JP2018154571A - Aerosol spray hairdressing agent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an aerosol spray hairdressing agent that contains silica as a hairdressing component, and has sufficient hairdressing power and re-hairdressing power after hairdressing, less scattering of a sprayed material, excellent adhesion rate, less powder-floating appearance, and furthermore, excellent quick-drying property.SOLUTION: An aerosol spray hairdressing agent comprises: a container body housing content; and an actuator which is attached to an upper part of the container body and sprays the content from nozzle holes by being pressed, in which the content consists of a predetermined amount of an aerosol spray hairdressing agent composition and propellant, the aerosol spray hairdressing agent composition contains 8 to 25 mass% of the following component X and 75 to 92 mass% of the following component Y, which are component X: silica whose average particle diameter is 5 to 18 μm and component Y: at least one oil solution selected from the group consisting of ester oil and hydrocarbon oil, and the actuator has 5 or more of nozzle holes.SELECTED DRAWING: None

Description

  The present invention relates to an aerosol spray hairdressing agent.

  An aerosol hairdressing agent in which an aerosol spray hairdressing composition is filled in an aerosol container is commercially available. As an aerosol hairdressing agent, there exist various forms, such as foam hairdressing agent apply | coated in foamy form, and the spray hairdressing agent ejected. In general, the composition of the aerosol spray hairdressing composition varies depending on the form of foam hairdressing agent and spray hairdressing agent.

  Conventionally, in hairdressing agents, a solid oil or a film-forming polymer is often used as a hairstyling component. However, hair styling agents that use solid oil have a problem that they are easily sticky, and hair styling agents that use a film-forming polymer have too much hair styling power, making it difficult to do hair styling once after styling. There is a problem that it is inferior in styling.

  Therefore, an aerosol spray hair styling agent using a powder such as silica has been proposed as a hair styling component capable of re-styling (see, for example, Patent Documents 1 and 2).

JP 2011-246352 A JP 2014-133717 A

  In the use of aerosol cosmetics containing powders such as silica, there is a problem in that the sprayed product is likely to be scattered during use, and the adhesion rate of the sprayed product to the spray target is low. In particular, since aerosol spray hairdressing agents are used on the head, there is a problem that it is easy to inhale scattered powder and to cough.

  One reason for the occurrence of the problem is that the momentum of injection is too strong. As a means for solving this problem, it is conceivable that the propellant in the spray is weakened by lowering the propellant ratio in the contents and increasing the aerosol spray hairdressing composition ratio. Although this method can suppress the scattering of the ejected matter, there is a problem that a large amount of powder adheres to the local area of the hair and the powder floats. When a large amount of ethanol is contained, a large amount of ethanol also adheres locally, which is not sufficient from the viewpoint of quick drying.

  The present invention has been made in view of the above problems, and is an aerosol spray hair styling agent that contains silica as a hair styling component and has sufficient hair styling power and hair styling power after hair styling. An object of the present invention is to provide an aerosol spray hairdressing agent that has a small amount, excellent adhesion of a sprayed product to a spray target, little powder floating at a sprayed portion, and excellent quick-drying properties.

That is, the present invention
(1) a container body containing contents,
An aerosol spray hair styling agent comprising an actuator that is attached to the upper part of the container body and presses the contents from a nozzle by pressing.
The content is composed of 3 to 25 mass% aerosol spray hairdressing composition and 75 to 97 mass% propellant,
The aerosol spray hairdressing composition contains the following component X and the following component Y,
Component X: Silica having an average particle size of 5 to 18 μm Component Y: At least one oil selected from the group consisting of ester oils and hydrocarbon oils Content of Component X in the aerosol spray hairdressing composition is 8 to 25 Mass%,
The content of component Y in the aerosol spray hairdressing composition is 75 to 92% by mass,
An aerosol spray hairdressing agent wherein the actuator has 5 or more nozzles;
(2) The aerosol spray hairdressing agent according to (1), wherein the silica is hydrophilic silica,
(3) The aerosol spray hairdressing agent according to (1) or (2), wherein the component Y contains 15 to 70% by weight of light isoparaffin with respect to 100% by weight of the aerosol spray hairdressing composition, and (4) the aerosol The spray hairdressing composition does not contain ethanol, or contains ethanol, and the content of ethanol in the aerosol spray hairdressing composition is 10% by mass or less according to any one of (1) to (3). It relates to an aerosol spray hairdressing agent.

  The aerosol spray hair styling agent of the present invention is an aerosol spray hair styling agent that has sufficient hair styling power and re-styling power after hair styling, has little scattering of the sprayed product, is excellent in the adhesion rate of the sprayed product to the spray target, and sprayed There is little powder floating at the point, and it is excellent in quick drying.

