KR101832992B1 - Portable apparatus of atomization - Google Patents

Abstract

A portable atomization apparatus is disclosed. According to one embodiment of the present invention, a portable atomizer includes a battery case for storing therein a power source battery; An air generator accommodated in the battery case and generating air to flow air to the atomizer; And a heating member electrically connected to the battery and coupled to the upper end of the air generator to generate heat to atomize the liquid source, a pressing part connected to the upper end of the atomizing unit, And an atomizer, which is coupled to the upper end of the battery case. The air generator is formed to be flexible and stretchable. The air generator is compressed in the height direction by pressurization of the pusher, When the pressure is released, the air is introduced through the air inlet formed in the body, and the shape is restored.

Description

[0001] PORTABLE APPARATUS OF ATOMIZATION [0002]

The present invention relates to a portable atomizer.

In general, an atomization apparatus is a device for atomizing a liquid source material (converting a liquid into a particulate form by atomizing the liquid), and the portable atomization apparatus means a device developed for facilitating porting among atomization apparatuses. Currently, most of the portable atomizing devices are commercialized as electronic cigarettes, and these electronic cigarettes are used as a means to replace smoking or to support smoking cessation. The electronic cigarette includes an atomizer having heating means for heating the liquid source, and a battery for supplying power to the heating means. When the user sucks the air through the suction unit, air is introduced into the atomizer side, and the liquid source is atomized and enters the user's body. The technical structure of such electronic cigarette is specifically disclosed in Korean Patent Publication No. 10-2015-0105268.

As described above, currently commercially available portable atomizing apparatuses are mostly manufactured in the form of electronic cigarettes in which the user sucks mist. However, the portable atomizer may be used for other purposes, and the applicant of the present invention has devised the present invention in consideration of this point.

Patent Document 1: Korean Patent Laid-Open No. 10-2015-0105268 (published on Sep. 16, 2015)

The present invention seeks to provide a portable atomizing apparatus for atomizing and spraying a liquid source material such as a fragrance, a sterilizing agent, an antibacterial agent, a bactericide, a disinfectant, a fiber deodorant or the like.

According to an aspect of the present invention, there is provided a battery device comprising: a battery case for accommodating therein a power source battery; An air generator accommodated in the battery case and generating air to flow air to the atomizer; And a heating member electrically connected to the battery and coupled to an upper end of the air generator to generate heat to atomize a liquid source, a pressing part connected to an upper end of the atomizing unit, Wherein the air generator is formed to be flexible and stretchable. The air generator is compressed in the height direction by the pressing of the pressing portion, and the inner portion of the inner And the air is flowed into the atomizer and the air is introduced through the air inlet formed in the body when the pressure is released, thereby restoring the shape.

According to another aspect of the present invention, there is provided a battery pack comprising: a battery case for containing therein a power source battery; An air generator accommodated in the battery case and generating air to flow air to the atomizer; And a heating member electrically connected to the battery and coupled to an upper end of the air generator to generate heat for atomizing a liquid source, and a heating unit for accommodating the atomizer and coupling the upper portion of the battery case And an injector connected to an upper end of the atomizing unit and having a spray nozzle for spraying atomized mist from the atomizing unit to the outside and a cap part exposed at an upper end of the atomizer case, The air generator includes an electric motor and a fan coupled to a rotating shaft of the electric motor and rotating together with the rotating shaft to generate a flow of air. The air generator is electrically connected to the battery, the heating member, and the motor of the air generator, An output signal supplied from the battery to the heating member, And a control unit for controlling an output signal to be output to the electric motor may be provided in the battery case or the cap unit.

