CN209768985U - Electronic cigarette - Google Patents

Abstract

The utility model provides an electronic cigarette, includes atomization component (300) and battery pack (200), atomization component (300) including be used for storing the oil storage subassembly (400) of tobacco tar, be used for atomizing core subassembly (500) of tobacco tar in oil storage subassembly (400), be used for with electrode subassembly (600) that battery pack (200) electricity is connected and be used for adjusting the subassembly (700) of transferring the qi that the air input was adjusted, oil storage subassembly (400) include oil cup (401) and lid are established end cover (402) on one end of oil cup (401), be provided with side by side in oil cup (401) and hold chamber (403) and smoke passageway (404), it is used for storing the tobacco tar to hold chamber (403), smoke passageway (404) extends to the both ends face that oil cup (401) position is relative, because be provided with side by side in oil cup (401) and hold chamber (403) and smoke passageway (404), smoke passageway (404) are located hold the outside of chamber (403), therefore, the problem that the tobacco tar in the accommodating cavity (403) is extruded due to the fact that the tobacco tar in the accommodating cavity (403) and the air absorb heat in the smoke channel (404) to suck the tobacco tar by a user is avoided, the probability that the user sucks the tobacco tar is greatly reduced, and the concentration of the smoke can be adjusted as required by the user by adjusting the air adjusting assembly (700) to adjust the air inflow.

Description

Electronic cigarette

Technical Field

the invention relates to the technical field of electronic cigarettes, in particular to an electronic cigarette capable of preventing tobacco tar from being sucked and adjusting air inflow.

Background

an existing electronic cigarette generally includes an atomization assembly for atomizing tobacco tar and a battery assembly for supplying power to the atomization assembly, and the atomization assembly is capable of atomizing the tobacco tar to form smoke when the battery assembly supplies power to the atomization assembly.

in the existing electronic cigarette, as shown in fig. 1, the atomizing assembly includes an atomizing sleeve 101, an atomizing core assembly 102, an oil storage cavity 103 located between the atomizing sleeve 101 and the atomizing core assembly 102 and used for storing tobacco tar, one end of the atomizing core assembly 102 is connected to a breather pipe 106 connected to the outer peripheral surface of the atomizing assembly, a smoke channel for smoke circulation is formed in the breather pipe 106, the oil storage cavity 103 is arranged around the outer peripheral surfaces of the atomizing core assembly 102 and the breather pipe 106, the atomizing core assembly 102 includes a glass fiber wire 104, and a heating wire 105 wound on the glass fiber wire 104, both ends of the glass fiber wire 104 are inserted into the oil storage chamber 103, so that the tobacco tar in the oil storage chamber 103 can be conducted to the heating wire 105 through the glass fiber wire 104, so that the heating wire 105 atomizes the tobacco tar under power supplied by the battery assembly to form smoke, which is directed by the snorkel 106 to the nozzle assembly 107, through which the user can draw the smoke through the nozzle assembly 107.

The above prior art electronic cigarette has the following disadvantages: firstly, when the electronic cigarette provided with the atomization assembly shown in fig. 1 is in an unused state, the glass fiber wire 104 directly contacts with the tobacco tar in the oil storage cavity 103, and the tobacco tar in the oil storage cavity 103 is easy to permeate into the atomization core assembly 102, so that a user can easily absorb the tobacco tar when using the electronic cigarette; secondly, because the heating wire 105 and the ventilation pipe 106 are both positioned in the oil storage cavity 103, the generated smoke is easily absorbed by the tobacco tar and the air in the oil storage cavity 103, so that the tobacco tar and the air in the oil storage cavity 103 expand, the tobacco tar in the oil storage cavity is easily squeezed into the atomizing core assembly 102, and a user can easily absorb the tobacco tar; in addition, the temperature when the heating wire 105 atomizes the tobacco tar is high, which may cause the inner wall material of the atomizing core assembly 102 to crack and generate odor, which is not good for the health of the user.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the invention provides the electronic cigarette which can avoid that the tobacco tar is extruded out due to the fact that the tobacco tar in the oil storage cavity and air adsorb heat in the smoke channel, can prevent the tobacco tar in the oil storage cavity from being extruded into the atomizing core assembly to cause that a user easily sucks the tobacco tar, can also avoid that the heat emitted by the heating wire cracks the inner wall material of the atomizing core assembly to generate peculiar smell, and can adjust the air inflow according to the requirements of the user, thereby meeting the requirements of different users on different air inflow.

In order to solve the technical problem, the invention provides an electronic cigarette, which comprises an atomizing assembly and a battery assembly detachably connected with the atomizing assembly, wherein the atomizing assembly comprises an oil storage assembly for storing tobacco tar, an atomizing core assembly for atomizing the tobacco tar in the oil storage assembly and an electrode assembly for electrically connecting with the battery assembly, one end of the oil storage assembly inserted into the battery assembly is a first end, and the end opposite to the first end is a second end;

The oil storage assembly comprises an oil cup and an end cover which is covered on the first end of the oil cup, a containing cavity and a smoke channel are arranged in the oil cup in parallel, the containing cavity is used for storing smoke oil, the smoke channel extends to two end faces opposite to the position of the oil cup, the containing cavity extends to the end face of one end, connected with the end cover, of the oil cup, the atomizing core assembly comprises a heating wire assembly, an oil guide piece and an atomizing seat, the atomizing seat is inserted in the end cover so as to be arranged between the end cover and the smoke channel, the atomizing seat is used for containing the oil guide piece made of oil absorption materials and the heating wire assembly, the atomizing seat is provided with an oil inlet, the oil inlet is communicated with the containing cavity, and the atomizing core assembly is located in the battery assembly;

