CN217446678U - Electronic atomizer - Google Patents

Abstract

The application relates to the technical field of electronic atomization, in particular to an electronic atomizer which comprises a leading-out part, a limiting part, a storage mechanism, an atomization mechanism, a control mechanism and a base, wherein the leading-out part, the storage mechanism, the atomization mechanism, the control mechanism and the base are sequentially arranged from top to bottom, and the limiting part is arranged in the leading-out part in a penetrating manner; the guiding part is provided with a guiding outlet, the storage mechanism is provided with a guiding pipeline, the guiding pipeline is communicated with the guiding outlet, the control mechanism comprises an elastic part, one end of the elastic part is arranged below the atomizing mechanism, and the other end of the elastic part is arranged on one side of the base; the storage mechanism is also provided with a storage bin for storing atomized liquid, the atomization mechanism is provided with a communication port for communicating the storage bin, when the limiting part is removed, the elastic part enables the atomization mechanism to move towards the control mechanism, and the communication port is communicated with the storage bin; when the limiting piece is not removed, the elastic piece is compressed by the atomizing mechanism, and the communication opening is closed by the side wall of the guide-out pipeline.

Description

Electronic atomizer

Technical Field

The application relates to the technical field of electronic atomization, in particular to an electronic atomizer.

Background

At present, the electric heating atomization technology is a novel atomization technology which is started in recent years, the principle is that heat energy is generated through the heat effect of a resistor, the heat energy heats and atomizes liquid into atomized steam, and the electric heating atomization technology is widely applied to medical, intelligent household appliances and consumer electronics products.

Among the prior art, whole atomizing product is direct and the inlet port is linked together with the atomized liquid storehouse of atomizer in production, storage, transportation usually, can lead to the existence of risks such as weeping behind the atomized liquid infiltration atomizing component after the long-time storage atomized liquid of oil storage storehouse to influence atomizing result of use.

Aiming at the related technology, the problem of liquid leakage caused by the fact that atomized liquid permeates into the atomization assembly exists.

SUMMERY OF THE UTILITY MODEL

In order to reduce the inside weeping problem of atomizing liquid infiltration atomizer, this application provides an electronic atomizer.

An electronic atomizer comprises a leading-out piece for leading out atomized steam, a storage mechanism for storing atomized liquid, an atomization mechanism for converting the atomized liquid into the atomized steam, a control mechanism for controlling atomization of the atomized liquid, a base for leading in gas and a limiting piece;

the guide-out piece, the storage mechanism, the atomization mechanism, the control mechanism and the base are sequentially arranged from top to bottom, and the limiting piece penetrates through the guide-out piece; the leading-out part is provided with a leading-out port, the storage mechanism is provided with a leading-out pipeline, the limiting part is abutted against the side wall of the leading-out port, the leading-out pipeline is communicated with the leading-out port, the atomizing mechanism penetrates through the leading-out pipeline, the control mechanism comprises an elastic part, one end of the elastic part is arranged below the atomizing mechanism, and the other end of the elastic part is arranged on one side of the base;

the storage mechanism is further provided with a storage bin for storing atomized liquid, the atomization mechanism is provided with a communication port for communicating the storage bin, when the limiting piece is removed, the elastic piece enables the atomization mechanism to move towards the control mechanism, and the communication port is communicated with the storage bin; when the limiting piece is not removed, the elastic piece is compressed by the atomizing mechanism, and the communication opening is closed by the side wall of the guiding-out pipeline.

By adopting the technical scheme, the atomization mechanism can be in different states due to the elastic piece

So that the atomized liquid enters the atomization mechanism through the communication port for normal use. When the electronic atomizer is not used, the control mechanism can be driven to slide, so that the communication port is closed, and the condition that atomized liquid flows out of the storage bin is reduced. Thereby reducing the problem of leakage of the atomized liquid.

