JP5005306B2 - Spraying equipment - Google Patents

Description

  The present invention relates to a beauty treatment apparatus for performing a beauty treatment by supplying an atomized component obtained by atomizing a liquid to a skin surface.

  2. Description of the Related Art A spraying device for cosmetic purposes is known that can be applied to beautify skin by spraying a liquid on a user's face and the like to moisturize the skin or increase the activity of skin cell tissue (for example, Patent Document 1). reference).

In this type of beauty treatment apparatus, for example, when cold water is sprayed on the skin surface, it is possible to obtain an action of tightening the pores to make the skin finer, and for example, spraying heated steam on the skin surface In this case, it is possible to obtain an action of effectively removing the dirt on the pores.
Japanese Patent No. 3615514

  Here, in such a beauty treatment apparatus, the atomizing component supplied to the skin surface penetrates into the skin through the pores. It is desirable to use it. Further, in this type of apparatus, further improvement of the beauty treatment effect is constantly demanded.

  Therefore, the present invention has been made to solve such a problem, and can perform a cosmetic process with improved cleanliness on the skin surface, and can improve the cosmetic process effect. The purpose is to provide a device.

In order to achieve the above object, a beauty treatment apparatus of the present invention has a liquid storage tank in which liquid is stored, an atomization mechanism that atomizes the liquid stored in the liquid storage tank, and the fog A cleaning mechanism for obtaining a nebulized component in a clean state by purifying the liquid before being atomized by the atomizing mechanism or purifying the atomized component generated by atomizing the liquid by the atomizing mechanism, and at least the surface portion A platinum fine particle generating mechanism that includes a discharge electrode formed of platinum and that generates platinum fine particles to be included in the clean atomized component obtained by the cleaning mechanism, and the platinum generated by the platinum fine particle generating mechanism and ejection mechanism for ejecting the atomized components clean condition containing the fine particles to the outside of the housing, is provided in the subsequent stage of the position of the discharge electrode to which the platinum microparticle generation mechanism is provided, the ejection mechanism A cosmetic liquid component mixing mechanism for mixing a cosmetic liquid component into the sprayed atomizing component, wherein the liquid cosmetic component mixing mechanism impregnates the liquid serum and the liquid cosmetic impregnated member And a cylindrical impregnated member mounting unit having at least an inner wall portion formed of platinum .

  According to the present invention, the nebulized component in a clean state containing platinum fine particles can be penetrated deep into the stratum corneum of the user's skin surface. Moreover, the beauty treatment effect can be improved. Here, in the present invention, the atomizing component includes both fine particle (mist) liquid (mist) and vapor obtained by vaporizing the liquid.

Also, according to this onset bright, capable of spraying this to the skin surface while mixing the components of the cosmetic liquid atomization components include platinum particles and clean state which is reduced (micronized) Therefore, a high penetration effect of the cosmetic liquid component into the skin can be obtained, and a more excellent skin treatment can be realized.

In the beauty treatment apparatus according to the present invention, the atomization mechanism includes at least one of a heater and an ultrasonic transducer.
According to this invention, in the atomization mechanism equipped with the heater, the atomization and heating of the liquid can be performed simultaneously, and in the atomization mechanism equipped with the ultrasonic vibration, the cluster constituting the atomization component Atomization of molecules can be achieved, thereby enhancing the effect of the cosmetic treatment applied to the skin surface.

Further, in the beauty treatment apparatus of the present invention, the cleaning mechanism causes the liquid before being atomized by the atomization mechanism or the atomized component generated by atomizing the liquid by the atomization mechanism to come into contact with ozone. A sterilization mechanism for sterilization is provided.
In this invention, the nebulized component or the liquid before being atomized is sterilized with ozone, and the nebulized component in a clean state obtained thereby can be sprayed on the user's skin surface. It is a purified atomizing component that penetrates into pores and can effectively remove dirt substances such as old keratin and sebum clogged in pores.

In addition, the beauty treatment apparatus of the present invention further includes a magnetization mechanism that applies a magnetic force to the liquid before being atomized by the atomization mechanism or the atomization component generated by atomizing the liquid by the atomization mechanism. It is characterized by that.
In the present invention, a magnetic treatment is performed on the atomized component or the liquid before being atomized, and the skin surface can be subjected to a cosmetic treatment with the atomized component obtained by subdividing the clusters obtained thereby.

Here, the cluster size of water is determined by the number of water molecules in the cluster. Usually, the number of water molecules in the cluster of tap water is said to be about 15-40. In addition, when the degree of water contamination is high, the contaminants are associated with water molecules, so that there are about 200 to 300 water molecules, or more than 500 water molecules in some cases.
On the other hand, the number of water molecules in a cluster of so-called good water is generally 6 or less. There are various ways to reduce the number of water molecules in the cluster. For example, when the ultraviolet treatment is performed, the number of water molecules is reduced to about 11. Moreover, when water is brought into a steam state, the number of water molecules is reduced to about 9 or less, and in addition, the number of water molecules can be reduced to 6 or less in electrolyzed water.
According to the beauty treatment apparatus of the present invention, the number of water molecules in the cluster in the atomization component can be reduced to 6 or less due to the synergistic effect of the atomization mechanism and the magnetization mechanism.

