CN213315851U - Atomization device - Google Patents

Abstract

The utility model relates to an atomizing device, including a vent flap and capping, vent flap and capping cover the notch in a basin respectively, the bellied dysmorphism design of the air current channel tubulose of capping and this basin inside wall of inlet port special construction cooperation, and the blast pipe structure of the waterproof gas seepage flow of vent flap, work as the utility model discloses an during atomizing device slope, the liquid in the basin is difficult direct flow atomizing device inside or external environment, helps avoiding haring the device's electronic component, circuit, electrical apparatus and maintains that external environment is clean, safety etc. the user can supply essential oil or liquid or various chemical agent or natural agent to waiting to this basin in, uses as humidifier or atomizing device or deodorization, disinfect, disinfection etc..

Description

Atomization device

Technical Field

The utility model relates to an atomizing device, in particular to vibrate device that liquid produced spraying.

Background

The conventional spraying apparatus, which is used in a humidifier, a fragrance sprayer, or an atomizing apparatus having functions of insect killing, deodorization, sterilization, disinfection, etc., which uses electronic components, electric wires, etc., is easy to leak out of the atomizing apparatus filled with liquid when the atomizing apparatus is tilted, thereby damaging or affecting the operability of the electronic or electric components or parts, and is easy to cause environmental pollution and danger, etc., is disclosed, for example, in "fragrance spraying apparatus" of chinese patent application No. 201320054408.8, which introduces external air into a liquid container to generate lift force to the fragrance mist in the liquid container to form spray, and discharges the atomized water into the external air through a gas passage, when the liquid in the liquid container is tilted or tilted, the liquid is easy to flow into the apparatus through the gas inlet or exhaust passage, the fan, the electric appliance component or the electronic part and the like are damaged, and the effect of spraying is further influenced; moreover, the spilled liquid also causes fouling and adverse effects on the environment.

Therefore, the inventor is based on the idea of continuously researching, improving and innovating the product, and actively and intensely researches and considers the practical experience of the product development for many years, and the practical design experiment is conducted numerous times, so that the utility model is produced.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above object, the utility model provides an atomizing device, when this atomizing device emptys, the liquid in the device is difficult for flowing into atomizing device inside, and external environment, helps avoiding haring the device's electronic component, circuit, electrical apparatus and maintains that external environment is clean, safe etc..

The utility model provides a liquid atomization device that convenient operation used.

The device of the preferred embodiment of the present invention comprises a bottom case, a fan, a water tank, an oscillation device, a power circuit, an exhaust cover, and a control device;

the bottom shell comprises a chamber defined inside and a first air inlet hole arranged at the bottom side of the chamber; the fan is positioned in the containing chamber and provides a path for the fan to suck external air through the first air inlet hole;

the water tank comprises a notch, a lower opening, a tank cover, an air flow channel and a channel, wherein the notch is formed at the upper side of the water tank, the air flow channel protrudes to one side in the water tank in a tubular manner, the channel protrudes to the other side in the water tank in a tubular manner, an oscillation space for containing liquid is defined in the water tank, and a through hole is formed in the bottom of the oscillation space;

the groove cover also comprises a second air inlet hole, a first air outlet hole, the shape of the groove cover is matched with the air flow channel and the channel is in the tubular protruding structure of the water groove, the second air inlet hole is concavely arranged on one side of the periphery of the groove cover and extends to the inner side of the groove cover for a distance, the first air outlet hole is formed on the other side of the groove cover, the groove cover is detachably covered on the inner side of the notch, one side of the periphery of the second air inlet hole concavely arranged on the groove cover is connected with the outer side of the air flow channel in an assembling mode, the second air inlet hole forms a height relative to the inner side wall of the water groove, and the second air inlet hole and the first air outlet hole;

the lower opening of the water tank shields the upper side of the containing chamber, one side of the airflow channel is communicated with the second air inlet, and the other side of the airflow channel is communicated with the containing chamber of the bottom shell and the first air inlet so as to provide a path for the fan to convey air to the oscillation space;

the oscillating device is arranged in the through hole and is used for vibrating and atomizing the liquid in the oscillating space;

the exhaust cover comprises a function of exhausting gas in the oscillation space, the exhaust cover is detachably assembled at the notch of the water tank and covers the tank cover, and the exhaust cover is communicated with the first exhaust hole and the oscillation space to form an exhaust channel;

the control device comprises an oscillation device circuit for driving the oscillation device, the power supply circuit is electrically connected with the oscillation device, the control device and the fan, and the control device is used for controlling the power supply circuit to switch on and off the oscillation device and the fan.

