CN107072298A - A kind of electronic cigarette and electronic cigarette atomizing control method - Google Patents

Abstract

A kind of electronic cigarette and electronic cigarette atomizing control method, the electronic cigarette includes atomizing component (100) and battery bar assembly (200), the control unit set is electrically connected with the atomizing component (100) and battery bar assembly (200), electrically connected with the battery bar assembly (200) and be provided with the second electric conductor (201), electrically connected with described control unit and be provided with the first electric conductor (101), and first electric conductor (101) and second electric conductor (201) are located at the diverse location of the electronic cigarette；There is provided electronic cigarette is provided enabled during user's smoking and contacted by skin with first electric conductor (101) and second electric conductor (201), so that first electric conductor (101) and second electric conductor (201) conducting, power to be atomized tobacco tar so that the battery bar assembly (200) is the atomizing component (100), so as to which the waste of tobacco tar being effectively prevented from caused by electronic cigarette is just operated automatically when user does not carry out respective operations and the unnecessary of electronic cigarette service life are shortened, security can be lifted.

Description

Electronic cigarette and electronic cigarette atomization control method Technical Field

The invention relates to the field of electronic cigarettes, in particular to an electronic cigarette and an electronic cigarette atomization control method.

Background

The electronic cigarette is a novel electronic product, has the same appearance and taste as common cigarettes, but is healthier and more environment-friendly than traditional cigarettes.

Electronic cigarettes in the prior art are generally composed of an atomizing assembly for atomizing tobacco tar and a battery rod assembly for supplying power to the atomizing assembly. Wherein, adopt the integrated control circuit who has the air current inductor to control the electron cigarette among the current electron cigarette, when the user smoked the electron cigarette, atmospheric pressure in the electron cigarette can change, and then leads to the film capacitance of air current inductor to take place deformation. When the deformation amount of the film capacitor reaches a threshold value, a trigger signal is sent to a microprocessor in a control circuit, so that the microprocessor controls the battery rod assembly to supply power to the atomization assembly to atomize the tobacco tar to generate smoke.

However, in the process of packaging or transporting the electronic cigarette, the air pressure in the electronic cigarette is easy to change, and the electronic cigarette is further caused to automatically work. And the danger of fire and explosion can be caused easily to the long-time automatic work of electron cigarette, and the long-time automatic work of electron cigarette can lead to the tobacco tar after the atomizing to make its condition rotten and change flavor because of being relapse the oxidation many times by the air simultaneously, and for making the change of the atmospheric pressure in the air current inductor senses the electron cigarette among the electron cigarette of prior art, then with the air current inductor intercommunication is provided with the air duct, and in the course of the work of electron cigarette, the tobacco tar flows to battery pole subassembly and air current inductor along the air duct very easily on, can damage air current inductor and battery pole subassembly, causes phenomena such as electron cigarette battery short circuit or inoperative, very big influence the life of electron cigarette.

Another electron cigarette among the existing replaces the air current inductor to control the electron cigarette through mechanical key switch to realize atomizing tobacco tar. Since the frequency of pressing the key is high when the electronic cigarette smokes, the key switch is prone to malfunction during long-term pressing, and therefore, some electronic cigarettes are controlled by using the touch switch instead of the key switch.

However, the electronic cigarette controlled by the key switch or the touch switch also has the situation that the electronic cigarette automatically works due to being pressed, touched by packing personnel or touched by transport personnel in the process of packaging or transporting, and if a user needs to smoke, the key switch or the touch switch needs to be pressed, so that the step of smoking smoke by the user is increased, the operation complexity of the user in the process of smoking the electronic cigarette is improved, and the experience of the user in the process of smoking smoke is reduced.

Disclosure of Invention

The invention provides an electronic cigarette and an electronic cigarette atomization control method.

The invention provides an electronic cigarette, which comprises an atomization component and a battery rod component, wherein the battery rod component is used for supplying power to the atomization component so as to enable the atomization component to atomize tobacco tar to form smoke, and the electronic cigarette further comprises: the control unit is electrically connected with the atomization assembly and the battery rod assembly, a second electric conductor is electrically connected with a battery in the battery rod assembly, a first electric conductor is electrically connected with the control unit, and the first electric conductor and the second electric conductor are positioned at different positions of the electronic cigarette;

when a user smokes, the user can contact the first electric conductor and the second electric conductor through skin to enable the first electric conductor and the second electric conductor to be conducted, and the control unit is used for controlling the battery rod assembly to supply power to the atomization assembly to atomize tobacco tar when detecting that the first electric conductor and the second electric conductor are conducted.

Preferably, at least one of the first and second electrical conductors is located on an outer surface of the electronic cigarette;

or the like, or, alternatively,

at least one of the first electric conductor and the second electric conductor is positioned inside the electronic cigarette, and the electronic cigarette further comprises a covering piece which can be covered outside the electric conductor positioned inside the electronic cigarette in an opening mode;

or the like, or, alternatively,

at least one of the first conductor and the second conductor is located inside the electronic cigarette, and the electronic cigarette further comprises an adjusting piece for adjusting the conductor located inside the electronic cigarette to extend out of the electronic cigarette.

Preferably, the electronic cigarette further comprises a mouthpiece for drawing smoke;

the suction nozzle is the first conductor;

or the like, or, alternatively,

the first conductor is arranged to cover the whole peripheral surface of the suction nozzle;

or the like, or, alternatively,

the first conductor is arranged to cover the partial peripheral surface of the suction nozzle.

Preferably, if the suction nozzle is located at an end of the atomizing assembly, which is away from one end of the battery rod assembly, the outer shell of the battery rod assembly is the second electric conductor, or the second electric conductor covers the entire outer peripheral surface of the battery rod assembly, or the second electric conductor covers a partial outer peripheral surface of the battery rod assembly.

Preferably, the second electrical conductor comprises at least one first electrical conductor sub-body;

the first conductive sub-body is of a strip-shaped structure, the first conductive sub-body of the strip-shaped structure is attached to the outer peripheral surface of the battery rod assembly, and the axial direction of the first conductive sub-body is parallel to the axial direction of the battery rod assembly;

or the like, or, alternatively,

the first conductive daughter is of a sheet structure and is attached to the outer peripheral surface of the battery rod assembly at random.

Preferably, if the suction nozzle is located at an end of the battery rod assembly, which is away from one end of the atomizing assembly, the outer shell of the atomizing assembly is the second electric conductor, or the second electric conductor covers the entire peripheral surface of the atomizing assembly, or the second electric conductor covers a partial peripheral surface of the atomizing assembly.

Preferably, the second electrical conductor comprises at least one second electrical conductor sub-body;

the second conductive sub-body is of a strip-shaped structure, the second conductive sub-body of the strip-shaped structure is attached to the outer peripheral surface of the atomization assembly, and the axial direction of the second conductive sub-body is parallel to the axial direction of the atomization assembly;

or the like, or, alternatively,

the second conductive daughter is of a sheet structure and is attached to the outer peripheral surface of the atomization assembly at random.

Preferably, a groove or a through hole is formed in the outer peripheral surface of the battery rod assembly, the second electric conductor is at least partially located in the groove or the through hole to form a touch area located in the groove or the through hole and used for a user to touch for smoking, and a clamping groove used for the user to clamp the electronic cigarette is defined by the groove wall of the groove or the hole wall of the through hole and the second electric conductor together.

Preferably, the atomization assembly is detachably connected with the battery rod assembly, and the suction nozzle is arranged at one end of the atomization assembly, which is away from the battery rod assembly;

the second electric conductor comprises a third electric conduction sub-body and a fourth electric conduction sub-body, the third electric conduction sub-body is positioned at one end of the battery rod assembly, which is connected with the atomization assembly, and is used for being connected with the atomization assembly, the third electric conduction sub-body is positioned on the outer peripheral surface of the electronic cigarette, and the fourth electric conduction sub-body is positioned in the middle area of the battery rod assembly;

the number of the third conductive sub-bodies is one or more, and the number of the fourth conductive sub-bodies is one or more.

Preferably, the atomizing subassembly includes the oil cup subassembly, the oil cup subassembly includes the oil storage cover and inserts and establish breather pipe in the oil storage cover, the one end of oil cup subassembly is provided with the suction nozzle, the other end of oil cup subassembly be provided with the oil cup subassembly can dismantle the atomizing core that is used for atomizing the tobacco tar of connecting, the one end of atomizing core with the breather pipe links to each other, the other end of atomizing core with the battery pole subassembly links to each other, the second conductor sets up on the outer peripheral face of battery pole subassembly.

Preferably, the suction nozzle is the first conductor, and the control unit is disposed in the battery rod assembly; the two ends of the breather pipe made of conductive materials are respectively electrically connected with the suction nozzle and the atomizing core, so that the suction nozzle is electrically connected with the control unit through the breather pipe and the atomizing core.

Preferably, the atomizing core is provided with a smoke channel and an elastic conductive arm extending into the smoke channel, the elastic conductive arm is electrically connected with the control unit, the vent pipe is inserted into the smoke channel, and the elastic conductive arm elastically abuts against the side wall of the vent pipe.

Preferably, one end of the atomizing core is provided with a conducting ring sleeved on the smoke channel, the inner circumferential surface of the conducting ring obliquely extends along a direction away from the suction nozzle to form two elastic conducting arms, and the two elastic conducting arms are oppositely arranged.