Furthermore, in the beauty treatment apparatus of the present invention, the cleaning mechanism irradiates the liquid before being atomized by the atomizing mechanism or the atomized component generated by atomizing the liquid by the atomizing mechanism with ultraviolet rays. Is further provided.
According to this invention, the atomization component sprayed on the skin surface can be cleaned by the sterilization effect by ultraviolet rays.

The beauty treatment apparatus of the present invention further includes a liquid supply path for supplying a liquid into the liquid storage tank of the atomizing mechanism, and the cleaning mechanism is provided in the liquid supply path. It is characterized by comprising.
In this invention, the liquid which flows into the liquid storage tank which the atomization mechanism has can be purified.

Furthermore, in the beauty treatment apparatus of the present invention, the cleaning mechanism is provided in at least a part of a path from the liquid supply path to the atomization component ejection port of the ejection mechanism through the liquid storage tank of the atomization mechanism. And a photocatalyst imparting mechanism having a photocatalyst produced and a light source that emits light for inducing a photocatalytic reaction toward the photocatalyst.
According to the present invention, the dirt component in the liquid before atomization or in the atomization component obtained by atomization can be decomposed by the action of the photocatalyst, so that the more purified atomization component is applied to the skin surface. Can be sprayed.

Furthermore, the beauty treatment apparatus of the present invention is characterized by comprising one or a plurality of ionizers having the discharge electrodes.
In this invention, since the atomization component contained in the platinum fine particles can be penetrated deep into the skin, an activation action of the cell tissue can be obtained, and thereby an effective cosmetic treatment can be performed.

The beauty treatment apparatus of the present invention further includes a drainage mechanism that drains the liquid stored in the liquid storage tank of the atomization mechanism.
According to this invention, it is possible to replace the liquid in the storage state to be atomized with a new liquid, and thus the liquid to be atomized can be cleaned.

In addition, the beauty treatment apparatus of the present invention further includes a visible light radiation mechanism that emits visible light in a specific wavelength region toward the ejection direction of the atomized component ejected by the ejection mechanism. .
In this invention, the nebulized component in a clean state penetrates deep into the skin, and the synergistic effect of the chromotherapy effect by irradiating the skin surface with visible light in a specific wavelength range is excellent. A beauty treatment effect can be obtained.

Furthermore, the beauty treatment apparatus of the present invention is further characterized by further comprising a fragrance imparting mechanism that imparts a fragrance that provides a skin-beautifying action to the atomized component ejected by the ejection mechanism.
According to the present invention, the effect of treating the skin with the purified atomizing component and the effect of aromatherapy can be made to act synergistically to enhance the skin beautifying effect.

  As described above, according to the present invention, it is possible to provide a beauty treatment apparatus capable of performing a beauty treatment with improved cleanliness on the skin surface and capable of improving the beauty treatment effect.

The best mode for carrying out the present invention will be described below with reference to the drawings.
[First Embodiment]
FIG. 1 is a perspective view showing a beauty processing apparatus according to the first embodiment of the present invention, FIG. 2 is a block diagram functionally showing the configuration of the beauty processing apparatus, and FIG. 3 is a main part of the beauty processing apparatus. FIG. 4 is a cross-sectional view showing the structure of the fragrance member attached to the spray nozzle of this beauty treatment apparatus.

  As shown in FIGS. 1 to 3, the beauty treatment apparatus 1 according to this embodiment is a steam-type steamer that atomizes and sprays liquid on a skin surface such as a user's face. On the front surface of the housing 2 of the beauty treatment apparatus 1, an injection nozzle 3 for injecting the atomized component M is provided. Further, on the front surface of the housing 2, there are a power switch 5 for turning on / off the power, a setting switch 7 for setting the operation mode of the beauty treatment apparatus 1, and a setting display LED 6 for displaying setting contents by the setting switch 7. Is provided. A power cord 8 for supplying power such as a commercial power source to electronic components in the apparatus is connected to the rear surface of the housing 2.

  Moreover, in the inside of the housing | casing 2 of the beauty treatment apparatus 1, as shown in FIG.2 and FIG.3, it has the atomization chamber 27 provided with the storage tank 21 which stores the water W as a liquid, for example, and is stored. The atomization mechanism 32 which atomizes the water W which is atomized to make the atomization component, and the atomization component sterilization mechanism 35 which sterilizes the atomization component M atomized by the atomization mechanism 32 are provided. Further, the beauty treatment apparatus 1 is provided with a water supply port 23 for supplying water from the outside, and the water W supplied from the water supply port 23 flows into the storage tank 21 constituting the atomization chamber 27. Further, the storage tank 21 may be configured to be detachable from the housing 2 so that the water W can be easily added into the storage tank 21. Here, the liquid to be atomized may be water W or a dedicated chemical for beauty treatment.

