WO2015062041A1 - Cigarette électronique et procédé d'identification d'un pulvériseur pour la tige de batterie de la cigarette électronique - Google Patents

Cigarette électronique et procédé d'identification d'un pulvériseur pour la tige de batterie de la cigarette électronique Download PDF

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Publication number
WO2015062041A1
WO2015062041A1 PCT/CN2013/086352 CN2013086352W WO2015062041A1 WO 2015062041 A1 WO2015062041 A1 WO 2015062041A1 CN 2013086352 W CN2013086352 W CN 2013086352W WO 2015062041 A1 WO2015062041 A1 WO 2015062041A1
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WO
WIPO (PCT)
Prior art keywords
electrode
atomizer
electronic cigarette
hole
connecting member
Prior art date
Application number
PCT/CN2013/086352
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English (en)
Chinese (zh)
Inventor
刘秋明
Original Assignee
吉瑞高新科技股份有限公司
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Filing date
Publication date
Application filed by 吉瑞高新科技股份有限公司 filed Critical 吉瑞高新科技股份有限公司
Priority to CN201380080665.1A priority Critical patent/CN105682486B/zh
Priority to PCT/CN2013/086352 priority patent/WO2015062041A1/fr
Publication of WO2015062041A1 publication Critical patent/WO2015062041A1/fr

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors

Definitions

  • the invention relates to the field of daily electronic products, in particular to a method for identifying a atomizer of a battery rod of an electronic cigarette and an electronic cigarette.
  • Electronic cigarettes are mainly used to quit smoking and replace cigarettes.
  • Electronic cigarettes currently on the market include battery rods and atomizers.
  • the battery rod includes a battery and a control module, and the control module integrates a structure such as an air flow sensor and a control circuit.
  • the control module controls the battery assembly to power the atomizing assembly within the nebulizer, thereby driving the nebulizer assembly to operate to generate smoke.
  • any combination of the atomizer and the battery rod in the prior art can be used, which is easy to cause defects such as different driving power provided by the battery rod, which causes the odor of the atomizer smoke or the amount of smoke is small.
  • the difference in the value of the heating wire in the atomizer easily causes the control module to perform overcurrent protection without smoke generation or the like.
  • any combination between the existing battery rod and the atomizer can be used, which easily causes the mixing of different flavors of tobacco and the mixing between the battery rods and the atomizers of different manufacturers, thereby causing a bad user experience and hindering. User awareness of manufacturers and brands.
  • the technical problem to be solved by the present invention is to provide a method for identifying an atomizer of an electronic cigarette and an electronic cigarette that can recognize each other between the atomizer and the battery rod in view of the defects in the prior art.
  • An electronic cigarette comprising a battery rod and an atomizer, a connection structure of the battery rod and the atomizer being provided for connecting the battery rod and the atomizer, the connection structure comprising a first connecting member and a second connecting member, the first connecting member is a lock structure provided with a key hole, the second connecting member is a key structure provided with an unlocking portion, the unlocking portion is adapted to the key hole; and the electronic component is assembled
  • the unlocking portion of the second connecting member is inserted into the key hole of the first connecting member and rotates the second connecting member to a preset angle to make the atomizer and the battery rod Electrical connection is made between.
  • the first connecting member includes a first electrode, a first insulator and a second electrode connected in sequence from the inner side to the outer side, wherein the first electrode and the second electrode are respectively used for electrically connecting the two electrodes of the battery in the battery rod.
  • the first electrode and the first insulator are rotatably movable connections, and the first electrode is provided with the key hole;
  • the first electrode is disconnected from the electrode of the battery; the unlocking portion is inserted into the keyhole and the first electrode is rotated to the pre- After the angle is set, the electrode of the battery is electrically connected to the first electrode, and is electrically connected to the atomizer through the unlocking portion.
  • the first connecting member further includes an elastic component inserted in the first electrode and the first insulator and extending into the key hole;
  • the elastic component connects the first electrode and the first insulator to prevent relative rotation of the first electrode and the first insulator when the unlocking portion is not inserted into the keyhole; the unlocking portion is inserted After the keyhole, the unlocking portion abuts the elastic component to cause the elastic component to release the connection between the first electrode and the first insulator.