Preferably, the atomizing core includes a hollow atomizing base, the atomizing base is formed with the smoke channel, an oil storage chamber is arranged between the smoke channel and the inner peripheral wall of the oil storage chamber, the side wall of the atomizing base is provided with an oil inlet channel communicated with the oil storage chamber, one end of the atomizing base is connected with an atomizing electrode assembly electrically connected with the battery rod assembly, a smoke adsorbing member for adsorbing smoke oil in the oil storage chamber from the oil inlet channel and a heating wire for atomizing the smoke oil on the smoke adsorbing member are arranged in the smoke channel, the heating wire is electrically connected with the atomizing electrode assembly, one end of the atomizing base away from the atomizing electrode assembly is provided with an elastic conductive arm extending into the smoke channel, the elastic conductive arm is electrically connected with the control unit, and the vent pipe is inserted in the smoke channel, the elastic conductive arm is elastically abutted against the side wall of the vent pipe.

Preferably, the atomizing electrode assembly comprises a first upper electrode, a second upper electrode, a first insulating ring and a second insulating ring, wherein the first insulating ring is sleeved on the first upper electrode and is used for isolating the first upper electrode from the second upper electrode; the second insulating ring is sleeved on the second upper electrode and used for isolating the second upper electrode from the atomizing base;

the battery rod assembly comprises a connector which is used for being detachably connected with the atomization assembly, two mounting holes are formed in the connector, a first elastic electrode and a second elastic electrode are respectively arranged on the two mounting holes, the first elastic electrode is abutted to the first upper electrode, and the second elastic electrode is abutted to the second upper electrode.

Preferably, the control unit includes a microprocessor, a filtering unit electrically connected to the second conductor for filtering an input signal, a first transistor switch unit electrically connected to the filtering unit for sending a trigger signal to the microprocessor after receiving a signal output by the filtering unit, and a second transistor switch unit electrically connected to the microprocessor and the atomizing assembly, and the microprocessor is configured to turn on the second transistor switch unit if the first conductor and the second conductor are turned on, so that the atomizing assembly atomizes the tobacco tar.

Preferably, the control unit comprises a microprocessor, a filtering unit electrically connected with the second conductor and used for filtering an input signal, a comparison circuit unit electrically connected with the filtering unit and used for comparing the signal output by the filtering unit and transmitting a comparison result to the microprocessor, and a transistor switch unit electrically connected with the microprocessor and the atomization assembly, wherein the microprocessor is used for controlling the on-off of the transistor switch unit according to the signal input by the comparison circuit unit so as to control whether the atomization assembly atomizes the tobacco tar.

The invention provides an electronic cigarette atomization control method, which comprises the following steps:

a control unit arranged in the electronic cigarette detects whether a first electric conductor and a second electric conductor are conducted or not, wherein the second electric conductor is electrically connected with a battery in a battery rod assembly, the first electric conductor is electrically connected with the control unit, the control unit is electrically connected with the atomization assembly and the battery rod assembly, and the first electric conductor and the second electric conductor are positioned at different positions of the outer peripheral surface of the electronic cigarette;

if so, the control unit controls the battery rod assembly to supply power to the atomization assembly so as to atomize the tobacco tar.

The invention provides an electronic cigarette and an electronic cigarette atomization control method, wherein the electronic cigarette comprises an atomization assembly, a battery rod assembly, a control unit, a second electric conductor and a first electric conductor, wherein the control unit is electrically connected with the atomization assembly and the battery rod assembly; according to the electronic cigarette provided by the invention, when a user smokes, the user can contact the first electric conductor and the second electric conductor through skin to conduct the first electric conductor and the second electric conductor, and the control unit controls the battery rod assembly to supply power to the atomization assembly to atomize the tobacco tar when detecting that the first electric conductor and the second electric conductor are conducted, so that the waste of the tobacco tar and unnecessary reduction of the service life of the electronic cigarette caused by automatic work of the electronic cigarette when the user does not perform corresponding operation can be effectively avoided. The electronic cigarette provided by the invention does not need to be internally provided with an airflow sensor, the liquefied smoke oil in the electronic cigarette does not influence the electrical connection relation in the electronic cigarette, the battery rod assembly can supply power for the atomization assembly as long as a user touches the first conductor and the second conductor simultaneously, the service life of the electronic cigarette is prolonged, the cost of the electronic cigarette is effectively reduced as the airflow sensor is not needed, the problems that the smoking signal cannot be detected by the airflow sensor when the smoking strength is low, the smoke oil enters the battery rod assembly from an airflow channel to cause short circuit and the like are avoided, the condition for transporting the electronic cigarette is reduced, and the transportation are safer.

Drawings

Fig. 1 is a schematic cross-sectional connection structure of an electronic cigarette according to an embodiment of the present invention;

figure 2 is a schematic view of another partial cross-sectional connection structure of an electronic cigarette according to an embodiment of the present invention;

figure 3 is a schematic view of the connection structure of the first conductor of figure 2 when extended out of the electronic cigarette;

figure 4 is a schematic diagram of an explosion-connected structure of another preferred embodiment of the electronic cigarette according to the embodiment of the present invention;

fig. 5 is a schematic diagram of an exploded cross-sectional connection structure of an electronic cigarette according to an embodiment of the present invention;

figure 6 is a schematic cross-sectional view of an electronic cigarette in accordance with a preferred embodiment of the present invention;

figure 7 is a schematic diagram of another cross-sectional explosive connection structure of an electronic cigarette according to an embodiment of the present invention;

fig. 8 is a schematic view illustrating an explosion-connected structure of a battery rod assembly according to an embodiment of the present invention;

figure 9 is a schematic view of a partial cross-sectional connection structure of an electronic cigarette according to an embodiment of the present invention;

figure 10 is a schematic partial cross-sectional view of an electronic cigarette according to an embodiment of the present invention;

FIG. 11 is a schematic view of an explosive connection structure of an atomizing core provided in accordance with an embodiment of the present invention;

fig. 12 is a schematic view of an overall structure of a battery rod assembly according to an embodiment of the present invention;

fig. 13 is another schematic overall structure diagram of a battery rod assembly according to an embodiment of the present invention;

figure 14 is a schematic view of another partial cross-sectional connection structure of an electronic cigarette according to an embodiment of the present invention;

fig. 15 is a schematic circuit diagram of a control unit according to an embodiment of the present invention;

fig. 16 is a schematic circuit diagram of another circuit structure of the control unit according to the embodiment of the present invention;

fig. 17 is a schematic circuit diagram of another circuit structure of the control unit according to the embodiment of the present invention;

fig. 18 is a schematic circuit diagram of another circuit structure of the control unit according to the embodiment of the present invention;

fig. 19 is a schematic circuit diagram of another circuit structure of the control unit according to the embodiment of the present invention;

fig. 20 is a schematic circuit structure diagram of an electronic cigarette atomization control method according to an embodiment of the present invention.

Detailed Description

In the first embodiment, the specific structure of the electronic cigarette that can prevent the electronic cigarette from automatically working and improve the user operation experience is described in detail in the first embodiment:

specifically, referring to fig. 1, the electronic cigarette includes:

an atomizing assembly 100 for storing tobacco tar and atomizing the tobacco tar into smoke for a user to inhale according to a user's operation;

a battery rod assembly 200 for powering the atomizing assembly 100 to cause the atomizing assembly 100 to atomize tobacco smoke to form an aerosol;

it should be clear that, the atomizing assembly 100 and the battery rod assembly 200 are assembled to form an electronic cigarette body, and fig. 1 shows that the atomizing assembly 100 and the battery rod assembly 200 are coaxially disposed, and the atomizing assembly 100 is located at the upper end of the electronic cigarette body, and the battery rod assembly 200 is located at the lower end of the electronic cigarette body for illustration and not limitation. For example, the atomizing assembly 100 may be disposed at a lower end of the electronic cigarette body, and the battery rod assembly 200 is disposed at an upper end of the electronic cigarette body, and for example, the atomizing assembly 100 and the battery rod assembly 200 may also be disposed non-coaxially, for example, the atomizing assembly 100 and the battery rod assembly 200 are disposed in parallel, that is, the specific structure of the electronic cigarette is not limited in this embodiment.

A control unit is electrically connected to the atomizing assembly 100 and the battery bar assembly 200, a second conductor 201 is electrically connected to the battery in the battery bar assembly 200, and a first conductor 101 is electrically connected to the control unit, but the materials of the first conductor 101 and the second conductor 201 are not limited in this embodiment as long as the first conductor 101 and the second conductor 201 can conduct electricity. In addition, the specific structure and the specific installation position of the control unit are not limited in this embodiment, as long as the control unit can enable the battery rod assembly 200 to supply power to the atomizing assembly 100 according to the corresponding operation of the user when the first conductive body 101 is conducted with the second conductive body 201. The second conductor 201 electrically connected to the battery may be directly or indirectly electrically connected to the battery as long as the potential of the conductor is higher than the potential of the first conductor 101 electrically connected to the control unit.

Specifically, in this embodiment, the atomizing assembly 100 is further provided with an atomizing base 102, a ventilation pipe 103 sleeved and fixed on the atomizing base 102, an oil storage cotton 104 covering the ventilation pipe 103, and a heating wire assembly fixed on the ventilation pipe 103, wherein the heating wire assembly includes an oil guide rope 105 abutting against the oil storage cotton 104, and a heating wire 106 wound on the oil guide rope 105 and electrically connected to the control unit and the battery in the battery rod assembly 200, and the heating wire 106 is used for atomizing the smoke oil on the oil guide rope 105. Wherein, the atomization assembly 100 is fixedly connected with the battery rod assembly 200.

