ELECTRONIC CIGARETTE ATOMIZING CORE AND ATOMIZER

Abstract

An electronic cigarette atomizing core and an atomizer are provided. The electronic cigarette atomizing core comprises an outer sleeve and an inner sleeve which are sleeved on each other. An atomization cavity is formed below the inner sleeve, and the outer sleeve is provided with a first e-liquid passing port. Two ends of e-liquid guide cotton are sandwiched between the outer sleeve and the inner sleeve, and the two ends of the e-liquid guide cotton cover the first e-liquid passing port. The inner sleeve is provided with an air supply groove for delivering air to an e-liquid tank. One end of the air supply groove is communicated with the first e-liquid passing port, and the other end thereof is communicated with the atomization cavity.

Description

FIELD OF THE INVENTION

The present invention relates to an electronic cigarette device, and in particular, to an electronic cigarette atomizing core and an atomizer.

BACKGROUND OF THE INVENTION

The first electrode of the ultrasonic atomizing sheet of the existing ultrasonic electronic cigarette atomizer is generally connected to an electrode assembly by a wire, so the atomizing core is inconvenient to assemble, and solder joints at two ends of the wire easily fall off, resulting in poor conductivity of the ultrasonic atomizing sheet. In addition, during ultrasonic atomization, because the supply speed of e-liquid is slow, the ultrasonic atomizing sheet is easily dry-burnt. Further, because the air pipe is directly communicated with the atomization cavity, the e-liquid splashed on the ultrasonic atomizing sheet enters the vent tube connected with the suction nozzle during the atomization. Hence, the user easily inhales the e-liquid.

SUMMARY OF THE INVENTION

The technical problem to be solved by the present invention is to overcome the shortcomings of the prior art, and provide an electronic cigarette atomizing core which is convenient to assemble, does not require welding wires and can also protect the ultrasonic atomizing sheet, and an atomizer.

In order to solve the above technical problems, the present invention provides an electronic cigarette atomizing core, including an outer sleeve and an inner sleeve which are sleeved on each other, wherein an atomization cavity is formed below the inner sleeve, and the outer sleeve is provided with a first e-liquid passing port; two ends of e-liquid guide cotton are sandwiched between the outer sleeve and the inner sleeve, and the two ends of the e-liquid guide cotton cover the first e-liquid passing port; the inner sleeve is provided with an air supply groove for delivering air to an e-liquid tank, one end of the air supply groove is communicated with the first e-liquid passing port, and the other end thereof is communicated with the atomization cavity.

In the present invention, the air supply groove is disposed at a position corresponding to the first e-liquid passing port, and the air supply groove is communicated with the atomization cavity, so that a part of intake air flow entering the atomization cavity can enter the e-liquid tank through the air supply groove and the first e-liquid passing port. During smoking, the e-liquid tank continuously supplies e-liquid, and a part of intake air flow in the atomization cavity is continuously filled into the e-liquid tank to increase the air pressure of the e-liquid tank, thereby increasing the supply speed of e-liquid and effectively preventing dry burning of the ultrasonic atomizing sheet.

Preferably, an inner cavity of the inner sleeve is provided with a boss, for sealing and clamping a vent tube, and an air outlet cavity sequentially from top down, so that the e-liquid splashed during ultrasonic atomization is condensed on the inner wall of the air outlet cavity, and the user hardly inhales the e-liquid.

Preferably, the top of the inner sleeve is provided with two vents symmetrically, the outer wall of the inner sleeve under the two vents is respectively provided with a vent groove that reaches the bottom of the inner sleeve, and after the outer sleeve and the inner sleeve are sleeved on each other, the inner wall of the outer sleeve and the vent grooves enclose two first air inlet channels. The two first air inlet channels are symmetrically disposed on two sides of the atomization cavity, and intake air flows through the two first air inlet channels at equal quantity and equal velocity, and flows into the atomization cavity from symmetrical positions on two sides of the atomization cavity, so smoke in the atomization cavity is taken away more thoroughly, and the smoke is prevented from staying in the atomization cavity to affect the taste when smoking next time.

