ULTRASONIC ATOMIZATION CORE, ULTRASONIC ATOMIZER, AND ULTRASONIC ELECTRONIC CIGARETTE

Abstract

An ultrasonic atomization core (17), an ultrasonic atomizer, and an ultrasonic electronic cigarette are disclosed. The ultrasonic atomization core (17) comprises an atomization sleeve (1). The atomization sleeve is provided with an ultrasonic atomization sheet (2) and e-liquid guide cotton (3) that communicates the outside with an atomization surface of the ultrasonic atomization sheet (2). The atomization surface of the ultrasonic atomization sheet (2) is a concave surface. The e-liquid guide cotton (3) has a convex surface corresponding to the atomization surface. The curvature of the convex surface of the e-liquid guide cotton (3) is greater than or equal to the curvature of the atomization surface of the ultrasonic atomization sheet (2). The convex surface of the e-liquid guide cotton (3) is in contact with the atomization surface of the ultrasonic atomization sheet (2).

Claims

1. An ultrasonic atomization core, comprising: an atomization sleeve (1), wherein: the atomization sleeve (1) is provided with an ultrasonic atomization sheet (2) and e-liquid guide cotton (3) that communicates the outside with an atomization surface of the ultrasonic atomization sheet (2), the atomization surface of the ultrasonic atomization sheet (2) is a concave surface, the e-liquid guide cotton (3) has a convex surface corresponding to the atomization surface, the curvature of the convex surface of the e-liquid guide cotton (3) is greater than or equal to the curvature of the atomization surface of the ultrasonic atomization sheet (2), and the convex surface of the e-liquid guide cotton (3) is in contact with the atomization surface of the ultrasonic atomization sheet (2).

2. The ultrasonic atomization core according to claim 1, wherein: the ultrasonic atomization sheet (2) is spherical, the e-liquid guide cotton (3) has a spherical portion (301), the curvature of the spherical portion (301) of the e-liquid guide cotton (3) is greater than or equal to the curvature of the spherical ultrasonic atomization sheet (2), and the convex surface of the spherical portion (301) of the e-liquid guide cotton (3) is in contact with the concave surface of the ultrasonic atomization sheet (2).

3. The ultrasonic atomization core according to claim 2, wherein the central axis of the spherical portion (301) of the e-liquid guide cotton (3) is collinear with the central axis of the ultrasonic atomization sheet (2).

4. The ultrasonic atomization core according to claim 2, further comprising an inner sleeve (4) sleeved in the atomization sleeve (1), wherein: the e-liquid guide cotton (3) further comprises a hollow cylindrical portion (302), the hollow cylindrical portion (302) is connected with the spherical portion (301) to form a cup-shaped structure, the hollow cylindrical portion (302) is sandwiched between the atomization sleeve (1) and the inner sleeve (4), and the atomization sleeve (1) is provided with a through hole (101) that communicates the hollow cylindrical portion (302) with the outside.

5. The ultrasonic atomization core according to claim 4, further comprising a cotton pressing structure (5), wherein: one end of the cotton pressing structure (5) abuts against the inner sleeve (4), and the other end of the cotton pressing structure (5) abuts against the concave surface of the spherical portion (301) of the e-liquid guide cotton (3).

6. The ultrasonic atomization core according to claim 5, wherein: the cotton pressing structure (5) comprises a ring portion (501) and at least three first elastic strands (502), fixed ends of the first elastic strands (502) are connected with the ring portion (501), free ends of the first elastic strands (502) abut against the spherical portion (301) of the e-liquid guide cotton (3), and the ring portion (501) abuts against the inner sleeve (4).

7. The ultrasonic atomization core according to claim 6, wherein: the first elastic strands (502) are uniformly arranged along the circumference of the ring portion (501), and the free ends of the first elastic strands (502) are arc-shaped and attached to the concave surface of the spherical portion (301) of the e-liquid guide cotton (3).