  • the first electrode has a cylindrical shape, the key hole is opened along an axial direction of the first electrode, and the first electrode is further provided with at least one for insertion in a radial direction. a first through hole of the elastic component, wherein the first through hole is in communication with the key hole;
  • a protrusion extending along an axial direction of the first electrode is further protruded from a side wall of the key hole.
  • the elastic component extending through the first through hole extends to the Inside the keyhole and abutting the protrusion.
  • the side surface of the unlocking portion is provided with a guiding groove adapted to the protrusion and penetrating the side surface, and the side surface is adjacent or opposite to the other side. Pushing the topping mechanism of the elastic component;
  • the guide groove is aligned with the protrusion when the unlocking portion is inserted into the key hole, and the ejector mechanism pushes the elastic member toward the direction away from the protrusion.
  • the ejector mechanism is a gullet provided on at least one of the other side of the unlocking portion and adjacent to the side surface.
  • the ejector mechanism is at least one circular groove provided on the other side of the unlocking portion opposite to the side surface.
  • a second through hole communicating with each of the first through holes is defined in a circumferential outer side wall of the first insulator, and the elastic component is mounted on the first through hole and the second through hole communicating with each other Inside.
  • the elastic assembly includes a return spring abutting the first spring and the second marble; one end of the return spring installed in the second through hole elastically abuts against a circumferential inner side wall of the second electrode The other end of the return spring abuts the first marble;
  • the first pin portion mounted in the second through hole is inserted into the first through hole to restrict the rotation of the first electrode, and is mounted A second marble that is in the first through hole and has one end abutting the first marble abuts against the protrusion.
  • one end of the second marble that is in contact with the protrusion has a topping slope.
  • the unlocking portion is inserted into the key hole, the ejector mechanism on the unlocking portion pushes the slanting inclined surface, and the second marble pushes a portion of the initial state into the first through hole
  • the first pin is pressed back to the second through hole to release the rotation restriction of the first pin to the first electrode, and the end of the second pin that abuts the first pin is still located at the first Inside a through hole.
  • the first connecting member further includes a third marble that restricts a rotation angle of the first electrode, the third marble is fixedly mounted in the blind hole of the first insulator and at least partially protrudes from the first insulator The outer surface;
  • An arcuate groove is defined in a circumferential outer side wall of the first electrode, and a portion of the third pin extending from the blind hole is inserted into the arcuate groove.
  • a connecting electrode is fixedly connected to an end surface of the first connecting member of the first connecting member, and the connecting portion is fixed to the end of the second connecting member, and the second connecting member is rotated after the unlocking portion is inserted into the key hole.
  • the member drives the first electrode to rotate, and the connecting electrode is rotated to abut an electrical connection with a contact electrode electrically connected to the battery.
  • the contact electrode is mounted on a latching portion of the third insulator that is fastened to one end of the second electrode such that the contact electrode is electrically isolated from the second electrode.
  • the second electrode includes a body, and a connecting portion extending from a side edge of the end surface of the body toward a side away from the body;
  • the connecting portion is provided with a card slot adapted to the latching portion and holding and fixing the third insulator, and the third insulator is fixed to the connecting portion by the latching portion.
  • the second connecting member includes a third electrode fixedly connected to the unlocking portion, and a second insulator and a fourth electrode sequentially disposed outside the third electrode;
  • the third electrode of the second connecting member is electrically connected to the first electrode through the unlocking portion, and the fourth electrode is abutted with the second electrode to form an electrical connection.
  • the invention also provides a method for identifying a atomizer of a battery rod of an electronic cigarette, the method comprising the following steps:
  • the atomizer is connected to the battery rod, and if the atomizer is connected to the battery rod and can be rotated relative to a preset angle, the atomizer and the battery rod are realized. Electrical connection means that the atomizer and the battery rod match each other, otherwise, it does not match.
  • the step S1 is specifically:
  • a first connecting member and a second connecting member are disposed at a connection between the battery rod and the atomizer, and the first connecting member and the second connecting member are respectively provided with the key structure and the lock structure.
