WO2015190810A1 - Composant modulaire pour cigarette électronique - Google Patents

Composant modulaire pour cigarette électronique Download PDF

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Publication number
WO2015190810A1
WO2015190810A1 PCT/KR2015/005793 KR2015005793W WO2015190810A1 WO 2015190810 A1 WO2015190810 A1 WO 2015190810A1 KR 2015005793 W KR2015005793 W KR 2015005793W WO 2015190810 A1 WO2015190810 A1 WO 2015190810A1
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WO
WIPO (PCT)
Prior art keywords
battery
housing
signal
module
printed circuit
Prior art date
Application number
PCT/KR2015/005793
Other languages
English (en)
Korean (ko)
Inventor
황일영
Original Assignee
황일영
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR2020140004336U external-priority patent/KR200488466Y1/ko
Priority claimed from KR2020140004334U external-priority patent/KR200488465Y1/ko
Application filed by 황일영 filed Critical 황일영
Publication of WO2015190810A1 publication Critical patent/WO2015190810A1/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
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/06Inhaling appliances shaped like cigars, cigarettes or pipes
    • 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 present invention relates to an electronic cigarette, and more particularly, to a modular component for an electronic cigarette and easy to manage and repair, and an electronic cigarette comprising the same.
  • the electronic cigarette is used as an alternative means of reinforcement to satisfy the preference by inhaling the fumes obtained by vaporizing the liquid source contained in the liquid container, it is developed to be easy to carry.
  • the e-cigarette has a rod-type battery or a rechargeable battery inserted into the product housing, and supplies an atomizer of the e-cigarette from the battery or the rechargeable battery by a suitable internal circuit and a switching device to vaporize the liquid source in the liquid container. Generates.
  • the power supply is generally made through a control circuit that enables on / off control of the user, and the liquid phase source is vaporized according to the magnitude of the input signal as the heating member of the atomizer is heated.
  • the electronic cigarette has a power supply including a battery, a control circuit, an atomizer, and an internal circuit connecting them, as described above, but if these components do not have an efficient coupling with each other, there is a problem that either part is defective or the end of life. If this occurs, there is a problem that can not be repaired individually, and all other connected components must be replaced or repaired, resulting in a high cost of repair and maintenance, or difficult to maintain and shorten the life. Therefore, in the electronic cigarette, the simplification, assembly and disassembly of the respective constituent members are important in terms of management and maintenance.
  • the technical problem to be solved by the present invention is to provide a modular component for an electronic cigarette that facilitates the simplification, assembly and disassembly of the component members of the electronic cigarette.
  • Another technical problem to be solved by the present invention is to provide an electronic cigarette including a modular component having the above advantages.
  • Another technical problem to be solved by the present invention is to provide a battery module that facilitates the simplification, assembly and disassembly of constituent members of an electronic cigarette.
  • Another technical problem to be solved by the present invention is to provide a modular electronic cigarette including a battery module having the above advantages.
  • the battery housing for having a cavity therein having an upper end coupled to the liquid crystal container or atomizer and the lower end coupled to the battery module; A spacer structure inserted into and fixed in the cavity of the battery housing; A printed circuit board fixed and supported by the spacer structure and having a power control circuit mounted thereon; And a wiring body electrically connected to the power control circuit, electrically separated from the battery housing, and exposed to at least one of an upper end and a lower end of the battery housing.
  • the battery charging module for achieving the above another technical problem, the upper end coupled to the battery module and the lower end is arranged with a port of the charging terminal has a battery for use for charging housing; A spacer structure inserted into and fixed in the cavity of the battery charging housing; A printed circuit board fixed and supported by the spacer structure and having a battery charging port mounted thereon; And a wiring body electrically connected to the battery charging port, electrically disconnected from the battery housing, and exposed to the outside of the upper end of the battery housing.
  • a modular electronic cigarette including at least one of the above-described modular power control module and battery charging module may be provided.
  • Battery module for achieving the technical problem is a battery housing for accommodating a battery therein; A fastening structure for mechanical coupling with external adjacent modules provided at both ends of the battery housing; And a first wiring body having the same polarity provided at both ends of the battery housing and a second wiring body having a polarity different from that of the first electrode provided by at least a portion of the battery housing.
  • the adjacent module may include a liquid container of an electronic cigarette, a housing of a power control unit, a battery charging module or a cap member.
  • the electronic cigarette of the present invention for achieving the above another technical problem includes the battery module described above.
  • the spacer structure is easily fixed and supported simply by tightly fitting in the power control housing, and the printed circuit board is fixed thereto.
  • electrical and mechanical connections may be achieved through wirings connected to the printed circuit board, thereby enabling intuitive and easy assembly of components, and, conversely, disassembling and providing economical maintenance and repair may be provided.
  • the spacer structure is easily fixed and supported simply by tightly fitting in the battery charging housing, the printed circuit Since the substrate is fixed and the electrical and mechanical connection is achieved through the wiring connected to the printed circuit board, an intuitive and easy assembly of the parts is possible, and conversely, the battery charging module can be provided that can be economically maintained and repaired easily.
  • the fastening structure provided at both ends of the battery housing and the wiring of the same polarity provided at both ends of the battery housing, respectively, of different polarities from the first signal of the battery By outputting the second signal, the same power signal may be applied to an adjacent module regardless of the fastening direction of the battery housing, thereby providing a battery module that simplifies, assembles and disassembles the constituent members of the electronic cigarette.
  • the power control module and / or the battery charging module is also modularized, and by providing a uniform common standard for mechanical and electrical connection therebetween, It is possible to provide electronic cigarettes that can be repaired to minimize maintenance and maintenance costs.
  • the battery charging module can be multiplexed into individual battery charging modules corresponding to chargers having output terminals of various specifications, so that the user can extend the charging convenience of the battery module at low cost, and the battery charging module is individualized so that the battery Repair and maintenance are possible separately from the module, minimizing maintenance and maintenance costs.
  • FIG. 1 is an exploded perspective view of an electronic cigarette according to an embodiment of the present invention.
  • FIG. 2 is a cross-sectional view for explaining the electrical and mechanical coupling between the battery module and the adjacent module according to an embodiment of the present invention.
  • FIG. 3 is an exploded perspective view illustrating a battery charging module coupled to a battery module according to an embodiment of the present invention.
  • Figure 4a is an exploded perspective view of the power control module according to an embodiment of the present invention
  • Figure 4b is a sectional view cut in the axial direction of the power control module.
  • Figure 5a is an exploded perspective view of a battery charging module according to an embodiment of the present invention
  • Figure 5b is a cross-sectional view cut along the axial direction of the battery charging module.
