WO2023053825A1 - Hairdressing/beauty equipment - Google Patents

Abstract

A piece of hairdressing/beauty equipment (1) includes a beauty component bulk body (10) and a holding section (20). The hairdressing/beauty equipment (1) further includes an atomizer section (30) that generates fine particles of a beauty component by atomizing a part of the beauty component bulk body (10) through irradiation with adjustment light (42). The atomizer section (30) has: a light source section (31) that outputs a primary light; and an optical adjustment section that, by optical adjustment of the primary light, forms the adjustment light (42), which is irradiated on the surface of the beauty component bulk body (10) held by the holding section (20). The hairdressing/beauty equipment (1) further includes a particle transfer section (60) that transfers the fine particles of the beauty component generated by the atomizer section (30) to the outside. The hairdressing/beauty equipment (1) further includes a control section (80) that controls the adjustment light (42) projected to the irradiation site on the surface of the beauty component bulk body (10) so that the adjustment light has have an energy density of 50 kW/cm2 or more.

Description

hairdressing equipment

This disclosure relates to hairdressing equipment.

Cosmetic ingredients for skin, hair, scalp, or nails are applied directly to the skin, hair, scalp, or nails, for example, for the purpose of exhibiting cosmetic effects on the skin, hair, scalp, or nails, or maintaining/improving physiological functions. be done. The cosmetic ingredients are preferably finely divided into particles having a particle size of 1 μm or less so that they can be uniformly adhered to the surface of the skin, hair, scalp or nails. Microparticulation of cosmetic ingredients to a particle size of 1 μm or less is usually achieved by atomizing the cosmetic ingredients.

In Patent Document 1, a PLD method (pulsed laser deposition method) is used to irradiate a solid drug component with a laser beam in a reduced-pressure inert gas atmosphere to break the intermolecular bonds of the drug component, resulting in an average particle size of 100 nm or less. Disclosed is a method of manufacturing a drug that yields a drug nanoparticle of . According to Patent Document 1, drug nanoparticles can be efficiently produced by a simple process.

WO2004/110405

However, in the method for producing a drug described in Patent Document 1, the drug component is limited to a solid one, and the control of high-output laser light in units of ps (picoseconds) and the formation of a reduced-pressure inert gas atmosphere are difficult. There is a need for large and complex manufacturing equipment where possible.

On the other hand, cosmetic ingredients for the skin, hair, scalp, or nails include semi-solid ingredients such as gels, which have a certain degree of fluidity, in addition to solid ingredients. In addition, some beauty ingredients tend to deteriorate when exposed to high-power laser light. Furthermore, it is desired that the atomization of beauty ingredients for skin, hair, scalp or nails is carried out in compact hairdressing and beauty equipment such as dryers. For this reason, it is preferable that the atomization unit that atomizes the cosmetic ingredients has a small and simple device configuration.

As described above, it is difficult to atomize cosmetic ingredients using the drug manufacturing apparatus described in Patent Document 1, which requires a large and complicated manufacturing apparatus in hairdressing and beauty equipment. In addition, since the amount of atomization of beauty ingredients for the skin, hair, scalp or nails in the hairdressing and beauty equipment is relatively small, the large and complicated drug manufacturing apparatus described in Patent Document 1 was used. In such cases, it is likely to be difficult to precisely control the amount of atomized cosmetic ingredients.

The present disclosure provides a hairdressing and beauty device that incorporates an atomizing unit with a small and simple device configuration capable of precisely controlling the amount of atomized solid or semi-solid cosmetic ingredients.

A hairdressing and beauty device according to a first aspect of the present disclosure includes: a cosmetic ingredient bulk body that is a bulk body containing at least one cosmetic ingredient that is solid or semi-solid at room temperature; and a holding part that holds the cosmetic ingredient bulk body. , provided. Further, the hairdressing and beauty equipment has a light source unit that outputs primary light, and an optical adjustment unit that optically adjusts the primary light to form adjusted light that is irradiated onto the surface of the cosmetic ingredient bulk body held in the holding unit. and an atomizing section that atomizes a part of the cosmetic ingredient bulk body by irradiation with the adjusted light to generate microparticles of the cosmetic ingredient. In addition, the hairdressing and beauty equipment has an energy density of 50 kW/cm or more at the particle transfer section that transfers the microparticles of the cosmetic ingredient generated in the atomizing section to the outside, and the adjusted light at the irradiation site on the surface of the cosmetic ingredient bulk body. and a control unit that controls such that

The hairdressing and beauty device according to the first aspect of the present disclosure can incorporate an atomizing unit with a small and simple device configuration that can precisely control the amount of atomized solid or semi-solid cosmetic ingredients.

It is a sectional view showing a hair dryer which is one form of hairdressing and beauty equipment of this embodiment. It is a figure which shows the internal structure of the hairdressing equipment which concerns on 1st Embodiment. It is a figure which shows the modification of a holding|maintenance part. It is a figure which shows the internal structure of the hair-dressing apparatus which concerns on 2nd Embodiment. FIG. 3 is a diagram showing an example of a cosmetic ingredient bulk body after atomization. It is a figure which shows the internal structure of the hairdressing apparatus which concerns on 3rd Embodiment. It is a figure which shows the internal structure of the hair-dressing apparatus which concerns on 4th Embodiment. It is a figure which shows the internal structure of the hair-dressing apparatus which concerns on 5th Embodiment. FIG. 10 is a diagram showing atomization of a cosmetic ingredient bulk by non-thermal processing. FIG. 3 is a diagram showing atomization of a cosmetic ingredient bulk body in thermal processing. FIG. 10 is a diagram showing the state of energy supply in the case of non-thermal processing and very favorable atomization; FIG. 3 shows a cosmetic ingredient bulk body after non-thermal processing and highly preferred atomization. FIG. 10 is a diagram showing an energy supply state when relatively preferable atomization is performed by non-thermal processing. FIG. 2 is a diagram showing a cosmetic ingredient bulk body after relatively preferable atomization by non-thermal processing. FIG. 4 is a diagram showing an energy supply state when atomization is performed by thermal processing; FIG. 2 is a diagram showing a cosmetic ingredient bulk body after being atomized by thermal processing;

Hereinafter, embodiments will be described in detail with reference to the drawings. However, more detailed description than necessary may be omitted. For example, detailed descriptions of well-known matters or redundant descriptions of substantially the same configurations may be omitted.

It should be noted that the accompanying drawings and the following description are provided to allow those skilled in the art to fully understand the present disclosure, and are not intended to limit the subject matter of the claims.

FIG. 1 is a cross-sectional view showing a hair dryer, which is one form of the hairdressing and beauty device 1 of this embodiment. A hairdressing device (hair dryer) 1 shown in FIG. 1 includes an atomizing section 30 in addition to the configuration of a general hair dryer. Hairdressing equipment (hair dryer) 1 has a fan 130 that also functions as a blower unit 65, a motor 132 that drives the fan 130, and a heater 134, as functions of a general dryer. That is, the airflow is generated by the rotation of the fan 130, and the airflow is heated by the heater 134 to become warm air. Hot air is sent out from an air outlet 138 located below the partition wall 136 . Cold air is blown out when the heater 134 is in an off state. The motor 132 and the heater 134 are electrically connected to the control section 80, and the control section 80 controls energization to each member according to the operation of the switch 122. FIG. The control unit 80 also controls atomization in the atomization unit 30, which will be described later.

As shown in FIG. 1, a hairdressing device (hair dryer) 1 includes a cosmetic component bulk body 10, a holding section 20, a moving section 28, an atomizing section 30, a particle transfer section 60, and a control section 80. Prepare.

In the hairdressing device (hair dryer) 1, the fine particles 18 of the cosmetic ingredient generated by atomizing a part of the bulk cosmetic ingredient 10 in the atomizing section 30 are positioned above the partition wall 136 by blowing air from the fan 130. The air is discharged to the outside from the blower port 140 . The fan 130 also functions as an air blowing section 65 which will be described later, and the air blowing port 140 also functions as the particle transfer section 60 . For this reason, the hairdressing device (hair dryer) 1 further includes an air blower 65 .

