KR20150035238A - Cosmetic spraying device using static electricity - Google Patents

Abstract

The present invention relates to a cosmetic spraying apparatus using static electricity.
The present invention relates to a cosmetic composition comprising a spraying means (19) for spraying a cosmetic liquid (10) into fine particles, a container (9) containing the cosmetic liquid (10) A DC power supply 14 for supplying power to the circuits 20 and a power supply 14 for supplying power to the electrodes 20. The DC power supply 14 supplies DC power to the electrodes 20, And a power switch 12 for controlling the power switch 12.
The atomizing means 19 may be constituted by a push button 1 having a nozzle 2 and a manual operation pump 23 composed of a spring 4 and valves 3 and 3 '
Another spraying means 19 is provided with a compressed gas 8 accommodated in the container 9 together with the cosmetic spray liquid 10 and a nozzle 2 for controlling the ejection of the compressed gas 8 It may be constituted by the push button 1.
Another spraying means (19) may be constituted by spraying water into the fine particles by an ultrasonic vibrator.
In the above configuration, the power switch may be constituted by a timer function switch.
A feature of the present invention resides in that when a power switch is turned on, a cosmetic spray liquid contained in a container is sprayed in a particulate state charged with electric charge by applying a high voltage through an electrode, and the spray particles having charge are attracted to a human body And is adsorbed deep into human skin.

Description

A cosmetic spraying apparatus using static electricity {omitted}

The present invention relates to a cosmetic spraying apparatus using static electricity. And more particularly, to a cosmetic spraying apparatus using static electricity capable of deeply supplying fine particles of charged cosmetic liquid as charged particles.

A conventional spraying apparatus for cosmetics includes a spray apparatus for moisturizing. Its purpose is to supply moisture to the skin to maintain skin moisturization.

In other words, there was a problem that the dry skin in winter caused a blemish on the skin of the cosmetic, and the dry skin did not eat makeup finely. Dry skin also has a problem causing itching. Therefore, conventionally, a spraying means having fine holes is provided in a container containing a moisturizing solution, and the moisturizing solution is sprayed like mist through the fine holes at the time of operation of the spraying means, thereby moisturizing the skin . This moisturized skin was able to prevent skin damage caused by dryness in the winter, and moist skin also had the effect of spreading well as the cosmetics closely adhered to the skin. Most of the moisturizing solution used in the conventional humidifier is water, but it has also been used for containing cosmetic ingredients having good functions for cosmetic purposes. As an example, a component that can calm the skin, or a mineral component, or an extruding component of a natural product, is contained in water and used.

Disadvantages of the prior art are that the water sprayed by the conventional spray device for moisturizing has a disadvantage that the particles of the sprayed water are so large that they are not easily absorbed into the skin, Only a part of it comes into contact with the skin, and only a part of the water particles contacting the skin are absorbed into the skin, so that the skin moisturizing efficiency is low.

On the other hand, it is well known that ionic water having a charge is easily absorbed into cells through the cell wall. It is a well known scientific fact that ionic drinks are absorbed much faster in human body than ordinary water.

Conventional techniques using static charge have a coating technique using conventional static electricity. In this technique, a high-voltage electrode is brought into contact with a liquid resin (for example, paint) dissolved in a solvent to cause a resin (paint) dissolved in the solvent to be sprayed through a nozzle , A paint device in which a negative electrode is provided in contact with an object to be painted, paint particles having a positive electric charge sprayed through a nozzle are electrostatically attracted to an object to be painted with a negative charge, . Such a conventional electrostatic coating apparatus is an industrial coating apparatus fixed to a painting factory by a high-pressure tank, a high-pressure compression pump, and a high-voltage generating apparatus. In addition, the paint applied in the form of fine particles to the object to be coated has the purpose of covering the surface of the object to be painted with a hard coating film layer by applying the surface of the object to be painted by solidifying the solid after volatilization of the solvent after a certain time It was an industrial device. Accordingly, the coating layer functions to block external moisture when the object to be coated is iron, thereby preventing the object to be coated from being oxidized by the external moisture to generate rust. In addition, the coating layer also serves as a coating agent for applying a color to the surface of the coated body to make the coated body appear as a new color. Such a conventional electrostatic coating apparatus causes paint particles to adhere to an object to be coated with static electricity, and the principle is that a repulsive force acts between charges of the same polarity, which is known in the scientific community for a long time, It is based on the principle that mutual attraction acts between charges. The present invention applies such a conventional electrostatic electrostatic coating technology to a portable cosmetic spraying apparatus (mist).