According to another aspect of the present invention, there is provided a battery pack comprising: a battery case for containing therein a power source battery; An air generator accommodated in the battery case and formed in a shape of a soft stretchable material; And a heating member electrically connected to the battery and coupled to an upper end of the air generator to generate heat to atomize a liquid source, and a heating member housed inside the atomizing unit, And an injector connected to an upper end of the atomization unit and having a spray nozzle for spraying atomized mist from the atomization unit to the outside, and a cap part exposed at an upper end of the atomizer case, The battery case is formed with an exposed portion that externally exposes at least a part of the air generator to externally apply an external force to the air generator. When an external force is applied to the air generator through the exposed portion, A portable atomizer device for generating air and flowing air to the atomizer May be provided.

The portable atomizing apparatus according to the present invention atomizes a liquid source material such as a fragrance, a sterilizing agent, an antibacterial agent, a disinfectant, a disinfectant, a fiber deodorizer, etc., have. In particular, since the air generator for generating air to flow air to the atomizer is provided, it is possible to generate mist without user's suction action unlike a conventional atomizer such as electronic cigarette.

1 is an exploded perspective view schematically illustrating a portable atomizer according to an embodiment of the present invention.
FIG. 2 is a view schematically showing a driving method of the portable atomizer shown in FIG. 1. FIG.
Fig. 3 is a view showing pushing operation in the portable mist unit of Fig. 1. Fig.
4 is a partial view of a portable mist device according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the following description is illustrative of the present invention, and the technical spirit of the present invention is not limited to the following description. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

The present invention can provide a portable atomization apparatus. Here, the portable atomizer is a device that atomizes a liquid source to generate mist, which means that it is manufactured to be portable. At this time, examples of the source of the liquid phase include a fragrance, a sterilizing agent, an antibacterial agent, a bactericide, a disinfectant, and a fiber deodorant. That is, when the liquid source is a perfume, the portable atomizer can realize a function of spraying a good fragrance in a space of a vehicle, a room, a living room, etc. When the liquid source is sterilizing agent, disinfectant, disinfectant, etc., / Sterilization functions such as disinfection or agricultural products can be implemented. In the case where the liquid source itself is sprayed, a droplet may remain on the spraying object. On the other hand, in the case of generating mist by atomizing the liquid source as in the present invention, a function according to the type of the liquid source can be realized, You can have the advantage that no enemies remain.

A portable atomizing apparatus according to an embodiment of the present invention includes an atomizer having a battery for generating electric power and a heating member for generating heat that is electrically connected to the battery and atomizing a liquid source, And an air generator for flowing the air. In this case, various embodiments can be derived within the scope of the present invention depending on the type of the air generator. Hereinafter, the embodiments will be mainly described.

First embodiment

FIG. 1 is an exploded perspective view schematically showing a portable atomization apparatus 100 (hereinafter abbreviated as an atomization apparatus) according to an embodiment of the present invention.

Referring to FIG. 1, an atomization apparatus 100 may include a battery 110, an atomizer 130, and an air generator 150. More specifically, the atomizer 130 is located at the uppermost position, the air generator 150 is coupled to the lower portion of the atomizer 130, and the battery 110 is positioned below the air generator 150. At this time, the battery 110 is electrically connected to the radiator 130. For example, a wire connected to a positive terminal of the battery 110 may be connected to an electrode terminal (not shown) located at a lower end of the transmitter 130.

The battery 110 corresponds to a power source and can provide a driving source that is electrically connected to a heating member (not shown) provided in the atomizer 130 to heat the heating member. The type of the battery 110 is not specified. The battery 110 may be housed or mounted in the battery case 120. [ For example, an electrode pad (not shown) for mounting the battery 110 is disposed at the lower inner end of the battery case 120, and another electrode pad (not shown) connected to the electrode pad is disposed at the lower outer end of the battery case 120 So that the battery 110 mounted in the battery case 120 can be charged through a separate power source.

The atomizer 130 may include a heating member (not shown) electrically connected to the battery 110 and generating heat to atomize the liquid source. The atomizer 130 functions to atomize the liquid source to generate mist. The atomizer 130 is a general component in the technical field, and since the atomizer that is generally available in the present invention can be used in the present invention, a detailed description of the atomizer 130 is omitted.

