CN213468400U - Atomizing device and cleaning auxiliary unit - Google Patents

Abstract

The utility model discloses an atomizing device and a cleaning auxiliary unit. The atomizing device includes an atomizing unit, a control unit and a cleaning auxiliary unit. The atomizing unit includes a main body element, a nozzle element and an atomizing element, the main body element has an accommodating space, the nozzle element is connected to the main body element, the nozzle element has an output channel communicated with the accommodating space, and the atomizing element is located in the main body element and corresponds to the Accommodating space and output channels. The control unit is detachably connected to the atomizing unit, and is electrically connected to the atomizing element. The cleaning auxiliary unit has a joint portion and a storage channel corresponding to the joint portion. When the storage channel is filled with liquid and the joint is detachably connected to the nozzle element, the liquid is filled from the storage channel to the output channel. Therefore, the atomizing device and the cleaning auxiliary unit of the present invention can improve the convenience of cleaning the atomizing device.

Description

Atomizing device and cleaning auxiliary unit

Technical Field

The utility model relates to an atomizing device and clean auxiliary unit especially relate to an atomizing device and clean auxiliary unit that can help clean atomizing component.

Background

Atomizing devices are widely used in various fields, such as cooling, humidification, disinfection, and medical applications. The vibrating atomizer drives the atomizer with frequency to form sound wave oscillation to produce micro fog grains.

However, as the atomization device is used over the years, the micro-holes on the atomization member of the atomization device often block impurities, micro-particles or other substances, thereby reducing the efficiency or efficiency of the atomization device for generating micro-mist or mist particles, and further affecting the convenience of the atomization device, which causes inconvenience in use of the atomization device.

Therefore, how to overcome the above-mentioned drawbacks by improving the structural design has become one of the important issues to be solved in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, not enough to prior art provides an atomizing device and clean auxiliary unit.

In order to solve the technical problem, the utility model provides an one of them technical scheme is to provide an atomizing device, including atomizing unit, the control unit and clean auxiliary unit. The atomizing unit comprises a main body element, a nozzle element and an atomizing element, wherein the main body element is provided with an accommodating space, the nozzle element is connected to the main body element, the nozzle element is provided with an output channel communicated with the accommodating space, and the atomizing element is positioned in the main body element and corresponds to the accommodating space and the output channel. The control unit is detachably connected to the atomizing unit and is electrically connected with the atomizing element. The cleaning assistance unit has an engagement portion and a storage passage corresponding to the engagement portion. Wherein when the storage channel is filled with liquid and the joint is detachably connected to the nozzle element, the liquid is filled from the storage channel to the output channel.

Preferably, the nozzle element is a unitary element with the body element.

Preferably, the engagement portion covers the nozzle element.

Preferably, the main body element has a positioning portion and a lead-out channel corresponding to the positioning portion, the nozzle element is detachably connected to the positioning portion, and the output channel is communicated with the accommodating space through the lead-out channel; wherein the first outer diameter of the engagement portion is less than the first diameter of the output channel.

Preferably, the cleaning assisting unit has a filling part and an input passage corresponding to the filling part, the input passage communicating with the storage passage; wherein when the input channel is filled with the liquid, the liquid is filled to the output channel and the lead-out channel through the storage channel.

Preferably, the body of the cleaning auxiliary unit is divided into the filling part and the joint part, the filling part is of a funnel-shaped structure, and the joint part is of a tubular structure; the first central axis of the input channel and the second central axis of the storage channel form a preset included angle, and the preset included angle is between 30 degrees and 180 degrees.

Preferably, the nozzle member includes a connecting member and a guide member, the connecting member and the guide member are hollow, the connecting member is detachably connected to the guide member, and the interior of the connecting member communicates with the interior of the guide member to form the output passage; wherein the connecting member is detachably connected to the positioning portion, and the engaging portion is detachably connected to the guide member.

Preferably, the second diameter of the storage channel is greater than the second outer diameter of the guide.

Preferably, the cleaning assistance unit has a U-shaped cross-section.

