CN211532786U - Aerosol generating device - Google Patents
Aerosol generating device Download PDFInfo
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- CN211532786U CN211532786U CN201921325755.3U CN201921325755U CN211532786U CN 211532786 U CN211532786 U CN 211532786U CN 201921325755 U CN201921325755 U CN 201921325755U CN 211532786 U CN211532786 U CN 211532786U
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Abstract
The utility model relates to an aerosol generating device, which comprises an aerosol generating component and a cover body, wherein the aerosol generating component is provided with an air outlet and is used for placing and atomizing aerosol generating substances so as to generate aerosol which is discharged to the air outlet; the cap is movably connected with the aerosol-generating assembly; when the cover body and the aerosol generating assembly move relatively, the cover body at least enables the air outlet to move from the opened state to the covered state or from the covered state to the opened state, so that when a smoker does not use the aerosol generating assembly, pollutants are prevented from entering the air outlet, and the cleanness of the device and the health of the smoker are guaranteed.
Description
Technical Field
The utility model relates to an electron cigarette technical field, more specifically say, relate to an aerosol generates device.
Background
Electronic cigarettes are sometimes referred to as electronic nebulizing devices, personal nebulizers, or electronic nicotine delivery systems. The electronic cigarette comprises a battery, a heating element, tobacco tar and a cigarette holder, wherein the battery is used for supplying power to the heating element, the heating element is used for atomizing the tobacco tar, and the cigarette holder is used for facilitating smokers to smoke. When the electronic cigarette in the prior art is not used, the cigarette holder of the electronic cigarette is always exposed. The surrounding environment and air may cause pollution to the cigarette holder of the electronic cigarette to different degrees, and the pollutants affect the health of people.
SUMMERY OF THE UTILITY MODEL
The utility model provides an aerosol generating device to the environment and the air around solving above-mentioned probably produce the technical problem of the pollution of different degrees to the cigarette holder of electron cigarette.
The utility model discloses a technical scheme do: there is provided an aerosol-generating device comprising:
an aerosol generating assembly having an air outlet for receiving and atomising an aerosol generating substance to produce an aerosol for egress to the air outlet;
a lid movably connected with the aerosol-generating assembly; wherein the content of the first and second substances,
the movement of the outlet from the open to the closed or closed to the open position occurs when relative movement occurs between the cap and the aerosol-generating assembly.
In certain embodiments, an aerosol-generating assembly comprises:
a housing having an accommodating chamber;
the aerosol generating main body is arranged in the accommodating cavity and is movably connected with the shell, and the air outlet is formed in one end of the aerosol generating main body;
a pulling assembly connecting the housing and the cap for pulling the cap to close or open the air outlet when the aerosol-generating body is moved between the first and second positions.
In some embodiments, the cover comprises:
the cover plate is used for covering or opening the air outlet;
and the hinged part is connected with one end of the cover plate, wherein one part of the traction assembly is clamped on the shell, and the other part of the traction assembly is elastically clamped at two ends of the hinged part.
In some embodiments, the cover further includes a fastening portion connected to the cover plate, and the housing has a fastening position inserted into the fastening portion.
In some embodiments, the traction assembly includes an elastic member, the elastic member includes a first hook portion, a second hook portion, and a first elastic portion, a second elastic portion, and a third elastic portion, which are fastened to the housing and sequentially connected to form a sliding gap, the first hook is connected to the first elastic portion, the second hook portion is connected to the third elastic portion, and the first hook and the second hook are respectively elastically clamped at two ends of the hinge portion.
In some embodiments, the first resilient portion has a first bending section, the third resilient portion has a second bending section, and the aerosol-generating body is provided with a first guide projection and a second guide projection; the first guide bulge and the second guide bulge respectively slide and abut against the first bending section and the second bending section, so that the distance between the first bending section and the second bending section is elastically increased.
The aerosol generation assembly further comprises a pressing plate, the pressing plate is arranged on the elastic piece in a pressing mode, and the first guide protrusion and the second guide protrusion penetrate through the pressing plate.
In some embodiments, the hinge portion is formed by bending one end of the cover plate towards the cover plate, wherein one end of the hinge portion is connected to one end surface of the cover plate, and the other end of the hinge portion forms a gap with the cover plate.
In some embodiments, the end face of the hinge has a high point and a low point with an arcuate recess formed therebetween, wherein when the aerosol generating body is slid from the second hair position to the first position, the end of the tow assembly disengages the high point and slides along the arcuate recess against the low point.
In some embodiments, the draft assembly further includes an elastic retractor elastically connected between the first elastic portion and the third elastic portion.
In some embodiments, a tow assembly includes:
the cover body is hinged with the shell through the hinge;
a pulling member having one end fixed to the lid and the other end fixed to the aerosol-generating body.
In some embodiments, the aerosol-generating body comprises:
an aerosol-generating body for receiving and atomizing an aerosol-generating substance to generate an aerosol;
the cigarette holder is in fluid connection with the aerosol generating body, and the air outlet is formed in the cigarette holder.
In some embodiments, the mouthpiece is received within the receiving cavity when the aerosol-generating body is in the second position, and the mouthpiece is spaced away from the lid when the aerosol-generating body is in the first position.
In some embodiments, the aerosol-generating assembly further comprises a protective sleeve slidably received over the aerosol-generating body, wherein the protective sleeve at least partially compresses the lid and extends out of the receiving cavity when the aerosol-generating body is in the first position.
In some embodiments, the protective sleeve has a sliding aperture and the aerosol-generating body has a projection that is slidingly engaged with the sliding aperture.
In some embodiments, the housing has a first positioning recess and a second positioning recess, the aerosol-generating assembly further comprises a sliding positioning member, one end of the sliding positioning member is inserted into the aerosol-generating body, and the other end of the sliding positioning member is matched with the first positioning recess and the second positioning recess; the first position and the second position are respectively a first positioning recess and a second positioning recess.
In certain embodiments, the aerosol-generating body has a slide rail, the housing has a chute slidably connected with the slide rail; or, the aerosol-generating body has a chute, and the housing has a slide rail slidably connected to the chute; wherein, the first position and the second position are two ends of the sliding groove respectively.