  • the step S2 is specifically:
  • the method for identifying the atomizer by using the battery rod of the electronic cigarette and the electronic cigarette of the present invention has the following beneficial effects: by using the battery rod
  • the end for connecting with the atomizer is provided as a keyhole lock structure or a key structure provided with an unlocking portion, so that the structural cooperation relationship between the atomizer and the battery rod has a one-to-one correspondence, only the battery rod
  • the atomizer can be used in combination with the atomizer, that is, the atomizer and the battery rod can be connected and rotated to a preset angle, so that the atomizer and the battery rod can be electrically connected, thereby playing a role of identification. Prevent other counterfeit products from being inserted into the use, avoiding potential safety hazards, abnormal smoke levels and mixed use of different flavors of tobacco and oil, improving the user experience and facilitating users' perception and recognition of manufacturers and brands.
  • FIG. 1 is an exploded view of a first connecting member and a second connecting member provided by one of the preferred embodiments of the present invention
  • FIG. 2 is a schematic structural view of the first connecting member and the second connecting member of the electronic cigarette shown in FIG. 1;
  • FIG. 3 is a schematic structural view of a first electrode of the electronic cigarette shown in FIG. 1;
  • FIG. 4 is a schematic structural view of a first insulator of the electronic cigarette shown in FIG. 1;
  • Figure 5 is a schematic structural view of the elastic component and the third marble of the electronic cigarette shown in Figure 1;
  • FIG. 6 is a schematic structural view of a third electrode of the electronic cigarette shown in FIG. 1;
  • FIG. 7 is a schematic structural view of the battery rod and the atomizer of the electronic cigarette shown in FIG. 1 when the battery is disconnected;
  • FIG. 8 is a schematic structural view of a second electrode of the electronic cigarette shown in FIG. 1;
  • connection electrode 9 is a schematic structural view showing the relative positional relationship between the connection electrode and the contact electrode after the electronic cigarette unlocking portion shown in FIG. 1 is inserted into the keyhole;
  • Figure 10 is Figure 1 a structural schematic diagram showing the relative positional relationship between the connecting electrode and the contact electrode after the electronic cigarette rotates the first electrode to a preset angle;
  • FIG. 11 is a schematic structural view of a third electrode of an electronic cigarette according to a second embodiment of the present invention.
  • the atomizer and the battery rod can be used interchangeably, the atomizer and the battery rod are easily counterfeited, and the user cannot recognize the shortcoming.
  • the present invention uses the electronic cigarette to connect with the atomizer.
  • One end is provided as a lock structure with a key hole or a key structure provided with an unlocking portion, so that the structural cooperation relationship between the atomizer and the battery rod has a one-to-one correspondence relationship, and whether the identification is matched by the above connection structure, only
  • the atomizer can be used with the battery rod to prevent other counterfeit products from being inserted.
  • an electronic cigarette includes a battery rod and an atomizer, and a connection between the battery rod and the atomizer is provided for connecting the battery rod and the atomizer.
  • a connecting structure comprising a first connecting member and a second connecting member (in combination 7)), the first connecting member is a lock structure provided with a key hole 212, and the second connecting member is a key structure provided with the unlocking portion 111, the unlocking portion 111 and the key hole 212 Fitted.
  • the unlocking portion 111 of the second connecting member is inserted into the key hole 212 of the first connecting member And rotating the second connecting member to a preset angle to make an electrical connection between the atomizer and the battery rod.
  • the specific form of the first connector, the second connector, and the preset angle will be described in detail below. Due to the design of the unlocking portion 111
  • the key structure and the lock structure having the key hole 212 so in the identification process, it is only necessary to rotate the butt joint between the two to make the internal circuit conductive (that is, equivalent to having a switch inside, so that the keyhole 212
  • the lock structure is rotated to make the switch open, so this identification method is simple and direct, providing users with a safer and more reliable guarantee.
  • the electronic cigarette includes a third electrode 11, a fourth electrode 12, a second insulator 13, and a first electrode 21
  • the first connecting member includes a first electrode 21 and a first insulator 23 which are sequentially connected from the inside to the outside. And a second electrode 22 .
  • the first electrode 21 and the second electrode 22 are respectively used for electrical connection with the two electrodes of the battery in the battery rod, and the first electrode 21 and the first insulator 23
  • a keyhole 212 is disposed on the first electrode 21 for a relatively rotatable movable connection.
  • the first electrode 21 is disconnected from the electrode of the battery; when the unlocking portion is opened 111 After being inserted into the key hole 212 and rotating the first electrode 21 to a predetermined angle, the electrode of the battery is electrically connected to the first electrode 21, and the electrical connection with the atomizer is realized by the unlocking portion 111.