In this embodiment, the first conductive body 101 and the second conductive body 201 are located at different positions of the electronic cigarette, so that when the user does not perform corresponding operations, the electrical connection relationship between the first conductive body 101 and the second conductive body 201 is broken, the battery rod assembly 200 cannot supply power to the atomizing assembly 100, and the control unit cannot supply power to the atomizing assembly 100 during the packaging and transportation of the electronic cigarette, so as to effectively avoid the waste of tobacco tar and unnecessary reduction of the service life of the electronic cigarette caused by the automatic operation of the electronic cigarette when the user does not perform corresponding operations, and compared with the prior art, the electronic cigarette of this embodiment effectively avoids unexpected accidents, such as fire or explosion risks caused by the long-time automatic operation of the electronic cigarette, thereby, the safety can be improved, and the probability that the atomizing assembly 100 is triggered by mistake to atomize the tobacco tar can be effectively reduced.

Specifically, in this embodiment, since the first conductive body 101 and the second conductive body 201 are located at different positions of the electronic cigarette, if the user wants the atomizing assembly 100 to operate to atomize smoke, the user can contact the first conductive body 101 and the second conductive body 201 through skin to conduct the first conductive body 101 and the second conductive body 201, and when the control unit detects that the first conductive body 101 and the second conductive body 201 are conducted, the control unit controls the battery rod assembly 200 to supply power to the atomizing assembly 100 to atomize smoke.

Of course, the user can also contact the first conductive body 101 and the second conductive body 201 through other conductive materials, and the control unit can control the battery rod assembly 200 to supply power to the atomizing assembly 100.

Preferably, in this embodiment, if the user wishes to smoke, the user touches the first conductive body 101 and the second conductive body 201 at the same time, so that the user does not need to smoke or press, thereby reducing the operation steps and difficulty of the user and improving the experience of the user in the process of smoking smoke.

Because the airflow sensor for sensing the action of smoking the smoke of the user is arranged in the electronic cigarette in the prior art, the smoke is inevitably condensed into the tobacco tar in the internal circulation process of the electronic cigarette, the condensed tobacco tar flows into the airflow sensor, and if the tobacco tar in the airflow sensor is accumulated to a certain degree, the airflow sensor cannot normally work, so that the atomizing assembly cannot normally work even if the user smokes the electronic cigarette, thereby greatly reducing the service life of the electronic cigarette, the electronic cigarette provided by the embodiment does not need to be internally provided with the airflow sensor, the electrical connection relation in the electronic cigarette cannot be affected by the tobacco tar liquefied in the internal part, and as long as the user touches the first conductor 101 and the second conductor 201 simultaneously, the battery rod assembly 200 can supply power to the atomizing assembly 100, thereby prolonging the service life of the electronic cigarette, and because of need not to set up the air current inductor, then the effectual cost that reduces the electron cigarette, and avoid the air current inductor to detect smoking signal, tobacco tar to get into the battery pole subassembly from the air current channel and cause the short circuit scheduling problem when the smoking dynamics is less.

In a second embodiment, a specific arrangement of the first conductor and the second conductor is described in detail in this embodiment:

the specific arrangement positions of the first conductor and the second conductor shown in this embodiment can be shown as the following cases:

the first method comprises the following steps: first electric conductor reaches the second electric conductor all is located the surface of electron cigarette, promptly first electric conductor with the second electric conductor all is located the surface of electron cigarette, and the position is different, adopts this kind of mode of setting to have the advantage, need touch simultaneously when the user smokes on the electron cigarette surface first electric conductor with the second electric conductor just can battery pole subassembly 200 does atomization component 100 supplies power to be convenient for user operation promotes the experience of user's smoking smog in-process.

And because the first electric conductor and the second electric conductor are located at different positions, the battery rod assembly 200 can not supply power to the atomization assembly 100 on the premise that no user performs corresponding operation, and further the atomization assembly 100 is effectively prevented from automatically atomizing. Thereby avoiding the possibility that the electronic cigarette automatically works to atomize smoke, and ensuring the safety of the electronic cigarette in use and transportation. And the inside tobacco tar of saving of effectual guarantee electron cigarette can not go on working because of the electron cigarette is automatic and the appearance of rotten and the flavor changing condition, moreover because of the electron cigarette only at first electric conductor with under the condition that the second electric conductor switches on, battery pole subassembly 200 just can do atomization component 100 supplies power to avoid the user when not needing to aspirate smog battery pole subassembly 200 does atomization component 100 supplies power, has avoided the waste of the electric energy that battery pole subassembly 200 stored, and is long when the use of effectual extension electron cigarette to avoid the frequent charging to battery pole subassembly 200, prolonged the life of electron cigarette.

And the second method comprises the following steps: one of the first conductor and the second conductor is arranged on the outer surface of the electronic cigarette, and the other one of the first conductor and the second conductor is arranged in the electronic cigarette;

the specific position of the conductive body disposed on the outer surface of the electronic cigarette is not limited.

The specific arrangement mode of the electric conductor arranged inside the electronic cigarette is as follows:

1. the first electric conductor or the second electric conductor is positioned inside the electronic cigarette, and the electronic cigarette further comprises a covering piece which can be covered outside the electric conductor positioned inside the electronic cigarette in an opening mode;

namely, a covering piece used for covering the first conductor or the second conductor arranged in the electronic cigarette is arranged on the outer surface of the electronic cigarette, so that the covering piece can completely cover the conductor arranged in the electronic cigarette.

In this embodiment, the specific installation position of the first conductor or the second conductor arranged inside the electronic cigarette is not limited as long as the first conductor or the second conductor is arranged inside the electronic cigarette.

The present embodiment does not limit the specific shapes of the first conductor or the second conductor and the covering member disposed inside the electronic cigarette, as long as the covering member is matched with the first conductor or the second conductor, that is, the covering member can completely cover the first conductor or the second conductor.

In this embodiment, how the covering member covers the first conductive body or the second conductive body disposed inside the electronic cigarette is not limited, as long as the covering member is disposed on an outer surface of the conductive body.

The specific manner of covering the first conductor or the second conductor by the covering member may be: one end of the covering piece is fixed on the outer surface of the electronic cigarette through a screw, a screw rod, a buckle and the like, and the covering piece can freely rotate around the screw, the screw rod or the buckle, so that when a user needs to suck smoke, the covering piece can be rotated to expose the first conductor or the second conductor arranged in the electronic cigarette, and the user can touch the first conductor or the second conductor;

or a first magnet is arranged on the side surface of the covering piece close to the electronic cigarette, a second magnet is arranged on the outer surface of the electronic cigarette at the position where the covering piece is arranged, and the first magnet and the second magnet are magnetically attracted, so that the covering piece is fixed on the outer surface of the electronic cigarette through the first magnet and the second magnet when a user does not need to smoke;

and the covering piece is arranged to be sleeved outside the first electric conductor or the second electric conductor, so that the covering piece arranged as the sleeve body can be sleeved on the outer surface of the electronic cigarette to cover the first electric conductor or the second electric conductor.

By taking fig. 7 as an example, a structure of the covering element provided by the embodiment of the present invention is illustrated, and it should be clear that, as shown in fig. 4, the structure and the arrangement position of the covering element are illustrated and not limited.

As shown in fig. 7, the electronic cigarette further includes a mouthpiece 300 connected to the atomizing assembly 100;

in this embodiment, the atomizing assembly 100 and the suction nozzle 300 may be fixedly connected or detachably connected, wherein the specific manner of detachably connecting the atomizing assembly 100 and the suction nozzle 300 is not limited in this embodiment, and may be, for example, a threaded connection, a snap connection, a magnetic connection, or the like.

In this embodiment, the electronic cigarette further includes a cover 400, and in this embodiment, the mouthpiece 300 is a first conductive body disposed inside the electronic cigarette. The cover member is disposed on the suction nozzle 300 in a covering manner, wherein the cover member 400 is disposed on the suction nozzle 300 in a manner that a threaded section is disposed on both an outer circumferential surface of the suction nozzle and an inner circumferential surface of the cover member 400, so that the cover member 400 is screwed onto the suction nozzle 300 through the threaded section, and for example, the cover member 400 is in interference fit with the suction nozzle 300, so that when a user needs to suck smoke, the cover member 400 is pulled off by an external force to expose the suction nozzle 300, which is touched by the user.

The cover 400 shown in fig. 7 can also protect the suction nozzle 300, prevent the suction nozzle 300 from being damaged by external force, and can also ensure the hygiene of the suction nozzle 300, and improve the safety of the user in using the electronic cigarette.

In this arrangement, if the first conductive body or the second conductive body is disposed inside the atomizing assembly 100, the covering member may be a sleeve body that can be sleeved on the atomizing assembly 100, and if the first conductive body or the second conductive body is disposed inside the battery rod assembly 200, the covering member may be a sleeve body that can be sleeved on the battery rod assembly 200.

2. The electronic cigarette also comprises an adjusting piece which is used for adjusting the electric conductor positioned in the electronic cigarette so as to extend out of the electronic cigarette;

the specific structure of the adjusting member is not limited in this embodiment, as long as the adjusting member can make the first conductive body 101 or the second conductive body 201 extend out of the electronic cigarette to be touched by a user.

Referring to fig. 2 and 3, for example, the adjusting member may be an elastic member 107 disposed inside the electronic cigarette and electrically connected to the first conductive body 101, and the elastic member 107 is in a compressed state, the first conductor 101 is provided with a clamping member 108 in an electrical sliding connection manner, and the clamping member 108 is movably connected with the electronic cigarette, so that when the user does not need to suck smoke, the clamping piece 108 clamps the first conductor 101, so that the elastic piece 107 of the adjusting piece is in a compressed state, when the user needs to smoke, the user can press the pressing portion 1081 of the clip 108, which extends out of the electronic cigarette, so that the clip 108 and the first conductive body 101 are electrically separated from each other, the first conductor 101 is subjected to the elastic force of the elastic member 107, so that the first conductor 101 can extend out of the electronic cigarette.