Preferably, the limiting part is slidably connected to the side wall of the guiding pipe, the limiting part is detachably connected to the atomizing mechanism, the limiting part is disposed above the atomizing mechanism, and the limiting part protrudes from the guiding pipe and is exposed outside the guiding part.

Through adopting above-mentioned technical scheme, the locating part can be dismantled and connect in control mechanism, and when the locating part was connected in control mechanism, the electronic atomizer was in the state of stop work, and when the locating part was dismantled, the electronic atomizer was in the state of work. Moreover, the locating part slides and is connected in deriving the pipeline, so, take out the locating part, the electronic atomizer can work, can reduce the design of circuit, mechanical structure's design in comparison with the switch of electricity connection to simplify the design of whole electronic atomizer, improve the design convenience and the practicality of whole electronic atomizer.

Preferably, the limiting part comprises a first holding part, a second holding part and a supporting part, the first holding part, the second holding part and the supporting part are sequentially and vertically arranged downwards, the supporting part is connected to the side wall of the derivation pipeline in a sliding manner, the cross-sectional area of the second holding part gradually increases along the direction away from the supporting part, and the cross-sectional area of the first holding part gradually decreases along the direction away from the second holding part.

By adopting the technical scheme, the first holding part and the second holding part are arranged, so that the holding is more stable and convenient when the limiting part is extracted; in addition, when the sectional area size of second portion of gripping is greater than the sectional area size of deriving the pipeline, the second portion of gripping can form the joint with deriving the pipeline, and can not slide into and derive the pipeline to it is spacing steadily to maintain the locating part.

Preferably, the atomizing mechanism comprises a sealing part, a fixing frame body and an elastic part, wherein the sealing part is used for separating the storage bin from the control mechanism, the sealing part is fixedly connected to the side wall of the storage bin, a sliding channel is arranged in the middle of the sealing part, one end of the fixing frame body is connected to the side wall of the sliding channel in a sliding manner, and the other end of the fixing frame body is connected to the side wall of the guide pipeline in a sliding manner; the communication port is arranged on the outer surface of the fixed frame body, and when the communication port is positioned in the sliding channel, the communication port is closed; when the communication port is positioned outside the sliding channel, the communication port is communicated with the storage bin; the fixed frame body is connected to the elastic piece, the elastic piece set up in the below of fixed frame body.

Through adopting above-mentioned technical scheme, setting up of elastic component can provide locating part reaction force to it is easier when extracting the locating part, moreover, the intercommunication mouth can be located the passageway of sliding, and the passageway of sliding is located the storage storehouse, compares and is located the derivation pipeline in the intercommunication mouth, and the intercommunication mouth in the passageway of sliding can reduce outside dust and get into the intercommunication mouth.

Preferably, still include flexible sealing mechanism, flexible sealing mechanism set up in the fixed support body is close to derive the one end of pipeline, flexible sealing mechanism laminates the lateral wall of derivation pipeline, the fixed support body wears to locate flexible sealing mechanism.

Through adopting above-mentioned technical scheme, because flexible sealing mechanism's flexible effect to can seal the fixed support body and derive the clearance between the pipeline lateral wall, thereby reduce the condition that the atomized liquid oozes from the clearance, improve the performance of whole electronic atomizer's leak protection liquid.

Preferably, control mechanism includes electrode subassembly and heating member, one side of electrode subassembly can the joint in fixed support body, electrode subassembly electricity connect in the heating member, fixed support body can be followed the passageway that slides upwards slides, and works as the mount stops to slide the back upwards, electrode subassembly switches on, heating member begins the ohmic heating.

By adopting the technical scheme, when the electronic atomizer enters a working state, the limiting part needs to be pulled out, and at the moment, atomized liquid enters the control mechanism through the communication port; when the working states of the electrode assembly and the heating element of the control mechanism are realized by extracting the limiting part, the design can reduce extra circuit design and switch design, so that the communication of atomized liquid and the heating of a plurality of working states can be controlled and carried out simultaneously only by setting the limiting part, and the operation simplicity of the electronic atomizer is improved.