Therefore, the power circuit can be connected with a power supply, the control device instructs to start the oscillation space of the oscillation device to the tank cover, the liquid in the tank cover oscillates to generate atomized fog (fine water molecules), and meanwhile, the fan continuously conveys the air flow conveyed from the first air inlet hole, the air flow enters the second air inlet hole through the air flow channel to reach the oscillation space, and the air flow conveys the atomized fog (fine water molecules) to pass through the first air outlet hole and the air outlet cover to be output to the external environment.

Preferably, the exhaust cover further comprises a bottom cover, an air duct, an upper cover, the bottom cover is provided with a second exhaust hole, the upper cover further comprises a third exhaust hole, one side of the air duct is connected with the upper side of the second exhaust hole, the other side of the air duct is connected with the lower side of the third exhaust hole of the upper cover, and the control device is combined inside the exhaust cover.

Further preferably, the air duct comprises a base and a connecting pipe, the connecting pipe is formed on the upper side of the base, the area of the base is larger than the aperture area of the connecting pipe, the base is connected with the upper side of the second exhaust hole, and the connecting pipe is connected with the lower side of the third exhaust hole of the upper cover.

Preferably, the device further comprises a conductive sheet and a conductive needle, the control device is provided with a control button, the upper cover comprises a button hole, the control button is arranged in the button hole in a penetrating manner and protrudes out of the upper cover, the conductive needle penetrates through the bottom cover body, the control device is electrically connected with the upper side of the conductive needle, the conductive sheet is combined with the top end of the channel, the power circuit is electrically connected with the bottom side of the conductive sheet, and when the exhaust cover is detachably combined on the upper side of the water tank, the lower side of the conductive needle can movably and electrically contact with the conductive sheet.

Further preferably, the power circuit is electrically connected to the bottom side of the conductive plate by a wire, and the wire can electrically connect the power circuit and the conductive plate through the channel.

Preferably, the slot cover further comprises a first arc portion, the first arc portion is arranged on one side of the periphery of the slot cover, a second arc portion opposite to the first arc portion is arranged on the other side of the periphery of the slot cover, the second air inlet hole extends from the upper side of the first arc portion to the inner side of the first arc portion, the first arc portion is detachably connected with the outer side of the air flow channel, and the second arc portion is connected with the outer side of the air flow channel.

Preferably, the slot cover further comprises a connecting frame and a ball body, wherein a concave part is formed in the middle of the connecting frame, the ball body is movably combined in the concave part, the connecting frame is used for being combined at the lower side of the first exhaust hole of the slot cover, the ball body is correspondingly arranged below the first exhaust hole, and meanwhile, a gap is kept between the ball body and the first exhaust hole.

Further preferably, when the atomization device is toppled over, the ball body can block the first exhaust hole forwards, so that a large amount of water in the water tank is prevented from directly flowing out of the atomization device.

Preferably, the oscillating device comprises a waterproof ring, a fixing frame and an oscillating sheet, the oscillating sheet is made of metal, the through hole at the bottom of the oscillating space is used for arranging the oscillating device, the oscillating sheet is arranged on the waterproof ring with a sealing and waterproof effect, and the waterproof ring is sleeved at the through hole.

The utility model discloses an some embodiments of atomizing device, this exhaust cover and capping cover the notch in the basin, the bellied dysmorphism design of the air current channel tubular of this basin inside wall of capping and inlet port special construction cooperation, and the blast pipe structure of the waterproof gas seepage flow of exhaust cover, work as the utility model discloses an during atomizing device slope, the liquid in the basin is difficult direct flow atomizing device inside or external environment, helps avoiding haring the electronic component of device, circuit, electrical apparatus, functions such as electric connection point and this fan, and maintain external environment cleanness, safety etc. the user can supply essential oil or liquid or various chemical agent or natural agent to wait to this basin in, use as humidifier or atomizing device or deodorization, disinfect, disinfection etc..

