CN110623299B - Electron smog spinning disk atomiser and this electron cigarette - Google Patents

Abstract

The invention discloses an electronic cigarette atomizer and an electronic cigarette, wherein the atomizer comprises an air inlet, an air inlet channel, an atomizing cavity, an air outlet channel, an air outlet and a suction nozzle which are sequentially communicated, and further comprises a shell and an adjusting mechanism for adjusting the air inflow of the air inlet; the air inlet channel, the atomizing cavity and the air outlet channel are all arranged in the shell, and a top cover is arranged at the top of the shell; the adjusting mechanism comprises a movable piece which is positioned in the top cover and can axially move along the top cover, an air passing hole which is communicated with the air inlet and the air inlet channel is formed in the movable piece, and when the movable piece axially moves along the top cover, the air passing hole on the movable piece moves in a dislocation manner relative to the air inlet to adjust the air inflow entering the air inlet channel; the suction nozzle is sleeved outside the top cover and can rotate relative to the top cover; the suction nozzle rotates to drive the movable piece to axially move along the top cover. The invention can be quickly and conveniently adjusted to the required air flow, has good sealing performance, does not influence the smoke outlet effect in the adjusting process, and can not suck tobacco tar.

Description

Electron smog spinning disk atomiser and this electron cigarette

Technical Field

The invention particularly relates to an electronic cigarette atomizer and an electronic cigarette.

Background

In the electronic cigarette atomizer, an air inlet channel, an atomizing cavity, an air outlet channel, an air outlet and a suction nozzle are sequentially communicated. When smoking, air enters the atomizing cavity from the air inlet through the air inlet channel, takes away the smoke in the atomizing cavity, and then sequentially enters the oral cavity of a user through the air outlet channel, the air outlet and the suction nozzle for the user to inhale.

In the prior art, in order to meet the requirements of users with different vital capacities on the size of smoking airflow, an air regulating ring is generally arranged at an air inlet, and the size of the air inlet is regulated by using the air regulating ring. This adjustment has the following disadvantages:

First, in rotatory gas ring in-process of transferring, transfer the sealing washer between gas ring and the air inlet and fold deformation easily, sealing performance is poor, inconvenient regulation, and the area of transferring the handheld portion of gas ring is very little, is difficult to put effort and is difficult to control the regulation dynamics, leads to hardly adjusting the air input of needs, and user experience is poor.

Secondly, in the process of rotating the air adjusting ring, the relative position between the outlet of the air inlet channel and the atomizing cavity is unchanged. When the air inflow is regulated down, the airflow speed in the atomization cavity is slowed down due to the increase of smoking resistance, so that the smoke outlet effect is weakened, the smoke concentration is reduced, and the use is influenced.

Thirdly, no tobacco tar recovery structure is arranged at the suction nozzle, so that the tobacco tar is easy to accumulate, and the tobacco tar is sucked.

Disclosure of Invention

In the existing electronic cigarette atomizer, the air inflow is adjusted by utilizing the air adjusting ring, so that the adjustment is inconvenient, time and labor are wasted, and the sealing performance is poor; the smoke outlet effect is affected in the adjusting process; the tobacco tar recovery structure is not arranged, so that tobacco tar is easy to suck. The invention aims to overcome the defects in the prior art, and provides the electronic cigarette atomizer and the electronic cigarette, which can be quickly and conveniently adjusted to the required air flow, have good sealing performance, do not influence the smoke outlet effect in the adjusting process, and can not suck tobacco tar.

In order to solve the technical problems, the invention adopts the following technical scheme:

an electronic cigarette atomizer comprises an air inlet, an air inlet channel, an atomizing cavity, an air outlet channel, an air outlet and a suction nozzle which are sequentially communicated, and further comprises a shell and an adjusting mechanism for adjusting the air inflow of the air inlet; the air inlet channel, the atomizing cavity and the air outlet channel are all arranged in the shell, and a top cover is arranged at the top of the shell; the adjusting mechanism is characterized by comprising a movable part which is positioned in the top cover and can axially move along the top cover, wherein the movable part is provided with an air passing hole which is communicated with the air inlet and the air inlet channel, and when the movable part axially moves along the top cover, the air passing hole on the movable part moves in a dislocation manner relative to the air inlet to adjust the air inflow entering the air inlet channel.

