CN220403118U

CN220403118U - Electronic atomization device convenient for bullet replacement

Info

Publication number: CN220403118U
Application number: CN202322007319.4U
Authority: CN
Inventors: 郭彧; 劳进
Original assignee: Shenzhen Lost Vape Technology Co Ltd
Current assignee: Shenzhen Lost Vape Technology Co Ltd
Priority date: 2023-07-28
Filing date: 2023-07-28
Publication date: 2024-01-30
Anticipated expiration: 2033-07-28

Abstract

The utility model discloses an electronic atomization device convenient for bullet replacement, which comprises a bullet main body and a power supply main body, wherein the power supply main body comprises a main body shell and a sliding cover, the main body shell is provided with an adapting cavity and a first sliding structure, the bullet main body is detachably arranged in the adapting cavity, the sliding cover is arranged on the main body shell to cover the adapting cavity, a second sliding structure corresponding to the first sliding structure is arranged on the sliding cover, and the sliding cover can slide back and forth on the main body shell through the first sliding structure and the second sliding structure and can respectively control the opening and closing of the adapting cavity. According to the electronic atomization device with convenient bullet replacement, the first sliding structure and the second sliding structure are designed, so that the sliding cover can slide back and forth on the main body shell to respectively control the opening and closing of the adapting cavity, the cigarette bullet main body can be closed in the power supply main body and cannot fall off, the cigarette bullet main body can be disassembled and combined more conveniently, and the volume of the electronic atomization device can be reduced by arranging the cigarette bullet main body in the power supply main body, so that the electronic atomization device is convenient to carry.

Description

Electronic atomization device convenient for bullet replacement

Technical Field

The utility model relates to the technical field of electronic atomization, in particular to an electronic atomization device with convenient bullet changing.

Background

At present, current electron atomizing device, the connection mode of cigarette bullet main part and power supply main part adopts threaded connection or magnetism to inhale the mode of connecting with cigarette bullet main part in power supply main part top generally, and wherein adopts threaded connection can lead to cigarette bullet main part and power supply main part combination and dismantlement step loaded down with trivial details, adopts magnetism to inhale the connection and can lead to cigarette bullet main part very easily to drop in power supply main part to these two kinds of connection modes are all with cigarette bullet main part connection in power supply main part top, lead to electron atomizing device whole volume grow inconvenient carrying.

Disclosure of Invention

The utility model aims to provide an electronic atomization device with convenient bullet changing, which solves the problems that an electronic atomization device in the prior art is easy to fall off, inconvenient to detach and combine and inconvenient to carry due to large whole volume of a bullet main body on a power supply main body.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a trade convenient electron atomizing device of bullet, includes cigarette bullet main part and power supply main part, the power supply main part includes main body shell and sliding cover, be equipped with adaptation chamber and first sliding structure on the main body shell, cigarette bullet main part detachably establishes the adaptation intracavity, the sliding cover is established cover on the main body shell the adaptation chamber, the sliding cover be equipped with the corresponding second sliding structure of first sliding structure, the sliding cover is in on the main body shell through first sliding structure with second sliding structure can make a round trip to slide, can control respectively the opening and the closure of adaptation chamber.

As an implementation mode, the cigarette bullet main body is detachably arranged in the adapting cavity through one of a pulling-inserting structure, an interference fit structure, a magnetic attraction structure, a buckling structure and a thread structure.

As an embodiment, the first sliding structure and the second sliding structure are formed by a sliding rail and/or a sliding groove, respectively.

As an implementation mode, the main body shell is further provided with a first positioning structure, the sliding cover is further provided with a second positioning structure corresponding to the first positioning structure, and the sliding cover is positioned on the main body shell through the first positioning structure and the second positioning structure and does not fall off when sliding back and forth.

As an embodiment, the first positioning structure and the second positioning structure comprise positioning pins and/or positioning slots, respectively.

As an implementation mode, the top end of the main body shell is convexly provided with a first convex body and a second convex body which are corresponding, the inner side wall of the first convex body is provided with a first sliding rail, the inner side wall of the second convex body is provided with a second sliding rail, the sliding cover is arranged at the top end of the main body shell and is positioned between the first convex body and the second convex body, the side walls of the two sides of the sliding cover are respectively provided with a first sliding groove corresponding to the first sliding rail and a second sliding groove corresponding to the second sliding rail, the first sliding rail is inserted into the first sliding groove, the second sliding rail is inserted into the second sliding groove, the first sliding rail and the second sliding rail can respectively slide back and forth in the corresponding first sliding groove and second sliding groove, the sliding cover can respectively control the opening and closing of the adapting cavity in a back sliding manner at the top end of the main body shell, the first sliding rail and the second sliding rail form a first sliding structure, and the second sliding groove form a second sliding structure.