  • 6A to 6C are cross-sectional views illustrating an internal circuit and a fastening structure of a battery module according to various embodiments of the present disclosure.
  • FIG. 7 is a cross-sectional view for explaining the electrical and mechanical coupling between the battery module and the adjacent circuit module according to an embodiment of the present invention.
  • FIG. 8 illustrates a battery charging module coupled to a battery module according to an embodiment of the present invention.
  • first, second, etc. are used herein to describe various members, parts, regions, layers, and / or parts, these members, parts, regions, layers, and / or parts are defined by these terms. It is obvious that not. These terms are only used to distinguish one member, part, region, layer or portion from another region, layer or portion. Accordingly, the first member, part, region, layer or portion, which will be described in detail below, may refer to the second member, component, region, layer or portion without departing from the teachings of the present invention.
  • FIG. 1 is an exploded perspective view of an electronic cigarette 1000 according to an embodiment of the present invention.
  • the electronic cigarette 1000 includes a liquid container 100 in which a liquid source is stored.
  • An upper cap 200 is provided at the upper end 100_1 of the liquid container 100, and a power control module 300M and a battery module 400M having a circuit for power control are coupled to the lower end of the liquid container 100.
  • These modules 300M and 400M are illustrated to have housings in the form of cylindrical cylinders, but the present invention is not limited thereto.
  • the housings may be embodied in various shapes in consideration of a cylindrical shape having a square cross section or aesthetics and easy gripping.
  • the liquid container 100 may have a suitable structure capable of refilling the liquid source, and may have a window 100W for checking the remaining amount of the liquid source.
  • the liquid container 100 and the power control unit housing 300 may be integrated with each other.
  • An atomizer (not shown) for vaporizing the liquid source may be coupled to the interior of the liquid container 100 or to the interior of the power control housing 300. In another embodiment, the atomizer may be coupled between the liquid container 100 and the power control housing 300, the present invention is not limited thereto, and various known techniques may be referred to.
  • the atomizer is a two-pole terminal element having a first electrode, such as a positive electrode and a second electrode, such as a cathode, a resistance wire or an ultrasonic vibration member may be provided between the two pole terminals, Current and / or voltage signals may be applied to the first and second electrodes to vaporize the liquid sorbed from the liquid container 100 into the atomization chamber.
  • a gas flow path (not shown) may be provided in the liquid container 100 to deliver vaporized edges from the liquid source to the upper cap 200 side.
  • the upper end 300_1 of the power control housing 300 is coupled to the lower end 100_2 of the liquid container 100, and the lower end 300_2 of the power control housing 300 is coupled to the upper end 400_1 of the battery housing 400.
  • An input and / or output interface 300S for controlling power of a user may be installed on the surface of the power control unit housing 300.
  • the input and / or output interface 300S may be an input interface such as a button switch or an electrostatic sensitive touch button switch, or may include an output interface such as a self-emitting or non-emitting display element or both. Through the output interface, the input power level, the battery voltage level, the usage time or the number of suctions can be displayed.
  • the liquid container 100, the power control unit housing 300, and the battery housing 400 are illustrated to be fastened by screwing by rotation with each other, but the present invention is not limited thereto.
  • it may be coupled to the liquid container 100, the power control housing 300, and the battery housing 400 by a known male and female coupling method according to a slot or an adapter method for connecting adjacent tubes to each other.
  • the power control housing 300 and the battery housing 400 may be integrated with each other to provide a single battery housing.
  • a simple power switch may be installed in the battery housing 400 so that the battery housing 400 may be directly coupled to the liquid container 100.
  • each of the fastening standards that are male and female to each other in order to maximize the easy fastening and compatibility between the housings (100, 300, 400) of the respective member may be defined the same.
  • the lower end part 100_2 of the liquid container 100 may be male and female fastened by screw threads with the upper end part 300_1 of the power control housing 300, respectively
  • the lower end part 100_2 of the liquid container 100 may be a battery.
  • a common fastening standard may be determined to enable male and female fastening with a screw thread even with the upper end 400_1 of the housing 400.
  • the upper end 400_1 and the lower end 400_2 of the battery housing 400 provide the same polarity electrically, so that the upper end 400_1 or the lower end 400_2 are coupled with respect to another housing to be connected.
  • the other housings provide the same electrical connection specifications, and mechanically, the upper end 400_1 and the lower end 400_2 of the battery housing 400 are common so that the battery housing 400 can be coupled to other component members or adjacent modules.
  • the upper end 400_1 of the battery housing 400 may also have the same fastening structure and shape as the fastening structure of the lower end 400_2 of the battery housing 400.
  • the lower end 400 of the battery housing 400 is turned upside down so that the lower end 400_2 of the battery housing 400 faces the lower end 300_2 of the power control housing 300.
  • 400_2 and the lower end 300_2 of the power control housing 300 may be fastened in the same manner, and the power control housing 300 does not distinguish between fastening of the upper end 400_1 and the lower end 400_2 of the battery housing 400.
  • the lower end 400_2 of the battery housing 400 may be coupled to the lower end 100_2 of the liquid container 100.
  • the housings 100, 300, and 400 of the respective constituent members may be formed of a conductive metal material, and any one signal of a power input to the atomizer through fastening the housing, for example, a positive signal, a negative signal, or ground A conductive path for may be provided.
  • the first signal may be finally input to any one of the first and second terminals of the atomizer through the housing in which the atomizer is disposed.
  • the second signal having a different polarity from the first signal of the power source may be a positive signal, a negative signal, or the other signal of the ground, and may be electrically separated from the housings 100, 300, and 400, and may be electrically connected to the housings 100, 300, and 400.
  • Wiring members disposed therein, such as electrodes, pogo pins, wiring members, printed circuit board wiring, or solder and electrode pads formed on the side of the printed circuit board, may be input to other terminals of the atomizer. have.
  • the first signal is a cathode or ground signal
  • the second signal is described as an anode signal.
  • the electrode 100E provided at the lower end 100_2 of the liquid container 100 becomes an input / output terminal of an electrical signal electrically insulated from the surface of the liquid container 100.
  • a second signal is input through the electrode 100E, and the input second signal is transmitted to another terminal of the atomizer, so that a circuit capable of transmitting the first signal and the second signal to the two pole terminals of the atomizer, respectively.
  • the electrode 100E of the liquid container 100 is electrically connected to each other in contact with an electrode (not shown, having a structure similar to that of 300E) provided at the upper end 300_1 of the power control unit housing 300, and the electrode is connected to the second electrode.