There is provided a method and apparatus for spraying particles of cosmetic liquids sprayed from the cosmetic spraying apparatus of the present invention into a state of being decomposed into finer ultrafine particles than conventional spraying apparatuses. The present invention also provides a method and apparatus for subjecting injected ultrafine particles to a force that is more sucked into the human body than conventional. It also suggests a method and device for penetrating subcutaneous particles into skin deep into the skin.

(For example, both electrodes) at any stage in the vessel before the cosmetic liquid in the cosmetic spraying apparatus (mist) of the present invention is sprayed to the outside. Accordingly, the particles of the cosmetic liquid sprayed to the outside at the time of operation of the apparatus of the present invention are configured to be sprayed to the outside with a large amount of static charge (e.g., positive charge).

The method for spraying liquid for cosmetic use according to the present invention may be constructed by a spray method having a manual compression pump for spraying charged particles through a nozzle at the time of compression operation of a pump by manual operation, The gas may be accommodated in a container containing the cosmetic liquid so that the cosmetic liquid is sprayed (sprayed) by the force of the high-pressure gas when the operation button is operated.

As another method, the cosmetic water may be vibrated with the ultrasonic vibrator to spray fine water particles, and the cosmetic water may be sprayed in a state of being electrically charged to a high voltage.

There is an effect that particles of a superfine cosmetic liquid (for example, mist liquid) electrostatically charged (for example, cationic) are injected during the operation of the apparatus of the present invention so that they are more finely decomposed and sprayed into the superfine state .

Also, the charged ultrafine water particles have an effect of supplying a large amount of the cosmetic liquid component in a superfine state to the skin side of the human body by acting on the skin side by the force of attraction to the skin due to the electrostatic attraction force with the human body.

In addition, since the electrically charged particles in the form of ultrafine particles (e.g., microparticles or nanoparticles) smaller in size than the conventional ones are supplied to the skin, the cosmetic liquid component can penetrate deeper into the skin than before .

The present invention can be made portable if the structure is simple and various parts are reduced and integrated with the container, so that it is easy to carry.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side cross-sectional view of an embodiment of the present invention when a cosmetic liquid is sprayed using a high-pressure gas. Fig.
2 is a side cross-sectional view of an embodiment of the present invention in the case of spraying a cosmetic liquid using a manual pump.
Fig. 3 is a side cross-sectional view of one example of the present invention in the case where circuit component parts are formed in a separate room (circuit chamber) formed on the side surface of the container.
FIG. 4 is a side cross-sectional view of an example of the present invention, in which the coated wire is installed on the outer wall of the container in FIG. 3;
5 is a side sectional view of the present invention showing a state in which a coated wire is drawn out of the container
6 is a side cross-sectional view of another embodiment of the present invention in which the DC high voltage generating means and the power source are housed in an outer case installed outside the container and connected to the container only by a high voltage line.
7 is a side cross-sectional view of another embodiment of the present invention in which only the DC high voltage generating means is integrated in the lower part of the vessel and integrated with the vessel, and the power is supplied from the DC output line of the external DC adapter.
8 is a side cross-sectional view of still another configuration of the present invention.
Explanation of key symbols in the drawings.
1. Push button 2. Nozzle
3. 3 '. Valve 4. spring
5. 5 '. Access door 6. inlet pipe
7. Slope 8. Compressed gas
9. Container 10. Cosmetic liquid
11. Insulation case 12. Power switch
13. Bottom 14. Power
15. DC high voltage generating means 16. Upper lid
17. Cylinders 18. Pistons
19. Spraying means 20. Electrode
21. Circuit Room 22. Container Room
23. Pump 24. Charged humidified liquid
25. Rubber stopper 26. Coated wire
27. High voltage line 28. External case
29. DC output line 30. DC adapter
31. Base 32. Contact terminal 1
33. Contact terminal 34. Guide

[Configuration]

The present invention relates to a cosmetic composition comprising a spraying means (19) for spraying a cosmetic liquid (10) into fine particles, a container (9) containing the cosmetic liquid (10) A DC power supply 14 for supplying power to the circuits 20 and a power supply 14 for supplying power to the electrodes 20. The DC power supply 14 supplies DC power to the electrodes 20, And a power switch 12 for controlling the power switch 12.