However, the atomizer 130 may be provided with a cartridge for accommodating a liquid source inside the casing, and a non-chamber sealed with a liquid source may be formed inside the cartridge. A heating member and an electrode tube wound around the wick and the outside of the core may be disposed in the non-irradiation room. The electrode tube is formed of a conductive material and is electrically connected to the output terminal, and a part of the wick is exposed to the liquid source so that the liquid source can be sucked and provided to the heating member side. At this time, the heating member may be a conductive coil such as a filament, and generates an output signal (voltage / current signal) from the output terminal to generate heat. That is, when the output signal is applied to the heating member and heated, the liquid source sucked into the wick contacted with the heating member is atomized, and the non-chamber can be filled with the mist. Of course, the above description is merely illustrative, and various forms of an image forming apparatus, which are usually available, can be employed in the present invention. For example, the atomizer 130 may include a vibrator to generate fumes by an ultrasonic vibration method. However, for the sake of convenience of explanation, it is noted that the atomizer in this specification mainly describes a heating method using a heating member.

The atomizer 130 may include an atomization unit 131 and a pusher 132. The atomization unit 131 may include a heating member that is electrically connected to the battery 110 and generates heat to atomize the liquid source. The atomization unit 131 substantially carries out the atomization function and can be configured to include the configurations of the atomizer (the cartridge, the non-irradiation chamber, the wick, the heating member, the electrode tube, etc.). An output terminal (not shown) may be formed at the lower end of the atomization unit 131.

The pushing part 132 can be coupled to the upper end of the atomization unit 131. [ The coupling method is not specified, and for example, threads may be formed at portions where the pushing portion 132 and the atomizing unit 131 are mutually coupled, so that they can be coupled with each other. In this manner, the atomization unit 131 may be interchangeable. 1, the shape of the pressing portion 132 is shown in a hemispherical shape, but the pressing portion 132 is not limited thereto and may be formed in various shapes. The pushing portion 132 functions to spray the fog to the outside by the user's pushing by the hand. It is more advantageous that the user's finger is formed in a form that is easy to be gripped (for example, the central portion is recessed) .

On the other hand, a spray nozzle 133 for spraying atomized mist from the atomizing unit 131 to the outside may be formed in the pressing portion 132. [

The air generator 150 is connected to the lower end of the atomizer 130 and generates air to flow air to the atomizer 130. The air generator 150 may function to generate air to flow air to the atomizer 130, and is not limited to a particular embodiment.

In this embodiment, the air generator 150 may be formed to be stretchable with a soft material. For example, as shown in Figs. 1 and 2, the air generator 150 is formed in a corrugated shape (corrugated pipe shape), and is compressed when pressed by an external force and is formed in a pump shape in which the shape is restored when the pressure is released . At this time, an air inlet (not shown) is formed in the body of the air generator 150 so that air can be introduced through the air inlet formed in the body when the pressing is released, thereby restoring the shape.

1, the battery case 120 has a hollow cylindrical shape with an opened upper end and a closed lower end. However, the battery case 120 may include a battery case 120, But the present invention is not limited thereto and can be implemented in various forms.

The battery case 120 is electrically connected to the heating member located in the battery 110 and the atomizer 130 and includes a controller 121 for receiving an electric power from the battery 110 and controlling an output signal output to the heating member May be formed. The control unit 121 may include a printed circuit board (PCB) (not shown) and a switch (not shown). In one embodiment, the printed circuit board is housed within the battery case 120 and may be electrically connected to the heating elements of the battery 110 and the atomizer 130. At this time, the electrical connection method is not specified, and it is possible to use a conventional method such as electric wire, conductive pad, soldering. The switch may function to open or close the electrical connection between the printed circuit board and the heating member of the battery 110 and the atomizer 130. That is, when the switch is turned on, the battery 110 and the heating member are connected to heat the heating member. When the switch is turned off, the connection between the battery 110 and the heating member is cut off, thereby stopping the heating of the heating member.