One end of the oil guide member penetrates through the oil inlet and extends into the accommodating cavity so as to guide the tobacco tar from the accommodating cavity, the oil guide member is elastically abutted against the hole wall of the oil inlet at the oil inlet, and the electric heating wire assembly is arranged on one side of the oil guide member facing the second end;

The oil storage subassembly is in lateral wall department of second end is provided with first air inlet, just first air inlet with the smog passageway switches on the setting, the oil storage subassembly is still including transferring the gas subassembly, transfer the gas subassembly can for first air inlet removes, works as transfer the gas subassembly with when first air inlet has different coincidence area, the oil storage subassembly has different air input, the air input does the outside air current of oil storage subassembly via first air inlet circulation extremely the air input of smog passageway.

Optionally, a first receiving groove is formed in a side wall of the second end of the oil storage assembly, the first air inlet is formed in a position penetrating through the bottom of the first receiving groove, the air regulating assembly includes a first air regulating block and a first elastic ring, the first air regulating block is arranged in a matching manner with the first receiving groove, the first elastic ring is arranged between the first air regulating block and the first receiving groove, and the first elastic ring is used for enabling the first air regulating block to be elastically abutted against the first receiving groove;

The first air adjusting block can slide along the guide of the first accommodating groove, and when the first air adjusting block is located at different positions in the first accommodating groove, the first air inlet has different areas communicated with the outside of the oil storage assembly, so that the air flow outside the oil storage assembly flows to the smoke channel through the first air inlet and the position communicated with the outside of the oil storage assembly.

Optionally, the first air adjusting block faces the side face of the first accommodating groove and is provided with a first groove, the first elastic ring is arranged inside the first groove, the side face of the first air adjusting block, far away from the first accommodating groove, extends out of the first accommodating groove, and the side face of the first air adjusting block, far away from the first accommodating groove, is provided with friction lines.

Optionally, a second receiving groove is formed in a side wall of the second end of the oil storage assembly, the first air inlet is formed in a position penetrating through the bottom of the second receiving groove, the air adjusting assembly includes a second air adjusting block and a second elastic ring, a second air inlet is formed in a position penetrating through the second air adjusting block, the second air inlet and the first air inlet are correspondingly arranged in position, the second air adjusting block is arranged in a matching manner with the second receiving groove, the second elastic ring is arranged between the second air adjusting block and the second receiving groove, and the second elastic ring is used for enabling the second air adjusting block to be elastically abutted against the second receiving groove;

The second air adjusting block can rotate inside the second accommodating groove, and when the second air adjusting block is located at different positions in the second accommodating groove, the first air inlet and the second air inlet have different overlapping areas, so that air flow outside the oil storage assembly flows to the smoke channel through the overlapping positions of the first air inlet and the second air inlet.

Optionally, a second groove is formed in a side surface, facing the second accommodating groove, of the second air adjusting block, the second elastic ring is arranged inside the second groove, the side surface, far away from the second accommodating groove, of the second air adjusting block extends out of the second accommodating groove, and friction grains are formed in the peripheral wall of the second air adjusting block;

the bottom penetrating through the second accommodating groove is provided with a mounting hole, the side face, facing the second accommodating groove, of the second air adjusting block is provided with a supporting arm, the supporting arm is inserted into the mounting hole, and the end portion of the supporting arm is arranged along the side face far away from the mounting hole, so that the end portion of the supporting arm can be supported and supported on the side face, far away from the second air adjusting block, of the mounting hole.

Optionally, a third receiving groove is formed in a side wall of the second end of the oil storage assembly, the third receiving groove is disposed around the second end of the oil storage assembly, the first air inlet is disposed through the oil storage assembly at the side wall of the second end, the air adjusting assembly includes a third air adjusting block and a third elastic ring, a third air inlet is disposed through the third air adjusting block, the third air inlet and the first air inlet are correspondingly disposed, the third elastic ring is disposed inside the third receiving groove, so that the third elastic ring is located between the third air adjusting block and the third receiving groove, the third elastic ring is used for elastically abutting the third air adjusting block against the third receiving groove, and the third air adjusting block can rotate around the second end of the oil storage assembly along a direction of the third receiving groove, when the first air inlet and the third air inlet have different overlapping areas, the air flow outside the oil storage assembly flows to the smoke channel through the overlapping positions of the first air inlet and the third air inlet.