Some embodiments of the utility model discloses an atomizing device, wherein, supplementary liquid should exhaust the lid and can easily unscrew and cover from the notch of this basin when the oscillation space, simultaneously this capping also can conveniently follow the notch of capping and dismantle or cover, the user can supply essential oil or liquid or water to this capping in, as humidifier or atomizing fragrance device, or add various chemical agents or natural agent to the liquid in use for devices such as insecticidal, deodorization, or eliminate virus bacterium, simultaneously, can cover exhaust lid and capping to basin and capping wantonly, simple structure facilitates the use.

Drawings

FIG. 1 is an external view of the present invention;

fig. 2 is an exploded view of the present invention;

fig. 3 is an exploded view from another perspective of the present invention;

FIG. 4 is a cross-sectional view of FIG. 1, with FIG. 4 indicating an airflow path;

fig. 5 is a sectional view of fig. 1, and fig. 5 is a view showing a state where the ball is moved forward to block the first exhaust hole.

Description of the reference numerals

A bottom case 10; a housing 11; a first intake hole 12; a fan 20; a water tank 30; an oscillation space 32;

the notch 31; a lower opening 33; a perforation 34; a slot cover 35; a connecting frame 352; a recessed portion 3521;

a sphere 354; second intake holes 355; the first arc portion 356; a first exhaust hole 357;

a second arc portion 358; an air flow passage 37; a channel 39; an oscillation device 40;

a waterproof ring 41; a fixed frame 42; an oscillating piece 43; a power supply circuit 50; an exhaust cover 60;

a control device 61; a control button 611; a bottom cover 63; a conductive sheet 630;

a second exhaust hole 631; a conductive pin 633; an air duct 65; an upper cover 67; a third exhaust hole 671;

buttonhole 673.

Detailed Description

The following detailed description is only for the purpose of illustrating exemplary embodiments and is provided in conjunction with the accompanying drawings, so that various functions and features of the present invention can be better understood and appreciated.

Referring to fig. 1, 2, 3 and 4, the preferred embodiment of the present invention includes a bottom case 10, a fan 20, a water tank 30, an oscillation device 40, a power circuit 50, an exhaust cover 60 and a control device 61;

the bottom case 10 includes a chamber 11 defined therein, a first air inlet 12 at a bottom side of the chamber 11; the fan 20 is located in the accommodating chamber 11, and the first air inlet hole 12 provides a path for the fan to suck external air;

the water tank 30 comprises a notch 31, a lower opening 33, a cover 35, an air flow channel 37, a channel 39, the notch 31 is formed on the upper side of the water tank 30, the air flow channel 37 protrudes in a tubular shape on one side inside the water tank 30, the channel 39 protrudes in a tubular shape on the other side inside the water tank 30, an oscillation space 32 for containing liquid is defined inside the water tank 30, and a through hole 34 is formed at the bottom of the oscillation space 32;

the cover 35 further includes a second air inlet 355, a first air outlet 357, the cover 35 is configured to fit the air flow channel 37 and the channel 39 in the tubular protruding structure of the water tank 30, the second air inlet 355 is recessed at one side of the periphery of the cover 35 and extends a distance to the inner side of the cover 35, the first air outlet 357 is formed at the other side of the cover 35, the cover 35 is detachably covered at the inner side of the notch 31, meanwhile, one side of the periphery of the second air inlet 355 recessed in the cover 35 is assembled at the outer side of the air flow channel 37, the second air inlet 355 forms a height relative to the inner side wall of the water tank 30, and the second air inlet 355 and the first air outlet 357 are connected to the oscillation space 32;

the lower opening 33 of the water tank 30 blocks the upper side of the accommodating chamber 11, one side of the air flow channel 37 is communicated with the second air inlet 355, and the other side of the air flow channel 37 is communicated with the accommodating chamber 11 and the first air inlet 12 of the bottom case 10, so as to provide a path for the fan 20 to deliver air to the oscillation space 32;

the oscillating device 40 is disposed in the through hole 34 and is used for vibrating and atomizing the liquid in the oscillating space 32;

the exhaust cover 60 has a function of exhausting the gas in the oscillation space 32, the exhaust cover 60 is detachably assembled to the notch 31 of the water tank 30, and the exhaust cover 60 covers the slot cover 35, and the exhaust cover 60 is communicated with the first exhaust hole 357 and the oscillation space 32 to form an exhaust passage;

the control device 61 includes an oscillation device circuit for driving the oscillation device 40, the power circuit 50 is electrically connected to the oscillation device 40, the control device 61 and the fan 20, and the control device 61 is used for controlling the power supply of the power circuit 50 to switch on and off the oscillation device 40 and the fan 20.