In certain embodiments, an aerosol-generating body comprises:
an atomizing assembly for receiving and atomizing an aerosol generating substance to produce an aerosol;
the battery assembly is electrically connected with the atomization assembly;
accept the shell, accept battery pack and can dismantle with atomization component and be connected.
And the conductive piece is inserted into the accommodating shell and is electrically connected with the atomizing assembly.
In certain embodiments, an aerosol-generating body comprises:
the electronic cigarette comprises an atomizing assembly, a battery assembly and a conductive piece, wherein the atomizing assembly is used for placing and atomizing aerosol generating substances to generate aerosol, and the atomizing assembly is electrically connected with the battery assembly through the conductive piece;
accommodate the shell, accommodate the electron cigarette, and can dismantle with the cigarette holder and be connected.
In some embodiments, the aerosol-generating assembly further comprises a pushing mechanism connected with the aerosol-generating body to push the aerosol-generating body to move between the first position and the second position.
In some embodiments, the housing has a sliding window and the pushing mechanism includes a push button movably coupled to the sliding window.
In some embodiments, the pushing mechanism comprises:
the starting piece is arranged on the shell;
a connector connected or movably connected with the aerosol-generating body;
and the power mechanism is electrically connected with the starting piece and is connected with the connecting piece.
In some embodiments, the pushing mechanism comprises any one of a motor, a pneumatic pump, a hydraulic pump, and an electromagnet.
In some embodiments, the aerosol-generating assembly comprises an electrically-conductive member disposed through the cap body and an atomizing assembly for receiving and atomizing an aerosol-generating substance to produce an aerosol, the aerosol-generating device further comprising:
the battery assembly is electrically connected with the atomization assembly through a conductive piece;
accommodate the shell, accommodate battery pack, the lid is located and is accommodated shell one end, atomizing subassembly and lid rotatable coupling.
In some embodiments, the cover is integrally formed with or removably attached to the receptacle.
In some embodiments, the cover body comprises a first hinge frame, a cover plate and a second hinge frame which are sequentially connected to form the accommodating groove, and two sides of the atomizing assembly are respectively rotatably connected to the first hinge frame and the second hinge frame.
In certain embodiments, the atomizing assembly comprises:
a storage unit for holding an aerosol generating substance;
and the atomization unit is electrically connected with the battery component at one end and connected with the storage unit at the other end and used for atomizing the aerosol generating substance to generate aerosol.
The utility model discloses beneficial effect: be different from prior art, the utility model provides a pair of aerosol generation device is equipped with the lid, and when taking place the motion relatively between lid and the aerosol generation subassembly, the lid makes the gas outlet from being opened the state and moving to being covered the state or closing the state from being covered and moving to being opened the state to when the smoker does not use the aerosol generation subassembly, avoid the pollutant to get into the gas outlet, ensured the cleanness of device and smoker's health.
Drawings
Figure 1a is a perspective view of an aerosol-generating device according to an embodiment of the present invention in an open state;
FIG. 1b is a perspective view of an aerosol-generating device according to an embodiment of the present invention in a closed position
Figure 2 is an exploded view of the aerosol-generating device shown in figure 1;
figure 3 is a schematic view of a variation of the resilient member in the aerosol-generating device of figure 2;
figure 4 is a perspective view of another side of the aerosol-generating device shown in figure 1 a;
figure 5 is a schematic view of part of an aerosol-generating body in the aerosol-generating device of figure 2;
figure 6 is an enlarged partial schematic view a of the cap in the aerosol-generating device of figure 2;
figure 7 is a cross-sectional view of the aerosol-generating device shown in figure 1 b;
figure 8 is a perspective view of another embodiment of an aerosol-generating body in the aerosol-generating device shown in figure 2;
figure 9 is a perspective view of another embodiment of a push button in the aerosol-generating device shown in figure 2;
figure 10 is a cross-sectional view of an aerosol-generating device according to another embodiment of the invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.
In the present application, when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. When an element is referred to as being "coupled" to another element, the elements engage one another to perform a machine function, including both dynamic and static couplings. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only. The various objects of the drawings are drawn to scale for ease of illustration and not to scale for actual components.
The embodiment of the utility model provides a so-called "aerosol generating material" refers to the smoke substance, is the material that can produce smell and/or nicotine and/or flue gas through heating or burning, can be by the material of atomizing, the cigarette material promptly. The tobacco material can be solid, semi-solid and liquid. Solid tobacco materials are often processed into sheet-like products due to considerations such as breathability, assembly, and manufacture, and are also commonly referred to as sheet, and filamentary sheet is also referred to as sheet filament. The tobacco material discussed in the embodiments of the present invention may be natural or synthetic tobacco liquid, tobacco oil, tobacco glue, tobacco paste, tobacco shred, tobacco leaf, etc., for example, the synthetic tobacco material contains glycerin, propylene glycol, nicotine, etc. The tobacco liquid is liquid, the tobacco tar is oily, the tobacco gel is gelatinous, the tobacco paste is pasty, the tobacco shreds comprise natural or artificial or extracted tobacco shreds, and the tobacco leaves comprise natural or artificial or extracted tobacco leaves. The smoking material may be heated in the form of an enclosure with other materials, such as in a heat-degradable package, for example a microcapsule, from which the desired volatile material is derived after heating.
The embodiment of the utility model provides a tobacco material can contain nicotine, also can not contain nicotine. The tobacco material containing nicotine may include at least one of natural tobacco leaf product, tobacco liquid, tobacco oil, tobacco glue, tobacco paste, tobacco shred, tobacco leaf, etc. prepared from nicotine. The tobacco liquid is in water state, the tobacco tar is in oil state, the tobacco gum is in gel state, the tobacco paste is in paste state, the tobacco shred comprises natural or artificial or extracted tobacco shred, and the tobacco leaf comprises natural or artificial or extracted tobacco leaf. The nicotine-free tobacco material mainly contains fragrant substances, such as spices, and can be atomized to simulate smoking process and quit smoking. In another embodiment, the flavor comprises peppermint oil. The smoking material may also include other additives such as glycerin and/or propylene glycol.
Referring to fig. 1 a-2, fig. 1a is a perspective view of an open state of an aerosol-generating device according to an embodiment of the invention; fig. 1b is a perspective view of an aerosol-generating device according to an embodiment of the present invention in a closed position; fig. 2 is an exploded view of the aerosol-generating device shown in fig. 1, the aerosol-generating device 10 of the present invention comprising an aerosol-generating assembly 100 and a cap 200.