By means of the structure, the axial movement of the movable piece is linear movement, and when the movable piece axially moves along the top cover, the air passing hole on the movable piece moves in a staggered manner relative to the air inlet, so that the air inlet area is changed, and the air inlet amount of the air inlet is adjusted; the adjustment is convenient and quick, the sealing performance is good, the linear motion stability is good, and the phenomenon of jamming does not occur.

Further, the suction nozzle is sleeved outside the top cover and can rotate relative to the top cover; the suction nozzle rotates to drive the movable piece to axially move along the top cover.

By means of the structure, the movable piece can be moved by rotating the suction nozzle, and stepless adjustment of air flow of the air inlet is achieved. Because the hand-held area of the suction nozzle is large, the rotating force in the rotating process can be conveniently controlled, and the operation is simple and reliable.

Further, the suction nozzle also comprises a back-off mechanism for preventing the suction nozzle from moving axially relative to the top cover.

The suction nozzle and the top cover are clamped in a back-off way, so that the suction nozzle can be prevented from moving axially relative to the top cover.

As a preferable mode, an internal thread sleeve is arranged in the top cover, and the lower section of the side wall of the movable part is in threaded connection with the internal thread sleeve; the suction nozzle rotates to drive the movable piece to rotate relative to the internal thread sleeve in a threaded manner, and meanwhile the inner side wall of the internal thread sleeve shields the air passing hole to adjust the air inflow entering the air inlet channel.

By means of the structure, the suction nozzle is connected with the top cover in a back-off clamping mode, and the back-off mechanism limits the suction nozzle to axially move relative to the top cover, so that when the suction nozzle is rotated, the movable part is driven by the suction nozzle to rotate relative to the internal thread sleeve in a threaded mode, and simultaneously moves relative to the top cover in the axial mode, the area of the air passing hole, which is shielded by the internal thread sleeve, is adjusted, and the air flow passing through the air passing hole in unit time is increased or reduced.

As another preferable mode, a connecting sleeve is arranged in the shell, and the lower section of the side wall of the movable part is in threaded connection with the upper section of the inner side wall of the connecting sleeve; the suction nozzle rotates to drive the movable piece to rotate relative to the connecting sleeve threads, and meanwhile the inner side wall of the connecting sleeve shields the air passing hole to adjust the air inflow entering the air inlet channel.

Further, an air inlet pipe is arranged in the shell, and an inner cavity of the air inlet pipe forms the air inlet channel; the air inlet end of the air inlet pipe is connected with the movable piece, and the air outlet end of the air inlet pipe is opposite to the atomizing cavity.

By means of the structure, the air inlet end of the air inlet pipe is connected with the movable piece, so that the movable piece can drive the air inlet pipe to move in the moving process, and the relative position of the air outlet end of the air inlet pipe and the atomizing cavity is changed. When the air inflow is adjusted to be small, the distance between the air outlet end of the air inlet pipe and the atomizing cavity is relatively short, so that the air flow impact force is relatively large, the smoke outlet effect is good, the smoke concentration can not be reduced while the air inflow is adjusted, and the use is not influenced.

As a preferable mode, at least two convex ribs parallel to the axis of the suction nozzle are uniformly arranged on the circumference of the inner side wall of the suction nozzle, and the outer side wall of the movable part is provided with positioning surfaces corresponding to the convex ribs one by one.

The convex ribs are matched with the positioning surfaces, so that a rotary linkage effect is realized.

Further, the inner side of the vent hole at the top of the suction nozzle is provided with a circular ring part extending to the inside of the suction nozzle.

By the structure, the condensed tobacco tar can be prevented from being sucked out.

Further, the movable member has a cylindrical portion thereon opposite to the vent hole.

The cylindrical part can play a role in drainage, can effectively help the condensed tobacco tar at the suction nozzle to flow back, and relieves the tobacco tar at the suction nozzle from agglomerating.

