CN210017903U - Atomizer and electronic cigarette - Google Patents

Abstract

The utility model discloses an atomizer, it includes stock solution spare, pressure channel, the tobacco juice runner, first check valve, second check valve and atomization component, be provided with the stock solution chamber on the stock solution spare, be provided with the atomizing chamber on the atomization component, the one end and the stock solution chamber intercommunication of tobacco juice runner, when inputing pressurized fluid in to pressure channel, first check valve is replaced and opened by pressurized fluid, make pressurized fluid get into the stock solution intracavity through first check valve, tobacco juice in the stock solution intracavity flows to second check valve department through the tobacco juice runner under pressurized fluid's promotion, the second check valve is replaced and is opened so that the tobacco juice gets into to the atomizing intracavity by the tobacco juice, when stopping inputing pressurized fluid in to pressure channel, first check valve and the equal self-closing of second check valve. The utility model discloses an atomizer only realizes the tobacco juice when inputing pressurized fluid to the stock solution intracavity and supplies with, prevents effectively that the tobacco juice is rotten and realizes that the tobacco juice supplies as required. The utility model also discloses an electron cigarette with this atomizer.

Description

Atomizer and electronic cigarette

Technical Field

The utility model relates to a simulation smoking technical field especially relates to an atomizer and electron cigarette.

Background

The inside of the atomizer of electron cigarette on the market is provided with the stock solution chamber that is used for saving the tobacco juice usually, and the heating structure for absorbing and heating the tobacco juice sets up at the stock solution intracavity, leads to heating structure to soak all the time in the tobacco juice, and on the one hand, the tobacco juice supplies with uncontrollable, can't realize the supply as required, and on the other hand, heating structure leads to the tobacco juice to deteriorate with the long-time contact of tobacco juice easily, thereby influences the taste that the user smoked smog.

SUMMERY OF THE UTILITY MODEL

Based on this, there is a need for an atomizer that can prevent the deterioration of tobacco juice and realize the on-demand supply of tobacco juice;

it is also necessary to provide an electronic cigarette with the atomizer.

The utility model provides a technical scheme that its technical problem adopted is: an atomizer comprises a liquid storage part, a pressure channel, a liquid smoke channel, a first one-way valve, a second one-way valve and an atomization component, wherein a liquid storage cavity is formed in the liquid storage part, the first one-way valve is used for controlling the fluid communication or cut-off between the pressure channel and the liquid storage cavity, the atomization component is arranged outside the liquid storage cavity, an atomization cavity is formed in the atomization component, one end of the liquid smoke channel is communicated with the liquid storage cavity, the second one-way valve is used for controlling the fluid communication or cut-off between the other end of the liquid smoke channel and the atomization cavity, when pressurized fluid is input into the pressure channel, the first one-way valve is propped against and opened by the pressurized fluid, so that the pressurized fluid enters the liquid storage cavity through the first one-way valve, the liquid smoke in the liquid storage cavity flows to the second one-way valve through the liquid smoke channel under the pushing of the pressurized fluid, the second one-way valve is propped by the tobacco juice to be opened so that the tobacco juice enters the atomizing cavity, and when pressurized fluid is stopped being input into the pressure channel, the first one-way valve and the second one-way valve are both automatically closed.

Further, first check valve is located the lower extreme of stock solution spare, pressure channel sets up on the first check valve, still be provided with on the first check valve and be located stock solution chamber with first passageway between the pressure channel, the second check valve is located the upper end of stock solution spare, the atomizer is still including setting up the feed liquor pipe in the stock solution intracavity, the tobacco juice runner does the lumen of feed liquor pipe, the lower extreme of feed liquor pipe with stock solution chamber intercommunication, the upper end of feed liquor pipe with the second check valve is connected, be provided with on the second check valve and be located the tobacco juice runner with the second passageway between the atomizing chamber.

Further, be equipped with on the diapire of stock solution spare with the intercommunicating pore of stock solution chamber intercommunication, first check valve includes first valve mouth and first connecting post, first valve mouth stretches into to in the intercommunicating pore, the second passageway sets up the top of first valve mouth, pressure channel sets up on the first connecting post.

Further, first check valve still includes first disk seat, first valve mouth with first spliced pole is protruding to be located respectively on the upper and lower both ends face of first disk seat, the atomizer still includes the supporting seat, first spliced pole with the supporting seat is connected, the supporting seat is located the lower extreme of stock solution spare, first disk seat clamp is located the supporting seat with between the diapire of stock solution spare.

Further, atomization component includes that atomizing seat and cover establish the atomizing lid of atomizing seat one end, atomizing seat with form a cavity between the atomizing lid, the atomizing chamber is formed in this cavity, the second check valve includes second valve mouth, second valve mouth stretches into to this cavity in, the second passageway sets up the top of second valve mouth.

Further, atomizing component still includes fixing base and heating structure, the fixing base is installed atomizing seat is last, fixing base upper end opening sets up, the atomizing chamber by the inner chamber of fixing base forms, the intercommunication has been seted up to the bottom of fixing base the liquid groove of crossing in atomizing chamber, it is located to cross the liquid groove the top of second passageway, heating structure includes the drain component and the heating element of mutual contact, the drain component accept in the atomizing intracavity, the heating element lid is established the open end of fixing base.

Further, the top of atomizing lid is provided with outlet flue and air inlet, the outlet flue with the air inlet all with the atomizing chamber intercommunication, lie in on the inner terminal surface of the roof of atomizing lid the outlet flue with downward protruding between the air inlet is equipped with leads the cigarette board, and the external gas via the air inlet enters into extremely mix with smog behind the inner chamber of atomizing lid, the mixture via of external gas and smog the outlet flue flows.

An electronic cigarette comprising the nebulizer of any one of the preceding claims.

Further, the electron cigarette still includes booster mechanism, controller, battery and point cigarette switch, booster mechanism's pressure output end with pressure channel intercommunication, point cigarette switch reaches the battery all with controller electric connection, the atomizer reaches booster mechanism all with battery electric connection, the controller is receiving control during the trigger signal of point cigarette switch the battery to booster mechanism reaches the atomizer power supply.