The aerosol generating assembly 100 has an air outlet 101, the aerosol generating assembly 100 being for receiving an aerosol generating substance and for atomising the aerosol generating substance to produce an aerosol for egress to the air outlet 101; the cap 200 is movably connected with the aerosol-generating assembly 100. Upon relative movement between the cap 200 and the aerosol-generating assembly 100, the cap 200 moves the air outlet 101 from an open state to a closed state (fig. 1b), from a closed state to an open state (fig. 1a), or partially closed and partially open. Optionally, a force may be applied to the cap 200 and/or the aerosol-generating assembly 100, and relative movement between the cap 200 and the aerosol-generating assembly 100 may occur when the cap 200 and/or the aerosol-generating assembly 100 are subjected to the force.
The utility model provides a pair of aerosol generation device 10 is because of being equipped with lid 200, when taking place the motion relatively between lid 200 and aerosol generation subassembly 100, lid 200 makes gas outlet 101 move to being covered the state or close the state motion to being opened the state from being opened the state to being covered to when the smoker does not use aerosol generation subassembly 100, avoid the pollutant to get into gas outlet 101, ensured the cleanness of device and smoker's health.
In another embodiment, the aerosol-generating assembly 100 comprises a housing 110, an aerosol-generating body 120 and a pulling assembly, the housing 110 having a receiving cavity 102 and an outlet 103, the receiving cavity 102 being adapted to receive the aerosol-generating body 120, a cover 200 being pulled by the pulling assembly to close or open the outlet 103, a gas outlet 101 opening onto an end of the aerosol-generating body 120, the aerosol-generating body 120 being adapted to receive and atomize an aerosol-generating substance to produce an aerosol which is emitted towards the gas outlet 101. Optionally, the aerosol-generating bodies 120 are one or more, and the plurality of disposable aerosol-generating bodies 120, when sequentially stressed, may sequentially push the cap 200 to move the air outlet 101 from the closed state to the open state.
In another embodiment, as shown in fig. 1a and 1b, when the aerosol-generating body 120 is forced to move from the first position to the second position, the aerosol-generating body 120 is completely retracted into the receiving cavity 102, and the cover 200 is forced to move the air outlet 101 from the opened state to the closed state by the force of the pulling element. When the aerosol-generating body 120 is forced from the second position to the first position, the cap 200 may be pushed to open and extend out of the outlet 103 to move the air outlet 101 from the closed state to the open state. In the embodiment, the air outlet 101 is disposed adjacent to the outlet 103 or is in a plane with the outlet 103, so that the cover 200 covers or opens the outlet 103 to cover or open the air outlet 101.
For convenience of understanding, the moving direction of the aerosol-generating body 120 to the accommodating cavity 102 is defined as a first direction 11, and the moving direction of the aerosol-generating body 120 to push the cover 200 to extend out of the accommodating cavity 102 is defined as a second direction 12. The direction of movement of the aerosol-generating body 120 from the first position to the second position is parallel to the first direction 11 and the direction of movement of the aerosol-generating body 120 from the second position to the first position is parallel to the second direction 12.
In another embodiment, the aerosol-generating body 120 has a chute 122 and the housing 110 has a sliding rail 121 slidably connected with the chute 122, or the aerosol-generating body 120 has a sliding rail 121 and the housing 110 has a chute 122 slidably connected with the sliding rail 121. The chute 122 may be a T-shaped chute 122, and correspondingly, the slide rail 121 may be a T-shaped slide rail 121; alternatively, the sliding groove 122 may be a linear sliding groove 122, and correspondingly, the sliding rail 121 may be a linear sliding rail 121, and of course, the sliding rail 121 may also be a sliding rail 121 formed by more than 1 protrusion. For convenience of illustration, in the following embodiments, the aerosol-generating body 120 has a sliding groove 122, the housing 110 has a sliding rail 121 slidably connected to the sliding groove 122, and the sliding rail 121 is two protrusions.
In another embodiment, the housing 110 has a first positioning recess 104 and a second positioning recess 105. The aerosol-generating component 100 further comprises a sliding positioning member 140 having one end inserted into the aerosol-generating body 120 and the other end mating with the first positioning recess 104 and the second positioning recess 105. The sliding positioning element 140 may be a positioning bead, and the first positioning recess 104 is disposed above or below the sliding rail 121, or between two protrusions. The first position and the second position are positions where the positioning bead slides to reach the first positioning recess 104 and the second positioning recess 105 after the aerosol generating main body 120 slides, specifically, in a normal state, the aerosol generating main body 120 is at the second position when not in use, that is, the sliding positioning piece 140 is located in the second positioning recess 105, at this time, the aerosol generating main body 120 is completely accommodated in the accommodating cavity 102, the cover 200 covers the outlet 103, and the air outlet 101 is in a covered state. When the aerosol-generating body 120 is pushed in the second direction 12, the sliding positioning member 140 elastically separates from the second positioning recess 105 and slides along the inner wall of the housing 110 toward the first positioning recess 104, the end of the aerosol-generating body 120 abuts against the cover 200, the cover 200 is pushed to open, and finally the sliding positioning member 140 elastically slides into the first positioning recess 104, i.e., reaches the first position, at this time, the cover 200 is completely open, and the end of the aerosol-generating body 120 extends out of the opening 103, so that the air outlet 101 is exposed to the air and enters a completely open state. After the aerosol generating main body 120 is used, the aerosol generating main body 120 may be pushed back along the first direction 11, the sliding positioning member 140 elastically separates from the first positioning recess 104 and slides along the inner wall of the housing 110 to the second positioning recess 105, when the sliding positioning member 140 elastically slides into the second positioning recess 105, the aerosol generating main body 120 reaches the second position, and at this time, the aerosol generating main body 120 is retracted to the receiving cavity 102, and the cover 200 pulls the covering outlet 103 by the pulling force of the pulling assembly, so that the air outlet 101 enters the covered state.
In other embodiments, the sliding positioning element 140, the first positioning recess 104 and the second positioning recess 105 may not be provided, and the first position and the second position may be two ends of the sliding slot 122 respectively.