Preferably, the fixing frame body comprises a closed part, the closed part penetrates through the guide pipeline, and the vertical projection of the flexible sealing mechanism is larger than that of the closed part.

Through adopting above-mentioned technical scheme, because fixed support body is connected in the elastic component, when the vertical projection of hypothesis closing part is less than or equal to the closing part, when the elastic component elastic force is great, fixed support body probably by the upward quick displacement of the reaction force of elastic component, probably with derive the pipeline collision, lead to deriving the pipeline and damage. The setting of closing part can reduce the sliding distance of fixed support body, and the stable operating condition of electronic atomizer is maintained in the position of control fixed support body.

Preferably, the fixed support body further comprises a clamping portion, a pressing portion and a sliding portion, the sealing portion, the sliding portion, the pressing portion and the clamping portion are arranged in a vertical downward direction, and when the fixed support body stops sliding, the pressing portion can be sealed in the guide pipeline.

Through adopting above-mentioned technical scheme, because the extraction or putting into of locating part can lead to the electronic atomizer to be in two kinds of operating condition, wherein, when heating element is not heated completely yet, probably there is atomizing liquid not by the vaporization to fall into to the base on, influence the long-term use of base, consequently, the portion of supporting can seal the derivation pipeline, thereby maintains good electronic atomizer user state.

Preferably, the outlet includes a proximal side having a small distance to the center of the outlet and a distal side having a large distance to the center of the outlet, and the stopper further includes a protrusion capable of abutting against the proximal side when the stopper rotates.

Through adopting above-mentioned technical scheme, make the locating part block in the export of leading out through the rotation of locating part, the hypothesis does not have the protruding portion, so the weight that the locating part needs is very big, just can suppress the elastic component steadily, and when locating part weight is great, it is more difficult again to extract the locating part. Therefore, the rotation of locating part sets up and makes the locating part more light, reduces overall design cost, and convenient to use improves user experience.

Preferably, the base is provided with a fixing groove for placing the elastic element.

Through adopting above-mentioned technical scheme, when the elastic component by tensile or the in-process of compression, can produce the shake, when the skew takes place for the position of elastic component, probably cause the electronic atomizer to damage, so, the position of elastic component can be maintained to the recess to improve whole electronic atomizer's life.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the elastic component can make the atomizing mechanism be in different states for the atomized liquid enters the atomizing mechanism through the communicating port, and the atomizing mechanism is normally used. When the electronic atomizer is not used, the control mechanism can be driven to slide, so that the communication port is closed, and the condition that atomized liquid flows out of the storage bin is reduced. Thereby reducing the problem of leakage of the atomized liquid.

2. When the electronic atomizer is not used, the atomizing mechanism can be driven to slide, so that the communication port is closed, and the condition that atomized liquid flows out from the storage bin is reduced. Thereby reducing the problem of leakage of the atomized liquid.

3. Because the locating part wears to locate the derivation piece, the setting up in waist type hole makes the locating part can have certain effect of adjusting to be convenient for locating part installation and extraction improve whole electronic atomizer's use convenience.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic view in partial cross section of the entirety of an embodiment of the present application.

Fig. 3 is an overall cross-sectional schematic view of an embodiment of the present application.

Fig. 4 is a schematic cross-sectional view of an embodiment of the present application in an overall rest state.

Fig. 5 is a schematic cross-sectional view of the embodiment of the present application in an overall operating state.

Fig. 6 is an enlarged schematic view of a structure in which the first electrode is in contact with the second electrode in an operating state according to an embodiment of the present application.

Fig. 7 is a schematic cross-sectional view of a second embodiment of the embodiments of the present application.