  • the first connecting member further includes a first electrode 21 and the first insulator 23 and extends to the key hole 212.
  • the elastic component inside (as shown in Figure 3).
  • the elastic member connects the first electrode 21 and the first insulator 23 to prevent the first electrode 21
  • the first insulator 23 rotates relative to the first insulator 23; when the unlocking portion 111 is inserted into the key hole 212, the unlocking portion 111 abuts the elastic member to release the elastic member from the first electrode 21 and the first insulator 23 the connection between.
  • the second connector includes a third electrode 11 that is fixedly coupled to the unlocking portion 111. And a second insulator 13 and a fourth electrode 12 which are disposed outside the third electrode 11 in order from the inside to the outside.
  • the third electrode 11 has a substantially cylindrical structure, a second insulator 13 and a fourth electrode 12 Both are substantially cylindrical in shape, and the diameter of the fourth electrode 12 is larger than the diameter of the second insulator 13.
  • the unlocking portion 111 is inserted into the key hole 212 and the first electrode is rotated 21 After the preset angle, the third electrode 11 of the second connecting member is electrically connected to the first electrode 21 through the unlocking portion 111, and the fourth electrode 12 and the second electrode 22 are abutted to form an electrical connection.
  • the first electrode 21 has a cylindrical shape, and includes a first through hole 211, a key hole 212, and a protrusion 213 thereon.
  • the keyhole 212 is opened in the axial direction of the first electrode 21, which is adapted to the shape of the unlocking portion 111.
  • First through hole 211 along the first electrode The first through hole 211 may be one or more, and each of the first through holes 211 is provided with a resilient component.
  • the keyhole 212 A protrusion 213 extending along the axial direction of the first electrode 21 is also protruded from a side wall, and the protrusion 213 functions to abut the elastic component on the one hand to prevent the elastic component from the first through hole 211.
  • the middle slides out and on the other hand can act as a guide so that the unlocking portion 111 is better inserted into the keyhole 212.
  • connection electrode 214 is fixedly connected to the end surface of the first electrode 21 away from the second connecting member, and the connecting electrode 214 One end is fixed to the first electrode 21, and the other end of the connection electrode 214 extends toward a side away from the first electrode 21, and the electrode 214 and the first electrode 21 are connected.
  • the connection may be fixed by an integral molding method, and the connection electrode 214 may be fixed to the first electrode 21 by bonding, soldering, snapping or riveting, and the connection electrode 214 It may be a columnar body or a sheet-like body.
  • the connection electrode 214 and the first electrode 21 are integrally formed, and the connection electrode 214 has a cylindrical structure.
  • connection electrode 214 is designed on the first electrode 21, the connection electrode 214 is connected by the cooperation of the connection electrode 214 and the contact electrode 28. After a certain angle of rotation and contact with the contact electrode 28, the switch is pressed to turn on the internal circuit. This structure provides the user with a relatively simple means of identification between the atomizer and the battery rod.
  • the curved groove 215 is disposed on the circumferential outer side wall of the first electrode 21, and the curved groove 215 is opened at the first electrode
  • a circular arc structure on the outer side wall of the periphery of 21 may be a U-shaped groove or a V-shaped groove, and the curved groove 215 is mainly used to limit the rotation angle of the first electrode 21, that is, the first electrode 21
  • the maximum angle of rotation is the size of the central angle of the arcuate groove 215 such that when the unlocking portion 111 is inserted into the key hole 212 and the first electrode 21 is rotated
  • the electrodes of the battery are electrically connected to the first electrode 21.
  • the preset angle is the size of the central angle corresponding to the curved groove 215, and the preset angle may be 30 ° ⁇ 90 Any value in °, preferably, the preset angle is set to 90 °.
  • At least one second through hole communicating with each of the first through holes 211 is defined in the circumferential outer side wall of the first insulator 23. 231.
  • the elastic component is installed in the first through hole 211 and the second through hole 231 that communicate with each other.
  • the first through hole 211 and the second through hole 231 They are all the same size of the column structure and are compatible with the size of the elastic component.
  • the elastic assembly includes a return spring 24, a first marble 25 and a second marble 26.
  • Return spring 24 is mounted in the second through hole 231, one end of which is elastically abutted to the circumferential inner side wall of the second electrode 22 which is disposed outside the first insulator 23, and the other end abuts the first marble 25.