(Beauty ingredient bulk)
The cosmetic ingredient bulk body 10 is a bulk body containing at least one cosmetic ingredient that is solid or quasi-solid at room temperature. Here, in the present embodiment, normal temperature means 25° C. as an example, but it may be, for example, a temperature similar to general room temperature (for example, any temperature within 5 to 35° C.). A solid means a substance having a viscosity of 200 Pa·s or more at 25°C. Furthermore, the semi-solid is a substance that does not have fluidity at 25 ° C. and exhibits a solid appearance unless a mechanical force is applied. Specifically, the viscosity at 25 ° C. is 1 to 200 Pa s. means the substance of

In addition, a bulk body means a lump having a fixed shape in appearance. In addition, ``having a constant shape in appearance'' means ``maintaining a constant shape in appearance'' and ``even if the appearance is temporarily deformed by an external force, it restores to its original shape, or is otherwise constant after deformation. "maintaining shape". The former "maintaining a constant appearance" is a property mainly exhibited by cosmetic ingredients that are solid at room temperature. The latter, "even if the appearance is temporarily deformed by an external force, it restores to its original shape or maintains another fixed shape after deformation" is a property mainly exhibited by cosmetic ingredients that are quasi-solid at room temperature.

The shape of the cosmetic ingredient bulk body 10 is not particularly limited, but for example, a plate shape, a long sheet shape, a cylindrical shape, a disk shape, or the like is used. Specific aspects of the cosmetic ingredient bulk body 10 will be described later.

When the shape of the cosmetic ingredient bulk body 10 is a long sheet, a columnar shape, or a disk shape, the cosmetic ingredient bulk body 10 can be continuously atomized for a long time by moving it using the moving part 28 . become.

<Beauty ingredients>
A cosmetic ingredient means an ingredient that has a cosmetic effect on the user's skin, hair, scalp or nails. Examples of beauty ingredients that are solid at room temperature include proteins such as collagen, elastin, and keratin; various peptides; amino acids such as lysine, phenylalanine, alanine, arginine, serine, cysteine, glycine, and proline; ceramides; , organic acids such as fumaric acid, lactic acid, malic acid, tartaric acid, citric acid; proteoglycans; various vitamins; mica, titanium oxide, zinc oxide, iron oxide, silicon, platinum, gold, silver, zinc and other metals; lysozyme chloride, Enzymes such as protease and papain; Nucleic acids such as DNA nucleic acid and ribonucleic acid; Antioxidant components such as astaxanthin, lutein and catechin; Hormones such as isoflavone, dutasteride, finasteride and Propecia (registered trademark); , glycosphingolipids, behenyl alcohol, stearyl alcohol, cholesterol, hydrogenated lecithin and other lipids; trehalose, dextran, dextrin, pullulan, cyclodextrin, maltitol and other carbohydrates; chondroitin sulfate, chitosan, chitin and other polysaccharides; urea; Glycyrrhizic acid; dipotassium glycyrrhizinate and the like are used.

Examples of cosmetic ingredients that are semi-solid at room temperature include petroleum jelly, wax, shea butter, coconut oil, esters, lipids such as 18MEA (18 methyl eicosane), and polysaccharides such as hyaluronic acid and chondroitin. be done.

<Beauty ingredient mixture>
The cosmetic component bulk body 10 may be made of a cosmetic component mixture in which a heating aid for heating the cosmetic component by irradiation with the adjustment light 42 described below is mixed with the cosmetic component. As the heating adjuvant, a substance having a higher absorbance than the cosmetic component is used. For example, when the cosmetic ingredient is a substance with low absorbance such as hyaluronic acid, even if the cosmetic ingredient bulk body 10 is irradiated with the adjustment light 42 in the atomization section 30, the cosmetic ingredient may not be easily atomized. When the cosmetic ingredient bulk body 10 is made of a cosmetic ingredient mixture obtained by mixing a heating adjuvant with a cosmetic ingredient, the temperature rise of the cosmetic ingredient bulk body 10 is accelerated, which facilitates atomization with low energy, which is preferable.

As the heating aid, for example, metals such as Pt, Fe, Zn, Cu, Ni, Co, Fe, Mn, Cr, V, Ti, Ce, etc., and metal oxides of the above metals are used. The shape of the heating aid is preferably particulate, sintered, or metal mesh. The size of the heating aid is, for example, an average particle size of 0.5 to 2000 μm. Here, the average particle diameter of the fine particles is the median diameter of 50% of the integrated value in the particle size distribution measured by the laser diffraction/scattering method.

When the cosmetic ingredient bulk body 10 is a cosmetic ingredient mixture, the blending amount of the heating aid in 100% by mass of the cosmetic ingredient bulk body 10 is, for example, 5 to 50% by mass, preferably 10 to 30% by mass.

(Holding part)
The holding part 20 is a member that holds the cosmetic ingredient bulk body 10 . Specifically, the holding part 20 is a member that holds the cosmetic ingredient bulk body 10 so that the atomization amount of the cosmetic ingredient bulk body 10 can be adjusted when part of the cosmetic ingredient bulk body 10 is atomized in the atomizing part 30 . . As the holding portion 20, for example, a plate-like, elongated sheet-like, rod-like, disk-like, cylindrical member, or the like is used.

The plate-like holding part 20 is used, for example, as a member for holding the plate-like cosmetic ingredient bulk body 10 .

When the cosmetic ingredient bulk body 10 is plate-shaped, the holding part 20 is provided in a plate-like shape for holding the plate-shaped cosmetic ingredient bulk body 10, for example.

When the cosmetic ingredient bulk body 10 is in the form of a long sheet, the holding part 20 is, for example, provided in the form of a long sheet that holds the cosmetic ingredient bulk body 10 in the form of a long sheet.

When the cosmetic ingredient bulk body 10 is columnar, disk-shaped, or plate-shaped, the holding part 20 is inserted into, for example, a part of the columnar, disk-shaped, or plate-shaped cosmetic ingredient bulk body 10 to hold it. It is provided like a bar.

When the cosmetic ingredient bulk body 10 is columnar, disk-shaped, or plate-shaped, the holding part 20 is provided in a disk-like shape for holding the columnar, disk-shaped, or plate-shaped cosmetic ingredient bulk body 10, for example.

When the cosmetic ingredient bulk body 10 is columnar, disk-shaped, or plate-shaped, the holding part 20 is, for example, cylindrical to accommodate and hold the columnar, disk-shaped, or plate-shaped cosmetic ingredient bulk body 10 . be provided.

The rod-shaped, disk-shaped, cylindrical, or other holding part 20 used when the cosmetic ingredient bulk body 10 is cylindrical, disk-shaped, or plate-shaped is preferably rotatably provided. The rod-shaped holding portion 20 is provided so as to be freely rotatable in the circumferential direction. The disk-shaped or cylindrical holding part 20 can be provided rotatably in the circumferential direction, for example, by erecting a rod-shaped member at the center of the bottom surface of the disk and the center of the bottom surface of the cylinder, respectively.

When using a rod-shaped, disk-shaped, or cylindrical holding portion 20, the hairdressing device (hair dryer) 1 may include a motor that rotates a rod-shaped member that makes the holding portion 20 rotatable in the circumferential direction. A motor that rotates the holding portion 20 in the circumferential direction serves as a moving portion 28 that moves the holding portion 20 . Specific aspects of the holding portion 20 will be described later.

The hairdressing device (hair dryer) 1 may have a black holding portion 20 . According to the hairdressing and beauty device 1 having such a configuration, even when the cosmetic ingredient bulk body 10 having a property of allowing light to pass through is used, the holding section 20 absorbs light and generates heat to mist the cosmetic ingredient bulk body 10 . easier to convert.

(moving part)
The moving part 28 is a unit that moves the holding part 20 . Specifically, the moving section 28 is a unit that moves the holding section 20 in order to move the irradiation site of the adjustment light 42 on the surface of the cosmetic ingredient bulk body 10 held by the holding section 20 .

The movement of the holding part 20 by the moving part 28 is performed so that the atomization amount of the cosmetic component bulk body 10 in the atomization part 30 becomes a predetermined amount. The movement of the holding part 20 by the moving part 28 is usually performed so that the irradiation site of the adjustment light 42 on the surface of the cosmetic ingredient bulk body 10 moves along the surface of the cosmetic ingredient bulk body 10 .

When the holding portion 20 is plate-shaped, the moving portion 28 is provided, for example, so as to move the plate-shaped holding portion 20 in the planar direction. As the moving part 28 that moves the plate-shaped holding part 20 in the planar direction, for example, a moving mechanism that moves the plate-shaped holding part 20 in the planar direction using a motor or the like is used.