Description of reference numerals: 1. a lead-out member; 11. a lead-out port; 111. the proximal side; 112. a telecentric side; 2. a storage mechanism; 21. leading out the pipeline; 22. a storage bin; 23. a rubber plug; 24. a liquid filling port; 3. an atomization mechanism; 31. a closure; 311. a slipping channel; 312. a fixed part; 313. a limiting part; 32. a fixed frame body; 321. a closing part; 322. a chamber portion; 3221. a communication port; 3222. an accommodating chamber; 323. a clamping part; 3231. a groove; 324. a pressing part; 325. a sliding part; 33. an elastic member; 4. a control mechanism; 40. an electrode assembly; 41. a liquid guiding member; 42. a heating element; 43. a first electrode; 44. a second electrode; 45. a third electrode; 5. a base; 50. fixing grooves; 51. an introducing port; 52. a mounting cavity; 53. a silicone member; 6. a flexible sealing mechanism; 7. a limiting member; 71. a first holding portion; 72. a second holding portion; 73. a support portion; 74. a protrusion; 8. compressing the spring.

Detailed Description

The present application is described in further detail below with reference to fig. 1-7.

The application example discloses an electronic atomizer for reducing the condition of atomizing device weeping.

Referring to fig. 1 and 2, an electronic atomizer includes a guiding member 1 for guiding out atomized steam, a storage mechanism 2 for storing atomized liquid, an atomizing mechanism 3 for converting atomized liquid into steam, a control mechanism 4 for controlling atomization of atomized liquid, and a base 5 for guiding gas. Specifically, the leading-out part 1 is connected to the storage mechanism 2, the storage mechanism 2 is connected to the atomizing mechanism 3, the atomizing mechanism 3 is connected to the control mechanism 4, and the control mechanism 4 is connected to the base 5.

Referring to fig. 1 and 2, an outlet 11 for discharging the atomizing gas is provided at one end of the outlet member 1, the outlet 11 is provided as a kidney-shaped hole, and the outlet 11 includes a proximal side 111 having a small distance from the center of the outlet 11 and a distal side 112 having a large distance from the center of the outlet 11. One end of the base 5 is provided with an inlet 51 for introducing gas.

Referring to fig. 3, the storage mechanism 2 includes a guiding-out pipe 21, a storage chamber 22 for storing the atomized liquid, and a rubber stopper 23, wherein one end of the guiding-out pipe 21 is communicated with the guiding-out port 11, and the other end of the guiding-out pipe 21 is communicated with the storage chamber 22. In the present embodiment, a side of the storage bin 22 close to the lead-out member 1 is provided with a filling opening 24 for adding atomized liquid, and the rubber stopper 23 can close the filling opening 24. When the atomized liquid needs to be added, the guide part 1 and the rubber plug 23 are removed, and then the atomized liquid is added through the liquid adding opening 24.

Referring to fig. 3 and 4, the atomizing mechanism 3 includes a closing member 31 for partitioning the storage chamber 22 and the control mechanism 4, a fixing frame body 32, and an elastic member 33, wherein the closing member 31 is connected to the base 5, and the closing member 31 is fixedly connected to a sidewall of the storage chamber 22, so that the liquid inside the storage chamber 22 is stably stored. The closing member 31 is provided at a middle portion thereof with a sliding passage 311, and the fixing frame 32 is slidably coupled to a side wall of the sliding passage 311. The holder body 32 includes a closing portion 321 and a chamber portion 322, wherein the closing portion 321 is inserted through the outlet pipe 21. The closing portion 321 is slidably connected to the side wall of the guiding duct 21, and the closing portion 321 can be attached to the side wall of the guiding duct 21, so that the atomizing gas can flow through the fixing frame body 32 and the guiding duct. One end of the elastic member 33 is connected to the fixing frame body 32, and the other end of the elastic member 33 is connected to the base 5; the elastic member 33 can convert gravitational potential energy of the fixing frame body 32 into elastic potential energy of the elastic member 33, thereby facilitating vertical sliding of the fixing frame body 32.