  The atomization mechanism 32 includes a liquid transfer channel 33 configured as a pipe for transferring the water W supplied from the water supply port 23, and the storage tank 21 into which the water W transferred through the liquid transfer channel 33 flows. An atomization chamber 27, a UV lamp 26 as a light source for irradiating the water W before being atomized by the atomization mechanism 32, an electric heater 29 provided at the bottom of the atomization chamber 27, and an electric heater And an air supply fan 28 for sending the atomizing component M obtained by atomizing the water W in the atomizing chamber 27 by the heating by the atomizing chamber 27 to the atomizing component sterilizing mechanism 35 side. Here, a cooling device may be further added to the outer wall portion of the atomizing component sterilization chamber 36. When the cooled atomizing component M is sprayed on the skin surface by this cooling device, it is possible to obtain an effect of tightening the pores and making the skin finer. Moreover, when adding a cooling device in this way, the structure etc. which can switch the production | generation of the atomization component of a heating state and the atomization component of a cooling state with the setting switch 7, for example are illustrated. The air supply fan 28 and the injection nozzle 3 function as an ejection mechanism that ejects the atomized component M sterilized by the atomized component sterilization mechanism 35 to the outside of the housing 2.

  Moreover, in the beauty treatment apparatus 1 of this embodiment, as shown in FIG.1, FIG.2, FIG.4, the fragrance (aroma) from which the skin beautifying effect | action is obtained with respect to the atomization component M which should be ejected from the injection nozzle 3. FIG. A fragrance member 9 is provided as a fragrance imparting mechanism. The aromatic member 9 formed in a ring shape is configured to be detachable with respect to the injection nozzle 3, for example, and has an atomization component injection flow path 9 a communicating with the atomization component injection flow path 3 a of the injection nozzle 3. Prepare for the central part. Further, the main body portion of the ring-shaped fragrance member 9 contains, for example, a plant essential oil or the like that provides a skin-beautifying action. Therefore, when the atomizing component M is sprayed from the spray nozzle 3, an aroma that provides a beautifying skin action is imparted to the atomizing component M, and thereby the skin surface can be treated with the cleaned atomizing component M. It is possible to enhance the skin beautifying effect by synergistically acting with the effects of aromatherapy.

  The UV lamp 26 described above is disposed in the storage tank 21 below the atomization chamber 27, flows into the storage tank 21 in the atomization chamber 27 through the liquid transfer channel 33, and is temporarily stored. Irradiate the water W with ultraviolet rays. Thereby, since the water W before being atomized can be sterilized by ultraviolet rays in advance, further purification of the atomized component sprayed on the skin surface can be achieved. The storage tank 21 in the atomization chamber 27 and the water supply port 23 are connected through the liquid transfer channel 33 described above.

  In addition, when the water level of the water W flowing into the storage tank 21 of the atomization chamber 27 through the liquid transfer channel 33 exceeds a predetermined water level H1, the water W exceeding (overflowing) the water level H1 is drained. A drainage mechanism 12 is provided for draining to the drainage tank 15 side through a drain pipe 14 having an inlet opening at the top. Here, instead of the above configuration, the drain intake port of the drain pipe may be connected to the side (lateral direction) of the storage tank 21 in the atomization chamber 27 corresponding to the position of the water level H1.

  Further, between the water supply port 23 and the storage tank 21 in the atomization chamber 27, as shown in FIG. 2, TiC or the like is used as a constituent material so that the water W transferred to the storage tank 21 side can be purified. The formed ceramic filter 22 is interposed. Furthermore, the outer peripheral part of the liquid transfer flow path 33 between this ceramic filter 22 and the storage tank 21 in the atomization chamber 27 and the atomization component transfer flow path 38 between the atomization component sterilization chamber 36 and the injection nozzle 3 which will be described later. Magnetization mechanisms 24 and 40 configured by arranging permanent magnets 34 and 41, respectively, are provided on the outer peripheral portion. Since the water W transferred to the atomizing chamber 27 side can be magnetically processed by the permanent magnet 34 to be magnetized water, the surface of the skin can be converted into the atomized component M obtained by atomizing the water W which is divided into clusters. Can be subjected to cosmetic treatment. The permanent magnet 34 may be composed of an electromagnet or the like.

  As shown in FIGS. 2 and 3, the atomization component sterilization mechanism 35 includes the atomization component sterilization chamber 36 disposed on the downstream side of the atomization chamber 27 with respect to the storage tank 21, and the atomization component sterilization chamber. And a UV lamp 30 serving as an ozone tube disposed in 36. Specifically, the atomization component sterilization chamber 36 is disposed on the path of the atomization component transfer flow path 38 configured as a pipe connecting the atomization chamber 27 and the injection nozzle 3. The generated ozone and the atomizing component M transferred from the atomizing chamber 27 are brought into gas-liquid contact to sterilize the atomizing component M.