  • an electrode not shown, having a structure similar to that of 300E
  • the electrode is connected to the second electrode.
  • As a wiring of a signal it is electrically insulated from the power control part housing 300 which is a wiring of a 1st signal.
  • the electrode 300E provided at the lower end 300_2 of the power control housing 300 serves as an input / output terminal of the second signal electrically insulated from the surface of the power control housing 300 as a wiring of the second signal.
  • the electrode provided in the upper end 400_1 of the battery housing 400 has the same structure as that of the electrode 400E of the lower end 400_2 of the battery housing 400, whereby the user may use the battery housing 400.
  • An electrical connection may be achieved by coupling the lower end 400_2 to the lower end 300_2 of the housing 300 of the power control unit.
  • a cap member 500 for protecting the electrode 400_2 is coupled to the lower end 400_2 of the battery housing 400 to close the lower end 400_2 of the battery housing 400. It may be understood that the cap member 500 may be coupled to the upper end 400_1 of the battery housing 400 having the same structure as the lower end 400_2 of the battery housing 400.
  • the upper end 400_1 and the lower end 400_2 of the battery housing 400 provide the same polarity, so that the upper end 400_1 is coupled to the other housing to be connected, or the lower end 400_2.
  • the upper end 400_1 and the lower end of the battery housing 400 provide the same electrical connection specifications for the other housings, and mechanically, the upper end 400_1 and the lower end of the battery housing 400 such that the battery housing 400 can be coupled to other components or adjacent modules.
  • 400_2) may have a common fastening standard.
  • the upper end 400_1 of the battery housing 400 may also have the same fastening structure and shape as the fastening structure of the lower end 400_2 of the battery housing 400.
  • the lower end 400 of the battery housing 400 is turned upside down so that the lower end 400_2 of the battery housing 400 faces the lower end 300_2 of the power control housing 300.
  • 400_2 and the lower end 300_2 of the power control housing 300 may be fastened in the same manner, and the power control housing 300 does not distinguish between fastening of the upper end 400_1 and the lower end 400_2 of the battery housing 400.
  • the lower end 400_2 of the battery housing 400 may be coupled to the lower end 100_2 of the liquid container 100.
  • the housings 100, 300, and 400 of the respective constituent members may be formed of a conductive metal material, and any one signal of a power input to the atomizer through fastening the housing, for example, a positive signal, a negative signal, or ground A conductive path for may be provided.
  • the first signal may be finally input to any one of the first and second terminals of the atomizer through the housing in which the atomizer is disposed.
  • the second signal having a different polarity from the first signal of the power source may be a positive signal, a negative signal, or the other signal of the ground, and may be electrically separated from the housings 100, 300, and 400, and may be electrically connected to the housings 100, 300, and 400.
  • Wiring members disposed therein, such as electrodes, pogo pins, wiring members, printed circuit board wiring, or solder and electrode pads formed on the side of the printed circuit board, may be input to other terminals of the atomizer. have.
  • the first signal is a cathode or ground signal
  • the second signal is described as an anode signal.
  • the electrode 100E provided at the lower end 100_2 of the liquid container 100 becomes an input / output terminal of an electrical signal electrically insulated from the surface of the liquid container 100.
  • a second signal is input through the electrode 100E, and the input second signal is transmitted to another terminal of the atomizer, so that a circuit capable of transmitting the first signal and the second signal to the two pole terminals of the atomizer, respectively.
  • the electrode 100E of the liquid container 100 is electrically connected to each other in contact with an electrode (not shown, having a structure similar to that of 300E) provided at the upper end 300_1 of the power control unit housing 300, and the electrode is connected to the second electrode.
  • an electrode not shown, having a structure similar to that of 300E
  • the electrode is connected to the second electrode.
  • As a wiring of a signal it is electrically insulated from the power control part housing 300 which is a wiring of a 1st signal.
  • the electrode 300E provided at the lower end 300_2 of the power control housing 300 serves as an input / output terminal of the second signal electrically insulated from the surface of the power control housing 300 as a wiring of the second signal.
  • the electrode provided in the upper end 400_1 of the battery housing 400 has the same structure as that of the electrode 400E of the lower end 400_2 of the battery housing 400, whereby the user may use the battery housing 400.
  • An electrical connection may be achieved by coupling the lower end 400_2 to the lower end 300_2 of the housing 300 of the power control unit.
  • a cap member 500 for protecting the electrode 400_2 is coupled to the lower end 400_2 of the battery housing 400 to close the lower end 400_2 of the battery housing 400. It may be understood that the cap member 500 may be coupled to the upper end 400_1 of the battery housing 400 having the same structure as the lower end 400_2 of the battery housing 400.
  • FIG. 2 is a cross-sectional view for explaining the electrical and mechanical coupling between the battery module 400M and the adjacent module 600 according to an embodiment of the present invention.
  • the battery module 400D may include a battery housing 400 accommodating a battery BT therein.
  • the upper end 400_1 and the lower end 400_2 of the battery housing 400 have the same fastening structure and the same polarity.
  • wiring bodies suitable for the battery BT inside the battery housing 400 may be provided.
  • the wiring bodies may be electrodes, pogo pins, solders, bumps, electrode pads, electrode patterns, lead wires, wiring patterns of printed circuit boards, portions of edge conductors of printed circuit boards, housings, wires, or a combination thereof.
  • the wiring body may include a printed circuit board 400EP, 400EP1, 400EP2, an electrode pad 400EL, and wires 400L1, 400L2.
  • the electrode pad 400EL of the second signal is provided on the printed circuit board 400EP, is exposed through the upper end 400_1 of the battery housing 400, and the electrode pad 400EL of the second signal on the lower end 400_2 side.
  • An insulator 400I may be inserted between the electrode pad 400EL and the battery housing 400 to electrically separate the fastening structure 400RS of the electrode pad 400EL and the battery housing 400.
  • the positive electrode of the battery BT is connected to the electrode pad 400EL through the first wiring 400L1 and the printed circuit board 400EP of the upper part 400_1, and the printed circuit of the upper part 400_1.
  • the other first wiring 400L1 of the second signal is connected to the first printed circuit board 400EP1 of the lower end 400_2 of the battery housing 400 via the substrate 400EP, and through the conductive spacers 400SP.
  • the second signal is transmitted to the second printed circuit board 400EP2, and the exposed electrode pad 400EL of the second printed circuit board 400EP2 receives the second signal, and thus, the electrode pad 400EL of the upper end 400_1.
