CN116713154B - Circulation atomizing device - Google Patents

Abstract

The application relates to a circulating atomization device, which belongs to the field of atomization devices, and comprises a shell component, wherein the shell component is provided with an installation cavity, and a mist outlet is formed in the shell component; the bracket assembly is provided with an atomization cavity communicated with the mist outlet, and a liquid outlet is formed in the bracket assembly and is communicated with the liquid supply bottle; the atomizing assembly is at least partially positioned in the atomizing cavity, and an included angle between an atomizing surface of the atomizing assembly and the horizontal plane is an acute angle; the liquid supply assembly is characterized in that a liquid inlet of the liquid supply assembly is communicated with a liquid supply bottle, and a liquid outlet of the liquid supply assembly is opposite to the atomizing surface. The structure ensures that the liquid at the atomizing assembly slides out from the atomizing assembly when the liquid at the atomizing assembly is too much, so that the atomizing assembly is prevented from being submerged by the accumulation of the liquid in the atomizing cavity to influence the atomizing efficiency, the atomizing persistence is better, and the liquid waste or the dry burning of the atomizing assembly is avoided.

Description

Circulation atomizing device

Technical Field

The application relates to the field of atomization devices, in particular to a circulating atomization device.

Background

Electronic atomization refers to the atomization of a liquid into aerogel small particles by heating. Along with the continuous innovation and improvement of the atomization technology, the technology is widely applied to the fields of living home and medical treatment at present, such as a humidifier, a aromatherapy machine, a hair care blower, medical atomization treatment and the like which are common in life.

The current atomizing device is thereby to make liquid atomizing through ultrasonic atomization subassembly, along with atomizing subassembly's long-time use, can appear the too little condition of liquid of stock solution intracavity, the problem of atomizing subassembly dry combustion method appears easily under this circumstances, but in just beginning the use, because the atomizing efficiency of atomizing subassembly can be influenced to the too much liquid of stock solution intracavity, consequently, its atomizing efficiency of current atomizing device, play fog stability are all lower.

Disclosure of Invention

Accordingly, it is necessary to provide a circulating atomizer for solving the problem that the conventional atomizer is susceptible to the influence of the remaining liquid in the liquid storage chamber, thereby affecting the atomization efficiency.

A cyclic atomizing device, the cyclic atomizing device comprising: the shell assembly is provided with an installation cavity, and a fog outlet is formed in the shell assembly; the support assembly is arranged on the shell assembly, at least part of the support assembly is positioned in the mounting cavity, the support assembly is provided with an atomization cavity, the atomization cavity is communicated with the mist outlet, a liquid outlet is formed in the support assembly, and the liquid outlet is used for being communicated with a liquid supply bottle; the atomizing assembly is arranged on the bracket assembly, at least part of the atomizing assembly is positioned in the atomizing cavity, and an included angle between an atomizing surface of the atomizing assembly and a horizontal plane is an acute angle; the liquid supply assembly is arranged on the shell assembly and/or the support assembly, a liquid inlet of the liquid supply assembly is communicated with the liquid supply bottle, and a liquid outlet of the liquid supply assembly is opposite to the atomizing surface.

The circulating atomization device disclosed by the application is characterized in that the liquid in the liquid supply bottle is conveyed to the atomization surface of the atomization assembly through the liquid supply assembly during operation, the liquid supplied by the liquid supply assembly can be accurately atomized through the atomization assembly, the included angle between the atomization surface of the atomization assembly and the horizontal plane is an acute angle, and when the liquid at the atomization assembly is excessive, the liquid can slide out from the atomization assembly, so that the accumulation of the liquid at the atomization assembly is avoided, and the influence of the excessive accumulated liquid on the use of the atomization assembly can be avoided. The liquid that slides by atomizing subassembly department will remove to the liquid exit of support subassembly, export to in the confession liquid bottle by the liquid exit, can avoid liquid to gather and inundate atomizing subassembly and influence atomization efficiency in atomizing intracavity through this kind of mode, and the liquid that provides the atomizing through the mode of circulation confession liquid simultaneously can make atomizing persistence better, avoids the liquid extravagant or atomizing subassembly dry combustion method.

In one embodiment, the atomization assembly is provided with a groove, the liquid outlet of the liquid supply assembly is opposite to the groove, and the atomization surface is positioned at the bottom of the groove. Through the recess on the atomizing subassembly can directly drip into the recess with liquid when the liquid supply subassembly carries out liquid supply in, atomize through the atomizing face that is located the recess tank bottom, can make atomizing efficiency higher through this kind of mode. And the possibility of dry combustion of the atomizing assembly can be reduced. The liquid amount that the groove can store is not large, and the influence of liquid accumulation on atomization efficiency can be avoided.

In one embodiment, the atomizing assembly comprises an atomizing housing, an atomizing sheet, a third spring and a first sealing member, wherein the atomizing housing is provided with a containing cavity, the first sealing member is arranged in the containing cavity, the atomizing sheet is positioned between the atomizing housing and the first sealing member, one end of the third spring abuts against the atomizing sheet, the other end of the third spring abuts against the bottom wall of the containing cavity, one side, away from the third spring, of the atomizing sheet is combined with the atomizing housing to form a groove, the atomizing housing is arranged on the bottom wall of the atomizing cavity, and the groove is positioned in the atomizing cavity. Through atomizing piece and atomizing casing formation recess, can keep partial liquid to atomize in recess department when the relative horizontal plane slope of atomizing piece, and liquid will store in recess department when flowing through the recess, can make atomizing piece work have liquid always through the small amount of liquid of recess storage, not only can improve out fog stability, can also effectively promote the life of atomizing piece simultaneously.