  In addition, although the density | concentration of the ozone produced | generated with the UV lamp 30 is less than 0.1 ppm, when the bactericidal effect is considered, it is desirable that it is about 0.004 ppm-0.06 ppm, for example. Here, in this embodiment, the UV lamp 30 in the atomization component sterilization chamber 36, the UV lamp 26 in the atomization chamber 27, and the ceramic filter 22 are mainly before being atomized by the atomization mechanism 32. It functions as a cleaning mechanism for purifying the atomizing component M generated by the water W or the atomizing mechanism 32 to obtain an atomized component in a clean state.

Here, in the magnetizing mechanism 24 described above, a magnetic force of, for example, 4,000 G (Gauss) or more arranged in the outer peripheral portion of the atomizing component transfer channel 38 between the atomizing component sterilization chamber 36 and the injection nozzle 3 is generated. Let us consider the permanent magnet 41 that applies a magnetic treatment to the atomizing component M.
In general, it is said that a magnetic force of several tens of Tesla (100,000 G) is required to purify magnetized water by applying magnetic treatment to water.
Here, even if 50 Tesla (500,000 G) is required for refining magnetized water, the density of water in the steam is 1/2000, so if there is a magnetic force of 250 G, Magnetization can be performed.
Therefore, it can be said that the magnetic force of 4,000 G or more generated by the permanent magnet 41 sufficiently satisfies the requirements for the magnetization of the atomizing component M in the atomizing component transfer channel 38.

According to the magnetizing mechanisms 24 and 40 constituted by the permanent magnet 41 and the permanent magnet 34 described above, the water W and the atomizing component M are subjected to magnetic treatment so that water molecules are coupled to each other. The size of the cluster is reduced to activate the water molecules, and it is possible to kill miscellaneous bacteria and clean the water W and the atomizing component M.
In addition, such a permanent magnet 41 includes the atomization chamber 27 and the atomization component sterilization chamber 36 in the upper part of the atomization chamber 27, the atomization component sterilization chamber 36, the injection nozzle 3, or the atomization component transfer channel 38. It may be arranged in between. Further, the permanent magnet 41 may be an electromagnet as long as it generates a magnetic force of 4000 G or more.

  As described above, in the beauty treatment apparatus 1 of the present embodiment, the water W purified by the ceramic filter 22, the magnetization mechanism 24, and the UV lamp 26 is atomized, and the atomized component M obtained thereby is converted into the UV lamp. Since it can be sterilized with ozone through 30 and further subjected to magnetic treatment through the magnetizing mechanism 40 and then sprayed onto the skin surface of the user's face, etc., the purified atomizing component that penetrates into the pores from this skin surface With M, dirt substances such as old keratin and sebum clogged in pores can be effectively removed.

[Second Embodiment]
Next, a second embodiment of the present invention will be described with reference to FIGS. 5 to 8, components having the same functions as those applied to the beauty treatment apparatus 1 of the first embodiment described with reference to FIGS. 1 to 4 are denoted by the same reference numerals. And the description thereof is omitted.

  That is, as shown in FIGS. 5 to 8, the beauty treatment apparatus 51 according to this embodiment uses a steam method and an ultrasonic method in which water W is atomized and sprayed onto the skin surface of the user's face or the like. In addition to the configuration of the beauty treatment apparatus 1 described in the first embodiment, a red LED (light emitting diode) 52, a blue LED 53 and a yellow LED 54, an ultrasonic vibrator 25, a photocatalytic action imparting mechanism 55, an ionizer 56, and a cosmetic liquid impregnation member 65 that functions as a cosmetic liquid component mixing mechanism.

  As shown in FIGS. 6 and 7, the photocatalyst imparting mechanism 55 is provided on the liquid transfer flow path 33 between the ceramic filter 22 and the magnetization mechanism 24, and the liquid transfer flow toward the atomization chamber 27. The water W flowing through the path 33 is purified. That is, the liquid purification mechanism 55 includes a photocatalyst mainly composed of titanium dioxide and a light source 61 such as an LED that emits light toward the photocatalyst. As the photocatalyst, a visible light responsive photocatalyst or an ultraviolet responsive photocatalyst may be used, and the light source is appropriately selected so as to correspond to the reaction type of the applied photocatalyst. As shown in FIGS. 6 to 8, in addition to such a photocatalytic action providing mechanism 55, a photocatalytic action providing mechanism 59 having a light source 62 is also provided in the injection nozzle 3. In the photocatalyst imparting mechanism 59, the dirt component in the atomized component M obtained by atomization can be decomposed by the action of the photocatalyst.

