WO2016101150A1 - 电池杆、电子烟及电池杆的组装方法 - Google Patents
电池杆、电子烟及电池杆的组装方法 Download PDFInfo
- Publication number
- WO2016101150A1 WO2016101150A1 PCT/CN2014/094664 CN2014094664W WO2016101150A1 WO 2016101150 A1 WO2016101150 A1 WO 2016101150A1 CN 2014094664 W CN2014094664 W CN 2014094664W WO 2016101150 A1 WO2016101150 A1 WO 2016101150A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- battery
- mounting seat
- sleeve
- sensing controller
- connecting sleeve
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M50/00—Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
- H01M50/20—Mountings; Secondary casings or frames; Racks, modules or packs; Suspension devices; Shock absorbers; Transport or carrying devices; Holders
- H01M50/204—Racks, modules or packs for multiple batteries or multiple cells
- H01M50/207—Racks, modules or packs for multiple batteries or multiple cells characterised by their shape
- H01M50/213—Racks, modules or packs for multiple batteries or multiple cells characterised by their shape adapted for cells having curved cross-section, e.g. round or elliptic
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- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
- A24F40/48—Fluid transfer means, e.g. pumps
- A24F40/485—Valves; Apertures
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/50—Control or monitoring
- A24F40/51—Arrangement of sensors
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/60—Devices with integrated user interfaces
-
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/10—Devices using liquid inhalable precursors
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M2200/00—Safety devices for primary or secondary batteries
- H01M2200/30—Preventing polarity reversal
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Definitions
- the invention belongs to the technical field of electronic cigarettes, and particularly relates to a method for assembling a battery rod, an electronic cigarette and a battery rod.
- the electronic cigarette in the prior art includes an atomizer and a battery rod, wherein, as shown in FIG. 1, the battery rod includes a battery sleeve 11', a battery 12' housed in the battery sleeve 1 ⁇ , a control unit for controlling the battery 12' to supply power to the atomizer and a lamp cap 13' inserted at one end of the battery sleeve 1 , the control assembly includes a flow for sensing a smoking action to control the battery 12 ′
- the atomizer-powered airflow sensing controller 15' ie, the microphone
- the wire for electrically connecting to the battery 12' and the lamp for simulating the burning of the cigarette
- the lamp cap 13' includes the inserted battery sleeve 1
- the inner connecting sleeve and the cap body outside the battery sleeve 1 are disposed directly on the connecting sleeve, and the end surface of the airflow sensing controller 15' facing the lamp cap 13' is a connecting end face, and the lamp
- the airflow sensing controller 15' is assembled and mounted in the lamp cap 13', and since the wire itself has a certain flexibility, the wire is liable to be offset, which results in The wire is offset from the wire trough 131' to between the connecting sleeve and the battery sleeve 1 , so that the wire is easily scratched or broken, causing a short circuit or open circuit problem; and the air flow sensing controller 15' is loaded During the operation of the lamp cap 13', the airflow sensing controller 15' is directly squeezed into the cap 13', and the position of the airflow sensing controller 15' in the cap 13' is not controlled, which is easily caused by the squeeze.
- the connecting end face of the airflow sensing controller 15' is closer to the cap of the lamp cap 13', so that the light of the lamp is emitted from the cap of the lamp cap 13', the light distribution is uneven, and the middle region is brighter than the edge region, imitating The effect of burning cigarettes is poor.
- the object of the present invention is to provide a method for assembling a battery rod, an electronic cigarette and a battery rod, which can avoid short circuit and open circuit of the circuit, and improve the effect of imitating the burning of the cigarette. .
- the technical solution adopted by the present invention is a battery rod for combining with an atomizer to form an electronic cigarette, the battery rod including a battery sleeve and being housed in a battery sleeve a battery, a control assembly for controlling the battery to power the atomizer, and a lamp cap interposed at one end of the battery sleeve, the control assembly including a flow for inducing a smoking action to control the battery An airflow sensing controller powered by the atomizer, a wire for electrically connecting to the battery and the airflow sensing controller, and a lamp for simulating the burning of the cigarette, the lamp cap including a connecting sleeve inserted in the battery sleeve and located at the a cap outside the battery sleeve;
- the battery rod further includes a mounting seat, the mounting seat is sleeved in the connecting sleeve, the airflow sensing controller is sleeved in the mounting seat, and the light fixture is disposed in the airflow sensing control On the end face of the lamp cap facing the lamp cap;
- the end of the connecting sleeve facing the battery is provided with a card slot, and the outer surface of the mounting seat is convexly provided with a positioning boss, and the positioning boss cooperates with the card slot to enable
- the mounting seat and the connecting sleeve are circumferentially fixed;
- the inner surface of the mounting seat is convexly provided with a limiting step, and the airflow sensing controller is sleeved in the mounting seat, the airflow sensing controller faces the end surface of the lamp cap and the The limiting step is in contact with each other such that the limiting step defines a position at which the airflow sensing controller is sleeved on the mounting seat and defines a spacing of the luminaire to the cap body;
- the side wall of the mounting bracket is provided with a wire trough for routing the wire from the end surface of the airflow sensing controller to the battery, and an airflow cavity is formed between the control component and the lamp cap.
- the lamp cap is provided with an air inlet communicating with the air flow chamber.
- the connecting sleeve comprises an interference connecting section and a guiding connecting section connected to each other, and the plurality of the card slots are formed on the bow guiding section and spaced apart;
- the interference connecting section is connected to the cap body, and an outer circumferential diameter of the interference connecting section is larger than a diameter of a pipe in the battery sleeve, so that the connecting sleeve is interference-fitted with the battery sleeve.
- an outer surface of the guiding connecting section is formed with a tapered structure inclined toward a direction of a central axis of the battery, and a minimum diameter of an outer circumference of the guiding connecting section is smaller than a diameter of a pipe in the battery sleeve.
- the connecting sleeve further includes an end of the guiding connecting section away from the end of the interference connecting section Fastening a connecting section, the fastening connecting section extending from the end surface of the lead guiding piece toward the battery direction, the inner surface of the fastening connecting section forming a cone having a direction inclined toward the central axis of the battery
- the air inlet hole comprises an air inlet, an air venting groove and an air outlet port which are connected in series, wherein the air inlet opening is disposed at a periphery of the cap body, and the air venting groove edge
- the axial direction of the connecting sleeve is disposed, and the position of the air outlet opening corresponds to a position of the air flow chamber and communicates with the air flow chamber.
- connecting sleeve is provided with a vertical through slot facing the battery direction, and the vertical through slot communicates with the air outlet to make the air inlet hole and the battery sleeve The inside of the tube is connected.
- the outer surface of the connecting sleeve is provided with an air inlet groove communicating with the inside of the battery sleeve and the outside of the battery rod along the axial direction of the connecting sleeve.
- the inner surface of the cap body has a spherical structure such that the distance between the lamp and any point on the inner surface of the cap is equal.
- the spacing between the luminaire and any point on the inner surface of the cap is 2.5 mm - 3 mm.
- the outer circumferential diameter of the cap body is larger than the diameter of the inner tube of the battery sleeve to form a locking step for preventing the cap from entering the battery sleeve.
- the mounting seat is provided with a slot corresponding to the position of the positioning boss and facing the battery.
- the technical solution adopted by the present invention is an electronic cigarette comprising an atomizer connected to each other and a battery rod, the battery rod including a battery sleeve and being housed in the battery cover a battery in the tube, a control assembly for controlling the battery to supply power to the atomizer, and a lamp cap inserted at one end of the battery sleeve, the control assembly including a gas flow for sensing a smoking action to control the battery
- An airflow sensing controller powered by the atomizer, a wire for electrically connecting to the battery and the airflow sensing controller, and a lamp for simulating the burning of the cigarette, the lamp cap including a connecting sleeve inserted in the battery sleeve and a cap located outside the battery sleeve;
- the battery rod further includes a mounting seat, the mounting seat is sleeved in the connecting sleeve, the airflow sensing controller is sleeved in the mounting seat, and the light fixture is disposed in the airflow sensing control On the end face of the lamp cap facing the lamp cap;
- the end of the connecting sleeve facing the battery is provided with a card slot, and the outer surface of the mounting seat is convexly provided with a positioning boss, and the positioning boss cooperates with the card slot to enable The mounting seat and the connecting sleeve are circumferentially fixed;
- the inner surface of the mounting seat is convexly provided with a limiting step, and the airflow sensing controller is sleeved in the mounting seat, the airflow sensing controller faces the end surface of the lamp cap and the The limiting step is in contact with each other such that the limiting step defines a position at which the airflow sensing controller is sleeved on the mounting seat and defines a spacing of the luminaire to the cap body;
- the side wall of the mounting bracket is provided with a wire trough for routing the wire from the end surface of the airflow sensing controller to the battery, and an airflow cavity is formed between the control component and the lamp cap.