Further, the electronic cigarette further comprises a shell, an installation shell and a cover body, wherein an opening is formed in one end of the shell, the installation shell is contained in the shell, the atomizer and the battery are installed on the installation shell in parallel, and the cover body covers the opening end of the shell.

The utility model has the advantages that: the utility model provides an atomizer or electron cigarette for the atomizing chamber of installation heating structure independently sets up in the outside in stock solution chamber, has avoided heating structure to soak the condition in the stock solution intracavity all the time, effectively prevents to influence the condition emergence that the user smoked the taste because of the tobacco juice is rotten, and only when inputing pressurized fluid to the stock solution intracavity, the tobacco juice just supplies with heating structure, has realized the purpose that the tobacco juice supplied as required, has promoted user's use and has experienced.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a perspective view of an electronic cigarette of the present invention;

figure 2 is a right side view of the e-cigarette of figure 1;

fig. 3 is a perspective view of the electronic cigarette shown in fig. 1 in another state (a state in which the cover is opened);

figure 4 is a perspective view of the atomizer in the electronic cigarette of figure 3;

FIG. 5 is an exploded view of the reservoir assembly of the atomizer shown in FIG. 4;

FIG. 6 is a perspective view of a first one-way valve of the reservoir assembly of FIG. 5;

FIG. 7 is a cross-sectional view of a first one-way valve of the reservoir assembly of FIG. 5;

FIG. 8 is a perspective view of a second one-way valve of the reservoir assembly of FIG. 5;

FIG. 9 is a cross-sectional view of a second one-way valve of the reservoir assembly of FIG. 5;

FIG. 10 is an exploded view of the atomizing assembly of the atomizer shown in FIG. 4;

FIG. 11 is an exploded view from another perspective of the atomizing assembly of the atomizer shown in FIG. 4;

FIG. 12 is a cross-sectional view of the atomizer shown in FIG. 4;

FIG. 13 is another cross-sectional view (rotated 90 relative to FIG. 12) of the atomizer shown in FIG. 4;

figure 14 is a cross-sectional view a-a of the e-cigarette of figure 2;

figure 15 is a block diagram of the electronic cigarette circuit control shown in figure 1.

The names and the numbers of the parts in the figure are respectively as follows:

nebulizer 100 reservoir assembly 10 reservoir 11

Connecting sleeve 112 communicating hole 113 of liquid storage cavity 110

First engaging groove 1121 for receiving supporting portion 1141 of groove 114

Second card slot 115 first check valve 12 pressure passage 124

First valve seat 121 first valve mouth 122 first connecting post 123

First through hole 1211 first surface 122A second surface 122B

Third surface 122C fourth surface 122D fifth surface 122F

First passage 1221 second check valve 13 second seat 131

Second valve nozzle 132 second connecting post 133 second through hole 1311

Sixth surface 132A seventh surface 132B eighth surface 132C

Ninth surface 132D tenth surface 132F second passages 1321

Liquid inlet pipe 14 smoke liquid flow passage 141 support seat 15

Attachment hole 151 first snap 152 atomization component 20

Atomizing chamber 210 atomizing base 21 through hole 213

First cavity 211 second cavity 212 second catch 214

First connection hole 215 atomization cap 24 smoke outlet 241

Second clamping groove 244 of smoke guide plate 243 of air inlet 242

Second fastener 245 abuts against edge 246 and socket 247

Heating structure 23 liquid guide element 231 heating element 232

Third connecting hole 2322 fixing seat 22 of smoke passing hole 2321

The second connection hole 222 of the liquid passing groove 221 and the electrode 25

Connection segment 251 first conductive portion 252 and second conductive portion 253

Fixing post 26 fixing 27 battery 200

Booster mechanism 30 controller 80 cigarette lighting switch 90

Mouthpiece 70 airflow channel 710 housing 40

Notch 53 of window 41 mounting shell 50

First electrode column 54 second electrode column 55 atomizer mounting groove 51

Battery mounting groove 52 lid 60 mouthpiece mounting hole 61

Air inlet hole 62, first conducting sheet 63 and second conducting sheet 64

First contact 631 second contact 641 seal ring 134

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

Please refer to fig. 1-4, fig. 5, fig. 10 and fig. 12, the utility model provides an electronic cigarette, this electronic cigarette includes atomizer 100 and battery 200 with atomizer 100 electric connection, atomizer 100 includes stock solution subassembly 10 and atomization component 20, stock solution subassembly 10 is used for storing the tobacco juice, atomization component 20 is used for atomizing the tobacco juice, during the use, stock solution subassembly 10 provides the tobacco juice to atomization component 20, battery 200 provides the electric energy to atomization component 20 for the tobacco juice on the atomization component 20 is heated the atomizing and is atomized and generate smog by atomization component 20, smog is supplied the user to suck.

Referring to fig. 5, 7 and 12, the liquid storage assembly 10 includes a liquid storage component 11, a pressure channel 124, a smoke channel 141, a first check valve 12 and a second check valve 13, wherein the liquid storage component 11 is provided with a liquid storage cavity 110, the first check valve 12 is used for controlling the fluid communication or stop between the pressure channel 124 and the liquid storage cavity 110, the atomizing component 20 is disposed outside the liquid storage cavity 110, the atomizing component 20 is provided with an atomizing cavity 210, one end of the smoke channel 141 extends into the liquid storage cavity 110 and is communicated with the liquid storage cavity 110, the second check valve 13 is disposed at the other end of the smoke channel 141, and the second check valve 13 is used for controlling the fluid communication or stop between the smoke channel 141 and the atomizing cavity 210. The smoke liquid channel 141 is arranged in the liquid storage cavity 110, so that the length of the atomizer 100 can be shortened, and the volume of the atomizer 100 can be reduced. When a user uses the electronic cigarette, pressurized fluid is input into the pressure channel 124, enters the first check valve 12 through the pressure channel 124 to open the first check valve 12, then enters the liquid storage cavity 110 through the first check valve 12 to press the tobacco juice in the liquid storage cavity 110 into the tobacco juice flow channel 141, and the tobacco juice entering the tobacco juice flow channel 141 further flows into the second check valve 13, so that the pressure in the second check valve 13 is increased until the second check valve 13 is opened to enable the tobacco juice to enter the atomization cavity 210 to be atomized to generate smoke; when the user stops using the electronic cigarette, the pressurized fluid is stopped being input into the pressure channel 124, the first check valve 12 and the second check valve 13 are both closed, the tobacco juice is sealed in the liquid storage cavity 110, the tobacco juice is effectively prevented from leaking, and the situation that the tobacco juice is deteriorated due to the contact of the tobacco juice and external gas or external parts is effectively prevented. The pressurized fluid is insoluble or very insoluble in the smoke liquid, so that the pressurized fluid can push the smoke liquid to flow, and the pressurized fluid can be liquid or gas, and in the embodiment, the pressurized fluid is air.

