WO2015070402A1 - Atomizing apparatus, electronic cigarette, and cigarette oil regulating method therefor - Google Patents

Abstract

An atomizing apparatus. The atomizing apparatus comprises an oil-storage mechanism (2) and an atomizing component (11). The oil-storage mechanism (2) is provided with an oil transfer channel used for outputting cigarette oil in the oil-storage mechanism (2) to the atomizing component (11). Provided between the oil-storage mechanism (2) and the atomizing component (11) is an oil guide element (20) capable of rotating relative to the oil-storage mechanism (2). The oil guide element (20) is provided with an oil guide channel corresponding in position to the oil transfer channel. By rotating the oil guide element (20) to adjust the relative positions of the oil guide element (20) and of the oil-storage mechanism (2), the oil transfer channel and the oil guide channel are either communicated or not communicated therebetween, thus either opening or closing a cigarette oil flowing channel between the oil-storage mechanism (2) and the atomizing component (11). Also provided are an electronic cigarette comprising the atomizing apparatus and a method for regulating cigarette oil of an electronic cigarette.

Description

 Atomizing device, electronic cigarette and smoke oil adjusting method thereof  Technical field

 The present invention relates to the field of household electronic products, and more particularly to an atomizing device, an electronic cigarette and a method for regulating the same.

Background technique

The electronic cigarette generally consists of an atomizing device and a power supply device. The atomizing device atomizes the oil to generate smoke for the user to suck, and the power device supplies power to the atomizing device. The atomization device for the electronic cigarette in the prior art generally includes an oil storage member for storing the oil and an atomization assembly for atomizing the oil, and the oil storage member is provided with a smoke oil circulation hole to enable the oil to be discharged from the oil storage member. The medium flows out, and the atomized component heats and atomizes the smoke oil. In the above-mentioned atomization device, when the electronic cigarette does not work, the smoke oil will always infiltrate into the atomization assembly due to gravity or the like, and the utilization rate of the smoke oil is not high, and oil leakage is likely to occur in the case of vibration. And because the smoky oil passage is completely open, not only the means of sealing after use, but also the waste of smog and smog is generated, the utilization rate of the smoky oil is low, and the amount of smoke of the smoky oil cannot be determined according to the user's demand. Adjustments are made with poor flexibility.

 Therefore, the prior art has drawbacks and needs to be improved.

Summary of the invention

The technical problem to be solved by the present invention is to provide an atomization device capable of effectively preventing oil leakage and improving utilization of smoke oil, in view of the defects that the above-mentioned atomization device of the prior art has low utilization rate of smoke oil and is prone to oil leakage. Electronic cigarette and its smoke oil adjustment method.

The technical solution adopted by the present invention to solve the technical problem is to construct an atomization device for forming an electronic cigarette in combination with a power supply device, the atomization device comprising an oil storage mechanism and an atomization assembly, and the oil storage mechanism is configured There is an oil passage for outputting the smoke oil in the oil storage mechanism to the atomization assembly, and a guide capable of rotating relative to the oil storage mechanism is disposed between the oil storage mechanism and the atomization assembly An oil guiding member, the oil guiding member is provided with an oil guiding passage corresponding to the position of the oil conveying passage, and the relative position between the oil guiding member and the oil storage mechanism is adjusted by rotating the oil guiding member, so that The oil delivery passage and the oil guiding passage are electrically connected or not, and open or close the smoke oil circulation passage between the oil storage mechanism and the atomizing assembly.

In the atomizing device of the present invention, the oil storage mechanism includes an oil storage cup and a grease trap that is disposed at an open end of the oil storage cup, and the oil separating member is provided with a circulation as the oil passage a through hole corresponding to the flow hole corresponding to the flow hole on the oil guiding member;

When the atomizing device is in operation, by rotating the oil guiding member to a first preset position, the through hole and the flow hole form the smoke oil circulation passage, and the smoke oil circulation passage is used for The smoke oil is led out; when the oil guiding member is rotated to the second preset position, the through hole and the flow hole are offset from each other to close the smoke oil circulation passage.

In the atomizing device of the present invention, the atomizing device further includes an outer sleeve sleeved on the atomizing assembly, the oil guiding member includes a rotating connection with the oil separating member and is fixed to the outer casing a mounting seat at one end of the tube and a sealing member mounted on a side of the mounting seat facing the oil separating member, the through hole being formed in the sealing member.

In the atomizing device of the present invention, the mounting seat protrudes away from the center of the shaft with a fastening portion, and the end surface of the oil separating member is provided with a docking slot for inserting one end of the mounting seat, the docking The circumferential side wall of the slot is provided with a limiting slot adapted to the fastening portion, and the fastening portion is rotatable within the limiting slot.

In the atomization device of the present invention, the atomization assembly includes an oil guiding rope and a heating wire wound around the oil guiding rope; the mounting seat houses the sealing member and the oil guiding body respectively The rope-corresponding smog buffer member is made of a porous material and is used for storing the smoky oil transported by the via hole for heating and atomizing the electric heating wire.

In the atomization device of the present invention, the sealing member is further provided with a fixing hole, and the mounting seat protrudes with a protrusion matching the fixing hole.

In the atomization device of the present invention, the atomization device further includes an atomization sleeve sleeved on the atomization assembly and the oil storage mechanism, and the oil guide member includes the oil separation member And a sealing member that is mounted in the receiving space and rotatable relative to the oil separating member, and the through hole is opened in the sealing member.

In the atomization device of the present invention, the atomization sleeve is provided with a second sliding slot extending radially, and the sealing member is provided with a dial block extending outside the second sliding slot, the mounting seat corresponding to The dial block forms a first notch corresponding to the perforation position, and the dial block can drive the sealing member to rotate along the first notch.

In the atomizing device of the present invention, a second notch is formed on the oil separating member corresponding to the dial block, and the second notch and the first notch together form a first sliding for rotating the dial block groove.

In the atomizing device of the present invention, the atomizing device further includes an atomizing sleeve sleeved on the atomizing assembly and the oil storage mechanism, and the oil separating member includes a diameter along the oil separating member a mounting hole for accommodating the oil guiding member, the mounting hole and the through hole are mutually penetrated, the oil guiding member is radially opened, and the oil guiding member is opposite to the separating hole The oil is rotated.

In the atomizing device of the present invention, the flow hole includes a plurality of, each of the flow holes respectively opening in the axial direction of the oil separating member and penetrating the oil separating member; The oil separating member is radially opened and penetrates the oil separating member.