It is sectional drawing for demonstrating the structure of the aerosol spray hairdressing agent of this invention. It is sectional drawing of the valve periphery of the aerosol spray hairdressing agent of this invention. It is (a) front view of the actuator of the aerosol spray hairdressing agent of this invention, (b) AA sectional drawing. It is (a) front view and (b) BB sectional drawing of the nozzle of the aerosol spray hairdressing agent of this invention. It is BB sectional drawing of the nozzle of 2nd Embodiment of the aerosol spray hairdressing agent of this invention. It is the (a) front view of the nozzle of 3rd Embodiment of the aerosol spray hairdressing agent of this invention, (b) CC sectional drawing, (c) It is a perspective view. (A) Front view of nozzle of 4th Embodiment of aerosol spray hairdressing agent of this invention, (b) DD sectional drawing, (c) It is a perspective view. It is a perspective view of the actuator of the aerosol spray hairdressing agent of this invention, Comprising: (a) When a nozzle hole is 6 holes, (b) When a nozzle hole is 12 holes, (c) It is a perspective view when a nozzle hole is 28 holes. . It is a figure for demonstrating the opening area of the nozzle hole which has a level | step difference in the depth direction, (a) The front view of the nozzle hole, (b) It is EE sectional drawing of the nozzle hole.

  Hereinafter, the aerosol spray hairdressing agent according to the present invention will be described with reference to the drawings.

FIG. 1 is a cross-sectional view for explaining the configuration of the aerosol spray hairdressing agent of the present invention, and FIG. 2 is a cross-sectional view around the valve of the aerosol spray hairdressing agent of the present invention.
The aerosol spray hairdressing agent (100) of the present invention is composed of a container main body (A), an injection device (B), and contents contained in the container main body (A) as essential components.

Contents The contents are accommodated in the container body (A). The contents are composed of an aerosol spray hairdressing composition and a propellant. The aerosol spray hairdressing composition and the propellant may be present in a state where a part of the propellant is dissolved in the aerosol spray hairdressing composition and is completely mixed and uniform. The agent may not be dissolved in the aerosol spray hairdressing composition and both may exist in a non-uniform state.

  FIG. 1 shows an example in which the contents are accommodated in a container. In general, the contents are separated into a liquid phase (C) and a gas phase (D) in the container body (A). The gas phase (D) is composed of a gaseous component of the propellant. Moreover, the liquid phase (C) is comprised only from the aerosol spray hairdressing composition, or is comprised from the liquid component of a propellant, and the aerosol spray hairdressing composition. In addition, a liquid phase (C) contains the silica which is a component in an aerosol spray hairdressing agent composition.

  The aerosol spray hairdressing composition contains a predetermined amount of silica having a predetermined average particle diameter and at least one oil selected from the group consisting of ester oils and hydrocarbon oils. In the present specification, the silica may be referred to as “component X”. In addition, at least one oil agent selected from the group consisting of the ester oil and the hydrocarbon oil may be referred to as “component Y”.

  Since the aerosol spray hairdressing composition contains a predetermined amount of the component X (silica) and the component Y (at least one oil selected from the group consisting of ester oil and hydrocarbon oil), the aerosol spray hairdressing The spray of aerosol spray hair styling agent using the agent composition is excellent in hair fit and quick drying. This is achieved by volatilizing component Y after it is uniformly deposited on the hair in a state where silica is dispersed in component Y which is an oil agent excellent in hair familiarity. After the component Y has volatilized, the surface of the hair is covered with a large number of silica, and hair styling and re-styling become possible.

  The component X is silica. Examples of the silica include hydrophobic silica that has been subjected to a hydrophobic treatment and hydrophilic silica that has not been subjected to a hydrophobic treatment. Of these, hydrophilic silica is preferable from the viewpoint of excellent re-hair styling and excellent wash-off. In addition, only 1 type may be used for a silica and 2 or more types may be used together.

  The average particle size of the component X is 5 μm or more, preferably 7 μm or more. When the average particle size of component X is less than 5 μm, powder floating may easily occur. Moreover, the average particle diameter of the component X is 18 micrometers or less, and 15 micrometers or less are preferable. When the average particle diameter of the component X exceeds 18 μm, it may cause clogging in the injection device. In addition, the average particle diameter (average primary particle diameter) of the component X is a volume average particle diameter, and is a value that can be measured using a particle size distribution measuring apparatus by laser light diffraction. Examples of the particle size distribution measuring apparatus include “LA-920” manufactured by Horiba, Ltd.

  The oil absorption amount of the component X is preferably 100 mL / 100 g or more, more preferably 150 mL / 100 g or more, still more preferably 200 mL / 100 g or more. The oil absorption amount of the component X is preferably 1000 mL / 100 g or less, more preferably 800 mL / 100 g or less, and still more preferably 700 mL / 100 g or less. (A) When the amount of oil absorption of hydrophilic silica is not less than the above lower limit and not more than the above upper limit, it is possible to suppress hair volume reduction due to fat on the hair such as scalp oil, and reduction in hair styling power. (Initial hair styling power) and re-hair styling power become even better. The oil absorption amount of component X is measured according to the method described in JIS K5101.

  Preferable commercial products of the component X include, for example, silicia 470 and 780 (trade names, both manufactured by Fuji Silysia Chemical Ltd.), Sunsphere H-51, H-121, H-52, H-122, H- 53 (trade name, both of which are manufactured by AGC S-Tech Co., Ltd.). Commercial products other than these may be used.