- the lamp cap is provided with an air inlet communicating with the air flow chamber.
- the connecting sleeve comprises an interference connecting section and a guiding connecting section connected to each other, and the plurality of the card slots are formed on the bow guiding section and spaced apart;
- the interference connecting section is connected to the cap body, and an outer circumference diameter of the interference connecting section is larger than a diameter of a pipe in the battery sleeve, so that the connecting sleeve is interference-fitted with the battery sleeve.
- the outer surface of the guiding connecting section is formed with a tapered structure inclined toward the central axis direction of the battery, and a minimum diameter of an outer circumference of the guiding connecting section is smaller than a diameter of a pipe inside the battery sleeve.
- the connecting sleeve further includes a fastening connecting section at an end of the guiding connecting section away from the interference connecting section, the fastening connecting section is from the bow guiding section to the The end face of the battery extends.
- the air inlet hole comprises an air inlet, an air venting groove and an air outlet port which are connected in series, wherein the air inlet opening is disposed at a periphery of the cap body, and the air venting groove edge
- the axial direction of the connecting sleeve is set, and the position of the air outlet opening corresponds to a center position of the air flow chamber.
- the connecting sleeve is provided with a vertical through slot facing the battery direction, and the vertical through slot communicates with the air outlet to make the air inlet hole and the battery sleeve The inside of the tube is connected.
- the technical solution adopted by the present invention is a battery rod assembling method, the battery rod is the battery rod according to claim 1, and the assembling method comprises the following steps: [0035] S1: connecting one end of the wire to the airflow sensing controller;
- S5 placing the battery inside the battery sleeve and placing the connection sleeve inside the battery sleeve.
- the present invention can obtain the following beneficial technical effects:
- the card slot of the connecting sleeve and the positioning boss of the mounting seat define the positional relationship between the lamp cap and the mounting seat, and the airflow sensing controller faces the end face and the limit of the lamp cap.
- the step resistance defines the positional relationship between the airflow sensing controller and the mounting seat, and the luminaire is disposed on the end surface of the airflow sensing controller facing the lamp cap. Therefore, the positional relationship between the luminaire and the lamp cap is determined, so that the luminaire can be set
- the proper spacing between the lamp cap and the lamp cap is achieved by uniformly emitting light from the lamp cap and improving the effect of imitating the burning of the cigarette.
- the wire is first placed on the wire trough of the side wall of the mounting seat, that is, the wire is first placed inside the connecting sleeve, thereby avoiding the prior art that the wire is offset to the connecting sleeve and the battery sleeve during the installation process.
- the problem that the wires are easily scratched or broken to short circuit or open the circuit is avoided, and the structure of the invention is simple and compact, and the assembly is facilitated, thereby greatly improving the production efficiency.
- FIG. 1 is a schematic cross-sectional structural view of a prior art battery rod.
- FIG. 2 is a cross-sectional structural view showing a first viewing angle of a battery rod according to an embodiment of the present invention.
- FIG. 3 is an enlarged schematic structural view of the airflow sensing controller, the mounting seat and the lamp cap of FIG. 2.
- FIG. 4 is a cross-sectional structural view showing a second viewing angle of a battery rod according to an embodiment of the present invention.
- FIG. 5 is a schematic structural view of a first view of a lamp cap according to an embodiment of the present invention.
- FIG. 6 is a schematic structural view of a second perspective view of a lamp cap according to an embodiment of the present invention.
- FIG. 7 is a schematic enlarged view of A of FIG. 6.
- FIG. 8 is a schematic cross-sectional structural view of an air intake hole according to an embodiment of the present invention.
- FIG. 9 is a schematic structural view of a first viewing angle of a mounting seat according to an embodiment of the present invention.
- FIG. 10 is a schematic structural view of a second viewing angle of a mounting seat according to an embodiment of the present invention.
- FIG. 11 is a schematic structural view of a third viewing angle of a mounting seat according to an embodiment of the present invention.
- FIG. 12 is a schematic view showing a flow direction of a helium gas flow using a battery rod according to an embodiment of the present invention.
- FIG. 13 is a schematic structural view of a lamp cap according to Embodiment 2 of the present invention.
- FIG. 14 is a schematic cross-sectional structural view of an air intake hole according to Embodiment 2 of the present invention.
- FIG. 15 is a schematic view showing a flow direction of a helium gas flow using a battery rod according to a second embodiment of the present invention.
- FIG. 16 is a schematic exploded view of an electronic cigarette according to Embodiment 3 of the present invention.
- FIG. 1 includes:
- ⁇ -battery rod 1 ⁇ -battery casing, 12'-battery, 13'-light cap, 13 ⁇ -trunk trough, 15'-air flow sensing controller;
- FIG. 2 to FIG. 16 include:
- the present invention adds a mounting seat, the outer surface of the mounting seat is convexly provided with a positioning boss, and the inner surface is convexly provided with a limiting step, and the side wall of the mounting seat is provided for the supply
- the wire is routed from the end face of the airflow sensing controller to the wire trough of the battery, and the end of the connecting sleeve facing the battery is provided with a card slot matched with the positioning boss, and the airflow sensing controller is sleeved on the airflow sensing controller.
- the end of the airflow sensing controller in the mount faces the end face of the lamp cap against the limit step.
- the first embodiment is an embodiment of a battery rod.
- the battery rod 1 is used in combination with the atomizer 2 to form an electronic cigarette, and the battery rod 1 includes a battery can 11 A battery 1 housed in the battery can 11 , a control unit 15 for controlling the battery 12 to supply power to the atomizer 2 , a lamp cap 13 inserted at one end of the battery can 11 , and a mounting seat 14 .
- the control component 15 includes an airflow sensing controller 151 for sensing the airflow generated by the smoking action to control the battery 12 to supply the atomizer 2, and a wire 152 for electrically connecting the battery 12 and the airflow sensing controller 151 ( The wire 152 can be seen in FIG.
- the airflow sensing controller 151 is a circuit module integrated with an inductive circuit and a control circuit, and the specific circuit is a prior art, and details are not described herein.
- the lamp cap 13 includes a connecting sleeve 131 inserted in the battery sleeve 11 and a cap 132 located outside the battery sleeve 11, and the connecting sleeve 131 faces the battery 12.
- the end of the port is provided with a card slot 1311.
- the outer surface of the connecting sleeve 131 is provided with an air inlet groove 134 communicating with the inside of the battery sleeve 11 and the outside of the battery rod 1 along the axial direction of the connecting sleeve 131, through which the air in the smoking process can be improved.
- the amount of air intake more air can enter the atomizer 2 and atomize with the smoke oil, increase the amount of smoke, improve User experience.
- the diameter of the outer circumference of the cap 132 is larger than the diameter of the tube in the battery sleeve 11 to form a latching step 136 for preventing the cap 132 from entering the battery sleeve 11.
- the latching step 136 can effectively prevent the cap 132 from falling into the battery sleeve.
- the air inlet hole 133 includes an air inlet 1331, an air venting groove 1 332 and an air outlet 1333 which are connected in series, and the position of the air inlet 1331 is set in the cap body.
- the periphery of the 132, the ejector groove 1332 is disposed along the axial direction of the connecting sleeve 131, and the position of the air outlet 1333 is corresponding to the position of the airflow chamber 16 and communicates with the airflow chamber 16, and the position is set by the air outlet 1333.
- the external external air enters the airflow chamber 16 and the airflow is generated closer to the airflow sensing controller 151, so that the airflow sensing controller 151 detects the airflow, and the sensitivity of the airflow sensing controller 151 is improved.