The atomizing means 19 may be constituted by a push button 1 having a nozzle 2 and a manually operated pump 23 composed of a spring 4 and valves 3 and 3 '

Another spraying means 19 is provided in the container 9 with a pressurized body 8 accommodated with the cosmetic liquid 10 and a nozzle 2 for controlling the ejection of the compressed body 8 together Button (1).

Another spraying means (19) may be constituted such that water is brought into contact with the ultrasonic vibrator so that the water particles are sprayed by the vibration of the water by the ultrasonic vibrator. The ultrasonic humidification apparatus for this purpose may be constructed by using a known ultrasonic humidification apparatus. In this case, the water supplied to the ultrasonic vibrator is made to contact one polarity of the high voltage.

An electrode 20 installed to supply electric charge to the cosmetic liquid 10 in the container 9 can be formed in such a manner that the electrode 20 is disposed outside the container 9 when the container 9 is a metal container Can be configured to be contacted and installed.

As another method for installing the electrode, the electrode 20 may be provided so as to pass through the container 9 so that the electrode 20 contacts the cosmetic liquid in the container 9 through the container 9 have. When the electrode 20 is installed so as to pass through the container 9, the container can be used regardless of whether the container is made of metal (conductive) or non-metallic (nonconductive).

The power switch 12 may be configured such that the on-off operation is manually operated.

Alternatively, when the upper lid 16 is opened and closed, the power switch may be operated in conjunction with the upper lid.

The cosmetic liquid 10 may be composed of a liquid for moisturizing. Alternatively, the cosmetic solution liquid 10 may be a cosmetic liquid containing ingredients useful for various skin cosmetics.

The moisturizing liquid may be composed of minerals, extracts of natural products, etc. which are useful for skin care.

It is preferable that the electrode 20 is formed of a positive electrode since the human body functions as a groove.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Example 1.

The configuration of Embodiment 1 of the present invention is the same as Embodiment 1 except that a conventional compressed gas spraying apparatus using a compressed body 8 accommodated in the container 9 together with the cosmetic liquid 10 is used as the spraying means 19 Is an embodiment of the present invention in the case where the present invention is constituted by using the above-

That is, the pressurizing body 8 is accommodated in the container 9 together with the cosmetic liquid 10, and a push button 1 having a nozzle 2 is provided on one side of the upper end of the container 9, A spring 3 which is opened when the liquid 1 is pressed and a spring 4 which serves to push and close the valve 3 and an inflow pipe 6 through which the liquid for cosmetic 10 flows into the nozzle 2, And the electrode 20 is installed in contact with the surface of the container 9 as shown in FIG. 1 on one side (for example, a lower end portion) of the container 9 when the container 9 is a metallic material container 9 The electrode 20 is configured to penetrate the container 9 and to be in contact with the cosmetic liquid 10 inside the container 9 if the container 9 is an electrically non- A DC high voltage generating means 15 for supplying a DC high voltage to the electrode 20, a power source 14, a DC high voltage generating means 15 and the electrode 20 are accommodated The bottom two (11) functioning to electrically insulate the container (9) made of a metallic material when the container (9) is made of a metallic material, and an insulating case (11) A power switch 12 and an upper lid 16,

In the above configuration,

The slant face 7 is provided inside the lower end of the upper lid 16 so that the power switch 12 is turned off by the slant face 7 when the upper lid 16 is closed, The power switch 12 may be interlocked with the opening and closing operation of the upper lid 16 so as to be turned ON when the lid 16 is opened.

The push button (1) is made of electrically non-conductive material.

The electrode 20 may be provided so as to be in contact with any outer surface of the container when the container 9 is a metal container or may be provided in contact with the inner cosmetic liquid 10 through the container 9, . However, if the container 9 is a container 9 made of an electrically non-conductive material, the electrode 20 is installed to be able to contact the cosmetic liquid 10 through the container 9 .

In the above configuration,

Since the human body electrically serves as a ground, the electrode is preferably a positive electrode.