In one embodiment, the housing assembly comprises a lower housing and a mist outlet housing, the mist outlet housing is arranged on the lower housing, the mist outlet housing and the lower housing enclose to form an installation cavity, and the mist outlet is formed in the mist outlet housing. The lower shell is matched with the mist outlet shell to realize more convenient assembly, and mist can be guided and timely conveyed to be discharged through the mist outlet shell.

In one embodiment, the lower shell comprises a lower shell body and a lower shell base, the lower shell body is arranged on the lower shell base, the mist outlet shell is arranged on the lower shell body, and the lower shell body is used for installing a liquid supply bottle. Through the cooperation of inferior valve body and inferior valve base, can dismantle the inferior valve base when needing to change the confession liquid bottle, can replace the confession liquid bottle after dismantling the inferior valve base, the assembly is simpler.

In one embodiment, the mist outlet shell comprises a mist outlet body and a connecting shell, wherein the connecting shell is arranged on the mist outlet body, and the connecting shell is connected with the lower shell. The mist can be guided more smoothly through the cooperation of the mist outlet body and the connecting shell, and the connecting shell can be assembled quickly.

In one embodiment, the bracket assembly comprises an atomizing shell and a supporting frame, the supporting frame is arranged on the shell assembly, the atomizing shell is arranged on the supporting frame, and the atomizing shell is provided with the atomizing cavity. Can realize more swift assembly through the cooperation of atomizing shell and support frame, the atomizing shell can realize more swift assembly, and the support frame can carry out stable support to the atomizing shell.

In one embodiment, the atomizing shell comprises a first shell side wall and a first shell bottom wall, the first shell bottom wall is arranged on the first shell side wall, the first shell bottom wall and the first shell side wall enclose to form the atomizing cavity, an included angle between the first shell bottom wall and the horizontal plane is an acute angle, and the atomizing assembly is arranged on the first shell bottom wall. Through setting up the contained angle with the horizontal plane into the first casing diapire and be the acute angle to make the atomizing subassembly of installing on the first casing diapire be the acute angle with the contained angle of horizontal plane equally, the atomizing face that forms on the atomizing subassembly is inclined in the horizontal plane from this, can flow to the liquid feed bottle through atomizing shell if the liquid of atomizing subassembly department accumulation is more, and enclose between first casing lateral wall and the first casing diapire and close and form the atomizing chamber, make atomizing subassembly install the structure at atomizing shell more stable compactness.

In one embodiment, the support frame comprises a support frame body and a support bottom shell, the support bottom shell is arranged on the shell assembly, the support frame body is arranged on the support bottom shell, and the atomizing shell is arranged on the support frame body. Through setting up the support drain pan on the casing subassembly for the mounting structure of the support frame body of setting on the support drain pan is more stable, and is equipped with the atomizing shell on the support frame body, makes the support frame more stable to the bearing structure of atomizing shell, improves the inside structural stability of circulation atomizing device.

In one embodiment, the atomizing shell comprises a second shell side wall and a second shell bottom wall, the second shell bottom wall is rotationally connected with the second shell side wall, the second shell bottom wall is sealed with the second shell side wall, the atomizing assembly is arranged on the second shell bottom wall, the atomizing shell further comprises a driving piece, the driving piece is arranged on the second shell side wall, the driving piece is connected with the second shell bottom wall, the driving piece can drive the second shell bottom wall to rotate, the atomizing shell further comprises a valve body, the valve body is arranged at the liquid outlet, and the valve body is used for opening or closing the liquid outlet. Through the mode that can rotate with the second casing lateral wall at second casing diapire to be connected, can pass through the driving piece with second casing diapire when needs low-power atomizing a small amount of liquid and drive to the angle with the horizontal plane slope, and can drive the second casing diapire to with horizontal plane parallel and level and then adapt to multiple different service scenario through the driving piece when needs high-power quick atomizing. For example, when the liquid which is expensive to atomize and needs to be slowly released is needed, the bottom wall of the second shell can be driven to incline, the liquid is circularly supplied in a circulating supply mode, and meanwhile, the liquid outlet is opened. When the diluted liquid needs to be atomized, the bottom wall of the second shell can be driven to be in a state of being flush with the horizontal plane, then the liquid outlet is closed, and continuous liquid supply is carried out through the liquid supply assembly to realize faster atomization.

In one embodiment, the device further comprises a support assembly, the support assembly comprises a support plate and a support rod, the support rod is arranged on the support plate, and the shell assembly is arranged on the support rod. Through setting up the bracing piece in the backup pad, because the backup pad is used for placing on the face of using, the back face that the backup pad formed is big for the casing subassembly that is connected with the bracing piece also can use more steadily in the use.