- FIG. 3 it is a schematic diagram of the assembled state between the airflow sensing controller 151, the mounting seat 14 and the lamp cap 13.
- the mounting seat 14 is sleeved in the connecting sleeve 131, and the airflow sensing controller 151 is sleeved. Inside the mount 14.
- the outer surface of the mounting seat 14 is convexly provided with a positioning boss 141, and the positioning boss 14 1 cooperates with the card slot 1311 to make the mounting seat 14 and the connecting sleeve 131 circumferentially.
- the inner surface of the mounting seat 14 is fixed with a limiting step 143, and after the airflow sensing controller 151 is sleeved in the mounting seat 14, the airflow sensing controller 151 is opposite to the limiting step 143 toward the end surface of the lamp cap 13 to
- the limit step 143 is defined to define the position of the airflow sensing controller 151 on the mount 14 and to define the spacing of the luminaire 153 to the cap 132.
- the side wall ⁇ is provided with a wire slot 1 42 for the wire 152 to be routed from the end face of the air flow sensing controller 151 to the battery 12.
- the mounting seat 14 is further provided with a slot 145 corresponding to the position of the positioning boss 141 and facing the battery 12, by which the side wall of the lamp cap 13 can generate a larger deformation amount.
- the inner surface of the mounting seat 14 and the end facing the battery 12 are provided with a mounting ramp chamfer 144, which guides the airflow sensing controller 151 in the mounting seat 14. Thereby, the assembly efficiency of the airflow sensing controller 151 assembled to the mount 14 is improved.
- the card slot 1311 of the connecting sleeve 131 and the positioning boss 141 of the mounting seat 14 define the positional relationship between the lamp cap 13 and the mounting seat 14, and then the airflow sensing controller 151 faces the lamp cap 13
- the end surface of the end surface is in contact with the limiting step 143 to define the positional relationship between the airflow sensing controller 151 and the mounting seat 14, and the lamp 153 is disposed on the end surface of the airflow sensing controller 151 facing the lamp cap 13, so that the lamp 153 and the lamp cap
- the positional relationship of 13 is determined so that it can be realized by setting the proper spacing between the lamp 153 and the lamp cap 13
- the light of the lamp is emitted from the lamp cap 13 and the light distribution is uniform, which improves the effect of imitating the burning of the cigarette.
- the inner surface of the cap 132 has a spherical structure such that the distance between the lamp 153 and any point on the inner surface of the cap 132 is equal, and the distance between the lamp 153 and any point on the inner surface of the cap 132 is 2.5mm-3 mm, which achieves a high imitative effect on cigarette burning.
- S2 The control component 15 is sleeved inside the mounting seat 14 until the airflow sensing controller 151 abuts against the end surface of the lamp cap 13 against the limiting step 143 of the mounting seat 14, and the outer circumference of the airflow sensing controller 151 The surface is in clearance with the inner circumferential surface of the mounting seat 14;
- S4 The control component 15 and the mounting seat 14 are sleeved inside the connecting sleeve 131, and the positioning boss 141 of the mounting seat 14 cooperates with the locking slot 1311 of the connecting sleeve 131 to make the mounting seat 14 and the connecting sleeve 131
- the circumferential direction is fixed, and the positioning boss 141 of the mounting seat 14 is inserted into the groove bottom of the card slot 1311 of the connecting sleeve 131;
- S5 The battery 12 is placed inside the battery cannula 11, and the connection sleeve 131 is placed inside the battery cannula 11
- the wire 152 is first disposed on the wire groove 142 of the side wall of the mounting seat 14, that is, the wire 152 is first placed inside the connecting sleeve, thereby avoiding the prior art that the wire 152 is offset during installation. Between the connecting sleeve 131 and the battery sleeve 11, the problem that the wire is easily scratched or broken to short circuit or open the circuit is avoided.
- the connecting sleeve 131 includes an interference connecting section 1314 and a guiding connecting section 1312 which are connected to each other, and three card slots 1311 are formed in the guiding connection.
- the segments 1312 are arranged at intervals, and three card slots 1311 are provided to improve the defining relationship between the connecting sleeve 131 and the mounting seat 14, and the external force can be avoided to avoid breaking.
- the interference connecting portion 1314 is connected to the cap 132.
- the diameter of the outer circumference of the interference connecting portion 1314 is larger than the diameter of the tube in the battery sleeve 11, so that the connecting sleeve 131 is interference-fitted with the battery sleeve 11, and the connecting sleeve 131 and the battery sleeve 11 are connected. Close cooperation without glue, reducing the use of rubber and reducing costs
- the worker only needs to apply a certain force to fix the lamp cap 13 to the battery sleeve 11, which improves the assembly efficiency; and the outer surface of the guiding connecting portion 1312 is formed to have an electric orientation.
- the tapered structure of the pool 12 is inclined in the axial direction, and the minimum diameter of the outer circumference of the guiding connecting portion 1312 is smaller than the diameter of the inner tube of the battery sleeve 11. With the tapered structure, the front end of the connecting sleeve 131 does not need to be accurately aligned with the inner tube of the battery casing 11. Matching, thereby improving the assembly efficiency of the connection sleeve 131 and the battery cannula 11.
- the connecting sleeve 131 further includes a fastening connecting portion 13 13 at the end of the guiding connecting portion 1312 away from the interference connecting portion 1314.
- the fastening connecting portion 1313 extends from the end surface of the guiding connecting portion 1312 toward the battery 12, tightly
- the inner surface of the solid connecting portion 1313 is formed with a tapered cavity that is inclined toward the central axis direction of the battery 12, and the end portion of the inner surface of the connecting portion 1313 and facing the battery 12 elastically abuts against the outer peripheral surface of the airflow sensing controller 151.
- the 131 itself has a certain fastening effect on the airflow sensing controller 151, and the connection between the connecting sleeve 131 and the airflow sensing controller 151 can be better tightly matched without the need for glue, thereby reducing the use of the rubber compound and reducing the cost. , also reduces the steps of rubberizing and improving assembly efficiency.
- the inner surface of the fastening connecting portion 1313 and the end facing the battery 12 are provided with a fastening ramp chamfer 13131 which is sleeved on the connecting sleeve 131 by the fastening ramp 13 131 It plays a guiding role, thereby improving the assembly efficiency of the mount 14.
- FIG. 12 a schematic diagram of the flow direction of the helium gas flow is used for the battery rod of the first embodiment.
- the second embodiment is another embodiment of the battery rod.
- the connection sleeve 131 is provided with a vertical direction toward the battery 12.
- the groove 135, and the vertical through groove 135 communicates with the air outlet 1333 so that the air inlet hole 133 communicates with the inside of the battery can 11 , and the other portions in the second embodiment are the same as those of the first embodiment.
- the vertical through groove 135 can simplify the molding die of the lamp cap 13, reduce the design and manufacturing cost of the molding die, and also facilitate the molding of the molding die after the lamp cap 13 is formed, thereby improving the production efficiency of the lamp cap 13.
- the vertical through groove 135 allows the air inlet hole 133 to communicate with the inside of the battery cannula 11.
- the intake air of the air inlet hole 133 can only enter the battery through the air flow sensing controller 151.
- the intake efficiency of the intake hole 133 is low, and in the second embodiment, the intake efficiency of the intake hole 133 can be effectively improved by the vertical through groove 135, thereby improving The amount of air in the air during smoking, more air can enter the atomizer 2 and atomize with the smoke oil to increase the amount of smoke and improve the user experience.
- FIG. 15 a schematic diagram of the flow direction of the helium gas flow is used for the battery rod of the second embodiment.
- the third embodiment is an embodiment of an electronic cigarette. As shown in FIG. 16, the atomizer 2 and the battery rod 1 are connected to each other.
- the battery rod 1 includes a battery sleeve 11 and is housed in the battery sleeve 11.
- a battery 12 therein, a control assembly 15 for controlling the battery 12 to supply power to the atomizer 2, a lamp cap 13 inserted at one end of the battery cannula 11, and a mounting seat 14 including a control unit 15 for sensing a smoking action
- the air flow is controlled by an air flow sensing controller 151 for controlling the battery 12 to supply the atomizer 2, a wire 152 for electrically connecting to the battery 12 and the air flow sensing controller 151, and a lamp 153 for simulating the burning of the cigarette.