Optionally, it has the face of placing to lead oil spare face one side extension of second end, the heating wire subassembly include tobacco tar adsorption component and with the continuous heating wire is established to tobacco tar adsorption component cover, tobacco tar adsorption component be located lead oil spare place the face and with lead oil spare butt in order to follow lead oil spare adsorption tobacco tar.

optionally, electrode subassembly includes first electrode spare and second electrode spare, first electrode spare overcoat is equipped with the fixed cover of first elasticity, second electrode spare overcoat is equipped with the fixed cover of second elasticity, the follow of heating wire the one end centre gripping that the tobacco tar adsorbs the piece to be in first electrode spare with between the fixed cover of first elasticity, the follow of heating wire the other end centre gripping that the tobacco tar adsorbs the piece to be drawn is in the second electrode spare with between the fixed cover of second elasticity.

optionally, the first electrode element includes a cylindrical first electrode body, one end of the first electrode body abuts against the battery assembly, a first flange is formed at a peripheral edge of an end face of the first electrode body abutting against the battery assembly in an outward extending manner, and the first elastic fixing sleeve is sleeved on the first electrode body and abuts against the first flange;

The second electrode piece comprises a cylindrical second electrode body, one end of the second electrode body is abutted against the battery component, a second flange is formed at the periphery of the end face of the second electrode body abutted against the battery component in an outward extending mode, and the second elastic fixing sleeve is sleeved on the second electrode body and abutted against the second flange.

Optionally, a second extension arm is arranged inside the smoke channel, and the second extension arm is used for isolating the smoke channel into an air inlet cavity and an air outlet cavity which are arranged in parallel;

the oil cup is internally provided with a first extension arm, and the first extension arm is used for isolating the oil cup into the accommodating cavity and the smoke channel.

optionally, a cavity port of one end of the air inlet cavity is communicated with the first air inlet, so that the air flow outside the oil storage assembly is communicated into the air inlet cavity through the first air inlet;

run through the atomizing seat is provided with the atomizing chamber, the heating wire subassembly sets up the atomizing intracavity, the atomizing chamber respectively with admit air the chamber with go out the setting of conducting of air cavity, so that the chamber that admits air passes through the atomizing chamber with go out the setting of conducting of air cavity.

Optionally, the atomizing chamber includes intake duct and air outlet, the heating wire subassembly sets up in the air outlet, the extending direction of intake duct with the extending direction of air inlet chamber parallels, so that the air current in the air inlet chamber can circulate extremely in the intake duct, the intake duct with air outlet intercommunication sets up, so that the air current of intake duct can circulate extremely in the air outlet, the extending direction of air outlet with the extending direction of air outlet chamber parallels, so that via in the air outlet the atomizing smog of heating wire subassembly can circulate extremely in the air outlet chamber.

Optionally, a suction nozzle communicated with the air outlet cavity is arranged at one end of the oil cup, which is far away from the end cover, and a suction nozzle cover is sleeved on the suction nozzle.

optionally, lead oily piece and be the slabby by cotton material making, be formed with on the face of placing with the concave surface of the contact surface shape looks adaptation of tobacco tar adsorption piece, tobacco tar adsorption piece butt in on the concave surface, lead oily one end of piece inserting hold the intracavity with hold the diapire of chamber and contact.

optionally, both ends of running through lead oil spare are provided with first perforation and second perforation, first electrode spare holding sets up inside the first perforation, the second electrode spare holding sets up inside the second perforation.

Optionally, a third groove is formed in an end portion, facing the oil cup, of the end cover, a sealing ring is arranged inside the third groove, so that the sealing ring is located between the end cover and the oil cup, and the sealing ring is used for preventing the smoke oil in the accommodating cavity from leaking.

Optionally, at least two-thirds of the receiving cavity is located within the battery assembly.

The electronic cigarette provided by the invention at least has the following technical effects and advantages:

(1) Because the containing cavity and the smoke channel are arranged in the oil cup in parallel, and the smoke channel is positioned at the outer side of the containing cavity, the problem that the tobacco tar in the containing cavity is extruded out due to the fact that the tobacco tar in the containing cavity and air absorb heat in the smoke channel is solved, so that a user can absorb the tobacco tar, the probability that the user absorbs the tobacco tar is greatly reduced, the air inflow can be adjusted according to the requirements of the user, and the requirements of different users on different air inflow are met;

(2) Because the atomizing core assembly and the accommodating cavity are positioned in the battery assembly, the atomizing assembly is prevented from directly conducting heat to the hands of a user when in work and scalding the hands, and the probability that the tobacco tar in the accommodating cavity is extruded due to the fact that the tobacco tar and the air in the accommodating cavity adsorb the heat of the external environment is reduced as much as possible when the temperature of the external environment is high;

(3) The electric heating wire assembly is located in the atomizing sleeve, and the oil guiding piece is used for adsorbing the tobacco tar in the accommodating cavity. Therefore, the structure can better avoid the smoke oil leakage, and the smoke oil quantity on the oil guide piece is more stable, so that the smoke quantity is more stable.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the embodiment or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings according to the provided drawings without creative efforts.

FIG. 1 is a cross-sectional view of a prior art atomizing assembly;

Figure 2 is a perspective view of an embodiment of an electronic cigarette provided by the present invention in an assembled state;

figure 3 is a perspective view of an electronic cigarette according to an embodiment of the present invention in an exploded state;

FIG. 4 is a schematic diagram illustrating an overall structure of an embodiment of an atomizing assembly provided in the present invention;

FIG. 5 is a schematic diagram of an exemplary explosive connection configuration of an atomizing assembly in accordance with the present invention;

FIG. 6 is a schematic cross-sectional view of an embodiment of an atomizing assembly according to the present disclosure;

FIG. 7 is a schematic cross-sectional view of another embodiment of an atomizing assembly according to the present invention;

FIG. 8 is a schematic cross-sectional view of another embodiment of an atomizing assembly according to the present disclosure;

FIG. 9 is a schematic cross-sectional view of another embodiment of an atomizing assembly according to the present invention;