Further, the top of the cylindrical part is provided with a tip with an oblique angle, and the drainage effect is better.

Preferably, the air inlet is formed in the side wall of the top cover.

Because the position of the top cover is unchanged in the air regulating process, the air inlet is arranged on the fixed piece, the air inlet is prevented from being shielded, and the air inlet is more reliable.

Based on the same inventive concept, the invention also provides an electronic cigarette, which comprises the electronic cigarette atomizer.

Compared with the prior art, the invention can quickly and conveniently adjust the required air flow, has good sealing performance, does not influence the smoke outlet effect in the adjusting process, and can not suck tobacco tar.

Drawings

Fig. 1 is a schematic view of an embodiment of a nebulizer.

Fig. 2 is an exploded view of the upper portion of fig. 1.

Fig. 3 is an exploded view of the lower portion of fig. 1.

Fig. 4 is a schematic view of the structure of the suction nozzle in fig. 1.

Fig. 5 is a schematic structural view of the movable member in fig. 1.

Fig. 6 is a structure diagram of the connection of the suction nozzle and the movable member.

Fig. 7 is a state of use when the intake air amount of the intake port is maximum in the first embodiment.

Fig. 8 is a state of use when the intake air amount of the intake port is minimum in the first embodiment.

Fig. 9 is a state diagram of the intake port and the intake pipe in fig. 7.

Fig. 10 is a state diagram of the intake port and the intake pipe in fig. 8.

Fig. 11 is a schematic structural view of a second embodiment of the atomizer.

Fig. 12 is a state of use when the intake air amount of the intake port is maximum in the second embodiment.

Fig. 13 is a usage state diagram of the air inlet in the second embodiment when the air inlet is completely closed.

Wherein 1 is an air inlet, 2 is an air inlet channel, 3 is an atomization cavity, 4 is an air outlet channel, 5 is an air outlet, 6 is a suction nozzle, 603 is an air vent, 604 is a convex rib, 606 is a circular ring part, 7 is an adjusting mechanism, 8 is a shell, 9 is a top cover, 903 is an oil filling hole, 10 is a movable part, 1003 is an air passing hole, 1005 is a cylindrical part, 1006 is a positioning surface, 12 is an oil bin, 13 is an ultrasonic atomization sheet, 14 is atomized cotton, 15 is an air inlet pipe, 16 is a first sealing ring, 17 is a bottom cover, 18 is a lower cover, 19 is an upper cover, 20 is a second sealing ring, 21 is a sealing pad, 2101 is a through hole, 22 is a connecting sleeve, 23 is an inner sleeve, 24 is an outer sleeve, 25 is a compression cotton spring, 26 is an atomization seat, 27 is a threaded seat, 28 is a lower electrode, 29 is a spring electrode, 30 is an insulating ring, 33 is a third sealing ring, 34 is a fourth sealing ring, 35 is a fifth sealing ring, 36 is a fixed seat, 37 is an inner threaded sleeve, 38 is a compression ring, 39 is a screw, 40 is a conductive plate, 41 is a PCB, and 42 is a PCB.

Detailed Description

Example 1

As shown in fig. 1 to 10, the first embodiment of the electronic cigarette atomizer includes an air inlet 1, an air inlet channel 2, an atomization cavity 3, an air outlet channel 4, an air outlet 5, a suction nozzle 6 which are sequentially communicated, a housing 8 and an adjusting mechanism 7 for adjusting the air inflow of the air inlet 1; the air inlet channel 2, the atomizing cavity 3 and the air outlet channel 4 are all arranged in the shell 8, and a top cover 9 is arranged at the top of the shell 8; the adjusting mechanism 7 comprises a movable member 10 located within the top cover 9 and axially movable along the top cover 9. A first sealing ring 16 is arranged between the movable part 10 and the top cover 9. The movable member 10 is provided with an air passing hole 1003 which is communicated with the air inlet 1 and the air inlet channel 2, and when the movable member 10 moves along the axial direction of the top cover 9, the air passing hole 1003 on the movable member 10 moves in a dislocation manner relative to the air inlet 1 so as to adjust the air inflow entering the air inlet channel 2.

