CN114074835A - Battery device and electronic atomization device - Google Patents

Abstract

The invention discloses a battery device and an electronic atomization device. The battery device comprises a main frame body, a plurality of air inlet holes opened on the main frame body, and an adjustment unit movably matched and connected with the main frame body; adjustment The unit can selectively cover different numbers of air intake holes, so that the air intake volume of the miniaturized electronic cigarette can be adjusted.

Description

Battery device and electronic atomization device

Technical Field

The invention relates to the technical field of electronic cigarettes, in particular to a battery device and an electronic atomization device.

Background

The early electronic cigarette is in molding and outward appearance all with emulation cigarette outward appearance, and along with the promotion of technique and user's demand multifunctional equipment such as mechanical pole, big cigarette box appear, can adjust the size of admitting air in the function, but high output. In recent years, electronic cigarettes gradually return to a small and portable shape, so that the structural design is limited, and an air inlet adjusting function cannot be designed.

Disclosure of Invention

The present invention is directed to an improved battery device and an improved electronic atomizer, which are designed to overcome the drawbacks of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a battery device is constructed and used for an electronic atomization device, and the battery device comprises a main frame body, a plurality of air inlets arranged on the main frame body, and an adjusting unit movably connected with the main frame body in a matched manner; the adjusting unit can selectively cover different numbers of the air inlet holes so as to realize the adjustment of the air inlet amount.

Preferably, in the battery device of the present invention, the adjusting unit includes a pushing portion and at least one sliding rail disposed on a back surface of the pushing portion;

the main frame body is provided with at least one sliding groove which is connected with the sliding rail in a sliding fit manner.

Preferably, in the battery device of the present invention, at least one side of the sliding groove in the sliding direction is provided with a limiting portion;

the sliding rail comprises a sliding part which is integrally formed, a clamping part which at least extends along one side of the sliding part, and a plurality of gear parts which are arranged on one side or two sides of the sliding part and correspondingly matched with the limiting part for limiting;

the sliding portion penetrates through the sliding groove, and the clamping portion is clamped on one side of the back face of the sliding groove.

Preferably, in the battery device according to the present invention, the stopper portion and the stopper portion are engaged with each other in a concave-convex manner.

Preferably, in the battery device according to the present invention,

part or all of the air inlets are arranged in the range covered by the pushing part when the pushing part slides on the main frame body;

when each gear part is matched with the limiting part, the pushing part covers part of the air inlet hole respectively.

Preferably, in the battery device of the present invention, the battery device further includes a sealing member provided on a back surface of the chute; and the sealing element is provided with at least one airflow tunnel communicated with the air inlet.

Preferably, in the battery device of the present invention, the main frame is further provided with an air intake passage communicating with the airflow tunnel.

Preferably, in the battery device according to the present invention, the pushing portion is provided with an anti-slip structure.

The invention also provides an electronic atomizer comprising a battery device as claimed in any one of the preceding claims and an atomizer electrically and detachably connected thereto.

By implementing the invention, the following beneficial effects are achieved:

the adjusting unit movably connected with the main frame body in a matched mode is arranged on the main frame body, and the air inlet holes with different numbers are selectively covered, so that the air inflow of the miniaturized electronic cigarette can be adjusted.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view of the overall structure of an electronic atomizer according to the present invention;

FIG. 2 is a schematic view of the construction of the battery device and the atomizing device of the present invention;

FIG. 3 is an exploded view of the battery device and atomizing device of the present invention;

FIG. 4 is a schematic view of the back side of the battery device of the present invention with the housing removed;

fig. 5 is a schematic view of a rear structure of the battery device with the battery removed from the battery device of fig. 4;

FIG. 6 is a schematic front view of the battery device of the present invention with the housing removed;

fig. 7 is a schematic view of the back side structure of the battery device with the main circuit board removed from the device of fig. 5;

fig. 8 is a schematic view showing a rear structure of the battery device with the sealing member removed from the battery device of fig. 7;

FIG. 9 is a schematic view of the construction of the regulating unit of the present invention;

fig. 10 is a schematic view of the structure of the seal of the present invention.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings. In the following description, it is to be understood that the orientations and positional relationships indicated by the terms "left", "right", "top", "bottom", "side", "back", and the like are configured and operated in specific orientations based on the orientations and positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate that the device or element to which reference is made must have a specific orientation, and thus, are not to be construed as limiting the present invention.