FIG. 10 is a schematic diagram of an overall structure of another embodiment of an atomizing assembly provided in the present invention;

FIG. 11 is a schematic cross-sectional view of another embodiment of an atomizing assembly according to the present disclosure;

FIG. 12 is a schematic view of the overall structure of a second air adjustment block provided by the present invention;

FIG. 13 is a schematic view of a partial explosion connection of an embodiment of an atomizing assembly provided in accordance with the present invention;

FIG. 14 is a schematic diagram of the overall structure of another embodiment of an atomizing assembly provided in the present invention;

Fig. 15 is a schematic cross-sectional view of another embodiment of an atomizing assembly according to the present invention.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Fig. 2 is a perspective view of an electronic cigarette according to a first embodiment of the present invention in an assembled state, and fig. 3 is a perspective view of the electronic cigarette in an exploded state. When viewed from the front, the side of the electronic cigarette on which the key panel is provided is referred to as the front, and the lateral direction a is referred to as the lateral direction of the electronic cigarette, the vertical direction B is referred to as the vertical direction, and the front-rear direction is referred to as C.

as shown in fig. 2 and 3, the electronic cigarette includes an atomizing assembly 300 and a battery assembly 200. The atomizing assembly 300 is elongated in the longitudinal direction B, and a tip end surface in the longitudinal direction B is formed with an inclined surface inclined in the front-rear direction C, and a suction nozzle 301 is formed on one side of the inclined surface, and a nozzle cover 301a is fitted over the suction nozzle 301.

The specific structure of the atomizing assembly 300 will be described in detail with reference to fig. 4 to 6, in which fig. 4 is a schematic overall structure diagram of an embodiment of the atomizing assembly provided by the present invention, fig. 5 is a schematic explosion-connected structure diagram of an embodiment of the atomizing assembly provided by the present invention, and fig. 6 is a schematic cross-sectional structure diagram of an embodiment of the atomizing assembly provided by the present invention.

The atomization assembly 300 comprises an oil storage assembly 400 for storing tobacco tar, an atomization core assembly 500 for atomizing the tobacco tar in the oil storage assembly 400, and an electrode assembly 600 for electrically connecting with the battery assembly 200.

it is specified that the lower end of the oil reservoir member 400 inserted into the battery module 200 in the longitudinal direction B is a first end, and the upper end opposite to the first end is a second end.

The specific structure of the oil storage assembly 400 provided in this embodiment is described in detail below:

The oil storage assembly 400 comprises an oil cup 401 and an end cover 402 covering one end of the oil cup 401.

An accommodating cavity 403 and a smoke channel 404 are arranged in parallel in the oil cup 401, and the accommodating cavity 403 is used for storing tobacco tar.

in the embodiment, the oil cup 401 and the end cover 402 are detachably connected or the oil cup 401 and the end cover 402 are integrally formed.

If the oil cup 401 and the end cover 402 are detachably connected, a user can detach the end cover 402 from the oil cup 401 or connect the end cover 402 to the oil cup 401 as required.

If the end cover 402 is detached from the oil cup 401, and the opening of the accommodating cavity 403 is exposed, a user can add tobacco tar into the accommodating cavity 403 through the opening of the accommodating cavity 403, so that the service life of the electronic cigarette is prolonged.

It can be seen that, with the structure shown in this embodiment, the smoke channel 404 is located outside the accommodating cavity 403, so that the problem that the tobacco tar inside the accommodating cavity 403 is squeezed out due to the fact that the tobacco tar inside the accommodating cavity 403 and the air absorb heat in the smoke channel 404, so that the user can absorb the tobacco tar is avoided, and the probability that the user absorbs the tobacco tar is greatly reduced.

The oil cup 401 and the end cover 402 are both made of transparent plastic materials so as to facilitate observation of the residual amount of the tobacco tar, and the end cover 402 is arranged at the lower end of the oil cup 401 in the longitudinal direction B.

In order to smoothly circulate the smoke, the smoke channel 404 in this embodiment extends to two end faces opposite to the oil cup 401.

The receiving cavity 403 extends to the end surface of the oil cup 401 at the end connected to the end cover 402.

the specific structure of the atomizing core assembly 500 is described below:

The atomizing assembly 300 is provided with one end of the atomizing core assembly 500 inserted in the battery assembly 200, so that the atomizing core assembly 500 is located in the battery assembly 200, at least two thirds of the accommodating cavity 403 are located in the battery assembly 200, and in this embodiment, the accommodating cavity 403 is located in the battery assembly 200.

because the atomizing core assembly 500 is located in the battery assembly 200, the atomizing assembly 300 is prevented from directly conducting heat to the hands of a user during operation, scalding the hands is avoided, and when the external environment temperature is high, the probability that the tobacco tar in the accommodating cavity 403 is extruded due to the fact that the tobacco tar in the accommodating cavity 403 and the air adsorb the heat of the external environment is reduced as much as possible.

The specific structure of the atomizing core assembly 500 will be further described with reference to fig. 7.

the atomizing core assembly 500 includes an atomizing base 501, an oil guide 502 and a heating wire assembly 504.

The atomizing base 501 is inserted into the end cover 402, and for ensuring smooth conduction of smoke, the atomizing base 501 is arranged between the end cover 402 and the smoke channel 404.

The atomizing base 501 is used for accommodating the oil guide 502 made of oil absorbing material and the heating wire assembly 504.