Referring to fig. 3, in order to reduce the displacement of the elastic member 33 during the compression or extension, the base 5 is provided with a fixing groove 50 for mounting the elastic member 33.

Referring to fig. 3 and 4, in order to improve the sealing performance of the electronic atomizer, a flexible sealing mechanism 6 is further included, wherein the flexible sealing mechanism 6 is disposed in a hollow manner, an inner surface of the flexible sealing mechanism 6 is connected to an outer surface of the closing portion 321, an outer surface of the flexible sealing mechanism 6 is connected to a side wall of the sliding channel 311, and a vertical projection of the flexible sealing mechanism 6 is greater than a vertical projection of the closing portion 321. In addition, in this embodiment, the flexible sealing mechanism 6 is made of sealing silica gel, and since the silica gel has flexibility and sealing performance, the occurrence of air leakage of the atomizing gas in the electronic atomizer can be reduced.

Referring to fig. 3 and 4, the side wall of the chamber portion 322 is provided with a communication port 3221 for communicating with the storage bin 22, because the fixing frame body 32 is slidably connected to the side wall of the sliding channel 311, when the fixing frame body 32 moves upward under the influence of the elastic force of the elastic member 33, the communication port 3221 is located in the sliding channel 311, the communication port 3221 is closed by the sliding channel 311, and the atomized liquid cannot enter the communication port 3221; when the fixing frame body 32 drives the elastic member 33 to bend, and the fixing frame body 32 moves downward, the communication port 3221 is located outside the sliding channel 311, the communication port 3221 is not closed by the sliding channel 311, and the atomized liquid enters the communication port 3221, i.e., the working state.

Referring to fig. 2 and 3, the pipeline guiding device further includes a limiting member 7, the limiting member 7 is inserted into the guiding pipe, one end of the limiting member 7 is connected to the fixing frame body 32, the other end of the limiting member 7 protrudes out of the guiding pipe, and the limiting member 7 is slidably connected to the side wall of the guiding pipe.

Referring to fig. 3, when the limiting member 7 is pressed, the elastic member 33 is compressed, and the communication port 3221 is located in the sliding channel 311, at which time, the electronic atomizer is in a rest state.

Referring to fig. 5, when the limiting member 7 is extracted, the elastic member 33 is extended due to elastic potential energy, the communication port 3221 is located outside the sliding channel 311, and at this time, the atomized liquid enters the communication port 3221, and the electronic atomizer is in an operating state.

Referring to fig. 2 and 3, in order to better use the installation and extraction limiting member 7, the limiting member 7 includes a first holding portion 71 and a second holding portion 72, wherein the first holding portion 71, the second holding portion 72 and the supporting portion 73 are sequentially vertically disposed downward, a cross-sectional area of the second holding portion 72 is gradually increased along a direction away from the supporting portion 73, and a cross-sectional area of the first holding portion 71 is gradually decreased along a direction away from the second holding portion 72.

Referring to fig. 3 and 4, in order to more conveniently control the operating state of the electronic atomizer, the limiting member 7 includes a protruding portion 74 and a supporting portion 73, the supporting portion 73 is slidably connected to the sidewall of the guiding pipe, the protruding portion 74 is disposed above the supporting portion 73, and the horizontal cross-sectional area of the protruding portion 74 is larger than that of the supporting portion 73. Therefore, when the limiting member 7 needs to be inserted into the outlet 11, the limiting member 7 needs to be inserted from the far-center side 112 and then rotated, so that the protrusion 74 of the limiting member 7 abuts against the near-center side 111, thereby forming a position-locking position; when the position-limiting element 7 needs to be extracted, the position-limiting element 7 only needs to be rotated so that the protrusion 74 is located at the telecentric side 112, and at this time, the elastic element 33 can eject the position-limiting element 7.