  Further, such a photocatalyst may be applied by coating the inner wall surface of a liquid transfer channel configured as a pipe, or a filter is disposed in the liquid transfer channel and the photocatalyst is coated on the filter. Thus, the photocatalytic action imparting mechanism 55 may be configured. According to the photocatalyst imparting mechanism 55 configured as described above, the dirt component in the liquid such as water W can be decomposed by the action of the photocatalyst, so that the cleaned atomized component can be sprayed on the skin surface. Furthermore, such a photocatalyst is coated on the inner wall portions of the storage tank 21, the atomizing chamber 27, the atomizing component transfer flow path 38, and the like, and a light source for irradiating light toward the photocatalyst coated on these inner wall portions is provided. Furthermore, you may add. Here, the light emitted from the LED lamp of the photocatalyst imparting mechanism is, for example, ultraviolet light having a wavelength range of less than 380 nm and a luminous intensity of, for example, about 220 mcd. In addition, by selecting a visible light reaction type photocatalyst, for example, blue light having a wavelength range of about 440 to 449 nm, purple light having a wavelength of about 370 to 380 nm, or the like can be used instead of the LED lamp emitting ultraviolet light. LED lamps that respectively emit light may be applied.

  The atomization mechanism 58 including the ultrasonic transducer 25 has an action of atomizing the water W using the ultrasonic vibration generated by the ultrasonic transducer 25 and vaporization while heating the water W by the electric heater 29. Can be obtained at the same time. That is, according to the atomization mechanism 58, the atomization of the water W and the heating of the atomization component M can be performed simultaneously, and the atomization of the cluster molecules constituting the atomization component is achieved by ultrasonic vibration. This can enhance the effect of the cosmetic treatment applied to the skin surface.

  In addition, as shown in FIG. 6, one or a plurality of ionizers 56 are arranged on the path of the atomization component transfer flow path 38 (see FIG. 7) between the atomization component sterilization chamber 36 and the injection nozzle 3. Thus, negative ions are imparted to the atomizing component M transferred from the atomizing component sterilization chamber 36 side. Here, in the beauty treatment apparatus 51 of the present embodiment, for example, a plurality of ionizers 56 including a set of discharge needles are arranged, and thereby, compared with an apparatus that does not have the ionizer 56, the atomization component M The particle diameter can be 1/8000 or less. Accordingly, the atomization component M to which the particle size is small and the negative ions are permeated deeply into the skin, thereby activating the cell tissue, thereby enabling effective cosmetic treatment. Can be applied.

Furthermore, as shown in FIG. 5, the red LED 52, the blue LED 53, and the yellow LED 54 are
It functions as a visible light radiation mechanism that emits visible light in a specific wavelength region toward the ejection direction of the atomized component M from the ejection nozzle 3. That is, the light emitted from the red LED 52 has, for example, a peak wavelength of 641 nm and a luminous intensity of, for example, 180 mcd. This red light has a high skin penetration rate, reacts to melanin in the deep part of the skin, and is effective in removing spots deep in the skin. Also, combined with red color action, it is suitable for improving reddish skin, and blood circulation promoting effects can be obtained. It is also suitable for so-called slimming care.

  Furthermore, the light emitted from the yellow LED 54 has a peak wavelength of, for example, 592 nm and a luminous intensity of, for example, 220 mcd. Since this yellow light has a higher skin penetration rate than the light emitted from the red LED 52, it is effective for removing a stain on the skin surface. Moreover, it is suitable for the improvement of aging skin and trouble skin as a function of color. The light emitted from the blue LED 53 has a peak wavelength of, for example, 465 nm and a luminous intensity of, for example, 70 to 200 mcd. Since this blue light is well absorbed by hemoglobin, it is effective for red face and red aza. As an effect of color, it increases lymph drainage action and blood circulation action. Furthermore, the effect etc. which relieve stress and tension can be acquired.

  Therefore, in the beauty treatment apparatus 51 having the red LED 52, the blue LED 53, and the yellow LED 54, the effect that the nebulized component M that has been sterilized by ozone penetrates deep into the skin, and a specific wavelength range. An excellent cosmetic treatment effect can be obtained by a synergistic effect with the chromotherapy effect (the effect of color on the skin) by irradiating the skin surface with visible light.

  Further, as shown in FIG. 7, the beauty treatment apparatus 51 of this embodiment is provided with a drainage shutter 63 that opens and closes a drainage intake port that connects the storage tank 21 and the drain pipe 14. As shown in FIG. 5, the operation of the drainage shutter 63 is controlled by opening / closing the drainage intake port by operating a drainage selection button 64 provided on the front surface of the beauty treatment apparatus 51. Thereby, since the liquid of the storage state used as the atomization object can be substituted with a new liquid, etc., the liquid used as the atomization object can be cleaned. Further, for example, a temperature sensor or the like may be installed in the storage tank 21 so that the temperature of the water W stored in the storage tank 21 can be detected. That is, for example, when the temperature of the detected water W in the storage tank 21 is high, the so-called emptying in the storage tank 21 is performed by performing control so that drainage from the drain pipe 14 is not possible. It becomes possible to prevent.