Preferably, the outer wall of the inner sleeve is symmetrically provided with e-liquid guide cotton mounting grooves for mounting the two ends of the e-liquid guide cotton, the e-liquid guide cotton mounting groove is provided with a clamping segment at the upper part for clamping the e-liquid guide cotton and a loosening segment at the lower part, and the depth of the e-liquid guide cotton mounting groove at the clamping segment is less than that of the e-liquid guide cotton mounting groove at the loosening segment, so that the e-liquid guide speed of the e-liquid guide cotton is not affected by clamping after the e-liquid guide cotton is clamped and fixed.

Preferably, the e-liquid guide cotton mounting grooves and the vent grooves are arranged alternatively to prevent the air flow in the vent grooves from affecting the flow rate of e-liquid on the e-liquid guide cotton, which then affects the atomization effect of the ultrasonic atomizing sheet.

Preferably, the inner sleeve, the e-liquid guide cotton, the ultrasonic atomizing sheet, an elastic insulating seat and an electrode assembly are sequentially disposed in the inner cavity of the outer sleeve from top down; a first electrode is disposed on the upper surface of the ultrasonic atomizing sheet, and a second electrode is disposed on the lower surface of the ultrasonic atomizing sheet; the electrode assembly includes a first electrical connection terminal and a second electrical connection terminal separated by an insulating ring; the first electrode of the ultrasonic atomizing sheet is electrically connected to the second electrical connection terminal of the electrode assembly via the outer sleeve, and the second electrode of the ultrasonic atomizing sheet is electrically connected to the first electrical connection terminal of the electrode assembly.

Preferably, the upper part of the inner wall of the outer sleeve is provided with a support portion, the top of the outer wall of the inner sleeve is provided with a step, and the step is supported by the support portion, so that the inner sleeve and the outer sleeve are fixedly connected into a whole.

Preferably, the lower part of the inner wall of the outer sleeve is provided with a resisting portion for resisting the first electrode of the ultrasonic atomizing sheet, which forms an electrical connection. As such, the resisting portion of the outer sleeve directly resists the first electrode of the ultrasonic atomizing sheet, and the bottom of the inner wall of the outer sleeve is directly connected to the electrode assembly, so the electrical connection can be realized without wire bonding.

Preferably, a yielding portion for preventing the side wall of the ultrasonic atomizing sheet from being broken due to squeezing, surrounds the periphery of the resisting portion, so that the assembled ultrasonic atomizing sheet is only subject to the resisting force of the resisting portion, and the ultrasonic atomizing sheet is conserved.

Preferably, the lower surface of the ultrasonic atomizing sheet is disposed on the upper surface of the elastic insulating seat, so as to prevent the ultrasonic atomizing sheet from being broken by squeezing or losing its atomizing function by means of the elasticity of the elastic insulating seat itself.

Preferably, the upper part of the inner cavity of the elastic insulating seat is provided with a mounting portion, and the ultrasonic atomizing sheet is mounted on the mounting portion to prevent the side wall of the ultrasonic atomizing sheet to be scratched or squeezed because of the shaking of assembled ultrasonic atomizing sheet.

In order to solve the above technical problems, the present invention further provides an electronic cigarette atomizer, including an e-liquid tank device and a suction nozzle device which are connected and fixed into a whole and are rotatable relatively, wherein an e-liquid tank is disposed inside the e-liquid tank device, the suction nozzle device is provided with second air inlet channels and a suction nozzle, the above-mentioned electronic cigarette atomizing core is disposed in the e-liquid tank device, a vent tube is disposed between the suction nozzle and the boss of the inner sleeve, a third air inlet channel is respectively formed between the outer wall of the vent tube and the suction nozzle device and between the outer wall of the vent tube and the e-liquid tank device, and the second air inlet channels are communicated with the first air inlet channels through the third air inlet channels.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a cross-sectional structure diagram of an embodiment of an electronic cigarette atomizing core according to the present invention.