In one embodiment, the bracket component is provided with a limiting groove, and a part of the liquid supply component is arranged at the limiting groove. Through be equipped with the spacing groove with the confession liquid subassembly looks adaptation on the bracket component for confession liquid subassembly can pass through spacing groove and bracket component adaptation installation, and extend to the atomizing face that is close to the atomizing subassembly through the spacing groove on, the atomizing face can atomize the liquid that passes through confession liquid subassembly and carry.

In one embodiment, the bracket component is provided with a duct groove, and the part of the liquid supply component is arranged at the duct groove. Through being equipped with the pipe groove on the support subassembly, the infusion pipeline of confession liquid subassembly can extend to the mounting groove of atomizing subassembly through the pipe groove, can further improve the installation accuracy between support subassembly and the confession liquid subassembly for the confession liquid subassembly can be more accurately with the atomizing face department of liquid transport to atomizing subassembly. Preferably, the bracket component is simultaneously provided with the communicated guide pipe groove and the limit groove which are used for being matched with the liquid supply component, so that the liquid supply component can convey liquid to the atomizing component more reliably.

In one embodiment, the liquid supply assembly comprises a pump body and a liquid guide assembly, the pump body is communicated with the liquid guide assembly, a liquid inlet of the pump body is communicated with the liquid supply bottle, and a liquid outlet of the liquid guide assembly is opposite to the atomization surface. Through being equipped with the pump body with the drain subassembly intercommunication, the one end and the pump body coupling of drain subassembly, the one end that its is close to the liquid outlet sets up relatively with the atomizing face, and the pump body provides the transport power for the required atomized liquid of atomizing subassembly, and the pump body carries the atomizing face through the drain subassembly with the liquid in the confession liquid bottle, and in the excessive liquid of atomizing subassembly department can carry the confession liquid bottle through the bracket component again to realize the inside liquid transport circulation of circulation atomizing device.

In one embodiment, the liquid guiding component comprises a liquid guiding pipe, a limiting frame and a connecting frame, wherein the limiting frame is arranged on the support component, the liquid guiding pipe is arranged on the limiting frame, the connecting frame is arranged on the support component, and the liquid guiding pipe is clamped between the connecting frame and the support component. Through being equipped with the spacing on the bracket component for the whole of drain subassembly can be fixed on the bracket component, and be equipped with the link and press from both sides the catheter and establish on link and bracket component, thereby make the mounting structure of catheter more stable, when avoiding catheter and pump body intercommunication, influence the mounting stability of catheter because the vibrations that the pump body work produced.

In one embodiment, the device further comprises a control assembly, wherein the control assembly is arranged on the shell assembly or the bracket assembly. The control component is used for controlling the work of the atomization component and/or the liquid supply component, and the whole machine of the circulating atomization device is started and closed, and other functional control can be realized, so that the whole circulating atomization device realizes the automation and controllability of the working process.

In one embodiment, the atomizing device further comprises a fan, wherein the fan is arranged on the bracket assembly and is communicated with the atomizing cavity. The fan is arranged to convey the fog generated in the atomization cavity to the outside of the circulating atomization device, so that the conveying distance of the fog is increased.

In a second aspect of the application, a method of atomizing is disclosed.

An atomization method for any one of the above-mentioned cyclic atomization devices, the atomization method comprising the steps of: starting a liquid supply assembly to start working, and conveying liquid in a liquid supply bottle to an atomization cavity of the bracket assembly and to the atomization assembly by the liquid supply assembly; the atomizing assembly and the fan start to work, the atomizing assembly atomizes the liquid, and the fan outputs atomized fog to the outside through the fog outlet; the support component guides the liquid which is not atomized by the atomization component into the liquid supply bottle, and the liquid supply component is used for circularly supplying the liquid.

According to the atomization method disclosed by the second aspect of the application, after the liquid supply assembly starts to work, liquid in the liquid supply bottle is conveyed to the atomization cavity in the bracket assembly, so that the atomization assembly arranged in the atomization cavity can atomize the liquid in the atomization cavity, generated fog forms air flow under the drive of the fan and is conveyed to the outside through the fog outlet, when the liquid in the atomization cavity is excessive, the liquid in the atomization cavity flows back to the liquid supply bottle through the bracket assembly, so that the liquid in the atomization cavity is maintained at a certain volume, the atomization efficiency and the work circulation of the atomization assembly can be improved, the circulating atomization device is more saved through the backflow to the liquid supply bottle, and the liquid continuously enters the atomization cavity to be atomized by the atomization assembly through the liquid circulation under the continuous work of the liquid supply assembly, so that the circulating liquid supply process is realized.

In one embodiment, the method further comprises the following steps before starting the liquid supply assembly to operate: selecting a high-efficiency atomization mode or a low-power atomization mode according to the atomization amount to be atomized and the type of liquid; when the efficient atomization mode is selected, the driving piece is started to work so as to rotate the atomization surface of the atomization assembly to be level with the horizontal plane and close a channel between the atomization cavity and the liquid supply bottle; when the low-power atomization mode is selected, the driving piece is started to work so as to rotate the atomization surface of the atomization assembly to be in an inclined state with the horizontal plane, the included angle between the atomization surface of the atomization assembly and the horizontal plane is 5-60 degrees, and meanwhile, a channel between the atomization cavity and the liquid supply bottle is opened. The user can improve the applicable scene of the slow circulation atomizing device by selecting the high-efficiency atomizing mode and the low-power atomizing mode, and more use requirements of the user are met. When the high-efficiency atomization mode is started, the atomization surface of the atomization assembly is flush with the horizontal plane and is communicated with the liquid supply bottle in a closing mode, so that liquid in the atomization cavity does not flow back into the liquid supply bottle, and more liquid is needed in the high-efficiency atomization process by the atomization assembly. When the low-power atomizing mode is started, because the atomizing assembly in the low-power atomizing mode atomizes the generated fog body less, the consumption of liquid is also less, the atomizing surface of the atomizing assembly is inclined with the horizontal surface through the driving piece, so that the liquid which is not consumed by the atomizing assembly in the atomizing cavity flows back into the liquid supply bottle, the certain capacity of the liquid in the atomizing cavity is kept, the atomizing assembly stably works, and meanwhile, the redundant liquid can be recovered into the liquid supply bottle, so that the atomizing process is more energy-saving and stable.