As described above, in this arrangement, the first conductive body 101 is located inside the electronic cigarette, and the other conductive body is disposed at any position on the outer surface of the electronic cigarette, such as on the outer surface of the battery rod assembly 200 or on the outer surface of the atomizing assembly 100, which is not limited in particular.

The advantage of using this arrangement is that, because one conductive body is arranged inside the electronic cigarette, when the user needs to smoke, the conductive body inside the electronic cigarette needs to be exposed to the touch of the user (the first conductive body 101 or the second conductive body is extended out of the electronic cigarette by pulling out or moving the covering part or the adjusting part as described above), so that the arrangement can further effectively prevent the electronic cigarette from automatically working to atomize smoke, ensure the safety of the electronic cigarette in use and transportation, and effectively ensure that the tobacco tar stored inside the electronic cigarette does not deteriorate and change the taste of the electronic cigarette due to the automatic operation of the electronic cigarette, and the battery rod assembly 200 can supply power to the atomizing assembly 100 only when the first conductive body 101 and the second conductive body are conducted, thereby avoid the user when not needing to pump smog the battery pole subassembly 200 does the power supply of atomization component 100 has avoided the waste of the electric energy that battery pole subassembly 200 stored, and is long when the use of effectual extension electron cigarette to avoid the frequent charging to battery pole subassembly 200, prolonged the life of electron cigarette.

And the third is that: the first conductor and the second conductor are both arranged inside the electronic cigarette, and the specific arrangement positions of the first conductor and the second conductor arranged inside the electronic cigarette are not limited in this embodiment as long as the first conductor and the second conductor are located at different positions inside the electronic cigarette, wherein the specific arrangement mode that the first conductor and the second conductor are arranged inside the electronic cigarette can be shown in the second arrangement mode, and is not limited in this arrangement mode.

In this kind of mode of setting, if the user wishes to smoke, then need carry out the operation that corresponds just can make first electric conductor with the second electric conductor all exposes the electron cigarette surface to make the user touch simultaneously first electric conductor with the second electric conductor, so that first electric conductor with the second electric conductor switches on, thereby further avoids the automatic work of electron cigarette with the possibility of atomizing smog, has ensured the safety in electron cigarette use and the transportation. And the inside tobacco tar of saving of effectual guarantee electron cigarette can not go on working because of the electron cigarette is automatic and the appearance of rotten and the flavor changing condition, moreover because of the electron cigarette only at first electric conductor with under the condition that the second electric conductor switches on, battery pole subassembly 200 just can do atomization component 100 supplies power to avoid the user when not needing to aspirate smog battery pole subassembly 200 does atomization component 100 supplies power, has avoided the waste of the electric energy that battery pole subassembly 200 stored, and is long when the use of effectual extension electron cigarette to avoid the frequent charging to battery pole subassembly 200, prolonged the life of electron cigarette.

In a third embodiment, in the present embodiment, the atomization assembly 100 and the battery rod assembly 200 are coaxially disposed, the atomization assembly 100 is located at the upper end of the electronic cigarette body, and when the battery rod assembly 200 is located at the lower end of the electronic cigarette body, specific arrangement positions of the first electric conductor and the second electric conductor are described in detail:

the first method comprises the following steps: as shown in any one of fig. 4 to 6, that is, the electronic cigarette shown in fig. 4 to 6 has a structure in which the atomizing assembly 100 and the battery rod assembly 200 are coaxially disposed, the atomizing assembly 100 is located at the upper end of the electronic cigarette body, and the battery rod assembly 200 is located at the lower end of the electronic cigarette body.

In this embodiment, for the convenience of the user, the suction nozzle 300 is the first conductor, and the whole suction nozzle 300 is made of a conductive material, so that the suction nozzle 300 is provided with the first conductor for electrically connecting with the battery rod assembly 200; or the first conductor covers the whole peripheral surface of the suction nozzle, or the first conductor covers the partial peripheral surface of the suction nozzle.

In this embodiment, the specific arrangement manner of the first conductor is not limited, and the first conductor can be conducted only by touching the suction nozzle 300 by a user.

As shown in any one of fig. 4 to 6, when the suction nozzle 300 is located at an end of the atomizing assembly 100, the outer housing of the battery bar assembly 200 is the second conductive body, that is, the outer housing of the battery bar assembly 200 is made of a conductive material, so that a user can touch any position of the outer housing of the battery bar assembly 200 to conduct electricity between the user and the second conductive body, or the second conductive body covers the entire outer circumferential surface of the battery bar assembly;

or, the second conductor covers a partial outer circumferential surface of the battery rod assembly, and specifically, the second conductor includes at least one first conductor sub-body;

the first conductive sub-body is in a strip-shaped structure, the first conductive sub-body in the strip-shaped structure is attached to the outer peripheral surface of the battery rod assembly 200, and the axial direction of the first conductive sub-body is parallel to the axial direction of the battery rod assembly 200;

in this arrangement, the specific shape of the first conductive sub-body is not limited, and for example, the first conductive sub-body may be an oval or a rectangle, as long as the axial direction of the first conductive sub-body is parallel to the axial direction of the battery rod assembly 200. The specific number of the first conductors provided in this arrangement is not limited, and may be one or more.

Further alternatively, the first conductive sub-body has a sheet structure, and the first conductive sub-body is randomly attached to the outer circumferential surface of the battery rod assembly 200, in this arrangement, the specific shape of the first conductive sub-body is not limited, for example, the first conductive sub-body may have a circular, square or irregular shape. The present embodiment does not limit the specific number of the first conductive sub-bodies.

And the second method comprises the following steps: as shown in fig. 8, a groove 204 and a through hole 205 are formed on an outer circumferential surface of the battery rod assembly 200, the second conductive body 201 is located in the groove 204 and the through hole 205 to form a touch area for a user to touch for smoking, and a clamping groove for the user to clamp an electronic cigarette is defined by a groove wall of the groove 204 or a hole wall of the through hole 205 and the second conductive body 201. Specifically, in this embodiment, a portion of the second conductive body 201 covers the bottom wall of the groove 204, and another portion extends into the through hole 205 and is clamped on the inner wall of the outer sleeve of the battery rod assembly 200. Of course, the second conductive body 201 may be located entirely or partially within the groove 204 or the through hole 205, and is not particularly limited herein.

That is, when a user needs to smoke, the user can touch the second conductive body 201 by directly touching the touch area shown in fig. 8, so that the user is conducted with the second conductive body 201.

The advantage of this arrangement is that, because the second conductor 201 is located in the groove 204 or the through hole 205 to form the touch area, the clamping groove guides the user to determine the specific position of the touch area during the use of the electronic cigarette, so as to facilitate the user operation, avoid the user from incorrectly touching the second conductor 201 during the use, and prevent the occurrence of the situation that the atomization assembly 100 cannot normally work due to the slippage phenomenon when the user touches the second conductor 201.

Thirdly, the atomization assembly 100 and the battery rod assembly 200 are detachably connected, wherein the specific manner of detachably connecting the atomization assembly 100 and the battery rod assembly 200 is not limited, and may be, for example, a threaded connection or a snap connection.

The suction nozzle 300 is arranged at one end of the atomization assembly 100, which is far away from the battery rod assembly 200;

the second conductor includes a third conductive sub-body and a fourth conductive sub-body, the third conductive sub-body is located at one end of the battery rod assembly 200 connected to the atomization assembly 100 and is used for connecting to the atomization assembly 100, for example, a threaded section may be provided on an outer circumferential surface of the third conductive sub-body so that the atomization assembly 100 is screwed to the battery rod assembly 200 through the threaded section.

Wherein the third conductive sub-body is located on the outer peripheral surface of the electronic cigarette so that the third conductive sub-body can be touched by a user;

the fourth conductive sub-body is located at a middle region of the battery bar assembly 200;

the advantage of adopting this kind of setting mode is that the user is when the electron cigarette of this kind of setting mode of practical application, as long as touch third conductive daughter and the arbitrary one of fourth conductive daughter can make the user with the second electric conductor switches on to reduced the user with the degree of difficulty that the second electric conductor switches on, thereby be convenient for user operation so that atomizing subassembly 100 atomizing tobacco tar is in order to generate smog.

Specifically, the third conductive sub-body may be one or more, and the fourth conductive sub-body may be one or more.

The specific structure of the electronic cigarette according to this embodiment is advantageous in that, since the first conductor is located on the suction nozzle 300 or the suction nozzle 300 is the first conductor, the second conductor is positioned at the middle-lower position of the electronic cigarette body, so that a user can touch the first conductor and the second conductor at the same time by only normally smoking the electronic cigarette without additional operation, namely, the user can contact the first conductor through the mouth and contact the second conductor through the fingers, which accords with the use habit of the user and is more convenient for the user to use, on the premise of not increasing the redundant operation of the user, can effectually avoid atomizing component 100's automatic work, when convenience of customers operated, still can avoid the waste of tobacco tar and the waste of electric quantity, promoted the life of electron cigarette to and promoted the safety in transportation and the use.

In a fourth embodiment, the present embodiment describes in detail specific arrangement positions of the first electric conductor and the second electric conductor when the atomizing assembly and the battery rod assembly are coaxially arranged, the battery rod assembly is located at the upper end of the electronic cigarette body, and the atomizing assembly is located at the lower end of the electronic cigarette body:

in this embodiment, the suction nozzle is located at an end of the battery rod assembly, and for convenience of operation by a user, the suction nozzle is the first conductor, and the suction nozzle is entirely made of a conductive material, so that the suction nozzle is provided with the first conductor for electrically connecting with the battery rod assembly; or the first conductor covers the whole peripheral surface of the suction nozzle, or the first conductor covers the partial peripheral surface of the suction nozzle.

In this embodiment, a specific arrangement manner of the first conductor is not limited, and the first conductor can be conducted with the suction nozzle only by touching the suction nozzle by a user.