In the above configuration,

The power supply 14 may be a battery or a DC power source connected to the inside of the vessel 9 from a DC adapter outside the vessel.

In the above configuration,

1, the inflow pipe 6 is made of a metal material, and a contact spring (not shown) having a length capable of coming into contact with the inner surface under the container 9 is installed at the end of the inflow pipe 6 The high voltage may be supplied to the liquid inside the container through the electric container, the springs, and the inlet pipe 6.

Example 2.

The configuration of the second embodiment of the present invention is such that the valve 3, 3 ', the cylinder 17, the piston 18, the spring 4 and the openings 5, 5' In which the present invention is constituted by using a spray apparatus using a conventional manual-operation pump 23 having the above-described structure.

The configuration of the second embodiment will be described in detail with reference to the accompanying drawings.

A container 9 for containing the cosmetic liquid 10, a spraying means 19 for spraying the cosmetic liquid 10, a DC high voltage generating means 15, a DC high voltage generating means 15, Is connected to an output terminal (e.g., both terminals), and one end is brought into contact with the cosmetic liquid 10 at an arbitrary position in the container before the moisturizing liquid 10 is sprayed out, An electrode 20 installed to supply electric charge to the DC high voltage generating means 15 and a power source 14 for supplying power to the DC high voltage generating means 15.

The power source 14 may be a battery or a DC power source connected from the DC adapter outside the vessel to the inside of the vessel.

The atomizing means 19 in the second embodiment has the same configuration as that of the conventional manually operated pump 23. That is, the piston 18 which moves up and down in the cylinder 17 constituting the pump 23, the spring 4 which functions to restore the piston 18, and the opening and closing ports 5 and 5 ' And the valves 3 and 3 'are integrally incorporated.

In the configurations of the first and second embodiments of the present invention,

The cosmetic liquid may be composed of a liquid for moisturizing.

The moisturizing liquid may be composed of water containing any biological and / or chemical ingredients capable of contributing to skin care.

The moisturizing liquid may be composed of at least one selected from pure water, aqueous solution of bamboo sap, aqueous solution of green tea component, aqueous solution of mineral component, aqueous solution of hyaluronic acid plumper component and oil (oil component).

In the above configuration,

The DC high voltage generating means 15 and the electrode 20 are easily separated from the container 9 to replace only the container containing the cosmetic liquid 10 when the cosmetic liquid 10 is exhausted So that a high voltage can be supplied to the cosmetic liquid (10) again when the DC high voltage generating means (15) is recombined. In order to achieve this, the whole of the container 9 is made of metal, and a part of the lower end portion of the metal material container 9 is covered with an insulating material, The metal below the vessel 9 may be exposed so that the electrode 20 can be contacted.

Alternatively, the container 9 may be made of an electrically insulating material, and when the container 9 is reattached to the device, the electrode 20 may pass through the bottom of the container 9, The electrodes 20 are provided so as to be sharpened at the ends of the electrodes so that the electrodes 20 penetrate the container 9 and come into contact with the cosmetic liquid 10 in the container 9 even when the container 9 is replaced . In this case, as shown in Fig. 2, a hole having a certain size is formed in the lower part of the container, the hole is made of a rubber stopper so that the hole is closed, and an electrode The electrode 20 may flow into the container 9 while the rubber stopper 20 penetrates the rubber stopper 25.

4, the container 9 is made of an electrically insulating material, and a metal piece (not shown) is installed in advance in the lower end portion of the container 9 so as to pass through the container. The electrode 20 may be automatically brought into contact with the metal piece (not shown) passing through the container 9 when the container 9 is joined.

In the above-described configuration of the present invention, the operation of the power switch 12 may be interlocked with opening and closing of the upper lid 16. [ For this purpose, the power switch 12 is positioned at a position where the power switch 12 can be pressed when the upper lid 16 is closed, and the inclined surface 7 is formed inside the lower end portion of the upper lid 16, 7 may be configured to turn off the power switch 12 when closing the upper lid as described above. In another configuration, when a long bar (not shown) is provided between the upper lid 16 and the power switch 12 installed at the lower end, when the upper lid 16 is closed, The power switch 12 may be operated. As a further alternative, the power switch 12 may be provided at the upper side position and operated in conjunction with the opening / closing of the upper lid 16.