  The content of the component X in the aerosol spray hairdressing composition is 8% by mass or more, and preferably 10% by mass or more. When content of component X is less than 8 mass%, there exists a tendency for it to be inferior to hairdressing property and re-styling property. Moreover, content in the aerosol spray hairdressing composition of the said component X is 25 mass% or less, and 20 mass% or less is preferable. When the content of the component X exceeds 25% by mass, sedimentation in the container body or clogging in the injection device may occur.

  The component Y is at least one oil agent selected from the group consisting of ester oils and hydrocarbon oils.

  Examples of the ester oil include ethyl oleate, isopropyl myristate, isopropyl palmitate, octyldodecyl myristate, octyldodecyl oleate, isopropyl isostearate, cetyl 2-ethylhexanoate, and pentaerythritol tetra-2-ethylhexanoate. , Tetraisostearate pentaerythritol, isocetyl octanoate, 2-ethylhexyl palmitate, isocetyl isostearate, octyldodecyl isostearate, octyldodecyl dimethyloctanoate, isononyl isononanoate, dioctyl succinate, glyceryl tri-2-ethylhexanoate, tri (Caprylic acid / capric acid) glyceryl and the like. Among them, cetyl 2-ethylhexanoate, isononyl isononanoate, isopropyl myristate, ethylhexyl palmitate, and glyceryl tri-2-ethylhexanoate are preferable because of the touch when applied to hair and the improvement of powder dispersibility. .

  Examples of the hydrocarbon oil include liquid paraffin, liquid isoparaffin, light isoparaffin, squalane, α-olefin oligomer, and the like. Among these, liquid paraffin and light isoparaffin are preferred because of the touch when applied to the hair and the improvement of the dispersibility of the powder.

  The content of the component Y in the aerosol spray hairdressing composition is 75% by mass or more, and preferably 80% by mass or more. When the content of the component Y is less than 75% by mass, the quick drying property or the hair styling property tends to decrease. Moreover, content in the aerosol spray hairdressing composition of the said component Y is 92 mass% or less, and 90 mass% or less is preferable. When the content of Component Y exceeds 92% by mass, the content of Component X tends to decrease and hair styling power tends to decrease.

  The component Y preferably contains light isoparaffin because of its high volatility after adhering to the hair. The content of light isoparaffin with respect to 100% by mass of the aerosol spray hairdressing composition is preferably 15 to 70% by mass, more preferably 30 to 65% by mass, and further preferably 40 to 60% by mass.

  The aerosol spray hairdressing composition preferably contains substantially no ethanol. However, the aerosol spray hairdressing composition may contain ethanol as long as the effects of the present invention are not impaired. Moreover, even if it is a case where ethanol is not mix | blended actively in an aerosol spray hairdressing agent composition, a small amount of ethanol may be derived from a mixing | blending raw material.

  In the aerosol spray hairdressing composition, since it is used for spray coating, the lower the content of ethanol with lower volatility, the better. Moreover, the smaller the aerosol content in the aerosol spray hairdressing composition, the better the hairdressing power and quick drying properties.

  The lower the content of ethanol in the aerosol spray hairdressing composition, the better. The aerosol spray hairdressing composition does not contain ethanol, or contains ethanol, and the content of ethanol in the aerosol spray hairdressing composition is 10% by mass or less because it suppresses the wet feeling during application. It is preferable that it is, More preferably, it is 5 mass% or less, More preferably, it is 1 mass% or less.

  It is preferable that the aerosol spray hairdressing composition is substantially free of ethanol. In addition, “substantially free of ethanol” means that ethanol is not included (not added) separately from Component X, Component Y, and other components blended as necessary. It means that it is not excluded that the aerosol spray hairdressing composition contains ethanol derived from ethanol contained in the blending raw material.

  The aerosol spray hairdressing composition according to the present invention is a component that is usually used in cosmetics other than the above components as long as the effects of the present invention are not inhibited, for example, an anionic surfactant, a cationic surfactant, Surfactants such as ionic surfactants and amphoteric surfactants; ethylene glycol, diethylene glycol, triethylene glycol, polyethylene glycol, propylene glycol, dipropylene glycol, polypropylene glycol, isoprene glycol, 1,3-butylene glycol, 1, Polyhydric alcohols such as 2-butanediol, 1,2-pentanediol, 1,2-hexanediol, 1,2-octanediol, 1,2-decanediol, glycerin, diglycerin, polyglycerin; polyvinylpyrrolidone, vinyl Pyrrolidone Vinyl acetate copolymer, vinyl pyrrolidone / methacrylamide / vinyl imidazole copolymer, (meth) acrylic acid alkyl copolymer, (meth) acrylic acid / (meth) acrylic acid alkyl copolymer, acrylic resin alkanolamine, vinyl Pyrrolidone / N, N-dimethylaminoethyl methacrylic acid copolymer diethyl sulfate, N-methacryloyloxyethyl N, N-dimethylammonium-α-N-methylcarboxybetaine / methacrylic acid alkyl ester copolymer, N, N dimethyl -N- (2-methacryloyloxyethyl) amine = N-oxide / methacrylic acid alkyl ester copolymer film forming agent; carboxyvinyl polymer, acrylic acid / alkyl methacrylate copolymer, hydroxymethylcellulose, hydroxypropyl Water-soluble thickeners such as methylcellulose and xanthan gum; sugar alcohols such as sorbitol and maltitol; moisturizers such as hyaluronic acid, collagen and pantothenyl alcohol; preservatives such as methylparaben, propylparaben, butylparaben and benzoate; ethanol Lower alcohols such as: phosphoric acid and its salts, citric acid and its salts, lactic acid and its salts, sodium hydroxide, triethanolamine and other pH adjusters, fragrances, UV absorbers, dyes, etc., as appropriate can do.