  • First marble 25 Installed in the first through hole 211.
  • the elastic component is gap-fitted with the first through hole 211 and the second through hole 231, so that the first marble 25 and the second marble 26 can be along the first through hole 211. And the axial movement of the second through hole 231.
  • first pin 25 and the second pin 26 of the designed elastic component are in contact connection, when the first pin 25 is pushed back to the second through hole 231 Thereafter, the first electrode 21 is rotated, and the second marble 26 rotates together with the first electrode 21, and at the same time, one end of the first marble 25 abuts against the circumferential outer side wall of the first electrode 21, that is, only the first marble needs to be pushed. 25, causing it to be pushed back to the second through hole 231, the rotation restriction of the first electrode 25 to the first electrode 21 can be released.
  • the first pin 25 mounted in the second through hole 231 under the action of the pressure of the return spring 24 Part of the first through hole 211 is inserted to restrict the rotation of the first electrode 21.
  • one end of the first pin 25 mounted on the first through hole 211 abuts against the second pin 26, and the first pin 25 The other end abuts to the projection 213.
  • the end of the second pin 26 abutting the protrusion 213 has a pushing slope 261, and the unlocking portion 111
  • the upper ejector mechanism pushes the ejector slope 261 of the second marble 26 so that the second marble 26 moves away from the projection 213.
  • the unlocking portion 111 abuts against the slanting slope 261
  • the unlocking portion 111 generates an upward force to the pushing slope 261, and by setting the pushing slope 261, the unlocking portion 111 and the second marble can be raised.
  • the contact area between them is more convenient and quick to push the second marble 26 to move away from the projection 213.
  • the ejector mechanism on the unlocking portion 111 pushes the ejector slope of the second marble 26 261.
  • the second pin 26 presses the first pin 25, which is partially inserted into the first through hole 211, into the second through hole 231, and releases the first pin 25 to the first electrode.
  • the rotation limit is that the end of the second pin 26 abutting the first pin 25 is still located in the first through hole 211.
  • the first marble 25 is The sum of the lengths of the second marbles 26 is greater than the distance from the apertures of the first through holes 211 away from the protrusions 213 to the protrusions, and the length of the second marbles 26 is closer to the protrusions than the first through holes 211.
  • the distance from the orifice to the bulge is one-third larger.
  • the first connector further includes a third pin 29 that limits the rotation angle of the first electrode 21, and the third pin 29 It is fixedly mounted in the blind hole 232 of the first insulator 23, and the blind hole 232 is opened on the circumferential inner side wall of the first insulator 23.
  • the third marble 29 is fixed in the blind hole 232 At least partially extending from the outer surface of the first insulator 23, a portion of the third pin 29 extending out of the blind hole 232 is inserted into the arcuate groove 215.
  • the first electrode 21 is rotated, and a portion of the third marble 29 inserted into the curved groove 215 abuts against the curved groove 215
  • the third pin 29 and the arcuate groove 215 cooperate to limit the rotation angle of the first electrode 21.
  • the maximum angle at which the first electrode 21 rotates is an arc groove.
  • the third pin 29 and the blind hole 232 may be an interference fit or a clearance fit.
  • the third pin 29 and the blind hole There is an interference fit between 232 to ensure the stability of the rotation of the first electrode 21.
  • the unlocking portion 111 has a substantially flat rectangular parallelepiped structure with guide grooves 112 and slots 113. .
  • a guide groove 112 that fits the protrusion 213 and penetrates the side surface is opened on a side surface of the unlocking portion 111.
  • the other side of the side adjacent side is provided with an ejector mechanism for pushing the elastic component, and the ejector mechanism is at least one of the other side disposed on the unlocking portion 111 and adjacent to the side surface Groove 113
  • Each of the slots 113 is spaced apart according to the position of each of the corresponding first through holes 211.
  • the unlocking mechanism 111 When the unlocking mechanism 111 is inserted into the key hole 212, the guiding groove 112 is aligned with the projection 213, and at this time, the tooth groove 113 Pushing the top inclined slope 261 of the second marble 26 so that the second marble 26 moves away from the projection 213 to release the first marble 25 to the first electrode 21 The rotation limit. At this time, the unlocking portion 111 is rotated, and the unlocking portion 111 drives the first electrode 21 to rotate to a preset angle, so that the connecting electrode 214 is rotationally abutted to the contact electrode electrically connected to the battery. , forming an electrical connection.