  Furthermore, in the cosmetic treatment apparatus 51 of the present embodiment, as shown in FIG. 8, a cosmetic liquid impregnation member 65 for mixing a cosmetic liquid component into the atomizing component M to be ejected from the injection nozzle 3 is provided. It is prepared. The cosmetic liquid impregnated member 65 is configured to be detachable, for example, with respect to the inside of the injection nozzle 3 in the same manner as the fragrance member 9 described above, and the atomization component communicating with the atomization component injection flow path 3a of the injection nozzle 3 An injection flow path 65a is provided in the center portion. In addition, the body portion of the cosmetic liquid impregnated member 65 formed into a ring shape using a cotton-like material or the like contains (impregnates) a cosmetic liquid made up of a cosmetic liquid or other nutrients that provides a skin-beautifying action. ing. The cosmetic liquid impregnated member 65 may be configured to be mounted in the injection nozzle 3 together with the fragrance member 9. Further, in place of such a cosmetic liquid-impregnated member 65, a dish-shaped member can be installed in the middle of the atomization component ejection flow path 3 a of the ejection nozzle 3, and this dish-shaped member is further provided from the outside of the housing 2. The cosmetic processing device 51 may be configured so that the cosmetic liquid can be supplied to the atomized component M so that the cosmetic liquid component is mixed.

Here, as the cosmetic liquid to be impregnated (impregnated) into the cosmetic liquid impregnated member 65, oil-based ones such as squalane / jojoba oil having a moisturizing effect, other provitamin C having whitening / antioxidant action, Provitamin E and the like are exemplified. These cosmetic liquids have a resistance that does not change the physical properties of the cosmetic liquid even when contacted with the atomizing component M (steam equivalent to 100 ° C.).
Therefore, by mounting such a cosmetic liquid-impregnated member 65 on the spray nozzle 3, the cosmetic liquid component is mixed into the atomized component M cleaned in the previous stage and sprayed onto the skin surface. Can be realized, and more excellent skin treatment can be realized.

[Third Embodiment]
Next, a third embodiment of the present invention will be described with reference to FIGS. Here, FIG. 9 is an external view showing a beauty treatment apparatus 71 according to the third embodiment of the present invention, and FIG. 10 is a cross-sectional view showing the internal structure of the beauty treatment apparatus 71. FIG. 11 is a block diagram functionally showing the configuration of the beauty treatment apparatus 71, and FIG. 12 is a cross-sectional view showing the structure of the inner nozzle portion 78 of the beauty treatment apparatus 71. Further, FIG. 13 is a diagram showing in detail the shape of a pair of discharge electrodes 75 and 76 provided in the inner nozzle part 78 of FIG. 12, and FIG. 14 is another structure having a different structure from the inner nozzle part of FIG. 6 is a cross-sectional view showing an inner nozzle part 91. 15 is a view showing other discharge electrodes 83 and 84 having different shapes from the discharge electrodes 75 and 76 provided in the inner nozzle portion 78 of FIG. 13, and FIG. 16 is a view of the discharge electrodes shown in FIGS. It is a figure which shows the other discharge electrodes 85 and 86 from which an electrode differs in shape. In addition, in FIGS. 9-16, about the component which has the same function as what was applied with the beauty treatment apparatuses 1 and 51 of 1st, 2nd embodiment demonstrated based on FIGS. 1-8. Are given the same reference numerals and their description is omitted.

  That is, the beauty processing apparatus 71 according to this embodiment is configured by partially improving the beauty processing apparatus 51 described in the second embodiment, and as shown in FIGS. An inner nozzle portion 78 having a partially bent shape is provided on the inner side of the injection nozzle 3. The inner nozzle portion 78 includes a pair of discharge electrodes 75 and 76, a cap portion 77 that functions as an impregnation member mounting unit, a cylindrical body portion 88, and the like.

  The cap part 77 is formed in a substantially cylindrical shape, and is connected to the distal end side (side from which the atomizing component is released) of the bent cylindrical body part 88. Moreover, the cap part 77 has the mounting part 77a to which the fragrance member 9 and the cosmetic liquid impregnation member 65 are detachably mounted. That is, the cap part 77 and the essence impregnated member 65 provided at the positions on the rear side of the discharge electrodes 75 and 76 function as a essence component mixing mechanism. The inner wall surface 77b of the cap part 77 is plated with platinum. Note that the constituent material of the entire cap portion 77 may be made of platinum. Moreover, such a cap part 77 (inner wall surface 77b) and cylindrical part 88 (inner wall surface) are such that the nebulized component in a clean state is transferred from the atomizing component sterilization chamber 36 side to the injection nozzle 3 side, and A transfer path 89 is formed until it is ejected to the outside of the housing 2.