The atomizing base 501 is provided with an oil inlet 505, and the oil inlet 505 is communicated with the accommodating cavity 403.

One end of the oil guiding member 502 extends into the accommodating cavity 403 through the oil inlet 505 to guide the soot from the accommodating cavity 403, the oil guiding member 502 is elastically abutted against a hole wall of the oil inlet 505 at the oil inlet 505 (since the oil guiding member 502 is elastically abutted against the hole wall of the oil inlet 505 at the oil inlet 505, the oil guiding member 502 is labeled at the same position as the oil inlet 505 in the reference numeral shown in fig. 6), and the side of the oil guiding member 502 facing the second end is provided with the heating wire assembly 504.

In a specific application, the tobacco tar in the accommodating cavity 403 is transferred to the heating wire assembly 504 via the oil guide 502 elastically abutting against the wall of the oil inlet 505 at the oil inlet 505, and the heating wire assembly 504 can atomize the tobacco tar on the oil guide 502 to form smoke under the condition that the heating wire assembly 504 is electrically connected with the battery assembly 200 through the electrode assembly 600.

The electronic cigarette shown in the embodiment can also achieve the purpose of adjusting the intake quantity, and the concentration of smoke sucked by a user is adjusted by adjusting the air intake quantity.

The oil storage assembly 400 is provided with a first air inlet 405 at a side wall of the second end, and the first air inlet 405 is communicated with the smoke channel 404.

The oil storage assembly 400 further comprises an air adjusting assembly 700, the air adjusting assembly 700 can move relative to the first air inlet 405, when the air adjusting assembly 700 and the first air inlet 405 have different overlapping areas, the oil storage assembly 400 has different air inflow, and the air inflow is that the air flow outside the oil storage assembly 400 flows to the air inflow of the smoke channel through the first air inlet 405.

In this embodiment, the structure of the air adjustment assembly 700 shown in fig. 5 to 9 is illustrated as an optional example, and is not limited, as long as the air adjustment assembly 700 can move relative to the first air inlet 405, for example, the air adjustment assembly 700 can move between the first end and the second end to change the overlapping area between the air adjustment assembly 700 and the first air inlet 405, and for example, the air adjustment assembly 700 can rotate around the oil storage assembly 400 to change the overlapping area between the air adjustment assembly 700 and the first air inlet 405.

it can be seen that the coincidence area between the air regulating component 700 and the first air inlet 405 can be adjusted through the structure shown in this embodiment, and then the air input of the oil storage component 400 is changed, and a user can adjust the air input according to the requirement of the user through the structure shown in this embodiment, so that the concentration of smoke sucked by the user can be adjusted, and the requirement of the user on individualization of the smoke concentration is met.

In the second embodiment, a specific structure of the air adjustment assembly 700 is exemplarily described in the present embodiment, and it should be understood that the air adjustment assembly 700 is described as an optional example and is not limited in this embodiment.

A first structure of the air adjustment assembly 700 will be described with reference to fig. 5 to 9.

As shown in fig. 5 to 9, the oil storage assembly 400 is provided with a first receiving groove 406 at a side wall of the second end, and the first receiving groove 406 is rectangular in the embodiment.

the first air inlet 405 is disposed through the bottom of the first receiving groove 406, and it can be seen that the first air inlet 405 is disposed in communication with the smoke channel 404.

The air adjustment assembly 700 includes a first air adjustment block 701 and a first elastic ring 702, and the first air adjustment block 701 is disposed in a matching manner with the first accommodation groove 406, that is, the first air adjustment block 701 can be inserted into the first accommodation groove 406.

In order to realize that the first air adjusting block 701 can slide along the guide of the first receiving groove 406, the first elastic ring 702 is disposed between the first air adjusting block 701 and the first receiving groove 406, and the first elastic ring 702 is used to make the first air adjusting block 701 elastically abut against the first receiving groove 406.

Since the first air-adjusting block 701 elastically abuts against the first accommodation groove 406, the first air-adjusting block 701 can slide along the first accommodation groove 406.

As shown in fig. 8, the first air adjusting block 701 can slide along the direction shown by the arrow in fig. 8 under the action of a user, specifically, the first air adjusting block 701 can move towards the direction of the first end, so that when the first air adjusting block 701 is located at different positions in the first receiving groove 406, the first air inlet 405 has different areas communicating with the outside of the oil storage assembly 400.

The air flow outside the oil storage assembly 400 can flow to the smoke channel 404 through the first air inlet 405 and the position where the oil storage assembly 400 is communicated with the outside, and specifically, the air flow outside the oil storage assembly 400 can flow to the smoke channel 404 through the position where the first air inlet 405 is exposed (as shown in fig. 9).

The first air adjusting block 701 is provided with a first groove 703 towards the side of the first accommodating groove 406, the first elastic ring 702 is arranged inside the first groove 703, the side of the first air adjusting block 701 far away from the first accommodating groove 406 extends out of the first accommodating groove 406, and the side of the first air adjusting block 701 far away from the first accommodating groove 406 is provided with friction lines 704.

The friction lines 704 are arranged to facilitate the sliding of the first air adjusting block 701 by a user, so that the user can adjust the air inlet amount conveniently.

a second structure of the air adjustment assembly 700 will be described with reference to fig. 10 to 13.