  • the first and second printed circuit boards 400EP2_1 and 400EP2_2 disposed on the lower end 400_2 side of the battery housing 400 may include a wiring body 400F that is displaceable in a vertical direction, for example, a pogo pin. They may overlap each other to switch electrical connections between the printed circuit boards 400EP2_1 and 400EP2_2.
  • the second printed circuit board 400EP2_2 has a through hole 400H, and an upper surface of the wiring body 400F is exposed through the through hole 400H.
  • Each of the first and second printed circuit boards 400EP2_1 includes a wiring pattern of a first signal, and a wire and a wiring are connected between the cathode of the battery BT and the wiring pattern of the first signal of the first printed circuit board 400EP2_1.
  • the same second wiring 400L2 is connected, and the wiring pattern of the first signal of the first printed circuit board 400EP2_1 is electrically connected to the wiring body 400F.
  • the second printed circuit board 400EP2_2 may also include a wiring pattern of the first signal that is always connected to transfer the first signal to the battery housing 400.
  • the wiring pattern of the first signal of the second printed circuit board 400EP2_2 is connected to the battery housing 400.
  • a circuit for transferring the first signal of the battery housing 400 and the wiring pattern of the first signal of the second printed circuit board 400EP2_2 may be established at all times.
  • the electrical connection between the wiring pattern of the first signal of the first printed circuit board 400EP2_1 and the wiring pattern of the first signal of the second printed circuit board 400EP2_2 is achieved through the wiring body 400F.
  • the wiring pattern of the first signal of the first printed circuit board 400EP2_1 and the second printed circuit board may be opened, thereby preventing the transmission of the first signal through the battery housing 400.
  • a lower end portion 400_2 of the battery housing 400 includes a pin member that is preferably elastically displaceable through a through hole of the second printed circuit board 400EP2_2. It can provide a switching structure comprising.
  • the battery module 400D is configured to power the external adjacent module 600 connected to the upper end 400_1. Is not supplied, and when the pin member is released again to restore the wiring assembly 400F, when the wiring assembly 400F is restored and contacts the second printed circuit board 400EP2_2 again, power is supplied to the external adjacent module 600. Can be supplied.
  • the external adjacent module 600 may be the above-described power control module 300M or the liquid container 100, which is exemplary only, but the present invention is not limited thereto.
  • a cap member 500 for protecting the electrode 400EL is coupled to the lower end 400_2 of the battery housing 400, so that the lower end 400_2 of the battery housing 400 may be closed.
  • a battery charging module and a power control module will be described as modular components for an electronic cigarette.
  • FIG 3 is an exploded perspective view of a battery charging module 600M coupled to a battery module 400M according to an embodiment of the present invention.
  • an external adjacent module may include a battery charging module 600M.
  • the battery charging module 600M outputs two output signals having different polarities.
  • the upper end 600_1 of the battery charging housing 600 of the battery charging module 600M may have a suitable male and female fastening structure as described above to be mechanically coupled to the lower end 400_2 of the battery module 400M.
  • a first output signal of the battery charging module 600M for example, a negative power signal or ground may be connected to the negative electrode of a battery (not shown) accommodated therein through the battery housing 400.
  • the battery housing 400 has the above-described wiring, for example, an electrode, pogo pin, solder, bump, electrode pad, electrode pattern, lead wire, wiring pattern of a printed circuit board, and a printed circuit board. Some of the edge conductors, housings, wires or combinations thereof may be provided.
  • the second output signal of the battery charging module 600M may be a pogo pin, a solder, a bump, an electrode pad, or a wiring pattern of the printed circuit board provided at the upper end 600_1 of the battery charging housing 600.
  • a suitable electrical circuit member such as a part of the edge conductor of the printed circuit board, the housing, the wire or a combination thereof can be achieved by projecting and contacting the electrode 400EL of the battery module 400M.
  • the lower portion 600_2 of the battery charging module 600M may be provided with a battery charging port 600CP.
  • the battery charging port 600CP may have various standard or non-standard specifications such as, but not limited to, micro 5 pin, micro 8 pin, full size universal serial bus (USB) or mini size universal serial bus.
  • USB full size universal serial bus
  • the battery charging module 600 includes a suitable charging circuit such as a current mounted on a printed circuit board and And / or a voltage conversion circuit or battery protection circuit (not shown) may be provided.
  • the user combines a battery charging module 600M having a battery charging port 600CP that meets the specifications of the output terminal of the charger he has with the battery module 400M, and the output terminal of the charger at the battery charging port 600CP. After inserting the battery, the battery in the battery module 400M may be charged by supplying power to the battery charging port 600CP.
  • the lower end 600_2 of the battery charging module 600M may also have the same fastening structure as the lower end 400_2 of the battery housing 400.
  • the lower end 600_2 of the battery charging housing 600 may be closed using the cap member 500 used to close the lower end 400_2 of the battery housing 400.
  • a separate battery charging module (600M) corresponding to a charger having an output terminal of various standards to be used The user can expand the charging convenience of the battery module 400M at a low cost, and the battery charging module 600 can be individualized to be repaired and repaired separately from the battery module 400M, thereby minimizing maintenance and maintenance costs. Can be.
  • FIG. 4A is an exploded perspective view of the power control module 300M according to an embodiment of the present invention
  • FIG. 4B is a cross-sectional view taken along the axial direction (line K) of the power control module 300M.
  • the power control module 300M includes a power control housing 300.
  • the upper portion 300_1 of the power control unit housing 300 may be coupled to the liquid crystal container or the atomizer as shown in FIG. 1.
  • the lower end 300_2 of the power control unit housing 300 may be connected to the battery module 400M of FIG. 1.
  • the power control housing 300 may be provided with a through hole 300H for mounting a user input or output interface on a body surface. Through the through hole 300H, for example, a contact or capacitive button 300S that is an input interface may be exposed to the outside of the housing 300. Alternatively, an output interface such as a display may be exposed through the through hole 300H.
  • the power control housing 300 may have a suitable volume for receiving components, the cross section of which may be circular as shown. However, the shape of the cross section of the power control unit housing 300 is not limited thereto, and may have a polygonal shape such as an ellipse, a square, or a hexagon.
  • the power control housing 300 may be made of a conductive material, for example metal such as aluminum, copper, tungsten, stainless steel, or an alloy thereof, to function as the wiring of the first signal as described above.
  • a spacer structure 300G may be provided which is inserted and fixed inside the power control housing 300 as indicated by line K.
  • FIG. The spacer structure 300G can be stably fixed and supported in the power control housing 300 in such a way that simple small parts accommodated inside the power control housing 300 are simply inserted even without assembly by bonding and screwing.