As an implementation mode, the top end of the main body shell is concave to form the adapting cavity, the adapting cavity corresponds to the space between the first convex body and the second convex body, the sliding cover covers the adapting cavity, the appearance and the size of the adapting cavity are matched with those of the cartridge main body, and the cartridge main body is detachably arranged in the adapting cavity in a pulling-inserting mode; the top of the main body shell is convexly extended to form a third convex body, and two ends of the third convex body are respectively connected with one ends of the first convex body and the second convex body.

As an implementation mode, the third convex body is provided with a first positioning groove, the top end of the main body shell is further provided with a groove, a spring and a first positioning pin are arranged in the groove, the bottom end of the first positioning pin is in butt joint with the spring, the upper end of the first positioning pin extends out of the groove and is exposed out of the top end of the main body shell, the sliding cover is further provided with a second positioning pin corresponding to the first positioning groove, the bottom end of the sliding cover is provided with a second positioning groove corresponding to the first positioning pin, the second positioning pin is clamped in the first positioning groove, the second positioning pin can be pulled out and inserted in the first positioning groove, the first positioning pin is inserted in the second positioning groove, the first positioning pin can slide between the two ends of the second positioning groove, the first positioning groove and the first positioning pin form a first positioning structure, and the second positioning pin forms a second positioning structure.

As an implementation mode, be equipped with in the adaptation chamber with the electric connection structure that corresponds of cigarette bullet bulk phase, the cigarette bullet bulk phase is in the adaptation intracavity pass through electric connection structure with the power supply main part electricity is connected, be formed with the oil storage chamber that is used for storing tobacco tar in the cigarette bullet bulk phase, be equipped with the atomizing core that is used for atomizing tobacco tar in the oil storage chamber, be formed with the fog passageway in the atomizing core, be equipped with the core that generates heat in the fog passageway, the atomizing core lower extreme exposes outside the cigarette bullet bulk phase, atomizing core bottom be equipped with the first electrode and the second electrode that generates heat the core electricity is connected, cigarette bullet bulk phase top seted up with the fog passageway corresponds and communicates with each other, the slip cover is gone up with the corresponding through-channel of smoking fog mouth has been seted up, inserted in the through-channel suction nozzle, set up in the suction nozzle with the communicating passageway of fog mouth.

As an implementation mode, the conductive connection structure comprises a conductive connection seat, a third electrode and a fourth electrode, wherein the third electrode and the fourth electrode are arranged at the top end of the conductive connection seat, an installation channel is formed in the bottom of the adapting cavity, the conductive connection seat is arranged in the installation channel, the third electrode is abutted to the first electrode, the fourth electrode is abutted to the second electrode, and the cartridge body is abutted to the first electrode through the third electrode, and the fourth electrode is abutted to the second electrode to form electric connection with the power supply body.

As an implementation mode, the power supply main body further comprises a power panel, the power panel is arranged on one side wall of the main body shell and is electrically connected with the third electrode and the fourth electrode, a rear cover which covers the power panel is further arranged on one side wall of the main body shell, a power button and a gear button are arranged on the power panel, and a power button and a gear button which are respectively in butt joint with the power button and the gear button are arranged on the rear cover.

As an implementation mode, the power supply main body further comprises a fixing frame and a battery cell, an adaptation gap is formed in the side wall of the other side of the main body shell, the fixing frame is arranged in the adaptation gap, an adaptation groove is formed in the side wall of the fixing frame, the battery cell is arranged in the adaptation groove, and the battery cell is electrically connected with the power panel.

The electronic atomization device convenient for replacing the shell has the following beneficial effects: according to the electronic atomization device convenient to replace the cartridge, the first sliding structure and the second sliding structure are designed, so that the sliding cover can slide back and forth on the main body shell to respectively control the opening and closing of the adapting cavity, the cartridge main body can be closed in the power supply main body and cannot fall off, the cartridge main body and the power supply main body can be disassembled and combined more conveniently, and the volume of the whole electronic atomization device can be reduced by arranging the cartridge main body in the power supply main body, so that the electronic atomization device is convenient to carry.