8. An ultrasonic atomizer, comprising: a housing (6), wherein a ultrasonic atomization core (17) is arranged in the housing (6), the ultrasonic atomization core comprising: an atomization sleeve (1), wherein: the atomization sleeve (1) is provided with an ultrasonic atomization sheet (2) and e-liquid guide cotton (3) that communicates the outside with an atomization surface of the ultrasonic atomization sheet (2), the atomization surface of the ultrasonic atomization sheet (2) is a concave surface, the e-liquid guide cotton (3) has a convex surface corresponding to the atomization surface, the curvature of the convex surface of the e-liquid guide cotton (3) is greater than or equal to the curvature of the atomization surface of the ultrasonic atomization sheet (2), and the convex surface of the e-liquid guide cotton (3) is in contact with the atomization surface of the ultrasonic atomization sheet (2).

9. The ultrasonic atomizer according to claim 8, wherein: the ultrasonic atomization sheet (2) is spherical, the e-liquid guide cotton (3) has a spherical portion (301), the curvature of the spherical portion (301) of the e-liquid guide cotton (3) is greater than or equal to the curvature of the spherical ultrasonic atomization sheet (2), and the convex surface of the spherical portion (301) of the e-liquid guide cotton (3) is in contact with the concave surface of the ultrasonic atomization sheet (2); and the housing (6) is provided with an elastic electrode (7) that abuts against the convex surface of the ultrasonic atomization sheet (2).

10. The ultrasonic atomizer according to claim 9, wherein: the elastic electrode (7) comprises a cylindrical portion (701) and at least three second elastic strands (702), fixed ends of the second elastic strands (702) are connected with the cylindrical portion (701), and free ends of the second elastic strands (702) abut against the convex surface of the ultrasonic atomization sheet (2).

11. The ultrasonic atomizer according to claim 10, wherein: the second elastic strands (702) are uniformly arranged on an end surface of the cylindrical portion (701), and the free ends of the second elastic strands (702) are arc-shaped and attached to the convex surface of the ultrasonic atomization sheet (2).

12. The ultrasonic atomizer according to claim 8, wherein: the atomization core (17) is connected to the housing (6) through a connecting sleeve (8); the housing (6) comprises a top cover (601), a base (602), and a bottom cover (603) that are connected in sequence, the base (602) is detachably connected to the bottom cover (603), a middle section of the outer side wall of the atomization core (17) is in clearance fit with the inner side wall of the base (602), an upper section of the outer side wall of the atomization core (17) is provided with an external threaded portion (1701), and the inner side wall of the connecting sleeve (8) is provided with an internal threaded portion (801) matching the external threaded portion (1701).

13. The ultrasonic atomizer according to claim 12, wherein: an e-liquid bin (10) is arranged in the top cover (601), and the atomization sleeve (1) is provided with a through hole (101) that communicates the e-liquid guide cotton (3) with the e-liquid bin (10); and a middle section of the outer side wall of the atomization sleeve (1) is in clearance fit with the inner side wall of the base (602), and the external threaded portion (1701) is arranged on an upper section of the outer side wall of the atomization sleeve (1).

14. The ultrasonic atomizer according to claim 13, wherein: the connecting sleeve (8) has a baffle portion (802) opposite to an upper part of the through hole (101), and an e-liquid passing gap (18) that communicates the e-liquid bin (10) with the through hole (101) is formed between the baffle portion (82) and the atomization sleeve (1).

15. The ultrasonic atomizer according to claim 13, wherein: a top of the top cover (601) is provided with a suction nozzle (9) that is axially rotatable about the axis of the top cover, and the suction nozzle (9) is provided with an e-liquid injection hole (902) that can be aligned or misaligned with an e-liquid passing hole (1001) of the e-liquid bin (10); the ultrasonic atomizer further comprises a driving mechanism, and the rotation of the suction nozzle (9) drives the connecting sleeve (8) through the driving mechanism to move axially along an electronic cigarette to open or close the through hole (101); the inner side wall of the connecting sleeve (8) has an inner smooth portion (84) above the internal threaded portion (801), and the outer side wall of the atomization sleeve (1) has an outer smooth portion (102) below the external threaded portion (1701); and when the connecting sleeve (8) moves axially along the electronic cigarette, the inner smooth portion (804) is opposite to the external threaded portion (1701), and the outer smooth portion (102) is opposite to the internal threaded portion (801).