  • at least a portion of the spacer structure 300 may have an outer surface having a curvature or angle so as to be compliant and interviewed along the inner surface of the housing 300.
  • the spacer structure 300G is integral and can be made of a material that is electrically insulating and can have a suitable strength.
  • the spacer structure 300G may be made of a synthetic resin based material that is elastic and has a suitable frictional force upon contact with the surface of the power control housing 300.
  • Slots 300GS may be provided at both sides of the spacer structure 300G.
  • the printed circuit board 300EP is accommodated by the sliding method using the slot 300GS inside the spacer structure 300G and supported by the slot 300GS.
  • the spacer structure 300G in which the slot 300GS is formed is easily inserted and the compressive stress is not applied to the printed circuit board 300EP.
  • the side wall 300GL may secure a constant clearance without contacting the inner wall of the power control housing 300.
  • Power control circuits such as logic circuits, memories, current and / or voltage conversion circuits may be mounted on the printed circuit board 300EP.
  • Side surfaces of the printed circuit board 300EP may include wiring bodies 300CPE1 and 300CPE2.
  • the wiring body may be, for example, an electrode, a pogo pin, a solder, a bump, an electrode pad, an electrode pattern, a lead wire, a wire, or a combination thereof, and preferably, a solder, bump, or electrode pattern.
  • the wirings 300CPE1 and 300CPE2 of the illustrated printed circuit board 300EP are solder.
  • Further electrodes 300E1 and 300E2 may be connected to the wiring bodies 300CPE1 and 300CPE2 of the printed circuit board 300EP. These electrodes 300E1 and 300E2 protrude out of the power control housing 300 to secure an electrical connection with adjacent modules coupled to the power control module 300M.
  • the wiring circuit for transmitting the second signal may be provided by the above-described wiring bodies 300CPE1 and 300CPE2 and the electrodes 300E1 and 300E2.
  • An insulator 300I for electrical insulation between the electrodes 300E1 and 300E2 and the power control housing 300 may be provided in the power control housing 300.
  • the spacer structure 300G may secure a space or a shape capable of assembling various electronic components mounted on the printed circuit board 300EP.
  • a switch button terminal 300SP for controlling power of a user is provided, and a switch member 300S disposed on the switch button terminal 300SP is inserted and the user contacts with a finger.
  • a hole is provided in the spacer structure 300G, through which the switch member 300S is exposed through the through hole 300H of the power control housing 300, and the spacer structure 300G is exposed to the switch member ( The 300S may also be fixed to prevent the power controller housing 300 from protruding out of the power control housing 300.
  • the spacer structure 300G may further include a slot for slots 300GS.
  • the wedge member 300AU When the wedge member 300AU is lodged as indicated by the line K 'in the wedge slot 300GS, the width of the spacer structure 300G is increased, and thus, it is more tightly adhered in the power control housing 300, so that fixing and support therebetween is made. Become more powerful
  • the lower end 300_2 of the power control housing 300 may be closed by the cap member 300TP.
  • the cap member 300TP may be formed of a conductive material such as metal, and may be formed of the same material as the power control housing 300.
  • the lower end portion 300_2 of the power control unit housing 300 may be fixed by inserting or screwing.
  • the power control housing 300 and the cap member 300TP may be in contact with each other to have an equipotential.
  • the cap member 300TP may be provided with a through hole 300TPH, and the electrode 300E2 may be exposed through the through hole 300TPH.
  • the ring-shaped insulator 300I described above may be provided around the through hole 300TPH to achieve electrical separation between the cap member 300TP and the electrode 300E2.
  • the cap member 300TP may be provided with a suitable fastening structure such as a thread for engaging with an adjacent module, for example, a battery module, through which the first signal of the battery module is transmitted, and the electrode The second signal of the battery module may be transmitted through 300E2.
  • the spacer structure 300G is easily fixed and supported simply by tightly fitting the power control housing 300, and printed by the spacer structure 300G.
  • the circuit board 300EP is fixed, and electrical and mechanical connection is achieved through the wiring body formed on the side of the printed circuit board 300EP, so that it is possible to assemble the parts intuitively and easily.
  • Possible power control module may be provided.
  • the power control unit module is modularized by the power control unit module, the power control unit module has a configuration independent of the battery or the atomizer, and maintenance thereof is easy.
  • upgrading the printed circuit board 300EP in which the logic circuit and the power control circuit are mounted improves the function of the power control module itself, thereby enhancing the commercialization of the electronic cigarette.
  • FIG. 5A is an exploded perspective view of the battery charging module 600M according to an embodiment of the present invention
  • FIG. 5B is a cross-sectional view taken along the axial direction (line L) of the battery charging module 600M.
  • the battery charging module 600M includes a battery charging housing 600.
  • the upper end 600_1 of the battery charging housing 600 is mechanically and electrically connected to the lower end 400_2 of the battery housing 400 as described with reference to FIG. 3.
  • the lower end 600_2 of the battery charging housing 600 may have a suitable fastening structure such as that shown in FIG. 3 so that it can be closed by the cap member 500 of FIG. 3 when the battery charging module 600M is not in use.
  • the battery charging housing 600 may have a suitable volume to receive the components, the cross section of which may be circular as shown. However, the shape of the cross section of the battery charging housing 600 is not limited thereto, and may have a polygonal shape such as an ellipse, a square, or a hexagon.
  • the battery charging housing 600 may be made of a conductive material, such as metal such as aluminum, copper, tungsten, stainless steel, or an alloy thereof, to serve as the wiring for the first signal.
  • the battery charging module 600M includes a spacer structure 600G which is inserted and fixed inside the battery charging housing 600, as indicated by line L.
  • FIG. The spacer structure 600G is reliably fixed in the battery charging housing 600 in such a way that the complex small parts housed inside the battery charging housing 600 are simply inserted even without assembly such as gluing and screwing. And to be supported.
  • the spacer structure 600G may have an outer surface having a curvature or angle that conforms along the inner surface of the battery charging housing 600.
  • the spacer structure 600G is integral and can be made of a material that is both electrically insulating and capable of having a suitable strength.
  • the spacer structure 600G may be made of a synthetic resin-based material that is elastic and has a suitable frictional force upon contact with the inner surface of the battery charging housing 600.
  • Both ends of the spacer structure 600G are fully open or as shown, and the lower end 600G2 of the spacer structure 600G disposed at the lower end 600_2 of the battery charging housing 600 may include a battery charging port into which a charging jack is inserted. It may have a port groove (600CP) for opening 600RP).