  The aerosol spray hairdressing composition is preferably substantially free of water, and is preferably a non-aqueous aerosol spray hairdressing composition. The aerosol spray hairdressing composition substantially free of water is a non-aqueous aerosol spray hairdressing composition. In addition, “substantially free of water” means that the component X, the component Y, and other components blended as necessary, do not contain water (do not add), It means that it is not excluded that water is contained in the aerosol spray hairdressing composition derived from water contained in the blended raw material.

  The content of the aerosol spray hairdressing composition in the contents is 3% by mass or more, and preferably 5% by mass or more. When the content of the aerosol spray hair styling composition in the content is less than 3% by mass, the hair styling power and the re-hair styling power tend to be insufficient. In addition, the content of the aerosol spray hairdressing composition in the contents is 25% by mass or less, and preferably 20% by mass or less. When the content of the aerosol spray hairdressing composition in the contents exceeds 25% by mass, quick drying properties tend to deteriorate, and the hairstyling power tends to deteriorate.

Although it does not specifically limit as said propellant, Gas, such as air, nitrogen, a carbon dioxide gas, nitrous oxide (especially compressed gas is preferable); Liquefied petroleum gas (LPG: Liquid Petroleum Gas), dimethyl ether (DME :) Dimethyl ether), liquefied gases such as isopentane and fluorocarbon. The propellant may be used alone or in combination of two or more. For example, only liquefied gas, only compressed gas may be used, and liquefied gas and compressed gas may be used together.

  Among these, as the liquefied gas, LPG and DME are preferable from the viewpoints of injection power, environmental protection, and productivity, and LPG is more preferable because the cooling ability and injection ability can be controlled by the ratio of propane and butane. Although it does not specifically limit as said LPG, Propane is 0.1-50 mass% (more preferably 1.0-20 mass%), Butane is 50-99.9 mass% (More preferably, 80-99. LPG containing 0% by mass) is preferred.

  The vapor pressure at 20 ° C. of the liquefied gas used as the propellant is preferably 0.45 MPa or less (for example, 0.1 to 0.45 MPa), more preferably 0.1 to 0.45 from the viewpoint of further improving the adhesion rate. 0.25 MPa. When the vapor pressure is 0.45 MPa or less, the liquefied gas ejected from the container is difficult to vaporize before coming into contact with the hair, and after the liquefied gas is vaporized after coming into contact with the hair, the content is applied to the hair. This is preferable because the adhesion rate is improved, the scattering is suppressed, and the hair-styling power by the aerosol product is further improved.

  In the case of using a compressed gas or a mixed gas of a compressed gas and a liquefied gas as the propellant, the initial internal pressure of the aerosol spray hairdressing agent is 0.6 at 35 ° C. from the viewpoint that it can be used as a final product. It is preferable to adjust to -0.8 MPa, and it is more preferable to adjust to 0.6-0.7 MPa. Since the initial internal pressure of the aerosol spray hairdressing agent is 0.6 MPa or more at 35 ° C., it is preferable because a good injection state can be easily maintained.

  The content of the propellant in the content is 75% by mass or more, and preferably 80% by mass or more. When the content of the propellant in the contents is less than 75% by mass, quick drying properties tend to deteriorate and hair styling power tends to deteriorate. Moreover, content of the propellant in the said content is 97 mass% or less, and 95 mass% or less is preferable. When the content of the propellant in the contents exceeds 97% by mass, the hair styling power and the re-styling power tend to be insufficient.

As shown in FIGS. 1 and 2, the injection device (B) includes an actuator (1), an aerosol container valve (2) (hereinafter sometimes simply referred to as valve (2)), and a mountain cup (4). The dip tube (3) and the like, and the valve (2) includes the housing (21) and the stem (22).
Specifically, the housing (21) of the valve (2) is fitted to the boss (41) of the mountain cup (4) provided at the top of the container body (A), and the upper end of the valve (2) The actuator (1) is attached to the. Moreover, the dip tube (3) is extended below from the lower end part of the valve | bulb (2), and the lower part of the dip tube (3) is immersed in the liquid phase (C) of a container main body (A). .