Drawings

The present utility model will be described in detail below with reference to the attached drawings, so that the above advantages of the present utility model will be more apparent. Wherein,

FIG. 1 is an exploded view of an electronic atomizing device of the present utility model;

FIG. 2 is a schematic perspective view of an electronic atomizing device according to the present disclosure;

FIG. 3 is a schematic front cross-sectional view of an electronic atomizing device of the present utility model;

FIG. 4 is a schematic side cross-sectional view of an electronic atomizing device of the present utility model;

fig. 5 is a separated view of the cartridge body and the power supply body of the electronic atomizing device of the present utility model;

fig. 6 is a schematic structural view of a main body case of the electronic atomizing device of the present utility model;

fig. 7 is a schematic view of the bottom structure of the sliding cover of the electronic atomizing device of the present utility model.

Detailed Description

The following will describe embodiments of the present utility model in detail with reference to the drawings and examples, thereby solving the technical problems by applying technical means to the present utility model, and realizing the technical effects can be fully understood and implemented accordingly. It should be noted that, as long as no conflict is formed, each embodiment of the present utility model and each feature of each embodiment may be combined with each other, and the formed technical solutions are all within the protection scope of the present utility model.

It should be noted that, in the description of the present utility model, a large number of technical features are described, and are distributed in each technical solution, and if all possible combinations of technical features (i.e. technical solutions) of the present application are to be listed, the description is too lengthy. In order to avoid this problem, the technical features of the utility model in the above summary of the utility model, the technical features of the utility model in the following embodiments and examples, and the technical features of the utility model in the drawings may be freely combined with each other to constitute various new technical solutions (these technical solutions are regarded as already described in the present specification) unless such a combination of technical features is technically impossible. For example, in one example, feature a+b+c is invented, in another example, feature a+b+d+e is invented, and features C and D are equivalent technical means that perform the same function, so long as they are used alternatively, it is not possible to use them simultaneously, feature E can be combined with feature C technically, the solution of a+b+c+d should not be considered as already described because it is technically infeasible, and the solution of a+b+c+e should be considered as already described.

In the present utility model, the terms "upper", "lower", "top", "bottom", "inner", "outer", "one side", "the other side", etc. are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and understanding of the technology of the present utility model, and do not limit the apparatus or components referred to have a specific orientation or to be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1-7, the utility model provides an electronic atomization device with convenient cartridge replacement, which comprises a cartridge main body 3 and a power supply main body 200, wherein the power supply main body 200 comprises a main body shell 7 and a sliding cover 2, an adapting cavity 701 and a first sliding structure are arranged on the main body shell 7, the cartridge main body 3 is detachably arranged in the adapting cavity 701, the sliding cover 2 is arranged on the main body shell 7 to cover the adapting cavity 701, a second sliding structure corresponding to the first sliding structure is arranged on the sliding cover 2, the sliding cover 2 can slide back and forth on the main body shell 7 through the first sliding structure and the second sliding structure, and the opening and the closing of the adapting cavity 701 can be controlled respectively. It should be noted that, through designing the first sliding structure and the second sliding structure, the sliding cover 2 can slide back and forth on the main body shell 7 to control the opening and closing of the adapting cavity 701 respectively, so that the cartridge body 3 is not only closed in the power supply main body 200 and can not fall off, but also the cartridge body 3 and the power supply main body 200 are disassembled and combined more conveniently, and the cartridge body 3 is arranged in the power supply main body 200 to reduce the volume of the whole electronic atomization device for convenient carrying.

In some embodiments, the cartridge body 3 is detachably disposed within the adapter cavity 701 by one of a plug structure, an interference fit structure, a magnetic attraction structure, a snap structure, a screw structure. The cartridge body 3 of this embodiment is preferably provided in the adapting cavity 701 by adopting a plug-pull structure, and after the adapting cavity 701 is opened by sliding the sliding cover 2, the cartridge body 3 can be directly turned in, and the cartridge body 3 can also be directly taken out, so that no redundant operation is time-saving and labor-saving, and the disassembly and assembly are convenient.

In some embodiments, the first sliding structure and the second sliding structure are formed by a sliding rail and/or a sliding chute, respectively. The first sliding structure of this embodiment preferably adopts a sliding rail, and the second sliding structure preferably adopts a sliding groove, so that the sliding cover 2 can slide by using the sliding groove and the sliding rail, thereby saving time and labor.