The suction nozzle 6 is sleeved outside the top cover 9 and can rotate relative to the top cover 9; the suction nozzle 6 rotates to drive the movable piece 10 to axially move along the top cover 9. The air inlet 1 is arranged on the side wall of the suction nozzle 6.

The electronic cigarette atomizer further comprises a back-off mechanism for preventing the suction nozzle 6 from moving axially relative to the top cover 9.

An internal thread sleeve 37 is arranged in the top cover 9, and the lower section of the side wall of the movable part 10 is in threaded connection with the internal thread sleeve 37; the suction nozzle 6 rotates to drive the movable piece 10 to rotate in a threaded manner relative to the internal thread sleeve 37, and meanwhile the inner side wall of the internal thread sleeve 37 shields the air passing hole 1003 so as to adjust the air inflow entering the air inlet channel 2.

An air inlet pipe 15 is further arranged in the shell 8, and an inner cavity of the air inlet pipe 15 forms the air inlet channel 2; the air inlet end of the air inlet pipe 15 is connected with the movable part 10, and the air outlet end of the air inlet pipe 15 is opposite to the atomizing cavity 3.

An ultrasonic atomizing sheet 13 is arranged in the atomizing cavity 3, and an oil bin 12 and atomized cotton 14 communicating the oil bin 12 with an atomizing surface of the ultrasonic atomizing sheet 13 are arranged in the shell 8. The air outlet end of the air inlet pipe 15 is opposite to the atomized cotton 14 at the atomized surface of the ultrasonic atomization sheet 13. The ultrasonic atomizing sheet 13 is a piezoelectric ceramic sheet.

Four ribs 604 parallel to the axis of the suction nozzle 6 are uniformly arranged on the circumference of the inner side wall of the suction nozzle 6, and the outer side wall of the movable part 10 is provided with positioning surfaces 1006 corresponding to the ribs 604 one by one.

When the suction nozzle 6 is rotated, the movable member 10 is axially moved by the driving of the suction nozzle 6, so that the shielding area of the air passing hole 1003 by the female screw cover 37 is adjusted, and the air flow passing through the air passing hole 1003 per unit time is increased or decreased. The movable member 10 moves axially and the air intake pipe 15 also moves axially. In the process of rotating the suction nozzle 6, as shown in fig. 7 and 8, the air passing area of the air passing hole 1003 in fig. 7 is larger than the air passing area of the air passing hole 1003 in fig. 8, and the interval between the bottom end surface of the air inlet pipe 15 and the inner bottom surface of the atomized cotton 14 in fig. 7 is larger than the interval between the bottom end surface of the air inlet pipe 15 and the inner bottom surface of the atomized cotton 14 in fig. 8.

The inside of the vent hole 603 at the top of the suction nozzle 6 is provided with a circular ring part 606 extending to the inside of the suction nozzle 6.

The movable member 10 has a cylindrical portion 1005 facing the vent 603. The top of the cylindrical portion 1005 is a beveled tip.

The housing 8 includes a bottom cover 17, a lower cover 18, and an upper cover 19, which are sequentially connected from bottom to top. A second sealing ring 20 is arranged between the lower cover 18 and the upper cover 19. A clamp ring 38 is provided between the lower cover 18 and the bottom cover 17. A third sealing ring 33 is arranged between the movable member 10 and the internal thread bush 37. The air inlet channel 2 and the air outlet channel 4 have good sealing effect and are airtight.

The top cover 9 is an oil filling cover and is provided with an oil filling hole 903. The top cover 9 is connected with the top end of the upper cover 19. The oil bin 12 is arranged in the top cover 9. A sealing gasket 21 is arranged between the top of the oil bin 12 and the top cover 9. The gasket 21 is provided with a through hole 2101 for communicating the oil filler hole 903 with the oil reservoir 12. When the oil is not injected, the oil injection hole 903 is offset from the through hole 2101, and the oil injection hole 903 is closed to prevent the oil from leaking from the oil sump 12. When filling oil, the top cover 9 is rotated until the oil filling hole 903 is communicated with the through hole 2101, and the oil filling hole 903 is opened to fill oil into the oil bin 12.