Although the size of the battery case 120 is not specified, it may be preferable that the size of the battery case 120 is such that the battery 110 and the air generator 150 can be housed therein. In this case, the battery 110 may be positioned in the lower portion of the battery case 120, and the air generator 150 may be disposed in the upper portion of the battery 110.

The atomizer case 140 houses the atomizer 130 so that the pushing part 132 of the atomizer 130 is exposed at the upper end and can engage with the upper end of the battery case 120. The coupling method is not specified. For example, a method may be adopted in which threads are formed so as to be mutually engageable with each other at a portion where the battery case 120 and the freezer case 140 are coupled to each other.

At this time, the spray nozzle 133 of the atomizer 130 may protrude from the pusher 132 so as to be perpendicular to the atomizer case 140, A cutout groove 141 for receiving the spray nozzle 133 may be formed when an external force is applied to the pushing part 132. [

FIG. 2 is a view schematically showing the driving method of the mist device 100 shown in FIG. 1, and FIG. 3 is a view showing the operation of the pusher 132 in the mist device 100. Referring to FIGS. 2 and 3, the driving method of the atomizer 100 will be described as follows.

When the user wishes to spray the mist to the outside using the atomization apparatus 100, first the switch of the control unit 121 (see FIG. 1) located in the battery case 120 is turned on. When the switch is turned on, the heating member of the atomizer 130, which receives power from the battery 110, starts heating. When the heating member is heated, the liquid source sucked into the wick contacted with the heating member atomizes and starts to generate mist. However, the fumes can not be discharged to the outside, but are filled into a non-vaporizing chamber located in the atomizing unit 131. When the user presses the pressing portion 132 with a finger or the like, the pressing portion 132 is pressed downward by an external force. The atomizing unit 131 connected to the lower portion of the pushing part 132 also moves downward and the air generator 150 connected to the atomizing unit 131 is compressed as the atomizing unit 131 moves. When the pushing part 132 is pushed downward, a part of the pushing part 132 enters the inside of the atomizing device case 140 (see FIG. 3). In this case, the spraying nozzle 133 formed in the pushing part 132, Is housed in the incision groove 141 formed in the atomizer case 140 (see FIG. 3). In accordance with the compression of the air generator 150, the air generator 150 moves the internal air to the atomization unit 131, and the mist, which is filled in the atomization unit 131 according to the flow of the air, .

When the user releases the finger or the like from the pressing portion 132, the pressing of the pressing portion 132 is released and the pressing of the air generator 150 is also released on the same principle. At this time, air is introduced through an air inlet (not shown) formed in the body of the air generator 150, so that the compressed air generator 150 is restored to its original shape. In accordance with restoration of the shape of the air generator 150, the atomization unit 131 and the pushing part 132 move upward again to return to the original position, and the atomization of the mist is stopped. Of course, when the switch of the control unit 121 is turned off, the generation of smoke is stopped.

It is possible to atomize the liquid source filled in the atomizer 130 through the simple operation as described above and to discharge the mist to the outside. Depending on the type of the liquid source, a direction effect, a sterilization effect, an antibacterial effect, Effect, fiber deodorizing effect and the like can be realized for the object to be sprayed.

Second embodiment

Hereinafter, another embodiment of the present invention will be described. The description overlapping with the above-described embodiment will be omitted, and the description will be focused on the different parts.

This embodiment differs from the above-described embodiment in the form of the air generator 150 and the battery case 120. 4 is a partial view of an atomization apparatus according to another embodiment of the present invention.

Referring to FIG. 4, the air generator 450 and the battery case 440 are different from the above-described embodiment (see FIGS. 1 to 3), and other configurations are the same as or similar to the above-described embodiments.