In some embodiments, the main body shell 7 is further provided with a first positioning structure, the sliding cover 2 is further provided with a second positioning structure corresponding to the first positioning structure, and the sliding cover 2 is positioned on the main body shell 7 through the first positioning structure and the second positioning structure and does not fall off when sliding back and forth. Wherein, the first positioning structure and the second positioning structure are used for positioning the sliding track and the sliding distance of the sliding cover 2 on the main body shell 7, and the sliding structure preventing the sliding cover 2 from falling off from the main body shell 7.

In some embodiments, the first and second locating structures comprise locating pins and/or locating slots, respectively. The first positioning structure and the second positioning structure of this embodiment preferably adopt a positioning pin and a positioning groove, and the sliding structure can not fall off from the main body shell 7 in the sliding process of the sliding cover 2 due to the matching positioning of the positioning pin and the positioning groove.

In some embodiments, the top end of the main body shell 7 is convexly formed with a first convex body 702 and a second convex body 703 corresponding to each other, a first sliding rail 704 is disposed on the inner side wall of the first convex body 702, a second sliding rail 705 is disposed on the inner side wall of the second convex body 703, the sliding cover 2 is disposed on the top end of the main body shell 7 and is located between the first convex body 702 and the second convex body 703, a first sliding groove 201 corresponding to the first sliding rail 704 and a second sliding groove 202 corresponding to the second sliding rail 705 are respectively formed on the side walls of both sides of the sliding cover 2, the first sliding rail 704 is inserted into the first sliding groove 201, the second sliding rail 705 is inserted into the second sliding groove 202, the first sliding rail 704 and the second sliding rail 705 can respectively slide back and forth in the corresponding first sliding groove 201 and second sliding groove 202, the sliding cover 2 can respectively slide back and forth on the top end of the main body shell 7 to control the opening and closing of the adapting cavity 701, the first sliding rail 704 and the second sliding rail 705 form a first sliding structure, and the first sliding groove 201 and the second sliding groove 202 form a second sliding structure. Wherein, the main body shell 7 is made of zinc alloy material, has strong hardness and is not deformed and durable; the first protrusion 702 and the second protrusion 703 may be integrally formed with the main body case 7, or may be assembled with each other; the first sliding rail 704 and the second sliding rail 705 may be formed on the first convex body 702 and the second convex body 703 by a machining process, or may be integrally cast in a mold.

In some embodiments, the top end of the main body shell 7 is concaved inwards to form an adapting cavity 701, the adapting cavity 701 corresponds to a space between the first convex body 702 and the second convex body 703, the sliding cover 2 covers over the adapting cavity 701, the shape and the size of the adapting cavity 701 are matched with those of the cartridge body 3, and the cartridge body 3 is detachably arranged in the adapting cavity 701 in a plug-in mode; the top end of the main body shell 7 is convexly provided with a third convex body 706, and two ends of the third convex body 706 are respectively connected with one ends of the first convex body 702 and the second convex body 703. The shape and size of the adapting cavity 701 are matched with those of the cartridge body 3, so that the cartridge body 3 can be pulled out and inserted in the adapting cavity 701, and the shape of the adapting cavity 701 can be any shape and size as long as the adapting cavity is matched with the cartridge body 3; the third convex body 706 can be integrally formed with the main body shell 7, or can be mutually assembled; the adapting cavity 701 may be formed on the main body shell 7 by a machining process, or may be integrally cast with the main body shell 7 in a mold.