The outer shell of the atomization assembly is the second electric conductor, namely the outer shell of the atomization assembly is made of an electric conduction material.

Or the second conductor is arranged to cover the whole peripheral surface of the atomization assembly;

or the second electric conductor is arranged for coating the partial peripheral surface of the atomization component.

Wherein the second electrical conductor comprises at least one second electrical conductor sub-body;

the second conductive sub-body is of a strip-shaped structure, the second conductive sub-body of the strip-shaped structure is attached to the outer peripheral surface of the atomization assembly, and the axial direction of the second conductive sub-body is parallel to the axial direction of the atomization assembly;

or the like, or, alternatively,

the second conductive daughter is of a sheet structure and is attached to the outer peripheral surface of the atomization assembly at random.

The specific structure and the arrangement manner of the second conductive sub-body can refer to the specific structure and the arrangement manner of the first conductive sub-body in the third embodiment, which are not described in detail in this embodiment, and the specific structure and the arrangement manner of the first conductive sub-body and the second conductive sub-body are the same, except that the first conductive sub-body is disposed on the battery rod assembly 200 of the electronic cigarette shown in the third embodiment, and the second conductive sub-body is disposed on the atomizing assembly of the electronic cigarette shown in the fourth embodiment.

The specific structure of the electronic cigarette shown in the embodiment has the advantages that the first conductor is located on the suction nozzle or the suction nozzle is the first conductor, the second conductor is located at the middle position and the lower position of the electronic cigarette body, so that a user does not need extra operation, the first conductor and the second conductor can be touched simultaneously as long as the electronic cigarette is sucked normally, automatic work of an atomization assembly can be effectively avoided on the premise that unnecessary operation of the user is not increased, the electronic cigarette can be operated conveniently by the user, waste of tobacco tar and waste of electric quantity can be avoided, the service life of the electronic cigarette is prolonged, and safety in a transportation process and a using process is improved.

The specific structures of the battery rod assembly and the atomization assembly are not limited in this embodiment, as long as when the first electric conductor and the second electric conductor are conducted, the battery rod assembly can supply power to the atomization assembly, so that the atomization assembly atomizes the tobacco tar to generate smoke.

In a fifth embodiment, the present embodiment describes in detail the specific structure of the atomizing assembly 100 shown in the third embodiment:

as shown in fig. 4 to 6, the atomizing assembly 100 includes an oil cup assembly 110 and an atomizing core 120;

the specific structure of the oil cup assembly 110 is described in detail below with reference to fig. 9, where the oil cup assembly 110 specifically includes:

an oil storage jacket 111;

and a breather pipe 112 inserted in the oil storage sleeve 111;

the suction nozzle 300 is disposed at one end of the oil cup assembly 110, and the suction nozzle 300 is communicated with the ventilation tube 112, so that the smoke atomized by the atomizing assembly can be communicated to the suction nozzle 300 through the ventilation tube 112, and a user can suck the smoke through the suction nozzle 300.

The other end of the oil cup component 110 is provided with an atomizing core 120 which is detachably connected with the oil cup component 110 and is used for atomizing tobacco tar;

the connection structure between the oil cup assembly 110 and the atomizing core 120 is shown in fig. 6, and the specific structure of the atomizing core 120 is shown in fig. 10;

one end of the atomizing core 120 is connected to the air pipe 112, and the other end of the atomizing core 120 is connected to the battery rod assembly 200 (shown in fig. 6).

In this embodiment, the atomizing assembly 100 is formed by detachably connecting the oil cup assembly 110 and the atomizing core 120, namely, when the atomizing assembly 100 is assembled, the atomizing core 120 is inserted into an end of the oil cup assembly 110 away from the suction nozzle 300, thereby simplifying the assembly process, improving the assembly efficiency, and if the atomizing core 120 or the oil cup assembly 110 is damaged, only the damaged atomizing core 120 or the oil cup assembly 110 may be replaced, without replacing the atomizing assembly 100 as a whole, thereby reducing the maintenance cost of the electronic cigarette in subsequent use, and when the atomizing core 120 or the oil cup assembly 110 is replaced, the atomizing core 120 is only required to be inserted into one end of the oil cup assembly 110 far away from the suction nozzle 300, and complex operation is not required, so that the situation that the assembled atomizing assembly 100 cannot work due to insufficient operation precision of a user is avoided.

The following describes in detail the electrical connection relationship of the electronic cigarette provided in this embodiment:

as shown in the third embodiment, the suction nozzle 300 of the electronic cigarette is the first conductor, and specific reference is made to the third embodiment, which is not repeated in this embodiment;

the second conductor is disposed on the outer circumferential surface of the battery rod assembly 200, as shown in the third embodiment, and details are not described in this embodiment.

In this embodiment, the control unit is disposed in the battery rod assembly 200, and the specific disposition position is not limited.

Two ends of the air pipe 112 are electrically connected to the suction nozzle 300 and the atomizing core 120, respectively, so that the suction nozzle 300 is electrically connected to the control unit through the air pipe 112 and the atomizing core 120.

In this embodiment, the air pipe 112 and the atomizing core 120 are used for electrically connecting the suction nozzle 300 and the control unit, so that the interruption of the electrical connection relationship between the control unit and the suction nozzle 300 is avoided, and the atomizing assembly 100 can normally atomize smoke even in a transportation process or a long-term use, so that the service life of the electronic cigarette is prolonged, the stability of the electrical connection inside the electronic cigarette is effectively guaranteed, and the battery rod assembly 200 is effectively guaranteed to normally supply power to the atomizing assembly 100 in the use process of the electronic cigarette.

The specific structure of the atomizing core 120 is specifically described below;

referring to fig. 6 and 10, the atomizing core 120 is provided with a smoke channel 121 and an elastic conductive arm 122 extending into the smoke channel 121, the elastic conductive arm 122 is electrically connected to the control unit, the air tube 112 is inserted into the smoke channel 121, and the elastic conductive arm 122 elastically abuts against a side wall of the air tube 112, so that the elastic conductive arm 122 is electrically connected to the suction nozzle 300 through the air tube 112.

The specific number of the elastic conductive arms 122 is not limited in this embodiment, and may be one or more;

preferably, in order to achieve stable electrical connection between the control unit and the suction nozzle 300, the elastic conductive arms 122 are preferably arranged in pairs, and the elastic conductive arms 122 arranged in pairs are symmetrically arranged around the axial direction of the vent pipe 112.

Specifically, the vent tube 112 is inserted into the smoke channel 121, so that the side wall of the vent tube 112 located in the smoke channel 121 abuts against the elastic conductive arm 122 extending into the smoke channel 121, so that the elastic conductive arm 122 is in a compressed state, and the elastic conductive arm 122 in the compressed state tightly abuts against the side wall of the vent tube 112 located in the smoke channel 121, because the elastic conductive arm 122 is made of a conductive material and the elastic conductive arm 122 is electrically connected with the control unit, the structure of the atomizing assembly 100 shown in this embodiment can effectively improve the stability of the electrical connection relationship between the atomizing core 120 and the vent tube 112, thereby effectively avoiding the interruption of the electrical connection relationship, avoiding the battery assembly 200 from being unable to normally supply power to the atomizing assembly 100, and when the atomizing assembly 100 is assembled, the atomizing core 120 is only required to be inserted into one end of the oil cup assembly 110 far away from the suction nozzle 300, so that the elastic conductive arm 122 tightly abuts against the side wall of the vent pipe 112 located in the smoke channel 121, the electrical connection relationship between the control unit and the suction nozzle 300 can be realized without extra steps, and the production efficiency is effectively improved.

The specific structure of the atomizing core 120 is further described in detail below:

one end of the atomizing core 120 is provided with a conductive ring 123 sleeved on the smoke channel, an inner circumferential surface of the conductive ring 123 extends obliquely in a direction away from the suction nozzle 300 to form two elastic conductive arms 122, and the two elastic conductive arms 122 are arranged oppositely, as shown in fig. 11, fig. 11 is an explosion connection structure schematic diagram of the atomizing core provided in the embodiment of the present invention.

Namely, in the process of assembling the atomizing core 120, the conducting ring 123 is sleeved at the end of the smoke channel 121, so that the elastic conducting arm 122 on the conducting ring 123 extends into the smoke channel 121, which is convenient for the user to assemble and improves the reliability of the electrical connection relationship.

More specifically, the atomizing core 120 includes a hollow atomizing seat 124;

the atomizing base 124 is formed with the smoke channel 121 therein, and an oil storage cavity is arranged between the smoke channel 121 and the inner peripheral wall of the oil storage sleeve 111, so that the tobacco tar is stored inside the atomizing assembly 100 through the oil storage cavity.

The side wall of the atomizing base 124 is provided with an oil inlet channel 125 communicated with the oil storage cavity;

one end of the atomizing base 124 is connected with an atomizing electrode assembly 126 for electrically connecting with the battery rod assembly 200, i.e. the atomizing assembly 100 is electrically connected with the battery rod assembly 200 through the atomizing electrode assembly 126.

A smoke adsorbing piece 127 for adsorbing smoke in the oil storage cavity from the oil inlet channel 125 is arranged in the smoke channel;

and a heating wire 128 for atomizing the tobacco tar on the tobacco tar adsorbing member 127, wherein the heating wire 128 is in a spiral structure and is wound on the tobacco tar adsorbing member 127, so that the heating wire 128 is in full contact with the tobacco tar adsorbing member 127, thereby ensuring that sufficient tobacco tar is conducted onto the heating wire 128, ensuring that the atomized smoke of the heating wire 128 is uniform and constant, and improving the experience of a user in a process of smoking the smoke.