In a first embodiment, as shown in fig. 1 to 4, the present invention constructs a battery device including a case 11, a main frame 12 provided in the case 11, a battery 13 provided on the main frame 12, a main circuit board 14 provided on the main frame 12 and electrically connected to the battery 13, a charging connector provided at the bottom of the main frame 12 and electrically connected to the battery 13, at least one light emitting element 16 electrically connected to the main circuit board 14, a switch control unit 17 provided on the main circuit board 14 and used for controlling the light emitting element 16 to be switched, and a first light-transmitting structure corresponding to the light emitting element 16. Wherein the light emitting assembly 16 is disposed at the top end of the battery device. In this embodiment, the user can control the light emitting component 16 to achieve the flashing effect through the main circuit board 14 after pressing the switch control unit 17 for a long time. In some embodiments, the first light-transmissive structure may be a transparent housing 11 corresponding to the light-emitting assembly 16. Here, the top end of the battery device, that is, the top end of the main frame 12 is described.

As shown in fig. 4, the top end of the main frame 12 is further provided with a bilaterally symmetrical annular hollow magnet 123, and bilaterally symmetrical output electrodes respectively arranged at the center of the magnet 123, including a probe type positive electrode 124 and a negative electrode 125, which are electrically connected with positive and negative electrode pads on the main circuit board 14 for supplying power to the atomization device 2.

The light emitting assembly 16 includes a light emitting circuit board 161 and at least one light emitting element 162 disposed on the light emitting circuit board 161, and a groove 121 for the circuit board to be embedded therein is formed on the top end of the battery device. As shown in fig. 5, the light emitting circuit board 161 is connected to the main circuit board 14 through the top end of the battery device by positive and negative electrode leads 18. In some embodiments, the light emitting circuit board 161 is connected to the main circuit board 14 through the top end of the battery device by a thimble, the light emitting circuit board 161 is a PCB board, and the light emitting element 162 is an LED.

The battery device also comprises a pneumatic switch 15 electrically connected with the main circuit board 14, wherein the pneumatic switch 15 is communicated with an atomizing cavity of an external atomizing device and used for triggering the pneumatic switch 15 during suction, and the main circuit board 14 controls the battery 13 to supply power to the light-emitting component 16, the light-emitting unit 141 and the atomizing device 2. In some embodiments, the pneumatic switch 15 is disposed on an end opposite to the top end of the battery device, the top end of the battery device is opened with at least one pneumatic switch air inlet hole 122 therethrough, and the pneumatic switch air inlet hole 122 is communicated with the atomizing chamber of the external atomizing device. In some embodiments, a receiving frame for fixedly receiving the pneumatic switch 15 is provided on an end surface opposite to the top end of the battery device.

As shown in fig. 6, the switch control unit 17 is also used to control the output power of the battery device. The power supply device further includes a plurality of light emitting units 141 provided on the main circuit board 14 for indicating output power and pneumatic switch activation, and a second light transmitting structure corresponding to the light emitting units 141. In some embodiments, the user quickly presses the switch control unit 17 three to five times to enter the output power adjustment mode, the four light emitting units 141 flash to indicate that the shift is possible, and the output power is increased every time the switch control unit is pressed. For example, the output power of the battery device can be controlled to change from 5W to 10W by pressing the switch control unit 17 once, and the light unit 141 blinks red light; the user can control the output power of the battery device to be 15W by pressing the switch control unit 17 twice, and flickers yellow light through a light emitting unit 141; the user can control the output power of the battery device to be 20W by pressing the switch control unit 17 three times, and simultaneously flickers blue light through a light emitting unit 141; the user can control the output power of the battery device to 25W by pressing the switch control unit 17 four times while flashing green light by a light emitting unit 141. Also, when the user sucks to trigger the pneumatic switch 15, the main circuit board 14 may implement a ticker effect through the plurality of light emitting units 141, and the light emitting assembly 16 also keeps blinking. Meanwhile, the second light emitting structure corresponding to the plurality of light emitting units 141 may be a transparent case 11. In some embodiments, the light emitting unit 141 may be an LED.