In order to solve the above technical problem, another technical solution adopted by the present invention is to provide a cleaning assisting unit adapted to an atomizing device, the cleaning assisting unit having a joint portion and a storage passage corresponding to the joint portion; wherein when the storage channel is filled with liquid and the engagement portion is detachably connected to a nozzle element of the atomizing device, the liquid is filled from the storage channel to an output channel of the nozzle element.

Preferably, the engagement portion covers the nozzle element.

Preferably, the cleaning assisting unit has a filling part and an input passage corresponding to the filling part, the input passage communicating with the storage passage; wherein when the input channel is filled with the liquid, the liquid is filled to the output channel through the storage channel.

Preferably, a predetermined included angle is formed between a first central axis of the input channel and a second central axis of the storage channel, and the predetermined included angle is between 30 degrees and 180 degrees.

The utility model discloses an one of them beneficial effect lies in, the utility model provides an atomizing device can include atomizing unit, the control unit and clean auxiliary unit through "atomizing device. The atomizing unit comprises a main body element, a nozzle element and an atomizing element, wherein the main body element is provided with an accommodating space, the nozzle element is connected to the main body element, the nozzle element is provided with an output channel communicated with the accommodating space, and the atomizing element is positioned in the main body element and corresponds to the accommodating space and the output channel. The control unit is detachably connected to the atomizing unit and is electrically connected with the atomizing element. The cleaning assistance unit has an engagement portion and a storage passage corresponding to the engagement portion. When the storage channel is filled with liquid and the joint is detachably connected to the nozzle element, the liquid is filled from the storage channel to the output channel, so as to improve the convenience in cleaning the atomization device.

Another advantageous effect of the present invention is that the cleaning assisting unit provided by the present invention can be adapted to the atomizing device by the "cleaning assisting unit, the cleaning assisting unit has a joint portion and a storage passage corresponding to the joint portion; wherein, when the storage channel is filled with liquid and the joint is detachably connected to the nozzle element of the atomization device, the liquid is filled from the storage channel to the output channel of the nozzle element, so as to improve the convenience of cleaning the atomization device.

For a further understanding of the nature and technical content of the present invention, reference should be made to the following detailed description and accompanying drawings, which are provided for reference and illustration purposes only and are not intended to limit the invention.

Drawings

Fig. 1 is an exploded schematic view of an atomizing device according to a first embodiment of the present invention.

Fig. 2 is a schematic side view of an atomization device according to a first embodiment of the present invention.

Fig. 3 is a schematic cross-sectional view of an atomizing device according to a first embodiment of the present invention.

Fig. 4 is a schematic view of a state of use of the atomization device according to the first embodiment of the present invention.

Fig. 5 is a schematic perspective view of an atomizing device according to a second embodiment of the present invention.

Fig. 6 is a schematic side view of an atomizing device according to a second embodiment of the present invention.

Fig. 7 is a first cross-sectional view schematically illustrating an atomizing device according to a second embodiment of the present invention.

Fig. 8 is a schematic view of an atomizing device according to a second embodiment of the present invention.

Fig. 9 is a second cross-sectional view schematically illustrating an atomizing device according to a second embodiment of the present invention.

Fig. 10 is a schematic sectional view of a cleaning assisting unit according to a third embodiment of the present invention.

Fig. 11 is a schematic view of an atomizing device according to a third embodiment of the present invention.

Fig. 12 is a schematic cross-sectional view of an atomizing device according to a third embodiment of the present invention.

Fig. 13 is a schematic cross-sectional view of an atomizing device according to a fourth embodiment of the present invention.

Fig. 14 is a schematic view of an atomizing device according to a fourth embodiment of the present invention in a use state.

Detailed Description

The following is a description of the embodiments of the present invention relating to the "atomizing device and the cleaning assisting unit" by specific embodiments, and those skilled in the art can understand the advantages and effects of the present invention from the disclosure of the present specification. The utility model discloses the concrete embodiment of accessible other differences is implemented or is used, and each item detail in this specification also can be based on different viewpoints and application, does not deviate from the utility model discloses a carry out various modifications and changes under the design. The drawings of the present invention are merely schematic illustrations, and are not drawn to scale, but are described in advance. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are used primarily to distinguish one element from another. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be.

