KR20140082286A - Portable mist injection device - Google Patents

Abstract

A portable mist injection device according to an embodiment of the present invention comprises a first container having a first container cap capable of opening and closing for the outside, and storing a first solution supplied from the outside; a first flow path installed in a tube shape penetrating the inner part of the first container and having one or more hole in a tube range located inside the first container; a first hydrogen capsule stored inside a first capsule housing comprising a first inlet and a first outlet connected to the first flow path; a first pump stored inside the pump housing comprising a second inlet and a second outlet connected with the first outlet, and controlling the first solution stored in the first container discharged to the outside through a first injector; a second hydrogen capsule stored inside a second capsule housing comprising a third inlet and a third outlet connected to the second outlet; and the first injector injecting the solution flowed in from the third outlet to the outside.

Description

[0001] PORTABLE MIST INJECTION DEVICE [0002]

The present invention relates to a portable mist sprayer for cosmetics, and more particularly, to a portable mist sprayer for cosmetics, and more particularly, to a portable mist sprayer for cosmetics, in which a liquid type lotion is changed into a mist form using an ultrasonic and spiral spraying device, The present invention relates to a portable mist sprayer for a portable mist sprayer.

In general, the skin is affected by age, environment, and season, and its condition is not constant. It lacks natural defenses by sweat and sebum, so it needs to supplement the skin with nutrients or help defend the skin through cosmetics.

For example, lotions are divided into three lines that are used for acidic, alkaline, or neutral skin. Acidic lotion is used for youthful skin with sweat and sebum secretion. Alkaline lotion is used for middle-aged skin where aging begins. Maintain softness, elasticity, and suppleness, and neutral lotion is used for normal healthy skin.

In addition, as a method of applying cosmetics to the skin, there is a method in which the lotion is once applied to the hands, and the lotion on the hands is rubbed at the same time as the face, and the lotion is infiltrated onto the surface of the skin.

However, when the liquid lotion is rubbed on the skin as in the above-described method, the particle size of the liquid lotion is so large that the skin penetration is not smooth.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a portable mist sprayer capable of more rapidly absorbing skin lotion to protect skin against harmful substances or harmful environments SUMMARY OF THE INVENTION

According to an aspect of the present invention, there is provided a portable mist sprayer comprising: a first container cap capable of being opened and closed with respect to the outside; A first container for storing the first container; A first flow path provided in a tube shape penetrating the inside of the first container and having at least one hole formed in a tube region located inside the first container; A first hydrogen capsule accommodated in a first capsule housing including a first inlet connected to the first flow path and a first outlet; A first pump accommodated in a pump housing including a second suction port and a second discharge port connected to the first discharge port and controlling the first solution stored in the first container to be discharged to the outside through the first injector; A second hydrogen capsule accommodated in a second capsule housing including a third inlet and a third outlet connected to the second outlet; And a first injector for injecting the solution introduced from the third outlet to the outside.

According to another aspect of the present invention, there is provided a portable mist sprayer, wherein the portable mist sprayer is implemented in a pocket-like shape in which a cover swings and slides sideways, And the injection level is adjusted to one or more levels, and the first pump is an electronic pump that operates by converting electric energy supplied from the battery into kinetic energy.

In the portable mist sprayer according to an embodiment of the present invention, the first solution accommodated in the first container is introduced into the first flow path through the hole of the first flow path according to the operation of the first pump Wherein the first hydrogen solution is introduced into the first capsule housing through the first inlet port and the first solution is combined with hydrogen through the first hydrogen capsule, the first hydrogen solution is discharged through the first outlet, the second inlet, The second hydrogen solution is introduced into the second capsule housing through the third inlet via the second outlet and the second outlet, and the second hydrogen solution, in which the first hydrogen solution is combined with hydrogen through the second hydrogen capsule, 3 to the first injector.

According to another aspect of the present invention, there is provided a portable mist sprayer comprising: a second container having a second container cap which can be opened and closed with respect to the outside, the second container being supplied with the second solution; A second flow path provided in a tube shape passing through the inside of the second container; A second pump housing accommodated in the second pump housing and configured to pump the second solution contained in the second container through the second flow passage, the second pump housing including a fourth suction port and a fourth discharge port connected to the second flow path, A second pump including a piston sucked through operation and delivered to a second injector, and a pressurizer coupled with the piston to induce the pumping action of the piston; A button connected to the pusher of the second pump and transmitting a pressure transmitted from the outside to the pusher; And a second injector connected to the fourth outlet of the second pump housing and injecting the second solution delivered through the fourth outlet.