  • the first pin 25 and the second pin 26 of the elastic member that is disposed in each of the first through hole 211 and the second through hole 231 The lengths may be different, so each of the elastic members corresponds to one of the slots 113 such that after the slots 113 push the second marble 26, the first marble 25 is pressed back to the second through hole 231 while the second marble 26 The end that abuts the first pin 25 is still located in the first through hole 211.
  • the lock structure is provided with a unique matching key structure provided with an unlocking portion 111 to achieve mutual matching between the atomizer and the battery rod, thereby embodies an identification function.
  • the second electrode 22 has a substantially cylindrical structure including a main body 221 and a main body 221
  • the connecting portion 222, the main body 221 and the connecting portion 222 are formed by the side edge of the end face extending toward the side away from the main body 221. It can be integrally formed, or it can be fixed by bonding, welding or snapping.
  • the main body 221 is disposed outside the second insulator 23, and at least one slot 223 is defined in the end surface of the connecting portion 222.
  • the third insulator 27 is fixed to the connecting portion 222 through the card slot 223.
  • the card slot 223 includes a plurality of, and the plurality of card slots 223 are axially symmetrically spaced apart from each other at the connecting portion 222.
  • the end face is opened along the axial direction of the connecting portion 222.
  • the end edge of the main body 221 faces the main body
  • the radial contraction of 221 forms a flange (not labeled) such that one end of the second insulator 23 abuts against the flange.
  • the connecting portion 222 is provided with a third insulator 27, and the inner side wall of the third insulator 27 is along the connecting portion 222.
  • the radial contraction forms at least one holding portion 271 (shown in FIG. 1), and the engaging portion 271 and the connecting portion 222 may be integrally formed, and the holding portion 271 may be bonded or welded. It is fixed on the inner side wall of the connecting portion 222, and the latching portion 271 is matched with the card slot 223, and the third insulator 27 is snap-fitted to the card slot 223 of the connecting portion 222 by the latching portion 271.
  • Both ends of the contact electrode 28 are respectively fixed to the holding portion 271 such that the contact electrode 28 is electrically isolated from the second electrode 22.
  • the contact electrode 28 can be attached to the holding portion by bonding or snapping
  • the first card slot (not labeled) is disposed on each of the latching portions 271, and the two ends of the contact electrode 28 are correspondingly engaged in the first card slot.
  • the connecting electrode 214 having one end fixed to one end surface of the first electrode 21 is attached. Opposite to the contact electrode 28, the contact electrode 28 is not in contact with the connection electrode 214 (as shown in FIG. 9), and when the first electrode 21 is rotated to a predetermined angle, the electrode 214 is connected. Rotating abuts to contact electrode 28 (shown in Figure 10) to form an electrical connection.
  • FIG 11 An electronic cigarette according to a second preferred embodiment of the present invention is shown, which comprises a battery rod and an atomizer, which differ from one of the embodiments in the structure of the unlocking portion 111.
  • the unlocking portion 111 is a substantially flat rectangular parallelepiped structure having guide grooves 112 and circular grooves 114 provided thereon. .
  • a guide groove 112 that fits the protrusion 213 and penetrates the side surface is opened on a side surface of the unlocking portion 111.
  • the other side opposite to the side is provided with an ejector mechanism for pushing the elastic component, and the ejector mechanism is at least one circular shape disposed on the other side of the unlocking portion 111 opposite to the side surface Groove 114 .
  • the first pin 25 and the second pin 26 of the elastic member that is disposed in each of the first through hole 211 and the second through hole 231 The lengths may be different, so that each of the elastic members corresponds to a circular recess 114 such that after the circular recess 114 pushes the second marble 26, the first marble 25 is pressed back into the second through hole 231. At the same time, the end of the second pin 26 abutting on the first pin 25 is still located in the first through hole 211. This results in a different degree of depth to each of the circular grooves 114, that is, each of the key holes 212 is provided.
  • the lock structure is provided with a unique key structure provided with the unlocking portion 111 to achieve mutual matching between the atomizer and the battery rod, and an identification function is exhibited.