FIG. 2 is an exploded structure diagram of components of an embodiment of the electronic cigarette atomizing core according to the present invention.

FIG. 3 is an assembly process diagram of e-liquid guide cotton, an inner sleeve and an outer sleeve according to the present invention.

FIG. 4 is an assembly process diagram of the outer sleeve, an ultrasonic atomizing sheet, an elastic insulating seat and an electrode assembly according to the present invention.

FIG. 5 is a cross-sectional structure diagram of another embodiment of the electronic cigarette atomizing core according to the present invention.

FIG. 6 is a cross-sectional structure diagram of an embodiment of an electronic cigarette atomizer according to the present invention.

FIG. 7 is a cross-sectional view taken along line A-A in FIG. 6.

FIG. 8 is a three-dimensional bottom view of an upper cover of an electronic cigarette atomizer according to the present invention.

FIG. 9 is a structural top view of an e-liquid tank device according to the present invention.

FIG. 10 is a schematic structure diagram of a child lock button according to the present invention.

FIG. 11 is an operation diagram of a child lock according to the present invention, in which “a” is an initial state, “b” is a state of pressing the child lock, and “c” is a state diagram illustrating that the child lock is rotated 90 degrees.

DETAILED DESCRIPTION OF EMBODIMENTS

The present invention will be further described below with reference to specific preferred embodiment, but the scope of protection of the present invention is not limited thereby.

For ease of description, the relative positional relationships (e.g., upper, lower, left, right, etc.) of components are described according to the layout direction of the accompanying drawings in the specification, and do not limit the structure of this patent.

Embodiment 1

As shown in FIGS. 1 to 4, an embodiment of an electronic cigarette atomizing core C according to the present invention includes an outer sleeve 1 made of a conductive material, an elastic insulating sleeve 3 is sleeved on the periphery of the outer sleeve 1, a hollow inner sleeve 2 is sleeved at the upper part of an inner cavity of the outer sleeve 1, and an ultrasonic atomizing sheet 6, an elastic insulating seat 7 and an electrode assembly 8 are sequentially disposed at the lower part of the inner cavity of the outer sleeve 1 from top down. Two ends of e-liquid guide cotton 4 are sandwiched between the outer sleeve 1 and the inner sleeve 2. A first spring 5 is mounted at the bottom of the inner sleeve 2, and the first spring 5 holds the middle part of the e-liquid guide cotton 4 on an atomization zone of the ultrasonic atomizing sheet 6. An atomization cavity 10 is formed between the ultrasonic atomizing sheet 6 and the bottom of the inner sleeve 2. The ultrasonic atomizing sheet 6 is made of piezoelectric ceramics, and its upper surface is covered with a first electrode; its lower surface is covered with a second electrode; and the middle part of its upper surface is the atomization zone. The electrode assembly 8 is used to provide electrical connection for the ultrasonic atomizing sheet 6, and the electrode assembly 8 includes a first electrical connection terminal 81, an insulating ring 82 and a second electrical connection terminal 83, which are sleeved with each other from inside to outside. The first electrode of the ultrasonic atomizing sheet 6 is electrically connected to the second electrical connection terminal 83 of the electrode assembly 8 through the outer sleeve 1, and the second electrode of the ultrasonic atomizing sheet 6 is electrically connected to the first electrical connection terminal 81 of the electrode assembly 8.