First embodiment

Fig. 1 to 4 are an exploded schematic view, a side view, a cross-sectional schematic view, and a schematic view of an atomizing device according to a first embodiment of the present invention. As shown in the figure, the first embodiment of the present invention provides an atomizing device Z, which includes an atomizing unit 1, a control unit 2, and a cleaning assisting unit S. The atomizing unit 1 includes a main body element 10, a nozzle element 11 and an atomizing element 12, the main body element 10 has an accommodating space 100, the nozzle element 11 is connected to the main body element, the nozzle element 11 has an output channel 110, and the atomizing element 12 is located in the main body element 10 and corresponds to the accommodating space 100 and the output channel 110. The control unit 2 is detachably connected to the atomizer unit 1 and is electrically connected to the atomizer element 12. The cleaning assistant unit S has a junction S1 and a storage passage S2 corresponding to the junction S1. Wherein, when the storage channel S2 is filled with the liquid L and the joint S1 is detachably connected to the nozzle element 11, the liquid L is filled from the storage channel S2 to the output channel 110 and contacts the atomizing element 12.

Particularly, the atomization device Z of the utility model can be mouth, nose water gas or liquid gas spraying equipment or suction type medical equipment. The atomizing device Z may be a vibrating atomizing device that drives the atomizing element 12 at a frequency to generate sound wave oscillation to generate fine mist particles, but not limited thereto. The atomizing device Z includes an atomizing unit 1, a control unit 2, and a cleaning assisting unit S. The main body 10 has a receiving space 100, and the receiving space 100 can be used for receiving liquid medicine or other liquid, such as distilled water, physiological saline solution, etc., but not limited thereto. The atomizing element 12 may be a combination of an orifice plate and a piezoelectric plate, but not limited thereto; the atomizing element 12 is disposed in the main body element 10 and located between the accommodating space 100 and the output channel 110. The nozzle element 11 and the body element 10 may be a single element, i.e. the nozzle element 11 and the body element 10 are an integrated structure.

The control unit 2 may be configured to generate an operating voltage, an operating frequency, or both to drive the atomizing element 12, so that the atomizing element 12 forms a sonic oscillation to generate the fine mist. As shown in fig. 1, the control unit 2 may include a body member 20, a substrate member 21, and a sensor member 22. The body member 20 may be a structure, frame, skeleton or case that configures at least one battery (not shown) and the substrate member 21. The substrate member 21 may be a printed circuit board, flexible circuit board, or other circuit board having a processor or controller, and the substrate member 21 may be electrically connected to the atomizing element 12. The sensor element 22 may be provided on the body element 20, but may also be provided at any position of the main body element 10 or the atomizing device Z; the sensing member 22 may be a water level sensor and may sense the amount of liquid in the body member 10 in a contact or non-contact manner. When the sensor 22 senses that the accommodating space 100 is empty of the liquid L, the sensor 22 transmits a first detection signal to the substrate 21, so that the substrate 21 is powered off; when the sensing element 22 senses that the liquid L is in the accommodating space 100, the sensing element 22 also transmits a second detection signal to the substrate element 21.

The cleaning assistant unit S may be a hollow structure having a storage passage S2 therein. The cleaning assistant unit S may be detachably connected to the nozzle member 11 through a joint portion S1. In the present embodiment, the engaging portion S1 covers the nozzle element 11 as an example, but not limited thereto, the engaging portion S1 of the cleaning assisting unit S may be inserted into the output channel 110 of the nozzle element 11.