  • the invention also provides a method for identifying a atomizer of a battery rod of an electronic cigarette, the method comprising the following steps:
  • S1 providing a battery rod, wherein one end of the battery rod for connecting with the atomizer is a lock structure provided with a key hole 212 or is provided with an unlocking portion 111 key structure;
  • the atomizer is connected to the battery rod, and if the atomizer is connected to the battery rod and can be rotated relative to a preset angle, the atomizer and the battery rod are realized. Electrical connection means that the atomizer and the battery rod match each other, otherwise, it does not match.
  • Step S1 is specifically as follows:
  • a first connecting member and a second connecting member are disposed at a connection between the battery rod and the atomizer, and the first connecting member and the second connecting member are respectively provided with the key structure and the lock structure;
  • the first connecting member is a lock structure provided with a key hole 212
  • the second connecting member is provided with an unlocking portion 111.
  • the key structure, the unlocking portion 111 is adapted to the keyhole 212.
  • Step S2 is specifically as follows:
  • the ejector mechanism on the unlocking portion 111 pushes the elastic component disposed on the first connecting member to release the first pin 25 to the first electrode
  • the rotation limit of 21 allows the first electrode 21 to be relatively rotated, which in turn drives the connection electrode 214 fixed at one end of the first electrode 21 to rotate, so that the connection electrode 214 After rotating to a predetermined angle, the preset angle is to rotate the first electrode 21 to rotate the connecting electrode 214 to abut the contact electrode.
  • connection electrode 214 and the contact electrode 28 are separated from each other when the battery rod and the atomizer are
  • the first electrode 21 is rotated to connect the connecting electrode 214 and the contact electrode 28 in a separated state.
  • the contact electrode 28 connected to the internal circuit makes the connection electrode 214 conductive, contacting the electrode 28 It is equivalent to a switch.
  • the switch is turned on, it means that the battery rod and the atomizer are matched, and the internal circuit is turned on to supply and atomize the electronic cigarette.
  • the present invention provides a structure between the atomizer and the battery rod by providing one end of the electronic cigarette for connecting with the atomizer as a keyhole lock structure or a key structure having an unlocking portion.
  • the mating relationship is a one-to-one correspondence.
  • the unlocking portion is inserted into the key hole and the unlocking portion is rotated to a preset angle to make an electrical connection between the atomizer and the battery rod. Since a keyhole corresponds to the only type of unlocking portion, only the battery rod that is compatible with the atomizer can be used, thereby playing the role of identification, preventing other counterfeit products from being inserted and used, thereby avoiding safety hazards and smoke. Abnormal and mixed flavors of smoke and oil, etc., improve the user experience, and help users to recognize and recognize manufacturers and brands.

Abstract

L'invention concerne une cigarette électronique et un procédé d'identification d'un pulvériseur pour la tige de batterie de la cigarette électronique. La cigarette électronique comprend une tige de batterie et un pulvériseur, tous deux connectés en un point où se trouve un mécanisme de connexion destiné à les connecter, ce mécanisme comprenant, à son tour, une première pièce de connexion tenant lieu de mécanisme de fixation présentant une encoche de fixation (212) et une seconde pièce de connexion tenant lieu de mécanisme de verrouillage présentant une partie de verrouillage ouverte (111), l'encoche de fixation (212) et la partie de verrouillage ouverte (111) s'épousant. La tige de la batterie et le point de connexion du pulvérisateur présentent respectivement le mécanisme de fixation présentant une encoche de fixation (212) et le mécanisme de verrouillage présentant une partie de verrouillage ouverte (111) de telle sorte que le rapport d'imbrication du mécanisme venant entre le pulvérisateur et la tige de batterie soit un rapport de correspondance, à savoir que l'utilisation de l'invention dépende de l'imbrication entre le pulvérisateur et la tige de batterie afin d'éviter qu'un produit contrefait ne puisse y être inséré et procurer plus de plaisir.
PCT/CN2013/086352 2013-10-31 2013-10-31 Cigarette électronique et procédé d'identification d'un pulvériseur pour la tige de batterie de la cigarette électronique WO2015062041A1 (fr)

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PCT/CN2013/086352 WO2015062041A1 (fr) 2013-10-31 2013-10-31 Cigarette électronique et procédé d'identification d'un pulvériseur pour la tige de batterie de la cigarette électronique

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