Drawings

FIG. 1 is a schematic view of a cyclic atomizing apparatus according to an embodiment of the present application;

FIG. 2 is an exploded view of a cyclic atomizing device according to an embodiment of the present application;

FIG. 3 is a cross-sectional view of a cyclic atomizing device according to an embodiment of the present application;

FIG. 4 is a second cross-sectional view of a cyclic atomizing apparatus according to an embodiment of the present application;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a third cross-sectional view of a cyclic atomizing device according to an embodiment of the present application;

FIG. 7 is a cross-sectional view of a cyclic atomizing device according to an embodiment of the present application;

FIG. 8 is a schematic view of an atomizing assembly according to an embodiment of the present disclosure;

FIG. 9 is a cross-sectional view of an atomizing assembly according to an embodiment of the present disclosure;

FIG. 10 is an exploded view of an atomizing assembly according to one embodiment of the present disclosure;

FIG. 11 is an exploded view of a housing assembly according to an embodiment of the present application;

FIG. 12 is a cross-sectional view of a housing assembly according to an embodiment of the present application;

FIG. 13 is a schematic view of a bracket assembly according to an embodiment of the present application;

FIG. 14 is a second schematic view of a bracket assembly according to an embodiment of the application;

FIG. 15 is an exploded view of a bracket assembly according to one embodiment of the present application;

FIG. 16 is a schematic illustration of an aerosol housing according to an embodiment of the present application;

FIG. 17 is a second schematic view of an atomizing housing according to an embodiment of the present application;

FIG. 18 is a cross-sectional view of an atomizing housing according to an embodiment of the present disclosure;

FIG. 19 is a schematic view of a fluid transfer assembly according to an embodiment of the present application;

FIG. 20 is an exploded view of a fluid handling assembly according to an embodiment of the present application.

Wherein, the correspondence between the reference numerals and the component names is:

1 a shell assembly, 11 a lower shell, 111 a lower shell body, 112 a lower shell base, 12 a fog outlet shell, 121 a fog outlet body, 122 a connecting shell, 101 a mounting cavity and 102 a fog outlet;

the device comprises a support assembly 2, an atomization shell 21, a first shell side wall 211, a first shell bottom wall 212, an atomization cavity 201, a limit groove 202, a guide pipe groove 203, a support frame 22, a support frame 221 body 222 and a support bottom shell;

3 an atomizing assembly, 31 an atomizing housing, 32 an atomizing plate, 33 a third spring, 34 a first seal, 301 a receiving chamber;

4 liquid supply components, 41 pump bodies, 42 liquid guide components, 421 liquid guide pipes, 422 limiting frames and 423 connecting frames;

5 support assemblies, 51 support plates, 52 support rods;

6, a liquid supply bottle;

and 7, controlling the assembly.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will be more clearly understood, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present application and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited to the specific embodiments disclosed below.

The following describes some embodiments of the cyclic atomization device according to the present application with reference to the accompanying drawings.

Embodiment 1, as shown in fig. 1 to 20, the present embodiment discloses a cyclic atomizing device, which includes: the device comprises a shell assembly 1, wherein the shell assembly 1 is provided with an installation cavity 101, and a fog outlet 102 is formed in the shell assembly 1; the bracket component 2 is arranged on the shell component 1, the bracket component 2 is at least partially positioned in the mounting cavity 101, the bracket component 2 is provided with an atomization cavity 201, the atomization cavity 201 is communicated with the mist outlet 102, the bracket component 2 is provided with a liquid outlet, and the liquid outlet is communicated with the liquid supply bottle 6; the atomizing assembly 3 is arranged on the bracket assembly 2, at least part of the atomizing assembly 3 is positioned in the atomizing cavity 201, and an included angle between an atomizing surface of the atomizing assembly 3 and the horizontal plane is an acute angle; the liquid supply assembly 4, the liquid supply assembly 4 sets up on casing assembly 1 and/or support subassembly 2, and the inlet of liquid supply assembly 4 is used for with the feed bottle 6 intercommunication, the liquid outlet of liquid supply assembly 4 sets up with the atomizing face relatively.