Therefore, when the atomization device Z of the present invention is used to clean the atomization element 12, a user can first assemble the atomization unit 1 and the cleaning auxiliary unit S; the atomizing device Z can be placed on the object B (for example, a table top, but not limited thereto) or held by hand in an upright or inclined state, but not limited thereto, that is, the atomizing device Z of the present invention mainly performs the cleaning mode in a non-inverted manner. Next, liquid L (e.g., water, cleaning liquid, or other liquid) is filled into the storage channel S2, such that the liquid L is filled into the output channel 110 via the storage channel S2, and the accommodating space 100 is also filled with the liquid L (e.g., water, cleaning liquid, or other liquid); at the same time, the power supply of the atomizing unit 1 is turned on. Next, the control unit 2 may drive the sensing element 22 to determine whether the accommodating space 100 has liquid, and if the accommodating space 100 has no liquid, the atomization device Z enters a safety mechanism. If the sensing element 22 determines that the accommodating space 100 contains liquid, the control unit 2 further determines whether the nozzle element 11 contains liquid, and if the control unit 2 determines that the nozzle element 11 contains no liquid, the atomization device Z enters an atomization mode; if the control unit 2 determines that there is liquid in the nozzle element 11, the atomizing device Z enters a cleaning mode, for example, the atomizing device Z automatically sucks the liquid L in the output channel 110 into the accommodating space 100, so that the liquid L passes through the atomizing element 12, and the particles blocked by the micropores on the atomizing element 12 are carried away, that is, the particles blocked by the micropores on the atomizing element 12 are carried away by the liquid L through the cleaning mode, thereby cleaning the atomizing element 12.

In other words, when the user wants to clean the atomizing device Z, the liquid L can be directly filled into the storage channel S2 and the accommodating space 100, and the liquid L is filled into the output channel 110 through the storage channel S2 and contacts the atomizing element 12. Then, the atomizing device Z enters a cleaning mode to clean the atomizing element 12.

It should be noted that, in the cleaning process of the atomizing device Z of the present invention, the atomizing device Z is in an upright state rather than an inverted state, and the control unit 2 is adjacent to the ground, and the atomizing unit 1 is far away from the ground.

Therefore, the utility model discloses an atomizing device Z can provide the user under the condition of normal use through foretell technical scheme, can let atomizing device Z directly carry out clean mode to convenience when promoting clean atomizing device.

Furthermore, according to the above, the present invention further proposes a cleaning auxiliary unit S, which can be adapted to the atomizing device Z, and the cleaning auxiliary unit S can have a junction S1 and a storage passage S2 corresponding to the junction S1. Here, when the storage passage S2 is filled with the liquid L and the joint S1 is detachably connected to the nozzle element 11 of the atomizing device Z, the liquid L is filled from the storage passage S2 to the output passage 110 of the nozzle element 11.

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

Second embodiment

Fig. 5 to 10 are a schematic perspective view, a schematic side view, a schematic first cross-sectional view, a schematic use state, a schematic second cross-sectional view, and a schematic cross-sectional view of a cleaning assisting unit of an atomizing device according to a second embodiment of the present invention, and fig. 1 to 4 are also shown. As shown in the drawings, the atomizing device Z of the present embodiment is substantially similar to the atomizing device Z of the first embodiment, and is not described herein again. The present embodiment is different from the first embodiment described above in that, in the present embodiment, the main body element 10 has the positioning portion 101 and the lead-out channel 102 corresponding to the positioning portion 101, the nozzle element 11 is detachably connected to the positioning portion 101, and the output channel 110 communicates with the lead-out channel 102; wherein the first outer diameter D1 of the junction S1 is less than or equal to the first diameter H1 of the output channel 110.

For example, as shown in fig. 5 to 8, the main body element 10 of the present invention further has a positioning portion 101 and a guiding channel 102, and the atomizing element 12 is located between the guiding channel 102 and the accommodating space 100. The nozzle element 11 and the body element 10 may be separate elements. Also, the first diameter H1 of the output passage 110 (i.e., the inner diameter of the nozzle element 11 corresponding to one end of the cleaning assistance unit S) is greater than or equal to the first outer diameter D1 of the engaging portion S1.

Therefore, the atomizing device Z can clean the atomizing element 12 by inserting the engaging portion S1 of the cleaning assisting unit S into the output passage 110 of the nozzle element 11; at this time, the outer wall of the engaging portion S1 of the cleaning assisting unit S and the inner wall of the nozzle element 11 may be closely engaged by structural interference. Next, the liquid L is filled into the storage passage S2, so that the liquid L is filled into the output passage 110 and the lead-out passage 102, and contacts the atomizing element 12. Next, when the control unit 2 determines that the accommodating space 100 and the positioning portion 101 have the liquid L therein, the atomizing device Z enters a cleaning mode to clean the atomizing element 12.