- the lamp 153 is disposed in the air flow.
- the electronic cigarette composed of the atomizer 2 and the battery rod 1 may be a detachable electronic cigarette or a non-detachable integrated electronic cigarette.
- the battery rod 1 of the electronic cigarette is the battery rod 1 according to any of the above embodiments. Since the battery rod 1 has the same structure as the battery rod 1 according to any of the above embodiments, the electronic cigarette is It also has the corresponding technical effect. In addition, since the atomizer 2 is a prior art, it will not be described herein.
- the main design of the present invention is to provide a mounting bracket, the outer surface of the mounting seat is convexly provided with a positioning boss, and the inner surface is convexly provided with a limiting step, and the side wall of the mounting seat is provided for the supply
- the wire is routed from the end face of the airflow sensing controller to the wire trough of the battery, and the end of the connecting sleeve facing the battery is provided with a card slot matched with the positioning boss, and the airflow sensing controller is sleeved on the airflow sensing controller.
- the end face of the airflow sensing controller in the mounting seat is in contact with the limiting step toward the end surface of the lamp cap, thereby avoiding short circuit and open circuit in the prior art, and improving the effect of imitating the burning of the cigarette, and therefore, without departing from the principle of the present invention
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Abstract
一种电池杆、电子烟及电池杆的组装方法。该电池杆(1)包括安装座(14),所述安装座(14)套设于连接套(131)内,气流感应控制器(151)套设于所述安装座(14)内,灯具(153)设置于所述气流感应控制器(151)的面向灯帽(13)的端面上,所述连接套(131)朝向电池(12)的方向的端部开设有卡槽(1311),所述安装座(14)的外表面凸设有定位凸台(141),所述定位凸台(141)与所述卡槽(1311)相配合以使所述安装座(14)与所述连接套(131)周向固定。该电池杆结构简单紧凑、便于组装,能够有效避免电路短路、断路,提高模仿香烟燃烧的效果。
Description
说明书 发明名称:电池杆、 电子烟及电池杆的组装方法 技术领域
[0001] 本发明属于电子烟技术领域, 特别涉及电池杆、 电子烟及电池杆的组装方法。
背景技术
[0002] 现有技术中的电子烟包括雾化器和电池杆, 其中, 如图 1所示, 电池杆 Γ包括 电池套管 11'、 收容在电池套管 1 Γ内的电池 12'、 用于控制电池 12'为雾化器供电 的控制组件及插设在电池套管 1 Γ一端的灯帽 13', 控制组件包括用于感应因吸烟 动作而产生的气流以控制所述电池 12'为所述雾化器供电的气流感应控制器 15' ( 即咪头) 、 用于与电池 12'电连接的导线以及用于模仿香烟燃烧的灯具, 灯帽 13' 包括插设电池套管 1 Γ内的连接套及位于电池套管 1 Γ外的帽体, 气流感应控制器 15'直接安置于连接套, 气流感应控制器 15'中朝向灯帽 13'—侧的端面为连接端 面, 灯具固定于该连接端面, 导线连接于该连接端面, 连接套设有用于导向线 从连接端面走线至电池 12'的走线槽 131'。
[0003] 上述现有的电子烟中, 装配吋, 气流感应控制器 15'挤压安装在灯帽 13'内, 而 由于导线其本身具有一定的柔性, 导线易出现一定的偏移, 即导致导线从走线 槽 131 '偏移至连接套与电池套管 1 Γ之间, 因而导线容易被刮破或断裂, 使电路 产生短路或断路的问题; 且在将气流感应控制器 15'装入灯帽 13'的过程中, 气流 感应控制器 15'是直接挤压入灯帽 13'内的, 不能控制气流感应控制器 15'在灯帽 1 3'内的位置, 容易因挤压而导致气流感应控制器 15'的连接端面与灯帽 13'的帽体 距离较近, 使得灯具的光线从灯帽 13'的帽体射出吋, 光线分布不均匀, 中间区 域比边缘区域较亮, 模仿香烟燃烧的效果差。
技术问题
[0004] 本发明的目的在于避免上述现有技术中的不足之处而提供一种电池杆、 电子烟 及电池杆的组装方法, 能够有效避免电路短路、 断路现象, 以及提高模仿香烟 燃烧的效果。
问题的解决方案
技术解决方案
[0005] 为实现本发明的目的, 本发明解决其技术问题采用的技术方案是一种电池杆, 用于与雾化器组合形成电子烟, 该电池杆包括电池套管、 收容在电池套管内的 电池、 用于控制电池为雾化器供电的控制组件及插设在电池套管一端的灯帽, 所述控制组件包括用于感应因吸烟动作而产生的气流以控制所述电池为所述雾 化器供电的气流感应控制器、 用于与电池和气流感应控制器电连接的导线以及 用于模仿香烟燃烧的灯具, 所述灯帽包括插设于电池套管内的连接套及位于所 述电池套管外的帽体;
[0006] 该电池杆还包括有安装座, 所述安装座套设于所述连接套内, 所述气流感应控 制器套设于所述安装座内, 所述灯具设置于所述气流感应控制器的面向所述灯 帽的端面上;
[0007] 所述连接套朝向所述电池的方向的端部幵设有卡槽, 所述安装座的外表面凸设 有定位凸台, 所述定位凸台与所述卡槽相配合以使所述安装座与所述连接套周 向固定;
[0008] 所述安装座的内表面凸设有限位台阶, 且在所述气流感应控制器套设于所述安 装座内吋, 所述气流感应控制器朝向所述灯帽的端面与所述限位台阶抵触, 以 使所述限位台阶限定所述气流感应控制器套设于安装座的位置、 并限定所述灯 具至所述帽体的间距;
[0009] 所述安装座侧壁幵设有用于供所述导线从气流感应控制器的端面走线至电池的 走线槽, 所述控制组件与所述灯帽之间形成有气流腔, 所述灯帽幵设有与所述 气流腔相连通的进气孔。
[0010] 其中, 所述连接套包括相互连接的过盈连接段和引导连接段, 多个所述卡槽形 成在所述弓 I导连接段上且间隔设置;
[0011] 所述过盈连接段连接所述帽体, 所述过盈连接段的外圆周直径大于所述电池套 管内管道直径, 以使所述连接套与所述电池套管过盈配合。