In a specific embodiment, the liquid storage member 11 is substantially a hollow cylindrical structure with an opening at the upper end, the liquid storage cavity 110 is formed by an inner cavity of the liquid storage member 11, the first check valve 12 is installed at the lower end of the liquid storage member 11 and located outside the liquid storage cavity 110, the pressure channel 124 is opened on the first check valve 12, and the pressure channel 124 can communicate with the liquid storage cavity 110 through the first check valve 12. A second check valve 13 is mounted on the upper end of the reservoir 11 to seal the upper end opening of the reservoir 11. The liquid storage assembly 10 further comprises a liquid inlet pipe 14, the liquid inlet pipe 14 is of a hollow tubular structure with two through ends, the liquid inlet pipe 14 is arranged in the liquid storage cavity 110, the upper end of the liquid inlet pipe 14 is connected with the second one-way valve 13, and the smoke liquid flow passage 141 is formed by the inner cavity of the liquid inlet pipe 14. In addition, the lower end of the liquid inlet pipe 14 is arranged close to the cavity bottom wall of the liquid storage cavity 110, so that the tobacco juice can flow out through the tobacco juice flow channel 141 as much as possible, and the tobacco juice in the liquid storage cavity 110 is fully utilized.

Referring to fig. 5 and 13, the liquid storage assembly 10 further includes a supporting base 15, a connecting sleeve 112 is formed by extending the lower end of the liquid storage member 11 along the axial direction of the liquid storage member 11, the supporting base 15 is accommodated in the connecting sleeve 112, the first check valve 12 is mounted on the supporting base 15, a communication hole 113 communicating with the liquid storage chamber 110 is formed in the bottom wall of the liquid storage member 11, and when the supporting base 15 is connected to the connecting sleeve 112, a portion of the first check valve 12 extends into the communication hole 113. The communication hole 113 has a depth such that the portion of the first check valve 12 extending into the communication hole 113 is surrounded by the hole wall of the communication hole 113, and it is possible to effectively prevent the first check valve 12 from being excessively deformed.

Referring to fig. 6 and 7, the first check valve 12 includes a first valve seat 121, a first valve nozzle 122 and a first connecting post 123, the first valve nozzle 122 is protruded on an upper end surface of the first valve seat 121, and the first connecting seat 123 is protruded on a lower end surface of the first valve seat 121. The support base 15 is provided with coupling holes 151 penetrating through upper and lower end surfaces of the support base 15 corresponding to the coupling holes 113, and the first coupling posts 123 are inserted into the coupling holes 151, thereby realizing a coupling relationship between the first check valve 12 and the support base 15. In addition, when the support seat 15 and the liquid storage member 11 are mounted in place, the first valve seat 121 is clamped between the upper end surface of the support seat 15 and the bottom wall of the liquid storage member 11, and the first valve nozzle 122 extends into the communication hole 113.

The first valve seat 121 is formed with a first through hole 1211, the first valve nozzle 122 is substantially flat and hollow, the first connecting post 123 is substantially hollow and tubular, the pressure channel 124 is formed by an inner cavity of the first connecting post 123, and the first valve nozzle 122 and the first connecting post 123 are both disposed corresponding to the first through hole 1211, such that the inner cavity of the first valve nozzle 122 is communicated with the pressure channel 124 through the first through hole 1211. The first valve nozzle 122 includes a first surface 122A, a second surface 122B, a third surface 122C, a fourth surface 122D, and a fifth surface 122F, wherein the first surface 122A and the second surface 122B are disposed oppositely, the third surface 122C and the fourth surface 122D are disposed oppositely, the first surface 122A, the third surface 122C, the second surface 122B, and the fourth surface 122D are sequentially connected to form a cylinder, and the fifth surface 122F is connected to the first surface 122A, the second surface 122B, the third surface 122C, and the fourth surface 122D. First surface 122A and second surface 122B are the arc surface and all lie in same circular cone global, and third surface 122C and fourth surface 122D are the inclined plane, and third surface 122C and fourth surface 122D each reduce from bottom to top to the axis distance of first valve mouth 122 gradually, and fifth surface 122F is planar structure, has seted up first passageway 1221 on the fifth surface 122F, and first passageway 1221 communicates with the inner chamber of first valve mouth 122 under the open mode. The first channel 1221 is an elongated structure, the first channel 1221 has long sides and short sides, a direction of the first surface 122A toward the second surface 122B is a direction in which the long sides of the first channel 1221 extend, and a direction of the third surface 122C toward the fourth surface 122D is a direction in which the short sides of the first channel 1221 extend.

The first valve nozzle 122 is made of an elastic material, and when pressurized fluid is not input into the first valve nozzle 122 through the pressure channel 124, the first valve nozzle 122 is in a natural state, and the first channel 1221 is automatically closed under the elastic force of the first valve nozzle 122, so that the pressure channel 124 is closed by the first valve nozzle 122, external fluid cannot enter the reservoir 110, and meanwhile, the tobacco juice in the reservoir 110 cannot overflow to the outside of the reservoir 110 through the first valve nozzle 122. When pressurized fluid is input into first valve nozzle 122 through pressure passage 124, the increase in pressure within the interior chamber of first valve nozzle 122 deforms first valve nozzle 122 to open first passage 1221, thereby allowing pressurized fluid to be input into reservoir 110 and increasing the pressure within reservoir 110. It should be noted that, because the third surface 122C and the fourth surface 122D of the first valve nozzle 122 are both inclined surfaces, the thickness of the first valve nozzle 122 in the direction from the third surface 122C to the fourth surface 122D is reduced, which is beneficial to the outward expansion and deformation of the third surface 122C and the fourth surface 122D of the first valve nozzle 122, and is convenient for the first passage 1221 to be pushed open, so as to input the pressurized fluid into the reservoir 110. In addition, when the first passage 1221 is automatically closed, the liquid smoke in the liquid storage chamber 110 presses the third surface 122C and the fourth surface 122D under the action of gravity, thereby effectively preventing the first passage 1221 from being easily opened to cause the liquid smoke to leak. In one embodiment, the first one-way valve 12 is a one-piece structure, and the first one-way valve 12 is made of silicone or rubber material.