When the circulation atomizing device disclosed by the application works, the liquid in the liquid supply bottle 6 is conveyed to the atomizing surface of the atomizing assembly 3 through the liquid supply assembly 4, the liquid supplied by the liquid supply assembly 4 can be accurately atomized through the atomizing assembly 3, the included angle between the atomizing surface of the atomizing assembly 3 and the horizontal plane is an acute angle, and when the liquid at the atomizing assembly 3 is excessive, the liquid can slide out from the atomizing assembly 3, so that the liquid accumulated at the atomizing assembly 3 is avoided, and the phenomenon that the use of the atomizing assembly 3 is influenced by the excessive accumulated liquid can be avoided. The liquid that slides by atomizing subassembly 3 department will remove to the liquid exit of support subassembly 2, exports to in the confession liquid bottle 6 by the liquid exit, can avoid liquid gathering and inundate atomizing subassembly 3 in atomizing chamber 201 to influence atomization efficiency through this kind of mode, and the liquid that provides the atomizing through the mode of circulation confession liquid simultaneously can make atomizing persistence better, avoids the liquid extravagant or atomizing subassembly 3 dry combustion method.

As shown in fig. 3 and 4, this embodiment further defines, in addition to the features of the above-described embodiment: the atomizing assembly 3 is provided with a groove, a liquid outlet of the liquid supply assembly 4 is opposite to the groove, and an atomizing surface is positioned at the bottom of the groove. Through the recess on the atomizing subassembly 3 can directly drip into the recess with liquid when the liquid supply subassembly 4 carries out liquid supply in, atomizes through the atomizing face that is located the recess tank bottom, can make atomizing efficiency higher through this kind of mode. But also reduces the likelihood of dry heating of the atomizing assembly 3. The liquid amount that the groove can store is not large, and the influence of liquid accumulation on atomization efficiency can be avoided.

As shown in fig. 4 to 9, this embodiment further defines, in addition to the features of the above-described embodiment: the atomizing subassembly 3 includes atomizing casing 31, atomizing piece 32, third spring 33 and first sealing member 34, atomizing casing 31 is equipped with holds chamber 301, first sealing member 34 sets up in holding chamber 301, atomizing piece 32 is located between atomizing casing 31 and the first sealing member 34, third spring 33 one end offsets with atomizing piece 32, the other end offsets with holding the diapire in chamber 301, one side that atomizing piece 32 kept away from third spring 33 forms the recess with atomizing casing 31 combination, atomizing casing 31 sets up on atomizing chamber 201's chamber diapire, the recess is located atomizing chamber 201. Through atomizing piece 32 and atomizing casing 31 formation recess, can keep partial liquid to atomize in recess department when atomizing piece 32 relative horizontal plane slope, and liquid will be stored in recess department when flowing through the recess, can make atomizing piece work have liquid always through the small amount of liquid of recess storage, not only can improve out fog stability, can also effectively promote the life of atomizing piece 32 simultaneously.

As shown in fig. 3, 10 and 11, this embodiment further defines, in addition to the features of the above-described embodiment: the housing assembly 1 comprises a lower housing 11 and a mist outlet housing 12, wherein the mist outlet housing 12 is arranged on the lower housing 11, the mist outlet housing 12 and the lower housing 11 are enclosed to form a mounting cavity 101, and a mist outlet 102 is formed in the mist outlet housing 12. More convenient assembly can be realized through the cooperation of lower casing 11 and play fog shell 12, can guide timely transport and go out the fog through going out fog shell 12.

As shown in fig. 10 and 11, this embodiment further defines, in addition to the features of the above-described embodiment: the lower housing 11 includes a lower housing body 111 and a lower housing base 112, the lower housing body 111 is disposed on the lower housing base 112, the mist-discharging housing 12 is disposed on the lower housing body 111, and the lower housing body 111 is used for mounting the liquid supply bottle 6. Through the cooperation of inferior valve body 111 and inferior valve base 112, can dismantle inferior valve base 112 when the confession liquid bottle 6 needs to be changed, can replace and supply liquid bottle 6 after dismantling inferior valve base 112, the assembly is simpler.

As shown in fig. 4 and 11, this embodiment further defines, in addition to the features of the above-described embodiment: the mist outlet casing 12 includes a mist outlet body 121 and a connection casing 122, the connection casing 122 is disposed on the mist outlet body 121, and the connection casing 122 is connected with the lower casing 11. The mist can be guided more smoothly by the cooperation of the mist outlet body 121 and the connection housing 122, and the connection housing 122 can be assembled rapidly.

As shown in fig. 13 to 15, this embodiment further defines, in addition to the features of the above-described embodiment: the support assembly 2 comprises an atomization shell 21 and a support frame 22, the support frame 22 is arranged on the shell assembly 1, the atomization shell 21 is arranged on the support frame 22, and the atomization shell 21 is provided with an atomization cavity 201. Can realize more swift assembly through the cooperation of atomizing shell 21 and support frame 22, atomizing shell 21 can realize more swift assembly, and support frame 22 can carry out stable support to atomizing shell 21.

As shown in fig. 18, in addition to the features of the above embodiment, the present embodiment further defines: the atomizing housing 21 includes a first housing side wall 211 and a first housing bottom wall 212, the first housing bottom wall 212 is disposed on the first housing side wall 211, the first housing bottom wall 212 and the first housing side wall 211 enclose to form an atomizing chamber 201, an included angle between the first housing bottom wall 212 and a horizontal plane is an acute angle, and the atomizing assembly 3 is disposed on the first housing bottom wall 212. Through setting up first casing diapire 212 to be the acute angle with the contained angle of horizontal plane to make the atomizing subassembly 3 of installing on first casing diapire 212 be the acute angle with the contained angle of horizontal plane equally, atomizing face that forms on atomizing subassembly 3 is inclined in the horizontal plane from this, can flow to liquid feed bottle 6 through atomizing shell 21 if atomizing subassembly 3 department accumulated more liquid, and enclose between first casing lateral wall 211 and the first casing diapire 212 and form atomizing chamber 201, make atomizing subassembly 3 install the structure at atomizing shell 21 more stable compactness.