According to the portable mist sprayer of the present invention, the solution such as water can be sprayed after passing through the maximum cross-sectional area of the hydrogen capsule including the hydrogen ball, so that the function can spray the maximized enhanced hydrogen- The effect can be obtained.

Further, according to the portable mist spraying apparatus of the present invention, not only the electronic spraying apparatus for spraying the hydrogen water but also the mechanical spraying apparatus for spraying various lotions such as fragrance can be provided so that the user can apply various kinds of lotion It is possible to obtain an effect that the spray can be easily performed whenever and wherever it is needed.

1 is a cross-sectional view illustrating the configuration of a portable mist sprayer according to an embodiment of the present invention.
2 is a diagram illustrating a detailed configuration of a first injector of a portable mist injector according to an embodiment of the present invention.
3 is a longitudinal sectional view of a first jetting port of a portable mist ejection apparatus according to an embodiment of the present invention.
FIG. 4 is a view showing a detailed configuration of a first injecting apparatus of a portable mist injecting apparatus according to an embodiment of the present invention.

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

1 is a cross-sectional view illustrating the configuration of a portable mist sprayer according to an embodiment of the present invention.

The portable mist injector 1000 according to the present invention includes a first injector 100, a first pump 110, an MCU 120, a first injection button 130, a first container cap 140, The second injection valve 200, the second pump 210, the second injector 150, the first container 160, the first flow path 170, the spray level controller 180, the water level sensor 190, A second container 250 and a second container 260. The second container 250 includes a charging terminal 270, a battery 280, and a body 290. The second container 250 includes a first flow path 220, a second flow path 230, a second container cap 240, .

The body 290 of the portable mist sprayer 1000 may be formed in a circular shape, and the material may be formed of synthetic resin and metal. The first injector 100 positioned above is formed in a circular shape, and one or more piezoelectric elements formed by one or more fine holes may be accommodated therein. The first injector 100 may be connected to the first pump 110 located on the right side through a connection pipe.

The first pump 110 may be installed in an upper area of the microcontroller unit (MCU) 120. The microcontroller unit (MCU) 120 can control the injection of the first solution 150 through the first injector 100. The MCU 120 can be formed with a drive circuit and a charge circuit. The first solution 150 may be implemented in water. The charging terminal 270 may be installed on the left side of the body 290. The charging terminal 270 is connected to the battery 280 through a circuit and can be connected to the microcontroller unit (MCU) 120.

The first injection button 130 may control the first injector 100 to inject the first solution 150. A first container 160 may be installed on the body 290 under the microcontroller unit (MCU) 120. The first container 160 may be formed as an upper and lower side, a left side plane, and a right side as an arc, and the material may be a synthetic resin. The first solution (150) may be accommodated in the first container (160).

In addition, the first container cap 140 may be inserted into the right side surface of the first container 160 at a position of 20 ° to 40 °. The first flow path 170 is connected to the lower portion of the first pump 110 and can be inserted and accommodated above the first container 160. The first solution 150 may be supplied to the first pump 110 through the first flow path 170. A water level sensor 190 may be installed on the left side wall of the first container 160. The water level sensor 190 may be connected to the MCU 120 through the circuit and connected thereto, and may measure the amount of the first solution 150. The amount of the first solution 150 can be displayed through an external display window.

A spray level controller 180 may be installed on the body 290 below the first container 160. The lower end of the ejection level controller 180 may be formed in a cylindrical shape, and a rotation axis formed in a cylindrical shape may be formed on the upper center axis. The rotary shaft can be rotated in clockwise and counterclockwise directions and can be realized as a variable resistor which can change the resistance value continuously or discontinuously according to the amount of rotation. The injection level controller 180 is connected to the MCU 120 and controls the electric energy supplied to at least one piezoelectric element accommodated in the first injector 100 to control the injection amount of the first solution 150 can do.

The second injection button 200 can be inserted into the tangent portion above the body 290 and received therein. A second injector 220 may be installed below the second injection button 200. The second injector 220 may be connected to the second pump 210. The second pump 210 may communicate with the second container 260 through the second flow path 230. The right and bottom surfaces of the second container 260 are formed in a plane, and the left and top surfaces are formed as arcs, and the material thereof may be realized by a synthetic resin. The second solution 250 may be accommodated in the second container 260. A second container cap 240 may be inserted into the left and upper surfaces of the second container 260.