In another embodiment, the cover 200 includes a cover plate 210 and a hinge 220. The cover plate 210 is used for covering or opening the air outlet 101; the hinge portion 220 is connected to one end of the cover plate 210, one part of the traction assembly is clamped to the housing 110, and the other part of the traction assembly is elastically clamped to two ends of the hinge portion 220.
In another embodiment, the cover 200 further includes a fastening portion 230, the fastening portion 230 is connected to the cover plate 210, the end of the housing 110 has a fastening position 107, and when the cover 200 is in the closed position, the fastening portion 230 is inserted into the fastening position 107. Optionally, there may be two buckling parts 230, which are respectively vertically connected to two ends of the cover plate 210, and correspondingly, there are two buckling positions 107; of course, there may be three fastening parts 230, and the three fastening parts 230 are respectively vertically connected to three side surfaces of the cover plate 210. The buckling position 107 may be hole-shaped or groove-shaped.
Referring to fig. 3 and 4 together, fig. 3 is a schematic structural diagram of a change of an elastic member in the aerosol generating device shown in fig. 2, fig. 4 is a perspective view of the other side of the aerosol generating device shown in fig. 1a, in another embodiment, the pulling assembly includes an elastic member 131 and an elastic shrinking member 132, the elastic member 131 includes a first hook portion 1311, a second hook portion 1312, and a first elastic portion 1313, a second elastic portion 1314, and a third elastic portion 1315 which are fastened to the housing 110 and vertically connected in sequence to form a U-shaped sliding gap, the first hook portion 1311 is connected to the first elastic portion 1313, the second hook portion 1312 is connected to the third elastic portion 1315, and the first hook and the second hook are respectively elastically clamped at two ends of the hinge portion 220. The elastic contraction member 132 is elastically connected between the first elastic part 1313 and the third elastic part 1315, and the elastic contraction member 132 may be a spring, a rubber band, or the like.
Preferably, before the elastic member 131 is not installed on the hinge portion 220, the elastic member 131 is in an unstressed state, and the distance D between the first elastic portion 1313 and the third elastic portion 1315 is1Less than the distance D between the two ends of the hinge portion 2202. When the elastic member 131 is installed, the first elastic part 1313 and the third elastic part 1315 need to be installed to both ends of the hinge part 220 by increasing the distance therebetween, so that after the elastic member 131 is installed, the distance D between the first elastic part 1313 and the third elastic part 1315 is increasedBecomeIs greater than the distance D between both ends of the hinge part 2202A distance D between the first elastic part 1313 and the third elastic part 13151The elastic force between the first elastic portion 1313 and the third elastic portion 1315 is increased, so that the first hook portion 1311 and the second hook portion 1312 are elastically clamped to both ends of the hinge portion 220, and the cover 210 is rotated in the direction of the elastic member 131 (when the cover 210 is not pressed by the exposed end of the aerosol generating body 120), so that the cover 210 covers the outlet 103. When the aerosol-generating body 120 is in the first position, the resilience between the first elastic portion 1313 and the third elastic portion 1315 causes the cover 210 to elastically rotate and abut against the outer surface of the aerosol-generating body 120, and the cover 210 forms a certain angle with the aerosol-generating body 120.
Preferably, the elastic contraction member 132 is disposed near the first hook 1311 and the second hook 1312, and the distance D between the two ends of the elastic contraction member 1323Is smaller than the distance D between the first elastic part 1313 and the third elastic part 13151So as to increase the elastic force between the first elastic portion 1313 and the third elastic portion, and further increase the elastic clamping force of the first hook portion 1311 and the second hook portion 1312 acting on the two ends of the hinge portion 220, thereby making the cover plate 210 elasticThe member 131 is resiliently biased back to cover the outlet 103.
Preferably, the aerosol-generating body 120 has a projection length L out of the outlet 103 when it reaches the first position1Is greater than the length L of the cover body 200 in the first direction 112So as to prevent the elastic member 131 from having an excessive elastic force and the cover 200 from being unstably opened.
Referring to fig. 5, fig. 5 is a schematic structural diagram of an aerosol generating body in the aerosol generating device shown in fig. 2, in another embodiment, the first elastic portion 1313 has a first bending section 1316 bent inward, the third elastic portion 1315 has a second bending section 1317 bent inward, the first bending section 1316 and the second bending section 1317 are U-shaped, arc-shaped or trapezoid, the first bending section 1316 and the second bending section 1317 form a sliding gap in the elastic member 131 with a first gap 1301, a second gap 1302 and a third gap 1303, wherein the gap between the first bending section 1316 and the second bending section 1317 is the second gap 1302. Width d of the second gap 13022Greater than the width d of the first gap 13011And the width d of the third gap 13033Width d of the first gap 13011Is greater than or equal to the width d of the third gap 13033. The aerosol-generating body 120 is provided with a first guide projection 123 and a second guide projection 124. Preferably, the first guide protrusion 123 and the second guide protrusion 124 are axially symmetrically disposed, two sides of the first bending section 1316 and the second bending section 1317 are respectively provided with a first slope 131a, a guide plane 132b and a second slope 132c which are sequentially bent to form a trapezoid shape, and two sides of the first guide protrusion 123 and the second guide protrusion 124 are respectively provided with a first guide slope 120a, a sliding platform 120b and a second guide slope 120c which are sequentially connected to form a trapezoid shape. Width d of the second gap 13022Referring to the distance between the guide plane 132b of the first bending section 1316 and the guide plane 132b of the second bending section 1317, the distance between the sliding platform 120b of the first guide protrusion 123 and the sliding platform 120b of the second guide protrusion 124 is greater than the distance between the guide plane 132b of the first bending section 1316 and the guide plane 132b of the second bending section 1317. When the aerosol-generating body 120 is moved in the first direction 11, the first guide slope 120a slides along the first slope 131a into the second gap 1302, the first guide slopeAfter the guiding inclined plane 120a slides out of the first sloping surface 131a, the sliding platform 120b is attached to the guiding plane 132b and slides towards the third gap 1303; when the aerosol-generating body 120 moves in the second direction 12, the second guiding inclined surface 120c slides into the second gap 1302 along the second sloping surface 132c, and the sliding platform 120b slides in the direction of the first gap 1301 after the second guiding inclined surface 120c slides out of the second sloping surface 132c and then abuts against the guiding plane 132 b.