Referring to fig. 4 and 5, the control mechanism 4 includes a liquid guiding element 41 and a heating element 42, wherein the chamber portion 322 has an accommodating chamber 3222, the accommodating chamber 3222 is communicated with the storage chamber 22 through a communication port 3221, the liquid guiding element 41 is disposed in the accommodating chamber 3222, the liquid guiding element 41 is connected to a side wall of the accommodating chamber 3222, the liquid guiding element 41 can be penetrated by the atomized liquid, the liquid guiding element 41 is disposed in a hollow manner, and the heating element 42 is disposed on an inner surface of the liquid guiding element 41. Therefore, when the communication port 3221 is located outside the sliding channel 311, the atomized liquid can enter the storage bin 22 through the communication port 3221, the atomized liquid permeates into the liquid guiding member 41, and then is heated and atomized by the heating member 42, and the atomized gas is guided out through the fixing frame body 32.

Referring to fig. 4 and 5, the fixing frame body 32 further includes a clamping portion 323, a pressing portion 324 and a sliding portion 325, wherein the clamping portion 323, the pressing portion 324 and the sliding portion 325 are sequentially disposed along a vertical upward direction, the clamping portion 323 is disposed below the chamber portion 322, the clamping portion 323 is connected to the chamber portion 322, a horizontal cross-sectional area of the pressing portion 324 is greater than a horizontal cross-sectional area of the sliding portion 325, and the sliding portion 325 is slidably connected to a side wall of the sliding channel 311.

Referring to fig. 4 and 6, the closing member 31 further includes a fixing portion 312 and a stopper portion 313, and a horizontal sectional area of the fixing portion 312 is larger than a horizontal sectional area of the stopper portion 313; when the fixing frame 32 slides upwards, the pressing portion 324 can press against the position-limiting portion 313, so that the movement of the fixing frame stops.

Referring to fig. 5 and 6, the control mechanism 4 further includes an electrode assembly 40, the electrode assembly 40 includes a first electrode 43, a second electrode 44 and a third electrode 45, a groove 3231 for installing the clamping portion 323 is formed on the clamping portion 323, the first electrode 43 is installed in the groove 3231, and one end of the first electrode 43 horizontally protrudes out of the groove 3231. Be provided with the installation cavity 52 that is used for installing third electrode 45 on the base 5, third electrode 45 is fixed to be set up in installation cavity 52, third electrode 45 sets up in the below of second electrode 44, second electrode 44 joint in the lateral wall of base 5, when fixing frame body 32 slided upwards, the convex one end of first electrode 43 can be connected in the convex one side of second electrode 44, thereby first electrode 43, second electrode 44 and third electrode 45 form the electricity and connect, moreover, second electrode 44 connects in heating member 42, the circuit path this moment, heating member 42 begins work, thereby heating member 42 heats the atomizing liquid that permeates liquid guide 41 and forms atomizing gas, atomizing gas flows from the derivation pipeline again.

Referring to fig. 2, in order to further improve the sealing performance of the electronic atomizer, a silicone rubber member 53 capable of sealing is provided on the side of the base 5 close to the elastic member 33, and the silicone rubber member 53 is provided above the liquid suction surface.

The implementation principle of the embodiment is as follows: when the limiting member 7 is pressed, the elastic member 33 is compressed, the communication port 3221 is located in the sliding channel 311, at this time, the electronic atomizer is in a rest state, when the limiting member 7 is extracted, the elastic member 33 extends under the action of elastic potential energy, the communication port 3221 is located outside the sliding channel 311, at this time, the atomized liquid enters the communication port 3221, and the electronic atomizer is in a working state. When the device is in the rest state, the communication port 3221 is located in the sliding channel 311, the communication port 3221 is closed by the sliding channel 311, and the atomized liquid cannot enter the communication port 3221; when in an operating state, when the communication port 3221 is located outside the sliding channel 311, the communication port 3221 is not closed by the sliding channel 311, the atomized liquid enters the communication port 3221, and the heating member 42 starts to operate to form atomized gas. Wholly through locating part 7, fixed support body 32 and elastic component 33, form the structure of simple and easy control operating condition, moreover, can improve whole leakproofness when the rest state to reduce the inside weeping problem of atomized liquid infiltration atomizer.

