1. Technical Field
The present disclosure relates to products for smokers, and more particularly relates to an electronic cigarette.
2. Description of Related Art
An electronic cigarette in related art is usually as a substitute for cigarette. The electronic cigarette generally includes an atomizer device a battery device. The heating wire disposed within the atomizer device can atomize liquid solution in the atomizer device to generate smoke for allow smoker inhaling. Generally, a liquid cup or an accommodate space separated from the atomizer sleeve acts as the liquid solution reservoir. A liquid partition member is mounted to the top of the reservoir, to seal the reservoir. At the same time, a plurality of penetrating holes are defined on the liquid partition member, to allow the liquid solution flowing out when the electronic cigarette works. However, the electronic cigarette is inclined to be trembled during the transport or storage process, which may result in leakage of liquid solution. In addition, because the liquid penetrating holes are in a completely open state, not only a waste of the liquid solution because no sealing means are provided for preventing the leakage of liquid solution after used, which may result in low utilization rate of liquid solution, but the quantity of liquid solution can also not be adjusted according to smoker's needs, which may result in poor flexibility.
The technical problem of the present invention is to provide an improved electronic cigarette.
To overcome the above mentioned disadvantage, an electronic cigarette is provided. The electronic cigarette includes a cartridge and an atomizer device. The cartridge includes a liquid reservoir chamber and liquid outlets for communicating the internal of the liquid reservoir chamber with the outside. The atomizer device includes a liquid reservoir room and liquid inlets for communicating the internal of the liquid reservoir room with the outside. The cartridge is mounted to the atomizer device, and is capable of rotating relatively to the atomizer device between a first position A and a second position B. When the cartridge is located at the first position A, the liquid outlets align with the liquid inlets, to communicate the liquid reservoir chamber with the liquid reservoir room. When the cartridge is located at the second position B, the liquid outlets misalign with the liquid inlets, to disconnect the liquid reservoir chamber with the liquid reservoir room. The cartridge can rotate relatively to the atomizer device between a first position A and a second position B, to drive the liquid outlets aligning with or misaligning with the inlets, to achieve the purpose of injecting liquid solution to or partition the atomizer device, to achieve liquid injection process being convenient. The amount of injection liquid solution can be adjusted, and leakage of liquid solution can be avoided during the transport or storage process, and higher utilization rate of liquid solution can be further achieved.
Wherein, the cartridge and the atomizer device are installed together coaxially, the cartridge is capable of rotating around the axis thereof relatively to the atomizer device between the first position A and the second position B; the at least one liquid inlet is defined at an end portion of the atomizer device opposite to the cartridge, and the at least one liquid outlet is defined at an end portion of the cartridge opposite to the atomizer device.
Wherein, the cartridge includes a first air flowing channel arranged longitudinally, the liquid reservoir chamber encircles the first air flowing channel; the atomizer device includes a second air flowing channel arranged longitudinally, the liquid reservoir room encircles the second air flowing channel, and the first air flowing channel communicates with the second air flowing channel.
Wherein, the cartridge includes a first wall portion facing the atomizer device, the at least one liquid outlet is defined on the first wall portion; the atomizer device includes a second wall portion facing the cartridge, the first wall portion is rotatable around the axis and abuts against the second wall portion, the at least one liquid inlet is defined on the second wall portion.
Wherein, the at least one liquid inlet includes two liquid inlets arranged symmetrically at the second wall portion; the at least one liquid outlet includes two liquid outlets arranged symmetrically at the first wall portion.
Wherein, the shape of the liquid outlets and the liquid inlets are both fan-shaped, the two liquid outlets are rotationally symmetrical relatively to the center of the axis, the two liquid inlets are rotationally symmetrical relatively to the center of the axis.
Wherein, the cartridge includes a cartridge body and a first cover body arranged at an end portion of the cartridge body, the cartridge body includes a first air flowing pipe defining the first air flowing channel, the first wall portion is arranged on the first cover body, the first cover body engages with the cartridge body in interference fit; the first cover body defines a sleeving hole at the middle thereof, the sleeving hole sleeves the outside of the first air flowing pipe.
Wherein, the atomizer device includes a second cover body engaging with the cartridge, the second wall portion is arranged on the second cover body; the second cover body includes a plastic sealing base which is integrally formed and an elastic glue sealing gasket, the sealing gasket is clipped between the sealing base and the first cover body, the liquid inlets extends through the sealing base and the sealing gasket.
Wherein, a first protruding portion is set on a surface of the sealing gasket facing the first wall portion for reducing friction, the first protruding portion includes a plurality of ring shaped protrusions arranged equidistant from the axis, the protrusions abut against and engage with the first wall portion.