Example 3.

The third embodiment, which is another constitutional example of the present invention, is shown in Figs. 6 and 7. Fig. That is, the present invention may be applied to a case where the volume of the component parts of the present invention is sufficiently large so that it is difficult to integrate with the container. 6 shows a configuration in which all components (high voltage generating means and power supply) are housed in the outer case 28 and connected to the container 9 by a high voltage line 27. [ 7, the high voltage generating means 15 is integrated below the container 9 and the container 9 is connected to the DC output line 29 of the DC adapter 30 in the external case 28 It is needless to say that it can be constituted.

Example 4.

The present embodiment is an example of a configuration in which, when used in the configuration of the third embodiment, the connecting wires are not connected to the container 9 and are convenient for use.

The configuration of the fourth embodiment is as follows.

8, a DC high voltage generating means 15 and a power source 10 having a battery function are built in the lower portion of the vessel 9 and the contact terminal 1 32 is provided on the bottom surface of the vessel 9, The contact terminal 2 33 connected to the output of the contact terminal 30 is provided on the top of the pedestal 31 at a position where the contact terminal 2 can be brought into contact with the contact terminal 1 when the container 9 is placed on the pedestal 31, And a pedestal 31 on which a guide 34 for guiding the installation position of the container 9 is installed.

Here, the pedestal 31 may be connected to an output line of an external DC adapter, or a DC adapter may be embedded in the pedestal 31. 8 shows an example in which the DC adapter is not installed and is installed separately on the outside.

Further, the contact terminal 1 (32) and / or the contact terminal 2 (33) may be made of a spring metal.

The power switch 12 of Figs. 6 and 7 may be constituted by a switch having a timer function.

In all the embodiments of the present invention described above, it is of course possible to accommodate all the cosmetic liquid components in a dilute liquid state including the liquid for moisturizing in the container 9. [

Example 5.

In this embodiment, the ultrasonic vibrator is installed on one side of the container like a conventional ultrasonic humidification device, and the electrode 20 to which a high voltage is applied is installed in the container, The water particles sprayed by the ultrasonic vibrator are configured to have a static charge.

[Action]

[Action of Example 1]

The operation of the structure of the first embodiment using the pressure of the compressed gas will be described in detail as follows.

1, when the user manually turns on the power switch 12 or opens the upper lid 16, the power switch 12 that has been pushed by the inclined surface 7 is released, ) do. Then, power is supplied to the DC high voltage generating means 15, and a high voltage is generated. Whereby the cosmetic liquid 10 in the container 9 is supplied with electric charge. That is, if the container 9 is a metal container 9, the metal container 9 is used as a conductor by the electrode 20 in contact with the metal container, Is applied to the periphery of the electrode 20 which is in contact with the cosmetic liquid 10 with a charge of polarity opposite to that of the electrode 20 by applying a DC high voltage to the electrode 20, And is charged with electric charges having the same polarity. If the electrode 20 is a positive electrode, the negative charges are concentrated in the vicinity of the electrode 20 and the cosmetic liquid inside the container in a position far from the electrode 20 is charged with positive charge. If the container is a container made of a non-conductive material, the electrode 20 is installed in the container 9 so that the electrode 20 contacts the cosmetic liquid 20 in the container 9 So that the cosmetic liquid 10 becomes charged.

Then, when the user presses the push button 1 provided with the nozzle of the spraying means 19, the valve 3 is opened, and the pressure of the high-pressure compressed air 8 stored in the container causes the cosmetic liquid 10 to flow into the inflow pipe 6 And then sprayed to the outside through the nozzle 2. At this time, the fine particles of the cosmetic liquid 10 sprayed to the outside through the nozzle 2 are discharged with a charge of the same polarity as the polarity of the electrode. The particles of the opposite polarity to the polarity of the electrode 20 are held around the electrode 20 and the charges of the particles that are sprayed to the outside are charged with the same polarity as the polarity of the electrode 20. Thus, repulsive repulsive forces act between the charges distributed in the externally sprayed particles, and the particles eventually re-decompose into smaller ultrafine (nano-cation particle) particles. Among the particles thus sprayed, the size of the particles is so small that they contain a large number of ultra-fine (eg, nano) particles in an invisible size. The amount of these charged ultrafine particles (nanoparticles) will increase further as the magnitude of the high voltage applied to the electrode 20 increases.