In the atomizing device of the present invention, the oil guiding member includes a sealing member and a rotating handle sleeved at one end of the sealing member for driving the sealing member to rotate.

In the atomizing device of the present invention, the first end of the atomizing sleeve corresponding to the mounting hole is provided with a through hole communicating with the mounting hole, and the sealing member comprises a conducting portion and an operating portion. The conductive portion is received in the mounting hole, and the operating portion protrudes outward from the through hole.

In the atomization device of the present invention, the rotating handle is sleeved at one end of the operating portion, and the rotating handle is used to drive the sealing member to rotate relative to the atomizing assembly.

In the atomizing device of the present invention, the conducting portion is radially opened with the through hole, and the rotating handle is rotated by a predetermined angle to the first preset position to make the through hole In communication with the flow aperture, the predetermined angle is indicated by the rotary handle.

In the atomizing device of the present invention, the diameter of the conducting portion near the first end is larger than the diameter of the through hole.

In the atomization device of the present invention, the oil storage mechanism is provided with an atomization passage for distributing the smoke formed by the atomization of the smoke oil, and the oil storage mechanism is provided with a smoke outlet hole at one end, and the smoke outlet hole It is in communication with the atomization channel.

The present invention also provides an electronic cigarette comprising the above-described atomizing device and a power supply device for supplying power to the atomizing device.

The invention also provides a method for adjusting the smoke oil of an electronic cigarette, the electronic cigarette comprising an atomizing device and a power supply device, characterized in that the method comprises the following steps:

a. the step of turning on: connecting the atomizing device and the power source device, and electrically connecting each other;

b. adjusting step: rotating the oil guiding member installed in the atomizing device, adjusting the relative position between the oil guiding member and the oil storage mechanism rotatably connected to the oil guiding member;

c. oil supply step: the oil guiding member is rotated to a first preset position, so that the oil and oil circulation passage between the oil guiding member and the oil storage mechanism is turned on, and the smoke oil flows from the smoke oil circulation passage Exporting, the atomizing component atomizes the smoke oil.

The atomization assembly, the electronic cigarette and the smoke oil adjusting method thereof of the invention have the following beneficial effects: the atomizing assembly realizes the control of the smoke oil passage through the rotary matching structure between the oil guiding member and the oil separating member Turning on and off, when the user needs to atomize the smoke oil by using the electronic cigarette, the oil guide member is rotated to a position communicating with the oil separating member by a user operation, and the smoke oil can sequentially flow through the oil separating member and the The oil guiding member finally reaches the atomizing assembly; when the user does not smoke, the rotation causes the oil guiding member to block the passage for the smoke oil flowing on the oil separating member, thereby ensuring that the oil is not used without being used. It will leak from the oil storage cup, thereby improving the utilization of the oil and effectively preventing the occurrence of oil leakage.

Further, the structure of the dial or the rotating handle protruding from the outside of the atomizing sleeve greatly facilitates the operation of the user, and the user can adjust the amount of smoke required to meet the demand, and meet different users. And the user can intuitively judge the connection of the smoke oil passage by dialing the position of the block or the rotary handle, so the user experience is better. Since the present invention is designed to rotatably adjust the oil guiding member to communicate with the oil separating member to adjust the amount of smoke, the utilization of the oil is improved.

DRAWINGS

 The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

1 is a schematic structural view of an atomizing device according to a preferred embodiment of the present invention;

Figure 2 is an exploded view of the atomizing device shown in Figure 1;

Figure 3 is a cross-sectional view of the atomizing device of Figure 1;

Figure 4 is an enlarged schematic view showing a portion P of the atomizing device shown in Figure 3;

Figure 5 is a partial cross-sectional view of the atomizing device of Figure 1 when not in operation;

Figure 6 is a partial cross-sectional view of the atomizing device of Figure 1 in an operating state;

Figure 7 is a perspective view of an atomizing device provided by the second preferred embodiment of the present invention;

Figure 8 is a partial exploded view of the atomizing device of Figure 7;

Figure 9 is an exploded view of the atomizing device shown in Figure 7;

Figure 10 is a partial cross-sectional view of the atomizing device of Figure 7 when not in operation;

Figure 11 is a partial cross-sectional view showing the atomizing device of Figure 7 in an operating state;

Figure 12 is an exploded view of the atomizing device provided in the third preferred embodiment of the present invention;

Figure 13 is a partial exploded view of the atomizing device of Figure 12;

Figure 14 is a cross-sectional view of the atomizing device of Figure 12;

Figure 15 is a cross-sectional view taken along the line A-A of the atomizing device shown in Figure 14;

Figure 16 is a partial cross-sectional view showing the atomizing device of Figure 12 in an operating state.

detailed description

In order to overcome the problem of oil leakage caused by the smoke oil passage being always in an open state and the inability to adjust the size of the smoke oil passage, the invention is innovative in that the oil is stored by the rotary adjustment atomizing device. The oil passage on the mechanism and the oil guiding passage on the oil guiding member are electrically connected and non-conducting, thereby opening or closing the smoke oil circulation passage between the oil storage mechanism and the atomizing assembly. The invention has the prior art that the smoky oil passage is completely open and is designed to open or close the smoky oil passage according to the working state, so that the smoke can be prevented during the transportation process and the unused process of the atomizing device. The oil flows out, avoiding the leakage of smoke oil due to the vibration of the smoke oil during transportation or storage. When the atomizing device is in operation, rotating the oil guiding member to a predetermined position, the oil oil passage is connected, and the oil can flow out from the oil oil passage; meanwhile, the oil guiding member and the oil storage mechanism are adjusted by rotating the oil guiding member The relative position between them can change the oil output in the smoke oil passage, thereby adjusting the oil output of the smoke oil. The structure of the atomizing device of the invention enables the electronic cigarette to adjust the amount of oil according to the preference of the user during use, and closes the flow passage of the tobacco oil when not in use, thereby overcoming the prior art electronic The phenomenon of smoke leakage when the smoke is not used and the low utilization rate of the smoke oil.

For a better understanding of the technical features, objects and effects of the present invention, the specific embodiments of the present invention will be further described with reference to the accompanying drawings.

Embodiment 1

As shown in FIG. 1-7, the atomization device provided in one of the preferred embodiments of the present invention can be used to assemble an electronic cigarette with a power supply device. The structure of the power supply device is not described in the prior art. The connection mode of the atomization device and the power supply device of the present invention is a screw connection. It should be understood that the connection relationship between the atomization device and the power supply device of the present invention is not limited thereto, and may be, for example, a magnetic connection, a snap connection or an integral. Structure.