Therefore, the power circuit 50 can be connected to a power source, the control device 61 instructs the oscillating device 40 to open the oscillating space 32 of the cover 35, the liquid therein oscillates to generate atomized mist (fine water molecules), and simultaneously the fan 20 continuously delivers the air flow from the first air inlet hole 12 through the air flow channel 39 to the second air inlet hole 355 to reach the oscillating space 32, the air flow delivers the atomized mist (fine water molecules) through the first air outlet hole 357, and the air outlet cover 60 outputs to the external environment.

Wherein, the slot cover 35 covers the inner side of the slot opening 31, the periphery of one side of the second air inlet 355 of the slot cover 35 is assembled at the outer side of the tubular projection of the air flow channel 37, the second air inlet 355 forms a distance relative to the inner side wall of the water tank 30, thereby, the inner side wall of the water tank 30 is in the special-shaped design of the tubular projection of the air flow channel 39 and the height formed by the second air inlet 355 relative to the inner side wall of the water tank 30, the structure is that when the atomization device of the utility model is inclined, the liquid in the water tank 30 can avoid the tubular raised part and concentrate towards the accumulated water part of the inner wall of the water tank 30 with two depressed sides, therefore, the inclined liquid is not easy to directly flow into the second air inlet 355 forming a height relative to the inner side wall of the water tank 30, the liquid is not easy to enter into the atomization device, which is helpful to avoid damaging the electronic parts, the power circuit 50, the electric connection points and the fan electric appliance 20, and the like, and meanwhile, the tank cover 35 can be conveniently detached from or covered on the notch 37 of the tank cover 35, so that a user can supplement essential oil or liquid or water into the tank cover 35 to be used as a humidifier or an atomizing fragrance device, or add various chemical agents or natural agents into the liquid to be applied as devices for killing insects, deodorizing, or killing viruses and bacteria, and the like, and meanwhile, the exhaust cover 60 and the tank cover 35 can be optionally covered on the water tank 30 and the tank cover 35, so that the structure is simple and convenient to use.

In an embodiment of the present invention, referring to fig. 2, fig. 3 and fig. 4, the slot cover 35 further includes a first arc portion 356 disposed on one side of the periphery of the slot cover 35, and a second arc portion 358 disposed on the other side of the periphery of the slot cover 35 opposite to the first arc portion 356, the second air inlet 355 extends from the upper side of the first arc portion 356 to the inner side of the first arc portion 356, the first arc portion 356 is detachably connected to the outer side of the air flow channel 37, and the second arc portion 358 is connected to the outer side of the air flow channel 37.

In an embodiment of the present invention, referring to fig. 1 to 4, the control device 61 can be combined to the inside of the exhaust cover 60 to be protected, the exhaust cover 60 further includes a bottom cover 63, an air duct 65, an upper cover 67, the bottom cover 63 has a second air vent hole 631, the upper cover 67 further includes a third air vent hole 671, one side of the air duct 65 is connected to the upper side of the second air vent hole 631, the other side of the air duct 65 is connected to the lower side of the third air vent hole 671 of the upper cover 67, the control device 61 is combined inside the exhaust cover 60, one side of the air duct 65 is connected to the upper side of the second air vent hole 631, the other side of the air duct 65 is connected to the lower side of the third air vent hole 671 of the upper cover 67, thereby atomized water flowing through the second air vent hole 631 of the exhaust cover 60 directly flows through the air duct 65 and is output from the third air vent hole 671 to the external space to prevent the atomized water from flowing into, the control device 61 and the like are not disturbed or damaged by the atomized moisture.