In the second embodiment, the first embodiment of the method,

referring to fig. 4 and 7, the present embodiment is different from the first embodiment in that: be provided with compression spring 8 on the diapire of first electrode 43, compression spring 8's one end sets firmly on the diapire of first electrode 43, and, compression spring 8 and second electrode 44 all set up two sets ofly, and two sets of compression spring 8 and two sets of second electrode 44 all set up along fixed support body 32 central line symmetry. Compression spring 8 adopts metal material, the vertical length of second electrode 44 is less than compression spring 8's original length, and second electrode 44 sets up within compression spring 8's vertical projection, and second electrode 44 wears to locate compression spring 8, when being in operating condition, rotate locating part 7 promptly for elastic component 33 and compression spring 8 extension, because compression spring 8 is metal material, still can keep the access state between first electrode 43 and the second electrode 44, thereby make the atomized liquid get into intercommunication mouth 3221, thereby heating member 42 begins to work and forms the atomized gas. This has an advantage that, in comparison with the first embodiment, it is possible to prevent the first electrode 43 and the second electrode 44 from being worn due to collision for a long time, which may result in poor contact between the first electrode 43 and the second electrode 44.

The implementation principle of the embodiment is as follows: when the whole electronic atomizer is in a rest state, the protrusion 74 on the limiting member 7 is pressed against the proximal side 111, the communication port 3221 is closed by the side wall of the sliding channel 311, and the atomized liquid cannot enter the communication port 3221. When the integral electronic atomizer is in an operating state, the limiting member 7 is rotated, so that the protruding portion 74 is located in the vertical projection of the telecentric side 112, the atomizing mechanism 3 slides upwards due to the action of the elastic member 33, the communication port 3221 is not closed by the sliding channel 311, the atomized liquid enters the communication port 3221, and the first electrode 43 and the second electrode 44 have a distance therebetween, but a passage can be realized through a stretched compression spring, so that the heating member 42 is electrified to open heating work, and the arrangement can avoid long-time collision and abrasion of the first electrode 43 and the second electrode 44, which causes the occurrence of poor contact between the first electrode 43 and the second electrode 44.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An electronic atomizer is characterized by comprising a leading-out part (1) for leading out atomized steam, a storage mechanism (2) for storing atomized liquid, an atomizing mechanism (3) for converting the atomized liquid into the atomized steam, a control mechanism (4) for controlling atomization of the atomized liquid, a base (5) for leading in gas and a limiting part (7);

the guide-out piece (1), the storage mechanism (2), the atomization mechanism (3), the control mechanism (4) and the base (5) are sequentially arranged from top to bottom, and the limiting piece (7) penetrates through the guide-out piece (1); the guide-out part (1) is provided with a guide-out opening (11), the storage mechanism (2) is provided with a guide-out pipeline (21), the limiting part (7) abuts against the side wall of the guide-out opening (11), the guide-out pipeline (21) is communicated with the guide-out opening (11), the atomization mechanism (3) is arranged in the guide-out pipeline (21) in a penetrating mode, the control mechanism (4) comprises an elastic part (33), one end of the elastic part (33) is arranged below the atomization mechanism (3), and the other end of the elastic part (33) is arranged on one side of the base (5);

the storage mechanism (2) is further provided with a storage bin (22) for storing atomized liquid, the atomization mechanism (3) is provided with a communication port (3221) for communicating with the storage bin (22), when the limiting piece (7) is removed, the elastic piece (33) urges the atomization mechanism (3) to move towards the control mechanism (4), and the communication port (3221) is communicated with the storage bin (22); when the limiting piece (7) is not removed, the elastic piece (33) is compressed by the atomizing mechanism (3), and the communication opening (3221) is closed by the side wall of the guiding-out pipeline (21).