Ultrafine particles (for example, nanoparticles) charged with such a high voltage charge are attracted to the human body by the electrostatic force, and are concentrated on the skin side of the human body and adsorbed to the human body. That is, the human body electrically acts as a ground, and the atomized fine particles and ultrafine particles charged are attracted to the human body and sucked.

If the sum of the repulsive force between these charges distributed on the surface of the atomized fine particles and the atomizing force due to the sudden pressure drop of the ignition powder is greater than the cohesive force of the molecules of the cosmetic liquid 10, It is sprayed in a split state again in the form of finer fine particles (nanoparticles) by repulsion. The ultrafine particles that are sprayed are attracted to the surface of the skin, which acts as an earth, and are concentrated on the human body. In other words, since the fine particles have a charge, the human body functions as a ground (negative) function, so that the sprayed fine particles and the ultrafine particles are attracted to the human body and attracted to the body . This mechanism works the same in all of the embodiments of the present invention.

The electrode 20 may be provided so as to be in contact with the surface of the container when the container 9 is a metal container but in this case the container may be made of a nonconductive material such that the charge is not discharged through the user's hand when the user holds the container It is of course constructed to be enclosed in an insulating case. However, it goes without saying that the electrode 20 is installed through the container 9 so that the electrode 20 can be brought into contact with the cosmetic liquid 10 in the container if the container is made of an insulator (e.g. plastic) . Alternatively, a metal piece (not shown) may be provided in advance on one side of the container of the nonconductor so as to penetrate the container, and the electrode 20 may be provided in contact with the metal piece.

In the conventional spray for skin moisturizing, although the sprayed particles are sprayed toward the human body, a large amount of water is dispersed in the air, and the amount of water adsorbed on the skin surface of the human body is very low. However, Since the liquid particles for moisturizing sprayed in the case of receiving and spraying the liquid are electrostatically charged, a large amount is attracted to the human body due to the suction force to the human body side due to the electrostatic force, so that the rate of reaching the human skin surface is much higher (Nanoparticles) are contained in a larger amount than in the prior art. Therefore, as the particle size is small, it is easy to penetrate deeply into the skin and the skin has a higher moisturizing effect .

In addition, the liquid particles sprayed in the apparatus of the present invention are charged particles that are charged and adsorbed to the skin to be absorbed and absorbed into the skin deeper than in the prior art. This is the same principle that the electrically charged ion water is better absorbed by the human body.

The operating procedure of the present invention described above is such that the spraying means is stored in the container 9 together with the cosmetic liquid 10 and the compressed gas 8 is discharged to the outside through the nozzle by the force of the compressed gas 8 For example, as shown in Fig.

[Operation of Embodiment 2]

The second embodiment is a case where the spraying means 19 is constituted by a pump 23 of a manual compression type as shown in FIG. 2, and its operation will be described in detail as follows.

2, when the upper lid 16 is opened, the slope 7 provided on the inner surface of the lower end of the upper lid 16 is released, and the power switch 12 is turned on. Then, the DC high voltage generating means 15 is activated and a high voltage appears on the electrode 20. Accordingly, the cosmetic liquid 10 that is in electrical contact with the electrode 20 has a charge (for example, positive charge) as described in the first embodiment.

Next, when the user strongly presses the push button 1 of Fig. 2, the piston 18 connected thereto is lowered and the valve 3 in the cylinder 17 is closed and the valve 3 'is opened, The cosmetic liquid 10 is compressed. The cosmetic liquid 10 in the compressed cylinder 17 is sprayed to the outside through the nozzle 2. When the push button 1 is released, the piston 18 is raised by the repulsive force of the built-in spring (4). At this time, the valve (3) opens the opening / closing port (5) Closes the opening / closing port 5 'so that the liquid 10 for moisturizing in the container 9 flows back into the cylinder 17 through the inlet pipe 6 and replenished. Accordingly, when the push button 1 is repeatedly pressed, it is sprayed continuously.