As shown in fig. 15, in addition to the features of the above embodiment, the present embodiment further defines: the support frame 22 includes a support frame body 221 and a support bottom case 222, the support bottom case 222 is disposed on the housing assembly 1, the support frame body 221 is disposed on the support bottom case 222, and the atomizing shell 21 is disposed on the support frame body 221. Through setting up support drain pan 222 on casing subassembly 1 for the mounting structure of the support frame 22 body of setting on support drain pan 222 is more stable, and is equipped with atomizing shell 21 on the support frame 22 body, makes support frame 22 more stable to the bearing structure of atomizing shell 21, improves the inside structural stability of circulation atomizing device.

As shown in fig. 1 to 7, this embodiment further defines, in addition to the features of the above-described embodiment: still include supporting component 5, supporting component 5 includes backup pad 51 and bracing piece 52, and bracing piece 52 sets up on backup pad 51, and casing assembly 1 sets up on bracing piece 52. By providing the support bar 52 on the support plate 51, since the support plate 51 is used to be placed on the use surface, the support surface formed by the support plate 51 is large, so that the housing assembly 1 connected to the support bar 52 can be used more stably also during use.

As shown in fig. 6 and 18, this embodiment further defines, in addition to the features of the above-described embodiment: the bracket component 2 is provided with a limit groove 202, and a part of the liquid supply component 4 is arranged at the limit groove 202. Through be equipped with on the bracket component with the spacing groove 202 of feed liquid subassembly 4 looks adaptation for feed liquid subassembly 4 can pass through spacing groove 202 and bracket component adaptation installation, and extend to the atomizing face that is close to atomizing subassembly 3 through spacing groove 202 on, the atomizing face can atomize the liquid of carrying through feed liquid subassembly 4.

As shown in fig. 18, in addition to the features of the above embodiment, the present embodiment further defines: the bracket component 2 is provided with a conduit groove 203, and a part of the liquid supply component 4 is arranged at the conduit groove 203. Through being equipped with the pipe groove 203 on the support subassembly, the infusion pipeline of confession liquid subassembly 4 can extend to the mounting groove of atomizing subassembly 3 through pipe groove 203, can further improve the installation accuracy between support subassembly and the confession liquid subassembly 4 for confession liquid subassembly 4 can carry the atomizing face department of atomizing subassembly 3 with liquid more accurately. Preferably, the communicating conduit groove 203 and the limiting groove 202 are simultaneously arranged on the bracket assembly and are used for being matched with the liquid supply assembly 4, so that the structure of the liquid supply assembly 4 for conveying liquid to the atomizing assembly 3 is more reliable.

As shown in fig. 2 and 3, this embodiment further defines, in addition to the features of the above-described embodiment: the liquid supply assembly 4 comprises a pump body 41 and a liquid guide assembly 42, the pump body 41 is communicated with the liquid guide assembly 42, a liquid inlet of the pump body 41 is used for being communicated with the liquid supply bottle 6, and a liquid outlet of the liquid guide assembly 42 is opposite to the atomization surface. Through be equipped with the pump body 41 of drain subassembly 42 intercommunication, the one end and the pump body 41 of drain subassembly 42 are connected, and the one end that its is close to the liquid outlet sets up relatively with the atomizing face, and pump body 41 provides the transport power for the required atomizing liquid of atomizing subassembly 3, and pump body 41 carries the atomizing face through drain subassembly 42 with the liquid in the confession liquid bottle 6, and the excessive liquid of atomizing subassembly 3 department can carry in the confession liquid bottle 6 through the bracket component again to realize the inside liquid transport circulation of circulation atomizing device.

As shown in fig. 19 and 20, this embodiment further defines, in addition to the features of the above-described embodiment: the liquid guiding assembly 42 comprises a liquid guiding tube 421, a limiting frame 422 and a connecting frame 423, wherein the limiting frame 422 is arranged on the support assembly 2, the liquid guiding tube 421 is arranged on the limiting frame 422, the connecting frame 423 is arranged on the support assembly 2, and the liquid guiding tube 421 is clamped between the connecting frame 423 and the support assembly 2. Through being equipped with spacing 422 on the bracket component for the whole of drain subassembly 42 can be fixed on the bracket component, and be equipped with link 423 and press from both sides the catheter 421 and establish on link 423 and bracket component, thereby make the mounting structure of catheter 421 more stable, when avoiding catheter 421 and the pump body 41 intercommunication, influence the mounting stability of catheter 421 because the vibrations that pump body 41 work produced.

As shown in fig. 2, this embodiment further defines, in addition to the features of the above-described embodiment: also included is a control assembly 7, the control assembly 7 being disposed on the housing assembly 1 or the bracket assembly 2. The control component 7 is used for controlling the work of the atomizing component 3 and/or the liquid supply component 4, and the whole machine of the circulating atomizing device is started and closed, and other functional control can be realized, so that the whole circulating atomizing device realizes the automation and controllability of the working process.