In some embodiments, the third protrusion 706 is provided with a first positioning groove 707, the top end of the main body shell 7 is further provided with a groove 708, the groove 708 is provided with a spring 6 and a first positioning pin 5, the bottom end of the first positioning pin 5 is abutted against the spring 6, the upper end of the first positioning pin 5 extends out of the groove 708 and is exposed at the top end of the main body shell 7, the sliding cover 2 is further provided with a second positioning pin 203 corresponding to the first positioning groove 707, the bottom end of the sliding cover 2 is provided with a second positioning groove 204 corresponding to the first positioning pin 5, the second positioning pin 203 is clamped in the first positioning groove 707, the second positioning pin 203 can be pulled and inserted in the first positioning groove 707, the first positioning pin 5 is inserted into the second positioning groove 204, the first positioning pin 5 can slide between the two ends of the second positioning groove 204, the first positioning groove 707 and the first positioning pin 5 form a first positioning structure, and the second positioning groove 204 and the first positioning pin 5 form a second positioning structure. Wherein, the third convex body 706 is used for preventing the sliding cover 2 from falling off from the main body shell 7 when sliding back to close the adapting cavity 701, the first positioning groove 707 is used for clamping the second positioning pin 203, preventing the sliding cover 2 from sliding back to close the adapting cavity 701 and shifting left and right, and simultaneously reducing the impact force between the sliding cover 2 and the third convex body 706, preventing the sliding cover 2 from falling off from the main body shell 7 when sliding back, the third convex body 706 is too large to cause deformation when sliding cover 2 slides back, the groove 708 is used for installing and positioning the spring 6, the spring 6 can reduce the acting force between the sliding cover 2 and the first positioning pin 5 by utilizing the elasticity, and preventing the sliding friction force from being too large to cause abrasion when sliding cover 2 slides back and forth, wherein, after the first positioning pin 5 is inserted into the second positioning groove 204, the first positioning pin 5 can be abutted against one end of the second positioning groove 204 to limit when sliding cover 2 slides forward to open the adapting cavity 701, preventing the sliding cover 2 from falling off from the main body shell 7 when sliding cover 2 slides forward, and simultaneously the first positioning pin 5 can support the sliding cover 2 to prevent the sliding cover 2 from deforming under the pressure.

In some embodiments, a conductive connection structure corresponding to the cartridge body 3 is disposed in the adapting cavity 701, the cartridge body 3 is electrically connected with the power supply body 200 through the conductive connection structure in the adapting cavity 701, an oil storage cavity 301 for storing tobacco tar is formed in the cartridge body 3, an atomization core 302 for atomizing the tobacco tar is disposed in the oil storage cavity 301, a mist channel 303 is formed in the atomization core 302, a heating core 304 is disposed in the mist channel 303, the lower end of the atomization core 302 is exposed outside the cartridge body 3, a first electrode 305 and a second electrode 306 electrically connected with the heating core 304 are disposed at the bottom end of the atomization core 302, a mist outlet 307 corresponding to and communicating with the mist outlet 307 is formed at the top end of the cartridge body 3, a through channel 205 corresponding to the mist outlet 307 is formed in the sliding cover 2, a suction nozzle 1 is inserted into the through channel 205, and a smoking channel 101 communicating with the mist outlet 307 is formed in the suction nozzle 1. The conductive connection structure is used for being connected with the cartridge body 3 in a conductive manner, the mist channel 303 is used for ventilation flow and smoke discharging mist, the heating core 304 is used for heating tobacco tar in the oil storage cavity 301 to generate smoke, the lower end of the atomizing core 302 is exposed out of the cartridge body 3 and is conveniently connected with electricity through the conductive connection structure, the first electrode 305 and the second electrode 306 are used for being connected with the heating core 304 in a conductive manner, the mist outlet 307 is used for discharging smoke generated by heating the tobacco tar by the heating core 304, the penetrating channel 205 is used for installing and positioning the suction nozzle 1, the suction nozzle 1 is used for sucking smoke in the mouth, and the smoking channel 101 is used for sucking the smoke.

In some embodiments, the conductive connection structure includes a conductive connection seat 4, and a third electrode 401 and a fourth electrode 402 disposed at the top end of the conductive connection seat 4, a mounting channel 709 is opened at the bottom of the adapting cavity 701, the conductive connection seat 4 is disposed in the mounting channel 709, the third electrode 401 is abutted against the first electrode 305, the fourth electrode 402 is abutted against the second electrode 306, the cartridge body 3 is abutted against the first electrode 305 through the third electrode 401, and the fourth electrode 402 is abutted against the second electrode 306 to be electrically connected with the power supply body 200. The conductive connecting seat 4 is made of plastic or rubber material, has insulation property and is used for isolating the third electrode 401 and the fourth electrode 402 to prevent the third electrode and the fourth electrode from contacting and shorting, and meanwhile, the conductive connecting seat 4 is used for plugging the mounting channel 709 to prevent condensate generated by the cartridge main body 3 from entering the main body shell 7 to cause the short circuit of the power panel 13 described below.