The oil storage assembly 400 is provided with a second receiving groove 407 at a side wall of the second end, and the first air inlet 405 is provided to penetrate through the bottom of the second receiving groove 407.

the air adjustment assembly 700 includes a second air adjustment block 705 and a second elastic ring 706, in this embodiment, the second air adjustment block 705 is a cylindrical structure, and the second accommodation groove 407 is an inward concave circular structure.

a second air inlet 707 is disposed through the second air adjusting block 705, and the second air inlet 707 and the first air inlet 405 are disposed at positions corresponding to each other, in this embodiment, the first air inlet 405 and the second air inlet 707 may have an arc structure, and of course, in other embodiments, other structures may be adopted as long as the second air inlet 707 and the first air inlet 405 are disposed at positions corresponding to each other.

The second air adjusting block 705 is disposed in a matching manner with the second receiving groove 407, and the second elastic ring 706 is disposed between the second air adjusting block 705 and the second receiving groove 407, where the second elastic ring 706 is used to elastically abut the second air adjusting block 705 to the second receiving groove 407.

Since the second elastic ring 706 is disposed between the second air-adjusting block 705 and the second receiving groove 407, the second air-adjusting block 705 can rotate inside the second receiving groove 407, and when the second air-adjusting block 705 is located at a different position inside the second receiving groove 407, the first air inlet 405 and the second air inlet 707 have different overlapping areas, so that the air flow outside the oil reservoir 400 flows to the smoke passage 404 through the overlapping position of the first air inlet 405 and the second air inlet 707.

The second groove 708 is formed in the side surface, facing the second accommodating groove 407, of the second air adjusting block 705, the second elastic ring 706 is arranged inside the second groove 708, the side surface, away from the second accommodating groove 407, of the second air adjusting block 705 extends out of the second accommodating groove 407, and friction grains 709 are formed in the peripheral wall of the second air adjusting block 705.

The friction lines 709 enable a user to rotate the second air adjusting block 705 conveniently, so that air outside the oil storage assembly 400 flows to the smoke channel 404 through the overlapping position of the first air inlet 405 and the second air inlet 707.

an installation hole 710 is formed through the bottom of the second accommodating groove 407, a supporting arm 711 is arranged on the side surface of the second air adjusting block 705 facing the second accommodating groove 407, the supporting arm 711 is inserted into the installation hole 710, and the end of the supporting arm 711 is arranged along the side surface far away from the installation hole 710, so that the end of the supporting arm 711 can be arranged on the side surface far away from the second air adjusting block 705 of the installation hole 710 in a supporting manner.

The second air adjusting block 705 can rotate around the supporting arm 711, so that the overlapping area between the first air inlet 405 and the second air inlet 707 can be adjusted.

A third structure of the air adjustment assembly 700 will be described with reference to fig. 14 to 15.

The oil storage assembly 400 is in the lateral wall department of second end is provided with third holding tank 712, just third holding tank 712 encircles the second end setting of oil storage assembly 400, runs through oil storage assembly 400 is in the lateral wall department of second end is provided with first air inlet 405, the subassembly 700 of adjusting qi includes third piece 713 and third elastic ring 714 of adjusting qi, runs through third piece 713 of adjusting qi is provided with third air inlet 715, third air inlet 715 with first air inlet 405 position corresponds the setting, takes in this embodiment first air inlet 405 with third air inlet 715 all is rectangular form as the example and explains, just first air inlet 405 with third air inlet 715 is along the horizontal extension setting of electron cigarette.

The third elastic ring 714 is disposed inside the third receiving groove 712, such that the third elastic ring 714 is located between the third air adjusting block 713 and the third receiving groove 712, the third elastic ring 714 is used for elastically abutting the third air adjusting block 713 with the third receiving groove 712, the third air adjusting block 713 can rotate around the second end of the oil storage assembly 400 along the direction of the third receiving groove 712, when the first air inlet 405 and the third air inlet 715 have different overlapping areas, such that the air flow outside the oil storage assembly 400 is communicated to the smoke passage 404 through the overlapping position of the first air inlet 405 and the third air inlet 715.

third embodiment, this embodiment further describes in detail the specific structure of the electronic cigarette:

As shown in fig. 6 and 7, a placing surface 506 extends from a side of the oil guide 502 facing the second end.

The heating wire assembly 504 includes a tobacco tar adsorbing member 5041 and a heating wire 5042 sleeved with the tobacco tar adsorbing member 5041, wherein the tobacco tar adsorbing member 5041 is located on the placement surface 506 of the oil guiding member 502 and is abutted against the oil guiding member 502 to adsorb the tobacco tar from the oil guiding member 502.

Adopt the structure shown in this embodiment can promote the firm of atomizing core subassembly 500 structure, avoid because of atomizing core subassembly 500 rocks and makes the appearance of the unstable condition of smog.

as shown in fig. 5 and 7, the electrode assembly 600 includes a first electrode 601 and a second electrode 602, a first elastic fixing sleeve 603 is sleeved outside the first electrode 601, a second elastic fixing sleeve 604 is sleeved outside the second electrode 602, one end of the heating wire led out from the soot adsorbing member is clamped between the first electrode 601 and the first elastic fixing sleeve 603, and the other end of the heating wire led out from the soot adsorbing member is clamped between the second electrode 602 and the second elastic fixing sleeve 604.

as shown in fig. 7, the first electrode member 601 includes a cylindrical first electrode body 6011, one end of the first electrode body 6011 abuts against the battery assembly 200, a first flange 6012 is formed by extending outward at a peripheral edge of an end face of the first electrode body 6011 abutting against the battery assembly 200, and the first elastic fixing sleeve 603 is sleeved on the first electrode body 6011 and abuts against the first flange 6012;

the second electrode member 602 includes a cylindrical second electrode body 6021, one end of the second electrode body 6021 abuts against the battery assembly 200, a second flange 6022 is formed by extending outward at the peripheral edge of the end face of the second electrode body 6021 abutting against the battery assembly 200, and the second elastic fixing sleeve is sleeved on the second electrode body 6021 and abuts against the second flange 6022.