The switch control unit 17 may be a touch switch or an air switch in some embodiments, and in this embodiment, the switch control unit 17 is a key switch, which includes a button switch 171 disposed on the main circuit board 14, an elastic arm key 172 disposed corresponding to the button switch 171, and a key cap 173 disposed on the key.

In the second embodiment, as shown in fig. 6, based on the first embodiment, the main frame 12 of the present invention further has a plurality of air intake holes 126 formed in the main frame 12, and an adjusting unit 19 movably connected to the main frame 12 in a fitting manner. The adjusting unit 19 selectively covers a different number of intake holes 126 to achieve adjustment of the intake air amount.

In this embodiment, as shown in fig. 9, the adjusting unit 19 includes a pushing portion 191 and at least one sliding rail 192 disposed on a back surface of the pushing portion 191, and the main frame 12 is provided with at least one sliding slot 127 connected to the sliding rail 192 in a sliding fit manner. The stopper 171 is provided on at least one side of the slide groove 127 in the sliding direction, and the slide rail 192 includes a sliding portion 1921 formed integrally, a catching portion 1922 extending at least along one side of the sliding portion 1921, and a plurality of stopper portions 1923 provided on one side or both sides of the sliding portion 1921 and engaged with and stopped by the stopper 171. The sliding portion 1921 passes through the chute 127, and the engaging portion 1922 is engaged with the rear side of the chute 127. The stopper 171 is engaged with the shift position 1923 in a concave-convex manner. In some embodiments, the positions of the limiting portion 171 and the shift position portion 1923 may be selectively disposed on the sliding portion 1921 or on the side of the sliding slot 127. In some embodiments, two sliding rails 192 are disposed on the back of the pushing portion 191, two sliding slots 127 are disposed on the main frame 12, three continuous concave shift portions 1923 are disposed on the outer sides of the two sliding portions 1921, and cooperate with the convex limiting portions 171 on the corresponding side of the sliding slots 127 for limiting, that is, the adjusting unit 19 has three adjustable shift positions. In some embodiments, a slide rail 192 is disposed on the back of the pushing portion 191, a slide slot 127 is correspondingly disposed on the main frame 12, and three consecutive concave shift positions 1923 are disposed on two sides of the slide portion 1921, and are engaged with the convex limiting portions 171 on two corresponding sides of the slide slot 127 for limiting.

As shown in fig. 6, part or all of the air inlet holes 126 are disposed in the range covered by the pushing portion 191 when the pushing portion 191 slides on the main frame 12, wherein when each gear position portion 1923 is engaged with the limiting portion 171, the pushing portion 191 covers part of the air inlet holes 126 respectively, so as to adjust the air intake amount. In some embodiments, two rows of arc air inlets 126 are uniformly arranged above the chute 127, one air inlet 126 is arranged below the chute 127, and when the first retainer 1923 is engaged with the limiting portion 171, the pushing portion 191 covers the two rows of air inlets 126 above, and the rest of the air inlets 126 below; when the pushing portion 191 pushes downwards and the second shift portion 1923 is matched with the limiting portion 171, the pushing portion 191 covers the row of upper air inlet holes 126, the row of lower air inlet holes 126 and the row of upper air inlet holes 126; the pushing portion 191 pushes downward, and when the third shift portion 1923 is matched with the limiting portion 171, the pushing portion 191 covers the lower air inlet holes 126 and the two rows of upper air inlet holes 126 are remained, so that the air inflow can be adjusted.