An embodiment of the present invention, please refer to fig. 1 to 4, the air duct 65 includes a base 651, a connecting pipe 653, the connecting pipe 653 is formed on the upper side of the base 51, the base 651 is larger than the caliber area of the connecting pipe 653, the base 651 is connected to the upper side of the second air vent 631, the connecting pipe 653 is connected to the lower side of the third air vent 671 of the upper cover, the inner narrow volume of the air vent cover 60, and the optimized space vacated between the occupied space by the larger area space of the base 651 and the less occupied space of the connecting pipe 653 can accommodate the control device 61, the conductive pins 633 and other parts and form the waterproof structure of the air vent cover 60.

Therefore, the power circuit 50 can be connected to a power source, the control device 61 instructs the oscillating device 40 to open the oscillating space 32 of the cover 35, the liquid in the oscillating space oscillates to generate atomized mist (fine water molecules), and simultaneously the fan 20 continuously delivers the air flow from the first air inlet 12 through the air flow channel 39 to the second air inlet 355 to the oscillating space 32, the air flow delivers the atomized mist (fine water molecules) through the first air outlet 357, and the air duct 65 outputs to the external environment through the third air outlet 671.

In some embodiments, the power circuit 50 or the control device 61 includes various printed circuit boards such as PCBA or PCB, etc. of electronic circuits, and the control device 61 also includes various computer devices such as a computer or a microprocessor, etc., which can be used for the operation or control functions of the atomizer device of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, the apparatus further includes a conductive sheet 630 and a conductive pin 633, the control device 61 is provided with a control button 611, the upper cover 67 includes a button hole 673, the control button 611 is disposed through the button hole 673 and protrudes from the upper cover 67, for a user, the control button 611 at the top of the atomizing device is operated by eyes and hands in a coordinated manner, which is more convenient than the conventional control button disposed at other sides of the atomizing device.

The conductive pin 633 penetrates the bottom cover 63, the control device 61 is electrically connected to the upper side of the conductive pin 633 by means of, for example, an electric wire or a metal conductive contact, the conductive sheet 630 is combined with the top end of the channel 39, the power circuit 50 is electrically connected to the bottom side of the conductive sheet 630 by means of, for example, an electric wire, the electric wire can be electrically connected to the power circuit 50 and the conductive sheet 630 through the channel 39, the channel 39 can prevent atomized moisture from affecting the wire connector, the electrical appliance, the fan and the like of the device, when the exhaust cover 60 is detachably combined to the upper side of the water tank 30, the lower side of the conductive pin 633 can movably and electrically contact the conductive sheet 630, and the control button 611 can operate the control device 61 to activate or close various functions of the power circuit 50, the oscillation device 40 and the fan.

Referring to fig. 2 and 3, in an embodiment of the present invention, the conductive sheet 630 or the conductive pins 633 may be selected from metal materials, such as iron sheets or copper sheets.

Referring to fig. 2, 3 and 5, in an embodiment of the present invention, the cover 35 further includes a connecting frame 352, a ball 354, a concave portion 3521 is formed in the middle of the connecting frame 352, the ball 354 is movably combined with the concave portion 3521, the connecting frame 352 is configured to be combined with the lower side of the first air vent 357 of the cover 35, the ball 354 corresponds to the lower side of the first air vent 357, and a gap is maintained between the ball 354 and the first air vent 357, so that atomized water molecules generated from the oscillation space 32 flow through the connecting frame 352 and the side edge or the middle of the ball 354 to the first air vent 357 to enter the air vent cap 60, the atomization device is inadvertently tilted, the ball 354 forward blocks the first air vent 357, preventing the liquid in the water tank 30 from flowing out of the first air vent 357, and the third air vent 631 flows to the external environment, thereby preventing a large amount of liquid or aromatic liquid or chemical substances in the water tank 30 from directly flowing out of the atomization device, the external environment of the atomization device can be maintained, and the atomization device is clean and safe.

Referring to fig. 1 to 4, in an embodiment of the present invention, a sleeve structure is disposed between the cover 35, the water tank 30 and the exhaust cover 60 for easy assembly, disassembly and quick cleaning; the trough 30 has the function of storing and replenishing liquid, the vent cover 60 has the function of preventing the liquid from splashing outwards, and preferably, a waterproof ring, such as a rubber, silica gel or plastic waterproof ring, can be combined on the periphery of the trough cover 35 to further improve the water tightness of the trough opening.