  • the upper end 600G1 of the spacer structure 600G may be fully open to accommodate the printed circuit board 600EP.
  • Both sides of the spacer structure 600G may be provided with a slot 600GS for accommodating and supporting the printed circuit board 600EP by a sliding method.
  • the printed circuit board 600EP is accommodated and supported in a sliding manner by using the slot 600GS inside the spacer structure 600G.
  • the spacer structure 600G in which the slot 600GS is formed is easily inserted and the compressive stress is not applied to the printed circuit board 300EP.
  • the side wall of the can secure a constant play without contacting the inner wall of the battery charging housing 600.
  • the entire outer surface of the spacer structure 600G may have a curved surface that adheres completely to the inner wall of the battery charging housing 600.
  • the spacer structure 600G may further include a slot for a wedge, such as the spacer structure 300G of the power control module 300M.
  • the battery charging port 600RP described above is mounted on the printed circuit board 600EP.
  • power is a collection of input and output terminals in combination with various standard or non-standard external charging jacks such as micro 5 pin, micro 8 pin, full size universal serial bus (USB) or mini size universal serial bus.
  • the side surface of the printed circuit board 600EP may include a wiring body.
  • the wiring body may be, for example, an electrode, a pogo pin, a solder, a bump, an electrode pad, an electrode pattern, a lead wire, a wire, or a combination thereof, and preferably, a solder, bump, or electrode pattern.
  • the wirings 600CPE1 and 600CPE2 of the illustrated printed circuit board 600EP are solder.
  • Further electrodes 600E may be connected to the wirings 600CPE1 and 600CPE2 of the printed circuit board 600EP. The electrode 600E protrudes out of the battery charging housing 600 to secure an electrical connection with adjacent modules coupled to the battery charging module 600M.
  • a wiring circuit for transmitting the second signal can be provided.
  • the other wiring body 600CPE2 of the printed circuit board 600EP contacts the cap member 600TP for closing the battery charging housing 600 and / or the upper end 600_1 of the battery charging housing 600, thereby.
  • a wiring circuit for transmitting the first signal may be provided.
  • the lower end 600_2 of the battery charging housing 600 may be closed by the cap member 300TP.
  • the cap member 600TP is formed of a conductive material such as metal, and may be formed of the same material as the battery charging housing 600.
  • the cap member 600TP may be fixed to the lower end 600_2 of the battery charging housing 600 by inserting or screwing.
  • the battery charging housing 600 and the cap member 600TP may be in contact with each other to have an equipotential.
  • the cap member 600TP may be provided with a through hole 600TPH, and the electrode 600E may be exposed through the through hole 600TPH.
  • the aforementioned ring-shaped insulator 600I is provided around the through hole 600TPH, so that electrical separation between the cap member 600TP and the electrode 600E can be achieved.
  • the cap member 600TP may have a suitable fastening structure for engaging with an adjacent module, for example, a battery module, and the first signal of the battery module is transmitted through the cap member 600TP, and the electrode 600E is connected to the cap member 600TP. Through the second signal of the battery module may be transmitted.
  • the spacer structure 600G is easily fixed and supported simply by tightly fitting in the battery charging module 600M, whereby the printed circuit board 600EP is The battery charging module is fixed, and the electrical and mechanical connection is achieved through the wiring formed on the side of the printed circuit board 600EP, so that the assembly of the parts can be intuitive and easy, and the battery charging module can be easily disassembled and economically maintained and repaired. Can be.
  • the battery charging module is provided separately from the battery housing, its independent maintenance and repair is possible, thereby realizing economic feasibility.
  • the merchandise may be improved.
  • 6A to 6C are cross-sectional views illustrating internal circuits and fastening structures of the battery modules 400A, 400B, and 400B according to various embodiments of the present invention.
  • the battery modules 400A, 400B, and 400C include the battery housing 400 shown in FIG. 1.
  • the battery BT may be accommodated in the battery housing 400 in consideration of the positive electrode (+) and the negative electrode ( ⁇ ).
  • the battery BT may be inserted and accommodated contrary to the illustration, and may be inserted regardless of the polarity of the battery, but the present invention is not limited thereto.
  • the battery BT may be a primary battery such as a battery of various standards or a secondary battery capable of repeated charging, and the present invention is not limited thereto.
  • the battery housing 400 may have a suitable structure to accommodate the battery BT therein.
  • the battery housing 400 may be composed of a plurality of detachable pieces for inserting or removing a battery BT, and the illustrated battery housing 400 is composed of three pieces. These pieces are detachable in such a way that they are fastened to each other as indicated by 400T1 and 400T2.
  • the number and detachment of the pieces are exemplary, and may have various configurations such as a screw thread or a one-touch cap, and the present invention is not limited thereto.
  • the electrical circuit of the battery BT accommodated in the battery housing 400 may be provided by the wiring bodies.
  • the positive electrode (+) of the battery BT is connected to the electrode 400E1 and the wiring 400L1 of the upper end 400_1 of the housing 400 or through the electrode 400 and the upper end 400_1 of the battery BT.
  • the electrodes 400E1 may be in direct contact and electrically connected to each other.
  • the positive electrode (+) of the battery BT may be connected to the other electrode 400E2 of the lower end 400_2 of the battery housing 400 through the wiring 400L1.
  • a wiring body for providing a second signal for example, the same anode 400E2 may be provided to both the upper end 400_1 and the lower end 400_2 of the battery housing 400.
  • These electrodes 400E1 and 400E2 may be exposed like the electrode 400E of FIG. 1 and electrically connected to another adjacent housing.
  • the negative electrode ( ⁇ ) of the battery BT may be electrically connected to the battery housing 400 which is a conductor through another wiring 400L2, whereby the battery housing 400 may be a wiring of the first signal.
  • the first signal which is negative or ground
  • the second signal which is positive
  • the electrode 400E1 and the battery of the upper end 400_1 of the battery housing 400 may be reversed.
  • the negative electrode of the battery BT may be connected to the electrode 400E2 of the lower end 400_2 of the housing 400, and the positive electrode of the battery BT may be connected to the battery housing 400.
  • the wirings electrodes 400E1 and 400E2 and the wirings 400L1 and 400L2 may be insulated by a suitable supporting structure or an insulator, and the drawings are omitted in the drawings. Reference may be made to the disclosure.
  • the wiring bodies are the front electrodes 400E1 and 400E2 and the wirings 400L1 and 400L2, but this is exemplary and the present invention is not limited thereto.