The side wall of the outer sleeve 1 is provided with a first e-liquid passing port 11 communicated with an e-liquid outlet of an e-liquid tank, the top of the outer sleeve 1 is provided with an insertion port 12 for placing in the inner sleeve 2, the upper part of the inner wall of the outer sleeve 1 is provided with a support portion 13 for supporting the inner sleeve 2, the lower part of the inner wall of the outer sleeve 1 is provided with a resisting portion 14 for resisting and connecting the first electrode of the ultrasonic atomizing sheet 6, and a yielding portion 15 for preventing the side wall of the ultrasonic atomizing sheet 6 from being broken due to squeezing is avuncularly disposed between the resisting portion 14 and the inner wall of the outer sleeve, so that the ultrasonic atomizing sheet 6 is only subject to the axial resisting force of the resisting portion 14 and is not extruded by the outer sleeve in the radial direction.

The top of the outer wall of the inner sleeve 2 is provided with a step 21, the step 21 is provided with two vents 22 symmetrically, the outer wall of the inner sleeve under the two vents 22 is respectively provided with a vent groove 23 that reaches the bottom of the inner sleeve. And after the outer sleeve 1 and the inner sleeve 2 are sleeved on each other, the inner wall of the outer sleeve and the vent grooves 23 enclose two first air inlet channels.

The outer wall of the inner sleeve 2 is also provided with e-liquid guide cotton mounting grooves 24 symmetrically, the e-liquid guide cotton mounting grooves 24 and the vent grooves 23 are parallel to and staggered with each other. The e-liquid guide cotton mounting groove 24 is provided with a clamping segment 241 at the upper part for clamping the e-liquid guide cotton 4 and a loosening segment 242 at the lower part. The loosening segment 242 is aligned with the first e-liquid passing port 11 of the outer sleeve 1, and the depth of the e-liquid guide cotton mounting groove at the clamping segment 241 is less than that of the e-liquid guide cotton mounting groove at the loosening segment 242. An air supply groove 243 communicated with the e-liquid tank is formed in the loosening segment 242, the upper end of the air supply groove 243 is communicated with the first e-liquid passing port 11 of the outer sleeve 1, the bottom of the air supply groove 243 is communicated with the atomization cavity 10, and air in the atomization cavity 10 enters the e-liquid tank through the air supply groove 243 by means of the first e-liquid passing port 11. The two ends of the e-liquid guide cotton 4 are embedded in the e-liquid guide cotton mounting grooves 24, the e-liquid guide cotton 4 in the clamping segments 241 is clamped and fixed by the inner sleeve 2 and the outer sleeve 1, and the e-liquid guide cotton 4 in the loosening segments 242 is kept in its original state, so that the guide speed of e-liquid on the e-liquid guide cotton 4 is not affected by clamping, and the e-liquid is guided uniformly and stably; the air supply groove 243 can quickly introduce the air in the atomization cavity 10 into the e-liquid tank, and realize replacement of air and e-liquid in the sealed e-liquid tank, so that the e-liquid output speed of the e-liquid tank is faster.

The middle part of the inner cavity of the inner sleeve 2 is provided with a boss 25, and an air outlet cavity 26 is formed below the boss 25. A vent tube 9 of an atomizer is inserted into the boss 25 of the inner sleeve 2 and is clamped and sealed by the boss 25, so that intake air flow can only enter the atomization cavity 10 from the two first air inlet channels, then pass through the atomization zone of the ultrasonic atomizing sheet 6 to take away smoke, and then exit through the air outlet cavity 26 and the vent tube 9. Because the two first air inlet channels are symmetrically arranged with respect to the atomization cavity 10, and the air flows of the two first air inlet channels are equal, the same air flow flows to two sides of the atomization cavity 10 at the same time, and the smoke in the atomization cavity 10 is taken away more thoroughly; because of the air outlet cavity 26, the e-liquid splashed during ultrasonic atomization of the ultrasonic atomizing sheet 6 is condensed on the inner wall of the air outlet cavity 26, and the user hardly inhales the e-liquid.