16. The ultrasonic atomizer according to claim 15, wherein: the driving mechanism comprises a fixing sleeve (19), an upper section of the fixing sleeve (19) is fixedly connected with the suction nozzle (9), a lower section of the fixing sleeve (19) passes through an air guide hole (1002) on the e-liquid bin (10) and is in clearance fit with the e-liquid bin (10), a top section of the outer side wall of the connecting sleeve (8) is screwed with a top section of the inner side wall of the fixing sleeve (19), a middle section of the outer side wall of the connecting sleeve (8) has an outer limit plane (803) that limits the circumferential rotation of the connecting sleeve (8), and the inner side wall of the air guide hole (1002) has an inner limit plane (1003) corresponding to the outer limit plane (803).

17. An ultrasonic electronic cigarette, comprising an ultrasonic atomizer, the ultrasonic atomizer comprising: a housing (6), wherein a ultrasonic atomization core (17) is arranged in the housing (6), the ultrasonic atomization core comprising: an atomization sleeve (1), wherein: the atomization sleeve (1) is provided with an ultrasonic atomization sheet (2) and e-liquid guide cotton (3) that communicates the outside with an atomization surface of the ultrasonic atomization sheet (2), the atomization surface of the ultrasonic atomization sheet (2) is a concave surface, the e-liquid guide cotton (3) has a convex surface corresponding to the atomization surface, the curvature of the convex surface of the e-liquid guide cotton (3) is greater than or equal to the curvature of the atomization surface of the ultrasonic atomization sheet (2), and the convex surface of the e-liquid guide cotton (3) is in contact with the atomization surface of the ultrasonic atomization sheet (2).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0047] FIG. 1 is a structure diagram of an embodiment of an ultrasonic atomization core.

[0048] FIG. 2 is a structure diagram of a cotton pressing structure.

[0049] FIG. 3 is a schematic diagram of an e-liquid direction on e-liquid guide cotton.

[0050] FIG. 4 is a schematic diagram of a smoke direction of the ultrasonic atomization core.

[0051] FIG. 5 is a structure diagram of an embodiment of an ultrasonic atomizer.

[0052] FIG. 6 is an exploded view of the upper part in FIG. 5.

[0053] FIG. 7 is an exploded view of the lower part in FIG. 5.

[0054] FIG. 8 is a structure diagram of an elastic electrode.

[0055] FIG. 9 is a diagram showing the positional relationship between an ultrasonic atomization sheet and the elastic electrode.

[0056] FIG. 10 is a structure diagram of another embodiment of an ultrasonic atomizer.

[0057] FIG. 11 is a schematic external view of FIG. 10.

[0058] FIG. 12 is an exploded view of the upper part in FIG. 10.

[0059] FIG. 13 is an exploded view of the lower part in FIG. 10.

[0060] FIG. 14 is a schematic diagram of a structure at an air guide hole of an e-liquid bin.

[0061] FIG. 15 is a schematic structural diagram showing that a bottom cover is opened to remove the atomization core.

[0062] In the figures: 1 atomization sleeve, 101 through hole, 102 outer smooth portion, 2 ultrasonic atomization sheet, 3 e-liquid guide cotton, 301 spherical portion, 302 hollow cylindrical portion, 4 inner sleeve, 5 cotton pressing structure, 501 ring portion, 502 first elastic strand, 6 housing, 601 top cover, 602 base, 6021 hook, 603 bottom cover, 6031 clamping groove, 7 elastic electrode, 701 cylindrical portion, 702 second elastic strand, 8 connecting sleeve, 801 internal threaded portion, 802 baffle portion, 803 outer limit plane, 804 inner smooth portion, 9 suction nozzle, 901 air inlet, 902 e-liquid injection hole, 10 e-liquid bin, 1001 e-liquid passing hole, 1002 air guide hole, 1003 inner limit plane, 11 sealing gasket, 12 silica gel seat, 13 electrode ring, 14 air pipe, 15 air outlet passage, 16 protective sheet, 17 atomization core, 1701 external threaded portion, 18 e-liquid passing gap, 19 fixing sleeve, 20 sealing ring.