In this embodiment, when the aerosol-generating body 120 is in the second position, the first guide protrusion 123 and the second guide protrusion 124 are located in the third gap 1303, and when the aerosol-generating body 120 is pushed to make the ends thereof abut against and push the cover plate 210, the first guide protrusion 123 and the second guide protrusion 124 move to the second gap 1302 and slide against the first bending section 1316 and the second bending section 1317, respectively, so that the distance between the first bending section 1316 and the second bending section 1317 is elastically increased (i.e. the width of the second gap 1302 is increased by d)2Is changed into dBecome) Thereby driving the first hook 1311 and the second hook 1312 to elastically open and move back from the two ends of the hinge 220 (as shown in the dotted line in fig. 3), respectively, so as to eliminate or reduce the clamping force at the two ends of the hinge 220, and thus the cover 210 can be flexibly opened. As the aerosol-generating body 120 continues to push the aerosol-generating body 120 to the first position with its end protruding out of the outlet 103, the first and second guide projections 123, 124 slide out of the second gap 1302 and into the first gap 1301. When the aerosol generating body 120 slides and retracts to the second position, the first guide protrusion 123 and the second guide protrusion 124 sequentially move from the first gap 1301 and the second gap 1302 to the third gap 1303, the cover plate 210 is not blocked by the end portions of the aerosol generating body 120, and the first hook portion 1311 and the second hook portion 1312 are elastically clamped at the two ends of the hinge portion 220 by the resilience between the first elastic portion 1313 and the third elastic portion 1315, and the cover plate 210 is pulled to elastically rotate toward the elastic member 131, so that the cover plate 210 covers the outlet 103.
In another embodiment, the aerosol-generating assembly 100 further comprises a pressure plate 150 interposed between the aerosol-generating body 120 and the pulling assembly for pressing the resilient member 131 against the bottom panel 113 of the housing 110. The pressure plate 150 has a limiting slide hole 151, and the first guide protrusion 123 and the second guide protrusion 124 pass through the limiting slide hole 151 to slide in the first gap 1301, the second gap 1302, and the third gap 1303. The elastic contracting element 132 is partially clamped in the housing and partially penetrates through the pressing plate 150.
In another embodiment, as shown in fig. 3, the first elastic portion 1313 further has a third bending portion 1318 formed by bending inward, the third elastic portion 1315 has a fourth bending portion 1319 formed by bending inward, the third bending portion 1318 and the fourth bending portion 1319 are U-shaped, arc-shaped or trapezoid, and the elastic contraction member 132 has one end connected to the third bending portion 1318 and the other end connected to the fourth bending portion 1319.
Referring to fig. 6, fig. 6 is a partially enlarged schematic view of a lid a of the aerosol-generating device shown in fig. 2. In another embodiment, the hinge portion 220 is formed by bending one end of the cover plate 210 toward the cover plate 210, wherein one end of the hinge portion 220 is connected to one end surface of the cover plate 210, and the other end forms a gap 225 with the cover plate 210.
In another embodiment, the hinge 220 has an upper limit point 221 and a lower limit point 222 on both end surfaces thereof, and an arc-shaped recess 223 is formed between the upper limit point 221 and the lower limit point 222, wherein when the aerosol generating body 120 moves from the first position to the second position, the elastic clamping action of the elastic member 131 causes the end portion of the elastic member 131 to disengage from the upper limit point 221 and slide along the arc-shaped recess 223 and abut against the lower limit point 222.
Specifically, the distance between the two upper limit points 221 of the hinge 220 of the present embodiment is greater than the distance between the two lower limit points 222. Referring to fig. 6, when the cover plate 210 is in a closed state, that is, when the aerosol generating main body is in the second position, the bending sections 130a of the first and second hooks 1311, 1312 abut against the low limit point 222 of the hinge 220, when the aerosol generating main body 120 moves from the second position to the first position, that is, when the cover plate 210 is pushed by the end of the aerosol generating main body 120 and is pressed to be completely opened, the bending section 130a separates from the low limit point 222 and slides to abut against the high limit point 221, and the distance between the first elastic section 1313 and the third elastic section 1315 is elastically expanded, so as to drive the distance between the first and second hooks 1311, 1312 to be elastically expanded, and simultaneously, the elastic contracting member 132 is further elastically elongated, so that the elastic contracting force of the elastic contracting member 132 between the first and second hooks 1311, 1312 is increased; when the aerosol-generating main body 120 moves from the first position to the second position and is pushed back into the housing 110, and the cover plate 210 is not stressed, the contraction force of the elastic contraction member 132 elastically contracts between the first elastic portion 1313 and the third elastic portion 1315 to drive the first hook portion 1311 and the second hook portion 1312 to elastically contract, so that the clamping force of the first hook portion 1311 and the second hook portion 1312 on the two ends of the hinge portion 220 is increased, the bending section 130a of the first hook portion 1311 and the second hook portion 1312 is forced to be separated from the high limit point 221 and slidably abutted against the low limit point 222, the distance between the first hook portion 1311 and the second hook portion 1312 is elastically reduced, the clamping force on the two ends of the hinge portion 220 is excessive from large to small, and the cover plate 210 is forced to instantaneously cover the outlet 103.
In another embodiment, the aerosol-generating device 10 is substantially the same as any of the embodiments described above, except that the pulling assembly has different components and connections than the pulling assembly of any of the embodiments described above, and in particular, the pulling assembly of this embodiment comprises a hinge and a pulling member. The cover 200 is hinged to the housing 110 through a hinge, which may be a rotating shaft; the pulling member, which may be a rubber band or a string, is secured at one end to the cap 200 and at the other end to the aerosol-generating body 120. With the aerosol-generating body 120 in the first position, the traction member has minimal or no traction, and is in a natural state of flexion; the traction is greatest when the aerosol-generating body 120 is in the second position and is in a straightened, taut state.
In another embodiment, as shown in fig. 1, the aerosol-generating body 120 comprises an aerosol-generating body 125 and a mouthpiece 126. An aerosol-generating body 125 for receiving and atomizing an aerosol-generating substance to generate an aerosol; the mouthpiece 126 is in fluid connection with the aerosol-generating body 125, and the air outlet 101 is open to the mouthpiece 126.
