CN111345515B - Aerosol generating device and illumination control method of atomizing device - Google Patents

Abstract

The invention relates to the technical field of aerosol generating devices, and particularly discloses an aerosol generating device, which comprises: a housing, one side of which is provided with a shading cavity; the connecting component is connected in the shading cavity in an elastic telescopic manner and is provided with a first clamping part; the atomizing device is fixed on the connecting component; the fixing piece is arranged on the shell in a rotatable mode, the rotating end of the fixing piece extends out of the shell, the fixing piece is provided with a second clamping part, and when the first clamping part of the moving connecting assembly is slightly lower than the second clamping part, the second clamping part can block or avoid the first clamping part by rotating the fixing piece; and the shading cover assembly is used for shading or opening the cavity opening of the shading cavity. Arranging a shading structure for placing the atomizing device, and moving the atomizing device out of the shading structure when the atomizing device is used; when not using atomizing device, place atomizing device in the light-shading structure to avoid atomizing device to be in under the illumination condition for a long time, thereby solve the rotten problem that the tobacco tar produced because of the illumination.

Description

Aerosol generating device and illumination control method of atomizing device

Technical Field

The invention belongs to the technical field of aerosol generating devices, and particularly relates to an aerosol generating device and an illumination control method of an atomizing device.

Background

The oil cup (container for holding the tobacco tar) of the atomizer of the aerosol generating device in the market is generally made of transparent common glass or plastic, and the transparent oil cup can not filter the ultraviolet rays of sunlight, so the oil cup cannot protect the tobacco tar.

The materials such as transparent common glass or plastic can not protect the tobacco tar in the atomizer, and when the atomization device is irradiated under sunlight for a long time, the tobacco tar is easy to deteriorate, so that the color of the tobacco tar is lightened, precipitates are generated, the taste is deteriorated, and the like.

Disclosure of Invention

The invention aims to provide an aerosol generating device and an illumination control method of an atomizing device, so that the problem of tobacco tar deterioration caused by the fact that a transparent oil cup of an atomizer is placed in an illumination environment for a long time is solved.

To achieve the above object, in one aspect, the present invention provides an aerosol-generating device comprising:

the light shading device comprises a shell, a light shading device and a light shading device, wherein a cavity opening is formed in the shell and extends out of a light shading cavity of the shell;

a connecting assembly which is connected in an elastically telescopic manner in the shading cavity and is provided with a first clamping part;

the atomizing device is fixed on the connecting component;

the fixing piece is arranged on the shell in a rotatable mode, the rotating end of the fixing piece extends out of the shell, the fixing piece is provided with a second clamping part, and when the first clamping part of the connecting assembly is moved to be slightly lower than the second clamping part, the second clamping part can block or avoid the first clamping part by rotating the fixing piece; and

and the shading cover assembly is used for shading or opening the cavity opening of the shading cavity.

Preferably, in the above technical scheme, the light shield cover assembly includes a sub shield cover and a rotating shaft, a shaft hole is provided at a side portion of the cavity opening of the light shield cavity, the rotating shaft is rotatably provided in the shaft hole, and the sub shield cover is fixed at an end portion of the rotating shaft.

Preferably, in the above technical solution, the light shielding device further comprises a torsion spring and a fixing rod, a groove is arranged on the periphery of the opening of the light shielding cavity, a limiting groove is arranged on the other end of the rotating shaft, a third clamping portion is arranged at one end of the fixing rod, and the other end of the fixing rod is connected with the fixing member; the two ends of the torsion spring are respectively connected with the rotating shaft and the shaft hole;

when the fixing piece is rotated to enable the second clamping part to block the first clamping part, the sub blocking cover is pressed down to be matched in the groove when the sub blocking cover is rotated to correspond to the cavity opening of the shading cavity, and the fixing piece is continuously rotated to drive the third clamping part of the fixing rod to be clamped in the limiting groove of the rotating shaft;

when the fixing piece is rotated in the opposite direction, the third clamping part is firstly driven to be separated from the limiting groove so that the sub blocking cover pops open the cavity opening of the light shielding cavity, and then the second clamping part is led to avoid the first clamping part so that the atomization device pops out of the light shielding cavity.