As shown in fig. 7, 8 and 10, the battery device further includes a sealing member 20 provided on the back surface of the chute 127; the sealing member 20 is provided with at least one air flow tunnel 201 communicated with the air inlet 126. In some embodiments, the airflow tunnel 201 is U-shaped and is used to communicate with the retainer 1922 for receiving the slide rail 192 and the air inlet holes 126 located above and below the retainer. In this embodiment, the main frame 12 further has an air inlet channel 128 communicated with the air flow tunnel 201, and the air inlet channel 128 is communicated with an external atomizing device.

As shown in fig. 6, in order to allow the user to correctly adjust the shift position, different numbers of air inlet holes 126 are selectively covered to achieve adjustment of the amount of air inlet, so that the front surface of the pushing part 191 is a concave contact surface and is provided with an anti-slip structure. In some embodiments, the non-slip structure is a rough surface design, such as a plurality of bumps.

In a third embodiment, based on the first and second embodiments, as shown in fig. 3, the present invention also provides an electronic atomizer including the battery device described in the first embodiment and a transparent atomizer 2 detachably and electrically connected to the top end of the battery device.

The atomization device 2 comprises a transparent base 21 and a transparent outer tube 23 sleeved on the periphery of the transparent base 21; the light emitting component 16 corresponds to the transparent base 21, so that the emitted light can be transmitted out from the transparent base 21 and the transparent outer tube 23, and the atomizing device 2 can be changed into a night flashing rod. In some embodiments, the atomizing device 2 is embedded in the housing 11 of the battery device 1, and the transparent outer tube 23 is detachably connected to the housing 11.

In some embodiments, the atomizing device 2 further includes a transparent sealing member 22 nested between the transparent housing 21 and the transparent outer tube 23. In this embodiment, the transparent base 21, the transparent sealing member 22 and the transparent outer tube 23 are made of PCTG material, and the light emitting element 16 emits light through the transparent base 21, the transparent sealing member 22 and the transparent outer tube 23. In other embodiments, the inner components of the entire atomizer device may be made transparent, so that the entire light-emitting atomizer device is constructed.

Completely, the atomization device 2 further includes an inner tube 24 embedded in the middle of the transparent base 21, and an atomization assembly 25 installed in the inner tube 24. An atomization cavity is formed in the atomization assembly 25, and at least one air inlet which is independently communicated with the pneumatic switch air inlet 122 and the air inlet channel 128 is formed at the bottom of the transparent base 21. In the present embodiment, the air inlet hole 122 and the air inlet channel 128 correspond to two adjacent but not opposite air inlets respectively. The inner middle part of the outer tube body is provided with an air outlet channel which is communicated with the atomizing cavity. A liquid storage cavity is defined between the outer wall surface of the inner tube 24 and the inner wall surface of the outer tube, and the inner tube 24 is further provided with a liquid guide hole 241 communicated with the liquid storage cavity so as to connect the atomizing assembly 25 with the liquid storage cavity for liquid guide. The outer tube 23 is provided with an oil hole 231 communicated with the liquid storage cavity and is plugged by a plug 26 of the oil hole 231. The transparent base 21 is further provided with a positive disc and a negative disc, which can be electrically connected to a positive electrode 124 and a negative electrode 125 of the power supply device by being attracted by the magnet 123. The atomization assembly 25 comprises a cylindrical liquid guide part and a heating part which is arranged in a central through hole of the liquid guide part and electrically connected with the positive and negative electrode disks, so that an atomization cavity is formed. In this embodiment, the heating element is an annular heating wire, and the liquid guiding element is a liquid guiding cotton.

