Summary of the invention
This application provides a kind of arc type ignition device, to solve the problems referred to above.
The application is achieved in that
A kind of arc type ignition device, including:
Module high voltage bag, described module high voltage bag includes multiple booster;Each described booster includes a point groove isolation skeleton, high intensity coil, high magnetic conduction core and two sleeve pipe electric wires;Described high intensity coil is intertwined and connected and isolates on skeleton at described point of groove, and described point of groove isolation skeleton is arranged on described high magnetic conduction in-core;
IC oscillating tube, described IC oscillating tube is electrically connected with described booster one to one by power input line;
Power module, described power module includes chargeable lithium battery, and described chargeable lithium battery electrically connects with described IC oscillating tube;And
Fine motion ignition switch, on the circuit being arranged between described chargeable lithium battery and described IC oscillating tube of described fine motion ignition switch electrical connection;
Each described sleeve pipe electric wire is respectively provided with link and discharge end, and described link is connected with described high intensity coil respectively, and multiple described discharge ends extend described module high voltage bag and are oppositely arranged around an ignition center.
Preferably, described module high voltage bag includes two boosters, and two described high magnetic conduction cores are wholely set and are one and double; two organize high magnetic conduction core, four described discharge ends of four described sleeve pipe electric wires in " X " type or "+" type arranges.
Being more highly preferred to, described point of groove isolation skeleton has high-pressure trough and isolation trough, and described high intensity coil is intertwined and connected respectively on described high-pressure trough and described isolation trough.
It is preferred that, the positive pole of described IC oscillating tube is connected with the positive electrical of described chargeable lithium battery, the negative pole of described chargeable lithium battery electrically connects with one end of described fine motion ignition switch, and the other end of described fine motion ignition switch is connected with the negative electricity of described IC oscillating tube.
Further preferred, described module high voltage bag also includes packaging body, and described point of groove is isolated skeleton, described high intensity coil and described high magnetic conduction core and be arranged in described packaging body, and described discharge end extends described packaging body.
Optionally, described point of groove isolation skeleton is made up of high temperature high voltage resistant plastic resin;Described high intensity coil is the high strength enamelled wire of wire diameter 0.035mm;Described sleeve pipe electric wire is high temperature resistant tetrafluoro sleeve pipe electric wire;Described packaging body is made up of epoxy resin.
Preferably, described arc type ignition device also includes housing, and described housing includes internals assembling shell, middle frame, shell and skull;Described module high voltage bag, described chargeable lithium battery, described fine motion ignition switch and described IC oscillating tube are arranged in described internals assembling shell, described middle frame is connected by pin and described internals assembling shell are fixing, described skull is pivotally connected by pin and described internals assembling shell, being provided with the high-temperature insulation porcelain cup coordinated with described discharge end in described middle frame, described ignition center is the geometric center of described high-temperature insulation porcelain cup;Described shell side is provided with the switch opening for coordinating with fine motion ignition switch, and described internals assembling shell is connected by fixed screw and described shell are fixing.
Preferably, described power module also includes control circuit plate, and described control circuit plate is plugged in the slot of described internals assembling shell lower end;Described control circuit plate electrically connects with described IC oscillating tube, described chargeable lithium battery.
Being more highly preferred to, described power module also includes charging inlet and charging indicator light, described charging inlet and described charging indicator light and electrically connects with described control circuit plate, and described charging inlet is USB interface.
Optionally, the output voltage of described chargeable lithium battery is 3.7V, and the higher frequency peak value of described module high voltage bag is 17KHz, and the voltage extremity of described module high voltage bag is 4.5KV, and the total current of described arc type ignition device is output as 3-3.2 ampere.
Use the arc type ignition device that the application provides, it is possible to bring at least one in following beneficial effect:
First, multiple described discharge ends extend module high voltage bag and are oppositely arranged around an ignition center, using the teaching of the invention it is possible to provide more stable, more powerful electric spark;Second, two groups of boosters are set, its four discharge ends in " X " type or "+" type arranges that to enable to its configuration more reasonable, meets user demand when using minimum booster and discharge end;3rd, groove isolation skeleton, high intensity coil, high magnetic conduction core, sleeve pipe electric wire and IC oscillating tube will be divided to be integrated in packaging body, be greatly reduced the volume of module high voltage bag, and then reduce the volume of ignition device;4th, use the high magnetic conduction core of many groups and IC oscillating tube, both achieved the powerful function of module high voltage bag, and reduced again the volume of high voltage package;5th, adopt IC oscillating tube to connect low pressure winding and be built in module high voltage bag and produce self-oscillation, control static current of lcd so that lithium battery is durable;6th, chargeable lithium battery, charging panel, charging inlet etc. are set and realize chargeable pattern so that arc type ignition device can Reusability.