The upper cover 19 is also provided with a connecting sleeve 22, the top end of which is connected with the top cover 9. An inner sleeve 23 and an outer sleeve 24 are arranged in the connecting sleeve 22, and the outer sleeve 24 is sleeved outside the inner sleeve 23. A fourth sealing ring 34 is arranged between the inner sleeve 23 and the connecting sleeve 22. A fifth sealing ring 35 is arranged between the outer sleeve 24 and the lower cover 18. A sixth sealing ring 36 is arranged between the connecting sleeve 22 and the upper cover 19. The atomized cotton 14 is cup-shaped, the side wall of the cup-shaped atomized cotton 14 is clamped between the inner sleeve 23 and the outer sleeve 24, and the outer bottom surface of the cup-shaped atomized cotton 14 is contacted with the ultrasonic atomization sheet 13. The lower section of the air inlet pipe 15 extends into the inner sleeve 23, and the outlet of the lower section of the air inlet pipe 15 is opposite to the inner bottom surface of the atomized cotton 14. The cup-shaped atomized cotton 14 is also internally provided with a cotton pressing spring 25, one end of the cotton pressing spring 25 is abutted against the inner sleeve 23, and the other end of the cotton pressing spring 25 is abutted against the inner bottom surface of the cup-shaped atomized cotton 14.

The atomizing chamber 3 is provided in the bottom cover 17. The ultrasonic atomizing sheet 13 is fixedly arranged in the atomizing cavity 3 through an atomizing seat 26.

The bottom of the bottom cover 17 is provided with a screw seat 27 for sealing.

A lower electrode 28 is arranged in the screw seat 27, and the lower electrode 28 is abutted against the ultrasonic atomization sheet 13 through a spring electrode 29. The spring electrode 29 is electrically connected to the PCB board 41 through the conductive sheet 40. The PCB 41 is connected with the screw seat 27 through screws 39. The lower electrode 28 is connected with the screw seat 27 in an insulating way through an insulating ring 30.

Example two

As shown in fig. 11 to 13, the electronic cigarette atomizer embodiment repeats embodiment one, except that:

The shell 8 is internally provided with a connecting sleeve 22, and the lower section of the side wall of the movable part 10 is in threaded connection with the upper section of the inner side wall of the connecting sleeve 22; the suction nozzle 6 rotates to drive the movable piece 10 to rotate in a threaded manner relative to the connecting sleeve 22, and meanwhile, the inner side wall of the connecting sleeve 22 shields the air passing hole 1003 so as to adjust the air inflow entering the air inlet channel 2. The connecting sleeve 22 and the top cover 9 are fixed through a fixing seat 42.

The air inlet 1 is arranged on the side wall of the top cover 9.

In this embodiment, the over-air hole 1003 may be completely closed, providing a child-resistant effect, as shown in fig. 3.

The same structure as that of the first embodiment is not repeated here, but does not affect the understanding and implementation of the present invention by those skilled in the art.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present invention and the scope of the claims, which are all within the scope of the present invention.

Claims (7)

1. An electronic cigarette atomizer comprises an air inlet (1), an air inlet channel (2), an atomizing cavity (3), an air outlet channel (4), an air outlet (5) and a suction nozzle (6) which are sequentially communicated, and further comprises a shell (8) and an adjusting mechanism (7) for adjusting the air inflow of the air inlet (1); the air inlet channel (2), the atomizing cavity (3) and the air outlet channel (4) are all arranged in the shell (8), and a top cover (9) is arranged at the top of the shell (8); it is characterized in that the method comprises the steps of,

The adjusting mechanism (7) comprises a movable piece (10) which is positioned in the top cover (9) and can axially move along the top cover (9), the movable piece (10) is provided with an air passing hole (1003) which is communicated with the air inlet (1) and the air inlet channel (2), and when the movable piece (10) axially moves along the top cover (9), the air passing hole (1003) on the movable piece (10) moves in a staggered manner relative to the air inlet (1) to adjust the air inflow entering the air inlet channel (2); the air inlet (1) is formed in the side wall of the suction nozzle (6);