It should be noted that the engaging portion S1 may also have one or more protrusions S10, i.e., the protrusion S10 may surround the engaging portion S1 or be spaced apart from the engaging portion S1, and the protrusion S10 forms a second outer diameter D2 on the engaging portion S1. Also, the first diameter H1 of the output passage 110 is greater than or equal to the second outer diameter D2 of the junction S1. Accordingly, the cleaning assisting unit S may interfere with the inner wall structure of the nozzle member 11 through the protrusion S10 on the engaging portion S1 to engage with the nozzle member 11.

Further, as shown in fig. 5 to 8 and 10, the cleaning assisting unit S may have a filling part S3 and an input passage S4 corresponding to the filling part S3, the input passage S4 communicating with the storage passage S2; when the input channel S4 is filled with the liquid L, the liquid L is filled into the output channel 110 and the lead-out channel 102 through the storage channel S2. The main body of the cleaning auxiliary unit S is divided into a filling portion S3 and a joint portion S1, the filling portion S3 is a funnel-shaped structure, and the joint portion S1 is a tubular structure; the predetermined angle N is between the second central axis a2 of the input channel S4 and the first central axis a1 of the storage channel S2, and may be between 30 degrees and 180 degrees, and preferably 90 degrees.

For example, the cleaning auxiliary unit S may be L-shaped and have a hollow structure, but not limited thereto. One end of the cleaning assistant unit S is a filling part S3, and the other end is a junction part S1. Therefore, the user can contact the atomizing element 12 by pouring the liquid L into the input passage S4 of the filling part S3 so that the liquid L entering the inside of the cleaning assisting unit S is filled into the output passage 110 and the lead-out passage 102.

In addition, as shown in fig. 9, the cross section of the joint portion S1 of the cleaning auxiliary unit S of the present invention may be stepped and expanded; in the present embodiment, the joint S1 has a first inner diameter D3 and a second inner diameter D4, and the first inner diameter D3 is smaller than the second inner diameter D4. The nozzle element 11 of the present invention has a second diameter H2 and a third diameter H3, wherein the second diameter H2 and the third diameter H3 are the outer diameter of the nozzle element 11, the second diameter H2 is smaller than the third diameter H3, and the third diameter H3 can be equal to or smaller than the outer diameter of the positioning portion 101. Also, first inner diameter D3 may be greater than or equal to second diameter H2, and second inner diameter D4 may be greater than or equal to third diameter H3 (or second inner diameter D4 may be greater than or equal to the outer diameter of locator 101). Therefore, the cleaning assisting unit S can be sleeved on the nozzle member 11 and the positioning part 101 by the engaging part S1 and structurally interfere with the nozzle member 11 and the positioning part 101 to engage with the atomizing unit 1 (the main body member 10). In other words, in the present embodiment, the cleaning assistant unit S may cover the nozzle element 11 and the positioning part 101 through the engaging part S1.

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

Third embodiment

Fig. 11 and 12 are a schematic view of an atomizing device according to a third embodiment of the present invention, and a schematic cross-sectional view thereof, respectively, and refer to fig. 1 to 10. As shown in the drawings, the atomizing device Z of the present embodiment is substantially similar to the atomizing devices Z of the above embodiments, and is not described herein again. The present embodiment is different from the above embodiments in that, in the present embodiment, the nozzle member 11 may include a connecting member 111 and a guide member 112, the connecting member 111 and the guide member 112 are hollow structures, the connecting member 111 is detachably connected to the guide member 112, and an interior of the connecting member 111 communicates with an interior of the guide member 112 to form the output channel 110; in this case, the link 111 is detachably connected to the positioning part 101, and the engaging part S1 is detachably connected to the guide 112. Wherein the second diameter H2 of the storage channel S2 is greater than the second outer diameter D2 of the guide 112.