In some embodiments, the power supply main body 200 further includes a power board 13, the power board 13 is disposed on a side wall of the main body casing 7, the power board 13 is electrically connected with the third electrode 401 and the fourth electrode 402, a rear cover 10 covering the power board 13 is further disposed on the side wall of the main body casing 7, a power button 1301 and a gear button 1302 are disposed on the power board 13, and a power button 11 and a gear button 12 respectively abutting against the power button 1301 and the gear button 1302 are disposed on the rear cover 10. It should be noted that, the power panel 13 is used for powering on the heating core 304 of the atomizing core 302 to heat the smoke oil, the rear cover 10 is used for protecting and isolating the power panel 13 from the palm of the hand contacting with the power panel 13, wherein the power button 1301 can be started by pressing the power button 11 on the rear cover 10, then the power panel 13 is controlled to supply power to the heating core 304, the gear button 1302 can be started by pressing the gear button 12 on the rear cover 10, and then the power panel 13 is controlled to input voltage and current required by different heating values to the heating core 304.

In some embodiments, the power supply main body 200 further includes a fixing frame 8 and a battery core 9, an adapting notch 710 is formed on a side wall of the other side of the main body shell 7, the fixing frame 8 is disposed in the adapting notch 710, an adapting groove 801 is formed on a side wall of the fixing frame 8, the battery core 9 is disposed in the adapting groove 801, and the battery core 9 is electrically connected with the power board 13. The adapting notch 710 is used for adapting the fixing frame 8, the adapting groove 801 is used for adapting the electric core 9, and the electric core 9 is used for supplying power to the power panel 13 so as to enable the electric control function to be started.

The following is a detailed description of the preferred embodiments.

As shown in fig. 1 to 7, the electronic atomizing device of the present utility model includes: the cigarette bullet body 3 and the power supply body 200 are internally provided with an oil storage cavity 301 for storing cigarette oil, an atomization core 302 for atomizing the cigarette oil is arranged in the oil storage cavity 301, a fog channel 303 for ventilation flow and smoke discharging is formed in the atomization core 302, a heating core 304 for heating the cigarette oil in the oil storage cavity 301 to generate smoke is arranged in the fog channel 303, the lower end of the atomization core 302 is exposed out of the cigarette bullet body 3 to be conveniently connected with electricity, a first electrode 305 and a second electrode 306 which are electrically connected with the heating core 304 are arranged at the bottom end of the atomization core 302 and are used for conducting connection with the heating core 304, and a smoke outlet 307 which corresponds to the fog channel 303 and is communicated with the fog channel 303 is formed in the top end of the cigarette bullet body 3 and is used for discharging smoke generated by heating the cigarette oil by the heating core 304.