In addition to the features of the above embodiments, the present embodiment further defines: and a fan provided on the holder assembly 2, the fan communicating with the atomizing chamber 201. By providing a fan for conveying the mist generated in the atomizing chamber 201 to the outside of the circulation atomizing device, the conveying distance of the mist is increased.

Embodiment 2, in addition to the features of the above embodiment, this embodiment further defines: the atomizing shell 21 includes second casing lateral wall and second casing diapire, and second casing diapire rotates with the second casing lateral wall to be connected, seals between second casing diapire and the second casing lateral wall, and atomizing subassembly 3 sets up on the second casing diapire, still includes the driving piece, and the driving piece sets up on the second casing lateral wall, and the driving piece is connected with the second casing diapire, and the driving piece can drive second casing diapire and rotate, still includes the valve body, and the valve body sets up in liquid exit, and the valve body is used for opening or closing liquid exit. Through the mode that can rotate with the second casing lateral wall at second casing diapire to be connected, can pass through the driving piece with second casing diapire when needs low-power atomizing a small amount of liquid and drive to the angle with the horizontal plane slope, and can drive the second casing diapire to with horizontal plane parallel and level and then adapt to multiple different service scenario through the driving piece when needs high-power quick atomizing. For example, when the liquid which is expensive to atomize and needs to be slowly released is needed, the bottom wall of the second shell can be driven to incline, the liquid is circularly supplied in a circulating supply mode, and meanwhile, the liquid outlet is opened. When the diluted liquid needs to be atomized, the bottom wall of the second shell can be driven to be in a state of being flush with the horizontal plane, then the liquid outlet is closed, and continuous liquid supply is performed through the liquid supply assembly 4 to perform more rapid atomization.

Embodiment 3, this embodiment discloses an atomization method for any one of the above-mentioned cyclic atomization devices, where the atomization method includes the following steps: starting the liquid supply assembly 4 to start working, and conveying the liquid in the liquid supply bottle 6 to the atomizing cavity 201 of the bracket assembly 2 by the liquid supply assembly 4 and to the atomizing assembly 3; the atomizing assembly 3 and a fan start to work, the atomizing assembly 3 atomizes liquid, and the fan outputs atomized fog to the outside through the fog outlet 102; the bracket component 2 guides the liquid which is not atomized by the atomization component 3 into the liquid supply bottle 6, and circularly supplies the liquid through the liquid supply component 4.

The third embodiment of the present application discloses an atomization method, in which after a liquid supply assembly 4 starts to work, liquid in a liquid supply bottle 6 is conveyed to an atomization cavity 201 in a support assembly, so that an atomization assembly 3 arranged in the atomization cavity 201 can atomize the liquid in the atomization cavity 201, generated mist forms air flow under the driving of a fan and is conveyed to the outside through a mist outlet, when the liquid in the atomization cavity 201 is too much, the liquid in the atomization cavity 201 can be returned to the liquid supply bottle 6 through the support assembly, so that the liquid in the atomization cavity 201 can be maintained at a certain volume, thereby improving the atomization efficiency and the work circulation of the atomization assembly 3, and the circulation atomization device is more economical through the return to the liquid supply bottle 6, and the liquid continuously enters the atomization cavity 201 through the circulation of the liquid under the continuous work of the liquid supply assembly 4 to be atomized by the atomization assembly 3, so as to realize the circulation liquid supply process.

In addition to the features of the above embodiments, the present embodiment further defines: before starting the liquid supply assembly 4, the method further comprises the following steps: selecting a high-efficiency atomization mode or a low-power atomization mode according to the atomization amount to be atomized and the type of liquid; when the efficient atomization mode is selected, the driving piece is started to work so as to rotate the atomization surface of the atomization assembly 3 to be level with the horizontal plane and close a channel between the atomization cavity 201 and the liquid supply bottle 6; when the low-power atomization mode is selected, the driving piece is started to work so as to rotate the atomization surface of the atomization assembly 3 to be in an inclined state with the horizontal plane, the included angle between the atomization surface of the atomization assembly 3 and the horizontal plane is 5-60 degrees, and meanwhile, a channel between the atomization cavity 201 and the liquid supply bottle 6 is opened. The user can improve the applicable scene of the slow circulation atomizing device by selecting the high-efficiency atomizing mode and the low-power atomizing mode, and more use requirements of the user are met. When the efficient atomization mode is started, the atomization surface of the atomization assembly 3 is flush with the horizontal plane by driving and the communication with the liquid supply bottle 6 is closed, so that liquid in the atomization cavity 201 does not flow back into the liquid supply bottle 6, and more liquid is needed in the efficient atomization process by the atomization assembly 3. When the low-power atomization mode is started, because the atomization component 3 in the low-power atomization mode is atomized to generate less fog, the consumption of liquid is smaller, the atomization surface of the atomization component 3 and the horizontal surface are inclined through the driving piece, so that the liquid which is not consumed by the atomization component 3 in the atomization cavity 201 flows back into the liquid supply bottle 6, the certain capacity of the liquid in the atomization cavity 201 is maintained, the atomization component 3 stably works, and the redundant liquid can be recovered into the liquid supply bottle 6, so that the atomization process is more energy-saving and stable.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (10)