Detailed description of the invention
Below in conjunction with drawings and Examples, the application is described in further detail.It is understood that specific embodiment described herein is used only for explaining the application, but not the restriction to the application.
The application provides a kind of arc type ignition device, including:
Module high voltage bag, described module high voltage bag includes multiple booster;Each described booster includes a point groove isolation skeleton, high intensity coil, high magnetic conduction core and two sleeve pipe electric wires;Described high intensity coil is intertwined and connected and isolates on skeleton at described point of groove, and described point of groove isolation skeleton is arranged on described high magnetic conduction in-core;
IC oscillating tube, described IC oscillating tube is electrically connected with described booster one to one by power input line;
Power module, described power module includes chargeable lithium battery, and described chargeable lithium battery electrically connects with described IC oscillating tube;And
Fine motion ignition switch, on the circuit being arranged between described chargeable lithium battery and described IC oscillating tube of described fine motion ignition switch electrical connection;
Each described sleeve pipe electric wire is respectively provided with link and discharge end, and described link is connected with described high intensity coil respectively, and multiple described discharge ends extend described module high voltage bag and are oppositely arranged around an ignition center.
Preferably, described module high voltage bag includes two boosters, and two described high magnetic conduction cores are wholely set and are one and double; two organize high magnetic conduction core, four described discharge ends of four described sleeve pipe electric wires in " X " type or "+" type arranges.
Being more highly preferred to, described point of groove isolation skeleton has high-pressure trough and isolation trough, and described high intensity coil is intertwined and connected respectively on described high-pressure trough and described isolation trough.
It is preferred that, the positive pole of described IC oscillating tube is connected with the positive electrical of described chargeable lithium battery, the negative pole of described chargeable lithium battery electrically connects with one end of described fine motion ignition switch, and the other end of described fine motion ignition switch is connected with the negative electricity of described IC oscillating tube.
Further preferred, described module high voltage bag also includes packaging body, and described point of groove is isolated skeleton, described high intensity coil and described high magnetic conduction core and be arranged in described packaging body, and described discharge end extends described packaging body.
Optionally, described point of groove isolation skeleton is made up of high temperature high voltage resistant plastic resin;Described high intensity coil is the high strength enamelled wire of wire diameter 0.035mm;Described sleeve pipe electric wire is high temperature resistant tetrafluoro sleeve pipe electric wire;Described packaging body is made up of epoxy resin.
Preferably, described arc type ignition device also includes housing, and described housing includes internals assembling shell, middle frame, shell and skull;Described module high voltage bag, described chargeable lithium battery, described fine motion ignition switch and described IC oscillating tube are arranged in described internals assembling shell, described middle frame is connected by pin and described internals assembling shell are fixing, described skull is pivotally connected by pin and described internals assembling shell, being provided with the high-temperature insulation porcelain cup coordinated with described discharge end in described middle frame, described ignition center is the geometric center of described high-temperature insulation porcelain cup;Described shell side is provided with the switch opening for coordinating with fine motion ignition switch, and described internals assembling shell is connected by fixed screw and described shell are fixing.
Preferably, described power module also includes control circuit plate, and described control circuit plate is plugged in the slot of described internals assembling shell lower end;Described control circuit plate electrically connects with described IC oscillating tube, described chargeable lithium battery.
Being more highly preferred to, described power module also includes charging inlet and charging indicator light, described charging inlet and described charging indicator light and electrically connects with described control circuit plate, and described charging inlet is USB interface.
Optionally, the output voltage of described chargeable lithium battery is 3.7V, and the higher frequency peak value of described module high voltage bag is 17KHz, and the voltage extremity of described module high voltage bag is 4.5KV, and the total current of described arc type ignition device is output as 3-3.2 ampere.