The valve (2) includes a housing (21) provided at the top of the aerosol container body, and a stem (22) protruding from the upper part of the housing (21) and urged upward by the urging means (23). ). The internal space of the housing (21) includes an upper space (211) into which the stem base end (22a) is inserted and a lower space (212) communicating with the internal space of the dip tube (3). The upper space (211) and the lower space (212) communicate with each other. The liquid phase (C) sucked up from the dip tube (3) is sucked into the housing (21) through the lower space (212). That is, the housing (21) is configured such that the content filled in the container body (A) flows from the inflow hole. The stem (22) has at least a stem orifice hole (221) for introducing the contents into the internal flow path of the stem (22).
A coil spring or the like can be used as the urging means (23).

The valve (2) will be described in more detail by describing the injection operation of the contents in the aerosol container.
In FIG. 2, the left half shows a state when not in use (when not injecting), and the right half shows a state when in use (when injecting).
When not in use, the stem (22) is urged upward by the urging means (23) (see the left half of FIG. 2). Accordingly, the lower portion of the stem (22) and the upper portion of the housing (21) are in close contact with each other via the seal rubber (24), that is, the valve (2) is closed.
When injecting the contents, the valve (2) is opened by lowering the stem (22) against the upward biasing force of the biasing means (23) (the right half of FIG. 2). reference). Specifically, the stem (22) is pushed down by pressing the actuator (1) provided on the stem (22). When the stem (22) is pushed down, the seal rubber (24) is deflected downward and the stem orifice hole (221) is opened. Then, the interface of the liquid phase (C) filled in the container main body (A) is pushed downward by the gas phase (D), and the contents are sucked up from the dip tube (3). The contents sucked up from the dip tube (3) pass through the lower space (212), the upper space (211), the stem orifice hole (221), and the internal flow path (222) of the stem (22) in this order, It is injected from the nozzle hole (111) of 1).

FIG. 3: is (a) front view and (b) AA sectional drawing of an example of the actuator (1) of the aerosol spray hairdressing agent of this invention.
The actuator (1) is arranged on the top of the stem (22). The actuator (1) includes a nozzle (11) for injecting the contents to the outside and a stem joint portion (12) for joining the stem (22). The nozzle (11) includes a nozzle internal flow path (112) and a nozzle hole (111), and the contents that have passed through the internal flow path (222) of the stem (22) from below are the flow path (13), nozzle It passes through the internal flow path (112) in order and is ejected from the nozzle (111).
In the present invention, the actuator (1) does not necessarily have to be joined so as to always contact the stem (22). The actuator (1) is only required to be attached so that the stem (22) can be pushed down when pressed. For example, the actuator (1) is not in contact with the stem (22) when not pressed. You may be comprised so that a stem may be pushed down in contact with (22).

FIG. 4: is (a) front view and (b) BB sectional drawing of an example of the nozzle of the aerosol spray hairdressing agent of this invention.
In the present invention, the nozzle (11) has five or more nozzle holes (111). The number of the nozzle holes in the present invention is 5 or more, preferably 5 to 28, more preferably 5 to 20 from the viewpoint of suppressing the scattering of the contents and ejecting the contents uniformly over a wide range. . By setting the number of nozzles to 5 or more, the momentum of injection is dispersed, so that the contents can be prevented from being scattered. Moreover, since the content can be ejected uniformly over a wide range by setting the number of nozzles to 5 or more, the uniform adhesion of the stock solution to the hair to be ejected is improved. When the number of nozzles is 4 or less, the momentum of injection becomes strong and scattering tends to occur. When the scattered contents enter the body through the mouth, it can cause coughing due to “seed”. 4 shows the case where the nozzle hole (111) has six holes. For example, as shown in (b) and (c) of FIG. 8, there may be 12 holes or 28 holes. It may be a number.

The total opening area of the nozzle hole (111) can be defined by the ratio with the total opening area of the stem orifice hole (221). In the present invention, the ratio of the total opening area of five or more injection holes (111) to the total opening area of the stem orifice holes (221) (total opening area of the injection holes / total opening area of the stem orifice holes) is 1.0 to 80. Preferably, it is 1.5-45, More preferably, it is 1.8-30. When the ratio (the total opening area of the nozzle orifice / the total opening area of the stem orifice hole) is 1.0 or more, the droplets of the content to be ejected are sufficiently large, so that the scattering is reduced and is difficult to cover. At the same time, the adhesion rate of the stock solution to the hair to be sprayed is increased. An improvement in the adhesion rate of the stock solution also leads to an improvement in hair styling power. On the other hand, when the ratio is less than 1.0, the droplets of the content to be ejected are small, and it is difficult to obtain these effects. In addition, since the momentum of injection will become weak when the said ratio exceeds 80, the usability of spray falls. Moreover, when the opening area of the nozzle hole is increased and the ratio is increased to kill the momentum, the stock solution is attached only to the central portion of the jet, so that the uniform adhesion is lowered and the quick drying property is lowered.
One or a plurality of stem orifice holes (221) may be formed.