The side wall of the elastic insulating sleeve 3 is provided with a second e-liquid passing port 31, the first and second e-liquid passing ports 11 and 31 are aligned, and the first e-liquid passing port 11 is aligned with the e-liquid outlet of the e-liquid tank. The inner wall of the elastic insulating sleeve 3 is provided with protruding posts 32, the side wall of the outer sleeve 1 is provided with clamping holes 16, and the protruding posts 32 are clamped into the clamping holes 16 to fix the elastic insulating sleeve 3 to the outer sleeve 1, so that the outer sleeve 1 can better seal the e-liquid outlet during rotation.

When the atomizing core is assembled, the e-liquid guide cotton 4 placed with the first spring 5 at the middle part is inserted from the bottom of the inner sleeve 2 upwards into the e-liquid guide cotton mounting grooves 24, the two ends of the e-liquid guide cotton 4 are respectively sleeved in the e-liquid guide cotton mounting grooves 24 on two sides of the inner sleeve 2, and the e-liquid guide cotton 4 and the inner sleeve 2 form a whole; then the inner sleeve 2 mounted with the e-liquid guide cotton 4 is inserted into the outer sleeve 1 through the insertion port 12 and clamped with the inner wall of the outer sleeve 1 tightly, the e-liquid guide cotton 4 is fixed more stably, the step 21 is caught and fixed on the support portion 13 to fixedly connect the inner sleeve 2 with the outer sleeve 1, and the loosening segment 242 is aligned with the e-liquid passing port 11 so that the e-liquid guide cotton 4 can fully store and guide e-liquid; finally, the ultrasonic atomizing sheet 6, the elastic insulating seat 7 and the electrode assembly 8 are sequentially placed on the bottom of the e-liquid guide cotton 4, the resisting portion 14 on the inner wall of the outer sleeve 1 presses against the first electrode of the ultrasonic atomizing sheet 6, the bottom of the inner wall of the outer sleeve 1 is connected to the second electrical connection terminal 83 of the electrode assembly 8 through threads, and the second electrode of the ultrasonic atomizing sheet 6 is electrically connected to the first electrical connection terminal 81 of the electrode assembly 8. The above assembly method is only an option. Obviously, the ultrasonic atomizing sheet 6, the elastic insulating seat 7 and the electrode assembly 8 may also be first mounted at the lower part of the inner cavity of the outer sleeve 1, and then the inner sleeve 2 mounted with the e-liquid guide cotton 4 is inserted into the outer sleeve 1 and clamped with the inner wall of the outer sleeve 1 tightly.

In the above embodiment, the elastic insulating seat 7 presses against the lower surface of the ultrasonic atomizing sheet 6, so that the ultrasonic atomizing sheet 6 can be prevented from being broken by squeezing or losing its atomizing function by means of the elasticity of the elastic insulating seat 7 itself In addition, as shown in FIG. 5, a mounting portion 71 may also be disposed in the elastic insulating seat 7, and the ultrasonic atomizing sheet 6 is mounted on the mounting portion 71 to prevent the ultrasonic atomizing sheet 6 from shaking after assembly to scratch or squeeze the side wall of the ultrasonic atomizing sheet 6.

As shown in FIGS. 6 and 7, an embodiment of an electronic cigarette atomizer according to the present invention includes an e-liquid tank device A accommodating the above-mentioned atomizing core C. An e-liquid tank A1 is disposed in the e-liquid tank device A, the e-liquid tank A1 is provided with an e-liquid outlet A11, and the e-liquid outlet A11 is connected to the first e-liquid passing port 11 on the atomizing sleeve 1 through the second e-liquid passing port 31 on the elastic insulating sleeve 3, so that e-liquid flows onto the e-liquid guide cotton 4 through the e-liquid outlet A11, the second e-liquid passing port 31 and the first e-liquid passing port 31, and then arrives at the atomization zone of the ultrasonic atomizing sheet 6 through the e-liquid guide cotton 4 to form smoke by ultrasonic atomization. The top of the e-liquid tank device A is provided with an e-liquid filling port A12, and the top of the e-liquid tank device A is provided with a suction nozzle device B. The suction nozzle device B is formed by connecting a suction nozzle cover B1 and an upper cover B2, two second air inlet channels B3 and two child lock structures B4 are disposed between the suction nozzle cover B1 and the upper cover B2, a suction nozzle B11 is disposed on the suction nozzle cover Bl, the suction nozzle B11 is connected to the air outlet cavity 26 of the inner sleeve 2 through an adapter B6 and a vent tube 9, the vent tube 9 is clamped and sealed by the boss 25 in the inner sleeve 2, a third air inlet channel B5 is respectively formed between the outer wall of the vent tube 9 and the suction nozzle device B and between the outer wall of the vent tube 9 and the e-liquid tank device A, and the second air inlet channels B3 are communicated with the first air inlet channels through the third air inlet channels B5.