The suction nozzle (6) is sleeved outside the top cover (9) and can rotate relative to the top cover (9); the suction nozzle (6) rotates to drive the movable piece (10) to axially move along the top cover (9);

The device also comprises a back-off mechanism for preventing the suction nozzle (6) from moving axially relative to the top cover (9);

An internal thread sleeve (37) is arranged in the top cover (9), and the lower section of the side wall of the movable part (10) is in threaded connection with the internal thread sleeve (37); the suction nozzle (6) rotates to drive the movable piece (10) to rotate in a threaded manner relative to the internal thread sleeve (37), and meanwhile the inner side wall of the internal thread sleeve (37) shields the air passing hole (1003) to adjust the air inflow entering the air inlet channel (2);

at least two convex ribs (604) parallel to the axis of the suction nozzle (6) are uniformly arranged on the circumference of the inner side wall of the suction nozzle (6), and positioning surfaces (1006) corresponding to the convex ribs (604) one by one are arranged on the outer side wall of the movable part (10).

2. The electronic cigarette atomizer is characterized by comprising an air inlet (1), an air inlet channel (2), an atomization cavity (3), an air outlet channel (4), an air outlet (5) and a suction nozzle (6) which are communicated in sequence, and further comprising a shell (8) and an adjusting mechanism (7) for adjusting the air inflow of the air inlet (1); the air inlet channel (2), the atomizing cavity (3) and the air outlet channel (4) are all arranged in the shell (8), and a top cover (9) is arranged at the top of the shell (8); it is characterized in that the method comprises the steps of,

The adjusting mechanism (7) comprises a movable piece (10) which is positioned in the top cover (9) and can axially move along the top cover (9), the movable piece (10) is provided with an air passing hole (1003) which is communicated with the air inlet (1) and the air inlet channel (2), and when the movable piece (10) axially moves along the top cover (9), the air passing hole (1003) on the movable piece (10) moves in a staggered manner relative to the air inlet (1) to adjust the air inflow entering the air inlet channel (2);

The suction nozzle (6) is sleeved outside the top cover (9) and can rotate relative to the top cover (9); the suction nozzle (6) rotates to drive the movable piece (10) to axially move along the top cover (9);

The device also comprises a back-off mechanism for preventing the suction nozzle (6) from moving axially relative to the top cover (9);

A connecting sleeve (22) is arranged in the shell (8), and the lower section of the side wall of the movable piece (10) is in threaded connection with the upper section of the inner side wall of the connecting sleeve (22); the suction nozzle (6) rotates to drive the movable piece (10) to rotate relative to the connecting sleeve (22) in a threaded manner, and meanwhile, the inner side wall of the connecting sleeve (22) shields the air passing hole (1003) to adjust the air inflow entering the air inlet channel (2);

at least two convex ribs (604) parallel to the axis of the suction nozzle (6) are uniformly arranged on the circumference of the inner side wall of the suction nozzle (6), and the outer side wall of the movable part (10) is provided with positioning surfaces (1006) which are in one-to-one correspondence with the convex ribs (604);

the air inlet (1) is arranged on the side wall of the top cover (9).

3. The electronic cigarette atomizer according to claim 1 or 2, characterized in that an air inlet pipe (15) is further arranged in the housing (8), and an inner cavity of the air inlet pipe (15) forms the air inlet channel (2); the air inlet end of the air inlet pipe (15) is connected with the movable piece (10), and the air outlet end of the air inlet pipe (15) is opposite to the atomizing cavity (3).

4. An e-cigarette atomizer according to any one of claims 1 to 3, characterized in that the inside of the vent hole (603) at the top of the mouthpiece (6) has a circular ring portion (606) extending towards the inside of the mouthpiece (6).

5. The electronic cigarette atomizer according to claim 4, wherein the movable member (10) has a cylindrical portion (1005) thereon opposite to the ventilation hole (603).

6. The electronic cigarette atomizer of claim 5 wherein the top of said cylindrical portion (1005) is a beveled tip.

7. An electronic cigarette, characterized by comprising the electronic cigarette atomizer according to any one of claims 1 to 6.