  In the present specification, “opening area” means the narrowest opening area. FIG. 9 is a view for explaining the “opening area” of the nozzle hole (111) having a step in the depth direction, (a) is a front view of the nozzle hole (111), and (b) is the nozzle hole. It is EE sectional drawing of (111). For example, in the nozzle hole (111) shown in FIG. 9, the portion with the smallest radius ((F) in FIG. 9B is the narrowest part of the nozzle hole, and the region indicated by the dot (G) in FIG. 9A) ) Is the “opening area.” The “total opening area of the nozzle” means the sum of the opening areas of all the nozzles. The total opening area of the stem orifice holes.

The total opening area of the nozzle hole (111) is not particularly limited, but is preferably 0.5 to 15 mm ² , more preferably from the viewpoint of ejecting the contents over a wide range while maintaining sufficient injection momentum. 0.7 to 10 mm ² . If it is less than 0.5 mm ² , the injection amount may decrease. When it exceeds 15 mm ² , the momentum of jetting becomes weak and it may be difficult to reach the hair.
The opening area of each nozzle hole (111) (that is, the opening area per nozzle hole) is not particularly limited, but from the viewpoint of uniformly ejecting large droplets from each nozzle hole over a wide area and suppressing scattering, respectively. 0.05 to 1.0 mm ² is preferable, and 0.10 to 0.6 mm ² is more preferable. If it is less than 0.05 mm ² , the droplets will be too small and the contents will be scattered, which may lead to a dead end. When exceeding 1.0 mm < ² >, the content may be ejected in large quantities from the nozzle, and injection from other holes may be hindered.

As shown in FIG. 4, the nozzle (11) can include a boss (113) that projects into the nozzle internal flow path (112) in the region inside the nozzle hole (111). The presence of the boss (113) is preferable because the contents can be easily guided to each nozzle.
However, as shown in FIG. 5 which is a side sectional view of the nozzle of the second embodiment of the aerosol spray hairdressing agent of the present invention, the boss (113) may be omitted.

FIG. 6: is the (a) front view of the nozzle of 3rd Embodiment of the aerosol spray hairdressing agent of this invention, (b) CC sectional drawing, (c) It is a perspective view.
The content that has passed through the stem (22) passes through the nozzle internal flow path (112), and then passes through the nozzle internal flow path (112) and the guide portion (116) communicating with each of the injection holes (111). (111)
The interval between the nozzle holes (111) can be determined as appropriate.

FIG. 7: is the (a) front view, (b) DD sectional drawing, (c) perspective view of the nozzle of 4th Embodiment of the aerosol spray hairdressing agent of this invention.
The nozzle (11) has a first convex portion (114) and a second convex portion (115), and the first convex portion (114) is formed higher than the second convex portion (115). . The vicinity of the center of the nozzle hole (111) is formed on the circumference of the first convex part (114) and the second convex part (115). As a result, a part of the contents that have passed through the nozzle internal flow path (112) and the guide portion (116) collide with the inner wall of the injection port (111) and are ejected radially outward, so that the contents are more widely spread. Can be injected.

Reference is again made to FIG.
The housing (21) in FIG. 2 includes a gas phase intake opening (VT) (213) on the side surface and a liquid phase intake opening (UT) (214) on the bottom surface. The gas phase (D) of the contents is introduced into the upper space (211) from the gas phase intake opening (VT) (213), and the liquid phase (C) of the contents from the liquid phase intake opening (UT) (214). Is introduced into the lower space (212). The introduced gas phase (D) and liquid phase (C) are introduced into the internal flow path (222) from the stem orifice hole (221) provided on the side surface of the stem (22) and sucked up to the actuator (1). It is done. In the present invention, the housing may not be provided with a gas phase intake opening (VT).
The ratio (VT / UT) of the total opening area of the gas phase intake opening (VT) (213) and the total opening area of the liquid phase intake opening (UT) (214) is 0.5 or less (that is, 0 to 0). .5), more preferably 0 to 0.3. By setting it as this range, the ratio between the gas phase and the liquid phase in the sprayed mist can be further optimized. If the ratio (VT / UT) exceeds 0.5, the gas ratio of the sprayed mist is too high, so the adhesion rate of the stock solution to the hair may be reduced, and the hair styling power may be reduced.

The total opening area of the liquid acquisition aperture (UT) (214) is not particularly limited, but is preferably 0.5 mm ² or more, more preferably 0.75~4.0mm ^2. By setting the total opening area of the liquid phase intake opening (UT) (214) within this range, a sufficient amount of the liquid phase can be ejected, and the hair styling power is further improved, which is preferable.

Aerosol Spray Hair Conditioner The aerosol spray hair conditioner of the present invention can be produced by a known method. As the method for producing the aerosol spray hairdressing agent, each component to be blended in the aerosol spray hairdressing composition is filled in the container body, the aerosol spray container is clinched by the aerosol valve, and then the propellant is filled from the stem. And a method of mounting an injection button suitable for the stem.