DETAILED DESCRIPTION OF EMBODIMENTS

Embodiment 1

[0063] As shown in FIGS. 1 to 4, an ultrasonic atomization core 17 comprises an atomization sleeve 1, an ultrasonic atomization sheet 2 and e-liquid guide cotton 3 that communicates the outside with an atomization surface of the ultrasonic atomization sheet 2 are arranged in the atomization sleeve 1, the ultrasonic atomization sheet 2 is spherical, the e-liquid guide cotton 3 has a spherical portion 301, the curvature of the spherical portion 301 of the e-liquid guide cotton 3 is greater than or equal to the curvature of the spherical ultrasonic atomization sheet 2, and a convex surface of the spherical portion 301 of the e-liquid guide cotton 3 is in contact with a concave surface of the ultrasonic atomization sheet 2. The central axis of the spherical portion 301 of the e-liquid guide cotton 3 is collinear with the central axis of the ultrasonic atomization sheet 2.

[0064] The ultrasonic atomization sheet 2 is spherical, and when the ultrasonic atomization sheet 2 is working, liquid smoke generation matters atomized by ultrasonic are splashed around. When splashed droplets are accumulated on the spherical surface of the ultrasonic atomization sheet 2, the droplets can slide down to the center position of the ultrasonic atomization sheet 2 along with the spherical surface, and be recovered and atomized again. The e-liquid guide cotton 3 has a spherical portion 301 in contact with the concave surface of the ultrasonic atomization sheet 2, and when the ultrasonic atomization sheet 2 is working, the splashed droplets are directly absorbed by the spherical portion 301, so there are more liquid smoke generation matters on the spherical contact surface of the e-liquid guide cotton 3, and the smoke generation matters are guided more easily under the effect of gravity generated due to the curvature of the spherical surface and flow to the center position of the ultrasonic atomization sheet 2 more easily, so that the center position of the ultrasonic atomization sheet 2 with a higher temperature can be timely replenished with liquid, the temperature of the center position of the ultrasonic atomization sheet 2 can be reduced, the e-liquid guide cotton 3 can be prevented from being burnt through due to excessive temperature at the center position of the ultrasonic atomization sheet 2, the ultrasonic atomization sheet 2 would not be burnt out and has good working continuity and good atomization effect, and the e-liquid guide cotton 3 and the ultrasonic atomization sheet 2 have long service lives. Meanwhile, the area of spherical contact surface between the e-liquid guide cotton 3 and the ultrasonic atomization sheet 2 is larger, and more smoke is generated by means of atomization. The direction of smoke atomization is shown in FIG. 4. In addition, because the spherical ultrasonic atomization sheet 2 has the function of focusing energy, the required working power is low and the power endurance is strong.

[0065] The curvature of the spherical portion 301 of the e-liquid guide cotton 3 may be greater than or equal to the curvature of the spherical ultrasonic atomization sheet 2. When the curvature of the spherical portion 301 of the e-liquid guide cotton 3 is equal to the curvature of the spherical ultrasonic atomization sheet 2, the liquid smoke generation matters are guided more easily on the spherical contact surface. As shown in FIG. 3, when the curvature of the spherical portion 301 of the e-liquid guide cotton 3 is greater than the curvature of the spherical ultrasonic atomization sheet 2, a part of the liquid smoke generation matters remains in the gap between the spherical portion 301 of the e-liquid guide cotton 3 and the atomization surface of the ultrasonic atomization sheet 2, so that the liquid smoke generation matters can flow to the center of the ultrasonic atomization sheet 2 more easily, and the effects of liquid guide and atomization are better.

[0066] The ultrasonic atomization core 17 further comprises an inner sleeve 4 sleeved in the atomization sleeve 1, the e-liquid guide cotton 3 further comprises a hollow cylindrical portion 302, the hollow cylindrical portion 302 is connected with the spherical portion 301 to form a cup-shaped structure, the hollow cylindrical portion 302 is sandwiched between the atomization sleeve 1 and the inner sleeve 4, and the atomization sleeve 1 is provided with a through hole 101 that communicates the hollow cylindrical portion 302 with the outside.