[0012] 其中, 所述引导连接段的外表面形成具有朝向所述电池中轴线方向倾斜的锥状 结构, 所述引导连接段的外圆周的最小直径小于所述电池套管内管道直径。
[0013] 其中, 所述连接套还包括有位于所述引导连接段的远离所述过盈连接段一端的
紧固连接段, 所述紧固连接段从所述弓 I导连接段朝向所述电池方向的端面延伸 出, 所述紧固连接段的内表面形成具有朝向所述电池中轴线方向倾斜的锥状腔 体, 所述紧固连接段内表面、 且朝向所述电池的方向的端部弹性抵持所述气流 感应控制器的外周面。
[0014] 其中, 所述紧固连接段的内表面、 且朝向所述电池的方向的端部设置有引导斜 坡倒角。
[0015] 其中, 所述进气孔包括依次相通连接的进气口、 引气槽和出气口, 所述进气口 幵设的位置设于所述帽体的周缘, 所述引气槽沿着所述连接套的轴向幵设, 所 述出气口幵设的位置对应于所述气流腔的位置处并与所述气流腔相连通。
[0016] 其中, 所述连接套幵设有朝向所述电池方向的竖向通槽, 且所述竖向通槽与所 述出气口相连通, 以使所述进气孔与所述电池套管内部相通。
[0017] 其中, 所述连接套的外表面沿着所述连接套的轴向幵设有与所述电池套管内部 及所述电池杆外部相连通的进气槽。
[0018] 其中, 所述帽体的内表面为球面状结构, 以使所述灯具与所述帽体内表面任意 一点之间的间距相等。
[0019] 其中, 所述灯具与所述帽体内表面任意一点之间的间距值为 2.5mm-3mm。
[0020] 其中, 所述帽体的外圆周直径大于所述电池套管内管道直径, 以形成用于防止 所述帽体进入所述电池套管的卡位台阶。
[0021] 其中, 所述安装座幵设有与所述定位凸台位置相对应、 且朝向所述电池的方向 的幵口槽。
[0022] 其中, 所述安装座的内表面、 且朝向所述电池的方向的端部设置有安装斜坡倒 角。
[0023] 为实现本发明的目的, 本发明解决其技术问题采用的技术方案是一种电子烟, 包括互相连接的雾化器以及电池杆, 所述电池杆包括电池套管、 收容在电池套 管内的电池、 用于控制电池为雾化器供电的控制组件及插设在电池套管一端的 灯帽, 所述控制组件包括用于感应因吸烟动作而产生的气流以控制所述电池为 所述雾化器供电的气流感应控制器、 用于与电池和气流感应控制器电连接的导 线以及用于模仿香烟燃烧的灯具, 所述灯帽包括插设于电池套管内的连接套及
位于所述电池套管外的帽体;
[0024] 该电池杆还包括有安装座, 所述安装座套设于所述连接套内, 所述气流感应控 制器套设于所述安装座内, 所述灯具设置于所述气流感应控制器的面向所述灯 帽的端面上;
[0025] 所述连接套朝向所述电池的方向的端部幵设有卡槽, 所述安装座的外表面凸设 有定位凸台, 所述定位凸台与所述卡槽相配合以使所述安装座与所述连接套周 向固定;
[0026] 所述安装座的内表面凸设有限位台阶, 且在所述气流感应控制器套设于所述安 装座内吋, 所述气流感应控制器朝向所述灯帽的端面与所述限位台阶抵触, 以 使所述限位台阶限定所述气流感应控制器套设于安装座的位置、 并限定所述灯 具至所述帽体的间距;
[0027] 所述安装座侧壁幵设有用于供所述导线从气流感应控制器的端面走线至电池的 走线槽, 所述控制组件与所述灯帽之间形成有气流腔, 所述灯帽幵设有与所述 气流腔相连通的进气孔。
[0028] 其中, 所述连接套包括相互连接的过盈连接段和引导连接段, 多个所述卡槽形 成在所述弓 I导连接段上且间隔设置;
[0029] 所述过盈连接段连接所述帽体, 所述过盈连接段的外圆周直径大于所述电池套 管内管道直径, 以使所述连接套与所述电池套管过盈配合。
[0030] 其中, 所述引导连接段的外表面形成具有朝向所述电池中轴线方向倾斜的锥状 结构, 所述引导连接段的外圆周的最小直径小于所述电池套管内管道直径。
[0031] 其中, 所述连接套还包括有位于所述引导连接段的远离所述过盈连接段一端的 紧固连接段, 所述紧固连接段从所述弓 I导连接段朝向所述电池方向的端面延伸 出。
[0032] 其中, 所述进气孔包括依次相通连接的进气口、 引气槽和出气口, 所述进气口 幵设的位置设于所述帽体的周缘, 所述引气槽沿着所述连接套的轴向幵设, 所 述出气口幵设的位置对应于所述气流腔的中心位置。
[0033] 其中, 所述连接套幵设有朝向所述电池方向的竖向通槽, 且所述竖向通槽与所 述出气口相连通, 以使所述进气孔与所述电池套管内部相通。
[0034] 为实现本发明的目的, 本发明解决其技术问题采用的技术方案是一种电池杆的 组装方法, 该电池杆为如权利要求 1所述的电池杆, 该组装方法包括以下步骤: [0035] S1 : 将所述导线一端与所述气流感应控制器连接;
[0036] S2: 将所述控制组件套设于所述安装座内部, 直至所述气流感应控制器朝向所 述灯帽的端面抵接所述安装座的限位台阶, 且所述气流感应控制器的外周面与 所述安装座的内周面间隙配合;
[0037] S3: 将所述导线的另一端经过所述安装座的走向槽, 并连接至所述电池, 使所 述导线部分安置于所述走向槽;
[0038] S4: 将所述控制组件与所述安装座共同套设于连接套内部, 所述安装座的定位 凸台与所述连接套的卡槽相配合, 以使所述安装座与所述连接套周向固定, 且 所述安装座的定位凸台套入至所述连接套的卡槽的槽底;
[0039] S5: 将所述电池放置于电池套管内部, 并将所述连接套套置于所述电池套管内 部。
发明的有益效果
有益效果
[0040] 本发明可以获得以下有益技术效果: 一方面, 连接套的卡槽与安装座的定位凸 台限定了灯帽与安装座的位置关系, 气流感应控制器朝向灯帽的端面与限位台 阶抵触则限定了气流感应控制器与安装座的位置关系, 而灯具设置于气流感应 控制器的面向灯帽的端面上, 因此, 灯具与灯帽的位置关系是确定的, 从而能 够通过设置灯具与灯帽之间适当的间距来实现灯具的光线从灯帽射出吋光线分 布均匀, 提高模仿香烟燃烧的效果。
[0041] 另一方面, 导线先安置于安装座侧壁的走线槽, 即导线先置于连接套内部, 从 而避免了现有技术中存在导线在安装过程中偏移至连接套与电池套管之间, 进 而避免了导线容易被刮破或断裂使电路产生短路或断路的问题, 且本发明结构 简单紧凑, 便于组装, 极大地提高了生产效率。
对附图的简要说明
附图说明
[0042] 在利用附图对本发明作进一步说明, 但附图中的实施例不构成对本发明的任何
限制, 对于本领域的普通技术人员, 在不付出创造性劳动的前提下, 还可以根 据以下附图获得其它的附图。
[0043] 图 1为现有技术电池杆的剖面结构示意图。
[0044] 图 2为本发明实施例一电池杆第一种视角的剖面结构示意图。
[0045] 图 3为图 2中气流感应控制器、 安装座及灯帽的放大结构示意图。
[0046] 图 4为本发明实施例一电池杆第二种视角的剖面结构示意图。
[0047] 图 5为本发明实施例一灯帽的第一种视角的结构示意图。
[0048] 图 6为本发明实施例一灯帽的第二种视角的结构示意图。
[0049] 图 7为图 6中 A的放大结构示意图。
[0050] 图 8为本发明实施例一进气孔的剖面结构示意图。
[0051] 图 9为本发明实施例一安装座第一种视角的结构示意图。
[0052] 图 10为本发明实施例一安装座第二种视角的结构示意图。
[0053] 图 11为本发明实施例一安装座第三种视角的结构示意图。
[0054] 图 12为本发明实施例一电池杆使用吋气流流动方向的示意图。
[0055] 图 13为本发明实施例二灯帽的结构示意图。
[0056] 图 14为本发明实施例二进气孔的剖面结构示意图。
[0057] 图 15为本发明实施例二电池杆使用吋气流流动方向的示意图。
[0058] 图 16为本发明实施例三电子烟的分解结构示意图。
[0059] 图 1中包括:
[0060] Γ-电池杆、 1 Γ-电池套管、 12'-电池、 13'-灯帽、 13Γ-走线槽、 15'-气流感应控 制器;
[0061] 图 2至图 16中包括:
[0062] 1-电池杆、 11-电池套管、 12-电池、 13-灯帽、 131-连接套、 1311-卡槽、 1312- 引导连接段、 1313-紧固连接段、 13131-紧固斜坡倒角、 1314-过盈连接段、 132- 帽体、 133-进气孔、 134-通气槽、 135-竖向通槽、 136-卡位台阶、 14-安装座、 14 1-定位凸台、 142-走线槽、 143-限位台阶、 144-安装斜坡倒角、 145-幵口槽、 15- 控制组件、 151-气流感应控制器、 152-导线、 153-灯具、 16-气流腔、
[0063] 2-雾化器。
本发明的实施方式
[0064] 为了解决现有技术中存在的问题, 本发明增设安装座, 该安装座外表面凸设有 定位凸台及内表面凸设有限位台阶, 且安装座侧壁幵设有用于供所述导线从气 流感应控制器的端面走线至电池的走线槽, 而连接套则朝向电池的方向的端部 幵设有与定位凸台相配合的卡槽, 在气流感应控制器套设于安装座内吋气流感 应控制器朝向灯帽的端面与限位台阶抵触。 相对于现有技术, 本发明能够有效 避免电路短路、 断路现象, 以及提高模仿香烟燃烧的效果, 且本发明结构简单 紧凑, 便于组装, 极大地提高了生产效率。
[0065] 为了使本发明的目的、 技术方案及优点更加清楚明白, 以下结合附图及实施例
, 对本发明进行进一步详细说明。 应当理解, 此处所描述的具体实施例仅仅用 以解释本发明, 并不用于限定本发明。
[0066] 第一实施例
[0067] 第一实施例为电池杆的一种实施例, 如图 2和图 4所示, 该电池杆 1用于与雾化 器 2组合形成电子烟, 该电池杆 1包括电池套管 11、 收容在电池套管 11内的电池 1 2、 用于控制电池 12为雾化器 2供电的控制组件 15、 插设在电池套管 11一端的灯 帽 13以及安装座 14。 其中, 控制组件 15包括用于感应因吸烟动作而产生的气流 以控制电池 12为雾化器 2供电的气流感应控制器 151、 用于与电池 12和气流感应 控制器 151电连接的导线 152 (该导线 152可参见图 16) 以及用于模仿香烟燃烧的 灯具 153, 灯具 153设置于气流感应控制器 151的面向灯帽 13的端面上, 控制组件 15与灯帽 13之间形成有气流腔 16, 灯帽 13幵设有与气流腔 16相连通的进气孔 133 。 在本实施例中, 所述气流感应控制器 151为集成有感应电路及控制电路的电路 模块, 其具体电路为现有技术, 在此不再赘述。
[0068] 其中, 如图 5和图 6所示, 灯帽 13包括插设于电池套管 11内的连接套 131及位于 电池套管 11外的帽体 132, 连接套 131朝向电池 12的方向的端部幵设有卡槽 1311 。 连接套 131的外表面沿着连接套 131的轴向幵设有与电池套管 11内部及电池杆 1 外部相连通的进气槽 134, 通过该进气槽 134, 能提高吸烟过程中空气的进气量 , 有更多的空气能进入到雾化器 2中与烟油一起进行雾化, 增加烟雾量, 提高用
户体验。 帽体 132的外圆周直径大于电池套管 11内管道直径, 以形成用于防止帽 体 132进入电池套管 11的卡位台阶 136, 通过该卡位台阶 136可有效避免帽体 132 陷入电池套管 11的内管。
[0069] 其中, 如图 7和图 8所示, 进气孔 133包括依次相通连接的进气口 1331、 引气槽 1 332和出气口 1333, 进气口 1331幵设的位置设于帽体 132的周缘, 引气槽 1332沿 着连接套 131的轴向幵设, 出气口 1333幵设的位置对应于气流腔 16的位置处并与 气流腔 16相连通, 通过出气口 1333幵设的位置对应于气流腔 16的位置处, 使得 外部的外部空气进入气流腔 16吋产生气流的位置更靠近气流感应控制器 151, 便 于气流感应控制器 151检测气流, 提高了气流感应控制器 151的灵敏度。
[0070] 其中, 如图 3所示,为气流感应控制器 151、 安装座 14及灯帽 13之间装配状态结 构示意图, 安装座 14套设于连接套 131内, 气流感应控制器 151套设于安装座 14 内。
[0071] 其中, 如图 9至图 11所示, 安装座 14的外表面凸设有定位凸台 141, 定位凸台 14 1与卡槽 1311相配合以使安装座 14与连接套 131周向固定, 安装座 14的内表面凸 设有限位台阶 143, 且在气流感应控制器 151套设于安装座 14内吋, 气流感应控 制器 151朝向灯帽 13的端面与限位台阶 143抵触, 以使限位台阶 143限定气流感应 控制器 151套设于安装座 14的位置、 并限定灯具 153至帽体 132的间距。 安装座 14 侧壁幵设有用于供导线 152从气流感应控制器 151的端面走线至电池 12的走线槽 1 42。 安装座 14还幵设有与定位凸台 141位置相对应、 且朝向电池 12的方向的幵口 槽 145, 通过该幵口槽 145能使灯帽 13的侧壁能够产生的形变量更大, 提高安装 座 14的组装效率。 安装座 14的内表面、 且朝向电池 12的方向的端部设置有安装 斜坡倒角 144, 该安装斜坡倒角 144对气流感应控制器 151套设于安装座 14的过程 中起到了引导作用, 从而提高气流感应控制器 151组装至安装座 14的组装效率。
[0072] 本第一实施例中, 首先连接套 131的卡槽 1311与安装座 14的定位凸台 141限定了 灯帽 13与安装座 14的位置关系, 其次气流感应控制器 151朝向灯帽 13的端面与限 位台阶 143抵触则限定了气流感应控制器 151与安装座 14的位置关系, 而灯具 153 设置于气流感应控制器 151的面向灯帽 13的端面上, 因此, 灯具 153与灯帽 13的 位置关系是确定的, 从而能够通过设置灯具 153与灯帽 13之间适当的间距来实现
灯具的光线从灯帽 13射出吋光线分布均匀, 提高模仿香烟燃烧的效果。 具体地 , 优选帽体 132的内表面为球面状结构, 以使灯具 153与帽体 132内表面任意一点 之间的间距相等, 且灯具 153与帽体 132内表面任意一点之间的间距值为 2.5mm-3 mm, 从而达到高度模仿香烟燃烧的效果。
[0073] 对于本第一实施例电池杆 1的组装, 其具体组装步骤如下:
[0074] S1 : 将导线 152—端与气流感应控制器 151连接;
[0075] S2: 将控制组件 15套设于安装座 14内部, 直至气流感应控制器 151朝向所述灯 帽 13的端面抵接安装座 14的限位台阶 143, 且气流感应控制器 151的外周面与安 装座 14的内周面间隙配合;
[0076] S3: 将导线 152的另一端经过安装座 14的走向槽 142, 并连接至电池 12, 使导线 152部分安置于走向槽 142;
[0077] S4: 将控制组件 15与安装座 14共同套设于连接套 131内部, 安装座 14的定位凸 台 141与连接套 131的卡槽 1311相配合, 以使安装座 14与连接套 131周向固定, 且 安装座 14的定位凸台 141套入至连接套 131的卡槽 1311的槽底;
[0078] S5: 将电池 12放置于电池套管 11内部, 并将连接套 131套置于电池套管 11内部
[0079] 由组装步骤可知, 导线 152先安置于安装座 14侧壁的走线槽 142, 即导线 152先 置于连接套内部, 从而避免了现有技术中存在导线 152在安装过程中偏移至连接 套 131与电池套管 11之间, 进而避免了导线容易被刮破或断裂使电路产生短路或 断路的问题。
[0080] 本第一实施例中, 继续参见图 3、 图 5和图 6所示, 连接套 131包括相互连接的过 盈连接段 1314和引导连接段 1312, 三个卡槽 1311形成在引导连接段 1312上且间 隔设置, 设置三个卡槽 1311即可提高连接套 131与安装座 14之间的限定关系, 也 可避免出现外力避免折断。 过盈连接段 1314连接帽体 132, 过盈连接段 1314的外 圆周直径大于电池套管 11内管道直径, 以使连接套 131与电池套管 11过盈配合, 连接套 131与电池套管 11无需打胶即可紧密配合, 减少了胶料的使用, 降低成本
, 同吋在组装方法步骤 S5中工作人员只需要施加一定的作用力即可灯帽 13固定 至电池套管 11, 提高了组装效率; 而引导连接段 1312的外表面形成具有朝向电