Referring to Figure 1, the atomizing device of the present invention comprises an oil storage mechanism 2, an atomizing assembly 11 and an oil guiding member 20 disposed between the oil storage mechanism 2 and the atomizing assembly 11, and the oil storage mechanism 2 is provided with a storage of the oil. The oil storage cup 14 and the oil supply passage for the smoke oil to be output to the atomizing assembly 11 are provided with an oil guiding passage corresponding to the oil conveying passage. The oil guide 20 is rotatable relative to the oil reservoir 2, so that between the oil passage on the oil guide 20 and the oil passage on the oil reservoir 2 during the rotation of the oil guide 20 a change in relative position, forming a smoke flow passage between the oil storage mechanism 2 and the atomizing assembly 11 when the oil guiding passage is electrically connected to the oil conveying passage, when the oil guiding passage and the oil conveying When the passage is not conducting, the smoke oil passage is closed.

The atomization component 11 is electrically connected to the power supply device to realize atomization of the oil in the oil storage cup 14. The end of the oil storage cup 14 near the atomization assembly 11 is an open end, and the open end cover is provided with a grease trap 16 for oil separation. The material 16 covers the oil outlet end of the oil storage cup 14. In order to facilitate the outflow of the oil, the oil separating member 16 is provided with a circulation hole 161 for the outflow of the oil, and the circulation hole 161 serves as the oil passage. In order to control the flow of the oil, the oil guiding member 20 of the present invention is installed between the oil separating member 16 and the atomizing assembly 11. The oil guiding member 20 is provided with a corresponding passage of the oil guiding passage corresponding to the flow hole 161. The hole 121, the oil guiding member 20 and the oil separating member 16 form a smoke oil circulation passage. The oil storage mechanism 2 is provided with an atomization passage 155. When the conduction hole 121 communicates with the circulation hole 161, the smoke oil is atomized by the atomization assembly 11 to form smoke, and the smoke enters the atomization passage 155 and is finally sucked by the user. .

Referring to FIG. 1-3, the atomizing assembly 11 of the present embodiment is mounted with an oil-storage buffer member 13 near one end of the oil guiding member 20. The smoke oil in the oil-storing cup 14 flows out through the flow hole 161 and the through hole 121. To the smoke oil buffer member 13, the smoke oil transferred from the smoke oil buffer member 13 is heated by the atomizing unit 11 to atomize the liquid smoke. The outer casing of the atomization assembly of the present embodiment is provided with an outer sleeve 110. The oil guiding member 20 includes a mounting seat 15 and a sealing member 12 mounted on a side of the mounting seat 15 facing the oil separating member 16, and the mounting seat 15 is rotatably connected with the oil separating member 16. The fixing member 12 is fixed to one end of the outer sleeve 110, the sealing member 12 is closely attached to the oil separating member 16, and the through hole 121 is defined in the sealing member 12. In order to ensure a good sealing effect, the sealing member 12 of the present embodiment employs a silicone material which is more elastic. In order to prevent leakage of the smoke liquid, one end of the soot buffer member 13 abuts against the atomizing assembly 11, and the other end of the soot oil buffer member 13 abuts against the sealing member 12. The mounting seat 15 of the embodiment is formed to accommodate the smoke oil buffer. The space of piece 13. The oil storage mechanism 2 is also provided with an atomization passage 155 for the mist generated by the atomization assembly 11 to flow, and it is obvious that the atomization passage 155 is not in communication with the oil storage cup 14, and the end of the oil storage mechanism 2 is provided with the atomization passage 155. Connected to the smoke outlet 100.

The oil storage cup 14 in this embodiment is integrally formed with the atomization passage 155 to form the oil storage mechanism 2. For example, the inner cavity of the oil storage mechanism 2 can be divided into the oil storage cup 14 by fixing a partition plate (not shown). And the atomization channel 155, the partition plate can be integrally formed with the inner cavity of the oil storage mechanism 2, and the integrally formed structure can obtain a better sealing effect, and the assembly is simple and does not shift due to the shock impact. The oil-removing member 16 of the present embodiment is disposed substantially in a cylindrical shape at the oil-discharging end of the oil storage mechanism 2, and abuts against the open end of the oil storage cup 14. The oil-repellent member 16 abuts against one end surface of the oil storage cup 14 There is a flow hole 161 for the outflow of the oil, and the first slot 160 is opened at the position of the oil-retaining member 16 at the end of the oil-reserving cup 14 corresponding to the atomizing passage 155. The first slot 160 and the atomizing channel are opened. 155 connected for smoke circulation. Corresponding to the first slot 160, the sidewall of the mounting seat 15 axially defines a second slot 150 for the flow of smoke, the second slot 150 extends through the sidewall of the mounting seat 15, and the inner wall of the mounting seat 15 is formed to receive the a cavity of the smoky oil buffer member 13, the cavity and the second slot 150 being independent of each other to prevent smoke oil in the smoky oil buffer 13 from entering the atomization passage 155 through the second slot 150 Inhaled directly by the user, affecting the taste. A sealing member 12 is fixedly mounted on one end surface of the mounting seat 15 adjacent to the oil separating member 16, and a sealing hole 121 corresponding to the flow hole 161 is defined in the sealing member 12.

The peripheral portion of the outer side wall of the mounting seat 15 protrudes outwardly from the fastening portion 200, and the end surface of the oil separating member 16 is provided with a docking slot for inserting one end of the mounting seat 15, the inner side wall of the docking socket and the mounting seat 15 The contact portion corresponds to the fastening portion 200 to define a limit slot 300, and the fastening portion 200 can rotate circumferentially along the atomization device in the limiting slot 300. The mounting seat 15 fixed on the outer sleeve 110 and the oil separating member disposed on the oil storage cup 14 are axially fixed by the matching between the fastening portion 200 and the limiting groove 300, and at the same time, the fastening portion 200 The sliding between the limiting hole 300 and the limiting hole 300 changes the conduction state between the conduction hole 121 and the flow hole 161, thereby opening or closing the oil passage. A seal 12 is mounted on the mount 15, which can drive the seal 12 to rotate relative to the grease trap 16. In this embodiment, by fixing the fixing hole 120 on the sealing member 12, the protrusion 151 corresponding to the fixing hole 120 is correspondingly protruded on the mounting seat 15 to fix the sealing member 12 on the mounting seat 15. . Figure 2 can be seen. Since the mounting seat 15 of the embodiment has an annular structure, the protrusions 151 are protrudedly distributed on the end surface of the mounting seat 15, and correspondingly, the fixing holes 120 are opened in the circumferential direction of the sealing member 12 near the edge, and the protrusions 151 and the fixing holes are formed. The structure of 120 facilitates both the fixation between adjacent components and facilitates assembly alignment.