  • the electrodes may be pogo pins, solders, bumps, electrode pads, electrode patterns, lead wires, wiring patterns of printed circuit boards, portions of edge conductors of printed circuit boards, housings, wires, or a combination thereof.
  • the wirings may also be used with or replaced by pogo pins, solder, bumps, electrode pads, electrode patterns, wiring patterns of printed circuit boards, portions of edge conductors of printed circuit boards, housings, wires, or combinations thereof. May be In the present specification, members constituting these electrical circuits are collectively referred to as wiring bodies, and the wiring bodies include electrodes, pogo pins, solders, bumps, electrode pads, electrode patterns, lead wires, wiring patterns of printed circuit boards, and printing. It may also refer directly to a part of the edge conductor of the circuit board, the housing, the wire or a combination thereof.
  • the upper end 400_1 and the lower end 400_2 of the battery housing 400 may have other adjacent module members, for example, a liquid container 100, a housing 300 of a power control unit, a cap member 500, and a charging module described later. Or it has the same shape to be able to fasten either side with the atomizer. Accordingly, the upper end 400_1 and the lower end 400_2 of the battery modules 400A, 400B, and 400C may achieve the same fastening manner and the same polarity as the housings of the other adjacent module members to connect regardless of their directions. Can be.
  • the upper end 400_1 and the lower end 400_2 of the battery housing 400 have, for example, the same fastening structure 400RS for fastening with the adjacent module member. Is achieved.
  • the fastening structure 400RS of the upper end 400_1 and the lower end 400_2 of the battery housing 400 may be the same as the housing 400 shown in FIG. 1.
  • An extension part 400R protruding from the surfaces of the upper end part 400_1 and the lower end part 400_2 of the 400 and a threaded pattern 400S formed on the outer surface of the extension part 400R may be provided.
  • the electrodes 400E1 and 400E2 may be exposed at the center of the fastening structure 400RS.
  • the fastening structure 400RS becomes the wiring of the first signal, and the electrodes 400E1 and 400E2 electrically isolated from the fastening structure 400RS become the wiring of the second signal.
  • the fastening structure 400RS is exemplary, and within the scope of the present invention, the upper end portion 400_1 and the lower end portion 400_2 of the battery housing 400 both have male and female couplings with adjacent module members as long as they have the same fastening structure. Can have various variations.
  • the electrical connection of the same polarity with the other adjacent module members, the polarity and location of the power source exposed to the outside of the battery housing 400 is the same at both the upper end 400_1 and the lower end 400_2 of the battery housing 400 Can be achieved.
  • the electrode 400E1 of the second signal is exposed at the upper end 400_1 of the battery housing 400, and the electrode 400E2 of the second signal is also exposed at the lower end 400_2 of the battery housing 400.
  • the exposed surface of the battery housing 400 for example the fastening structure 400RS, functions as an electrode of the first signal.
  • the outer surface of the battery housing 400 is completely exposed, but the outer surface of the battery housing 400 is coated on the coating layer except for the fastening structure 400RS for decorative or electrical shielding purposes. May be electrically passivated.
  • the fastening of the electrodes 400E1 and 400E2 of the second signal exposed to the upper end 400_1 or the lower end 400_2 of the battery housing 400 and the electrodes of the first signal around the electrodes 400E1 and 400E2 (eg, fastening).
  • Structure 400SL) can be electrically connected simultaneously with mechanical engagement with other adjacent module members.
  • the other adjacent module members may have suitable electrodes for electrically connecting with the electrodes 400E1, 400E2 of the battery housing 400.
  • the protruding wiring body such as the electrode 300E of the power control housing 300 of FIG. 1 is likely to contact the electrodes 400E1 and 400E2 of the battery housing 400.
  • the positive electrodes 400E1 and 400E2 of the battery housing 400 may be electrode pads as shown in FIG. 6A or pogo pins which are electrodes that are elastically deformable as shown in FIG. 6B or 6C
  • Adjacent module members, such as liquid containers, power control modules may include relative electrodes or pogo pins to achieve reliable electrical connection with the electrode pads or pogo pins.
  • the electrode of the first signal of the battery housing 400 is not required separately, as described above, the electrical connection of the first signal can be achieved by mechanical fastening between the other adjacent module members and the housing.
  • the electrodes 400E1 and 400E2 have a positive polarity and the housing 400 has a negative polarity, this is exemplary and may be described in the same manner when the polarities are reversed. There will be.
  • FIG. 7 is a cross-sectional view for explaining the electrical and mechanical coupling between the battery module 400D and the adjacent module 600 according to an embodiment of the present invention.
  • the battery module 400D may include a battery housing 400 accommodating a battery BT therein.
  • the upper end 400_1 and the lower end 400_2 of the battery housing 400 have the same fastening structure and the same polarity.
  • wiring bodies suitable for the battery BT inside the battery housing 400 may be provided.
  • the wiring bodies may be electrodes, pogo pins, solders, bumps, electrode pads, electrode patterns, lead wires, wiring patterns of printed circuit boards, portions of edge conductors of printed circuit boards, housings, wires, or a combination thereof.
  • the wiring body may include a printed circuit board 400EP, 400EP1, 400EP2, an electrode pad 400EL, and wires 400L1, 400L2.
  • the electrode pad 400EL of the second signal is provided on the printed circuit board 400EP, is exposed through the upper end 400_1 of the battery housing 400, and the electrode pad 400EL of the second signal on the lower end 400_2 side.
  • An insulator 400I may be inserted between the electrode pad 400EL and the battery housing 400 to electrically separate the fastening structure 400RS of the electrode pad 400EL and the battery housing 400.
  • the positive electrode of the battery BT is connected to the electrode pad 400EL through the first wiring 400L1 and the printed circuit board 400EP of the upper part 400_1, and the printed circuit of the upper part 400_1.
  • the other first wiring 400L1 of the second signal is connected to the first printed circuit board 400EP1 of the lower end 400_2 of the battery housing 400 via the substrate 400EP, and through the conductive spacers 400SP.
  • the second signal is transmitted to the second printed circuit board 400EP2, and the exposed electrode pad 400EL of the second printed circuit board 400EP2 receives the second signal, and thus, the electrode pad 400EL of the upper end 400_1.
  • the first and second printed circuit boards 400EP2_1 and 400EP2_2 disposed on the lower end 400_2 side of the battery housing 400 may include a wiring body 400F that is displaceable in a vertical direction, for example, a pogo pin. They may overlap each other to switch electrical connections between the printed circuit boards 400EP2_1 and 400EP2_2.
  • the second printed circuit board 400EP2_2 has a through hole 400H, and an upper surface of the wiring body 400F is exposed through the through hole 400H.