When the holding portion 20 is in the form of a long sheet, the moving portion 28 is provided, for example, so as to perform at least one of unwinding and winding of the holding portion 20 in the form of a long sheet. As the moving part 28 that unwinds and winds up the holding part 20 in the form of a long sheet, for example, a motor that unwinds and winds up is used.

When the holding portion 20 is rod-shaped, the moving portion 28 is provided, for example, so as to rotate the rod-shaped holding portion 20 in the circumferential direction. As the moving part 28 that rotates the rod-shaped holding part 20 in the circumferential direction, for example, a motor connected to the end of the rod-shaped holding part 20 is used.

When the holding part 20 is disk-shaped or cylindrical, the moving part 28 is provided, for example, so as to rotate the disk-shaped or cylindrical holding part 20 in the circumferential direction. As the moving part 28 for rotating the disk-shaped or cylindrical holding part 20 in the circumferential direction, for example, it is connected to the end of a rod-shaped member erected at the center of the bottom surface of the disk-shaped or cylindrical holding part 20. A motor is used.

By using the moving part 28, the atomization amount of the cosmetic ingredient bulk body 10 can be precisely controlled, and the consumption of the cosmetic ingredient bulk body 10 can be reduced. Moreover, since the cosmetic component bulk body 10 is moved by using the moving part 28, it is easy to replenish the appropriate amount of the cosmetic component bulk body 10 according to the atomization amount. Furthermore, when the moving part 28 is used, the cosmetic ingredient bulk body 10 moves, so that the cosmetic ingredient bulk body 10 can be prevented from being denatured, oxidized, or the like due to heat or the like. In addition, the use of the moving part 28 enables continuous long-term atomization of the cosmetic ingredient bulk body 10 .

(Atomization part)
The atomization unit 30 is a unit that includes a light source unit 31 and an optical adjustment unit 32 and that atomizes a portion of the cosmetic ingredient bulk body 10 to generate fine particles 18 of cosmetic ingredients. Specifically, the atomization unit 30 is a unit that atomizes a portion of the cosmetic ingredient bulk body 10 by irradiation with the adjusting light 42 to generate the fine particles 18 of the cosmetic ingredient. In FIG. 1, the area surrounded by the dashed line indicating the atomization part 30 includes the cosmetic component bulk body 10, the holding part 20 and the light guide member 48 for convenience of illustration. It is not a configuration that the conversion unit 30 has. That is, the atomization section 30 has the light source section 31 and the optical adjustment section 32 as described above. This also applies to other drawings.

<Light source part>
The light source unit 31 is a unit that outputs primary light 41 . Here, the primary light 41 means light before being optically adjusted by the optical adjusting section 32 . As the primary light 41, one or more selected from diffused light, parallel light, and convergent light can be used. As the light source unit 31, for example, a semiconductor light source such as a laser diode LD or LED is used. A semiconductor light source is preferable because the light source unit 31 can be miniaturized.

The light source part 31 is preferably movable in the direction of arrow M shown in FIGS. When the light source unit 31 is movable so as to adjust the distance from the surface of the cosmetic ingredient bulk body 10, the energy density of the adjusted light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10 becomes 50 kW/cm2 or more. It is preferable because it is easy to control.

The movement of the light source unit 31 is preferably controlled by the control unit 80 based on positional relationship information, which is information on the distance between the light source unit 31 and the surface of the cosmetic ingredient bulk body 10 measured by the positional relationship sensor 36 . That is, based on the positional relationship information acquired by the positional relationship sensor 36, the control unit 80 can control the adjustment light 42 to have an energy density of 50 kW/cm2 or more at the irradiation site on the surface of the cosmetic ingredient bulk body 10. be possible.

It should be noted that the absorbance of a substance varies depending on the wavelength. Generally, the longer the wavelength of light, the higher the emissivity of ceramics, plastics, wood, etc., and the lower the emissivity of metals, the higher the wavelength of light. Therefore, it is preferable that the wavelength of the primary light 41 output by the light source unit 31 is appropriately set according to the materials such as the cosmetic ingredient and the heating aid contained in the cosmetic ingredient bulk body 10 .

<Optical adjustment part>
The optical adjustment unit 32 is a unit that optically adjusts the primary light 41 to form the adjusted light 42 that irradiates the surface of the cosmetic ingredient bulk body 10 held in the holding unit 20 . As the optical adjustment unit 32, for example, a condensing unit 32A that forms non-parallel light 42A, a collimated light adjustment unit that forms collimated light 42B, or the like is used. Here, non-parallel light is light other than parallel light, and is a concept including convergent light and diffused light.

The condensing section 32A is a unit that condenses the primary light 41 to form a non-parallel light 42A that irradiates the surface of the cosmetic ingredient bulk body 10 held in the holding section 20 . The non-parallel light formed by the condensing portion 32A is normally convergent light. For example, a condenser lens is used as the condenser 32A. When the optical adjustment section 32 is the condensing section 32A, the adjusted light 42 becomes non-parallel light 42A.

The collimated light adjusting section is a unit that collects the primary light 41 and forms collimated light 42B that irradiates the surface of the cosmetic ingredient bulk body 10 held in the holding section 20 . A lens, a mirror, or the like is used as the collimated light adjustment unit. When the optical adjustment section 32 is a collimated light adjustment section, the adjusted light 42 becomes the collimated light 42B.

In addition, in the hairdressing device (hair dryer) 1, a light guide member 48 such as an optical fiber is provided between the light source portion 31 and the surface of the cosmetic component bulk body 10, and light is guided through the light guide member 48. The adjusted light 42 is irradiated onto the surface of the cosmetic ingredient bulk body 10 .

<Fine particles of beauty ingredients>
When part of the cosmetic ingredient bulk body 10 is atomized in the atomization section 30, fine particles 18 of the cosmetic ingredient are generated. The fine particles 18 of cosmetic ingredients have an average particle diameter of usually 1 μm or less, preferably 300 nm or less. Here, the average particle diameter of the fine particles 18 is the median diameter of 50% of the integrated value in the particle size distribution measured by the laser diffraction/scattering method.

When the average particle size of the fine particles 18 of the cosmetic component is within the above range, it is possible to uniformly adhere to the surface of the skin, hair, scalp or nails, and it is possible to obtain a high effect with a small amount, which is preferable. Further, when the average particle size of the fine particles 18 is within the above range, it is preferable because it does not permeate the skin, hair, scalp or nails and stays on the surface to exhibit cosmetic effects. Cosmetic effects on the skin include an astringent effect, an effect of adjusting the intercellular lipids of the stratum corneum to increase water retention, an effect of increasing flexibility, promoting adhesion and detachment of stratum corneum cells, and discharging unnecessary stratum corneum. In addition, cosmetic effects on hair include improvement of waviness and luster, moisture retention, and effects of promoting permeation of active ingredients (other ingredients).

<Atomization>
The partial atomization of the cosmetic ingredient bulk body 10 in the atomization section 30 is achieved by irradiating the cosmetic ingredient bulk body 10 with the adjustment light 42 . Specifically, atomization of a part of the cosmetic ingredient bulk body 10 in the atomization section 30 is for non-thermal processing of the cosmetic ingredient bulk body 10 . Partial atomization of the cosmetic ingredient bulk body 10 by non-thermal processing will be described below.

FIG. 9 is a diagram showing atomization of the cosmetic ingredient bulk body 10 by non-thermal processing. FIG. 10 is a diagram showing atomization of the cosmetic ingredient bulk body 10 by thermal processing.

Part of the cosmetic ingredient bulk body 10 is atomized in the atomizing section 30 by non-thermal processing. Specifically, first, as shown in the left end view of FIG. 9, non-parallel light 42A as adjustment light 42 is irradiated to a part of the flat surface 12 of the cosmetic ingredient bulk body 10A (10). Then, as shown in the middle diagram of FIG. 9, the photons of the adjustment light 42 cut van der Waals bonds, ionic bonds, or metal bonds between the molecules of the cosmetic ingredient bulk body 10A, resulting in a portion of the cosmetic ingredient bulk body 10A. Fine particles 18 of the cosmetic ingredient are formed from this. When the intermolecular van der Waals bond, ionic bond, or metal bond of the cosmetic ingredient bulk body 10A is cut, as shown in the right end view of FIG. A hole P1 is formed. The reason why the edge of the hole P1 is sharp is that photons cut bonds between molecules, ions, and metals.