2 is a diagram illustrating a detailed configuration of a first injector of a portable mist injector according to an embodiment of the present invention.

The first injector 100 of the portable mist injector 1000 according to the present invention is connected to the first pump 110. The first pump 110 may be connected to the first hydrogen capsule housing 111 and the second hydrogen capsule housing 117. The first pump 110 includes a second suction port 114, a first pump motor 110a, a second discharge port 115, and a first pump housing 116. The first hydrogen capsule housing 111 includes a first inlet 112, a first capsule 111a, and a first outlet 113. The second hydrogen capsule housing 117 includes a third inlet 118, a second hydrogen capsule 117a, and a third outlet 119.

The first solution 150 supplied through the first flow path 170 is supplied to the first hydrogen capsule 111a through the first suction port 112 and discharged through the first discharge port 113. [ The first solution 150 supplied through the first flow path 170 may be supplied to the first pump 110 through the second suction port 114. The first solution 150 supplied through the second suction port 114 accommodated in the first pump 110 is discharged to the second discharge port 150 by the rotational force of the turbine installed at the upper end of the first pump motor 110a 116, respectively. The first solution 150 discharged to the second discharge port 116 is supplied to the second hydrogen capsule 117a through the third suction port 118 and discharged through the third discharge port 119.

The first hydrogen capsule 111a may contain one or more magnesium (Mg) balls and one or more alkaline earth balls. The first pump motor 110a can suck the first solution 150 through the first flow path 170 and supply the first solution 150 to the first injector 100. [ The second hydrogen capsule 117a may contain one or more of the magnesium (Mg) balls and one or more alkaline earth balls.

The magnesium (Mg) ball may be chemically reacted with the first solution 150 and converted to magnesium hydroxide and hydrogen gas. With the decrease of the hydrogen ion concentration, a hydroxyl group is generated and the water is alkalized. This chemical reaction can be realized through the formula (1).

When the alkaline earth metal is reacted with water for a certain period of time, strong alkaline water having a pH of 10 or more can be produced. The alkali-reduced water obtained from the alkaline earth ball may have excellent cleaning power as a functional water having a cleaning power. In addition, the hydrogen contained in the alkali-reduced water can reduce the melanin production and remove the spots, freckles, and fine wrinkles to give a skin beautification effect.

3 is a longitudinal sectional view of a first jetting port of a portable mist ejection apparatus according to an embodiment of the present invention.

The first injector 100 of the portable mist injector 1000 according to the present invention may be embodied as an ultrasonic vibrator as shown in FIG. 3 (a). The ultrasonic transducer includes a first piezoelectric element support 101, a first piezoelectric element 102, a second piezoelectric element 103, and a second piezoelectric element support 104. The first piezoelectric element 101 and the second piezoelectric element 102 are formed in a circular shape, and the material thereof is formed of a pair of elastic members having an elastic force like a rubber material, and the upper and lower surfaces are provided with one or more fine Perforations can be formed.

As shown in FIGS. 3 (b) and 3 (c), fine vibration is applied to the first solution 150 entering the first solution supply pipe 115 connected to the back surface of the first injector 100, And may be discharged to the front side of the first injector 100 through one or more fine holes having the same. The size of at least one fine hole formed in the first piezoelectric element 102 and the second piezoelectric element 103 is difficult to be visually confirmed and is so small that it can be confirmed only when viewed microscopically using a microscope or the like .

In addition, the first and second piezoelectric element supports 101 and 104 may be formed in a circular shape, and may be formed of an insulator made of plastic or rubber. The first piezoelectric element 102 is supported on the vertical lower end support of the first piezoelectric element support 101 and the second piezoelectric element 103 can be supported on the vertical upper support of the second piezoelectric element support 104 . When the electrical energy is supplied to the first piezoelectric element 102 and the second piezoelectric element 103, the first solution 150 may be injected upward of the first piezoelectric element support 101 by mechanical vibration. At this time, the size of the generated mist can be sprayed on the order of 0.5 탆 to 5 탆.

FIG. 4 is a view showing a detailed configuration of a first injecting apparatus of a portable mist injecting apparatus according to an embodiment of the present invention.