The air generator 450 according to the present embodiment may be formed as a flexible material, but it may be formed in a circular shape similar to a balloon, not in the form of a pump having a corrugated pipe shape, as in the above-described embodiment. Also in this case, the air generator 450 is compressed when it is pressed by an external force as in the above-described embodiment, and can be restored again when the pressure is released. When the pressure is released, air can be introduced through an air inlet (not shown) formed in the body of the air generator 450 to restore the shape.

In this embodiment, rather than indirectly pressurizing the air generator 150 through the pusher 132 (see FIG. 1) as in the above-described embodiment, the user may manually press the air generator 150 manually . To this end, an exposed portion 441 may be formed on the outer surface of the battery case 440 to externally expose the air generator 450 to externally apply an external force to the air generator 450. The shape of the battery case 440 is not specified. For example, the battery case 440 is divided into two parts, and the battery is accommodated in the lower part and the upper part is formed in a shape corresponding to the appearance of the air generator 450 as shown in FIG. The exposed portion 441 may be formed to have the appearance that the air generator 450 is exposed to the outside.

That is, in this embodiment, when the user wishes to spray the mist to the outside by using the atomizer, first the switch of the control unit located in the battery case is turned on to heat the heating member of the atomizer. The user may press the air generator 450 exposed by the exposed portion 441 of the battery case 440 directly with a finger or the like when the liquid source is atomized due to the heating of the heating member. In accordance with the compression of the air generator 450, the air generator 450 moves the internal air to the atomizer, and the fumes in the atomizer can be discharged to the outside through the atomizing nozzle according to the flow of the air. Likewise, when the user removes the pressure from the air generator 450 by releasing the finger, the pressurization of the air generator 450 is released, and the shape of the air generator 450 is restored to its original state and the atomization of the mist is stopped. Of course, when the switch of the control unit is turned off, the generation of smoke is stopped.

In this embodiment, the configuration of the pusher 132 as in the above-described embodiment, and the cutout groove 141 formed in the atomizer case 140 are not required.

Third embodiment

Hereinafter, another embodiment of the present invention will be described. The description overlapping with the above-described embodiment will be omitted, and the description will be focused on the different parts.

This embodiment is different from the above-described embodiment in the form of the air generator 150 and the control unit, and otherwise is the same as or similar to the above-described embodiments.

The air generator (not shown) according to this embodiment may include an electric motor and a fan that rotates together with the rotation axis of the electric motor and generates a flow of air. When the motor is driven, the air generator generates air according to the rotation of the rotation shaft. When the motor stops driving, the rotation shaft stops rotating to stop air generation.

In this embodiment, as in the above-described embodiment, the air generator is not indirectly pressurized using the pusher 132 (see FIG. 1) or the air generator is directly pressurized by the user's finger, The air generator can be driven by itself.

In this embodiment, the atomization apparatus includes a battery, a non-generator, and an air generator, a battery case for storing the battery and the air generator therein, and a radiator case for accommodating the atomizer and engaging with the upper end of the battery case . Wherein the atomizer includes an atomization unit electrically connected to the battery and atomizing a liquid source, and a spray nozzle connected to an upper end of the atomization unit and spraying atomized mist from the atomization unit to the outside, And a cap portion exposed at an upper end of the cap portion.

In this embodiment, the configuration of the control unit may be somewhat different from that of the above-described embodiment. In this embodiment, the control unit is electrically connected to the battery, the heating member, and the motor of the air generator. An output signal supplied to the heating member side, and an output signal outputted to the motor side. The control unit may be formed in the battery case, or may be formed in the cap portion of the atomizer. A control unit (first control unit) related to control of an output signal output to the heating member side by dividing the control unit functionally into two parts is formed in the battery case and connected to a control unit May be formed in the cap portion of the atomizer.