On the other hand, when the atomization of a portion of the cosmetic ingredient bulk body 10 in the atomization section 30 is by thermal processing, holes with sharp edges as shown in the right end view of FIG. 9 are not formed. Atomization by thermal processing will be described with reference to FIG. In the atomization using thermal processing, first, as shown in the left end view of FIG. 10, non-parallel light 42A as adjustment light 42 is irradiated to a part of the flat surface 12 of the cosmetic ingredient bulk body 10A (10). be. Then, as shown in the middle left diagram of FIG. 10, the heat He from the adjustment light 42 heats and melts a part of the cosmetic ingredient bulk body 10A.

When a portion of the cosmetic ingredient bulk 10A is heated and melted, the temperature of the cosmetic ingredient bulk 10A exceeds the boiling point as shown in the right middle diagram of FIG. At that time, fine particles 18 of cosmetic ingredients are formed. When the cosmetic ingredient bulk body 10A is explosively removed Ex, as shown in the right end view of FIG. 10, a hole P2 with rounded ends is formed in a part of the cosmetic ingredient bulk body 10A. The reason why the end of the hole P2 is rounded is that the heated and melted portion is explosively removed Ex.

In order to atomize a part of the cosmetic ingredient bulk body 10 in the atomization section 30 by non-thermal processing, the energy density of the adjustment light 42 at the irradiation site of the surface of the cosmetic ingredient bulk body 10 is 50 kW/cm 2 or more. make it On the other hand, if the energy density of the adjustment light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10 is set to be less than 50 kW/cm 2 , it is not preferable because it is likely to be atomized by heat processing.

In addition, in order to atomize a part of the cosmetic ingredient bulk body 10 in the atomization section 30 by non-thermal processing, the adjustment light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10 may be a pulse wave. preferable. Further, when the adjustment light 42 is a pulse wave, the repetition frequency of the pulse wave is preferably over 50 KHz, more preferably over 50 KHz and 250 KHz or less.

FIG. 11A is a diagram showing the state of energy supply when highly desirable atomization is performed by non-thermal processing. FIG. 11B is a diagram showing the cosmetic ingredient bulk body 10A after non-thermal processing and highly desirable atomization. FIG. 12A is a diagram showing an energy supply state when relatively preferable atomization is performed by non-thermal processing. FIG. 12B is a diagram showing the cosmetic ingredient bulk body 10A after non-thermal processing and relatively preferable atomization. FIG. 13A is a diagram showing an energy supply state when atomization is performed by thermal processing. FIG. 13B is a diagram showing the cosmetic ingredient bulk body 10A after being atomized by thermal processing. Note that "LI" in FIGS. 11B, 12B, and 13B indicates the light-irradiated portion.

When the repetition frequency of the pulse wave of the adjustment light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10A is set to more than 50 kHz and 250 kHz or less as shown in FIG. get better. Specifically, when the repetition frequency of the pulse wave is more than 50 KHz and 250 KHz or less, the energy concentration time at the irradiated portion of the surface of the cosmetic ingredient bulk body 10A is relatively short, so that the thermal processing is difficult. For this reason, in this case, as shown in FIG. Atomization of the component bulk body 10A is efficient and satisfactory.

On the other hand, if the repetition frequency of the pulse wave of the adjustment light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10A is set to 50 KHz or less as shown in FIG. Specifically, when the repetition frequency of the pulse wave is set to 50 KHz or less, the energy concentration time of the irradiated portion of the surface of the cosmetic ingredient bulk body 10A is relatively long, which may result in thermal processing. For this reason, in this case, as shown in FIG. 12B, atomization is performed so as to form holes P1B (P1) that are formed independently although they have sharp ends so as not to cause thermal processing. , and the atomization of the cosmetic ingredient bulk body 10A is likely to be wasteful.

If the energy supply of the adjustment light 42 to the irradiated portion of the surface of the cosmetic ingredient bulk body 10A is not pulsed, heat processing is likely to occur as shown in FIG. likely to occur. Specifically, when energy is not supplied in the form of a pulse wave, there is a risk of thermal processing due to the extremely long energy concentration time at the irradiation site on the surface of the cosmetic ingredient bulk body 10A. Therefore, in this case, as shown in FIG. 13B, the mist is likely to form a hole P2 having a heat-affected zone HA on the inner wall and a rounded end. Waste is likely to occur in conversion.

The hairdressing device (hair dryer) 1 shown in FIG. It is designed to be atomized by processing. The control unit 80 will be detailed later.

(Atomization amount sensor)
The hairdressing device (hair dryer) 1 may include an atomization amount sensor (not shown) that acquires atomization amount information, which is information about the atomization amount of the cosmetic ingredient bulk body 10 in the atomization section 30 .

As the atomization amount information, for example, "the amount of the cosmetic component fine particles 18 generated by the atomization unit 30" is used. The "amount of cosmetic component fine particles 18 generated by the atomization unit 30" as the atomization amount information is, for example, an "atomization amount measurement value" measured by an atomization amount sensor.

The atomization amount sensor may be formed as a member forming the atomization section 30 or may be formed as a member separate from the atomization section 30 . It is preferable that the atomization amount sensor is a member constituting the atomization unit 30, because a more flexible device configuration is possible for precise control of the atomization amount.

When the hairdressing device 1 is provided with an atomization amount sensor, the control unit 80, for example, based on the atomization amount information, such as the atomization amount measurement value detected by the atomization amount sensor, can generate a value that is generated by the atomization unit 30 from now on. The atomization amount of the fine particles 18 of the cosmetic ingredient to be applied is controlled. Such a configuration is preferable because it enables precise control of the atomization amount.

(beauty ingredient detector)
The hairdressing device (hair dryer) 1 may include a cosmetic component detection unit (not shown) for detecting cosmetic component information, which is information on the cosmetic components forming the cosmetic component bulk body 10 .

When the hairdressing/cosmetic equipment 1 is provided with a cosmetic component detection unit, the control unit 80, for example, based on the cosmetic component information detected by the cosmetic component detection unit, selects a wavelength and energy suitable for the cosmetic component forming the cosmetic component bulk body 10. The light irradiation of the adjustment light 42 is controlled. Such a configuration is preferable because it enables more precise control of the atomization amount.

(control part)
The control unit 80 is a unit that controls the energy density of the adjusted light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10 to be 50 kW/cm 2 or more. In addition, in the hairdressing equipment (hair dryer) 1 shown in FIG. The energy density is controlled so as to be higher than that. The control unit 80 has a processor and memory, and the processor functions as the control unit 80 by executing a program stored in the memory. Although the program executed by the processor is pre-recorded in the memory here, it may be recorded in a non-temporary recording medium such as a memory card and provided, or may be provided through an electric communication line such as the Internet. may

The control unit 80 controls movement of the light source unit 31 so as to adjust the distance between the light source unit 31 and the surface of the cosmetic component bulk body 10 . The movement of the light source unit 31 is controlled by the control unit 80 so that the energy density of the adjusted light 42 at the irradiation site is 50 kW/cm 2 or more.

If the control unit 80 controls the output of the primary light 41 by pulse control, the atomization of the cosmetic ingredient bulk body 10 can be easily carried out by non-thermal processing, so that the thermal denaturation of the fine particles 18 of the cosmetic ingredient can be suppressed. preferred because it can be done.

Based on the positional relationship information acquired by the positional relationship sensor 36, which will be described later, the control unit 80 controls the adjustment light 42 to have an energy density of 50 kW/cm2 or more at the irradiation site on the surface of the cosmetic ingredient bulk body 10. may

The control unit 80 may adjust the output of the light source unit 31 so that the energy density of the adjusted light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10 is 50 kW/cm2 or more.

The control section 80 may further control the rotation of the holding section 20 so that the irradiation site of the adjustment light 42 on the flat surface 12 of the cosmetic ingredient bulk body 10 is changed.

The control unit 80 may further control the rotation of the holding unit 20 so that the irradiation site of the adjustment light 42 on the curved surface 13 of the cosmetic ingredient bulk body 10 is changed.

The control section 80 may control the rotation of the holding section 20 based on the cosmetic component information.

The control unit 80 may pulse-control the output of the primary light 41 .