The second injector 220 of the portable mist injector 1000 according to the present invention may be formed as a spiral nozzle. The spiral nozzle may be formed as one or more vanes with respect to the central axis. A second injection button 200 may be provided above the second injector 220. The lower end of the second injection button 200 may be chamfered at an angle of 45 to 60 degrees. A second injection button guide 202 may be provided in contact with the chamfered surface. A first spring 201 may be installed on the right side of the second injection button guide 202. The first spring 201 may cause the second injection button guide 202 to slide through compression and tension. The second injection button guide 202 and the first spring 201 can be received in the housing 203.

When the second injection button 200 is pressed through the chamfered portion, the second injection button guide 202 slides to push the pusher 214 of the second pump 210. A second spring 213 may be installed at the end of the pusher 214. The second spring 213 can control the pusher 214 to repeatedly pump the piston 211. The piston 211 and the second spring 213 can be received in the second pump housing 212. The second solution 250 may be supplied to the second injector 220 through the second flow path 230 through the pumping operation.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

100: first injector 101: first piezoelectric element support
102: first piezoelectric element 103: second piezoelectric element
104: second piezoelectric element support 110: first pump
110a: first pump motor 111: first hydrogen capsule housing
111a: first hydrogen capsule 112: first intake port
113: first outlet 114: second inlet
115: first pump housing 116: second outlet
117: second hydrogen capsule housing 117a: second hydrogen capsule
118: third inlet 119: third outlet
120: MCU 130: First injection button
140: first container cap 150: first solution
160: first container 170: first flow path
180: jet level regulator 190: level detector
200: second injection button 201: first spring
202: second injection button guide 203: housing
210: second pump 211: piston
212: second pump housing 213: second spring
214: pressurizer 220: second injector
230: second flow path 240: second container cap
250: second solution 260: second container
270: Charging terminal 280: Battery
290: Body 1000: Portable mist sprayer

Claims (4)

A first container in which a first container cap capable of being opened and closed with respect to the outside is formed and in which a first solution supplied from the outside is stored;
A first flow path provided in a tube shape penetrating the inside of the first container and having at least one hole formed in a tube region located inside the first container;
A first hydrogen capsule accommodated in a first capsule housing including a first inlet connected to the first flow path and a first outlet;
A first pump accommodated in a pump housing including a second suction port and a second discharge port connected to the first discharge port and controlling the first solution stored in the first container to be discharged to the outside through the first injector;
A second hydrogen capsule accommodated in a second capsule housing including a third inlet and a third outlet connected to the second outlet; And
A first injector for injecting the solution introduced from the third outlet into the outside,
And a plurality of nozzles for spraying the mist. The method according to claim 1,
The portable mist sprayer is implemented in a pocket-like shape in which the cover swings and slides sideways, and the spray level of the first injector is adjusted to one or more levels according to the swing sliding level of the cover, Is an electronic pump that operates by converting electrical energy supplied from a power source into kinetic energy. The method according to claim 1,
The first solution accommodated in the first container flows into the first flow path through the hole of the first flow path and flows into the first capsule housing through the first suction port according to the operation of the first pump, The first hydrogen solution in which the first solution is combined with hydrogen through the first hydrogen capsule is passed through the third inlet via the first outlet, the second inlet, the first pump, and the second outlet Wherein the second hydrogen solution is introduced into the second capsule housing and the first hydrogen solution is combined with hydrogen through the second hydrogen capsule to be supplied to the first injector through the third outlet. Mist injector. The method according to claim 1,
A second container in which a second container cap capable of being opened and closed with respect to the outside is formed, and a second solution supplied from the outside is stored;
A second flow path provided in a tube shape passing through the inside of the second container;
A second pump housing accommodated in the second pump housing and configured to pump the second solution contained in the second container through the second flow passage, the second pump housing including a fourth suction port and a fourth discharge port connected to the second flow path, A second pump including a piston sucked through operation and delivered to a second injector, and a pressurizer coupled with the piston to induce the pumping action of the piston;
A button connected to the pusher of the second pump and transmitting a pressure transmitted from the outside to the pusher; And
A second pump connected to the fourth outlet of the second pump housing and configured to inject the second solution delivered through the fourth outlet,
Further comprising: a second air inlet port for communicating with the second air inlet port;

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