For example, as shown in fig. 11 and 12, the connecting member 111 may be the nozzle element 11 described in the second embodiment, the guiding member 112 may be a tubular structure, one end of the connecting member 111 may be detachably connected to the positioning portion 101, and the other end of the connecting member 111 may be detachably connected to the guiding member 112. Wherein the inner diameter of the guide 112 may be greater than or equal to the outer diameter of the connection member 111 (i.e., the second diameter H2 of the nozzle element 11 described in the above-described second embodiment), and the outer diameter of the guide 112 may be equal to or less than the first inner diameter D3 of the engaging portion S1 of the cleaning assisting unit S.

Therefore, when the atomizing device Z cleans the atomizing element 12, the engaging portion S1 of the cleaning assisting unit S can be sleeved on the guide 112, so that the engaging portion S1 and the guide 112 can be tightly engaged by structural interference. Next, the liquid L is filled into the storage channel S2 through the input channel S4, so that the liquid L is filled into the output channel 110 and the lead-out channel 102, and contacts the atomizing element 12. Next, when the control unit 2 determines that the accommodating space 100 and the positioning portion 101 have the liquid L, the atomizing device Z enters a cleaning mode to clean the atomizing element 12.

It is worth mentioning that the outer diameter of the guide member 112 may also be smaller than or equal to the inner diameter of the connecting member 111; that is, the guide 112 may be designed such that one end is detachably inserted into the connection member 111 and the other end of the guide 112 is detachably inserted into the engaging portion S1.

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

Fourth embodiment

Fig. 13 and 14 are a schematic cross-sectional view and a schematic use state diagram of an atomizing device according to a fourth embodiment of the present invention, respectively, and refer to fig. 1 to 12 together. As shown in the drawings, the atomizing device Z of the present embodiment is substantially similar to the atomizing devices Z of the above embodiments, and is not described herein again. The present embodiment is different from the above-described second embodiment in that, in the present embodiment, the cleaning assistant unit S has a U-shaped cross section.

For example, as shown in fig. 13 and 7, the cleaning assisting unit S of the present invention can be a cover structure with a U-shaped cross section. Therefore, the atomization device Z can first fill the liquid L in the storage passage S2 of the cleaning assisting unit S when cleaning the atomization element 12. Next, the engaging portion S1 is fitted over the nozzle member 11, and the engaging portion S1 of the cleaning assisting unit S is tightly engaged with the nozzle member 11 by structural interference. Next, when the control unit 2 determines that the accommodating space 100 and the positioning portion 101 have the liquid L, the atomizing device Z enters a cleaning mode to clean the atomizing element 12.

However, the above-mentioned example is only one possible embodiment and is not intended to limit the present invention.

Advantageous effects of the embodiments

The utility model discloses an one of them beneficial effect lies in, the utility model provides an atomizing device Z, it can include atomizing unit 1, the control unit 2 and clean auxiliary unit S through "atomizing device Z. The atomizing unit 1 includes a main body element 10, a nozzle element 11 and an atomizing element 12, the main body element 10 has a receiving space 100, the nozzle element 11 is connected to the main body element, the nozzle element 11 has an output channel 110 communicated with the receiving space 100, and the atomizing element 12 is located in the main body element 10 and corresponds to the receiving space 100 and the output channel 110. The control unit 2 is detachably connected to the atomizer unit 1 and is electrically connected to the atomizer element 12. The cleaning assistant unit S has a junction S1 and a storage passage S2 corresponding to the junction S1. Wherein, when the storage channel S2 is filled with the liquid L and the joint portion S1 is detachably connected to the nozzle element 11, the liquid L is filled from the storage channel S2 to the output channel 110 ″ to improve the convenience of cleaning the atomizing device.

The utility model has the advantages of, the utility model provides a clean auxiliary unit S, it can be through "clean auxiliary unit can adapt to atomizing device Z, clean auxiliary unit S can have junction S1 and the storage channel S2 that corresponds to junction S1. Wherein, when the storage channel S2 is filled with a liquid L and the joint portion S1 is detachably connected to the nozzle element 11 of the atomizing device Z, the liquid L is filled from the storage channel S2 to the output channel 110 ″ of the nozzle element 11, so as to improve the convenience of cleaning the atomizing device.