The atomizing assembly 11 of the present embodiment is jacketed with an outer sleeve 110. The atomizing assembly 11 includes a first electrode 113, a second electrode 114, and an atomizing base 112 and a heat generating component 111 that are mounted in the outer sleeve 110 for electrically connecting with the positive/negative electrodes of the power supply device, respectively. The first electrode 113 and the second electrode 114 are coaxially nested. The second electrode 114 is sleeved in the first electrode 113, and the insulating member 115 is fixed between the first electrode 113 and the second electrode 114. The pressing between the first electrode 113 and the second electrode 114 respectively achieves mutual fixation between the first electrode 113, the insulating member 115, and the second electrode 114. The atomizing base 112 is fixed in the outer sleeve 110, and the heat generating component 111 is fixed by the atomizing base 112 and connected to the first electrode 113 and the second electrode 114, respectively. The heat generating component 111 includes an oil guiding wire 116 and a heating wire 117 wound around the oil guiding wire 116. The mounting seat 15 houses an oil smoke buffer member respectively abutting the sealing member 12 and the oil guiding wire 116. 13. The smoky oil buffer member 13 is made of a porous material and is used to store the smoky oil transported by the via hole 121 for atomization by the atomizing assembly 11. The smoke oil buffer member 13 of the present embodiment is an oil storage cotton. The smoky oil buffer member 13 is located between the sealing member 12 and the heat generating component 111 to first penetrate the smoky oil buffer member 13 after the smoke oil flows out, and is uniformly distributed on the smoky oil buffer member 13 to prevent the direct flow of the smoky oil to the heat. On the assembly 111, a phenomenon in which the smoke oil is unevenly distributed occurs.

The mounting seat 15 of the embodiment is fixedly connected to the atomizing assembly 11 , and at the same time, the rotation sliding connection between the mounting portion 15 and the limiting groove 300 is achieved, so that the atomization of the embodiment is The device can control the relative movement between the through hole 121 and the flow hole 161 by controlling the rotation between the outer sleeve 110 and the atomizing sleeve 10.

Referring to Figure 3, there is shown a cross-sectional view of the atomizing device of the present invention after assembly. The oil separating member 16 is sleeved at the open end of the oil storage mechanism 2 and partially embedded in the oil storage cup 14, and the first slit 160 is in communication with the atomizing passage 155 and the atomizing passage 155. The mounting seat 15 is engaged with the oil separating member 16, and the sealing member 12 abuts the oil separating member 16. In the case of FIG. 3, the second slot 150 faces the first slot 160 to realize the communication between the atomizing passage 155 and the smoke oil passage. That is, the smog oil reaches the atomizing assembly 11 through the oil separating member 16, the oil guiding member 20, and the smoky oil buffer member 13. After being atomized, the smoke is generated through the second slot 150 and the first slot 160 to reach the atomizing passage 155.

Referring to FIG. 4, it is a schematic diagram of an enlarged structure at P in FIG. The fastening portion 200 of the side wall of the mounting seat 15 is slidably engaged with the oil separating member 16. Since the sealing member 12 abuts against the oil separating member 16, in the state of FIG. 4, the through hole 121 corresponds to the flow hole 161 one-to-one. Overlap, so that the smog flow passage is completely open, and at this time, the second slot 150 coaxially disposed on the side wall of the mount 15 is also aligned with the first slot 160 on the grease damper 16 at this time. The atomization channel 155 is also turned on. Since the sealing member 12 is fixed to the mounting seat 15, conduction between the via hole 121 and the flow hole 161 can be achieved by rotating the mounting seat 15.

As shown in FIG. 5, the through hole 121 on the oil guiding member 20 is completely offset from the flow hole 161 in the oil separating member 16, that is, the oil cannot flow from the oil storage cup 14 into the soot buffer member 13, at this time The position where the oil guiding member 20 is located is defined as the second preset position, and it can be seen that the first slot 160 is blocked by the rotating mounting seat 15, so that the atomizing passage 155 is blocked, so the user can rotate the buckle by one side. The joint portion 200 sucks air from the smoke outlet hole 100 shown in FIG. 3, and when the air is not smoothly sucked from the atomization device, the fastening portion 200 is rotated to the second preset position, and the smoke oil circulation passage is completely closed. . As shown in FIG. 6, in this state, the through hole 121 on the oil guiding member 20 is completely aligned with the flow hole 161 on the oil separating member 16, that is, the oil smoke flows from the oil storage cup 14 through the respective flow holes 161. The through hole 121 finally flows into the soot buffer member 13, and the position at which the oil guiding member 20 is located at this time is defined as a first preset position, and referring to FIG. 3, it can be seen that the first slot 160 is exactly the second position. The slot 150 is conductive, so the atomization channel 155 is in a conducting state. At this time, the user can smoothly inhale from the smoke outlet 100 shown in FIG. 3, so the user can judge whether the fastening portion 200 is in the process of rotating the fastening portion 200 according to whether the air can be smoothly inhaled from the smoke outlet 100. Rotating to the first preset position, the cigarette oil circulation passage is completely turned on.

In addition, when the fastening portion 200 is in the position state between the first preset position and the second preset position, in order to avoid that the first slot 160 and the second slot 150 are completely non-conductive, the through hole 121 is formed. In the case where the flow hole 161 is partially turned on, that is, the case where the smoke oil penetrates into the smoke oil buffer member 13 without smoking, the flow hole 161 of the present embodiment is opened at a position deviated from the center of the atomizing sleeve 10, and each The trajectory of the flow hole 161 during the rotation is concentric, that is, the rotation trajectory of each flow hole 161 does not intersect, that is, the conduction hole 121 corresponding to the flow hole 161 has a one-to-one correspondence with the flow hole 161. The relationship, and each of the flow holes 161 can always be aligned with only the single via hole 121. During the process of rotating the fastening portion 200, once the air is vented from the smoke outlet 100, it is proved that at least the corresponding flow hole 161 and the conductive hole 121 are partially aligned, and the rotation continues. If the air flow rate is increased, the proof is obtained. The fastening portion 200 rotates toward the first preset position. If the airflow is weakened, it is proved that the fastening portion 200 is rotating toward the second preset position, thereby controlling the opening and closing of the smoke oil circulation passage, and also It is convenient for users to set the appropriate amount of smoke oil.