As shown in fig. 9, a first extension arm 904 is disposed inside the oil cup 401, and the first extension arm 904 is used for separating the oil cup 401 into the accommodating cavity 403 and the smoke channel 404. A second extension arm 901 is arranged inside the smoke channel 404, and the second extension arm 901 is used for separating the smoke channel 404 into an air inlet cavity 902 and an air outlet cavity 903 which are arranged in parallel.

One end cavity opening of the air inlet cavity 902 is communicated with the first air inlet 405, so that the air flow outside the oil storage assembly is communicated into the air inlet cavity 902 through the first air inlet 405.

Run through atomizing seat 501 is provided with atomizing chamber 905, heating wire assembly 504 sets up in atomizing chamber 905, atomizing chamber 905 respectively with admit air chamber 902 with go out the setting of conducting of air chamber 903, so that admit air chamber 902 passes through atomizing chamber 905 with go out air chamber 903 and switch on the setting.

The atomizing cavity 905 comprises an air inlet channel 906 and an air outlet channel 907, the heating wire assembly 504 is arranged in the air outlet channel 907, the extending direction of the air inlet channel 906 is parallel to the extending direction of the air inlet cavity 902, so that air flow in the air inlet cavity 902 can flow into the air inlet channel 906, the air inlet channel 906 is communicated with the air outlet channel 907, so that air flow in the air inlet channel 906 can flow into the air outlet channel 907, and the extending direction of the air outlet channel 907 is parallel to the extending direction of the air outlet cavity 903, so that smoke atomized by the heating wire assembly 504 in the air outlet channel 907 can flow into the air outlet cavity 903.

The oil guide member 502 is made of cotton material and is plate-shaped, a concave surface matched with the contact surface shape of the tobacco tar adsorbing member 5041 is formed on the placing surface 506, the tobacco tar adsorbing member 5041 abuts on the concave surface, and one end of the oil guide member 502 inserted into the accommodating cavity 403 is in contact with the bottom wall of the accommodating cavity 403.

as shown in fig. 5, a first through hole 801 and a second through hole 802 are disposed through two ends of the oil guide 502, the first electrode is accommodated in the first through hole 801, and the second electrode is accommodated in the second through hole 802.

Referring to fig. 5 and 8, a third groove 803 is provided at an end of the end cover 402 facing the oil cup 401, a sealing ring 804 is provided inside the third groove 803, so that the sealing ring 804 is located between the end cover 402 and the oil cup 401, and the sealing ring 804 is used for preventing the smoke oil in the accommodating cavity 403 from leaking.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; 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 (10)

1. The utility model provides an electronic cigarette, including atomization component and with atomization component can dismantle the battery pack of connection, its characterized in that: the atomization assembly comprises an oil storage assembly for storing tobacco tar, an atomization core assembly for atomizing the tobacco tar in the oil storage assembly and an electrode assembly for being electrically connected with the battery assembly, wherein one end, inserted into the battery assembly, of the oil storage assembly is a first end, and the end opposite to the first end is a second end;

The oil storage assembly comprises an oil cup and an end cover which is covered on the first end of the oil cup, a containing cavity and a smoke channel are arranged in the oil cup in parallel, the containing cavity is used for storing smoke oil, the smoke channel extends to two end faces opposite to the position of the oil cup, the containing cavity extends to the end face of one end, connected with the end cover, of the oil cup, the atomizing core assembly comprises a heating wire assembly, an oil guide piece and an atomizing seat, the atomizing seat is inserted in the end cover so as to be arranged between the end cover and the smoke channel, the atomizing seat is used for containing the oil guide piece made of oil absorption materials and the heating wire assembly, the atomizing seat is provided with an oil inlet, the oil inlet is communicated with the containing cavity, and the atomizing core assembly is located in the battery assembly;

one end of the oil guide member penetrates through the oil inlet and extends into the accommodating cavity so as to guide the tobacco tar from the accommodating cavity, the oil guide member is elastically abutted against the hole wall of the oil inlet at the oil inlet, and the electric heating wire assembly is arranged on one side of the oil guide member facing the second end;

the oil storage subassembly is in lateral wall department of second end is provided with first air inlet, just first air inlet with the smog passageway switches on the setting, the oil storage subassembly is still including transferring the gas subassembly, transfer the gas subassembly can for first air inlet removes, works as transfer the gas subassembly with when first air inlet has different coincidence area, the oil storage subassembly has different air input, the air input does the outside air current of oil storage subassembly via first air inlet circulation extremely the air input of smog passageway.