2. The electronic atomizer of claim 1, wherein the stopper (7) is slidably connected to the sidewall of the guiding-out pipe (21), the stopper (7) is detachably connected to the atomizing mechanism (3), the stopper (7) is disposed above the atomizing mechanism (3), and the stopper (7) protrudes from the guiding-out pipe (21) and is exposed out of the guiding-out member (1).

3. The electronic atomizer according to claim 2, wherein the retaining member (7) includes a first holding portion (71), a second holding portion (72), and a supporting portion (73), the first holding portion (71), the second holding portion (72), and the supporting portion (73) are sequentially disposed vertically downward, the supporting portion (73) is slidably connected to a sidewall of the guiding-out pipe (21), a cross-sectional area of the second holding portion (72) gradually increases along a direction away from the supporting portion (73), a cross-sectional area of the first holding portion (71) gradually decreases along a direction away from the second holding portion (72), and the first holding portion (71) protrudes from the guiding-out member (1).

4. The electronic atomizer according to claim 3, wherein the atomizing mechanism (3) comprises a sealing member (31) for separating the storage bin (22) from the control mechanism (4), a fixing frame body (32) and an elastic member (33), the sealing member (31) is fixedly connected to a side wall of the storage bin (22), a sliding channel (311) is arranged in the middle of the sealing member (31), one end of the fixing frame body (32) is slidably connected to a side wall of the sliding channel (311), and the other end of the fixing frame body (32) is slidably connected to a side wall of the guiding-out pipe (21); the communication port (3221) is arranged on the outer surface of the fixed frame body (32), and when the communication port (3221) is located in the sliding channel (311), the communication port (3221) is closed; when the communication port (3221) is positioned outside the sliding channel (311), the communication port (3221) is communicated with the storage bin (22); the fixing frame body (32) is connected to the elastic piece (33), and the elastic piece (33) is arranged below the fixing frame body (32).

5. The electronic atomizer according to claim 4, further comprising a flexible sealing mechanism (6), wherein said flexible sealing mechanism (6) is disposed at one end of said fixing frame (32) close to said guiding duct (21), said flexible sealing mechanism (6) is attached to a sidewall of said guiding duct (21), and said fixing frame (32) is disposed through said flexible sealing mechanism (6).

6. The electronic atomizer according to claim 4, wherein said control mechanism (4) comprises an electrode assembly (40) and a heating element (42), one side of said electrode assembly (40) can be connected to said fixing frame (32) in a snap-fit manner, said electrode assembly (40) is electrically connected to said heating element (42), said fixing frame (32) can slide upwards along said sliding channel (311), and when said fixing frame (32) stops sliding upwards, said electrode assembly (40) is conducted, and said heating element (42) starts to be heated electrically.

7. An electronic atomizer according to claim 5, characterized in that the fixing frame body (32) includes a closing portion (321), the closing portion (321) is worn in the leading-out pipe (21), and the vertical projection of the flexible sealing mechanism (6) is greater than the vertical projection of the closing portion (321).

8. The electronic atomizer according to claim 7, wherein the fixing frame (32) further comprises a clamping portion (323), a pressing portion (324) and a sliding portion (325), the closing portion (321), the sliding portion (325), the pressing portion (324) and the clamping portion (323) are arranged along a vertical downward direction, and when the fixing frame (32) stops sliding, the pressing portion (324) can be closed to the guiding duct (21).

9. An electronic atomiser according to claim 1, characterised in that the outlet opening (11) comprises a proximal side (111) having a small centre distance with respect to the outlet opening (11) and a distal side (112) having a large centre distance with respect to the outlet opening (11), and in that the retaining element (7) further comprises a projection (74), the projection (74) being able to bear against the proximal side (111) when the retaining element (7) is rotated.

10. An electronic atomizer according to claim 1, wherein the base (5) is formed with a fixing groove (50) for placing the elastic member (33).

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