池 12中轴线方向倾斜的锥状结构, 引导连接段 1312的外圆周的最小直径小于电 池套管 11内管道直径, 通过该锥状结构, 连接套 131的前端无需精准与电池套管 11内管道匹配, 从而提高连接套 131与电池套管 11的装配效率。 进一步地, 连接 套 131还包括有位于引导连接段 1312的远离过盈连接段 1314—端的紧固连接段 13 13, 紧固连接段 1313从引导连接段 1312朝向电池 12方向的端面延伸出, 紧固连 接段 1313的内表面形成具有朝向电池 12中轴线方向倾斜的锥状腔体, 紧固连接 段 1313内表面、 且朝向电池 12的方向的端部弹性抵持气流感应控制器 151的外周 面, 通过该紧固连接段 1313朝向电池 12的方向的端部弹性抵持气流感应控制器 1 51, 从而使连接套 131对气流感应控制器 151起到了一定的夹持作用, 也即是连 接套 131本身对气流感应控制器 151起到一定的紧固作用, 连接套 131与气流感应 控制器 151之间也无需打胶即可较好地紧固配合, 即减少了胶料的使用, 降低成 本, 也减少了打胶的步骤, 提高装配效率。 进一步地, 紧固连接段 1313的内表 面、 且朝向电池 12的方向的端部设置有紧固斜坡倒角 13131, 该紧固斜坡倒角 13 131对安装座 14套设于连接套 131的过程中起到了引导作用, 从而提高安装座 14 的组装效率。
[0081] 如图 12所示, 为第一实施例电池杆使用吋气流流动方向的示意图。
[0082] 第二实施例
[0083] 第二实施例为电池杆的另一种实施例, 如图 13和图 14所示, 为第二实施例的连 接套 131, 连接套 131幵设有朝向电池 12方向的竖向通槽 135, 且竖向通槽 135与 出气口 1333相连通, 以使进气孔 133与电池套管 11内部相通, 第二实施例中的其 他部分与第一实施例相同。 该竖向通槽 135可以简化灯帽 13的成型模具, 降低成 型模具的设计及制造成本, 同吋, 也便于灯帽 13成型后成型模具的幵模, 提高 灯帽 13的生产效率。
[0084] 另一方面, 该竖向通槽 135使进气孔 133与电池套管 11内部相通, 在第一实施例 中, 进气孔 133的进气仅能经气流感应控制器 151进入电池套管 11内, 从而导致 了进气孔 133的进气效率较低, 而本第二实施例中, 通过该竖向通槽 135能有效 地提高该进气孔 133的进气效率, 从而提高吸烟过程中空气的进气量, 有更多的 空气能进入到雾化器 2中与烟油一起进行雾化, 增加烟雾量, 提高用户体验。
[0085] 如图 15所示, 为第二实施例电池杆使用吋气流流动方向的示意图。
[0086] 第三实施例
[0087] 第三实施例为电子烟的一种实施例, 如图 16所示, 包括互相连接的雾化器 2以 及电池杆 1, 电池杆 1包括电池套管 11、 收容在电池套管 11内的电池 12、 用于控 制电池 12为雾化器 2供电的控制组件 15、 插设在电池套管 11一端的灯帽 13以及安 装座 14, 控制组件 15包括用于感应因吸烟动作而产生的气流以控制电池 12为雾 化器 2供电的气流感应控制器 151、 用于与电池 12和气流感应控制器 151电连接的 导线 152以及用于模仿香烟燃烧的灯具 153, 灯具 153设置于气流感应控制器 151 的面向灯帽 13的端面上, 雾化器 2以及电池杆 1组成的电子烟可以是可拆卸的电 子烟, 也可以是不可拆卸的一体式电子烟。 其中, 该电子烟的电池杆为 1为上述 任一实施例所述的电池杆 1, 由于该电池杆 1与上述任一实施例所述的电池杆 1具 有相同的结构, 因而, 该电子烟也具有相应的技术效果。 此外, 由于雾化器 2为 现有技术, 在此不再赘述。
[0088] 综上所述, 本发明的主要设计在于通过增设安装座, 该安装座外表面凸设有定 位凸台及内表面凸设有限位台阶, 且安装座侧壁幵设有用于供所述导线从气流 感应控制器的端面走线至电池的走线槽, 而连接套则朝向电池的方向的端部幵 设有与定位凸台相配合的卡槽, 在气流感应控制器套设于安装座内吋气流感应 控制器朝向灯帽的端面与限位台阶抵触, 避免了现有技术中电路短路、 断路现 象, 以及提高模仿香烟燃烧的效果, 因此, 在不脱离本发明原理的前提下, 本 领域技术人员应理解, 可以根据上述说明加以改进或变换, 在没有做出创造性 劳动的前提下做出的改进和变换都应属于本发明所附权利要求的保护范围。
Claims
[权利要求 1] 一种电池杆, 用于与雾化器 (2) 组合形成电子烟, 其特征在于, 该电池杆 (1) 包括电池套管 (11) 、 收容在电池套管 (11) 内的 电池 (12) 、 用于控制电池 (12) 为雾化器 (2) 供电的控制组件
(15) 及插设在电池套管 (11) 一端的灯帽 (13) , 所述控制组 件 (15) 包括用于感应因吸烟动作而产生的气流以控制所述电池
(12) 为所述雾化器 (2) 供电的气流感应控制器 (151) 、 用于 与电池 (12) 和气流感应控制器 (151) 电连接的导线 (152) 以 及用于模仿香烟燃烧的灯具 (153) , 所述灯帽 (13) 包括插设于 电池套管 (11) 内的连接套 (131) 及位于所述电池套管 (11) 外 的帽体 (132) ;
该电池杆 (1) 还包括有安装座 (14) , 所述安装座 (14) 套设于 所述连接套 (131) 内, 所述气流感应控制器 (151) 套设于所述 安装座 (14) 内, 所述灯具 (153) 设置于所述气流感应控制器 ( 151) 的面向所述灯帽 (13) 的端面上;
所述连接套 (131) 朝向所述电池 (12) 的方向的端部幵设有卡槽
(1311) , 所述安装座 (14) 的外表面凸设有定位凸台 (141) , 所述定位凸台 (141) 与所述卡槽 (1311) 相配合以使所述安装座
(14) 与所述连接套 (131) 周向固定;
所述安装座 (14) 的内表面凸设有限位台阶 (143) , 且在所述气 流感应控制器 (151) 套设于所述安装座 (14) 内吋, 所述气流感 应控制器 (151) 朝向所述灯帽 (13) 的端面与所述限位台阶 (14 3) 抵触, 以使所述限位台阶 (143) 限定所述气流感应控制器 (1 51) 套设于安装座 (14) 的位置、 并限定所述灯具 (153) 至所述 帽体 (132) 的间距;
所述安装座 (14) 侧壁幵设有用于供所述导线 (152) 从气流感应 控制器 (151) 的端面走线至电池 (12) 的走线槽 (142) , 所述 控制组件 (15) 与所述灯帽 (13) 之间形成有气流腔 (16) , 所
述灯帽 (13) 幵设有与所述气流腔 (16) 相连通的进气孔 (133)
[权利要求 2] 根据权利要求 1所述的一种电池杆, 其特征在于, 所述连接套 (13
1) 包括相互连接的过盈连接段 (1314) 和引导连接段 (1312) , 多个所述卡槽 (1311) 形成在所述引导连接段 (1312) 上且间隔 设置;
所述过盈连接段 (1314) 连接所述帽体 (132) , 所述过盈连接段
(1314) 的外圆周直径大于所述电池套管 (11) 内管道直径, 以 使所述连接套 (131) 与所述电池套管 (11) 过盈配合。
[权利要求 3] 根据权利要求 2所述的一种电池杆, 其特征在于, 所述引导连接段
(1312) 的外表面形成具有朝向所述电池 (12) 中轴线方向倾斜 的锥状结构, 所述引导连接段 (1312) 的外圆周的最小直径小于 所述电池套管 (11) 内管道直径。
[权利要求 4] 根据权利要求 2所述的一种电池杆, 其特征在于, 所述连接套 (13
1) 还包括有位于所述引导连接段 (1312) 的远离所述过盈连接段 (1314) 一端的紧固连接段 (1313) , 所述紧固连接段 (1313) 从所述引导连接段 (1312) 朝向所述电池 (12) 方向的端面延伸 出, 所述紧固连接段 (1313) 的内表面形成具有朝向所述电池 (1
2) 中轴线方向倾斜的锥状腔体, 所述紧固连接段 (1313) 内表面 、 且朝向所述电池 (12) 的方向的端部弹性抵持所述气流感应控 制器 (151) 的外周面。