Preferably, in the above technical scheme, the coupling assembling is located through the lift spring the bottom in shading chamber.

Preferably, among the above technical scheme, the coupling assembling top certain distance the chamber wall in shading chamber be equipped with the fourth stop portion that coupling assembling's periphery offseted.

Preferably, in the above technical solution, the atomizing device further includes a key, a battery assembly and a control motherboard, the key and the battery assembly are respectively connected to the control motherboard, and the control motherboard is connected to the atomizing device.

Preferably, in the above technical solution, a rotating end of the fixing member is provided with a rotating armrest.

Preferably, among the above-mentioned technical scheme, coupling assembling include linking bridge and with the base that linking bridge connects, linking bridge be equipped with can with atomizing device looks adaptation's hickey.

Preferably, in the above technical scheme, the linking bridge is equipped with first magnetism connecting piece, the base be equipped with can with the second magnetism connecting piece of first magnetism connecting piece adaptation.

Preferably, in the above technical scheme, the base is provided with an electrical terminal adapted to the atomization device.

In order to achieve the above object, in another aspect, the present invention provides an illumination control method for an atomization device, including the aerosol generating device described above, specifically:

when the atomization device is shielded, the atomization device is pressed downwards to drive the first clamping part of the connecting assembly to be positioned below the second clamping part of the fixing piece, the fixing piece is rotated to enable the second clamping part to be blocked above the first clamping part so as to enable the atomization device to be clamped in the light shielding cavity, and the light shielding cover assembly is shielded on the cavity opening of the light shielding cavity;

when the atomization device leaks, the shading cover assembly opens the cavity opening of the shading cavity, and the fixing piece is rotated to enable the second clamping part to avoid the first clamping part so that the atomization device pops out of the shading cavity.

Compared with the prior art, the invention has the following beneficial effects:

the invention arranges a shading structure for placing the atomizing device on the aerosol generating device, and when the atomizing device is used, the atomizing device is moved out of the shading structure; when the atomization device is not used, the atomization device is placed in the shading structure, so that the transparent oil cup of the atomization device is prevented from being in the illumination condition for a long time, and the problem of deterioration of tobacco tar due to illumination is solved.

Drawings

Figure 1 is a cross-sectional view of an aerosol generating device of the present invention when not in use.

Fig. 2 is a partial cross-sectional view of an atomizing device of the present invention.

Figure 3 is a first perspective view of the aerosol generating device of the present invention when not in use.

Figure 4 is a second perspective view of the aerosol generating device of the present invention when not in use.

Figure 5 is a cross-sectional view of an aerosol generating device of the present invention in use.

Figure 6 is a first perspective view of the aerosol generating device of the present invention in use.

Figure 7 is a second perspective view of the aerosol generating device of the present invention in use.

Description of the main reference numerals:

1-shell, 11-shading cavity, 111-fourth clamping part, 12-key, 13-control mainboard and 14-battery component;

2-connecting component, 21-base, 211-first clamping part, 212-electric terminal, 213-second magnetic connecting piece, 22-connecting bracket and 23-lifting spring;

3-an atomizing device;

4-fixing piece, 41 second clamping part, 42-rotating handrail;

5-shading cover component, 51-sub blocking cover, 52-rotating shaft, 521-limiting groove, 53-torsion spring, 54-fixing rod and 541-third blocking part.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 and 2, the aerosol generating device in this embodiment includes: the device comprises a shell 1, a connecting assembly 2, an atomizing device 3, a fixing member 4, a shading cover assembly 5, a key 12, a battery assembly 14 and a control mainboard 13. Lateral part in the shell 1 is equipped with the chamber mouth and extends the shading chamber 11 of this shell upper end, the lateral wall in shading chamber 11 can shelter from light, coupling assembling 2 is connected in shading chamber 11 with can the elastic telescopic local mode, it is specific, coupling assembling 2 includes linking bridge 22 and the base 21 of being connected with linking bridge 22, base 21 locates the bottom in shading chamber 11 through lift spring 23, the terminal surface of linking bridge 22's magnetism portion interface of inhaling is equipped with first magnetic connecting piece, the terminal surface of base 21's magnetism portion interface of inhaling is equipped with the second magnetic connecting piece 213 that can with first magnetic connecting piece adaptation, the terminal surface of base 21's magnetism portion interface of inhaling is established to cyclic annular, the preferred shape with this terminal surface of base 21 of the terminal surface of the portion interface of inhaling of linking bridge 22 of shape is the same, so set up, no matter what position of magnetic connecting piece distribution at base 21 and linking bridge 22's the corresponding terminal surface, when needs are pasted with both, it just can adsorb directly to correspond base 21 and linking bridge 22's two portion interfaces, do not need strict counterpoint, the convenience of connection is inhaled to improve magnetism. It can be understood that the size of the ring shape of the magnetic interface on the connecting bracket 22 is required to be matched with the magnetic interface of the base 21.