As shown in FIGS. 8-11, each of the two child lock structures B4 includes a button B41 protruding from a shell of the suction nozzle device B, two limit bosses B21 and child lock mechanism mounting grooves B22 symmetrically formed at the bottom of the upper cover B2, and an arc-shaped limit step movement groove A13 and a locking leg movement groove A14 that are formed at the top of the e-liquid tank device A opposite to two limit steps B5, the arc-shaped limit step movement groove A13 and the locking leg movement groove A14 have a central angle of 90 degrees, the starting end of the locking leg movement groove A14 is provided with a clamping groove A141, two ends of the limit step movement groove A13 are respectively provided with a limit step A131, and the locking leg movement groove A14 has a depth greater than that of the limit step movement groove A13. The button B41 includes a locking leg B411 disposed at the bottom, and a second spring B412 abutting on the suction nozzle cover B1. After the e-liquid tank device A is combined with the suction nozzle device B, the two limit bosses B21 are respectively locked into the corresponding limit step movement grooves A13, and the locking legs B411 of the two buttons B41 pass through the child lock mechanism mounting grooves B22 and are snapped into the clamping grooves A141 of the locking leg movement grooves A14; when the e-liquid tank device A is aligned with the suction nozzle device B, the buttons B41 are clamped by the shell of the suction nozzle device B, and the two limit bosses B21 are limited by the limit steps A131 at the ends of the limit step movement grooves A13, so that the suction nozzle device B cannot rotate relative to the upper cover A1; when the two buttons B41 are simultaneously pressed down to break away from the limitation of the shell of the suction nozzle device B, the locking legs B411 break away from the limitations of the clamping grooves A141; when the suction nozzle device B rotates 90 degrees counterclockwise around the e-liquid tank device A, the locking legs B411 rotate counterclockwise in the locking leg movement grooves A14, and the limit bosses B21 rotate 90 degrees counterclockwise in the limit step movement grooves A13 to open the e-liquid filling port A12, which facilitates the filling of e-liquid; then the suction nozzle device B rotates 90 degrees clockwise around the e-liquid tank device A, the locking legs B411 rotate clockwise in the locking leg movement grooves A14 and are finally snapped into the clamping grooves A141, the buttons B41 are snapped into the shell of the suction nozzle device B, the limit bosses B21 rotate 90 degrees clockwise in the limit step movement grooves A13 and are finally limited by the limit steps A131 to close the e-liquid filling port A12, and the suction nozzle device B cannot rotate relative to the e-liquid tank device A.

The forgoing descriptions are only preferred embodiments of the present application, and do not limit the present application in any form. Although the present application is disclosed above with the preferred embodiments, the present application is not limited thereto. Some variations or modifications made by any skilled person familiar with the art using the disclosed technical contents without departing from the scope of the technical solution of the present application are equivalent to the embodiments, and all fall within the scope of the technical solution.