The control unit 80 may control the atomization amount based on the atomization amount information acquired by the atomization amount sensor.

The control unit 80 may control the blower unit 65 so that the cosmetic component fine particles 18 are not supplied to the light source unit 31 and the optical adjustment unit 32 . By using such a control unit 80, contamination of the light source unit 31 and the optical adjustment unit 32 by the microparticles 18 of cosmetic ingredients can be suppressed.

When the hairdressing device (hair dryer) 1 includes an atomization amount sensor, the control unit 80 may control the atomization amount based on the atomization amount information acquired by the atomization amount sensor. Specifically, based on the atomization amount information acquired by the atomization amount sensor, the control unit 80 controls the output of the light source unit 31, the distance between the light source unit 31 and the cosmetic ingredient bulk body 10, the movement state of the holding unit 20, and the wind speed of the air blower 65 may be controlled to control the atomization amount. When such a control unit 80 is used, the amount of atomization is controlled by feedback-controlling the driving unit of the light source unit 31, the driving unit of the blower unit 65, the driving unit of the moving unit 28, etc. based on the measurement of the amount of atomization. can be controlled precisely.

When the adjusted light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10 controlled by the control unit 80 is the collimated light 42B, output control is easy, and the cosmetic ingredient bulk body 10 with large unevenness can be misted with a simple device configuration. It is preferable because it is easy to convert.

The control of the adjustment light 42 at the irradiation site by the control unit 80 includes, for example, focusing of the adjustment light 42, irradiation time of the adjustment light 42, irradiation depth of the adjustment light 42, light output of the adjustment light 42, and irradiation of the adjustment light 42. At least one or more selected from intermittent control, the spot diameter of the adjusted light 42, the relative movement speed between the cosmetic component and the light source unit 31, and the blowing speed are controlled. When the control unit 80 controls the adjusted light 42 in this manner, it is possible to flexibly and appropriately irradiate the adjusted light 42 even when using the cosmetic ingredient bulk body 10 containing cosmetic ingredients having different absorbances, which is preferable. .

When the hairdressing/beauty equipment 1 is provided with an atomization amount sensor, the control unit 80 controls the amount of atomization information, such as the measured value of the atomization amount detected by the atomization amount sensor, to determine the "beauty treatment to be generated by the atomization unit 30 from now on." It is also possible to control the atomization amount of the component fine particles 18 . Such a configuration is preferable because it enables precise control of the atomization amount.

When the hairdressing device 1 is provided with a cosmetic component detection unit, the control unit 80 adjusts the wavelength and energy of the adjusted light suitable for the cosmetic component forming the cosmetic component bulk body 10 based on the cosmetic component information detected by the cosmetic component detection unit. 42 may be controlled to irradiate light. Such a configuration is preferable because it enables more precise control of the atomization amount.

The control unit 80 can perform various controls other than the above controls. Various controls will be described later.

(Particle transfer section)
The particle transfer section 60 is a member that transfers the cosmetic component fine particles 18 generated in the atomization section 30 to the outside. In the hairdressing device (hair dryer) 1 shown in FIG.

(Blower)
The air blowing unit 65 is a member that delivers the cosmetic component fine particles 18 generated by the atomizing unit 30 to the outside. In the hairdressing and beauty device (hair dryer) 1 shown in FIG.

By using the air blower 65, it is possible to increase the adhesion amount of the cosmetic component fine particles 18 to the skin, hair, scalp or nails by blowing the cosmetic component fine particles 18 farther. In addition, by using the air blower 65, it is possible to suppress adhesion of the fine particles 18 of the cosmetic component to the peripheral device such as the housing.

(Beauty ingredient information input section)
The hairdressing device (hair dryer) 1 may further include a cosmetic component information input unit (not shown in FIG. 1) for inputting cosmetic component information, which is information on cosmetic components.

The beauty ingredient information input unit is a unit that inputs beauty ingredient information. Here, the beauty ingredient information is information such as absorbance and melting point of beauty ingredients. In the atomizing section 30, a part of the cosmetic component bulk body 10 is atomized by irradiation with the adjustment light 42, so information on the cosmetic component such as the absorbance and melting point of the cosmetic component is useful for efficient atomization. .

When the cosmetic component information input unit is provided, the control unit 80 controls the energy density of the adjusted light 42 at the irradiation site on the surface of the cosmetic component bulk body 10 to be 50 kW/cm or more based on the positional relationship information and the cosmetic component information. Control is preferred. According to such a control unit 80, efficient atomization is possible.

(Positional relationship sensor)
The hairdressing device (hair dryer) 1 may include a positional relationship sensor 36 . For example, when the optical adjustment unit 32 is a collimated light adjustment unit that forms the collimated light 42B, the hairdressing device (hair dryer) 1 may not include the positional relationship sensor 36 .

The positional relationship sensor 36 is a unit that measures the positional relationship between the light source section 31 and the surface of the cosmetic ingredient bulk body 10 . A known sensor is used as the positional relationship sensor 36 . The positional relationship sensor 36 measures the positional relationship between the light source unit 31 and the surface of the cosmetic component bulk body 10 and acquires positional relationship information. Here, the positional relationship information is information used for adjusting the energy of the irradiation site of the adjustment light 42 on the surface of the cosmetic ingredient bulk body 10 . The positional relationship information is, for example, information used for forming the focal point of the adjustment light 42 on the surface of the cosmetic ingredient bulk body 10 .

The positional relationship information includes the distance between the light source unit 31 and the surface of the cosmetic component bulk body 10, displacement other than the distance of the surface of the cosmetic component bulk body 10 with respect to the light source unit 31, and the like. The positional relationship sensor 36 having positional relationship information other than the distance of the surface of the cosmetic component bulk body 10 with respect to the light source unit 31 may be hereinafter referred to as a positional relationship sensor 36B.

The positional relationship information obtained by the positional relationship sensor 36 is transmitted to the control unit 80 . The control unit 80 controls the movement of the light source unit 31 based on the positional relationship information so as to adjust the distance between the light source unit 31 and the surface of the cosmetic ingredient bulk body 10 .

(light guide member)
The hairdressing device (hair dryer) 1 may include a light guide member 48 that guides the adjusted light 42 to the surface of the cosmetic ingredient bulk body 10B. By using such a light guide member 48, it is possible to efficiently irradiate the surface of the cosmetic ingredient bulk body 10B with the adjusted light 42. As shown in FIG.

One end of the light guide member 48 is preferably connected to the light source section 31 . When such a light guide member 48 is used, since there is no light leakage from the light source section 31, the primary light 41 is efficiently guided to the optical adjustment section 32. can be efficiently irradiated.

The hairdressing device (hair dryer) 1 may include a light guide member 48 that guides the adjusted light 42 to the holding portion 20 . According to the hairdressing and beauty device 1 having such a configuration, even when the cosmetic ingredient bulk body 10 having a property of allowing light to pass through is used, the holding section 20 absorbs light and generates heat to mist the cosmetic ingredient bulk body 10 . easier to convert. In this case, if the holding portion 20 is black, the holding portion 20 absorbs light and easily generates heat.

(Action)
When the switch 122 in FIG. 1 is turned on, the hairdressing and beauty device (hair dryer) 1 atomizes a part of the cosmetic component bulk body 10 by irradiating the adjustment light 42 in the atomizing section 30 to form microparticles 18 of the cosmetic component. to generate The generated microparticles 18 of the cosmetic component are blown by the fan 130 as the air blower 65 and are discharged to the outside from the air blower 140 as the particle transfer unit 60 positioned above the partition wall 136 . Therefore, when used as a hair dryer, the microparticles 18 of the cosmetic component are released together with hot or cold air, and the microparticles 18 of the cosmetic component can be applied to the hair.

In the hairdressing device (hair dryer) 1, it is preferable that the spatial concentration of the microparticles 18 of the cosmetic component transferred from the particle transfer section 60 is several tens of mg/m3 or less. By setting the spatial concentration of the cosmetic component microparticles 18 to several tens of mg/m<3> or less, even if the cosmetic component microparticles 18 emit an odor, it is possible to reduce the odor to an unnoticeable level.

A more detailed embodiment of the hairdressing device (hair dryer) 1 of the present embodiment will be described below with reference to the drawings.