At this time, the fine particles of the spraying cosmetic liquid 10 are sprayed in a state of being charged with a large amount of electric charge. When the charge is sufficiently large, the fine particles are again repelled by the mutual repulsive force among the charges of the same polarity distributed in the particles It decomposes into ultrafine particles and is sprayed. The action and effect of these fine particles and ultrafine particles are the same as in the first embodiment. Needless to say, the construction and operation principle of the pump 23 of the manual operation type used in the second embodiment are well known.

2 is an example of the present embodiment in which the container 9 is made of a nonconductive material (e.g., plastic). If the container 9 is composed of a metal container 9, the electrode 20 may be configured to contact the outer surface of the container 9 (e.g., under the container) as shown in Fig. When the container 9 is made of metal, it is needless to say that the insulating case (not shown in FIG. 2) is provided outside the container as shown in FIG. In this case, it is needless to say that when the user holds the insulating case by hand, the charges of the cosmetic liquid inside the metal container 9 are prevented from being discharged through the human hand. In this case, it is needless to say that even when the container 9 is made of metal, the electrode 20 can be configured without contacting the outer surface of the container 9. That is, it is needless to say that the electrode 20 may be configured to penetrate through the metal container 9 as shown in FIG.

When the present invention is configured using the pump 23 of the manual operation type as in the second embodiment, it is possible to use the metal container for the high pressure without using the metal container, so that the container 9 can be made of a plastic material, There is a low cost feature. Also, the structure is simple and it is easy to constitute a portable device.

It is needless to say that the cosmetic liquid 10 used in the second embodiment may be a liquid for moisturizing, as in the first embodiment. In the case of a liquid for moisturizing, it may be pure water, or it may be water in which ingredients useful for skin cosmetics are dissolved.

The foregoing first and second embodiments show an example in which the electrode 20 and the DC high voltage generating means 15 are built in the lower part of the container 9. [ However, when the circuit components (for example, DC high voltage generating means) are sufficiently large as shown in FIG. 3, the container 9 is installed in a separate container chamber 22 as shown in FIG. 3, The DC high voltage generating means 15 may be disposed in a separate circuit chamber 21 located at a position where the DC high voltage generating means 15 is located. This case is an example of an installation method useful when the DC high voltage generating means 15 is large enough not to be embedded under the container 9. In this case as well, it is needless to say that the function of spraying the cosmetic liquid 10 in a state of being charged is the same.

In the first and second embodiments, the power source may be a battery or a DC power source supplied from an external DC adapter.

It is also common sense that the present invention can be constructed using any known spraying means other than the spraying means mentioned in the first and second embodiments. It goes without saying that this case also belongs to the scope of the present invention. For example, it is possible to use a spraying means which is sprayed while a liquid is introduced into a low-pressure generating position by a high-speed jet stream, a means which evaporates the liquid by a heating device to spray it in the form of water vapor, All known spraying means may be used, such as a spraying means for spraying the liquid through a nozzle while compressing the liquid with a pump.

Further, in order to enhance the effect of the present invention, it is preferable that a user inserts an electrode which is not induced into the container among the electrode terminals of the DC high voltage generating means 15, that is, the other electrode not used in Embodiment 1 and Embodiment 2 It is also possible to connect the lead wire 26 and make it contact with the body (e.g., a hand) at the time of use. If the electric charges of both electrodes are supplied into the container 9, the negative electrode, which is the other electrode, is a coated wire (coated wire in which the entire wire is weakly insulated so as not to generate a sudden strong discharge between the human body) When the user holds the present invention with one hand and operates the spray when using the present invention, the coated wire 26 connected to the negative electrode is brought into contact with the other hand (or a part of the body) . For example, the coated wire 26 connected to the other electrode (negative electrode) may be fixed to the outer wall of the container 9 as shown in FIG. 4, so that when the user holds the container, The body of the user may be brought into contact with the coated wire 26 of the battery case 1 or may be configured to be pulled out to the outside as shown in Fig. When the body is in contact with the coated wire 26 of the weak insulator material, when the body skin is electrostatically charged at a constant charge, it is discharged to the negative electrode side through the coated wire 26 to some extent The particles of the charge injected from the nozzle are strongly attracted to the human body by keeping the potential of the body low. The reason that the potential of the body is lowered when the coating wire 26 contacts the user's body is presumably due to the leakage current through the coating of the coated wire 26 of the insulated insulator material connected to the cathode.