Claims

1. An electronic cigarette atomizing core, comprising: an outer sleeve (1) and an inner sleeve (2) which are sleeved on each other, wherein:an atomization cavity (10) is formed below the inner sleeve, and the outer sleeve is provided with a first e-liquid passing port (11);two ends of e-liquid guide cotton (4) are sandwiched between the outer sleeve and the inner sleeve, and the two ends of the e-liquid guide cotton cover the first e-liquid passing port; andthe inner sleeve is provided with an air supply groove (243) for delivering air to an e-liquid tank, one end of the air supply groove is communicated with the first e-liquid passing port, and the other end thereof is communicated with the atomization cavity.

2. The electronic cigarette atomizing core according to claim 1, wherein an inner cavity of the inner sleeve is provided with a boss (25) for sealing and clamping a vent tube (9), and an air outlet cavity (26) sequentially from top down.

3. The electronic cigarette atomizing core according to claim 1, wherein: the top of the inner sleeve is provided with two vents (22) symmetrically,the outer wall of the inner sleeve under the two vents is respectively provided with a vent groove (23) that reaches the bottom of the inner sleeve, andafter the outer sleeve and the inner sleeve are sleeved on each other, the inner wall of the outer sleeve and the vent grooves enclose two first air inlet channels.

4. The electronic cigarette atomizing core according to claim 3, wherein: the outer wall of the inner sleeve is symmetrically provided with e-liquid guide cotton mounting grooves (24) for mounting the e-liquid guide cotton,the e-liquid guide cotton mounting groove is provided with a clamping segment (241) at the upper part for clamping the e-liquid guide cotton and a loosening segment (242) at the lower part, andthe depth of the e-liquid guide cotton mounting groove at the clamping segment is less than that of the e-liquid guide cotton mounting groove at the loosening segment.

5. The electronic cigarette atomizing core according to claim 4, wherein the e-liquid guide cotton mounting grooves and the vent grooves are arranged alternatively.

6. The electronic cigarette atomizing core according to claim 1, wherein: the inner sleeve (2), the e-liquid guide cotton (4), the ultrasonic atomizing sheet (6), an elastic insulating seat (7) and an electrode assembly (8) are sequentially disposed in the inner cavity of the outer sleeve from top down;a first electrode is disposed on the upper surface of the ultrasonic atomizing sheet, and a second electrode is disposed on the lower surface of the ultrasonic atomizing sheet;the electrode assembly comprises a first electrical connection terminal (81) and a second electrical connection terminal (83) separated by an insulating ring (82); andthe first electrode of the ultrasonic atomizing sheet is electrically connected to the second electrical connection terminal of the electrode assembly via the outer sleeve, and the second electrode of the ultrasonic atomizing sheet is electrically connected to the first electrical connection terminal of the electrode assembly.

7. The electronic cigarette atomizing core according to claim 1, wherein: the upper part of the inner wall of the outer sleeve is provided with a support portion (13),the top of the outer wall of the inner sleeve is provided with a step (21), andthe step is supported by the support portion.

8. The electronic cigarette atomizing core according to claim 6, wherein the lower part of the inner wall of the outer sleeve is provided with a resisting portion (14) for resisting the first electrode of the ultrasonic atomizing sheet.

9. The electronic cigarette atomizing core according to claim 8, wherein a yielding portion (15) for preventing the side wall of the ultrasonic atomizing sheet from being broken due to squeezing, surrounds the periphery of the resisting portion.

10. An electronic cigarette atomizer, comprising: an e-liquid tank device (A) and a suction nozzle device (B) which are connected and fixed into a whole and are rotatable relatively, wherein:an e-liquid tank is disposed inside the e-liquid tank device,the suction nozzle device is provided with second air inlet channels (B3) and a suction nozzle (B11),the electronic cigarette atomizing core according to claim 1 is disposed in the e-liquid tank device,a vent tube (9) is disposed between the suction nozzle and the boss of the inner sleeve,a third air inlet channel (B3) is respectively formed between the outer wall of the vent tube and the suction nozzle device and between the outer wall of the vent tube and the e-liquid tank device, andthe second air inlet channels are communicated with the first air inlet channels through the third air inlet channels.