Referring to fig. 5 again, in one embodiment, two first engaging grooves 1121 are formed in the side wall of the connecting sleeve 112, and a first engaging buckle 152 is convexly formed on the outer circumferential surface of the supporting seat 15, and the first engaging buckle 152 and the first engaging groove 1121 are engaged with each other, so as to achieve a connection relationship between the supporting seat 15 and the liquid storage component 11. It will be appreciated that in other embodiments, not shown, the support base 15 and the liquid storage member 11 may be detachably connected by means of a plug-in connection, a magnetic connection, or the like. The supporting seat 15 can support the first check valve 12, so that the working stability of the first check valve 12 is improved.

Referring to fig. 8 and 9, the second check valve 13 includes a second valve seat 131, a second valve nozzle 132 and a second connecting post 133, the second valve nozzle 132 is disposed on an upper end surface of the second valve seat 131 in a protruding manner, and the second connecting post 133 is disposed on a lower end surface of the second valve seat 131 in a protruding manner. The second valve seat 131 is connected with the liquid storage component 11 to seal the liquid storage cavity 110, a second through hole 1311 is formed in the second valve seat 131, the second valve nozzle 132 is approximately in a flat hollow structure, the second connecting column 133 is approximately in a hollow tubular structure, the second valve nozzle 132 and the second connecting column 133 are both arranged corresponding to the second through hole 1311, the inner cavity of the second valve nozzle 132 is communicated with the inner cavity of the second connecting column 133 through the second through hole 1311, the upper end of the liquid inlet pipe 14 is inserted into the inner cavity of the second connecting column 133, the connection relationship between the liquid inlet pipe 14 and the second one-way valve 13 is achieved, and the smoke liquid flow passage 141 is communicated with the inner cavity of the second valve nozzle 132. The second valve nozzle 132 includes a sixth surface 132A, a seventh surface 132B, an eighth surface 132C, a ninth surface 132D, and a tenth surface 132F, wherein the sixth surface 132A and the seventh surface 132B are disposed opposite to each other, the eighth surface 132C and the ninth surface 132D are disposed opposite to each other, the sixth surface 132A, the eighth surface 132C, the seventh surface 132B, and the ninth surface 132D are sequentially connected to enclose a cylinder, and the tenth surface 132F is connected to the sixth surface 132A, the seventh surface 132B, the eighth surface 132C, and the ninth surface 132D. The sixth surface 132A and the seventh surface 132B are circular arc surfaces and are located on the same circular cone surface, the eighth surface 132C and the ninth surface 132D are inclined planes, distances from the eighth surface 132C to the central axis of the second valve nozzle 122 gradually decrease from bottom to top at each of the eighth surface 132C and the ninth surface 132D, the tenth surface 132F is a planar structure, the tenth surface 132F is provided with a second passage 1321, the second passage 1321 is in an open state, the second passage 1321 is communicated with an inner cavity of the second valve nozzle 132, and therefore the smoke liquid flow passage 141 is communicated with the second passage 1321. The second channel 1321 has an elongated structure having long sides and short sides, a direction of the sixth surface 132A toward the seventh surface 132B is a direction in which the long sides of the second channel 1321 extend, and a direction of the eighth surface 132C toward the ninth surface 132D is a direction in which the short sides of the second channel 1321 extend.

The second valve nozzle 132 is made of an elastic material, and when the pressure in the reservoir 110 is not increased, the second valve nozzle 132 is in a natural state, and the second passage 1321 is automatically closed by the elastic force of the second valve nozzle 132, so that the liquid flow passage 141 is closed by the second valve nozzle 132, and the liquid in the reservoir 110 cannot overflow to the outside of the reservoir 110 through the second passage 1321. When the pressure in the reservoir 110 increases, the liquid smoke in the reservoir 110 enters the second valve nozzle 132 through the liquid smoke channel 141 under the action of the pressure and pushes the second passage 1321 open, so that the liquid smoke overflows from the second passage 1321. It should be noted that, since the eighth surface 132C and the ninth surface 132D are both inclined surfaces, the thickness of the second valve nozzle 132 in the direction from the eighth surface 132C to the ninth surface 132D is reduced, which is beneficial for the eighth surface 132C and the ninth surface 132D of the second valve nozzle 132 to expand and deform outwards, and is convenient for the second passage 1321 to be pushed open to allow the smoke liquid to flow out. In one embodiment, the second check valve 13 is an integrally molded structure, and the second check valve 13 is made of silicone or rubber material.

Referring to fig. 5, 12 and 13 again, in one embodiment, a supporting portion 1141 is formed on an inner wall of an upper end of the liquid storage member 11 and extends inward along a radial direction of the liquid storage member 11, the supporting portion 1141 and the inner wall of the liquid storage member 11 above the supporting portion 1141 enclose to form a receiving groove 114, the second check valve 13 is installed in the receiving groove 114, and a lower surface of the second valve seat 131 abuts against the supporting portion 1141. The atomizing assembly 20 is installed in the receiving groove 114 above the second check valve 13, and the lower surface of the atomizing assembly 20 abuts against the upper surface of the second valve seat 131, so that the second valve seat 131 is interposed between the supporting portion 1141 and the atomizing assembly 20, and the second check valve 13 is fixed.

Referring to fig. 10-12, the atomizing assembly 20 includes an atomizing base 21, an atomizing cover 24 disposed at one end of the atomizing base 21, and a heating structure 23 accommodated in the atomizing chamber 210.