[First Embodiment]
FIG. 2 is a diagram showing the internal configuration of the hairdressing and beauty device 1A according to the first embodiment. A hairdressing device (hair dryer) 1A according to the first embodiment includes a cosmetic ingredient bulk body 10A (10), a holding section 20A (20), a moving section 28A (28), and an atomizing section 30A (30). , a control unit 80 , a positional relationship sensor 36 , and a blower unit 65 . The atomization section 30A also includes a light source section 31 and an optical adjustment section 32 .

In the hairdressing and beauty device 1A, the cosmetic ingredient bulk body 10A and the holding portion 20A are each plate-shaped. In the hairdressing and beauty machine 1A, the moving part 28A can move the holding part 20A in the direction of the arrow 27, which is the planar direction. As a modified example of the hairdressing device (hair dryer) 1A according to the first embodiment, a long sheet-like cosmetic ingredient bulk body shown in FIG. It is also possible to use a body 10F and a retainer 20F.

In the hairdressing device 1A, the optical adjustment section 32 is a light condensing section 32A that forms non-parallel light 42A as the adjustment light 42. The positional relationship sensor 36 is provided on the side surface of the light source unit 31 in the hairdressing and beauty device 1A. The positional relationship sensor 36 measures the distance between the light source unit 31 and the surface of the cosmetic ingredient bulk body 10A and uses the positional relationship information.

In the atomization section 30A of the hairdressing device 1A, the parallel light 41A as the primary light 41 output from the light source section 31 is collected by the light collection section 32A as the optical adjustment section 32 to form the non-parallel light 42A. , the irradiation site on the surface of the cosmetic ingredient bulk body 10A is irradiated. On the surface of the cosmetic ingredient bulk body 10A, part of the cosmetic ingredient bulk body 10A is atomized at the irradiation site by the irradiation of the non-parallel light 42A to generate fine particles 18 of the cosmetic ingredient.

Specifically, in the atomization section 30A, the adjustment light 42 is irradiated onto the flat surface 12 of the cosmetic ingredient bulk body 10A.

In the hairdressing device 1A, based on the positional relationship information acquired by the positional relationship sensor 36, the control unit 80 controls the energy density of the adjustment light 42 at the irradiation site to be 50 kW/cm2 or more. In the hairdressing and beauty device 1A, the microparticles 18 of the cosmetic component generated by atomization are sent out of the hairdressing and beauty device 1A using the air blowing section 65 .

In the hairdressing and beauty device 1A, the control unit 80 controls the focusing of the irradiation site, controls the output intensity and output interval of the light source unit 31, controls the relative movement speed of the cosmetic ingredient bulk body 10A with respect to the irradiation site, and controls the air blower 65. It is preferable to control the blowing speed and the like.

(effect)
In the hairdressing and beauty machine 1A, the controller 80 controls the energy density of the adjusted light 42 at the irradiation site to be 50 kW/cm 2 or more. Therefore, according to the hairdressing and beauty device 1A, it is possible to generate an appropriate amount of microparticles 18 of cosmetic ingredients at a desired timing and supply them to the skin, hair, scalp, or nails. In this way, the hairdressing device (hair dryer) 1A can incorporate the atomization section 30A having a small and simple device configuration capable of precisely controlling the atomization amount of solid or semi-solid cosmetic ingredients.

In addition, according to the hairdressing and beauty device 1A, an appropriate amount of fine particles 18 of the cosmetic ingredient are generated at a desired timing, so the replenishment frequency of the bulk body 10 of the cosmetic ingredient can be reduced.

Furthermore, according to the hairdressing and beauty device 1A, part of the cosmetic ingredient bulk body 10 is atomized by non-thermal processing to generate the cosmetic ingredient fine particles 18, so that the cosmetic ingredient bulk body 10 and the cosmetic ingredient fine particles 18 are not deteriorated. few.

Further, according to the hairdressing device 1A, since the positional relationship sensor 36 is provided in the light source unit 31, based on the positional relationship information, the control unit 80 controls the energy density of the adjusted light 42 at the irradiation site to be 50 kW/cm2 or more. It is possible to control

[Second embodiment]
FIG. 4 is a diagram showing the internal configuration of a hairdressing and beauty device 1B according to the second embodiment. A hairdressing device (hair dryer) 1B according to the second embodiment includes a cosmetic ingredient bulk body 10B (10), a holding section 20B (20), a moving section 28B (28), and an atomizing section 30B (30). , a control unit 80 , a positional relationship sensor 36 , and a blower unit 65 . Further, the atomization section 30B includes a light source section 31 and an optical adjustment section 32 .

In the hairdressing and beauty device 1B, the cosmetic ingredient bulk body 10B is cylindrical, and the holding part 20B is rod-shaped and is inserted into a part of the bottom surface of the cosmetic ingredient bulk body 10B to hold it. In the hairdressing and beauty machine 1B, the moving part 28B can rotate the rod-shaped holding part 20B in the direction of the arrow R, which is the circumferential direction.

In the hairdressing and beauty device 1B, the optical adjusting section 32 is a condensing section 32A that forms non-parallel light 42A as the adjusted light 42. In the hairdressing device 1A, the positional relationship sensor 36 is provided at the center of the bottom surface of the light source section 31 on the optical adjustment section 32 side. The positional relationship sensor 36 measures the distance between the light source section 31 and the flat plate-like surface 12 of the cosmetic ingredient bulk body 10B to obtain positional relationship information.

In the atomization section 30B of the hairdressing device 1B, the parallel light 41A as the primary light 41 output from the light source section 31 is collected by the light collection section 32A as the optical adjustment section 32 to form the non-parallel light 42A. , the irradiation site on the surface of the cosmetic ingredient bulk body 10B is irradiated. On the surface of the cosmetic ingredient bulk body 10B, part of the cosmetic ingredient bulk body 10B is atomized at the irradiation site by the irradiation of the non-parallel light 42A to generate fine particles 18 of the cosmetic ingredient.

Specifically, in the atomization section 30B, the adjustment light 42 is irradiated onto the flat surface 12 of the cosmetic ingredient bulk body 10B. FIG. 5 is a diagram showing an example of the cosmetic ingredient bulk body 10B after atomization. As shown in FIG. 5, when the central portion of the flat surface 12 of the cosmetic ingredient bulk body 10B is irradiated with the adjustment light 42, the fine particles 18 of the cosmetic ingredient are emitted from the irradiation area H of the adjustment light 42. A concave hole is formed in the

In addition, in the atomization section 30B, the control section 80 further controls the rotation of the holding section 20B so that the irradiated portion H of the adjustment light 42 on the flat surface 12 is changed. In the state shown in FIG. 5, when the holding portion 20B is moved in the radial direction so that the irradiated portion H of the adjustment light 42 is different from the position in the radial direction of the shaft of the rod-shaped holding portion 20B, the irradiated portion H is It can be moved from the state shown in FIG. After moving the irradiation site H in the radial direction of the holding part 20B from the state shown in FIG. Variation in the amount of atomization on the shaped surface 12 can be reduced.

In the hairdressing device 1B, based on the positional relationship information acquired by the positional relationship sensor 36, the control unit 80 controls the energy density of the adjustment light 42 at the irradiation site to be 50 kW/cm2 or more. In the hairdressing and beauty device 1B, the microparticles 18 of the cosmetic component generated by atomization are sent out of the hairdressing and beauty device 1B using the air blowing section 65 .

In the hairdressing and beauty device 1B, the control unit 80 controls the focusing of the irradiation site, controls the output intensity and output interval of the light source unit 31, controls the relative movement speed of the cosmetic ingredient bulk body 10A with respect to the irradiation site, and irradiates the irradiation site. It is preferable to control the time, control the blowing speed of the blowing unit 65, and the like.

(effect)
The hairdressing device 1B has the same effect as the hairdressing device 1A.

In addition, according to the hairdressing and beauty device 1B, since the columnar cosmetic ingredient bulk body 10B is used, atomization can be performed continuously for a long time without waste.

[Third Embodiment]
FIG. 6 is a diagram showing the internal configuration of hairdressing and beauty equipment 1C according to the third embodiment. A hairdressing device (hair dryer) 1C according to the third embodiment includes a cosmetic ingredient bulk body 10A (10), a holding section 20C (20), a moving section 28A (28), and an atomizing section 30C (30). , a control unit 80 , a positional relationship sensor 36 , and a blower unit 65 . Further, the atomization section 30B includes a light source section 31 and an optical adjustment section 32 .