Referring to fig. 2, fig. 3 and fig. 4, in an embodiment of the present invention, the oscillating device 40 includes a waterproof ring 41, a fixing frame 42 and an oscillating sheet 43, and the oscillating sheet may be made of a metal material, such as an iron sheet or a copper sheet. The through hole 34 at the bottom of the oscillating space 32 is used for installing the oscillating device 40, the oscillating sheet 43 can be first arranged in the waterproof ring 41 with the sealing and waterproof effect, then the waterproof ring 41 is sleeved at the through hole 34, then the oscillating device 40 is fixed by the fixing frame 42 positioned at the lower side of the waterproof ring 41 and combined to the lower side of the through hole 34, the oscillating device 40 is used for vibrating the liquid in the oscillating space 32 in the slot cover 35 to be atomized into water molecule gas, so as to further form the waterproof effect and fix the oscillating sheet 43 in the waterproof ring 41.

Referring to fig. 2 and 3, in an embodiment of the present invention, the waterproof ring 41 is made of, for example, a silicone ring, a rubber ring, or a plastic ring.

Referring to fig. 2 to 4, the power circuit 50 of the present invention is disposed under the oscillating space 32 and electrically connected to the fan 20, the oscillating device 40, and the control device 61, and the bottom shell 10 is provided with a portion communicated with the power circuit 50, so that an external power plug 61 can be electrically inserted into the power circuit 50, and further can be externally connected to provide power to the fan 20, the oscillating device 40, and the control device 61.

Referring to fig. 1 to 4, the above description is about each component and its constituent mode of the atomizing device as an embodiment of the fragrance atomizing device or the humidifier, and then the using features and effects of the present invention are described as follows: first, when a user injects a liquid (e.g., a liquid or an essential oil and moisture) into the oscillation space 32 of the water tank 30, the user activates the power supply to control the oscillation device 40 to generate vibration, so that the liquid in the oscillation space 32 generates a fragrant mist, and at the same time, the fan 20 starts to operate, so as to suck the air outside the first air inlet 12 of the bottom case 10, and the air enters the oscillation space 32 through the air flow channel 37, and then is sent into the oscillation space 32 through the second air inlet 355, so that the fragrant mist in the oscillation space 32 can flow through the first air outlet 35, the second air outlet 631, and the air duct 65 is output through the third air outlet 671 and is dispersed in the external space.

Referring to fig. 1 to 4, which are examples of the atomizer of the present invention as a sterilization or disinfection atomizer, when a user injects a liquid of a disinfectant or disinfectant into the oscillation space 32 of the water tank 30, the user activates the power supply to control the oscillation device 40 to generate vibration, so that the sterilizing or disinfecting agent liquid in the oscillation space 32 generates sterilizing or disinfecting mist, and at the same time, the fan 20 is also operated to suck the air out of the first air inlet holes 12 of the bottom case 10, and enters the oscillation space 32 through the air flow passage 37, and is sent into the oscillation space 32 through the second air intake holes 355, so that the mist of the disinfectant or disinfectant in the oscillation space 32 can pass through the first exhaust hole 35 and the second exhaust hole 631, and the air duct 65 is outputted through the third exhaust hole 671 to be scattered in the external space for disinfecting or disinfecting the environment, human body or pet.

Although the present invention has been described with reference to the above preferred embodiments, it is not intended to limit the scope of the present invention, and various changes and modifications relative to the above embodiments may be made by those skilled in the art without departing from the spirit and scope of the present invention.