  The spray amount of the aerosol spray hairdressing agent of the present invention is not particularly limited, but is preferably 0.3 to 3.0 g / second, more preferably 0.5 to 2.0 g / second.

  The aerosol spray hair styling agent of the present invention is an aerosol product for hair styling that ejects a content containing silica as a hair styling component. The aerosol spray hair styling agent of the present invention is used by pressing an actuator with a nozzle hole directed at dry hair, semi-dry hair, or the like.

  Since the actuator of the aerosol spray hairdressing agent of the present invention has five or more nozzles, the contents can be uniformly ejected (spouted) over a wide range, and the uniform adhesion of the contents is improved. In addition, since the momentum of the injection does not become too strong and the scattering of the contents can be suppressed, the occurrence of coughing or the like due to the suction of the scattered contents can be prevented. Further, when the ratio of the total opening area of the five or more nozzle holes to the total opening area of the stem orifice holes (total opening area of the nozzle holes / total opening area of the stem orifice holes) is 1.0 to 80, the contents An object can be ejected as a relatively large droplet. For this reason, since the scattering of the contents can be more effectively suppressed, an excellent effect of further preventing the occurrence of coughing or the like due to the suction of the scattered contents can be exhibited.

  EXAMPLES Hereinafter, although this invention is demonstrated further in detail based on an Example, this invention is not limited only to these Examples. Unless otherwise specified, the blending amount represents “mass%”, and the blending component was converted to a pure component.

In the examples and comparative examples, the following components were used.
Silica Silica 1: Silicia 470 (manufactured by Fuji Silysia Chemical Ltd., average particle size 7 μm)
Silica 2: Silicia 780 (manufactured by Fuji Silysia Chemical Ltd., average particle size 14 μm)
Silica 3: Silicia 320 (Fuji Silysia Chemical Ltd., average particle size 3 μm)
Ester oil and hydrocarbon oil 2-ethylhexanoate cetyl: Saracos 816T (manufactured by Nisshin Oilio Group)
Isononyl isononanoate: Saracos 99 (Nisshin Oilio Group, Inc.)
Liquid paraffin: CARNATION (Sonneborn Inc)
Light isoparaffin: Marcazole R (Maruzen Petrochemical Co., Ltd.)
Other 1,3-butylene glycol: 1,3-butylene glycol (manufactured by Daicel Chemical Industries, Ltd.)
Diphenylsiloxyphenyl trimethicone: KF-56A (manufactured by Shin-Etsu Chemical Co., Ltd.)
Ethanol: 99 degree synthetic unmodified alcohol (manufactured by Nippon Alcohol Sales Co., Ltd.)
Propellant Liquefied petroleum gas: 99% by mass of butane, 1% by mass of propane (manufactured by Koike Chemical Co., Ltd., vapor pressure 0.15 MPa at 20 ° C.)

Examples 1-7 and Comparative Examples 1-8
The compounding ingredients shown in Table 1 below were blended to prepare aerosol spray hair conditioner compositions (stock solutions) for each test. The aerosol hair preparation for each test was prepared by filling the obtained stock solution and liquefied petroleum gas (propellant) in an aerosol container (transparent) at a mass ratio shown in Table 1 below. The obtained aerosol hair styling agent for each test was subjected to the following evaluation test. The results are also shown in Table 1. In addition, the number of nozzles, nozzle diameter, opening area per nozzle, total orifice area, number of stem orifices, stem orifice hole diameter, and stem orifice hole total opening area of the aerosol container spraying device used for each test aerosol hair preparation Is also written.

Evaluation test of non-floating powder Each aerosol hair preparation for test was sprayed for 3 seconds from a position 15 cm away on a wig (Lesson Mannequin: manufactured by Eucalyptus Japan), and then dried with a dryer for 3 minutes. After drying, the powder floating at the sprayed part was confirmed and evaluated based on the following criteria.
<Evaluation criteria>
○: No powder floating ×: Powder floating

The quick-drying evaluation test Wig (Lesson Mannequin: manufactured by Eucalyptus Japan) was sprayed with aerosol hair preparation for each test for 3 seconds from a position 15 cm away from the wig (Lesson Mannequin, manufactured by Eucalyptus Japan). The wetting feeling and quick-drying property of the spray location were evaluated based on the following criteria.
<Evaluation criteria>
○: No wetting or drying within 3 seconds ×: Over 3 seconds to dry

Hair styling power (feeling of use) evaluation test Each test aerosol hair styling agent was sprayed from a position 15 cm away onto a wig (Lesson Mannequin: manufactured by Eucalyptus Japan) for 3 seconds, and then hair styling was performed so as to be familiarized with the fingertips. Hair styling ability and feeling of use (stickiness, presence / absence of stickiness) were evaluated based on the following criteria.
<Evaluation criteria>
○: Sufficient hair styling power and good feeling (no stickiness or wrinkle)
×: Inadequate hair styling and poor usability (sticky, stiff)