The number of the first magnetic connecting element and the second magnetic connecting element 213 can be set to be one, or can be set to be multiple, and the multiple magnetic connecting elements are uniformly distributed on the magnetic suction part interfaces of the base 21 and the connecting bracket 22. The quantity of magnetic connecting piece between them in this embodiment adopts threely, and three magnetic connecting piece evenly distributed is on the annular end face of the portion interface is inhaled to base 21 and linking bridge 22's magnetism for the in-process atress of absorption is even, and both connect more stably.

Further, referring to fig. 1, fig. 2, and fig. 5, the connection bracket 22 is provided with a screw interface capable of being adapted to the atomization device 3, and the atomization device 3 can be assembled on the screw interface of the connection bracket 22 through the connection screw interface, but this embodiment is not limited thereto, and when the interface of the atomization device 3 is a magnetic interface, the atomization device 3 can also be directly magnetically attracted to the magnetic interface of the base 21 through the magnetic interface. Further, the base 21 is provided with an electrical terminal 212 adapted to the atomizing device 3, and the electrical terminal 212 is used for electrically connecting with the electrical terminal 212 of the atomizing device 3 to supply power to the atomizing device 3. In this embodiment, a battery pack 14 and a control main board 13 are further disposed in the housing 1, a button 12 is disposed on the housing 1, the button 12 and the battery pack 14 are respectively connected to the control main board 13, the control main board 13 is connected to the electrical connection terminal 212 of the base 21, and preferably, the electrical connection terminal 212 of the base 21 is connected to the control main board 13 through a wire with a certain length so as not to hinder the up-and-down movement of the base 21, so as to provide power for the atomization device.

The embodiment discloses an atomizing device, its interface is the hickey, specifically includes: transparent oil cup, atomizing core, air vent, threaded rod, suction nozzle, the atomizing core includes ceramic heater subassembly, cladding ceramic heater subassembly outer non-woven fabrics, and the atomizing core is located in the air vent, and the hookup location of air vent and atomizing core is provided with leads the oilhole. The upper end of ventilation rod extends to in the oil cup, and the lower extreme of oil cup passes through oil cup silica gel pad and threaded rod sealing connection, prevents that the tobacco tar from revealing. The threaded rod cover is established in the ventilation rod lower extreme outside, sets up the electrode in the threaded rod, and the electrode passes through the insulating collar with the threaded rod to be kept apart, and the electrode stretches into the atomizing in-core, for the power supply of atomizing core, provides the required energy of atomizing tobacco tar. The suction nozzle is inserted in the oil cup, the lower end of the suction nozzle is connected with the suction nozzle silica gel, the suction nozzle silica gel sleeve is arranged outside the upper end of the ventilation rod and is connected with the inner wall of the oil cup in an interference fit manner, and the tobacco tar is sealed in the oil cup. The tobacco tar in the oil cup enters the atomizing core through the oil guide hole, the tobacco tar is dispersed through the non-woven fabric and is supplied to the ceramic heating component for heating and atomizing to form smoke, and the smoke enters the suction nozzle through the ventilation rod and is sucked through the suction nozzle. The atomizing core is located the ventilation bar, and the ventilation bar keeps apart ceramic heating element and tobacco tar, in the heat that makes ceramic heating element produce can not distribute the tobacco tar, avoids the tobacco tar to be heated for a long time and rotten.