Claims (9)

1. An atomizing device characterized by:

the device comprises a bottom shell, a fan, a water tank, an oscillation device, a power circuit, an exhaust cover and a control device;

the bottom shell comprises a chamber defined inside and a first air inlet hole arranged at the bottom side of the chamber;

the fan is positioned in the containing chamber and provides a path for the fan to suck external air through the first air inlet hole;

the water tank comprises a notch, a lower opening, a tank cover, an air flow channel and a channel, wherein the notch is formed at the upper side of the water tank, the air flow channel protrudes to one side in the water tank in a tubular manner, the channel protrudes to the other side in the water tank in a tubular manner, an oscillation space for containing liquid is defined in the water tank, and a through hole is formed in the bottom of the oscillation space;

the groove cover also comprises a second air inlet hole, a first air outlet hole, the shape of the groove cover is matched with the air flow channel and the channel is in the tubular protruding structure of the water groove, the second air inlet hole is concavely arranged on one side of the periphery of the groove cover and extends to the inner side of the groove cover for a distance, the first air outlet hole is formed on the other side of the groove cover, the groove cover is detachably covered on the inner side of the notch, one side of the periphery of the second air inlet hole concavely arranged on the groove cover is connected with the outer side of the air flow channel in an assembling mode, the second air inlet hole forms a height relative to the inner side wall of the water groove, and the second air inlet hole and the first air outlet hole;

the lower opening of the water tank shields the upper side of the containing chamber, one side of the airflow channel is communicated with the second air inlet, and the other side of the airflow channel is communicated with the containing chamber of the bottom shell and the first air inlet;

the oscillating device is arranged in the through hole;

the exhaust cover is used for exhausting gas in the oscillation space, the exhaust cover is detachably connected to the notch of the water tank in a combined mode and enables the exhaust cover to cover the tank cover, and the exhaust cover is communicated with the first exhaust hole and the oscillation space to form an exhaust channel;

the control device comprises an oscillating device circuit used for driving the oscillating device, and the power supply circuit is electrically connected with the oscillating device, the control device and the fan.

2. The atomizing device of claim 1, wherein the exhaust cap further includes a bottom cap having a second exhaust hole, a gas guide tube, and an upper cap having a third exhaust hole, the gas guide tube being connected to an upper side of the second exhaust hole at one side thereof and to a lower side of the third exhaust hole of the upper cap at the other side thereof, and the control device is incorporated in the exhaust cap.

3. The atomizing device according to claim 2, wherein the air guide tube includes a base, a connecting tube formed on an upper side of the base, the area of the base being larger than the diameter area of the connecting tube, the base being connected to an upper side of the second air vent, and the connecting tube being connected to a lower side of the third air vent of the upper cap.

4. The atomizing device according to claim 2 or 3, wherein the control device further includes a conductive plate, a conductive pin, the control device has a control button, the upper cover includes a button hole, the control button is inserted into the button hole and protrudes from the upper cover, the conductive pin penetrates through the bottom cover body, the control device is electrically connected to an upper side of the conductive pin, the conductive plate is combined with the top end of the passage, the power circuit is electrically connected to a bottom side of the conductive plate, and when the exhaust cover is detachably combined with the upper side of the water tank, a lower side of the conductive pin is movably electrically contacted with the conductive plate.

5. The atomizing device of claim 4, wherein the power circuit is electrically connected to the bottom side of the conductive plate by a wire, the wire being electrically connected to the power circuit and the conductive plate through the channel.

6. The atomizing device of claim 1, wherein the cover further includes a first arc portion disposed at one side of a periphery of the cover and a second arc portion opposite to the first arc portion disposed at the other side of the periphery of the cover, the second inlet hole extending from an upper side of the first arc portion to an inner side of the first arc portion, the first arc portion detachably coupled to an outer side of the air flow passage, and the second arc portion coupled to an outer side of the air flow passage.

7. The atomizing device of claim 1, wherein the well cover further includes a connecting frame having a recess formed therein, and a ball movably coupled to the recess, the connecting frame being adapted to be coupled to an underside of the first vent hole of the well cover, the ball being disposed under the first vent hole while maintaining a gap between the ball and the first vent hole.

8. The atomizing device of claim 7, wherein the ball is capable of blocking the first vent when the atomizing device is tilted forward, so as to prevent a large amount of water in the water reservoir from directly flowing out of the atomizing device.

9. The atomizing device of claim 1, wherein the oscillating device includes a waterproof ring, a fixing frame, and an oscillating plate, the oscillating plate is made of metal, the hole formed in the bottom of the oscillating space is used for installing the oscillating device, the oscillating plate is disposed on the waterproof ring with a waterproof sealing effect, and the waterproof ring is disposed at the hole.

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