Atomizing seat 21 is roughly a hollow structure with an opening at the upper end, atomizing cover 24 is roughly a hollow cylindrical structure with an opening at the lower end, atomizing cover 24 is sleeved on the upper end of atomizing seat 21, so that a cavity is formed between atomizing seat 21 and atomizing cover 24, and atomizing cavity 210 is formed in the cavity. The bottom wall of the atomizing base 21 is provided with a through hole 213, and the through hole 213 is communicated with the atomizing chamber 210. When the atomizing assembly 20 and the reservoir assembly 10 are mounted in place, the second valve nozzle 132 of the second check valve 13 partially extends into the cavity formed between the atomizing base 21 and the atomizing cap 24 through the through hole 213. When the atomizing device is used, the smoke liquid overflowing through the second passage 1321 enters the atomizing cavity 210 to be in contact with the heating structure 23, and the smoke liquid is atomized under the heating action of the heating structure 23 to generate smoke.

In a specific embodiment, the atomizing base 21 is accommodated in the accommodating groove 114, and a lower surface of the atomizing base 21 abuts against an upper surface of the second valve seat 131. The inner cavity of the atomizing base 21 includes a first cavity 211 and a second cavity 212 sequentially arranged from bottom to top, the first cavity 211 and the second cavity 212 are communicated with each other, the area of the second cavity 211 is larger than that of the first cavity 211, and the through hole 213 is communicated with the first cavity 211. The atomizing assembly 20 further includes a fixing seat 22, the fixing seat 22 is installed in the second cavity 212 and located above the first cavity 211, and the second valve nozzle 132 of the second check valve 13 partially extends into the first cavity 211 through the through hole 213. The fixing base 22 is a hollow structure with an opening at the upper end, the fixing base 22 is matched with the second cavity 212, the atomization cavity 210 is formed by an inner cavity of the fixing base 22, a liquid passing groove 221 communicated with the atomization cavity 210 is formed in the bottom wall of the fixing base 22, and the liquid passing groove 221 is located above the second channel 1321. The heating structure 23 includes a liquid guiding element 231 and a heating element 232, which are in contact with each other, the liquid guiding element 231 has a capability of absorbing and storing the tobacco liquid, and the heating element 232 has a capability of heating the tobacco liquid after being energized, wherein the liquid guiding element 231 is accommodated in the atomizing chamber 210, and the heating element 232 is covered on the opening end of the fixing base 22. Specifically, the smoke liquid overflowing through the second passage 1321 passes through the liquid passing groove 221, contacts with the liquid guiding element 231 and is absorbed by the liquid guiding element 231, and under the conduction action of the liquid guiding element 231, the smoke liquid contacts with the heating element 232 and is atomized to generate smoke. In this embodiment, the heating element 232 is a heating sheet, and the heating sheet is provided with a plurality of smoke holes 2321, so that the smoke can be conveniently sucked by the user after flowing out through the smoke holes 2321. It is understood that the heating element 232 may also be a heating wire, a heating net, a heating cylinder, or the like, and the liquid guiding element 231 includes, but is not limited to, a liquid absorbing element such as cotton, porous ceramic, or porous graphite. In other embodiments not shown, the heating structure 23 can also be an integrally formed porous ceramic heating body, so that the tobacco juice can be uniformly distributed in the porous ceramic heating body and can be uniformly heated at the same time, and further atomization is performed sufficiently, and the atomization effect is improved.

In one particular embodiment, the anchor block 22 is made of a high temperature resistant ceramic material. It will be appreciated that in other embodiments, not shown, the fixed seat 22 may also be omitted, in which case the heating structure 23 is directly mounted on the atomizing seat 21, in which case the inner cavity of the atomizing seat 21 constitutes the atomizing chamber 210, and the smoke liquid overflowing via the second channel 231 directly contacts the heating structure 23. In addition, when the liquid supply amount is matched to the heating power of the heating structure 23 by adjusting the pressure input into the reservoir 110, the heating structure 23 may not have the capacity to store the smoke liquid.

Smoke outlet 241 and air inlet 242 have been seted up on the roof of atomizing lid 24, and smoke outlet 241 and air inlet 242 all communicate with the inner chamber of atomizing lid 24, and smoke outlet 241 sets up the center department at the roof of atomizing lid 24, and air inlet 242 has two and sets up in the both sides that smoke outlet 241 is relative. When the user uses the electronic cigarette, the user performs a smoking operation through the smoke outlet 241, external air enters the inner cavity of the atomizing cover 24 through the air inlet 242 under the action of negative pressure and is mixed with generated smoke, and the mixture of the external air and the smoke enters the mouth of the user through the smoke outlet 241. In addition, a smoke guide plate 243 is disposed on the inner end surface of the top wall of the atomizing cover 24 between the smoke outlet 241 and the air inlet 242 in a downward protruding manner, and the smoke guide plate 243 is used for guiding smoke to the smoke outlet 241 and preventing the smoke from directly flowing out from the air inlet 242.

Referring to fig. 9, 12 and 13, in a specific embodiment, a sealing ring 134 is formed at an edge of the second valve seat 131 of the second check valve 13 and extends upward along an axial direction of the second check valve 13, the sealing ring 134 is in an annular hollow structure and is accommodated in the accommodating groove 114, and a lower end of the atomizing base 21 is accommodated in an inner cavity of the sealing ring 134, so that the sealing ring 134 is clamped between an inner groove wall of the accommodating groove 114 and an outer side wall of the atomizing base 21, thereby preventing gas and smoke liquid from leaking between the inner groove wall of the accommodating groove 114 and the outer side wall of the atomizing base 21, and performing a sealing function.