As can be seen from FIG. 1 , the atomization device of the present embodiment has a split-type connection structure in which the oil storage mechanism 2 , the oil guiding member 20 and the atomizing assembly 11 are mutually engaged, so that it is easy to disassemble and can be The oil refilling is performed on the inside of the oil storage cup 14 by disassembling the atomizing device. For example, the oil separating member 16 of the present embodiment is fitted to the open end of the oil storage mechanism 2, and the oil separating member 16 and the oil guiding member 20 are passed. The engagement limit between the fastening portion 200 and the limiting slot is fixed, so that the atomizing assembly 11 can be pulled away from the oil storage mechanism to disengage the oil separating member 16 from the oil storage mechanism 2, thereby storing Smoke oil is added to the oil cup 14. Therefore, the atomization assembly of the embodiment can not only improve the utilization rate of the smoke oil and prevent the leakage of the smoke oil, but also facilitate the disassembly and disassembly and have the characteristics of repeatable addition of the smoke oil.

It should be understood that the arrangement of the flow holes 161 of the atomizing device of the present invention is not limited to the above description, and may be provided only at any position deviating from the center of the atomizing sleeve 10, in order to avoid the occurrence of the first slot 160 and the second slot. 150 is completely non-conductive, and the conduction hole 121 and the flow hole 161 are partially turned on, that is, the case where the smoke oil penetrates into the smoke oil buffer 13 without smoking, and the overall length of the limit groove 300 can be defined. To control.

Embodiment 2

Referring to Figures 7-11, a second preferred embodiment of the present invention differs from the first embodiment in that the specific structure of the oil guiding member 20 and the oil separating member 16 of the present embodiment is slightly different. Similar to the first embodiment, the present embodiment also controls the flow passage of the smoke oil through the rotation between the oil guiding member 20 and the oil separating member 16 to adjust the position between the through hole 121 and the flow hole 161.

As shown in FIG. 7, the atomizing device of the present embodiment includes an atomizing sleeve 10 that is sleeved on the atomizing assembly 11 and the oil storage mechanism 2, as compared with the first embodiment. With reference to FIG. 9, the atomizing assembly 11 of the present embodiment includes a first electrode 113, an insulating member 115, a second electrode 114, and an atomizing seat 112 and a heat generating component 111 installed in the first electrode 113. The oil storage mechanism 2 of the embodiment includes an oil storage cup 14 and an oil separating member 16 disposed at the open end of the oil storage cup 14. It should be understood that the oil storage cup 14 can be directly formed in the atomizing sleeve 10, that is, the oil storage cup 14 and the mist. The sleeve 10 is integrally formed, and may also be a separate structure nested within the atomizing sleeve 10. Similar to the structure of the first embodiment, the oil storage mechanism 2 of the present embodiment is further provided with an atomization passage (not shown) that is not electrically connected to the oil storage cup 14. The one end of the oil storage mechanism 2 defines a smoke hole 100. The atomization passage extends to one end of the smoke outlet 100 to communicate with the outside air. Referring to FIG. 10, in this embodiment, the atomizing sleeve 10 can be integrally formed with the oil storage cup 14 and the atomizing passage, that is, the oil storage cup 14 and the atomizing passage are formed in the atomizing sleeve 10, and FIG. 9 The smoke outlet 100 is shown directly at one end of the atomizing sleeve 10. The atomization passage of the embodiment is always kept in communication, and only the smoke oil circulation passage changes during the rotation of the oil guide member 20.

Specifically, referring to FIG. 9, the oil guiding member 20 of the present embodiment includes a mounting seat 15 and a sealing member 12, and the mounting seat 15 and the oil separating member 16 are each recessed inwardly toward one side of the sealing member 12 to form a receiving seal 12. In the accommodating space, one side of the sealing member 12 abuts against the other side of the oil separating member 16 and abuts against the mounting seat 15. The mounting seat 15 has an annular shape, and the sealing member 12 can rotate relative to the oil separating member 16. The oil separating member 16 is provided with a circulation hole 161, and the sealing member 12 A through hole 121 is defined in the upper portion. The smoky oil flows into the smoky oil buffer member 13 through the annular hole 161 and the through hole 121 through the annular mounting seat 15. The shapes of the smoky oil buffer member 13, the mounting seat 15 and the oil separating member 16 in this embodiment are both The cross-sectional shape of the oil reservoir cup 14 is adapted to be placed within the oil reservoir cup 14 and adjacent to the oil discharge end of the oil reservoir cup 14. The sealing member 12 protrudes away from the center of the shaft in a radial direction with a dial 210. The atomizing sleeve 10 defines a second sliding slot 201 extending radially from the second sliding slot 201. The side wall of the mounting seat 15 corresponds to the dial block 210 to form a first notch 300a. The dial block 210 can drive the sealing member 12 to slide along the first notch 300a, and the side of the oil separating member 16 corresponds to the dialing. The block 210 is provided with a second notch 300b, and the second notch 300b and the first notch 300a together form a first chute for sliding the dial 210. The structure in which the sealing member 12 is interposed between the mounting seat 15 and the oil separating member 16 and formed by the second notch 300b and the first notch 300a to slide the first chute for sliding the dial 210 has the convenience of assembly and facilitates alignment. effect.

It should be understood that the sealing member 12 of the present invention may also be embedded in the mounting seat 15 or the oil separating member 16, and the sealing member 12 may be received by any one of the mounting seat 15 and the oil separating member 16 and opened at the side wall corresponding to the dial block 210. The first notch 300a or the second notch 300b is extended by the dial 210, and the first chute is formed only by the first notch 300a or the second notch 300b, it should be understood that the sealing member 12 is embedded in the mounting seat. 15 or in the oil separating member 16, the sealing member 12 always abuts against the oil separating member 16 to ensure a close fit between the through hole 161 and the through hole 121 to avoid a gap between the sealing member 12 and the oil separating member 16 Causes oil leakage. Referring to FIG. 7, the oil separating member 16 and the oil guiding member 20 of the embodiment are installed at the oil discharging end of the oil storage cup 14, and the dial block 210 is partially extended from the inner portion of the atomizing sleeve 10, so that the wall of the atomizing sleeve 10 is opened. A second chute 201 extending from the dial 210 corresponds to the first chute. When the atomizing device is used, the user can slide the dial block 210 in the second chute 201 along the circumferential direction of the atomizing device to control the opening and closing of the soot flow passage.