[0067] The ultrasonic atomization core 17 further comprises a cotton pressing structure 5, one end of the cotton pressing structure 5 abuts against the inner sleeve 4, and the other end of the cotton pressing structure 5 abuts against the concave surface of the spherical portion 301 of the e-liquid guide cotton 3. The cotton pressing structure 5 can ensure reliable contact between the e-liquid guide cotton 3 and the atomization surface.

[0068] The cotton pressing structure 5 comprises a ring portion 501 and four first elastic strands 502, fixed ends of the first elastic strands 502 are connected with the ring portion 501, and free ends of the first elastic strands 502 abut against the spherical portion 301 of the e-liquid guide cotton 3. The first elastic strands 502 are uniformly arranged along the circumference of the ring portion 501, the free ends of the first elastic strands 502 are arc-shaped and attached to the concave surface of the spherical portion 301 of the e-liquid guide cotton 3, and the ring portion 501 abuts against the inner sleeve 4, so that the e-liquid guide cotton 3 is uniformly stressed.

[0069] As shown in FIGS. 5-9, an ultrasonic atomizer comprises a housing 6 in which the ultrasonic atomization core 17 is arranged.

[0070] The housing 6 is provided with an elastic electrode 7 that abuts against the convex surface of the ultrasonic atomization sheet 2.

[0071] The elastic electrode 7 comprises a cylindrical portion 701 and four second elastic strands 702, fixed ends of the second elastic strands 702 are connected with the cylindrical portion 701, and free ends of the second elastic strands 702 abut against the convex surface of the ultrasonic atomization sheet 2. The second elastic strands 702 are uniformly arranged on an end surface of the cylindrical portion 701, and the free ends of the second elastic strands 702 are arc-shaped and attached to the convex surface of the ultrasonic atomization sheet 2. The elastic electrode 7 with the above-mentioned structure can ensure that four sides of the ultrasonic atomization sheet 2 are stressed uniformly, can prevent the ultrasonic atomization sheet 2 from being broken due to a single direction of force applied thereto, and it is easy to assemble the ultrasonic atomization sheet 2.

[0072] The housing 6 comprises a top cover 601, a base 602 and a bottom cover 603 that are connected in sequence.

[0073] The atomization core 17 is connected with the top cover 601 through a connecting sleeve 8 and arranged in the top cover 601.

[0074] A top of the top cover 601 is provided with a rotatable suction nozzle 9. The suction nozzle 9 is provided with an air inlet 901 and an e-liquid injection hole 902.

[0075] An e-liquid bin 10 is arranged in the top cover 601. The through hole 101 communicates the hollow cylindrical portion 302302 with the e-liquid bin 10. The suction nozzle 9 is rotated, making the e-liquid injection hole 902 to align or misalign with an e-liquid passing hole 1001 of the e-liquid bin 10, to open or close the e-liquid bin 10 for injecting e-liquid.

[0076] A sealing gasket 11 is arranged between the e-liquid bin 10 and the suction nozzle 9.

[0077] The ultrasonic atomization sheet 2 is fixed in the bottom cover 603 through a silica gel seat 12.

[0078] The elastic electrode 7 is arranged at the bottom of the bottom cover 603. The bottom cover 603 is further provided with an electrode ring 13. A protective sheet 16 is arranged in the bottom cover 603.

[0079] An air pipe 14 is arranged in the housing 6, one end of the air pipe 14 is connected with the suction nozzle 9 and communicated with the air inlet 901, and the other end of the air pipe 14 extends into the inner sleeve 4 and is opposite to the concave surface of the spherical portion 301 of the e-liquid guide cotton 3. The air inlet 901, the air pipe 14, the concave surface of the spherical portion 301 of the e-liquid guide cotton 3, an air outlet passage 15, and the suction nozzle 9 are communicated in sequence.