In another embodiment, the mouthpiece 126 is received in the receiving cavity 102 when the aerosol-generating body 125 is in the second position, and the mouthpiece 126 is away from the lid 200 when the aerosol-generating body 120 is in the first position, i.e., the end of the aerosol-generating body 120 presses against the lid 200 while the mouthpiece 126 is separated from (not in contact with) the lid 200 to prevent the mouth of the smoker from contacting contaminants on the lid.
In another embodiment, as shown in fig. 1, the aerosol-generating assembly 100 further comprises a protective sleeve 160 slidably received in the aerosol-generating body 125, wherein when the aerosol-generating body 120 is in the second position, the protective sleeve 160 is received in the receiving cavity 102, and when the aerosol-generating body 120 is in the first position, the protective sleeve 160 at least partially presses against the cover 200 and extends out of the receiving cavity 102. Specifically, the protective sheath 160 has a slide guide hole 161, and the aerosol generating body 125 has a protrusion 152, and the protrusion 152 is slidably connected to the slide guide hole 161 to push the protective sheath 160 to slide out of the outlet 103 and retract into the receiving cavity 102.
In another embodiment, the housing 110 includes a rear cover 111, and a left side plate 112, a bottom plate 113, and a right side plate 114 connected in sequence to form a U shape, the rear cover 111 and the cover plate 210 are respectively disposed at two ends of the left side plate 112/the bottom plate 113/the right side plate 114 to form the receiving cavity 102, the left side plate 112 is formed with a first positioning recess 104, a second positioning recess 105, and a slide rail 121, and the right side plate 114 is also formed with a first positioning recess 104, a second positioning recess 105, and a slide rail 121.
Referring also to fig. 7, fig. 7 is a cross-sectional view of the aerosol-generating device shown in fig. 1b, and in another embodiment, the aerosol-generating body 125 comprises an atomizing assembly 1251, a battery assembly 1252, a housing case 1253, and a conductive member 1254. An atomizing assembly 1251 for receiving and atomizing an aerosol generating substance to produce an aerosol, the mouthpiece 126 being connected to the atomizing assembly 1251, optionally the atomizing assembly 1251 being integrally formed with the mouthpiece 126 or being removably connected thereto; battery assembly 1252 is electrically coupled to atomization assembly 1251; a housing case 1253 for housing the battery pack 1252, one end of the housing case 1253 being detachably connected to the atomizing assembly 1251, and a circuit board (not shown) for controlling circuit components being provided in the housing case 1253; conductor 1254 is inserted into housing 1253 and electrically connected to atomizing assembly 1251.
Fig. 8 is a perspective view of another embodiment of an aerosol-generating body in the aerosol-generating device shown in fig. 2, in which the aerosol-generating device 10 is substantially the same as any of the embodiments described above, except that the aerosol-generating body 125 ' has different constituent components and connection manners, and specifically, the aerosol-generating body 125 ' of the present embodiment includes an e-cigarette 1255 and a housing case 1253 '. The electronic cigarette 1255 is a strip-shaped, and is a common simulated cigarette electronic product, which includes an atomizing assembly, a battery assembly, and a conductive member (not shown), wherein the atomizing assembly is used for placing and atomizing an aerosol generating substance to generate aerosol, and the atomizing assembly is electrically connected to the battery assembly through the conductive member. The housing case 1253 'houses the electronic cigarette 1255' and is detachably connected to the mouthpiece 126. Preferably, the containment case 1253' has no circuit board or battery.
In another embodiment, the aerosol-generating assembly 100 further comprises a pushing mechanism movably connected with the aerosol-generating body 120 to push the aerosol-generating body 120 to slide between the first position to the second position.
In another embodiment, as shown in fig. 1, the housing 110 further comprises a panel 115, the cover is housed in the housing 102, the panel 115 has a sliding window, and the pushing mechanism comprises a pushing button 171 movably connected to the sliding window 172.
Referring also to fig. 9, fig. 9 is a perspective view of another embodiment of a push button in the aerosol-generating device shown in fig. 2. In another embodiment, the pushing mechanism is different from the above-mentioned pushing mechanism in terms of component parts and connection relationship, and specifically, the pushing mechanism in this embodiment includes an actuating member (not shown), a connecting member 174, and a power mechanism, where the actuating member is disposed on the housing 110 and is used for actuating the power mechanism 175; the connector 174 is connected or movably connected with the aerosol-generating body 120; the power mechanism is electrically connected to the actuator and to the connector 174.
The connector 174 includes a connection plate 1741 and a connection buckle 1742. The two connecting buckles 1742 are respectively and fixedly connected to two sides of the connecting plate 1741, and are fixedly connected or fastened to two sides of the aerosol generating main body 120. The power mechanism in the embodiment comprises a power source 1751, a fixing plate 1752, a driving shaft 1753, a driven shaft 1754, a turbine 1755, a worm 1756, a guide plate 1757, a guide column 1758 and a support column 1759. The fixing plate 1752 is detachably coupled to the coupling plate 1741, and particularly, may be coupled by screws. The primary shaft 1753 is fixedly attached to the power source 1751; the driven shaft 1754 engages the main shaft. Turbine 1755 is fixedly connected to driven shaft 1754 via a rotary shaft. Worm 1756 meshes with worm gear 1755. The guide plate 1757 includes a first guide plate 175a, a second guide plate 175b, and a third guide plate 175 c. The first guide plate 175a is fixedly connected with a power source 1751, the first guide plate 175a, the second guide plate 175b and the third guide plate 175c are respectively connected through a support column 1759, a driving shaft 1753 and a driven shaft 1754 are arranged between the first guide plate 175a and the second guide plate 175b, a turbine 1755 is arranged between the second guide plate 175b and the third guide plate 175c, the first guide plate 175a, the second guide plate 175b and the third guide plate 175c are respectively provided with a first guide hole and a second guide hole, one end of a worm 1756 is fixed on a fixing plate 1752, the other end of the worm 1756 is driven by the power source 1751 to slide among the first guide holes 1701 of the first guide plate 175a, the second guide plate 175b and the third guide plate 175c, one end of a guide column 1758 is fixed on the fixing plate 1752, and the other end slides between the second guide holes 1702 of the first guide plate 175a, the second guide plate 175b, and the third guide plate 175c by the power source 1751.