The power supply body 200 includes: the suction nozzle 1, the sliding cover 2, the conductive connecting seat 4, the first locating pin 5, the spring 6, the main body shell 7, the fixing frame 8, the battery core 9, the rear cover 10, the power button 11, the gear button 12 and the power panel 13, wherein an adapting cavity 701 is concavely formed at the top end of the main body shell 7 and is used for accommodating the cartridge main body 3, the shape and the size of the adapting cavity 701 are matched with those of the cartridge main body 3, the cartridge main body 3 can be pulled and inserted in the adapting cavity 701, a first convex body 702 and a second convex body 703 corresponding to each other are convexly formed at the top end of the main body shell 7, a third convex body 706 is respectively connected with one ends of the first convex body 702 and the second convex body 703, the space between the adapting cavity 701 and the first convex body 702 and the space between the second convex body 703 is corresponding to the space 701, the sliding cover 2 is arranged at the top end of the main body shell 7 and is positioned between the first convex body 702 and the second convex body 703 to seal the adapting cavity 701, the sliding cover 2 is provided with a through channel 205 corresponding to the mist outlet 307 for installing the suction nozzle 1, the suction nozzle 1 is inserted into the through channel 205 for connection, the suction nozzle 1 is internally provided with a smoking channel 101 communicated with the mist outlet 307 for sucking out the mist in the mist channel 303, the inner side wall of the first convex body 702 is provided with a first sliding rail 704, the inner side wall of the second convex body 703 is provided with a second sliding rail 705, the two side walls of the sliding cover 2 are respectively provided with a first sliding groove 201 corresponding to the first sliding rail 704 and a second sliding groove 202 corresponding to the second sliding rail 705, the first sliding rail 704 is inserted into the first sliding groove 201, the second sliding rail 705 is inserted into the second sliding groove 202, the first sliding rail 704 and the second sliding rail 705 can respectively slide back and forth in the corresponding first sliding groove 201 and the second sliding groove 202, the sliding cover 2 can respectively slide back and forth at the top end of the main body shell 7 to respectively control the opening and closing of the adapting cavity 701, thereby facilitating the disassembly and installation of the cartridge main body 3, the third protruding body 706 is provided with a first positioning groove 707 for positioning the sliding cover 2, the top end of the main body shell 7 is also provided with a groove 708 for accommodating the spring 6 and the first positioning pin 5, the spring 6 and the first positioning pin 5 are installed in the groove 708, the bottom end of the first positioning pin 5 is abutted against the spring 6 for reducing the acting force born by the sliding cover 2 by using elastic force, the upper end of the first positioning pin 5 extends out of the groove 708 and is exposed at the top end of the main body shell 7 for positioning the sliding cover 2, the sliding cover 2 is also provided with a second positioning pin 203 corresponding to the first positioning groove 707, the bottom end of the sliding cover 2 is provided with a second positioning groove 204 corresponding to the first positioning pin 5, the second positioning pin 203 is clamped in the first positioning groove 707, the first positioning pin 5 is inserted into the second positioning groove 204, the first positioning pin 5 can slide between the two ends of the second positioning groove 204, the bottom of the adapting cavity 701 is provided with a mounting channel 709 for mounting a conductive connecting seat 4, the conductive connecting seat 4 is arranged in the mounting channel 709 to fix and plug the mounting channel 709, the top end of the conductive connecting seat 4 is provided with a third electrode 401 and a fourth electrode 402 to play a role of electric connection, the third electrode 401 is abutted against the first electrode 305, the fourth electrode 402 is abutted against the second electrode 306, a power panel 13 is arranged on one side wall of the main body shell 7 to fix, the power panel 13 is electrically connected with the third electrode 401 and the fourth electrode 402 to electrify the heating core 304 to heat smoke oil to generate smoke, a rear cover 10 covered on the power panel 13 is also arranged on one side wall of the main body shell 7 to protect the power panel 13, the power panel 13 is provided with a power button 1301 and a gear button 1302, the rear cover 10 is provided with a power button 11 and a gear button 12 respectively abutted against the power button 1301 and the gear button 1302, the power button 1301 can be started by pressing the power button 11 on the rear cover 10, then the power panel 13 is controlled to supply power to the heating core 304, the gear button 1302 can be started by pressing the gear button 12 on the rear cover 10, then the power panel 13 is controlled to input voltage and current required by different heating values to the heating core 304, an adaptation notch 710 is formed in the side wall of the other side of the main body shell 7 and used for adapting the fixing frame 8, the fixing frame 8 is installed in the adaptation notch 710 and fixed in the interior, an adaptation groove 801 is formed in the side wall of the fixing frame 8 and used for adapting the electric core 9, the electric core 9 is arranged in the adaptation groove 801 and fixed in the interior, and the electric core 9 is electrically connected with the power panel 13 and used for supplying power to the power panel 13 so as to enable the electric control function to be started.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that the present utility model is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. The utility model provides a trade convenient electron atomizing device of bullet, its characterized in that, includes cigarette bullet main part and power supply main part, the power supply main part includes main body shell and sliding cover, be equipped with adaptation chamber and first sliding structure on the main body shell, cigarette bullet main part detachably establishes the adaptation intracavity, the sliding cover is established cover on the main body shell the adaptation chamber, be equipped with on the sliding cover with the corresponding second sliding structure of first sliding structure, the sliding cover is in on the main body shell through first sliding structure with second sliding structure can make a round trip to slide, can control respectively the opening and the closure of adaptation chamber.

2. The electronic atomizing device of claim 1, wherein the cartridge body is removably disposed within the adapter cavity by one of a pull-out structure, an interference fit structure, a magnetic attraction structure, a snap-in structure, and a threaded structure.

3. The electronic atomizing device of claim 1, wherein the first sliding structure and the second sliding structure are each formed by a slide rail and/or a slide slot.

4. The electronic atomizing device according to claim 1, wherein the main body case is further provided with a first positioning structure, the sliding cover is further provided with a second positioning structure corresponding to the first positioning structure, and the sliding cover is positioned on the main body case by the first positioning structure and the second positioning structure so as not to fall off when sliding back and forth.

5. The electronic atomizing device of claim 4, wherein the first positioning structure and the second positioning structure each comprise a positioning pin and/or a positioning slot.