Embodiment 2

[0080] As shown in FIGS. 10-15, an ultrasonic atomizer in an ultrasonic electronic cigarette comprises a housing 6, an atomization core 17 is arranged in the housing 6, and the atomization core 17 is connected to the housing 6 through a connecting sleeve 8; the housing 6 comprises a top cover 601, a base 602 and a bottom cover 603 connected in sequence, the base 602 is detachably connected with the bottom cover 603, a middle section of the outer side wall of the atomization core 17 is in clearance fit with the inner side wall of the base 602, an upper section of the outer side wall of the atomization core 17 is provided with an external threaded portion 1701, and the inner side wall of the connecting sleeve 8 is provided with an internal threaded portion 801 matching the external threaded portion 1701. When the atomization core 17 is assembled, the external threaded portion 1701 is fixedly connected to the internal threaded portion 801. When the atomization core 17 is removed, the bottom cover 603 is removed from the base 602 to expose a lower section of the atomization core 17, and the lower section of the atomization core 17 is held by hand and rotated to take out the atomization core 17 from the housing 6 of the atomizer, so that the atomization core 17 is replaced separately, the discard of the whole atomizer is avoided when the atomization core 17 is damaged, and the use cost is reduced.

[0081] In this embodiment, the bottom cover 603 is connected with the base 602 by a hook, the inner side wall of the bottom cover 603 is provided with a clamping groove 6031, and the outer side wall of the base 602 is provided with a hook 6021 matching the clamping groove 6031. When the atomization core 17 is removed, the bottom cover 603 is pulled out first to separate the clamping groove 6031 from the hook 6021, and then the atomization core 17 can be removed, which can protect the atomization core 17 from external dust pollution and improve the purity of smoke.

[0082] A bottom end of the atomization core 17 abuts against an inner bottom surface of the bottom cover 603. The bottom end of the atomization core 17 abuts against the inner bottom surface of the bottom cover 603, so that the atomization core 17 has better electrical connection stability after assembly.

[0083] An e-liquid bin 10 is arranged in the top cover 601, the atomization core 17 comprises an atomization sleeve 1, an ultrasonic atomization sheet 2 and e-liquid guide cotton 3 connected with an atomization surface of the ultrasonic atomization sheet 2 are arranged in the atomization sleeve 1, and the atomization sleeve 1 is provided with a through hole 101 that communicates the e-liquid guide cotton 3 with the e-liquid bin 10; a middle section of the outer side wall of the atomization sleeve 1 is in clearance fit with the inner side wall of the base 602, and the external threaded portion 1701 is arranged on an upper section of the outer side wall of the atomization sleeve 1.

[0084] The connecting sleeve 8 has a baffle portion 802 opposite to an upper part of the through hole 101, and an e-liquid passing gap 18 that communicates the e-liquid bin 10 with the through hole 101 is formed between the baffle portion 802 and the atomization sleeve 1.

[0085] During normal smoking, the baffle portion 802 does not completely cover the through hole 101, and e-liquid in the e-liquid bin 10 passes through the e-liquid passing gap 18 and the through hole 101 in sequence to supply e-liquid for the e-liquid guide cotton 3. When the atomization core 17 is removed, the e-liquid at the through hole 101 slowly flows through the baffle portion 802 and flows into the e-liquid bin 10 with the removal of the atomization core 17, so as to prevent e-liquid leakage when the atomization core 17 is removed. Due to the baffle portion 802, when the atomization core 17 is removed, a lot of e-liquid can be stored in the e-liquid bin 10, which prevents the e-liquid from overflowing.

[0086] A top of the top cover 601 is provided with a suction nozzle 9 that is axially rotatable about the axis of the top cover, and the suction nozzle 9 is provided with an e-liquid injection hole 902 that can be aligned or misaligned with the e-liquid passing hole 1001 of the e-liquid bin 10.

[0087] The suction nozzle 9 is rotated to make the e-liquid injection hole 902 to align or misalign with the e-liquid passing hole 1001 to open or close the e-liquid bin 10 for injecting e-liquid.