2. The electronic cigarette according to claim 1, wherein the oil storage assembly is provided with a first receiving groove at a side wall of the second end, the first air inlet is provided through a bottom of the first receiving groove, the air adjusting assembly comprises a first air adjusting block and a first elastic ring, the first air adjusting block is matched with the first receiving groove, and the first elastic ring is provided between the first air adjusting block and the first receiving groove and used for enabling the first air adjusting block to elastically abut against the first receiving groove;

the first air adjusting block can slide along the guide of the first accommodating groove, and when the first air adjusting block is located at different positions in the first accommodating groove, the first air inlet has different areas communicated with the outside of the oil storage assembly, so that the air flow outside the oil storage assembly flows to the smoke channel through the first air inlet and the position communicated with the outside of the oil storage assembly.

3. The electronic cigarette of claim 2, wherein a first groove is formed in a side surface of the first air adjusting block facing the first accommodating groove, the first elastic ring is arranged in the first groove, a side surface of the first air adjusting block away from the first accommodating groove extends out of the first accommodating groove, and friction grains are formed in a side surface of the first air adjusting block away from the first accommodating groove.

4. The electronic cigarette according to claim 1, wherein the oil storage assembly is provided with a second receiving groove at a side wall of the second end, the first air inlet is provided through a bottom of the second receiving groove, the air adjusting assembly comprises a second air adjusting block and a second elastic ring, a second air inlet is provided through the second air adjusting block, the second air inlet and the first air inlet are correspondingly arranged, the second air adjusting block is arranged in a matching manner with the second receiving groove, and the second elastic ring is provided between the second air adjusting block and the second receiving groove and used for enabling the second air adjusting block to elastically abut against the second receiving groove;

The second air adjusting block can rotate inside the second accommodating groove, and when the second air adjusting block is located at different positions in the second accommodating groove, the first air inlet and the second air inlet have different overlapping areas, so that air flow outside the oil storage assembly flows to the smoke channel through the overlapping positions of the first air inlet and the second air inlet.

5. the electronic cigarette according to claim 4, wherein a second groove is formed in a side surface of the second air adjusting block facing the second accommodating groove, the second elastic ring is arranged in the second groove, a side surface of the second air adjusting block away from the second accommodating groove extends out of the second accommodating groove, and friction grains are formed in the peripheral wall of the second air adjusting block;

The bottom penetrating through the second accommodating groove is provided with a mounting hole, the side face, facing the second accommodating groove, of the second air adjusting block is provided with a supporting arm, the supporting arm is inserted into the mounting hole, and the end portion of the supporting arm is arranged along the side face far away from the mounting hole, so that the end portion of the supporting arm can be supported and supported on the side face, far away from the second air adjusting block, of the mounting hole.

6. The electronic cigarette of claim 1, wherein the oil storage assembly is provided with a third receiving groove at a side wall of the second end, the third receiving groove is disposed around the second end of the oil storage assembly, the first air inlet is disposed through the oil storage assembly at the side wall of the second end, the air adjustment assembly comprises a third air adjustment block and a third elastic ring, a third air inlet is disposed through the third air adjustment block, the third air inlet and the first air inlet are correspondingly disposed, the third elastic ring is disposed inside the third receiving groove, so that the third elastic ring is located between the third air adjustment block and the third receiving groove, the third elastic ring is used for elastically abutting the third air adjustment block with the third air inlet, and the third air adjustment block can rotate around the second end of the oil storage assembly along a guide direction of the third receiving groove, when the first air inlet and the third air inlet have different overlapping areas, the air flow outside the oil storage assembly flows to the smoke channel through the overlapping positions of the first air inlet and the third air inlet.

7. The electronic cigarette of claim 1, wherein a placement surface extends from a side of the oil guide facing the second end, the heating wire assembly includes a smoke adsorbing element and a heating wire connected to the smoke adsorbing element, and the smoke adsorbing element is disposed on the placement surface of the oil guide and abuts against the oil guide to adsorb smoke from the oil guide.

8. the electronic cigarette of claim 7, wherein the electrode assembly comprises a first electrode and a second electrode, the first electrode is covered with a first elastic cover, the second electrode is covered with a second elastic cover, one end of the heating wire led out from the soot absorber is clamped between the first electrode and the first elastic cover, and the other end of the heating wire led out from the soot absorber is clamped between the second electrode and the second elastic cover.

9. The electronic cigarette of claim 8, wherein the first electrode element comprises a cylindrical first electrode body, one end of the first electrode body abuts against the battery assembly, a first flange is formed at a peripheral edge of an end surface of the first electrode body abutting against the battery assembly in an outward extending manner, and the first elastic fixing sleeve is sleeved on the first electrode body and abuts against the first flange;

The second electrode piece comprises a cylindrical second electrode body, one end of the second electrode body is abutted against the battery component, a second flange is formed at the periphery of the end face of the second electrode body abutted against the battery component in an outward extending mode, and the second elastic fixing sleeve is sleeved on the second electrode body and abutted against the second flange.

10. The electronic cigarette of claim 1, wherein a first extension arm is disposed inside the oil cup, the first extension arm being configured to isolate the oil cup into the receiving cavity and the smoke channel;

The smoke channel is internally provided with a second extension arm, the second extension arm is used for isolating the smoke channel into an air inlet cavity and an air outlet cavity which are arranged in parallel, and a cavity opening at one end of the air inlet cavity is communicated with the first air inlet, so that air flow outside the oil storage assembly is communicated into the air inlet cavity through the first air inlet.