Wherein, a second protruding portion is arranged on a surface of the sealing gasket facing the first wall portion and encircles a rim of the liquid inlets, the second protruding portion abuts against and engages with the first wall portion.
Wherein, the atomizer device includes a base and a second air flowing pipe, the second cover body engages with the second cover body, the second air flowing pipe is embedded in the base, the second air flowing channel is defined in the second air flowing pipe, the second cover body defines an air vent communicating with the first air flowing channel and the second air flowing channel respectively; the sealing gasket further includes a third protruding portion extending from the outer ring of the air vent toward the inner side of the second air flowing pipe, the third protruding portion engages with the internal wall of the second air flowing pipe.
Wherein, the sealing gasket further includes a fourth protruding portion extending from the outer ring of the air vent toward the inner side of the first air flowing pipe, the fourth protruding portion engages with the internal wall of the first air flowing pipe.
Wherein, at least one latching block is arranged circumferentially on the outer ring of the cartridge corresponding to the atomizer device, the atomizer device defines at least one latching slots engaging with the at least one latching block, the at least one latching slot extend in circumferential direction, to provide rotation space for the cartridge and to limit the first position A and the second position B of the cartridge.
Wherein, the at least one latching block includes two, the two latching blocks are arranged symmetrically at opposite sides of cartridge, the at least one latching slots includes two, the two latching slots are arranged symmetrically at opposite sides of atomizer device.
The electronic cigarette described above has beneficial effects as below: the liquid outlets in the present invention are defined at the cartridge, the liquid inlets are defined at the atomizer device, and the cartridge can rotate relatively to the atomizer device between a first position A and a second position B, to drive the liquid outlets aligning with or misaligning with the liquid inlets, to achieve injecting liquid solution to or partition the atomizer device, to make liquid injection process being convenient. The amount of injection liquid solution can be adjusted, at the same time, the leakage of liquid solution can be avoided during the transport or storage process, and higher utilization rate of liquid solution can be achieved.
In combination drawings with embodiments below to further illustrate the present invention, in the drawings:
For better understanding technical features, purpose and effect of the present invention, the following explanation in combination with drawings provides specific details for these embodiments of the present invention.
In some embodiments, the cartridge 10 includes a cartridge body 11 and a first cover body 12 arranged at an end portion of the cartridge body 11 opposite to the atomizer device 20. The first cover body 12 forms the first wall portion of the cartridge 10. The cartridge body 11 includes a first air flowing pipe 111 set longitudinally, and a liquid reservoir chamber 112 encircling the first air flowing pipe 111. The middle of the first air flowing pipe 111 defines a first air flowing channel 1111. In other embodiment, the cartridge body 11 and the first cover body 12 are integrally formed as one-piece. The first cover body 12 defines a sleeving hole 121 at the middle thereof. The sleeving hole 121 sleeves the outside of the first air flowing pipe 111. The first cover body 12 and the cartridge body 10 engage with each other by an interference fit, to achieve a better sealing effect. The first cover body 12 defines two liquid outlets 122 for communicating the internal of the liquid reservoir chamber 112 with the outside. The two liquid outlets 122 are optimally defined symmetrically at the first cover body 12.
The atomizer device 20 in some embodiments includes a base 21, a second air flowing pipe 22, a second cover body 23, a sleeve 24, a liquid suction body 25, and a heating member 26 coiling around the liquid suction body 25. The base 21 is substantially cylindrical. The second air flowing pipe 22 is embedded longitudinally into the bottom of the base 21, to form a liquid reservoir room 211 between the base 21 and the second air flowing pipe 22. Optimally, the base 21 and the second air flowing pipe 22 are integrally formed as one-piece by injection molding. The second air flowing pipe 22 defines a second air flowing channel 221 for airflow. The second cover body 23 engages with an open end of the base 21, to form a second wall portion enclosing the liquid reservoir room 211. When the cartridge 10 is mounted to the atomizer device 20, the first cover body 12 is rotatable around the axis thereof and abuts against the second cover body 23, to maintain the sealing of joint surfaces during rotation. The second cover body 23 defines two liquid inlets 232 for communicating the internal of the liquid reservoir room 211 with the outside, and an air vent 233 communicating with the first air flowing channel 1111 and the second air flowing channel 221 respectively. The two liquid inlets 232 are optimally defined symmetrically at the second cover body 23.
When the cartridge 10 is located at the first position A, the liquid outlet 122 aligns with the liquid inlet 232, to communicate the liquid reservoir chamber 112 with the liquid reservoir room 211, to let the liquid solution in the liquid reservoir 112 flow toward the liquid reservoir room. When the cartridge 10 is located at the second position B, the liquid outlet 122 misaligns with the liquid inlet 232, the liquid reservoir chamber 112 is disconnected with the liquid reservoir room 211, to prevent the liquid solution in the liquid reservoir 112 from flowing toward the liquid reservoir room 211. In other embodiments, the number of the liquid outlets 122 or the liquid inlets 232 can be set one or more, on condition that the liquid outlets 122 can align with the liquid inlets 232 during the cartridge 10 rotates.