[权利要求 5] 根据权利要求 4所述的一种电池杆, 其特征在于, 所述紧固连接段
(1313) 的内表面、 且朝向所述电池 (12) 的方向的端部设置有 紧固斜坡倒角 (13131) 。
[权利要求 6] 根据权利要求 1所述的一种电池杆, 其特征在于, 所述进气孔 (13
3) 包括依次相通连接的进气口 (1331) 、 引气槽 (1332) 和出气 口 (1333) , 所述进气口 (1331) 幵设的位置设于所述帽体 (132 ) 的周缘, 所述引气槽 (1332) 沿着所述连接套 (131) 的轴向幵
设, 所述出气口 (1333) 幵设的位置对应于所述气流腔 (16) 的 位置处并与所述气流腔 (16) 相连通。
[权利要求 7] 根据权利要求 6所述的一种电池杆, 其特征在于, 所述连接套 (13
1) 幵设有朝向所述电池 (12) 方向的竖向通槽 (135) , 且所述 竖向通槽 (135) 与所述出气口 (1333) 相连通, 以使所述进气孔
(133) 与所述电池套管 (11) 内部相通。
[权利要求 8] 根据权利要求 1所述的一种电池杆, 其特征在于, 所述连接套 (13
1) 的外表面沿着所述连接套 (131) 的轴向幵设有与所述电池套 管 (11) 内部及所述电池杆 (1) 外部相连通的进气槽 (134) 。
[权利要求 9] 根据权利要求 1所述的一种电池杆, 其特征在于, 所述帽体 (132
) 的内表面为球面状结构, 以使所述灯具 (153) 与所述帽体 (13
2) 内表面任意一点之间的间距相等。
[权利要求 10] 根据权利要求 9所述的一种电池杆, 其特征在于, 所述灯具 (153
) 与所述帽体 (132) 内表面任意一点之间的间距值为 2.5mm-3mm
[权利要求 11] 根据权利要求 1所述的一种电池杆, 其特征在于, 所述帽体 (132
) 的外圆周直径大于所述电池套管 (11) 内管道直径, 以形成用 于防止所述帽体 (132) 进入所述电池套管 (11) 的卡位台阶 (13
[权利要求 12] 根据权利要求 1所述的一种电池杆, 其特征在于, 所述安装座 (14
) 幵设有与所述定位凸台 (141) 位置相对应、 且朝向所述电池 ( 12) 的方向的幵口槽 (145) 。
[权利要求 13] 根据权利要求 1所述的一种电池杆, 其特征在于, 所述安装座 (14
) 的内表面、 且朝向所述电池 (12) 的方向的端部设置有安装斜 坡倒角 (144) 。
[权利要求 14] 一种电子烟, 其特征在于, 包括互相连接的雾化器 (2) 以及电池 杆, 所述电池杆 (1) 包括电池套管 (11) 、 收容在电池套管 (11 ) 内的电池 (12) 、 用于控制电池 (12) 为雾化器 (2) 供电的控
制组件 (15) 及插设在电池套管 (11) 一端的灯帽 (13) , 所述 控制组件 (15) 包括用于感应因吸烟动作而产生的气流以控制所 述电池 (12) 为所述雾化器 (2) 供电的气流感应控制器 (151) 、 用于与电池 (12) 和气流感应控制器 (151) 电连接的导线 (15
2) 以及用于模仿香烟燃烧的灯具 (153) , 所述灯帽 (13) 包括 插设于电池套管 (11) 内的连接套 (131) 及位于所述电池套管 ( 11) 外的帽体 (132) ;
该电池杆 (1) 还包括有安装座 (14) , 所述安装座 (14) 套设于 所述连接套 (131) 内, 所述气流感应控制器 (151) 套设于所述 安装座 (14) 内, 所述灯具 (153) 设置于所述气流感应控制器 ( 151) 的面向所述灯帽 (13) 的端面上;
所述连接套 (131) 朝向所述电池 (12) 的方向的端部幵设有卡槽
(1311) , 所述安装座 (14) 的外表面凸设有定位凸台 (141) , 所述定位凸台 (141) 与所述卡槽 (1311) 相配合以使所述安装座
(14) 与所述连接套 (131) 周向固定;
所述安装座 (14) 的内表面凸设有限位台阶 (143) , 且在所述气 流感应控制器 (151) 套设于所述安装座 (14) 内吋, 所述气流感 应控制器 (151) 朝向所述灯帽 (13) 的端面与所述限位台阶 (14
3) 抵触, 以使所述限位台阶 (143) 限定所述气流感应控制器 (1 51) 套设于安装座 (14) 的位置、 并限定所述灯具 (153) 至所述 帽体 (132) 的间距;
所述安装座 (14) 侧壁幵设有用于供所述导线 (152) 从气流感应 控制器 (151) 的端面走线至电池 (12) 的走线槽 (142) , 所述 控制组件 (15) 与所述灯帽 (13) 之间形成有气流腔 (16) , 所 述灯帽 (13) 幵设有与所述气流腔 (16) 相连通的进气孔 (133)
[权利要求 15] 根据权利要求 14所述的一种电子烟, 其特征在于, 所述连接套 (1
31) 包括相互连接的过盈连接段 (1314) 和引导连接段 (1312)
, 多个所述卡槽 (1311) 形成在所述引导连接段 (1312) 上且间 隔设置;
所述过盈连接段 (1314) 连接所述帽体 (132) , 所述过盈连接段
(1314) 的外圆周直径大于所述电池套管 (11) 内管道直径, 以 使所述连接套 (131) 与所述电池套管 (11) 过盈配合。
根据权利要求 15所述的一种电子烟, 其特征在于, 所述引导连接 段 (1312) 的外表面形成具有朝向所述电池 (12) 中轴线方向倾 斜的锥状结构, 所述引导连接段 (1312) 的外圆周的最小直径小 于所述电池套管 (11) 内管道直径。
根据权利要求 15所述的一种电子烟, 其特征在于, 所述连接套 (1
31) 还包括有位于所述引导连接段 (1312) 的远离所述过盈连接 段 (1314) —端的紧固连接段 (1313) , 所述紧固连接段 (1313 ) 从所述引导连接段 (1312) 朝向所述电池 (12) 方向的端面延 伸出。
根据权利要求 14所述的一种电子烟, 其特征在于, 所述进气孔 (1 33) 包括依次相通连接的进气口 (1331) 、 引气槽 (1332) 和出 气口 (1333) , 所述进气口 (1331) 幵设的位置设于所述帽体 (1
32) 的周缘, 所述引气槽 (1332) 沿着所述连接套 (131) 的轴向 幵设, 所述出气口 (1333) 幵设的位置对应于所述气流腔 (16) 的中心位置。
根据权利要求 18所述的一种电子烟, 其特征在于, 所述连接套幵 设有朝向所述电池 (12) 方向的竖向通槽 (135) , 且所述竖向通 槽 (135) 与所述出气口 (1333) 相连通, 以使所述进气孔 (133 ) 与所述电池套管 (11) 内部相通。
一种电池杆的组装方法, 该电池杆 (1) 为如权利要求 1所述的电 池杆 (1) , 该组装方法包括以下步骤:
S1 : 将所述导线 (152) —端与所述气流感应控制器 (151) 连接
S2: 将所述控制组件 (15) 套设于所述安装座 (14) 内部, 直至 所述气流感应控制器 (151) 朝向所述灯帽 (13) 的端面抵接所述 安装座 (14) 的限位台阶 (143) , 且所述气流感应控制器 (151 ) 的外周面与所述安装座 (14) 的内周面间隙配合;
S3: 将所述导线 (152) 的另一端经过所述安装座 (14) 的走向槽
(142) , 并连接至所述电池 (12) , 使所述导线 (152) 部分安 置于所述走向槽 (142) ;
S4: 将所述控制组件 (15) 与所述安装座 (14) 共同套设于连接 套 (131) 内部, 所述安装座 (14) 的定位凸台 (141) 与所述连 接套 (131) 的卡槽 (1311) 相配合, 以使所述安装座 (14) 与所 述连接套 (131) 周向固定, 且所述安装座 (14) 的定位凸台 (14 1) 套入至所述连接套 (131) 的卡槽 (1311) 的槽底;
S5: 将所述电池 (12) 放置于电池套管 (11) 内部, 并将所述连 接套 (131) 套置于所述电池套管 (11) 内部。
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