Preferably, the tobacco tar adsorbing member 127 may be woven by glass fiber material, so as to improve the stability and efficiency of the tobacco tar adsorbing member 127 for transferring the tobacco tar onto the heating wire 128.

The heating wire 128 is electrically connected to the atomizing electrode assembly 126;

the end of the atomizing base 124 away from the atomizing electrode assembly 126 is provided with an elastic conductive arm 122 extending into the smoke channel 121, the elastic conductive arm 122 is electrically connected to the control unit, the air tube 112 is inserted into the smoke channel 121, and the elastic conductive arm 122 elastically abuts against the side wall of the air tube 112, so that the specific structure of the atomizing assembly 100 provided by this embodiment realizes a stable electrical connection relationship between the control unit and the suction nozzle 300.

Further, the atomizing electrode assembly 126 includes a first upper electrode 1261, a second upper electrode 1262, a first insulating ring 1263, and a second insulating ring 1264;

the first insulating ring 1263 is disposed on the first upper electrode 1261 and is used for isolating the first upper electrode 1261 from the second upper electrode 1262; the second insulating ring 1264 is sleeved on the second upper electrode 1262 and is used for isolating the second upper electrode 1262 from the atomizing seat 124;

the electrical connection relationship of the heating wire 128 will be described below with reference to fig. 14:

one end of the heating wire 128 is electrically connected to the atomizing base 124;

specifically, as shown in fig. 14, an insulating sleeve 129 is disposed between the conductive ring 123 and the atomizing base 124 and located at an end of the atomizing base 124, the insulating sleeve 129 is sleeved on an outer side of the elastic conductive arm 122, one end of the heating wire 128 is inserted between the atomizing base 124 and the insulating sleeve 129, that is, one end of the heating wire 128 is fixed by the atomizing base 124 and the insulating sleeve 129, and since the other end of the atomizing base 124 is connected and electrically connected to the battery assembly 200, one end of the heating wire 128 is electrically connected to the battery assembly; as can be seen from the above structure, in the electrical connection process using the structure shown in this embodiment, only one end of the heating wire 128 needs to be inserted between the atomizing base 124 and the insulating sleeve 129, so as to facilitate assembly and improve assembly efficiency.

The other end of the heating wire 128 is electrically connected to the second upper electrode 1262 to be electrically connected to the battery bar assembly 200;

the electronic cigarette further comprises a wire 801 for electrically connecting the resilient conductive arm 122 and the atomization electrode assembly 126;

one end of the wire 801 is connected to the elastic conductive arm 122 by welding, and the other end of the wire 801 is clamped between the first upper electrode 1261 and the first insulating ring 1263, so as to clamp and fix the other end of the wire 801 by the first upper electrode 1261 and the first insulating ring 1263, and because the elastic conductive arm 122 and the vent pipe 112 are made of conductive materials, the first upper electrode 1261 is electrically connected to the suction nozzle 300 sequentially through the wire 801, the elastic conductive arm 122 and the vent pipe 112, thereby realizing the electrical connection between the suction nozzle 300 and the control unit located in the battery rod assembly 200.

The specific structure of the battery rod assembly 200 will be described in detail below with reference to fig. 12:

battery pole subassembly 200 including be used for with atomizing subassembly 100 carries out the connector 201 that can dismantle the connection, by what figure 12 shows can know, be provided with on the periphery wall of connector 201 be used for with atomizing subassembly 100 can dismantle the screw thread section of being connected, so that atomizing subassembly 100 through this screw thread section with battery pole subassembly 200 is connected, the concrete structure of the connector 201 shown in figure 12 explains for the example certainly, does not do the restriction, still can be provided with slide rail and draw-in groove on the connector 201 atomizing subassembly 100 is close to the tip of battery pole subassembly 200 is provided with the buckle, so that the buckle can be followed the direction of slide rail slides, and works as the buckle slides extremely when in the draw-in groove, realizes atomizing subassembly 100 with the block connection of battery pole subassembly 200.

The connector 201 is provided with two mounting holes, a first elastic electrode 202 and a second elastic electrode 203 are respectively arranged on the two mounting holes, and the first elastic electrode 202 and the second elastic electrode 203 are arranged in parallel.

The first elastic electrode 202 is in contact with the first upper electrode 1261, and the second elastic electrode 203 is in contact with the second upper electrode 1262.

The advantage of this arrangement is that when the atomizing assembly 100 is connected to the battery rod assembly 200, that is, when the first elastic electrode 202 abuts against the first upper electrode 1261, and when the second elastic electrode 203 abuts against the second upper electrode 1262, the first elastic electrode 202 and the second elastic electrode 203 are in a compressed state, reliable electrical connection between the first elastic electrode 202 and the first upper electrode 1261, and between the second elastic electrode 203 and the second upper electrode 1262 can be ensured, even if the electronic cigarette is shaken during long-time use or transportation, electrical connection between the first elastic electrode 202 and the first upper electrode 1261, and electrical connection between the second elastic electrode 203 and the second upper electrode 1262 can be ensured, and the occurrence of a situation that the atomizing assembly 100 cannot normally operate due to abnormal electrical connection is avoided.

It should be understood that the specific structure of the battery rod assembly 200 shown in fig. 12 is for illustration and not limitation, and the specific structure of the battery rod assembly 200 can also be seen in fig. 13;

the battery rod assembly 200 includes a connector 201 for detachable connection with the atomizing assembly 100, and the specific structure of the connector 201 can be seen in fig. 12, which is not described in detail in the embodiments. A spring electrode 1001 and a ring electrode 1002 are arranged on the connector 201;

the spring electrode 1001 and the ring electrode 1002 are concentrically disposed, the spring electrode 1001 is electrically connected to the first upper electrode 1261, and the ring electrode 1002 is electrically connected to the second upper electrode 1262.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Sixth embodiment, this embodiment describes in detail a specific structure of the control unit:

in this embodiment, the specific structure of the control unit may have the following several setting manners, and it should be clear that the following is an example of the structure of the control unit shown in this embodiment, and is not limited;

first, as shown in fig. 15, the control unit includes:

a microprocessor 1301;

a filter unit 1302 electrically connected to the second conductor for filtering an input signal;

the specific structures and arrangement of the first conductor and the second conductor are shown in the above embodiments, which are not described in detail in this embodiment.

The first transistor switch unit 1303 electrically connected to the filtering unit 1302, and configured to receive the signal output by the filtering unit 1302 and send a trigger signal to the microprocessor 1301;

a second transistor switch unit 1305 electrically connected to the microprocessor 1301 and the atomizing assembly;

the specific structure of the atomizing assembly is shown in the above embodiments, which are not described in detail in the embodiments.

The microprocessor 1301 is configured to enable the microprocessor 1301 to turn on the second transistor switch unit 1305 to enable the atomization assembly to atomize the tobacco tar if the first conductor and the second conductor are turned on.

The specific structure of the control unit is further described in detail below with reference to fig. 16: in the following description, the example that J3 is connected to the second electric conductor and J4 is connected to the first electric conductor shown in fig. 16 is taken as an example, and of course, in order to facilitate the operation of the user and the smoking of smoke by the user, one or more electric conductors and the like electrically connected to J1, J5 and J7 respectively may be arranged on the outer surface of the electronic cigarette.

The filter unit 1302 comprises a seventh resistor R7, an eighth resistor R8, a first capacitor C1 and a second capacitor C2;

one end of the seventh resistor R7 is grounded, and the other end of the seventh resistor R7 is electrically connected with the first conductor;

one end of the first capacitor C1 is connected with the first conductor, and the other end of the first capacitor C1 is grounded;

one end of the eighth resistor R8 is connected to the first conductor, the other end of the eighth resistor R8 is connected to the first transistor switch unit 1303, one end of the second capacitor C2 is connected to one end of the eighth resistor R8, which is far from the first conductor, and the other end of the second capacitor C2 is grounded.

Further, the first transistor switch unit 1303 includes a first transistor Q1 and a first resistor R1;

the base of the first transistor Q1 is connected to the filtering unit 1302, that is, as shown in fig. 16, the other end of the eighth resistor R8 is connected to the base of the first transistor Q1, so as to connect the filtering unit 1302 to the first transistor switch unit 1303.

The emitter of the first triode Q1 is grounded, the collector of the first triode Q1 is connected with the first resistor R1 and the microprocessor 1301, and the other end of the first resistor R1 is electrically connected with the positive electrode of the battery.

Wherein a heating wire is connected between P1 and P2 to realize the electrical connection of the heating wire with the microprocessor 1301.

Preferably, the microprocessor 1301 is implemented by a chip MC32P7010A0I, although other chips may also be used, and are not limited in this embodiment;

the second transistor switch unit 1305 is electrically connected to the heating wire and the microprocessor 1301, respectively;

specifically, the second transistor switching unit 1305 includes a fourth transistor Q4;

the specific operation flow of the control unit shown in fig. 16 is explained in detail below:

if no one touches the first conductor and the second conductor, or does not touch the first conductor and the second conductor at the same time, the collector of the first transistor Q1 of the first transistor switch unit 1303 outputs a low level, that is, a signal SIG is logic 0, that is, the collector of the first transistor Q1 is electrically connected to the "3" pin of the microprocessor 1301, and the microprocessor 1301 determines that the signal SIG received through the "3" pin is logic 0, and does not supply power to the heating wire;

if a user touches a first conductive body and a second conductive body simultaneously, wherein the first conductive body is preferably arranged at the suction nozzle end, and the second conductive body is preferably arranged at the middle lower end of the outer surface of the electronic cigarette, the user can touch the first conductive body and the second conductive body simultaneously when smoking smoke normally;

the signal is first filtered by the filtering unit 1302, and then flows through the first transistor Q1 to turn on, so that the SIG signal becomes high, i.e. SIG equals to logic 1.