Referring to fig. 1, 3 and 4, the lower end of the base 21 is provided with a first locking portion 211, the fixing member 4 is rotatably disposed on the housing 1, and the rotating end of the fixing member 4 extends out of the housing 1, and the rotating end of the fixing member 4 is provided with a rotating handle 42, so that when the fixing member needs to be rotated, the fixing member 4 can be easily driven by holding the rotating handle 42 by hand. The upper end of the fixed part 4 is provided with a second clamping part 41, when the first clamping part 211 of the base 21 is pressed down to be slightly lower than the second clamping part 41, the fixed part 4 can be rotated to enable the second clamping part 41 to block or avoid the first clamping part 211, and if in a blocking state, the atomizing device 3 arranged on the base 21 can be clamped in the shading cavity; if the atomization device is in the avoiding state, the atomization device 3 pops out of the shading cavity 11 under the action of the lifting spring 23. In this embodiment, preferably, a fourth clamping portion 111 capable of abutting against the periphery of the upper end of the base 21 is disposed on the cavity wall of the light shielding cavity 11 at a certain distance above the base 21, so that the base 21 is clamped on the fourth clamping portion 111 when the atomizing device 3 is ejected out of the light shielding cavity 11, the movement of the atomizing device 3 is limited, damage to other components due to pulling of elastic force is prevented, and the light shielding cover assembly 5 is used for shielding or opening the cavity opening of the light shielding cavity 11, so that the atomizing device 3 is completely in a light shielding state in the light shielding cavity 11.

In addition, to the light shielding structure and the setting manner of the above atomization device, this embodiment further provides an atomization device illumination control method, which specifically includes:

when the atomization device 3 is shielded, the atomization device 3 is pressed downwards to drive the first clamping part 211 of the base 21 to be located below the second clamping part 41 of the fixing part 4, and the fixing part 4 is rotated to enable the second clamping part 41 to be blocked above the first clamping part 211 so that the atomization device 3 is clamped in the light shielding cavity 11, and the light shielding cover component 5 is shielded on the opening of the light shielding cavity 11.

When the atomizing device 3 is leaked, the light shielding cover assembly 5 is opened at the opening of the light shielding cavity 11, and the fixing member 4 is rotated to make the second locking portion 41 avoid the first locking portion 211, so that the atomizing device 3 is ejected out of the light shielding cavity 11, as shown in fig. 6 and 7.

Further referring to fig. 1 and 5, the embodiment provides a preferred design of a light-shielding cover, specifically, the light-shielding cover assembly 5 includes a sub-shielding cover 51, a torsion spring 53, a rotating shaft 52 and a fixing rod 54, a shaft hole is formed at a side portion of a cavity opening of the light-shielding cavity 11, the rotating shaft 52 is rotatably disposed in the shaft hole, the sub-shielding cover 51 is fixed at one end portion of the rotating shaft 52, a groove is formed at a periphery of the cavity opening of the light-shielding cavity 11, a limiting groove 521 is formed at the other end portion of the rotating shaft 52, a third locking portion 541 capable of being matched with the limiting groove 521 is formed at one end of the fixing rod 54, and the other end portion is fixedly connected to the fixing member 4 to be driven to rotate by the third locking portion 541. Two ends of the torsion spring 53 are connected to the rotating shaft 52 and the shaft hole, respectively. This setting makes can carry on spacingly to coupling assembling and shading cover subassembly simultaneously by mounting 4 to form a new spacing mode, specifically be:

when the atomization device 3 is shielded, the atomization device 3 is pressed downwards to position the first clamping part 521 of the base 21 below the second clamping part 41 of the fixing member 4, the fixing member 4 is rotated to make the second clamping part 41 block the first clamping part 521, the pressing sub-blocking cover 51 is sleeved in the groove when the rotating sub-blocking cover 51 corresponds to the opening of the light shielding cavity 11, and at this time, the fixing member 4 is continuously rotated to drive the third clamping part 541 of the fixing rod 54 to be clamped in the limiting groove 521 of the rotating shaft 52, so that the base 21 and the light shielding cover assembly 5 are completely locked.

When the atomizing device 3 leaks, the fixing member 4 is rotated in the opposite direction, first, the third locking portion 541 of the fixing rod 54 is driven to disengage from the limiting groove 521, the torsion spring 53 enables the sub-blocking cover 51 to pop out of the opening of the light shielding cavity 11 and rotate 180 ° toward one side of the opening, so as to open the opening of the light shielding cavity 11, and then the fixing member 4 is continuously rotated to drive the second locking portion 41 to avoid the first locking portion, so that the atomizing device pops out of the light shielding cavity 11 under the action of the lifting spring 23.