[0088] The atomizer further comprises a driving mechanism, and the rotation of the suction nozzle 9 drives the connecting sleeve 8 through the driving mechanism to move axially along the electronic cigarette to open or close the through hole 101; the inner side wall of the connecting sleeve 8 has an inner smooth portion 804 above the internal threaded portion 801, and the outer side wall of the atomization sleeve 1 has an outer smooth portion 102 below the external threaded portion 1701; when the connecting sleeve 8 moves axially along the electronic cigarette, the inner smooth portion 804 is opposite to the external threaded portion 1701, and the outer smooth portion 102 is opposite to the internal threaded portion 801, so that the connecting sleeve 8 would not get stuck and fail to close or open the through hole 101, and the atomization core 17 would not be separated from the e-liquid bin or shake due to the axial movement of the connecting sleeve 8.

[0089] When e-liquid is to be injected, the suction nozzle 9 is rotated to open the e-liquid passing hole 1001 on the e-liquid bin 10, and the rotation of the suction nozzle 9 drives the connecting sleeve 8 through the driving mechanism to move axially to close the through hole 101, so as to prevent e-liquid leakage during e-liquid injection. After the e-liquid is injected, the suction nozzle 9 is rotated to close the e-liquid passing hole 1001 on the e-liquid bin 10, and the rotation of the suction nozzle 9 drives the connecting sleeve 8 through the driving mechanism to move axially to open the through hole 101, so as to normally guide e-liquid for smoking.

[0090] The driving mechanism comprises a fixing sleeve 19, an upper section of the fixing sleeve 19 is fixedly connected with the suction nozzle 9, a lower section of the fixing sleeve 19 passes through an air guide hole 1002 on the e-liquid bin 10 and is in clearance fit with the e-liquid bin 10, a top section of the outer side wall of the connecting sleeve 8 is screwed with a top section of the inner side wall of the fixing sleeve 19, a middle section of the outer side wall of the connecting sleeve 8 has an outer limit plane 803 that limits the circumferential rotation of the connecting sleeve 8, and the inner side wall of the air guide hole 1002 has an inner limit plane 1003 corresponding to the outer limit plane 803.

[0091] The upper section of the fixing sleeve 19 is in clearance fit with the suction nozzle 9, the lower section of the fixing sleeve 19 is arranged in the air guide hole 1002, the fixing sleeve 19 can rotate circumferentially relative to the e-liquid bin 10, and the rotation of the suction nozzle 9 can drive the fixing sleeve 19 to rotate circumferentially relative to the e-liquid bin 10. Due to the coordination of the outer limit plane 803 and the inner limit plane 1003, the circumferential rotation of the connecting sleeve 8 is limited. Therefore, when the suction nozzle 9 is rotated, the fixing sleeve 19 rotates and the fixing sleeve 19 is axially fixed, which drives the connecting sleeve 8 to move up and down relative to the e-liquid bin 10, that is, when the suction nozzle 9 is rotated, the connecting sleeve 8 moves axially along the electronic cigarette to open or close the through hole 101.

[0092] The ultrasonic atomization sheet 2 is spherical, the e-liquid guide cotton 3 has a spherical portion 301, the curvature of the spherical portion 301 of the e-liquid guide cotton 3 is greater than or equal to the curvature of the spherical ultrasonic atomization sheet 2, and the convex surface of the spherical portion 301 of the e-liquid guide cotton 3 is in contact with the concave surface of the ultrasonic atomization sheet 2.

[0093] Since the ultrasonic atomization sheet 2 is spherical, and the e-liquid guide cotton 3 has a spherical portion 301 in contact with the concave surface of the ultrasonic atomization sheet 2, the e-liquid guide cotton 3 guides e-liquid more easily on the spherical contact surface, the e-liquid can flow to the center position of the ultrasonic atomization sheet 2 more easily, the center position of the ultrasonic atomization sheet 2 with a higher temperature can be timely replenished with liquid, the temperature of the center position of the ultrasonic atomization sheet 2 can be reduced, the e-liquid guide cotton 3 can be prevented from being burnt through due to excessive temperature at the center position of the ultrasonic atomization sheet 2, the ultrasonic atomization sheet 2 would not be dried out, the atomization effect is good, and the e-liquid guide cotton 3 and the ultrasonic atomization sheet 2 have long service lives. Meanwhile, the area of spherical contact surface between the e-liquid guide cotton 3 and the ultrasonic atomization sheet 2 is larger, and more smoke is generated by means of atomization. The direction of smoke atomization is shown in FIG. 4. In addition, because the spherical ultrasonic atomization sheet 2 has the function of focusing energy, the required working power is low and the power endurance is strong.