The microprocessor 1301 determines that a signal SIG received by the microprocessor through a pin "3" is logic 1, and controls the battery to supply power to the heating wire;

when the microprocessor 1301 determines that the signal SIG received through the "3" pin is logic 1, the microprocessor 1301 controls the fourth transistor Q4 to be turned on, so that the two ends of the heating wire are powered on, and the heating wire atomizes the tobacco tar to form smoke.

Secondly, referring to fig. 17, the following description will be made by taking an example in which J3 shown in fig. 17 is connected to the second electric conductor and J4 is connected to the first electric conductor, but of course, in order to facilitate the user to operate and smoke the user, one or more electric conductors electrically connected to J1, J5 and J7 respectively may be disposed on the outer surface of the electronic cigarette.

For a specific structure of the filtering unit 1302, please refer to a first setting manner of the control unit shown in fig. 16, which is not described in detail herein.

As shown in fig. 17, the first transistor switching unit 1303 in the control unit of the present invention includes a second transistor Q2, a third transistor Q3, a second resistor R2, a third resistor R3, and a fourth resistor R4;

the base of the second triode Q2 is connected to the filtering unit 1302;

specifically, the other end of the eighth resistor R8 is connected to the base of the second transistor Q2, so as to connect the filter unit 1302 to the first transistor switch unit 1303.

The emitter of the second triode Q2 is grounded, and the collector of the second triode Q2 is connected with the second resistor R2 and the third resistor R3;

the other end of the second resistor R2 is electrically connected with the positive electrode of the battery, and the other end of the third resistor R3 is connected with the base electrode of the third triode Q3;

the emitter of the third triode Q3 is electrically connected with the positive electrode of the battery, the collector of the third triode Q3 is electrically connected with the fourth resistor R4 and the microprocessor 1301, and the other end of the fourth resistor R4 is grounded.

Wherein a heating wire is connected between P1 and P2 to realize the electrical connection of the heating wire with the microprocessor 1301.

Fig. 16 shows a specific implementation structure of the microprocessor 1301, and details of this setting manner are not described herein.

A second transistor switch unit 1305 electrically connected to the microprocessor 1301 and the atomizing assembly;

the specific structure of the atomizing assembly is shown in the above embodiments, which are not described in detail in the embodiments.

The microprocessor 1301 is configured to, if the first conductor and the second conductor are turned on, turn on the second transistor switch unit 1305 according to the received trigger signal of the first transistor switch unit 1303, so that the atomization assembly atomizes the tobacco tar by the microprocessor 1301.

The specific operation flow of the electronic cigarette control circuit shown in fig. 17 is described in detail below:

if no one touches the first conductor and the second conductor, or does not touch the first conductor and the second conductor at the same time, the collector of the third transistor Q3 of the first transistor switch unit 1303 outputs a low level, that is, a signal SIG is logic 0, that is, the collector of the third transistor Q3 is electrically connected to the "3" pin of the microprocessor 1301, and the microprocessor 1301 determines that the signal SIG received through the "3" pin is logic 0, and does not supply power to the heating wire;

if a user touches a first conductive body and a second conductive body simultaneously, wherein the first conductive body is preferably arranged at the suction nozzle end, and the second conductive body is preferably arranged at the middle lower end of the outer surface of the electronic cigarette, the user can touch the first conductive body and the second conductive body simultaneously when smoking smoke normally;

the signal is first filtered by the filtering unit 1302, and then flows through the second transistor Q2 to turn on, and then the third transistor Q3 turns on, so that the SIG signal becomes high, i.e., SIG equals to logic 1.

The microprocessor 1301 determines that a signal SIG received by the microprocessor through a pin "3" is logic 1, and controls the battery to supply power to the heating wire;

specifically, when the microprocessor 1301 determines that the signal SIG received through the "3" pin is logic 1, the microprocessor 1301 controls the fourth transistor Q4 to be turned on, so that two ends of the heating wire are powered on, and the heating wire atomizes the tobacco tar to form smoke.

Third, as shown in fig. 18, the control unit includes:

the atomization assembly comprises a microprocessor 1501, a filter unit 1502 electrically connected with the second conductive body and used for filtering input signals, a comparison circuit unit 1503 electrically connected with the filter unit 1502 and used for comparing the signals output by the filter unit 1502 and transmitting comparison results to the microprocessor 1501, and a third transistor switch unit 1504 electrically connected with the microprocessor 1501 and the atomization assembly, wherein the microprocessor 1501 is used for controlling the on-off of the third transistor switch unit 1504 according to the signals input by the comparison circuit unit 1503 to control whether the atomization assembly atomizes tobacco tar or not.

The circuit configuration of the control unit shown in fig. 18 will be described in detail below as shown in fig. 19:

the connection of J3 to the second conductor and the connection of J4 to the first conductor are illustrated in fig. 19, but it is also possible to provide one or more conductors electrically connected to J1, J5 and J7 respectively on the outer surface of the electronic cigarette for the convenience of operation and smoking of smoke by the user.

The filter unit 1502 includes a ninth resistor R9 and a third capacitor C3;

one end of the ninth resistor R9 is grounded, and the other end of the ninth resistor R9 is electrically connected to the first conductor;

one end of the third capacitor C3 is connected to the first conductor and the comparison unit 1503, and the other end of the third capacitor C3 is grounded.

Further, the comparing unit 1503 comprises a comparator U2, a fifth resistor R5 and a sixth resistor R6 connected in series with the fifth resistor R5;

one end of the third capacitor C3 of the filter unit 1502 is connected to the first conductor and the non-inverting input terminal of the comparator U2, so as to connect the filter unit 1502 to the comparison unit 1503.

One end of the fifth resistor R5, which is far away from the sixth resistor R6, is electrically connected with the positive electrode of the battery;

the end of the sixth resistor R6, which is far from the fifth resistor R5, is grounded, the non-inverting input terminal of the comparator U2 is electrically connected to the first conductor, and the inverting input terminal of the comparator U2 is connected to the end of the fifth resistor R5, which is adjacent to the sixth resistor R6.

Wherein a heating wire is connected between P1 and P2 to enable electrical connection of the heating wire with the microprocessor 1501.

For a specific implementation structure of the microprocessor 1501, please refer to the embodiment shown in fig. 16, which is not described in detail in this setting manner.

The third transistor switch unit 1504 is electrically connected to the heating wire and the microprocessor 1501, respectively;

specifically, the third transistor switching unit 1504 includes a fourth transistor Q4;

the specific operation flow of the electronic cigarette control circuit shown in fig. 19 is described in detail below:

if no one touches the first conductor and the second conductor, or the first conductor and the second conductor are not touched at the same time, the output end of the comparator U2 outputs a low level, that is, a signal SIG is logic 0, that is, the output end of the comparator U2 is electrically connected to the "3" pin of the microprocessor 1501, and the microprocessor 1501 determines that the signal SIG received through the "3" pin is logic 0, and does not supply power to the heating wire;

if a user touches a first conductive body and a second conductive body simultaneously, wherein the first conductive body is preferably arranged at the suction nozzle end, and the second conductive body is preferably arranged at the middle lower end of the outer surface of the electronic cigarette, the user can touch the first conductive body and the second conductive body simultaneously when smoking smoke normally;

the signal is first filtered by the filter unit 1502, the forward input terminal of the comparator U2 receives the filtered on signal and compares the filtered on signal with the reference voltage signal at the backward input terminal, and the output terminal of the comparator U2 outputs a comparison result signal as a trigger signal to the microprocessor U1.

The microprocessor U1 determines that the signal SIG received by the microprocessor U1 through the "3" pin is logic 1, and controls the battery to supply power to the heating wire;

specifically, when the microprocessor 1501 determines that the signal SIG received through the "3" pin is logic 1, the microprocessor 1501 controls the fourth transistor Q4 to be turned on, so that the two ends of the heating wire are powered on, and the heating wire atomizes the soot to form smoke.

The seventh embodiment provides an electronic cigarette atomization control method:

as shown in fig. 20, the control method includes:

1701. a control unit arranged in the electronic cigarette detects whether the first conductor and the second conductor are conducted or not;

the second electric conductor is electrically connected with a battery rod assembly, the first electric conductor is electrically connected with the control unit, the control unit is electrically connected with the atomization assembly and the battery rod assembly, and the first electric conductor and the second electric conductor are positioned at different positions on the outer peripheral surface of the electronic cigarette;

please refer to the above embodiments specifically, which are not described in detail in this embodiment.

1702. If so, the control unit controls the battery rod assembly to supply power to the atomization assembly so as to atomize the tobacco tar.