In a specific embodiment, the outer wall of the atomizing base 21 is convexly provided with a second buckle 214, the outer wall of the atomizing cover 24 is provided with a second clamping groove 244, and the second clamping groove 244 is clamped with the second buckle 214, so that the connection relationship between the atomizing base 21 and the atomizing cover 24 is realized. It is understood that in other embodiments, not shown, the atomizing base 21 and the atomizing cover 24 can be detachably connected by a magnetic connection, a plug connection, etc., and are not limited herein. In addition, referring to fig. 5 and 10, a third fastener 245 is further convexly disposed on the side wall of the atomizing cap 24, a third groove 115 is disposed on the side wall of the upper end of the liquid storage member 11, and the third fastener 245 and the third groove 115 are engaged with each other, so as to achieve a connection relationship between the atomizing cap 24 and the liquid storage member 11. It is understood that in other embodiments, not shown, the atomizing cap 24 and the reservoir 11 can be detachably connected by magnetic connection, plug-in connection, etc., and is not limited herein. Because can dismantle between atomizing lid 24 and the stock solution spare 11, just make and dismantle between atomizing subassembly 20 and the stock solution subassembly 10, when the user demolishs atomizing subassembly 20, only need further take off second check valve 13 in order to open stock solution chamber 110, alright inject the tobacco juice into stock solution chamber 110, convenience of customers annotates the liquid operation. In addition, the detachable connection relationship between the atomizing assembly 20 and the liquid storage assembly 10 facilitates the user to replace the liquid storage assembly 10 or the atomizing assembly 20. It is understood that in other embodiments, which are not shown, the detachable connection relationship between the liquid storage member 11 and the support base 15, the detachable connection relationship between the liquid storage member 11 and the atomizing cap 24, and the detachable connection relationship between the atomizing cap 24 and the atomizing base 21 can be replaced by a fixed connection relationship.

Referring to fig. 10-12 again, in order to supply power to the atomizing assembly 20 from the battery 200, the atomizing assembly 20 further includes two electrodes 25, the two electrodes 25 are respectively located at two opposite sides of the heating element 232, one end of the electrode 25 is connected to the heating element 232, and the other end of the electrode 25 passes through the top of the atomizing cover 24 and extends to the outside of the atomizing cover 24 for electrically connecting with the battery 200.

In one embodiment, the electrode 25 has a substantially "S" shape, and the electrode 25 includes a connecting section 251, and a first conductive portion 252 and a second conductive portion 253 respectively connected to two opposite ends of the connecting section 251, wherein the first conductive portion 252 is connected to and electrically conducted with the heating element 232, and the second conductive portion 253 penetrates through the atomizing cover 24. Specifically, a groove is formed by downward recessing the upper end surface of the atomizing cover 24, a support edge 246 is formed on the groove bottom wall of the groove, an insertion opening 247 communicating with the inner cavity of the atomizing cover 24 is formed on the support edge 246, and the second conductive portion 253 is supported against the support edge 246 after penetrating through the insertion opening 247. In this embodiment, there are two grooves corresponding to the two electrodes 25, the two grooves are disposed on two opposite sides of the smoke outlet 241, and a connection line of the two grooves is perpendicular to a connection line of the two air inlets 242.

In a specific embodiment, in order to achieve the connection relationship between the first conductive portion 252 and the heating element 232, the atomizing assembly 20 further includes a fixing post 26 and a fixing member 27. The bottom wall of the atomizing base 21 is provided with a first connection hole 215 penetrating through the cavity bottom wall of the second cavity 212, the fixing base 22 is provided with a second connection hole 222 corresponding to the first connection hole 215, the heating element 232 is provided with a third connection hole 2322 corresponding to the second connection hole 222, the upper end of the fixing post 26 passes through the first connection hole 215 and then is inserted into the second connection hole 222, the lower end of the fixing member 27 sequentially passes through the first conductive portion 252 and the third connection hole 2322 and then is connected with the fixing post 26, so that the first conductive portion 252 is fixed on the heating element 232. In this embodiment, the fixing member 27 is a bolt, and the fixing member 27 is connected to the fixing column 26 by a thread, but it can be understood that the fixing member 27 and the fixing column 26 can also be connected by a detachable manner such as an insertion connection or a magnetic connection.

In addition, the electrode 25 is made of elastic conductive material, and the electrode 25 can conveniently penetrate through the atomizing cover 24 due to the elasticity of the electrode 25, and meanwhile, the situation that the electrode 25 cannot be electrically conducted with the battery 200 due to assembly errors can be avoided. It is understood that the electrodes 25 include, but are not limited to, stainless steel spring plates or copper spring plates.

Referring to fig. 14, the electronic cigarette further includes a pressurizing mechanism 30, and a pressure output end of the pressurizing mechanism 30 is connected to the first connecting post 123 of the first check valve 12 and communicated with the pressure passage 124. In the present embodiment, the pressurization mechanism 30 is an air pump, and the air pump may be a manual pump or an electric pump. It is understood that in other embodiments not shown, the pressurization mechanism 30 may also be a component capable of increasing pressure, such as a piston injector, and the like, without limitation.

Referring to fig. 15, the electronic cigarette further includes a controller 80 and a lighting switch 90, the lighting switch 90 and the battery 200 are electrically connected to the controller 80, and the heating structure 23 and the pressurization mechanism 30 are electrically connected to the battery 200. When the user uses the electronic cigarette, the cigarette lighting switch 90 is started, and after the controller 80 receives the trigger signal of the cigarette lighting switch 90, the battery 200 is controlled to supply power to the pressurizing mechanism 30 and the heating structure 23, at this time, the pressurizing mechanism 30 works to input pressurizing fluid into the liquid storage cavity 110, the cigarette liquid in the liquid storage cavity 110 is pressed into the atomizing cavity 210 under the pressure action of the pressurizing fluid and is contacted with the heating structure 23, the heating structure 23 works under the electric driving action of the battery 200 to generate heat, and the cigarette liquid is atomized to generate smoke under the heating action of the heating structure 23. In the present embodiment, the ignition switch 90 is a push-type switch.

