until separation again was 20 to 60 seconds.
(Triangle | delta): A part has isolate | separated and it suspended when the pressure vessel was shaken up and down and stirred. Thereafter, when the pressure vessel was allowed to stand, the time until separation again was 10 seconds to less than 20 seconds.
X1: Dimethyl ether was dissolved to form a transparent homogeneous phase.
X2: A part was separated and suspended when the pressure vessel was shaken up and down and stirred, but when the pressure vessel was allowed to stand, the time until separation again was less than 10 seconds.

(State of sprayed aerosol composition)
The pressure-resistant container filled with the aerosol composition was stored for one day in a refrigerator or freezer in which the internal temperature was adjusted to 25 ° C., 0 ° C., −5 ° C., −10 ° C., and −20 ° C., respectively. A spray button was attached to the pressure-resistant container after storage, and the aerosol composition was sprayed onto a paper towel (trade name: Kim Towel) from a distance of 10 cm. The state of the injected aerosol composition was observed and evaluated according to the following evaluation criteria. The results are shown in Table 3. The injection buttons used were a straight injection button with a 0.7 mm diameter injection hole and a wide angle injection button with a mechanical breakup mechanism with a 0.3 mm diameter injection hole.
<Evaluation criteria>
(Double-circle): It foamed greatly and the three-dimensional frozen thing of the soft property was formed.
○: Foamed to form a three-dimensional frozen product with soft properties.
(Triangle | delta): It foamed small and formed the three-dimensional freezing thing of a somewhat soft property.
X1: No frozen matter was formed.
X2: No foaming occurred, and a part of the surface was hard and frozen in a flat shape.

(Example 5) Cooling lotion The following water-containing stock solution 1 was prepared, filled in a pressure-resistant glass pressure-resistant container with 30 g (60 mass%), an aerosol valve was attached, and dimethyl ether 20 g (40 mass%) was filled. The same aerosol valve and injection button as in Example 1 were used. In the same manner as in Example 1, the amount of saturated dissolution of dimethyl ether in hydrous stock solution 1 was measured, and the state of the aerosol composition and the injected aerosol composition was evaluated. The results are shown in Table 4 and Table 5, respectively.

<Water-containing stock solution 1>
1,3-butylene glycol 1.0
Methylparaben 0.2
Purified water 98.8
(Total) 100.0 (mass%)

(Example 6) Cooling lotion The following water-containing stock solution 2 was prepared, filled in a pressure-resistant glass pressure-resistant container with 30 g (60 mass%), an aerosol valve was attached, and dimethyl ether 20 g (40 mass%) was filled. The same aerosol valve and injection button as in Example 1 were used. In the same manner as in Example 1, the saturated dissolution amount of dimethyl ether with respect to the hydrous stock solution 2 was measured, and the state of the aerosol composition and the injected aerosol composition was evaluated. The results are shown in Table 4 and Table 5, respectively.

<Water-containing stock solution 2>
l-Menthol 0.1
Ethanol 1.0
Methylparaben 0.2
Purified water 98.7
(Total) 100.0 (mass%)

(Example 7) Cooling lotion The following water-containing stock solution 3 was prepared, filled in a pressure-resistant glass pressure-resistant container with 30 g (60 mass%), an aerosol valve was attached, and dimethyl ether 20 g (40 mass%) was filled. The same aerosol valve and injection button as in Example 1 were used. In the same manner as in Example 1, the amount of dimethyl ether saturated with water containing stock solution 3 was measured, and the state of the aerosol composition and the injected aerosol composition was evaluated. The results are shown in Table 4 and Table 5, respectively.

<Water-containing stock solution 3>
Glycerin 3.0
Methylparaben 0.2
Purified water 96.8
(Total) 100.0 (mass%)

  As shown in Table 2 and Table 3, in the aerosol composition, dimethyl ether was contained so as to exceed the saturated dissolution amount with respect to the water-containing stock solution (so as to exceed 35% by mass at 25 ° C.). When the aerosol composition produced in No. 4 was cooled to 5 ° C. or lower (0 ° C. or lower), even if a separation layer was formed by dimethyl ether not dissolved in the hydrous stock solution, Such a separation layer could be easily dispersed, and the aerosol composition could be suspended for a relatively long time. When such an aerosol composition was jetted, it was possible to form a three-dimensional frozen product with a soft property. In addition, when spraying not only with a spray button having a straight nozzle, but also with a spray button having a mechanical breakup mechanism, it was possible to form a wide range of three-dimensional frozen objects with soft properties.

  On the other hand, in the aerosol composition of Comparative Example 1 in which dimethyl ether was contained so as to be equal to or less than the saturated dissolution amount, dimethyl ether was dissolved in the hydrous stock solution to form a transparent uniform phase. Such an aerosol composition could not form icing even when sprayed. In addition, the aerosol composition of Comparative Example 2 containing water in an amount of less than 95% by mass in the hydrated stock solution increased the amount of dimethyl ether dissolved in the hydrated stock solution by ethanol, and the dimethyl ether content was higher than the dissolved amount. Since there were few, dimethyl ether melt | dissolved in the hydrous stock solution, and formed the transparent uniform phase. Such an aerosol composition could not form icing even when sprayed.

  As shown in Tables 4 and 5, the aerosol compositions prepared in Examples 5 to 7 containing optional components such as active ingredients and containing dimethyl ether so as to exceed the saturated dissolution amount with respect to the hydrous stock solution. When the product is cooled to 5 ° C. or lower (0 ° C. or lower), even if a separated layer is formed by dimethyl ether not dissolved in the hydrous stock solution, such a separated layer can be easily shaken by shaking up and down. The aerosol composition could be suspended for a relatively long time. When such an aerosol composition was jetted, it was possible to form a three-dimensional frozen product with a soft property. In addition, when spraying not only with a spray button having a straight nozzle, but also with a spray button having a mechanical breakup mechanism, it was possible to form a wide range of three-dimensional frozen objects with soft properties.

Claims (6)

An aerosol composition that is used by cooling to 5 ° C. or lower to form a three-dimensional freeze.
A water-containing stock solution containing 95% by mass or more of water, and dimethyl ether,
The said dimethyl ether is an aerosol composition contained so that the amount of saturation dissolution with respect to the said water-containing stock solution may be exceeded in an aerosol composition.   The aerosol composition according to claim 1, wherein the dimethyl ether is contained in an amount of 1.01 to 1.5 times the saturated dissolution amount in the water-containing stock solution.   The aerosol composition according to claim 2, wherein the dimethyl ether is contained in an amount of 36 to 50% by mass in the aerosol composition.   The said hydrous stock solution is an aerosol composition of any one of Claims 1-3 which further contains 5 mass% or less arbitrary components in the said aerosol composition. A container body filled with the aerosol composition according to any one of claims 1 to 4, and an injection member having an injection hole for injecting the aerosol composition,
The aerosol composition,
Dimethyl ether dissolved in the water-containing stock solution,
An aerosol product having a particle size larger than that of dimethyl ether dissolved in the water-containing stock solution and sprayed to contain dimethyl ether suspended in the water-containing stock solution. The injection member has a mechanical breakup mechanism that introduces the aerosol composition into the injection hole while swirling,
The aerosol product according to claim 5, wherein the injection hole has a diameter of 0.2 to 0.4 mm.