  Further, as shown in FIGS. 10 to 12, the discharge electrodes 75 and 76 are provided as discharge needles of an ionizer 56 that functions as a platinum fine particle generation mechanism, and between these electrodes, for example, 10 kV to 17 kV. Is applied. Further, as shown in FIGS. 12 and 13, each of the discharge electrodes 75 and 76 is formed in a shape in which the tip portion is bent in an L shape, and protrudes from the inner wall surface 88b of the cylindrical body portion 88 so as to face each other. Has been. Further, the discharge electrodes 75 and 76 are at least partially formed of platinum. In the present embodiment, platinum plating is applied to the outer surface of the tip portion of each discharge electrode 75, 76. The discharge electrodes 75 and 76 may be plated with platinum over the entire surface portion including the base end side, or the entire discharge electrode including the inside may be made of a platinum material.

  Therefore, as shown in FIG. 12, the nebulized component M1 in a clean state transferred from the atomizing component sterilization chamber 36 side is refined (particulated) in the process of passing between the pair of discharge electrodes 75 and 76. At the same time, platinum fine particles are primarily generated by the discharge generated between the discharge electrodes 75 and 76. Next, the fine atomized clean atomizing component M1 and the platinum fine particles are generated as an atomized component M2 integrated in the process of passing through the cap portion 77 (the inner wall surface 77b). Further, in the process of passing through the cap portion 77, the decrease in the platinum fine particle mist (the atomizing component M2) is suppressed. Further, the atomizing component M2 is, for example, as an atomizing component M3 containing a cosmetic liquid component and platinum fine particles in the process of passing through the atomizing component injection flow path 65a of the cosmetic liquid impregnated member 65 impregnated with provitamin C or the like. It is comprised and is ejected outside (user's skin side) through the injection nozzle 3. FIG.

  As described above, the beauty treatment apparatus 71 of the present embodiment cleans the space between the pair of discharge electrodes 75 and 76 whose surface portions are formed of platinum, the inside of the cap portion 77, and the inside of the flow path of the cosmetic liquid impregnation member 65. Since the nebulized component in the state is configured to pass through, the nebulized component M3 in a fine and clean state containing the cosmetic liquid component and the platinum fine particles is infiltrated deep into the horny layer of the skin surface. Is possible. Here, by impregnating the serum-impregnating member 65 with, for example, provitamin C or the like, it is possible to reach the basal cells of the epidermis, so that provitamin C as a cosmetic liquid component can reach the melanocytes. High whitening effect.

  In the beauty treatment apparatus 71 of the present embodiment, the inner nozzle portion 78 in which the cylindrical portion 88 is bent is illustrated, but instead, as shown in FIG. 14, a cylindrical portion 92 that extends linearly. The inner nozzle portion 91 configured with the above can also be applied to the present invention. Moreover, in the beauty treatment apparatus 71 of the present embodiment, instead of the L-shaped discharge electrodes 75 and 76 described above, discharge electrodes 83 and 84 having a linear outer shape may be applied as shown in FIG. Moreover, as shown in FIG. 16, discharge electrodes 85 and 86 having cylindrical shapes 85a and 86a having a uniform diameter at the tip without forming the shape of the tip and being straight are formed. You may apply. As for the discharge electrodes 83 and 84 and the discharge electrodes 85 and 86, the outer surface of each at least front-end | tip part is formed with platinum. Here, when the discharge electrodes 85 and 86 including the cylindrical portions 85a and 86a are applied, the durability of the discharge electrode (discharge needle) itself can be enhanced.

  The present invention has been specifically described with reference to the first to third embodiments. However, the present invention is not limited to these embodiments, and various modifications can be made without departing from the scope of the present invention. . For example, by providing a storage tank capable of electrolyzing water on the upstream side of the atomization chamber 27 and an ion exchange membrane in the storage tank, weak alkaline water having a high affinity with body fluids and blood can be sprayed. A beauty processing apparatus may be configured as described above. By spraying such weak alkaline water on the skin surface, the skin-beautifying effect can be further improved.