According to the invention, the LED lamp panel is arranged at the top end of the power supply device, the lamp panel is connected with the main circuit board 14 through the positive lead and the negative lead, and the MCU main chip on the main circuit board 14 controls the LED light-emitting frequency to generate a flash-by-flash flashing effect, so that the same effect as that of a flashlight is realized. In the invention, the switch control unit 17 can turn on the LED lamp by pressing the switch for 2-9 seconds, the light sets the flash frequency through a program, the light irradiates the transparent atomization device 2, the transparent atomization device 2 is made of PCTG material, light can be guided, the atomization device 2 becomes a night flash rod, the LED lamp can be turned off by pressing for 2-9 seconds, and if a user forgets to turn off the LED lamp, the main circuit board 14 can be controlled to be automatically turned off after 2 hours. And, the user triggers pneumatic switch 15 when through transparent atomizing device 2 suction, and battery 13 supplies power and control positive and negative pole electrode output current for the LED lamp plate, drives LED lamp luminous and heater simultaneously and generates heat, makes the tobacco juice produce the atomizing, realizes that LED is luminous and atomizes.

By implementing the invention, the following beneficial effects are achieved:

the top end of the power supply device is provided with the light-emitting component which is transmitted out through the first light-transmitting structure; be equipped with on power supply unit's main circuit board and be used for showing a plurality of luminescence units that output and pneumatic switch triggered, a plurality of luminescence units transmit out through second printing opacity structure, can make the electron cigarette satisfy a plurality of use scenes and different consumer groups, for example scenes such as concert, sports events, open-air camping, KTV can not need additionally to purchase the glow stick, can realize the glow stick function.

Meanwhile, the adjusting unit movably matched and connected with the main frame body is arranged on the main frame body, and air inlets with different numbers are selectively covered, so that the air inflow of the miniaturized electronic cigarette can be adjusted.

It is to be understood that the foregoing examples, while indicating the preferred embodiments of the invention, are given by way of illustration and description, and are not to be construed as limiting the scope of the invention; it should be noted that, for those skilled in the art, the above technical features can be freely combined, and several changes and modifications can be made without departing from the concept of the present invention, which all belong to the protection scope of the present invention; therefore, all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (9)

1. A battery device for use in an electronic atomization device, characterized in that it comprises a main frame (12), a plurality of air intake holes (126) provided on the main frame (12), and a The main frame body (12) is movably matched with the connected adjustment unit (19); the adjustment unit (19) can selectively cover different numbers of the air intake holes (126) to realize the adjustment of the air intake volume. 2. The battery device according to claim 1, wherein the adjustment unit (19) comprises a push portion (191) and at least one slide rail (192) provided on the back of the push portion (191); The main frame body (12) is provided with at least one sliding groove (127) which is slidably connected with the sliding rail (192). 3. The battery device according to claim 2, wherein a limiting portion (171) is provided on at least one side of the sliding groove (127) in the sliding direction; The sliding rail (192) comprises an integrally formed sliding portion (1921), a snap portion (1922) extending at least along one side of the sliding portion (1921), and a snap portion (1922) provided on one side of the sliding portion (1921) or a plurality of gear positions (1923) on both sides corresponding to the position-limiting parts (171); The sliding part (1921) passes through the sliding slot (127), and the engaging part (1922) is engaged with the back side of the sliding slot (127). 4 . The battery device according to claim 3 , wherein the limiting portion ( 171 ) and the gear portion ( 1923 ) are in a concave-convex fit. 5 . 5. The battery device according to claim 3, wherein, Part or all of the air intake holes (126) are provided in the range covered by the pusher (191) when sliding on the main frame body (12); When each of the gear portions (1923) is matched with the limiting portion (171), the push portion (191) covers a part of the air inlet hole (126) respectively. 6 . The battery device according to claim 2 , wherein the battery device further comprises a sealing member ( 20 ) disposed on the back of the chute ( 127 ); the sealing member ( 20 ) is provided with at least one An air flow tunnel (201) communicated with the air inlet hole (126). 7 . The battery device according to claim 6 , wherein the main frame body ( 12 ) is further provided with an air intake passage ( 128 ) that communicates with the airflow tunnel ( 201 ). 8 . 8. The battery device according to claim 2, wherein the pushing portion (191) is provided with a non-slip structure. 9. An electronic atomizing device, characterized in that it comprises the battery device according to any one of claims 1-8 and an atomizing device (2) that is detachably electrically connected to the battery device.

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