In addition, referring to fig. 1 and fig. 3, an airflow channel 710 is disposed on the electronic cigarette, the airflow channel 710 includes a smoke outlet 241 and an air inlet 242, and the airflow channel 710 is used for allowing external air to enter the electronic cigarette and allowing smoke to flow into a mouth of a user when the user performs a smoking operation. In this case, the ignition switch 90 may also be a sensor installed in the air flow channel 710, the sensor is used for detecting the change of the air pressure or the air flow in the air flow channel 710 and transmitting the trigger signal to the controller 80, and the controller 80 is used for receiving the trigger signal of the sensor and controlling the battery 200 to supply power to the pressurization mechanism 30 and the heating structure 23. When a user performs a pumping operation, the air pressure or the air flow in the air flow passage 710 changes, the sensor is triggered to transmit a trigger signal to the controller 80, and the controller 80 controls the battery 200 to supply power to the pressurization mechanism 30 and the heating structure 23 after receiving the trigger signal of the sensor, so that the pressurization mechanism 30 and the heating structure 23 operate. It will be appreciated that the sensor is an air pressure sensor or an air flow sensor.

In addition, after the controller 80 receives the trigger signal of the cigarette lighting switch 90, the battery 200 is controlled to supply power to the pressurizing mechanism 30 for a period of time, and then the battery 200 is controlled to supply power to the heating structure 23, so that when the heating structure 23 works, the cigarette liquid is ensured to contact the heating structure 23, and the situation that the heating structure 23 starts to work and the heating structure 23 is dried when the cigarette liquid does not reach the heating structure 23 is avoided. In the present embodiment, the controller 80 controls the battery 200 to start supplying power to the heating structure 23 after the pressurization mechanism 30 is operated for 1 s.

Referring to fig. 3 and 14 again, in one embodiment, the electronic cigarette further includes a housing 40, a mounting housing 50 accommodated in the housing 40, and a cover 60 movably mounted at one end of the housing 40, wherein the atomizer 100 and the battery 200 are both mounted in the mounting housing 50, the pressurization mechanism 30 is accommodated in the housing 40 and located outside the mounting housing 50, and the ignition switch 90 is mounted outside the housing 40.

The housing 40 has a substantially hollow cylindrical structure with an opening at the upper end, and the cover 60 is disposed at the opening end of the housing 40, so as to enclose the atomizer 100 and the battery 200 in a space defined by the housing 40 and the cover 60. Installation casing 50 cooperatees with shell 40, atomizer mounting groove 51 and battery mounting groove 52 have been seted up on installation casing 50, battery mounting groove 52 is located one side of atomizer mounting groove 51, atomizer 100 is installed in atomizer mounting groove 51, battery 200 is installed in battery mounting groove 52, make atomizer 100 set up side by side with battery 200, the axial length of electron cigarette has been shortened, the purpose of the miniaturized production of electron cigarette has been realized, and convenient transportation and carrying.

In a specific embodiment, a window 41 is formed on a side wall of the housing 40, a notch 53 is formed on a side wall of the mounting housing 50, the notch 53 corresponds to the window 41, and a user can observe the amount of the tobacco liquid in the liquid storage cavity 110 through the window 41 and the notch 53, thereby facilitating the user to inject the liquid or replace the liquid storage assembly 10 in time.

In this embodiment, the cover 60 is mounted to the open end of the housing 40 in a reversible manner. By turning the cover 60 over, the cover 60 may close the open end of the housing 40 to shield the atomizer 100 and the battery 200, or the cover 60 may open the open end of the housing 40 to expose the atomizer 100 and the battery 200, which is convenient for a user to replace the atomizer 100 or the battery 200. It will be appreciated that in other embodiments, not shown, the cover 60 may be slidably, rotatably, etc. connected to the housing 40, or the cover 60 may be removably mounted to the housing 40, as long as the cover 60 is capable of closing and opening the open end of the housing 40. In addition, when the cover 60 is disposed at the opening end of the housing 40, the cover 60 and the housing 40 are fixed by a locking structure, which may be, but is not limited to, a snap-fit connection structure of a snap, a screw connection structure of a bolt or a screw, or a magnetic adsorption connection structure between two magnetic members (e.g., magnets).

The electronic cigarette further comprises a cigarette holder 70, a cigarette holder mounting hole 61 and air inlet holes 62 are formed in the cover body 60, the cigarette holder 70 is matched with the cigarette holder mounting hole 61, the cigarette holder mounting hole 61 corresponds to the cigarette outlet 241, and the number of the air inlet holes 62 is two and corresponds to the air inlet 242. When the cover 60 closes the opening end of the housing 40, the air inlet hole 62 is aligned and communicated with the air inlet 242, the mouthpiece mounting hole 61 is aligned and communicated with the smoke outlet 241, at this time, the mouthpiece 70 can be mounted, and the lower end of the mouthpiece 70 is inserted into the smoke outlet 241 after passing through the mouthpiece mounting hole 61. The cigarette holder 70 is generally a tubular structure with two through ends, the airflow channel 710 further comprises an air inlet 62 and an inner cavity of the cigarette holder 70, when a user performs a suction operation, external air sequentially passes through the air inlet 62 and the air inlet 242 and then is mixed with smoke, and the mixture of the external air and the smoke sequentially passes through the smoke outlet 241 and the inner cavity of the cigarette holder 70 and then enters the mouth of the user. Since the hole wall of the mouthpiece 241 restricts the movement of the mouthpiece 70, the user cannot directly open the lid 60. The user needs to remove the mouthpiece 70 first, then unlock the locking structure, and finally, open the lid 60. The cooperation of the mouthpiece 70 and the mouthpiece 241 protects the cover 60 from opening.

In a specific embodiment, the first electrode column 54 and the second electrode column 55 are mounted on the upper end surface of the mounting case 50, one of the positive and negative electrodes of the battery 200 is electrically connected to the first electrode column 54, and the other of the positive and negative electrodes of the battery 200 is electrically connected to the second electrode column 55. A first conductive sheet 63 and a second conductive sheet 64 are mounted on a surface of the lid 60 facing the mounting case 50, the first conductive sheet 63 is provided with a first contact 631, the second conductive sheet 64 is provided with a second contact 641, the first contact 631 corresponds to one of the electrodes 25, and the second contact 641 corresponds to the other electrode 25. When the cover 60 is disposed at the open end of the housing 40, the first conductive sheet 63 is partially in contact with and electrically connected to the first electrode column 54, the first contact 631 is in contact with and electrically connected to one of the electrodes 25, the second conductive sheet 64 is partially in contact with and electrically connected to the second electrode column 55, and the second contact 641 is in contact with and electrically connected to the other electrode 25, so that the function of supplying power to the heating structure 23 by the battery 200 is realized. In addition, the first electrode column 54 and the second electrode column 55 have elasticity, which ensures good contact between the first electrode column 54 and the first conductive sheet 63, and between the second electrode column 55 and the second conductive sheet 64. In the present embodiment, the first electrode column 54 and the second electrode column 55 are both pogo pins. When the cover 60 is opened, the user can touch the heating structure 23, but at this time, the first contact 631 and the second contact 641 are separated from the corresponding second conductive portion 253, and even if the ignition switch 90 is operated, the battery 200 cannot supply power to the heating structure 23, so that the user can be effectively prevented from being scalded by the heating structure 23 by mistake.