[0094] The curvature of the spherical portion 301 of the e-liquid guide cotton 3 may be greater than or equal to the curvature of the spherical ultrasonic atomization sheet 2. When the curvature of the spherical portion 301 of the e-liquid guide cotton 3 is equal to the curvature of the spherical ultrasonic atomization sheet 2, the e-liquid is guided faster on the spherical contact surface. As shown in FIG. 3, when the curvature of the spherical portion 301 of the e-liquid guide cotton 3 is greater than the curvature of the spherical ultrasonic atomization sheet 2, a certain gap is formed when the spherical portion 301 of the e-liquid guide cotton 3 is in contact with the concave surface of the ultrasonic atomization sheet 2, and a part of the e-liquid remains in the gap, so that the e-liquid can flow to the center of the ultrasonic atomization sheet 2 more easily, and the effects of liquid guide and atomization are better.

[0095] The central axis of the spherical portion 301 of the e-liquid guide cotton 3 is collinear with the central axis of the ultrasonic atomization sheet 2.

[0096] The atomizer further comprises an inner sleeve 4 sleeved in the atomization sleeve 1, the e-liquid guide cotton 3 further comprises a hollow cylindrical portion 302, the hollow cylindrical portion 302 is connected with the spherical portion 301 to form a cup-shaped structure, the hollow cylindrical portion 302 is sandwiched between the atomization sleeve 1 and the inner sleeve 4, and the atomization sleeve 1 is provided with a through hole 101 that communicates the hollow cylindrical portion 302 with the outside.

[0097] The atomizer further comprises a cotton pressing structure 5, one end of the cotton pressing structure 5 abuts against the inner sleeve 4, and the other end of the cotton pressing structure 5 abuts against the concave surface of the spherical portion 301 of the e-liquid guide cotton 3. The cotton pressing structure 5 is a spring.

[0098] The cotton pressing structure 5 can ensure reliable contact between the e-liquid guide cotton 3 and the atomization surface.

[0099] A sealing ring 20 is arranged between the outer side wall of the atomization sleeve 1 and the inner side wall of the base 602 to prevent e-liquid leakage of the e-liquid bin.

[0100] The bottom cover 603 is provided with an elastic electrode 7 that abuts against the convex surface of the ultrasonic atomization sheet 2.

[0101] The suction nozzle 9 is provided with an air inlet 901.

[0102] A sealing gasket 11 is arranged between the e-liquid bin 10 and the suction nozzle 9.

[0103] The ultrasonic atomization sheet 2 is fixed in the bottom cover 603 through a silica gel seat 12.

[0104] The elastic electrode 7 is arranged at the bottom of the bottom cover 603. The bottom cover 603 is further provided with an electrode ring 13. A protective sheet 16 is arranged in the bottom cover 603.

[0105] An air pipe 14 is arranged in the housing 6, one end of the air pipe 14 is connected with the suction nozzle 9 and communicated with the air inlet 901, and the other end of the air pipe 14 extends into the inner sleeve 4 and is opposite to the concave surface of the spherical portion 301 of the e-liquid guide cotton 3. The air inlet 901, the air pipe 14, the concave surface of the spherical portion 301 of the e-liquid guide cotton 3, an air outlet passage 15, and the suction nozzle 9 are communicated in sequence.

[0106] The embodiments of the present invention are described above with reference to the drawings, but the present invention is not limited to the specific embodiments. The specific embodiments described above are merely illustrative but not limited. Many forms may also be made by those of ordinary skill in the art under the enlightenment of the present invention without departing from the purpose of the present invention and the scope of the claims, and all these forms fall into the scope of the present invention.