Referring to FIG. 8 , the sealing member 12 of the present embodiment has a substantially circular shape, and a side portion of the sealing member 12 protrudes away from the center of the shaft in a radial direction, and a through hole 121 is defined in the axial direction of the sealing member 12 . The number of the through holes 121 is three, and the flow hole 16 defines a flow hole 161 corresponding to the through hole 121. In order to ensure that the sealing member 12 is rotated about the central axis, the conduction hole 121 and the flow hole 161 can be The misalignment is generated, and the via hole 121 in this embodiment is opened at any position deviated from the center of the axis.

In addition, in order to intuitively control the flow of the smoke oil, when the flow hole 161 and the through hole 121 in this embodiment are all aligned, the smoke oil circulation passage is completely opened, and the flow rate of the smoke oil is maximum at this time, and the position corresponding to the dial block 210 is defined as the first position. When the flow hole 161 and the through hole 121 are completely staggered, the smoke oil circulation passage is completely closed, and the smoke oil cannot penetrate downward to the smoke oil buffer member 13. At this time, the corresponding position of the dial block 210 is defined as the second position. Preset location. In order to facilitate the user's intuitive understanding of the flow rate of the smoke oil, the present invention can also set a mark on the tube of the atomization sleeve 10 corresponding to the first preset position and/or the second preset position, for example, in the embodiment, when dialing When the 210 is located at the middle of the second chute 201, the three flow holes 161 and the through hole 121 are exactly aligned, and the flow rate of the soot oil is the largest, so that the second side of the outer sleeve of the atomizing sleeve 10 can be correspondingly An indicator indicating the first preset position is disposed at a position of the middle of the slot 201, and the flow rate of the smoke oil is decreased when the dial block 210 is slid from either side of the second chute 201 in the middle of the second chute 201, and the second slip is set. The two ends of the slot 201 are at the second preset position, and an identifier indicating the second preset position is disposed on the atomizer sleeve 10 at a position corresponding to both ends of the second sliding slot 201. The method of setting the identifier corresponding to the first preset position and/or the second preset position may be pasting, characterization, printing, and the like.

As shown in FIG. 10, when the dial block 210 is pushed to the case shown in FIG. 10, the through hole 121 on the sealing member 12 and the flow hole 161 on the oil separating member 16 are completely staggered, that is, the smoke oil cannot be removed from the oil storage cup. 14 flows into the smoke oil buffer member 13, and the position at which the oil guiding member 20 is located at this time is defined as the second preset position, and the smoke oil circulation passage is completely closed.

As shown in FIG. 11, in this state, the through hole 121 in the sealing member 12 is completely aligned with the flow hole 161 in the oil separating member 16, that is, the oil smoke flows from the oil storage cup 14 through the respective flow holes 161, The through hole 121 finally flows into the soot buffer member 13, and the smoke oil circulation passage is completely turned on, and the position at which the oil guiding member 20 is located at this time is defined as the first preset position.

With the atomization device of the embodiment, the user can control the flow passage of the smoke oil by pushing the dial 210 when controlling the circulation of the smoke oil, and the operation is more intuitive, and the above indication is set on the atomization sleeve 10 The preset position and the identifier of the second preset position help the user to intuitively judge the conduction state of the current smoke oil circulation passage, and the operation is simpler and the use is more convenient.

Embodiment 3

Referring to Figures 13-16, a third embodiment of the present invention. Compared with the second embodiment, the difference in this embodiment is that the direction of rotation between the oil guiding member 20 and the oil separating member 16 is different. In this embodiment, the oil guiding member 20 is rotated along its own radial direction to realize the smoke. The oil circulation channel is turned on or off.

The same as the second embodiment, as shown in Figure 15. As shown, the oil separating member 16 of the present embodiment is mounted on the oil discharge end of the oil storage cup 14 and has a shape corresponding to the cross-sectional shape of the oil storage cup 14. The oil storage mechanism 2 and the atomizing sleeve 10 of the present embodiment are shown. The structure is similar to that of the second embodiment, and will not be described herein. Similar to the second embodiment, the atomizing assembly 11 of the present embodiment includes a first electrode 113, an insulating member 115, a second electrode 114, and an atomizing seat 112 and a heat generating component 111 installed in the first electrode 113. The atomizing assembly 11 is directly sleeved on the open end of the atomizing sleeve 10, and the atomizing passage 155 is always kept in communication. During the rotation of the oil guiding member 20, only the smoke oil circulation passage changes.

Specifically, referring to FIG. 13, the oil repellency member 16 of the present embodiment includes a mounting hole 162 extending radially along the oil damper member 16 for accommodating the oil guiding member 20, and the axial direction of the oil separating member 16 is opened. The flow hole 161 through which the smoke oil flows is disposed, and the mounting hole 162 and the flow hole 161 penetrate each other. The flow hole 161 of the embodiment includes a plurality of holes 161 respectively extending in the axial direction of the oil damper 16 and penetrating the oil damper 16 , and the mounting hole 162 is along the oil damper 16 The oil separating member 16 is opened and penetrated, and the mounting hole 162 communicates with the flow hole 161. The oil-removing member 16 of the present embodiment is used for fixing the oil-conducting member 20 in addition to the oil-dissipating member. Therefore, the oil guiding member 20 in the embodiment does not need to be provided with the mounting seat 15 as shown in FIG. The oil guiding member 20 includes a sealing member 12 and a rotating handle 122 sleeved on one end of the sealing member 12 for driving the rotation of the sealing member 12. The sealing member 12 is radially provided with a through hole 121 corresponding to the through hole 161, and is sealed. After being inserted into the mount 15, the member 12 is rotatable in its own radial direction.

It should be understood that the seal 12 of the present invention and the rotating handle 122 may also be integrally formed, that is, the oil guiding member 20 of the present invention may include only the sealing member 12. The sealing member 12 of the present embodiment includes a conducting portion 123 and an operating portion 124. The conducting portion 123 is received in the mounting hole 162. After the sealing member 12 penetrates the oil separating member 16 in the radial direction of the oil separating member 16, the guide member 12 is guided. The through portion 123 is received in the mounting hole 162 , and the operating portion 124 extends from the mounting hole 162 and partially protrudes from the atomizing sleeve 10 . The operating portion 124 is sleeved with a rotating handle 122 that can rotate the sealing member 12 . The conducting portion 123 is radially provided with a through hole 121, and the rotating handle 122 is rotated by a predetermined angle, so that the through hole 121 communicates with the through hole 161. The preset angle is determined by the rotating handle 122. Instructions. The flow hole 161 of the present application is opened in the axial direction of the atomizing device, and the through direction of the through hole 121 also rotates during the rotation of the sealing member 12, so the rotating handle 122 of the present embodiment is always provided with the through hole. The through directions of 121 are parallel, so the preset angle of the present application can be collectively indicated by the rotating handle 122 and the axis of the atomizing device of the present application.