In another embodiment, the components and connection relationship of the power mechanism are not exactly the same as those of the power mechanism of the above embodiment, and specifically, the power mechanism includes a power source (not shown) and a screw rod (not shown), the power source 1751 is movably coupled to the connection plate 1741 through the screw rod (not shown), the screw rod is provided with an external thread, the connection member is provided with an internal thread, and the screw rod is inserted through the connection plate 1741 and engages with the threads of the connection plate 1741. Rotation of power source 1751 drives the lead screw to rotate, and the lead screw in turn pushes aerosol-generating body 120 to slide between the first position and the second position.
The power source 1751 in any of the above embodiments is a motor, and may be any of a pneumatic pump, a hydraulic pump, and an electromagnet. For example, instead of a motor, a pneumatic pump or a hydraulic pump is directly used, and instead of a screw rod, a transmission rod is connected to the connecting member 174, thereby pushing the aerosol-generating body 120; in embodiments using an electromagnet as the power mechanism 175, instead of a motor, an electromagnet is used, instead of the connector 174, and when the electromagnet attracts the magnetic element, the aerosol-generating body 120 is pushed to move in the first direction 11, and when the electromagnet repels the magnetic element, the aerosol-generating body 120 is pushed to move in the second direction 12, the electromagnet preferably can change the direction of the magnetic field, and the direction of the magnetic field can be changed by changing the flow direction of the current, thereby facilitating control of the direction of movement of the aerosol-generating body 120.
Referring to fig. 10, fig. 10 is a cross-sectional view of an aerosol-generating device according to another embodiment of the present invention, in which the aerosol-generating device 20 includes an aerosol-generating assembly 100 and a cover 200.
The aerosol-generating assembly 100' of the present embodiment includes a conductive member 1254, an atomizing assembly 1251 and a mouthpiece 126, the conductive member 1254 is disposed through the cover 200, the atomizing assembly 1251 is connected to the mouthpiece 126 for receiving and atomizing an aerosol-generating substance to generate an aerosol, the mouthpiece 126 is provided with an air outlet 101, and the atomizing assembly 1251 and the mouthpiece 126 can be integrally formed or detachably connected; the aerosol-generating device 20 further includes a battery assembly 1252 and a containment case 1253. Battery assembly 1252 is electrically coupled to atomizing assembly 1251 via electrical conductor 1254; the housing case 1253 houses the battery module 1252, the lid body 200 is provided at one end of the housing case 1253, and the atomizing module 1251 and the lid body 200 are rotatably connected. The cover 200 is integrally formed with or detachably connected to the housing 1253.
Specifically, in the present embodiment, the cover 200 includes a first hinge frame 230, a cover plate 210, and a second hinge frame 240 connected in sequence to form a U-shaped receiving slot 250, the first hinge frame 230 and the second hinge frame 240 are connected to opposite sides of the cover plate 210, and the cover plate is covered on an end surface of the receiving case 1253. Alternatively, the first hinge frame 230, the second hinge frame 240, and the cover plate 210 are integrally formed, and the cover body is integrally formed with the housing case 1253; alternatively, the first hinge frame 230 and the second hinge frame 240 are integrally formed with the housing 1253, and the cover plate 210 is detachably coupled to the housing 1253. Atomizing assembly 1251 is rotatably coupled at both sides to first hinge frame 230 and second hinge frame 240, respectively, and conductive member 1254 is inserted into cover plate 210. The first hinge frame 230 and the second hinge frame 240 have sliding holes 241, and the atomizing assembly 1251 has a rotating protrusion 242, and the rotating protrusion 242 is slidably and rotatably coupled to the sliding holes 241. Specifically, in the use state of the atomizing assembly 1251, the rotating protrusion 242 is located at the lowermost end of the sliding hole 241, the atomizing assembly 1251 is in contact with the conductive member 1254 to be electrically connected, the mouthpiece 126 is away from the receiving groove 250 of the cover body 200, and the air outlet 101 is in an opened state; after use, the atomizing assembly 1251 moves to the topmost end of the sliding hole 241 through the rotating protrusion 242, and rotates the atomizing assembly 1251 so that the mouthpiece 126 is opposite to the accommodating groove 250, and the atomizing assembly 1251 is disconnected from the conductive member 1254, and further pushes the atomizing assembly 1251 so that the mouthpiece 126 is accommodated in the accommodating groove 250 of the cover body 200, thereby moving the air outlet 101 from the opened state to the closed state.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (27)
1. An aerosol-generating device, comprising:
an aerosol generating assembly having an air outlet for receiving and atomising an aerosol generating substance to produce an aerosol for egress to the air outlet;
a cap movably connected with the aerosol-generating assembly; wherein the content of the first and second substances,
movement of at least the air outlet from the open to the closed condition or vice versa occurs upon relative movement between the cap and the aerosol-generating assembly.
2. An aerosol-generating device according to claim 1, wherein the aerosol-generating assembly comprises:
a housing having an accommodating chamber;
the aerosol generating main body is arranged in the accommodating cavity and is movably connected with the shell, and the air outlet is formed in one end of the aerosol generating main body;
a pulling assembly connecting the housing and the cap for pulling the cap to close or open the air outlet when the aerosol-generating body is moved between the first and second positions.
3. An aerosol-generating device according to claim 2, wherein the cap comprises:
the cover plate is used for covering or opening the air outlet;
the hinge part is connected to one end of the cover plate; one part of the traction assembly is arranged on the shell, and the other part of the traction assembly is elastically clamped at two ends of the hinged part.
4. An aerosol-generating device according to claim 3, wherein the cover further comprises a fastening portion connected to the cover plate, and the housing has a fastening position for mating with the fastening portion.
5. An aerosol-generating device according to claim 3, wherein the pulling member comprises an elastic member, the elastic member comprises a first hook portion, a second hook portion, and a first elastic portion, a second elastic portion, and a third elastic portion, which are disposed on the housing and sequentially connected to form a sliding gap, the first hook portion is connected to the first elastic portion, the second hook portion is connected to the third elastic portion, and the first hook and the second hook are respectively elastically clamped at two ends of the hinge portion.