Re-styling ability evaluation Each wig after the styling ability evaluation test was allowed to stand at room temperature for 6 hours, and hair styling (re-styling) was performed again. The re-styling power was evaluated based on the following criteria.
<Evaluation criteria>
○: Re-styling is possible △: Re-hair shaping is possible but hair styling power is low ×: Re-hair shaping is not possible

Adhesion rate: 380 mm long × 330 mm wide wiping cloth (Nippon Paper Crecia Co., Ltd., trade name “Kim Towel (Part No .: 61000)”) is attached to a plate upright with respect to the ground. A test aerosol hair conditioner was sprayed for 5 seconds. The amount of mass change before and after the injection of each test aerosol hairdressing agent was “injection amount (g)”, and the amount of mass change of the wiping cloth was “attachment amount (g)” to the wiping cloth. From the above “injection amount”, “adhesion amount”, and “stock solution ratio (mass%)” in the contents of each aerosol product, the adhesion rate (mass%) was calculated using the following calculation formula.
Adhesion rate (mass%) =
Adhesion amount (g) / (injection amount (g) × stock solution ratio (mass%) / 100) × 100

Spraying state The spraying state (moment, fog state) when each test aerosol hairdressing agent was sprayed was observed and evaluated based on the following criteria.
<Evaluation criteria>
◎: Excellent ejection state ○: Usable ejection state ×: Poor ejection state

  From the results of Table 1, the aerosol spray hair styling agent of the present invention is an aerosol spray hair styling agent having sufficient hair styling power and re-hair styling power after hair styling. It can be seen that the adhesion rate is excellent, there is little powder floating at the injection point, and the quick drying property is excellent.

  The prescription example of the aerosol spray hairdressing agent of this invention is shown below.

Formulation Example 1
(Stock solution)
Silica 20.0% by mass
Isopropyl myristate 35.0% by mass
Cetyl 2-ethylhexanoate 40.0% by mass
Fragrance 0.1% by mass
Pantothenyl alcohol 0.1% by mass
Ethanol 4.8% by mass
(Propellant)
LPG (propane 1% by mass / butane 99% by mass, vapor pressure at 20 ° C. 0.15 MPa)
100% by mass
Stock solution / propellant (mass ratio) = 10/90

Formulation Example 2
(Stock solution)
Silica 15.0% by mass
Tri-2-ethylhexaneglyceryl 20.0 mass%
Cetyl 2-ethylhexanoate 30.0% by mass
Light isoparaffin 34.65 mass%
PPG-9 glyceryl 0.3 mass%
Fragrance 0.05% by mass
(Propellant)
LPG (propane 1% by mass / butane 99% by mass, vapor pressure at 20 ° C. 0.15 MPa)
100% by mass
Stock solution / propellant (mass ratio) = 15/85

Formulation Example 3
(Stock solution)
Silica 10.0% by mass
Isononyl isononanoate 38.4% by mass
Liquid paraffin 50.0% by mass
PEG-8 glyceryl isostearate 1.5% by mass
Fragrance 0.1% by mass
(Propellant)
LPG (propane 1% by mass / butane 99% by mass, vapor pressure at 20 ° C. 0.15 MPa)
100% by mass
Stock solution / propellant (mass ratio) = 20/80

DESCRIPTION OF SYMBOLS 1 Actuator 11 Nozzle 111 Injection nozzle 112 Nozzle internal flow path 113 Boss 114 1st convex part 115 2nd convex part 116 Guide part 12 Stem junction part 2 Valve | bulb 21 Housing 211 Upper space 212 Lower space 213 Gas-phase intake opening (VT)
214 Liquid phase intake opening (UT)
22 Stem 221 Stem orifice hole 222 Internal flow path 23 Energizing means 24 Seal rubber 3 Dip tube 4 Mountain cup 41 Boss part 100 Aerosol product A Container body B Jetting device C Liquid phase D Gas phase

Claims (4)

A container body containing contents,
An aerosol spray hair styling agent comprising an actuator that is attached to the upper part of the container body and presses the contents from a nozzle by pressing.
The content is composed of 3 to 25 mass% aerosol spray hairdressing composition and 75 to 97 mass% propellant,
The aerosol spray hairdressing composition contains the following component X and the following component Y,
Component X: Silica having an average particle size of 5 to 18 μm Component Y: At least one oil selected from the group consisting of ester oils and hydrocarbon oils Content of Component X in the aerosol spray hairdressing composition is 8 to 25 Mass%,
The content of component Y in the aerosol spray hairdressing composition is 75 to 92% by mass,
An aerosol spray hairdressing agent wherein the actuator has 5 or more nozzles. The aerosol spray hairdressing agent according to claim 1, wherein the silica is hydrophilic silica. The aerosol spray hairdressing agent according to claim 1 or 2, wherein the component Y contains 15 to 70% by mass of light isoparaffin with respect to 100% by mass of the aerosol spray hairdressing composition. The aerosol spray hairdressing composition does not contain ethanol, or contains ethanol, and the content of ethanol in the aerosol spray hairdressing composition is 10% by mass or less. The aerosol spray hair styling agent described.

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