Furthermore, the utility model discloses an atomizing device Z passes through the structural design of above-mentioned clean auxiliary unit S to provide the user and can be under the normal use condition (under general service conditions, atomizing unit 1 is located the top, and the control unit 2 is located the below), can let atomizing device Z directly carry out clean mode, need not pass through special mode, for example immerse atomizing device Z in liquid, or invert atomizing device Z, or make atomizing device Z be the form of lying on one' S side.

The above disclosure is only a preferred and feasible embodiment of the present invention, and is not intended to limit the scope of the claims of the present invention, so that all the equivalent technical changes made by the contents of the specification and the drawings are included in the scope of the claims of the present invention.

Claims (13)

1. an atomizing device, is characterized in that, comprises: An atomizing unit, the atomizing unit includes a main body element, a nozzle element and an atomizing element, the main body element has an accommodating space, the nozzle element is connected to the main body element, the nozzle element has an output channel, the The atomizing element is located in the main body element and corresponds to the accommodating space and the output channel; a control unit detachably connected to the atomizing unit and electrically connected to the atomizing element; and a cleaning auxiliary unit having an engagement portion and a storage channel corresponding to the engagement portion; Wherein, when the liquid is filled in the storage channel and the engaging portion is detachably connected to the nozzle element, the liquid is filled from the storage channel to the output channel and contacts the atomizing element. 2 . The atomizing device according to claim 1 , wherein the nozzle element and the main body element are a single element. 3 . 3. The atomizing device of claim 1, wherein the joint portion covers the nozzle element. 4. The atomizing device according to claim 1, wherein the main body element has a positioning portion and a lead-out channel corresponding to the positioning portion, the nozzle element is detachably connected to the positioning portion, and The output channel communicates with the accommodating space through the lead-out channel; wherein, the first outer diameter of the joint portion is smaller than the first diameter of the output channel. 5. The atomizing device according to claim 4, wherein the cleaning auxiliary unit has a filling part and an input channel corresponding to the filling part, and the input channel is communicated with the storage channel; wherein, the When the input channel is filled with the liquid, the liquid is filled into the output channel and the outlet channel through the storage channel. 6 . The atomizing device according to claim 5 , wherein the main body of the cleaning auxiliary unit is divided into the filling part and the joint part, the filling part is a funnel-shaped structure, and the joint part is 6 . A tubular structure; wherein, there is a predetermined included angle between the first central axis of the input channel and the second central axis of the storage channel, and the predetermined included angle is between 30 degrees and 180 degrees. 7 . The atomizing device according to claim 4 , wherein the nozzle element comprises a connecting piece and a guiding piece, the connecting piece and the guiding piece are hollow structures, and the connecting piece is detachable. 8 . is connected to the guide piece, and the inside of the connecting piece communicates with the inside of the guide piece to form the output channel; wherein, the connecting piece can be detachably connected to the positioning part, and the joint The portion is detachably connected to the guide. 8. The atomizing device of claim 7, wherein the second diameter of the storage channel is larger than the second outer diameter of the guide member. 9 . The atomizing device according to claim 1 , wherein the section of the cleaning auxiliary unit is U-shaped. 10 . 10. A cleaning auxiliary unit, characterized in that the cleaning auxiliary unit is adapted to an atomizing device, the cleaning auxiliary unit has a joint portion and a storage channel corresponding to the joint portion; wherein, in the storage channel When filled with liquid and the joint is detachably connected to the nozzle element of the atomizing device, the liquid is filled from the storage channel to the output channel of the nozzle element. 11. The cleaning aid unit of claim 10, wherein the engaging portion wraps the nozzle element. 12. The cleaning auxiliary unit according to claim 11, wherein the cleaning auxiliary unit has a filling part and an input channel corresponding to the filling part, and the input channel communicates with the storage channel; wherein the When the input channel is filled with the liquid, the liquid is filled to the output channel through the storage channel. 13. The cleaning auxiliary unit according to claim 12, wherein a predetermined included angle is formed between the first central axis of the input channel and the second central axis of the storage channel, and the predetermined included angle is between 30 degrees to 180 degrees.

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