6. An aerosol-generating device according to claim 5, wherein the first resilient portion has a first bending section and the third resilient portion has a second bending section, and the aerosol-generating body is provided with a first guide projection and a second guide projection, which resiliently increase the distance between the first bending section and the second bending section when the first guide projection and the second guide projection slide against the first bending section and the second bending section, respectively.
7. An aerosol-generating device according to claim 6, wherein the aerosol-generating assembly further comprises a pressure plate pressed against the resilient member; the first guide protrusion and the second guide protrusion penetrate through the pressing plate.
8. An aerosol-generating device according to claim 4, wherein the hinge portion is connected at one end to an end face of the cover plate and at the other end is bent towards the cover plate and forms a gap with the cover plate.
9. An aerosol-generating device according to claim 3, wherein the end face of the hinge has a high point and a low point with an arcuate recess formed therebetween, wherein when the aerosol-generating body is moved from the first position to the second position, the end of the pull assembly disengages the high point and slides along the arcuate recess against the low point.
10. An aerosol-generating device according to claim 5, wherein the pulling assembly further comprises a resilient constriction resiliently connected between the first resilient portion and the third resilient portion.
11. An aerosol-generating device according to claim 2, wherein the pulling assembly comprises:
the cover body is hinged with the shell through a hinge;
a pulling member having one end fixed to the lid and the other end fixed to the aerosol-generating body.
12. An aerosol-generating device according to claim 2, wherein the aerosol-generating body comprises:
an aerosol-generating body for receiving and atomising the aerosol-generating substance to generate the aerosol;
a mouthpiece fluidly connected to the aerosol generating body, the air outlet being open to the mouthpiece.
13. An aerosol-generating device according to claim 12, wherein the mouthpiece is received within the receiving cavity when the aerosol-generating body is in the second position and the mouthpiece is remote from the lid when the aerosol-generating body is in the first position.
14. An aerosol-generating device according to claim 12, wherein the aerosol-generating assembly further comprises a protective sleeve slidably received over the aerosol-generating body, wherein the protective sleeve at least partially compresses the cap and extends out of the receiving cavity when the aerosol-generating body is in the first position.
15. An aerosol-generating device according to claim 14, wherein the protective sleeve has a sliding aperture and the aerosol-generating body has a boss which is slidingly engaged with the sliding aperture.
16. An aerosol-generating device according to claim 2, wherein the housing has a first locating recess and a second locating recess, the aerosol-generating assembly further comprising a sliding locating member having one end inserted into the aerosol-generating body and the other end mating with the first locating recess and the second locating recess; wherein the first position and the second position are the first positioning recess and the second positioning recess respectively.
17. An aerosol-generating device according to claim 2, wherein the aerosol-generating body has a slide rail, the housing having a chute in sliding connection with the slide rail; alternatively, the aerosol-generating body has a chute and the housing has a slide rail in sliding connection with the chute; wherein, the first position and the second position are respectively two ends of the sliding groove.
18. An aerosol-generating device according to claim 12, wherein the aerosol-generating body comprises:
an aerosol generating assembly for receiving and atomizing the aerosol generating substance to produce the aerosol, the aerosol generating assembly being connected to the mouthpiece;
the battery assembly is electrically connected with the atomization assembly;
the accommodating shell accommodates the battery assembly and is detachably connected with the atomization assembly;
and the conductive piece is inserted into the accommodating shell and is electrically connected with the atomizing assembly.
19. An aerosol-generating device according to claim 12, wherein the aerosol-generating body comprises:
the electronic cigarette comprises an atomization assembly, a battery assembly and a conductive piece, wherein the atomization assembly is used for placing and atomizing the aerosol generating substance to generate the aerosol, and the atomization assembly is electrically connected with the battery assembly through the conductive piece;
and the accommodating shell accommodates the electronic cigarette and is detachably connected with the cigarette holder.
20. An aerosol-generating device according to any of claims 2 to 19, wherein the aerosol-generating assembly further comprises a pushing mechanism connected to the aerosol-generating body to push the aerosol-generating body to slide between the first position to the second position.
21. An aerosol-generating device according to claim 20, wherein the housing has a sliding window and the pushing mechanism comprises a push button movably connected to the sliding window.
22. An aerosol-generating device according to claim 20, the pushing mechanism comprising:
the starting piece is arranged on the shell;
a connector connected or movably connected with the aerosol-generating body;
and the power mechanism is electrically connected with the starting piece and is connected with the connecting piece.
23. An aerosol-generating device according to claim 22, wherein the power mechanism comprises any one of a motor, a pneumatic pump, a hydraulic pump, and an electromagnet.
24. An aerosol-generating device according to claim 1,
the aerosol-generating assembly comprises
The conductive piece is arranged on the cover body;
an aerosol generating assembly for receiving and atomising the aerosol generating substance to produce the aerosol
The cigarette holder is connected with the atomization component, and the air outlet is formed in the cigarette holder;
the aerosol-generating device further comprises:
the battery assembly is electrically connected with the atomization assembly through the conductive piece;
the accommodating shell is used for accommodating the battery assembly, the cover body is arranged at one end of the accommodating shell, and the atomizing assembly is rotatably connected with the cover body.
25. An aerosol-generating device according to claim 24, wherein the cap is integrally formed with or removably attached to the receptacle.
26. An aerosol-generating device according to claim 24, wherein the cover comprises a first hinge frame, a cover plate, and a second hinge frame connected in sequence to form a receiving slot, and wherein the atomizing assembly is rotatably connected to the first hinge frame and the second hinge frame at two sides thereof.
27. An aerosol-generating device according to claim 18, 19 or 24, wherein the atomizing assembly comprises:
a storage unit for holding an aerosol generating substance;
and the atomization unit is electrically connected with the battery component at one end and connected with the storage unit at the other end and used for atomizing the aerosol generating substance to generate aerosol.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921325755.3U CN211532786U (en) | 2019-08-15 | 2019-08-15 | Aerosol generating device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921325755.3U CN211532786U (en) | 2019-08-15 | 2019-08-15 | Aerosol generating device |
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| CN211532786U true CN211532786U (en) | 2020-09-22 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110522086A (en) * | 2019-08-15 | 2019-12-03 | 深圳御烟实业有限公司 | Apparatus for aerosol creation |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110522086A (en) * | 2019-08-15 | 2019-12-03 | 深圳御烟实业有限公司 | Apparatus for aerosol creation |
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