The hairdressing device 1C uses a positional relationship sensor 36B instead of the positional relationship sensor 36 of the hairdressing device 1A according to the first embodiment. The positional relationship sensor 36B measures the displacement of the surface of the cosmetic component bulk body 10B with respect to the light source 31 in the direction of the arrow 27 and uses the positional relationship information.

In the hairdressing device 1C, as in the hairdressing device 1A according to the first embodiment, on the surface of the cosmetic ingredient bulk body 10A, part of the cosmetic ingredient bulk body 10A is fogged at the irradiation site by the irradiation of the non-parallel light 42A. The microparticles 18 of cosmetic ingredients are generated.

In the hairdressing device 1C, based on the positional relationship information acquired by the positional relationship sensor 36B, the control unit 80 controls the energy density of the adjustment light 42 at the irradiation site to be 50 kW/cm2 or more. In the hairdressing and beauty equipment 1C, the microparticles 18 of the cosmetic component generated by atomization are sent out of the hairdressing and beauty equipment 1C using the air blowing section 65 .

In the hairdressing and beauty device 1C, the control unit 80 controls the focusing of the irradiation site, controls the output intensity and output interval of the light source unit 31, controls the relative movement speed of the cosmetic ingredient bulk body 10A with respect to the irradiation site, and controls the air blower 65. It is preferable to control the blowing speed and the like.

(effect)
1 C of hairdressing apparatuses have the same effect as 1A of hairdressing apparatuses.

[Fourth embodiment]
FIG. 7 is a diagram showing the internal configuration of a hairdressing and beauty device 1D according to the fourth embodiment. A hairdressing device (hair dryer) 1D according to the fourth embodiment includes a cosmetic ingredient bulk body 10C (10), a holding section 20B (20), a moving section 28B (28), and an atomizing section 30D (30). and a blower unit 65 . The atomization section 30D also includes a light source section 31 and an optical adjustment section 32 (not shown). Furthermore, the hairdressing device (hair dryer) 1D includes a control unit 80 (not shown).

In the hairdressing and beauty device 1D, the cosmetic ingredient bulk body 10C is disc-shaped, and the holding part 20B is rod-shaped to be inserted into and held in part of the bottom surface of the cosmetic ingredient bulk body 10C. In the hairdressing and beauty machine 1D, the moving part 28B can rotate the rod-shaped holding part 20B in the direction of the arrow R, which is the circumferential direction.

In the hairdressing and beauty device 1D, the optical adjustment unit 32 (not shown) collects the primary light 41 output from the light source unit 31 and produces collimated light 42B that irradiates the surface of the cosmetic ingredient bulk body 10C held in the holding unit 20B. It is a collimated light adjustment section to be formed.

Specifically, in the atomization unit 30D of the hairdressing device 1D, the primary light 41 output from the light source unit 31 (not shown) is condensed by the collimated light adjustment unit (not shown) as the optical adjustment unit 32, and the adjusted light 42 is obtained. to form collimated light 42B as . Then, in the atomizing section 30D, the collimated light 42B is applied to the irradiation site on the surface of the cosmetic ingredient bulk body 10C. On the surface of the cosmetic ingredient bulk body 10C, part of the cosmetic ingredient bulk body 10C is atomized at the irradiation site by the irradiation of the collimated light 42B, and the fine particles 18 of the cosmetic ingredient are generated.

More specifically, in the atomization section 30D, the collimated light 42B as the adjustment light 42 is irradiated onto the flat surface 12 of the cosmetic ingredient bulk body 10C.

In addition, in the atomization section 30D, the control section 80 (not shown) further controls the rotation of the holding section 20B so that the irradiated portion of the collimated light 42B as the adjustment light 42 on the flat surface 12 is changed. there is

In the state shown in FIG. 7, the irradiation site of the collimated light 42B is located at a position different from the position in the radial direction of the axis of the rod-shaped holding portion 20B, and when the holding portion 20B is rotated in the direction of arrow R, the irradiation region moves. It's like When the moving part 28B rotates the holding part 20B in the direction of the arrow R, which is the circumferential direction, the variation in the atomization amount on the flat surface 12 of the cosmetic ingredient bulk body 10C can be reduced.

In the hairdressing and beauty device 1D, the control unit 80 adjusts the output of the light source unit 31 so that the energy density of the adjusted light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10C is 50 kW/cm2 or more. It has become. In the hairdressing and beauty device 1D, the microparticles 18 of the cosmetic component generated by atomization are sent out of the hairdressing and beauty device 1D using the air blower 65. FIG.

In the hairdressing device 1D, the control unit 80 controls the output intensity and output interval of the light source unit 31 and the spot diameter of the irradiation site, controls the relative movement speed of the cosmetic ingredient bulk body 10C with respect to the irradiation site, and controls the air blowing speed of the air blowing unit 65. is preferably controlled.

(effect)
Hairdressing equipment 1D has the same effects as hairdressing equipment 1A.

In addition, according to the hairdressing and beauty device 1D, since the disk-shaped cosmetic ingredient bulk body 10C is used, atomization can be performed continuously for a long time without waste.

Furthermore, the hairdressing and beauty device 1D uses collimated light 42B as the adjusted light 42 that irradiates the flat surface 12 of the cosmetic ingredient bulk body 10C. Therefore, in the hairdressing and beauty device 1D, the adjusted light 42 is constant at the irradiation site on the surface of the cosmetic ingredient bulk body 10C regardless of the positional relationship between the light source section 31 and the flat surface 12 of the cosmetic ingredient bulk body 10C. Therefore, the hairdressing and beauty device 1D can have a simple device configuration that does not require the positional relationship sensor 36 .

[Fifth embodiment]
FIG. 8 is a diagram showing the internal configuration of a hairdressing and beauty device 1E according to the fifth embodiment. A hairdressing device (hair dryer) 1E according to the fifth embodiment includes a cosmetic component bulk body 10B (10), a holding section 20B (20), a moving section 28B (28), and an atomizing section 30E (30). and a light guide member 48 . The atomization section 30E also includes a light source section 31 and an optical adjustment section 32 (not shown). Furthermore, the hairdressing device (hair dryer) 1E includes a controller 80 (not shown).

In the hairdressing and beauty device 1E, the cosmetic ingredient bulk body 10B is cylindrical, and the holding part 20B is rod-shaped to be inserted into and held in part of the bottom surface of the cosmetic ingredient bulk body 10B. In the hairdressing and beauty machine 1D, the moving part 28B can rotate the rod-shaped holding part 20B in the direction of the arrow R, which is the circumferential direction.

In the hairdressing and beauty device 1E, the optical adjustment unit 32 (not shown) condenses the primary light 41 output from the light source unit 31 and produces collimated light 42B that irradiates the surface of the cosmetic ingredient bulk body 10B held in the holding unit 20B. It is a collimated light adjustment section to be formed. The collimated light 42B is guided through a light guide member 48 such as an optical fiber and applied to the surface of the cosmetic ingredient bulk body 10B.

Specifically, in the atomization unit 30E of the hairdressing device 1E, the primary light 41 output from the light source unit 31 (not shown) is condensed by the collimated light adjustment unit (not shown) as the optical adjustment unit 32, and the adjusted light 42 is obtained. to form collimated light 42B as . Then, in the atomization section 30E, the collimated light 42B is guided through the light guide member 48 and irradiated to the irradiation site on the surface of the cosmetic ingredient bulk body 10B. On the surface of the cosmetic ingredient bulk body 10B, part of the cosmetic ingredient bulk body 10B is atomized at the irradiation site by the irradiation of the collimated light 42B, and the fine particles 18 of the cosmetic ingredient are generated.

More specifically, in the atomization section 30E, the curved surface 13 of the columnar cosmetic ingredient bulk body 10B is irradiated with the collimated light 42B as the adjustment light 42.

In addition, in the atomization section 30E, the control section 80 (not shown) further controls the rotation of the holding section 20B so that the irradiated portion of the collimated light 42B as the adjustment light 42 on the curved surface 13 is changed. there is

In the state shown in FIG. 8, since the irradiation site of the collimated light 42B is on the curved surface 13, rotating the holding part 20B as indicated by the arrow R moves the irradiation site. When the moving part 28B rotates the holding part 20B in the direction of the arrow R, which is the circumferential direction, the variation in the atomization amount of the curved surface 13 of the cosmetic ingredient bulk body 10B can be reduced.