The perspective view which shows the beauty processing apparatus which concerns on the 1st Embodiment of this invention. The block diagram which shows the structure of the beauty processing apparatus of FIG. 1 functionally. The figure which shows typically the structure of the principal part of the beauty processing apparatus of FIG. Sectional drawing which shows the structure of the fragrance member with which the spray nozzle of the beauty treatment apparatus of FIG. 1 is mounted | worn. The perspective view which shows the beauty processing apparatus which concerns on the 2nd Embodiment of this invention. The block diagram which shows the structure of the beauty processing apparatus of FIG. 4 functionally. The figure which shows typically the structure of the principal part of the beauty processing apparatus of FIG. Sectional drawing which shows the structure of the injection nozzle of the beauty treatment apparatus of FIG. The external view which shows the beauty processing apparatus which concerns on the 3rd Embodiment of this invention. Sectional drawing which shows the internal structure of the beauty processing apparatus of FIG. The block diagram which shows the structure of the beauty processing apparatus of FIG. 9 functionally. Sectional drawing which shows the structure of the inner side nozzle part of the beauty processing apparatus of FIG. The figure which shows the shape of the discharge electrode provided in the inner side nozzle part of FIG. 12 in detail. Sectional drawing which shows the other inner nozzle part from which the inner nozzle part of FIG. 12 differs in a structure. The figure which shows the other discharge electrode from which the shape differs from the discharge electrode of FIG. The figure which shows the other discharge electrode from which the shape of the discharge electrode of FIG.13 and FIG.15 differs.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1,51,71 ... Beauty treatment apparatus, 2 ... Housing, 3 ... Injection nozzle, 3a, 9a ... Atomization component injection flow path, 9 ... Fragrance member, 12 ... Drain mechanism, 14 ... Drain pipe, 15 ... Drain tank , 21 ... Reservoir, 22 ... Ceramic filter, 24, 40 ... Magnetization mechanism, 25 ... Ultrasonic vibrator, 26, 30 ... UV lamp, 27 ... Atomization chamber, 28 ... Air supply fan, 32, 58 ... Atomization Mechanism, 33 ... Liquid transfer channel, 34, 41 ... Permanent magnet, 35 ... Atomizing component sterilization mechanism, 36 ... Atomizing component sterilization chamber, 38 ... Atomizing component transfer channel, 52 ... Red LED, 53 ... Blue LED 54 ... Yellow LED, 55 ... Photocatalyst imparting mechanism, 56 ... Ionizer, 65 ... Cosmetic liquid impregnated member, 75, 76, 83, 84, 85, 86 ... Discharge electrode, 77 ... Cap part, 78, 91 ... Inner nozzle Part, W ... water, M, M1, M2, M3 ... fog Component.

Claims (11)

An atomizing mechanism for atomizing the liquid stored in the liquid storage tank, and having a liquid storage tank in which the liquid is stored;
A cleaning mechanism for obtaining a nebulized component in a clean state by purifying the liquid before being atomized by the atomizing mechanism or purifying the atomized component generated by atomizing the liquid by the atomizing mechanism;
A platinum fine particle generation mechanism that includes a discharge electrode having at least a surface portion formed of platinum, and generates platinum fine particles to be included in the clean atomized component obtained by the cleaning mechanism;
An ejection mechanism for ejecting the nebulized component in the clean state containing the platinum particulates generated by the platinum particulate generation mechanism to the outside of the housing;
A cosmetic liquid component mixing mechanism, which is provided at a position on the rear stage side of the discharge electrode provided in the platinum fine particle generation mechanism, and mixes a cosmetic liquid component into the atomized component ejected by the ejection mechanism;
Comprising
The essence component mixing mechanism is
A cosmetic liquid-impregnated member for impregnating the cosmetic liquid;
A cylindrical impregnated member mounting unit having a mounting portion on which the cosmetic liquid-impregnated member is detachably mounted and at least an inner wall portion made of platinum;
Cosmetic treatment apparatus comprising: a. The beauty treatment apparatus according to claim 1 , wherein the atomization mechanism includes at least one of a heater and an ultrasonic transducer. The cleaning mechanism includes a sterilization mechanism that sterilizes the liquid before being atomized by the atomization mechanism or the atomized component generated by atomizing the liquid by the atomization mechanism by contacting with ozone. The beauty processing apparatus according to claim 1 or 2 . It further claims 1, characterized in that it comprises a magnetized mechanism for applying a force to the atomization components generated by atomizing the liquid in front of the liquid or該霧mechanism to be atomized in the atomizing mechanism 3 The beauty treatment apparatus according to any one of the above. Claim wherein the cleaning mechanism, characterized in that it further comprises a light source for irradiating ultraviolet rays to the liquid or atomized component generated by atomizing the liquid該霧mechanism before being atomized in the atomizing mechanism The beauty processing apparatus according to any one of 1 to 4 . A liquid supply path for supplying liquid into the liquid storage tank of the atomizing mechanism;
The beauty treatment apparatus according to claim 1 , wherein the cleaning mechanism includes a ceramic filter provided in the liquid supply path. The cleaning mechanism includes a photocatalyst provided in at least a part of a path from the liquid supply path through the liquid storage tank of the atomization mechanism to the atomizing component ejection port of the ejection mechanism, and the photocatalyst toward the photocatalyst The beauty treatment apparatus according to any one of claims 1 to 6, further comprising a photocatalyst imparting mechanism including a light source that emits light that induces a reaction. The beauty treatment apparatus according to any one of claims 1 to 7, comprising one or a plurality of ionizers including the discharge electrodes. The beauty treatment apparatus according to any one of claims 1 to 8, further comprising a drainage mechanism for draining the liquid stored in the liquid storage tank of the atomization mechanism. Wherein toward the ejection direction of the atomized component ejected by ejection mechanism, any one of claims 1 to 9, further comprising a visible light emitting mechanism which emits visible light of a specific wavelength range The beauty treatment apparatus described in 1. The beauty treatment apparatus according to any one of claims 1 to 10, further comprising a fragrance imparting mechanism that imparts a fragrance capable of obtaining a skin beautifying effect to the atomized component ejected by the ejection mechanism.

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