The utility model provides an electronic cigarette, heating structure 23 independently sets up in the outside of stock solution chamber 110, avoided heating structure 23 to soak the condition in stock solution chamber 110 all the time, effectively prevent to take place because of the rotten condition that influences the user and suck the taste of tobacco juice, and effectively prevent the leakage of tobacco juice, only when inputing pressurized fluid in stock solution chamber 110, heating structure 23 is just supplied with to the tobacco juice, realized the purpose of tobacco juice supply as required, user's use experience has been promoted.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. An atomizer, characterized by: the atomizer comprises a liquid storage part, a pressure channel, a tobacco liquid flow channel, a first one-way valve, a second one-way valve and an atomization component, wherein a liquid storage cavity is formed in the liquid storage part, the first one-way valve is used for controlling the fluid communication or cut-off between the pressure channel and the liquid storage cavity, the atomization component is arranged outside the liquid storage cavity, an atomization cavity is formed in the atomization component, one end of the tobacco liquid flow channel is communicated with the liquid storage cavity, the second one-way valve is used for controlling the fluid communication or cut-off between the other end of the tobacco liquid flow channel and the atomization cavity, when pressurized fluid is input into the pressure channel, the first one-way valve is propped against by the pressurized fluid and is opened, so that the pressurized fluid enters the liquid storage cavity through the first one-way valve, tobacco liquid in the liquid storage cavity flows to the second one-way valve through the tobacco liquid flow channel under the pushing of the pressurized fluid, the second one-way valve is propped by the tobacco juice to be opened so that the tobacco juice enters the atomizing cavity, and when pressurized fluid is stopped being input into the pressure channel, the first one-way valve and the second one-way valve are both automatically closed.

2. The nebulizer of claim 1, wherein: first check valve is located the lower extreme of stock solution spare, pressure channel sets up on the first check valve, still be provided with on the first check valve and be located stock solution chamber with first passageway between the pressure channel, the second check valve is located the upper end of stock solution spare, the atomizer is still including setting up the feed liquor pipe in the stock solution intracavity, the tobacco juice runner does the lumen of feed liquor pipe, the lower extreme of feed liquor pipe with stock solution chamber intercommunication, the upper end of feed liquor pipe with the second check valve is connected, be provided with on the second check valve and be located the tobacco juice runner with second passageway between the atomizing chamber.

3. A nebulizer as claimed in claim 2, wherein: the bottom wall of the liquid storage part is provided with a communicating hole communicated with the liquid storage cavity, the first one-way valve comprises a first valve nozzle and a first connecting column, the first valve nozzle extends into the communicating hole, the second channel is arranged at the top of the first valve nozzle, and the pressure channel is arranged on the first connecting column.

4. A nebulizer as claimed in claim 3, wherein: the first check valve further comprises a first valve seat, the first valve nozzle and the first connecting column are respectively convexly arranged on the upper end face and the lower end face of the first valve seat, the atomizer further comprises a supporting seat, the first connecting column is connected with the supporting seat, the supporting seat is arranged at the lower end of the liquid storage piece, and the first valve seat is clamped between the supporting seat and the bottom wall of the liquid storage piece.

5. A nebulizer as claimed in claim 2, wherein: the atomization assembly comprises an atomization seat and an atomization cover arranged at one end of the atomization seat, a cavity is formed between the atomization seat and the atomization cover, the atomization cavity is formed in the cavity, the second one-way valve comprises a second valve nozzle, the second valve nozzle extends into the cavity, and the second channel is arranged at the top of the second valve nozzle.

6. The atomizer of claim 5, wherein: the atomizing component further comprises a fixing seat and a heating structure, the fixing seat is installed on the atomizing seat, an opening is formed in the upper end of the fixing seat, the atomizing cavity is formed by an inner cavity of the fixing seat, the bottom of the fixing seat is provided with a communicating groove, the atomizing cavity passes through the liquid groove, the liquid groove is located above the second channel, the heating structure comprises a liquid guiding element and a heating element which are in mutual contact, the liquid guiding element is contained in the atomizing cavity, and the heating element covers the opening end of the fixing seat.

7. The atomizer of claim 5, wherein: the top of atomizing lid is provided with outlet flue and air inlet, the outlet flue with the air inlet all with the atomizing chamber intercommunication, lie in on the inner terminal surface of the roof of atomizing lid the outlet flue with the downward protruding smoke guide plate that is equipped with between the air inlet, the external gas via the air inlet enters into extremely mix with smog behind the inner chamber of atomizing lid, the mixture via of external gas and smog the outlet flue flows.

8. An electronic cigarette, characterized in that: the electronic cigarette comprising the atomizer of any one of claims 1-7.

9. The electronic cigarette of claim 8, wherein: the electron cigarette still includes booster mechanism, controller, battery and point cigarette switch, booster mechanism's pressure output end with pressure channel intercommunication, the point cigarette switch reaches the battery all with controller electric connection, the atomizer reaches booster mechanism all with battery electric connection, the controller is receiving control during the trigger signal of point cigarette switch the battery to booster mechanism reaches the atomizer power supply.

10. The electronic cigarette of claim 9, wherein: the electronic cigarette further comprises a shell, an installation shell and a cover body, wherein one end of the shell is provided with an opening, the installation shell is contained in the shell, the atomizer and the battery are installed on the installation shell in parallel, and the cover body covers the opening end of the shell.

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