[Operation of Embodiment 3]

The DC high voltage generating means 15 and the power source 14 are housed in the outer case and connected to the container 9 only by an electric wire as shown in FIG. Since the generating means 15 is integrated and integrated with the container and the DC adapter is incorporated in the outer case 28, the container 9 is connected to the output line of the DC adapter. Therefore, the power supplied to the DC high voltage generating means 15 provided below the vessel 9 is supplied from the DC adapter 30 incorporated in the outer case 28.

The third embodiment is a structure of an embodiment of the present invention for the case where the volume of the parts is large and it is difficult to integrate with the container 9, and the principle of the fundamental operation that generates the action and effect of the charge of the atomized particles is as follows. This is the same as Example 1 and Example 2.

[Operation of Working Example 4]

8, when the container 9 is placed on the pedestal 31, the output voltage of the DC adapter 30 flows through the contact terminal 2 (23) and the contact terminal 1 (32) And the power supply 10 is supplied to the DC high voltage generating means 15 which is internalized together with the power source 10 serving as the battery cell in the lower portion of the vessel 9 . A high voltage is output from the output terminal of the DC high voltage generating means 15 and the high voltage is introduced into the container 9 by the electrode 20 provided so as to pass through the container 9, Is applied to the cosmetic liquid. Accordingly, the cosmetic liquid 10 is supplied with a static charge.

When the user lifts the container 9 to use the present invention, the contact terminal 1 (32) is released from contact with the contact terminal 2 (33) and the power supply from the DC adapter is cut off. However, the DC high voltage generating means 15 built in the lower part of the vessel 9 can not move the container 9 to the pedestal (not shown) because the power source 10 having the battery function built in the lower part of the vessel 9 is already charged. 31, the DC high voltage continues to be generated. Therefore, when the container 9 is lifted up from the pedestal and operated, the fine particles to be sprayed at this time are sprayed to the charged fine particles by the action in the above-described embodiments. The specific action and effect of spraying the cosmetic liquid in a state of static charge are the same as in Examples 1.2 and 3. [

The feature of this embodiment is that when the container 9 is lifted for use, the container 9 is not connected to any external connection wires, and thus the convenience of use is increased.

The action of Example 5.

The liquid is in contact with the ultrasonic vibrator of the present embodiment, and the liquid is in contact with the high-voltage electrode 20. Therefore, the particles of water sprayed to the outside by the vibration of the ultrasonic vibrator are sprayed with the charged static electricity charged by the high voltage, so that the water charged by the above-mentioned principle receives a force attracted to the three- And the fine particles are broken due to the mutual repulsive force of the high voltage static electricity, so that they are adsorbed to the human body in a state of being crushed into finer fine particles.

In the above-described various embodiments, it is preferable that the internal circuit of the DC high voltage generating means 15 and the ground line of the DC adapter are grounded. Also, it is preferable to discharge the static charge accumulated in the human body during daily life by discharging the ground wire after the user touches the ground wire before using the present invention.

Since the human body can live on the ground, in principle, the human body can serve as a ground, so that the polarity of the electrode 20 of the present invention also becomes a positive electrode, so that the charges of the sprayed particles are attracted to the human body by positively charging .

In all the embodiments of the present invention heretofore described, in the container 9, not only the conventional liquid for moisturizing but also any liquid component in a dilute liquid state is accommodated in the container 9 Can be used.

Claims (4)

In a conventional cosmetic spraying apparatus (mist)
An electrode provided to supply electric charge to the cosmetic liquid (10) in the container; and a DC high voltage generating circuit for supplying a high voltage to the electrode A power supply for supplying power to the circuits, and a power switch for controlling supply of the power supply. The method according to claim 1,
Wherein the spraying means is configured to spray the compressed gas accommodated in the container into the nozzle when the button is operated. The method according to claim 1,
Wherein the atomizing means is configured to inject liquid into the nozzle when the manual pump is operated. The method according to claim 1,
Wherein the spraying means is configured to spray the liquid by vibrating the container by the vibration of the ultrasonic vibrator.
The method according to claim 1,
Wherein the DC high voltage generating means is constituted such that one polarity of the electrode is made to be in contact with the liquid and the remaining polarity is connected to the coating wire so that the user operates the coated wire in a state of being in electrical contact with the human body A cosmetic spraying device using static electricity.

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