The electronic cigarette atomization control method provided by the embodiment has the advantages that the first conductive body and the second conductive body are disconnected without corresponding operations (simultaneously touching the first conductive body and the second conductive body on the outer surface of an electronic cigarette) of a user, the waste of tobacco tar and unnecessary reduction of the service life of the electronic cigarette caused by the fact that the electronic cigarette automatically works when a user does not perform corresponding operation can be effectively avoided in the process of packaging and transporting the electronic cigarette, thereby improving safety, effectively reducing the probability that the heating wire is triggered by mistake to atomize the tobacco tar, and if a user wants to suck the smoke, the first conductive body and the second conductive body can be touched simultaneously, a user does not need to suck or press, operation steps and difficulty of the user are reduced, and experience of the user in a smoke sucking process is improved. And because of need not to set up the air current inductor, then the effectual cost that reduces the electron cigarette, and avoid the air current inductor to detect smoking signal, tobacco tar to get into the battery pole subassembly from the air current channel and cause the short circuit scheduling problem when the smoking dynamics is less. Preferably, when a user sucks the smoke, the user can naturally touch the first electric conductor and the second electric conductor at the same time, so that the step of sucking the smoke by the user is simplified, and the situation that the electric heating wire cannot work due to the fact that the electric heating wire cannot be touched is avoided.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (19)

1. An electronic cigarette comprising an atomizing assembly and a battery pack assembly, the battery pack assembly configured to provide power to the atomizing assembly such that the atomizing assembly atomizes tobacco tar to form a mist, the electronic cigarette further comprising: a control unit is electrically connected with the atomization assembly and the battery rod assembly, a second electric conductor is electrically connected with a battery in the battery rod assembly, a first electric conductor is electrically connected with the control unit, and the first electric conductor and the second electric conductor are positioned at different positions of the electronic cigarette;

   when a user smokes, the user can contact the first electric conductor and the second electric conductor through skin to enable the first electric conductor and the second electric conductor to be conducted, and the control unit is used for controlling the battery rod assembly to supply power to the atomization assembly to atomize tobacco tar when detecting that the first electric conductor and the second electric conductor are conducted.
2. The electronic cigarette of claim 1, wherein at least one of the first electrical conductor and the second electrical conductor is located on an outer surface of the electronic cigarette;

   or the like, or, alternatively,

   at least one of the first electric conductor and the second electric conductor is positioned inside the electronic cigarette, and the electronic cigarette further comprises a covering piece which can be covered outside the electric conductor positioned inside the electronic cigarette in an opening mode;

   or the like, or, alternatively,

   at least one of the first conductor and the second conductor is located inside the electronic cigarette, and the electronic cigarette further comprises an adjusting piece for adjusting the conductor located inside the electronic cigarette to extend out of the electronic cigarette.
3. The electronic cigarette of claim 1, further comprising a mouthpiece for drawing smoke;

   the suction nozzle is the first conductor;

   or the like, or, alternatively,

   the first conductor is arranged to cover the whole peripheral surface of the suction nozzle;

   or the like, or, alternatively,

   the first conductor is arranged to cover the partial peripheral surface of the suction nozzle.
4. The electronic cigarette according to claim 3, wherein if the suction nozzle is located at an end of the atomizing assembly facing away from the battery rod assembly, the second electrical conductor is disposed on an outer casing of the battery rod assembly, or the second electrical conductor covers the entire outer circumference of the battery rod assembly, or the second electrical conductor covers a partial outer circumference of the battery rod assembly.
5. The electronic cigarette of claim 4, wherein the second electrical conductor comprises at least one first electrical conductor sub-body;

   the first conductive sub-body is of a strip-shaped structure, the first conductive sub-body of the strip-shaped structure is attached to the outer peripheral surface of the battery rod assembly, and the axial direction of the first conductive sub-body is parallel to the axial direction of the battery rod assembly;

   or the like, or, alternatively,

   the first conductive daughter is of a sheet structure and is attached to the outer peripheral surface of the battery rod assembly at random.
6. The electronic cigarette according to claim 3, wherein if the suction nozzle is located at an end of the battery rod assembly facing away from the atomizing assembly, the outer housing of the atomizing assembly is the second conductive body, or the second conductive body covers the entire outer peripheral surface of the atomizing assembly, or the second conductive body covers a partial outer peripheral surface of the atomizing assembly.
7. The electronic cigarette of claim 6, wherein the second electrical conductor comprises at least one second electrical conductor sub-body;

   the second conductive sub-body is of a strip-shaped structure, the second conductive sub-body of the strip-shaped structure is attached to the outer peripheral surface of the atomization assembly, and the axial direction of the second conductive sub-body is parallel to the axial direction of the atomization assembly;

   or the like, or, alternatively,

   the second conductive daughter is of a sheet structure and is attached to the outer peripheral surface of the atomization assembly at random.
8. The electronic cigarette according to any one of claims 1 to 3, wherein a groove or a perforation is provided on the outer peripheral surface of the battery rod assembly, the second electric conductor is at least partially located in the groove or the perforation to form a touch area for a user to touch for smoking, and the groove wall or the perforated wall of the groove and the second electric conductor jointly enclose a holding groove for the user to hold the electronic cigarette.
9. The electronic cigarette of claim 3, wherein the atomizing assembly is detachably connected with the battery rod assembly, and the suction nozzle is disposed at an end of the atomizing assembly facing away from the battery rod assembly;

   the second electric conductor comprises a third electric conduction sub-body and a fourth electric conduction sub-body, the third electric conduction sub-body is positioned at one end of the battery rod assembly, which is connected with the atomization assembly, and is used for being connected with the atomization assembly, the third electric conduction sub-body is positioned on the outer peripheral surface of the electronic cigarette, and the fourth electric conduction sub-body is positioned in the middle area of the battery rod assembly;

   the number of the third conductive sub-bodies is one or more, and the number of the fourth conductive sub-bodies is one or more.
10. The electronic cigarette according to claim 3, wherein the atomizing assembly comprises an oil cup assembly, the oil cup assembly comprises an oil storage sleeve and a vent pipe inserted in the oil storage sleeve, the suction nozzle is arranged at one end of the oil cup assembly, an atomizing core detachably connected with the oil cup assembly and used for atomizing the tobacco tar is arranged at the other end of the oil cup assembly, one end of the atomizing core is connected with the vent pipe, the other end of the atomizing core is connected with the battery rod assembly, and the second conductor is arranged on the outer peripheral surface of the battery rod assembly.
11. The electronic cigarette of claim 10, wherein the mouthpiece is the first electrical conductor, and the control unit is disposed within the battery wand assembly; the two ends of the breather pipe made of conductive materials are respectively electrically connected with the suction nozzle and the atomizing core, so that the suction nozzle is electrically connected with the control unit through the breather pipe and the atomizing core.
12. The electronic cigarette of claim 11, wherein the atomizing core is provided with a smoke channel and a resilient conductive arm extending into the smoke channel, the resilient conductive arm is electrically connected to the control unit, the ventilation tube is inserted into the smoke channel, and the resilient conductive arm resiliently abuts against a side wall of the ventilation tube.
13. The electronic cigarette according to claim 12, wherein one end of the atomizing core is provided with a conductive ring sleeved on the smoke channel, an inner circumferential surface of the conductive ring is formed with two elastic conductive arms extending obliquely in a direction away from the suction nozzle, and the two elastic conductive arms are oppositely arranged.
14. The electronic cigarette according to claim 11, wherein the atomizing core includes a hollow atomizing base, the atomizing base has the smoke channel formed therein, an oil storage chamber is provided between the smoke channel and an inner peripheral wall of the oil storage sleeve, an oil inlet channel communicated with the oil storage chamber is provided on a side wall of the atomizing base, an atomizing electrode assembly electrically connected to the battery rod assembly is connected to one end of the atomizing base, a smoke adsorbing member for adsorbing the smoke in the oil storage chamber from the oil inlet channel and a heating wire for atomizing the smoke on the smoke adsorbing member are provided in the smoke channel, the heating wire is electrically connected to the atomizing electrode assembly, an elastic conductive arm extending into the smoke channel is provided at an end of the atomizing base away from the atomizing electrode assembly, the elastic conductive arm is electrically connected to the control unit, the ventilating pipe is inserted into the smoke channel, and the elastic conductive arm is elastically abutted against the side wall of the ventilating pipe.
15. The electronic cigarette of claim 14, wherein the atomizing electrode assembly comprises a first upper electrode, a second upper electrode, a first insulating ring and a second insulating ring, wherein the first insulating ring is sleeved on the first upper electrode and is used for isolating the first upper electrode from the second upper electrode; the second insulating ring is sleeved on the second upper electrode and used for isolating the second upper electrode from the atomizing base;

    the battery rod assembly comprises a connector which is used for being detachably connected with the atomization assembly, two mounting holes are formed in the connector, a first elastic electrode and a second elastic electrode are respectively arranged on the two mounting holes, the first elastic electrode is abutted to the first upper electrode, and the second elastic electrode is abutted to the second upper electrode.
16. The electronic cigarette according to claim 1, wherein the control unit includes a microprocessor, a filter unit electrically connected to the second conductor for filtering an input signal, a first transistor switch unit electrically connected to the filter unit for sending a trigger signal to the microprocessor after receiving a signal output by the filter unit, and a second transistor switch unit electrically connected to the microprocessor and the atomizing assembly, and the microprocessor is configured to turn on the second transistor switch unit if the first conductor and the second conductor are turned on, so that the atomizing assembly atomizes the tobacco tar.
17. The electronic cigarette according to claim 1, wherein the control unit comprises a microprocessor, a filter unit electrically connected to the second conductor for filtering an input signal, a comparator unit electrically connected to the filter unit for comparing a signal output by the filter unit and transmitting a comparison result to the microprocessor, and a third transistor switch unit electrically connected to the microprocessor and the atomizing assembly, wherein the microprocessor is configured to control on/off of the third transistor switch unit according to a signal input by the comparator unit to control whether the atomizing assembly atomizes the tobacco tar.
18. The electronic cigarette of any of claims 1, 3, or 4, wherein the atomizing assembly and the battery rod assembly are coaxially disposed.
19. An electronic cigarette atomization control method is characterized by comprising the following steps:

    a control unit arranged in the electronic cigarette detects whether a first electric conductor and a second electric conductor are conducted or not, wherein the second electric conductor is electrically connected with a battery in a battery rod assembly, the first electric conductor is electrically connected with the control unit, the control unit is electrically connected with the atomization assembly and the battery rod assembly, and the first electric conductor and the second electric conductor are positioned at different positions of the outer peripheral surface of the electronic cigarette;

    if so, the control unit controls the battery rod assembly to supply power to the atomization assembly so as to atomize the tobacco tar.

Images