In summary, the aerosol generating device is provided with the light shielding structure for placing the atomizing device, and when the atomizing device is used, the atomizing device is moved out of the light shielding structure; when not using atomizing device, place atomizing device in the light-shading structure to avoid atomizing device to be in under the illumination condition for a long time, thereby solve the rotten problem that the tobacco tar produced because of the illumination.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (6)

1. An aerosol generating device, comprising:

the shell is internally provided with a shading cavity of which the cavity opening extends out of the shell;

a connecting assembly which is connected in an elastically telescopic manner in the shading cavity and is provided with a first clamping part;

the atomizing device is fixed on the connecting component;

the fixing piece is arranged on the shell in a rotatable mode, the rotating end of the fixing piece extends out of the shell, the fixing piece is provided with a second clamping part, and when the first clamping part of the connecting assembly is moved to be slightly lower than the second clamping part, the second clamping part can block or avoid the first clamping part by rotating the fixing piece; and

the shading cover assembly is used for shading or opening the cavity opening of the shading cavity, the shading cover assembly comprises a sub-shading cover and a rotating shaft, a shaft hole is formed in the side part of the cavity opening of the shading cavity, the rotating shaft is rotatably arranged in the shaft hole, and the sub-shading cover is fixed at one end part of the rotating shaft;

the fixing device is characterized by further comprising a torsion spring and a fixing rod, a groove is formed in the periphery of the opening of the shading cavity, a limiting groove is formed in the other end of the rotating shaft, a third clamping part is arranged at one end of the fixing rod, and the other end of the fixing rod is connected with the fixing piece; two ends of the torsion spring are respectively connected with the rotating shaft and the shaft hole;

when the fixing piece is rotated to enable the second clamping part to block the first clamping part, the sub blocking cover is pressed down to be matched in the groove when the sub blocking cover is rotated to correspond to the cavity opening of the shading cavity, and the fixing piece is continuously rotated to drive the third clamping part of the fixing rod to be clamped in the limiting groove of the rotating shaft;

when the fixing piece is rotated in the opposite direction, the third clamping part is firstly driven to be separated from the limiting groove so that the sub blocking cover pops open the cavity opening of the light shielding cavity, and then the second clamping part avoids the first clamping part so that the atomization device pops out of the light shielding cavity;

the connecting assembly comprises a connecting support and a base connected with the connecting support, and the connecting support is provided with a threaded interface which can be matched with the atomizing device;

the wall of the shading cavity with a certain distance from the base above the base is provided with a fourth clamping part capable of abutting against the periphery of the upper end of the base, so that the base is clamped on the fourth clamping part when the atomization device pops out of the shading cavity, and the atomization device is limited in movement.

2. An aerosol generating device according to claim 1, wherein the connection assembly is provided at the bottom of the sunshade chamber by a lift spring.

3. The aerosol generating device of claim 1, further comprising a button, a battery assembly, and a control motherboard, wherein the button and the battery assembly are respectively connected to the control motherboard.

4. An aerosol generating device according to claim 1, wherein the rotating end of the fixing member is provided with a rotating handrail.

5. An aerosol generating device according to claim 1, wherein the connection bracket is provided with a first magnetic connector and the base is provided with a second magnetic connector that is adaptable to the first magnetic connector.

6. A method for controlling the illumination of an atomizing device, which comprises using the aerosol-generating device according to any one of claims 1 to 5, in particular:

when the atomization device is shielded, the atomization device is pressed downwards to drive the first clamping part of the connecting assembly to be positioned below the second clamping part of the fixing piece, the fixing piece is rotated to enable the second clamping part to be blocked above the first clamping part so that the atomization device is clamped in the light shielding cavity, and the light shielding cover assembly is shielded on the cavity opening of the light shielding cavity;

when the atomization device leaks, the cavity opening of the light shielding cavity is opened, the fixing piece is rotated to drive the second clamping part to avoid the first clamping part, so that the atomization device pops out of the light shielding cavity.

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