That is, in this embodiment, when the user wishes to spray the mist outside by using the atomizer, first the switch of the control unit (first control unit) located in the battery case is turned on to heat the heating member of the atomizer. When the liquid source is atomized by the heating of the heating member and fog occurs, the user can turn on the switch of the control unit (second control unit) located in the cap unit to drive the electric motor located inside the battery case. The fan, which rotates together with the rotation axis of the electric motor, generates a flow of air to move the air to the atomizer, and the mist in the atomizer may be discharged to the outside through the atomizing nozzle according to the flow of the air . On the other hand, when the user turns off the switch of the control unit (second control unit) located on the cap unit and stops the motor, the air generation is stopped and the spraying of the mist can be stopped. Of course, when the switch of the control unit (the first control unit) located in the battery case is turned off, the generation of smoke is stopped.

As described above, the portable atomizing apparatus according to the embodiments of the present invention atomizes a liquid source material such as a fragrance, a sterilizing agent, a disinfectant, a disinfectant, and the like, and is a device that is easy to carry and easy to use. It can be used for applications. In particular, since the air generator for generating air to flow air to the atomizer is provided, it is possible to generate mist without user's suction action unlike a conventional atomizer such as electronic cigarette.

The present invention has been described in detail above. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the present invention.

100: Portable atomizer 110: Battery
120: Battery case 121:
130: atomizer 131: atomizer unit
132: pushing part 133: spray nozzle
140,440: Freezer case 441: Incision groove
150,450: Air generator

Claims (8)

A battery case for storing the battery therein;
An air generator accommodated in the battery case and generating air to flow air to the atomizer; And
An atomizing unit electrically connected to the battery and coupled to an upper end of the air generator to generate heat for atomizing a liquid source, a pressing unit connected to an upper end of the atomizing unit, And an atomizer case housed inside the battery case and coupled to an upper end of the battery case,
The air generator is formed to be flexible and stretchable. The air generator compresses the air in the height direction by the pressure of the pushing part, and flows the air into the atomizer. When the pressurization is released, air is introduced through the air inlet formed in the body, This restored portable shot device. The method according to claim 1,
Further comprising a control unit formed in the battery case and electrically connected to the battery and the heating member to control an output signal supplied to the heating member by receiving power from the battery. The method according to claim 1 or 2,
Wherein the pushing portion is formed with a spray nozzle extending forward from the pushing portion and spraying mist sprayed from the atomizing unit to the outside by pressurization of the pushing portion. The method of claim 3,
Wherein a cutout groove for receiving the spray nozzle is formed at an upper portion of the atomizer case when an external force is applied to the pusher to lower the pusher. A battery case for storing the battery therein;
An air generator accommodated in the battery case and generating air to flow air to the atomizer; And
An atomizing unit electrically connected to the battery and coupled to an upper end of the air generator to generate heat to atomize a liquid source, and a heating member housed in the atomizer and coupled to an upper end of the battery case And an atomizer including a atomizer case and a cap part connected to an upper end of the atomization unit and having a spray nozzle for spraying atomized atomized water from the atomization unit to the outside and exposed to an upper end of the atomizer case,
Wherein the air generator includes an electric motor and a fan coupled to a rotating shaft of the electric motor and rotating together with the rotating shaft to generate a flow of air,
A control unit electrically connected to the battery, the heating member and the motor of the air generator to control an output signal supplied from the battery to the heating member and an output signal output to the motor, Wherein the cap is formed on the cap. A battery case for storing the battery therein;
An air generator accommodated in the battery case and formed in a shape of a soft stretchable material; And
An atomizing unit electrically connected to the battery and coupled to an upper end of the air generator to generate heat to atomize a liquid source, and a heating member housed in the atomizing unit and coupled to an upper end of the battery case And an injector connected to an upper end of the atomization unit and having a spray nozzle for spraying atomized mist from the atomization unit to the outside, and a cap part exposed to an upper end of the atomizer case,
Wherein the battery case is formed with an exposed portion for exposing at least a part of the air generator to the outside so as to apply an external force to the air generator from outside,
Wherein when an external force is applied to the air generator through the exposed portion, air is generated by the compression of the air generator to cause air to flow to the atomizer. delete delete

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