Referring to FIG. 14 , the first end 12 a of the atomizing sleeve 10 corresponding to the mounting hole 162 defines a through hole 125 communicating with the mounting hole 162 , and the operating portion 124 protrudes outward from the through hole 125 . The diameter of the conduction portion 123 near the first end 12a is larger than the diameter of the through hole 125, so that the seal 12 does not escape from the atomization sleeve 10 through the through hole 125 during the rotation of the sealing member 12. In Figure 14 In the case where the sealing member 12 is rotated, the through hole 121 is directed to the radial direction of the atomizing device, so that the sealing member 12 completely blocks the flow hole 161, whereby the smoke oil cannot flow into the soot buffer member 13, and the smoke oil flows. The passage is closed, and the position of the seal 12 indicated by the rotary handle 122 at this time is defined as the second predetermined position. As can be seen from Figure 15, the rotating handle 122 at this time is substantially parallel to the axis of the illustrated atomizing device.

Referring to Fig. 16, in this state, the through hole 121 in the sealing member 12 is completely aligned with the flow hole 161 in the oil separating member 16, that is, the oil smoke flows from the oil storage cup 14 through the respective flow holes 161, and is turned on. The hole 121 finally flows into the smoke oil buffer member 13, and the smoke oil circulation passage is completely turned on, and the position at which the oil guiding member 20 is located at this time is defined as the first preset position. As can be seen from Figure 16, the rotating handle 122 at this time is substantially perpendicular to the axis of the illustrated atomizing device.

15-17, it can be seen that the direction indicated by the rotary handle 122 can determine the current switching condition of the smoke oil circulation passage, and the rotation handle 122 of the embodiment is set to rotate 90 degrees to realize the flow passage of the smoke oil from fully open to complete. The switching of the closing, that is, the rotating handle 122 drives the seal 12 to rotate from the first predetermined position to the second predetermined position. It should be understood that the set rotation angle is not limited to 90 degrees, and the rotation angle is determined by the relative position between the through hole 162 and the flow hole 121, and thus may be other angles.

In addition, the present invention also provides an electronic cigarette comprising an atomizing device and a power supply device for supplying power to the atomizing device, the atomizing device having the same technical features as the atomizing device provided by the present invention, and Make a statement.

Further, the present invention also provides a method for regulating the smoke of an electronic cigarette for use in an electronic cigarette, the electronic cigarette comprising an atomizing device and a power supply device, the atomizing device having the same atomization device as the embodiment The technical features are not described herein. The method includes the following steps:

a. Connect the steps: The atomizing device is connected to the power supply device and electrically connected to each other. After the atomization device is connected to the power supply device, the first electrode 113 and the second electrode 114 are electrically connected to the positive/negative electrodes of the power supply device, respectively, and the power supply device supplies power to the atomization device. The connection mode of the power supply device and the atomization device of this embodiment may be, but not limited to, a screw connection.

b. Adjustment step: rotating the oil guiding member 20 mounted on the oil storage cup 14 of the atomizing sleeve 10, and adjusting the relative relationship between the oil guiding member 20 and the oil separating member 16 rotatably connected to the oil guiding member 20 position. The oil guiding member 20 is closely attached to the oil separating member 16 , and the oil separating member 16 defines a flow hole 161 . The oil guiding member 20 defines a conductive hole 121 corresponding to the flow hole 161 , thereby rotating the oil guiding member 20 and the oil separating member. The relative position between the members 16 can affect the conduction between the flow holes 161 and the through holes 121 to control the flow of the oil.

c. oil supply step: when the atomizing device is in operation, rotating the oil guiding member 20 to the first predetermined position to circulate the oil between the oil guiding member 20 and the oil separating member 16 The passage is turned on, the smoke oil is led out from the smoke oil circulation passage, and the atomization assembly 11 atomizes the smoke oil; when the atomization device stops working, the oil guide member 20 is rotated to the second pre-step When the position is set, the smoke oil circulation passage is closed to stop the oil supply to the atomizing assembly 11.

In summary, the present invention provides an oil guiding member 20 that is rotatable relative to the oil storage mechanism 2 between the oil storage mechanism 2 of the atomizing device and the atomizing assembly 11, by rotating the oil guiding member 20 and storing The relative position between the oil mechanisms 2 is such that the conduction holes 121 and the flow holes 161 are electrically connected or not, and the smoke oil circulation passage between the oil storage mechanism 2 and the atomization assembly 11 is opened or closed while passing through The rotation amplitude of the oil guiding member is controlled so that the oil oil passage can be further controlled according to the position of the rotating oil passage; and the oil guiding member 20 can be prevented when the oil guiding member 20 is in the second preset position position described above. The smoke oil flows out to avoid oil leakage. Therefore, the atomization device provided by the invention not only overcomes the defect that the smoke oil passage is always in an open state in the prior art, and the taste of the smoke is deteriorated, and the structure designed by the invention can effectively improve the smoke oil. The utilization rate also prevents oil leakage.

The embodiments of the present invention have been described above with reference to the drawings, but the present invention is not limited to the specific embodiments described above, and the specific embodiments described above are merely illustrative and not restrictive, and those skilled in the art In the light of the present invention, many forms may be made without departing from the spirit and scope of the invention as claimed.