  • Each of the first and second printed circuit boards 400EP2_1 includes a wiring pattern of a first signal, and a wire and a wiring are connected between the cathode of the battery BT and the wiring pattern of the first signal of the first printed circuit board 400EP2_1.
  • the same second wiring 400L2 is connected, and the wiring pattern of the first signal of the first printed circuit board 400EP2_1 is electrically connected to the wiring body 400F.
  • the second printed circuit board 400EP2_2 may also include a wiring pattern of the first signal that is always connected to transfer the first signal to the battery housing 400.
  • the wiring pattern of the first signal of the second printed circuit board 400EP2_2 is connected to the battery housing 400.
  • a circuit for transferring the first signal of the battery housing 400 and the wiring pattern of the first signal of the second printed circuit board 400EP2_2 may be established at all times.
  • the electrical connection between the wiring pattern of the first signal of the first printed circuit board 400EP2_1 and the wiring pattern of the first signal of the second printed circuit board 400EP2_2 is achieved through the wiring body 400F.
  • the wiring pattern of the first signal of the first printed circuit board 400EP2_1 and the second printed circuit board may be opened, thereby preventing the transmission of the first signal through the battery housing 400.
  • a lower end portion 400_2 of the battery housing 400 includes a pin member that is preferably elastically displaceable through a through hole of the second printed circuit board 400EP2_2. It can provide a switching structure comprising.
  • the battery module 400D is powered by an external adjacent module 700 connected to the upper end 400_1. Is not supplied, and when the pin member is released again to restore the wiring assembly 400F, when the wiring assembly 400F is restored and contacts the second printed circuit board 400EP2_2 again, power is supplied to the external adjacent module 600. Can be supplied.
  • the external adjacent module 600 may be the above-described power control module 300M or the liquid container 100, which is exemplary only, but the present invention is not limited thereto.
  • Reference numeral 300D denotes an exemplary display portion of the output interface.
  • 300F is a pogo pin which is a displaceable wiring, and the pogo pin 300F and the closing member 300T are electrically separated by the insulator 300I, and the closing member 300T is a thread for fastening with the battery module 400D.
  • Fastening structure 300T such as may be provided.
  • the electrical connection of the second signal is achieved by the contact between the pogo pin 300F and the wiring body 400EL, and the contact between the closing member 300T and the battery housing 400 is achieved.
  • the electrical connection of one signal can be achieved.
  • a cap member 500 for protecting the electrode 400EL is coupled to the lower end 400_2 of the battery housing 400, so that the lower end 400_2 of the battery housing 400 may be closed.
  • FIG. 8 illustrates a battery charging module 700M coupled to a battery module 400M according to an embodiment of the present invention.
  • the external adjacent module may include a battery charging module 700M.
  • the battery charging module 700M outputs two output signals having different polarities.
  • the upper end 700_1 of the housing 700 of the battery charging module 700M may have a suitable male and female fastening structure as described above to be mechanically coupled to the lower end 400_2 of the battery module 400M.
  • a first output signal of the battery charging module 700M for example, a negative power signal or ground may be connected to the negative electrode of a battery (not shown) accommodated therein through the battery housing 400.
  • the battery housing 400 has the above-described wiring, for example, an electrode, pogo pin, solder, bump, electrode pad, electrode pattern, lead wire, wiring pattern of a printed circuit board, and a printed circuit board. Some of the edge conductors, housings, wires or combinations thereof may be provided.
  • a second output signal of the battery charging module 700M may be a pogo pin, a solder, a bump, an electrode pad, or a wiring pattern of a printed circuit board provided at an upper portion 700_1 of the battery charging housing 700.
  • a suitable electrical circuit member such as a part of the edge conductor of the printed circuit board, the housing, the wire or a combination thereof can be achieved by projecting and contacting the electrode 400EL of the battery module 400M.
  • the lower portion 700_2 of the battery charging module 700M may be provided with a battery charging port 700CP.
  • the battery charging port 700CP may have various specifications such as, but not limited to, a micro 5-pin, micro 8-pin full size universal serial bus (USB) or a mini size universal serial bus.
  • USB universal serial bus
  • the battery charging module 700 has a suitable charging circuit, for example, a current mounted on a printed circuit board and And / or a voltage conversion circuit or battery protection circuit (not shown) may be provided.
  • the user combines the battery charging module 700M having a battery charging port 700CP that meets the specifications of the output terminal of the charger he has with the battery module 400M, and the output terminal of the charger at the battery charging port 700CP. After inserting the battery, the battery in the battery module 400M may be charged by supplying power to the battery charging port 700CP.
  • the lower end 700_2 of the battery charging module 700M may also have the same fastening structure as the lower end 400_2 of the battery housing 400.
  • the lower end portion 700_2 of the battery charging housing 700 may be closed using the cap member 500 used to close the lower end portion 400_2 of the battery housing 400.
  • an individual battery charging module 700M corresponding to a charger having output terminals of various standards may be used.
  • the user can extend the charging convenience of the battery module 400M at a low cost, and the battery charging module 700 can be individualized to be repaired and repaired separately from the battery module 400M, thereby minimizing maintenance and maintenance costs. Can be.

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Abstract

La présente invention concerne une cigarette électronique, qui peut être commodément manipulée et réparée. Un mode de réalisation de la présente invention concerne un module d'unité de commande de puissance comprenant : un boîtier de batterie ayant une extrémité supérieure couplée à un récipient à cristaux liquides ou à un atomiseur, une extrémité inférieure couplée à un module de batterie, et une cavité formée à l'intérieur ; une structure d'espaceur insérée et fixée dans la cavité du boîtier de batterie ; une carte de circuit imprimé fixée et supportée par la structure d'espaceur, un circuit de commande de puissance étant monté sur la carte de circuit imprimé ; et un corps de câblage, qui est électriquement connecté au circuit de commande de puissance, qui est séparée électriquement du boîtier de batterie, et qui est exposé à l'extérieur d'au moins l'une parmi l'extrémité supérieure et l'extrémité inférieure du boîtier de batterie.
PCT/KR2015/005793 2014-06-09 2015-06-09 Composant modulaire pour cigarette électronique WO2015190810A1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
KR2020140004336U KR200488466Y1 (ko) 2014-06-09 2014-06-09 모듈화된 전자 담배
KR20-2014-0004336 2014-06-09
KR20-2014-0004334 2014-06-09
KR2020140004334U KR200488465Y1 (ko) 2014-06-09 2014-06-09 전자 담배용 모듈형 부품

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