6. The electronic atomizing device according to any one of claims 1 to 5, wherein the top end of the main body shell is protruded and formed with a first protrusion and a second protrusion, a first sliding rail is provided on an inner side wall of the first protrusion, a second sliding rail is provided on an inner side wall of the second protrusion, the sliding cover is provided on the top end of the main body shell and is located between the first protrusion and the second protrusion, a first sliding groove corresponding to the first sliding rail and a second sliding groove corresponding to the second sliding rail are provided on side walls of both sides of the sliding cover, the first sliding rail is inserted into the first sliding groove, the second sliding rail is inserted into the second sliding groove, the first sliding rail and the second sliding rail can slide back and forth in the corresponding first sliding groove and the second sliding groove, the sliding cover can slide back and forth at the top end of the main body shell to control opening and closing of the adapting cavity, and the first sliding rail and the second sliding rail form the first sliding structure and the second sliding structure.

7. The electronic atomizing device according to claim 6, wherein the top end of the main body shell is concave to form the fitting cavity, the fitting cavity corresponds to a space between the first convex body and the second convex body, the sliding cover covers the fitting cavity, the external shape and the dimension of the fitting cavity are matched with those of the cartridge main body, and the cartridge main body is detachably arranged in the fitting cavity in a pulling-inserting manner; the top of the main body shell is convexly extended to form a third convex body, and two ends of the third convex body are respectively connected with one ends of the first convex body and the second convex body.

8. The electronic atomizing device according to claim 7, wherein the third protrusion is provided with a first positioning groove, the top end of the main body housing is further provided with a groove, a spring and a first positioning pin are arranged in the groove, the bottom end of the first positioning pin is abutted against the spring, the top end of the first positioning pin extends out of the groove and is exposed out of the top end of the main body housing, the sliding cover is further provided with a second positioning pin corresponding to the first positioning groove, the bottom end of the sliding cover is provided with a second positioning groove corresponding to the first positioning pin, the second positioning pin is clamped in the first positioning groove, the second positioning pin can be inserted into the first positioning groove, the first positioning pin can slide between the two ends of the second positioning groove, the first positioning groove and the first positioning pin form a first positioning structure, and the second positioning pin and the first positioning pin form a second positioning structure.

9. The electronic atomization device according to claim 7, wherein a conductive connection structure corresponding to the cartridge body is arranged in the adaptation cavity, the cartridge body is electrically connected with the power supply body through the conductive connection structure in the adaptation cavity, an oil storage cavity for storing tobacco tar is formed in the cartridge body, an atomization core for atomizing the tobacco tar is arranged in the oil storage cavity, a mist channel is formed in the atomization core, a heating core is arranged in the mist channel, the lower end of the atomization core is exposed out of the cartridge body, a first electrode and a second electrode which are electrically connected with the heating core are arranged at the bottom end of the atomization core, a mist outlet which corresponds to the mist channel and is communicated with the mist outlet is formed in the top end of the cartridge body, a through channel corresponding to the mist outlet is formed in the sliding cover, a suction nozzle is inserted in the through channel, and a channel which is communicated with the mist outlet is formed in the suction nozzle.

10. The electronic atomizing device according to claim 9, wherein the conductive connecting structure includes a conductive connecting seat, a third electrode and a fourth electrode provided on a top end of the conductive connecting seat, a mounting channel is provided at a bottom of the adapting cavity, the conductive connecting seat is provided in the mounting channel, the third electrode is abutted against the first electrode, the fourth electrode is abutted against the second electrode, the cartridge body is abutted against the first electrode through the third electrode, and the fourth electrode is abutted against the second electrode to be electrically connected with the power supply body.

11. The electronic atomizing device according to claim 10, wherein the power supply main body further comprises a power supply board, the power supply board is arranged on a side wall of the main body shell, the power supply board is electrically connected with the third electrode and the fourth electrode, a rear cover covering the power supply board is further arranged on the side wall of the main body shell, a power button and a gear button are arranged on the power supply board, and a power button and a gear button which are respectively abutted to the power button and the gear button are arranged on the rear cover.

12. The electronic atomizing device according to claim 11, wherein the power supply main body further comprises a fixing frame and a battery cell, an adaptation notch is formed in the side wall of the other side of the main body shell, the fixing frame is arranged in the adaptation notch, an adaptation groove is formed in the side wall of the fixing frame, the battery cell is arranged in the adaptation groove, and the battery cell is electrically connected with the power panel.