In the hairdressing and beauty device 1E, the control unit 80 adjusts the output of the light source unit 31 so that the energy density of the adjusted light 42 at the irradiation site on the surface of the cosmetic ingredient bulk body 10B is 50 kW/cm2 or more. It has become. In the hairdressing and beauty machine 1E, the microparticles 18 of the cosmetic component generated by atomization are sent out of the hairdressing and beauty machine 1E using the air blower 65. FIG.

In the hairdressing device 1E, the control unit 80 controls the output intensity and output interval of the light source unit 31 and the spot diameter of the irradiation site, controls the relative movement speed of the cosmetic ingredient bulk body 10B with respect to the irradiation site, and controls the air blowing speed of the air blowing unit 65. is preferably controlled.

(effect)
The hairdressing device 1E has the same effects as the hairdressing device 1A.

In addition, according to the hairdressing and beauty device 1E, since the columnar cosmetic ingredient bulk body 10B is used, atomization can be performed continuously for a long time without waste.

Furthermore, the hairdressing and beauty device 1E uses collimated light 42B as the adjusted light 42 that irradiates the curved surface 13 of the cosmetic ingredient bulk body 10B. Therefore, in the hairdressing and beauty device 1E, the adjusted light 42 is constant at the irradiated portion of the surface of the cosmetic ingredient bulk body 10 regardless of the positional relationship between the light source section 31 and the curved surface 13 of the cosmetic ingredient bulk body 10B. Therefore, the hairdressing and beauty device 1E can have a simple device configuration that does not require the positional relationship sensor 36 .

It should be noted that the above-described embodiments are intended to illustrate the technology of the present disclosure, and various modifications, replacements, additions, omissions, etc. can be made within the scope of the claims or equivalents thereof.

The present disclosure is applicable to hairdressing and beauty equipment that imparts cosmetic effects to the skin, hair, scalp, or nails. Specifically, the present disclosure is applicable to, for example, hair dryers, straightening irons, curling irons, facial equipment, scalp care devices, nail care devices, and the like.

1 hairdressing equipment 1A hairdressing equipment 1B hairdressing equipment 1C hairdressing equipment 1D hairdressing equipment 1E hairdressing equipment 10 beauty ingredient bulk body 10A beauty ingredient bulk body 10B beauty ingredient bulk body 10C beauty ingredient bulk body 10F beauty ingredient bulk body 12 Flat surface 13 Curved surface 18 Particle 20 Holding part 20A Holding part 20B Holding part 20C Holding part 20F Holding part 27 Arrow 28 Moving part 28A Moving part 28B Moving part 30 Atomizing part 30A Atomizing part 30B Atomizing part 30C Atomizing part Part 30D Atomizing part 30E Atomizing part 31 Light source part 32 Optical adjustment part 32A Condensing part 36 Positional relationship sensor 36B Positional relationship sensor 41 Primary light 41A Parallel light 42 Adjusted light 42A Non-parallel light 42B Collimated light 48 Light guide member 60 Particles Transfer section 65 Blower section 80 Control section 122 Switch 130 Fan 132 Motor 134 Heater 136 Partition wall 138 Air outlet 140 Air outlet Ex Removal H Irradiated area HA Heat affected area He Heat LI Light irradiated area M Arrow P1 Hole P1A Long hole P1B Hole P2 Hole R Arrow

Claims (20)

1. a cosmetic ingredient bulk that is a bulk containing at least one cosmetic ingredient that is solid or semi-solid at room temperature;
   a holding part for holding the cosmetic ingredient bulk body;
   a light source unit that outputs primary light; and an optical adjustment unit that optically adjusts the primary light to form adjusted light that irradiates the surface of the cosmetic ingredient bulk body held in the holding unit, wherein the adjusted light an atomizing unit that atomizes a portion of the cosmetic ingredient bulk body by irradiation of to generate fine particles of the cosmetic ingredient;
   a particle transfer unit for transferring the microparticles of the cosmetic ingredient generated in the atomization unit to the outside;
   a controller for controlling the adjusted light to have an energy density of 50 kW/cm or more at the irradiation site on the surface of the cosmetic ingredient bulk body;
   Hairdressing equipment.
2. The atomization unit atomizes a portion of the cosmetic ingredient bulk by non-thermal processing.
   The hairdressing and beauty equipment according to claim 1.
3. further comprising a cosmetic ingredient information input unit for inputting cosmetic ingredient information, which is information on the cosmetic ingredient;
   Based on the cosmetic ingredient information, the control unit controls the adjusted light to have an energy density of 50 kW/cm or more at an irradiation site on the surface of the cosmetic ingredient bulk body.
   The hairdressing and beauty equipment according to claim 1 or 2.
4. The optical adjustment unit is a light collecting unit that collects the primary light to form non-parallel light that is irradiated onto the surface of the cosmetic ingredient bulk body held by the holding unit,
   wherein the adjusted light is the non-parallel light;
   The hairdressing and beauty equipment according to any one of claims 1 to 3.
5. The optical adjustment unit is a collimated light adjustment unit that collects the primary light and forms collimated light that is irradiated onto the surface of the cosmetic ingredient bulk body held in the holding unit,
   The adjusted light is the collimated light,
   The hairdressing and beauty equipment according to any one of claims 1 to 3.
6. further comprising a positional relationship sensor for measuring the positional relationship between the light source unit and the surface of the cosmetic ingredient bulk body;
   Based on the positional relationship information acquired by the positional relationship sensor, the control unit controls the adjustment light to have an energy density of 50 kW/cm or more at the irradiation site on the surface of the cosmetic ingredient bulk body.
   The hairdressing and beauty equipment according to any one of claims 1 to 5.
7. The control unit adjusts the output of the light source unit so that the energy density of the adjusted light at the irradiation site on the surface of the cosmetic ingredient bulk body is 50 kW/cm or more.
   The hairdressing and beauty equipment according to claim 5.
8. The cosmetic ingredient bulk body is composed of a cosmetic ingredient mixture mixed with a heating aid that heats the cosmetic ingredient by irradiation with the adjusted light.
   The hairdressing and beauty equipment according to any one of claims 1 to 7.
9. Further comprising a moving unit that moves the holding unit,
   The hairdressing and beauty equipment according to any one of claims 1 to 8.
10. The cosmetic ingredient bulk body is cylindrical, disk-shaped, or plate-shaped,
    The holding part is rotatably provided,
    The hairdressing and beauty equipment according to any one of claims 1 to 9.
11. The adjustment light is applied to the flat surface of the cosmetic ingredient bulk body,
    The control unit further controls the rotation of the holding unit so as to change the irradiation site of the adjustment light on the flat surface.
    The hairdressing and beauty equipment according to claim 10.
12. The curved surface of the columnar cosmetic ingredient bulk body is irradiated with the adjustment light,
    The control unit further controls the rotation of the holding unit so as to change the irradiation site of the adjustment light on the curved surface.
    The hairdressing and beauty equipment according to claim 10 or 11.
13. The control unit controls rotation of the holding unit based on cosmetic ingredient information, which is information on the cosmetic ingredient.
    The hairdressing and beauty equipment according to claim 11 or 12.
14. The control unit pulse-controls the output of the primary light.
    The hairdressing and beauty equipment according to claim 13.
15. an atomization amount sensor for acquiring atomization amount information, which is information about the amount of atomization of the cosmetic ingredient bulk in the atomization unit;
    The control unit controls the atomization amount based on the atomization amount information acquired by the atomization amount sensor.
    Hairdressing and beauty equipment according to any one of claims 1 to 14.
16. An air blowing unit for sending out the fine particles of the cosmetic ingredient generated in the atomizing unit to the outside,
    Hairdressing and beauty equipment according to any one of claims 1 to 15.
17. The holding part is black,
    Hairdressing and beauty equipment according to any one of claims 1 to 16.
18. A light guide member that guides the adjusted light to the holding portion,
    Hairdressing and beauty equipment according to any one of claims 1 to 17.
19. one end of the light guide member is connected to the light source unit,
    The hairdressing and beauty equipment according to claim 18.
20. The control unit controls the blower unit so that the fine particles of the cosmetic component are not supplied to the light source unit and the optical adjustment unit.
    The hairdressing and beauty equipment according to claim 16.

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