Claims (19)

1. An atomizing device for forming an electronic cigarette in combination with a power supply device, the atomizing device comprising an oil storage mechanism (2) and an atomizing assembly (11), the oil storage mechanism (2) being provided for The oil in the oil storage mechanism (2) is output to the oil passage of the atomizing assembly (11), characterized in that between the oil storage mechanism (2) and the atomizing assembly (11) An oil guiding member (20) rotatable relative to the oil storage mechanism (2), the oil guiding member (20) being provided with an oil guiding passage corresponding to the position of the oil conveying passage, by rotating the oil guiding oil The member (20) adjusts a relative position between the oil guiding member (20) and the oil storage mechanism (2) to make conduction or non-conduction between the oil delivery passage and the oil guiding passage, and The tobacco oil circulation passage between the oil storage mechanism (2) and the atomizing assembly (11) is opened or closed.
2. The atomizing device according to claim 1, wherein the oil storage mechanism (2) comprises an oil storage cup (14) and a grease trap (16) disposed at an open end of the oil storage cup (14) a flow hole (161) as the oil passage is opened in the oil-dissipating member (16), and the oil-conducting member (20) is opened corresponding to the flow hole (161) as the oil guiding passage Via (121);

   When the atomizing device is in operation, by rotating the oil guiding member (20) to a first preset position, the through hole (121) and the flow hole (161) form the smoke oil circulation passage, The smoke oil circulation passage is configured to guide the smoke oil; when the oil guide member (20) is rotated to a second preset position, the through hole (121) and the flow hole (161) are mutually exchanged Staggering closes the soot flow passage.
3. The atomizing device according to claim 2, wherein the atomizing device further comprises an outer sleeve (110) sleeved on the atomizing assembly (11), the oil guiding member (20) comprising a mounting seat (15) rotatably coupled to the oil separating member (16) and fixed to one end of the outer sleeve (110) and mounted on a side of the mounting seat (15) facing the oil separating member (16) The sealing member (12) defines the through hole (121) on the sealing member (12).
4. The atomizing device according to claim 3, wherein the mounting seat (15) protrudes away from the center of the shaft with a fastening portion (200), and the end surface of the oil separating member (16) is provided with a supply point A docking slot is inserted into one end of the mounting socket (15), and a circumferential slot on the circumferential side wall of the docking slot is defined with a limiting slot (300) adapted to the fastening portion (200). The portion (200) is rotatable within the limit slot (300).
5. The atomizing device according to claim 4, wherein the atomizing assembly (11) comprises an oil guiding rope (116) and an electric heating wire (117) wound around the oil guiding rope (116); The mounting seat (15) houses an oil sump buffer (13) respectively abutting the sealing member (12) and the oil guiding rope (116), and the smoky oil buffer member (13) is made of a porous material. The smoke oil is prepared and used for storing the conductive holes (121) for heat atomization of the heating wire (117).
6. The atomizing device according to claim 5, wherein the sealing member (12) is further provided with a fixing hole (120), and the mounting seat (15) protrudes from the fixing hole (120) Fitted protrusions (151).
7. The atomizing device according to claim 2, wherein the atomizing device further comprises an atomizing sleeve (10) sleeved on the atomizing assembly (11) and the oil storage mechanism (2) The oil guiding member (20) includes a mounting seat (15) that abuts the oil separating member (16) and forms an accommodation space, and is mounted in the receiving space to be opposite to the oil separating member (16). a rotating seal (12), the through hole (121) being opened in the seal (12).
8. The atomizing device according to claim 7, wherein the atomizing sleeve (10) is provided with a radially extending second sliding groove (201), and the sealing member (12) is provided to extend to the a dial (210) outside the second chute (201), the mounting seat (15) corresponding to the dial block (210) forming a first notch (300a) corresponding to the punching position, the dial block (210) can drive the sealing member (12) to rotate along the first notch (300a).
9. The atomizing device according to claim 8, wherein the oil separating member (16) is provided with a second notch (300b) corresponding to the dial block (210), and the second notch (300b) is The first notches (300a) collectively form a first chute for rotation of the dial block (210).
10. The atomizing device according to claim 2, wherein the atomizing device further comprises an atomizing sleeve (10) sleeved on the atomizing assembly (11) and the oil storage mechanism (2) The oil separating member (16) includes a mounting hole (162) radially disposed along the oil separating member (16) for accommodating the oil guiding member (20), the mounting hole (162) and the circulation The holes (161) are mutually penetrated, and the oil guiding member (20) is radially opened with the through holes (121), and the oil guiding member (20) is rotatable relative to the oil separating member (16).
11. The atomizing device according to claim 10, wherein the flow hole (161) comprises a plurality, each of the flow holes (161) being respectively opened in the axial direction of the oil separating member (16) and Through the oil separating member (16); the mounting hole (162) is opened radially along the oil separating member (16) and penetrates the oil separating member (16).
12. The atomizing device according to claim 11, wherein the oil guiding member (20) comprises a sealing member (12) and is sleeved at one end of the sealing member (12) for driving the sealing member (12). ) Rotating handle (122).
13. The atomizing device according to claim 12, wherein the atomizing sleeve (10) is open to the first end (12a) of the mounting hole (162) and is connected to the mounting hole (162). The through hole (125), the sealing member includes a conducting portion (123) and an operating portion (124), the conducting portion (123) being received in the mounting hole (162), the operating portion (124) ) extending outward from the through hole (125).
14. The atomizing device according to claim 13, wherein one end of the operating portion (124) is sleeved with the rotating handle (122), and the rotating handle (122) is used to drive the sealing member (12) Rotating relative to the atomizing assembly (11).
15. The atomizing device according to claim 14, wherein the conducting portion (123) is radially open with the through hole (121), and the rotating handle (122) is rotated by a predetermined angle to The first preset position causes the via hole (121) to communicate with the flow hole (161), and the preset angle is indicated by the rotating handle (122).
16. The atomizing device according to claim 15, wherein a diameter of the conducting portion (123) adjacent to the first end (12a) is larger than a diameter of the through hole (125).
17. The atomization device according to claim 2, wherein the oil storage mechanism (2) is provided with an atomization passage (155) for circulating smoke formed by atomization of the smoke oil, the oil storage mechanism ( 2) One end is provided with a smoke outlet hole (100), and the smoke outlet hole (100) is in communication with the atomization passage (155).
18. An electronic cigarette comprising an atomizing device and a power supply device for supplying power to the atomizing device, wherein the atomizing device is the atomizing device according to claim 1.
19. An electronic cigarette smoke oil adjusting method, the electronic cigarette comprising an atomizing device and a power source device, comprising the following steps:

    a. the step of turning on: connecting the atomizing device and the power source device, and electrically connecting each other;

    b. adjusting step: rotating the oil guiding member (20) installed in the atomizing device, adjusting the oil guiding member (20) and the oil storage mechanism (2) rotatably connected to the oil guiding member (20) relative position;

    c. oil supply step: the oil guiding member (20) is rotated to a first preset position, so that the oil flow passage between the oil guiding member (20) and the oil storage mechanism (2) is turned on, The smoke oil is led out from the smoke oil circulation passage, and the atomization assembly (11) atomizes the smoke oil.

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