Optimally, the shape of the liquid outlets 122 and the liquid inlets 232 are both fan-shaped. The two liquid outlets 122 are rotationally symmetrical relatively to the center of the axis, and the fan-shaped angle of the liquid outlets 122 is less than 90 degrees. The two liquid inlets 232 are rotationally symmetrical relatively to the center of the axis, and the fan-shaped angle of the liquid inlets 232 is less than 90 degrees. The cartridge 10 is rotatable with a range from 0˜90 degrees, to switch positions between a position of the liquid outlets 122 aligning with the liquid inlets 232 and a position of the liquid outlets 122 misaligning with the liquid inlets 232. At the same time, a size of the communication open between the liquid outlets 122 and the liquid inlets 232 are varied according to variation of the rotation angle, to adjust the injection amount.
In other embodiments, the engagement surface between the cartridge 10 and the atomizer device 20 can be arc-shaped, the liquid outlets 122 and the liquid inlets 232 are defined on the arc-shaped engagement surface respectively, the cartridge 10 can do lateral rotation forth and back relatively to the atomizer device 20 to allow the liquid outlets 122 to align with or misalign with the liquid inlets 232, to allow to inject or prevent from injecting liquid to the liquid reservoir room 211.
Referring to
The sealing gasket 235 includes a first protruding portion 2351 and a second protruding portion 2352 arranged on a surface thereof facing the first cover body 12, a third protruding portion 2353 extending from the outer ring of the air vent 233 toward the inner side of the second air flowing pipe 22, and a fourth protruding portion 2354 extending from the outer ring of the air vent 233 toward the inner side of the first air flowing pipe 111. The first protruding portion 2351 includes a plurality of ring shaped protrusions arranged equidistant from the axis. The protrusions abut against and engage with the first cover body 12. The bearing points between the first cover body 12 and the sealing gasket 235 are exerted on the ring shaped protrusions, but not the whole surface thereof, thereby friction between the first cover body 12 and the sealing gasket 235 can be lessen when the first cover body 12 rotates. As a result, when the cartridge 10 rotates forth and back, the elastic glue sealing gasket 235 can lessen the friction of the rotating first cover body 12, and can also ensure the sealing effect between the sealing gasket 235 and the first cover body 12.
In some embodiments, the second protruding portion 2352 encircles around the rim of the liquid inlets 232. The second protruding portion 2352 abuts against and engages with the first cover body 12, when the cartridge 10 rotates to the second position B, to ensure the sealing effect between the rim of the liquid inlet 232 and the first cover body 12. At the same time, even if a tiny deflection in axial direction between the first cover body 12 and the second cover body 23 is generated, the deformed second protruding portion 2352 still restores to abut against the first cover body 2352, to achieve a better sealing effect.
The third protruding portion 2353 engages with the internal wall of the second air flowing pipe 22, to ensure the sealing effect between the air vent 233 and the second air flowing channel 221. The fourth protruding portion 2354 engages with the internal wall of the first air flowing pipe 111, to ensure the sealing effect between the air vent 233 and the first air flowing channel 1111. It is noteworthy that the second protruding portion 2352 in some embodiment can be omitted.
The sidewall of the second air flowing pipe 22 defines two opposite through holes 222. The liquid suction body 25 is mounted to the through holes 222, to suck the liquid solution i the liquid reservoir room 211. The heating member 26 heats the liquid solution sucked in the liquid suction member 25.
Referring to
In some embodiments, the base 21 includes a connecting end 212 connected to the power supply device 30. The power supply device 30 is electrically connected to the heating member 26 for supplying power to heat and atomize the liquid solution sucked in the liquid suction body 25. The connecting end 212 defines an air inlet 2121 communicating with the second air flowing pipe 22. The power supply device 30 defines an air intake 31 to communicate with the air inlet 2121. When the smoker inhales, air flow into the second air pipe 22 by passing through the air intake 31 and the air inlet 2121 in turn. The atomized liquid solution together with air flow into the mouth of the smoker by passing through the second air flowing channel 221, the air vent 233, and the first air flowing channel 1111 in turn.
It is noteworthy that, the above-mentioned technical features can be used in any combination without restriction.
The disclosure described above of the present invention is illustrative but not restrictive scope of the present invention. Any equivalent structure, or equivalent process transformation, or directly or indirectly usage in other related technical field, all those be made in the same way are included within the protection scope of the present invention.
Filing Document | Filing Date | Country | Kind |
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PCT/CN2014/091158 | 11/14/2014 | WO | 00 |