1. A cyclic atomizing device, characterized in that the cyclic atomizing device comprises:

the device comprises a shell assembly (1), wherein the shell assembly (1) is provided with a mounting cavity (101), and a fog outlet (102) is formed in the shell assembly (1);

the support assembly (2), the support assembly (2) is arranged on the shell assembly (1), the support assembly (2) is at least partially positioned in the mounting cavity (101), the support assembly (2) is provided with an atomization cavity (201), the atomization cavity (201) is communicated with the mist outlet (102), a liquid outlet is formed in the support assembly (2), and the liquid outlet is used for being communicated with the liquid supply bottle (6);

the atomization assembly (3) is arranged on the bracket assembly (2), at least part of the atomization assembly (3) is positioned in the atomization cavity (201), and an included angle between an atomization surface of the atomization assembly (3) and the horizontal plane is an acute angle;

the liquid supply assembly (4) is arranged on the shell assembly (1) and/or the bracket assembly (2), a liquid inlet of the liquid supply assembly (4) is used for being communicated with a liquid supply bottle (6), and a liquid outlet of the liquid supply assembly (4) is arranged opposite to the atomization surface;

the support assembly (2) comprises an atomization shell (21) and a support frame (22), the support frame (22) is arranged on the shell assembly (1), the atomization shell (21) is arranged on the support frame (22), and the atomization shell (21) is provided with the atomization cavity (201);

the atomizing shell (21) comprises a second shell side wall and a second shell bottom wall, the second shell bottom wall is rotationally connected with the second shell side wall, the second shell bottom wall is sealed with the second shell side wall, the atomizing assembly (3) is arranged on the second shell bottom wall and further comprises a driving piece, the driving piece is arranged on the second shell side wall, the driving piece is connected with the second shell bottom wall, the driving piece can drive the second shell bottom wall to rotate and further comprises a valve body, the valve body is arranged at the liquid outlet, and the valve body is used for opening or closing the liquid outlet.

2. The circulating atomization device according to claim 1, wherein a groove is formed on the atomization assembly (3), a liquid outlet of the liquid supply assembly (4) is arranged opposite to the groove, and the atomization surface is positioned at the bottom of the groove.

3. The circulating atomizing device according to claim 2, characterized in that the atomizing assembly (3) comprises an atomizing housing (31), an atomizing sheet (32), a third spring (33) and a first sealing member (34), wherein the atomizing housing (31) is provided with a containing cavity (301), the first sealing member (34) is arranged in the containing cavity (301), the atomizing sheet (32) is positioned between the atomizing housing (31) and the first sealing member (34), one end of the third spring (33) is abutted against the atomizing sheet (32), the other end is abutted against the bottom wall of the containing cavity (301), one side, away from the third spring (33), of the atomizing sheet (32) is combined with the atomizing housing (31) to form the groove, the atomizing housing (31) is arranged on the cavity bottom wall of the atomizing cavity (201), and the groove is positioned in the atomizing cavity (201).

4. The cyclic atomizing device according to claim 1, characterized in that the housing assembly (1) comprises a lower housing (11) and an atomizing housing (12), the atomizing housing (12) is arranged on the lower housing (11), the atomizing housing (12) and the lower housing (11) are enclosed to form a mounting cavity (101), and the atomizing housing (12) is provided with the atomizing outlet (102).

5. The cyclic atomizing device according to claim 4, characterized in that the lower housing (11) comprises a lower housing body (111) and a lower housing base (112), the lower housing body (111) is provided at the lower housing base (112), the atomizing housing (12) is provided on the lower housing body (111), and the lower housing body (111) is used for mounting a liquid supply bottle (6).

6. The cyclic atomizing device according to claim 4, characterized in that the atomizing housing (12) comprises an atomizing body (121) and a connecting housing (122), the connecting housing (122) being provided at the atomizing body (121), the connecting housing (122) being connected with the lower housing (11).

7. The cyclic atomizing device according to claim 1, characterized in that the support frame (22) comprises a support frame body (221) and a support bottom shell (222), the support bottom shell (222) is arranged on the housing assembly (1), the support frame body (221) is arranged on the support bottom shell (222), and the atomizing shell (21) is arranged on the support frame body (221).

8. A cyclic atomizing device according to claim 1, characterized by further comprising a support assembly (5), the support assembly (5) comprising a support plate (51) and a support rod (52), the support rod (52) being arranged on the support plate (51), the housing assembly (1) being arranged on the support rod (52).

9. The cyclic atomizing device according to claim 1, characterized in that the bracket assembly (2) is provided with a limit groove (202), and a part of the liquid supply assembly (4) is arranged at the limit groove (202); the bracket component (2) is provided with a conduit groove (203), and a part of the liquid supply component (4) is arranged at the conduit groove (203).

10. The cyclic atomizing device according to claim 1, characterized in that the liquid supply assembly (4) comprises a pump body (41) and a liquid guide assembly (42), the pump body (41) is communicated with the liquid guide assembly (42), a liquid inlet of the pump body (41) is used for being communicated with a liquid supply bottle (6), and a liquid outlet of the liquid guide assembly (42) is arranged opposite to the atomizing surface.