Inventor is prosperous for the market expanding electric arc cigarette lighter, the high voltage package of meticulous R & D design monomer double winding four output electric arc electric wire, form the electric arc electric spark of X-type, eliminate the noise of " creakily, creakily, creakily " current sound that 2.5~3 amperes of electric current of output produces, solve output 1.6~2.2 amperes of thinner and more delicate deficiencies of electric arc electric spark of electric current simultaneously.
Light a cigarette the contrast of time: the product of two electric arcs of yi word pattern, and it is 10~15/s that output electric current to complete, at 1.6~2.2 amperes, the time of lighting a cigarette, and using the electric arc electric spark of monomer double winding X-type to complete the time of lighting a cigarette is 2~3/s.Clearly shorten the time of lighting a cigarette 80%, improve once fully charged after the use time.
Lithium battery utilizes contrast: the chargeable lithium battery for capacity for 260 milliamperes, the product of two electric arcs of yi word pattern, and output electric current is 35~40/ times at the product of 1.6~2.2 amperes number of times that successfully lights a cigarette.The product of electric arc electric spark the using monomer double winding X-type number of times that successfully lights a cigarette is 70~80/ times, substantially increases the utilization rate of electric energy.
Use high-effect to improve electric arc cigarette lighter, inventor's innovative design arc high pressure bag of monomer double winding X-type, compare after effect through Datum Argument with practice, high voltage package is exported arc line and adopts four outputs, be designed as X-type electric arc electric spark, substantially increase the firepower of arc spark, it is effectively shortened the time lit a cigarette, reduce the consumption of electric energy, make the temperature of lighting-up tuyere reduce, it is ensured that the safety coefficient of user.Design double wrap component slot isolation skeleton, adopts macromolecule high-temperature resistance plastice to manufacture double winding skeleton.
In order to reduce the manufacture volume of arc high pressure bag, selecting wire diameter is the high strength enamelled wire of 0.035mm, adopt automatic numerical control coil winding machine winding, the strict number of turns precision controlling winding coil with improve product quality, efficiently solve ultra-fine enamel-covered wire winding highly difficult, make output voltage effectively balance, improve the stability of voltage output.Four high temperature resistant tetrafluoro electric wires are divided on connection double winding high strength enamelled wire winding, make electric arc electric spark form X-type.The high magnetic conduction core of design adopts monomer double; two group magnetic field, improves magnetic field output, makes four high temperature resistant tetrafluoro electric wire outputs make atmospherical discharges produce electric arc.Double winding line group is aggregated into and singly organizes on integrated circuit controller (control circuit plate), adopt special high-power IC oscillating tube to connect high voltage package and produce self-oscillation, control static current of lcd.
The exploded perspective view of the inside primary structure of the arc type ignition device that Fig. 1 provides for the embodiment of the present application;
The schematic diagram of the chargeable lithium battery of the arc type ignition device that Fig. 2 provides for the embodiment of the present application;
The schematic perspective view of the arc type ignition device that Fig. 3 provides for the embodiment of the present application;
Fig. 4 illustrates the perspective cross section schematic diagram of the arc type ignition device that the embodiment of the present application provides;
Fig. 5 illustrates the perspective cross section schematic diagram of another angle of the arc type ignition device that the embodiment of the present application provides;
Fig. 6 illustrates the front cross-sectional schematic diagram of the arc type ignition device that the embodiment of the present application provides;
Fig. 7 illustrates the schematic top plan view of the arc type ignition device that the embodiment of the present application provides.
As shown in Fig. 1, Fig. 3, Fig. 6, the application provides a kind of arc type ignition device, including:
Module high voltage bag 1 (referring to Fig. 4-6), module high voltage bag 1 includes 2 boosters;Each booster includes a point groove isolation skeleton 10, high intensity coil 11, high magnetic conduction core 12 and two sleeve pipe electric wires 13;High intensity coil 11 is intertwined and connected on point groove isolation skeleton 10, and a point groove isolation skeleton 10 is arranged in high magnetic conduction core 12;
Two IC oscillating tube 20, IC oscillating tubes 20 are electrically connected with booster one to one by power input line 21, are specifically connected to the high intensity coil 11 of the booster of each correspondence;
Power module, power module includes chargeable lithium battery 30 (see Fig. 2 and Fig. 4-6), and chargeable lithium battery 30 electrically connects with IC oscillating tube 20;And
Fine motion ignition switch 40, on the circuit being arranged between chargeable lithium battery 30 and IC oscillating tube 20 of fine motion ignition switch 40 electrical connection;
Each sleeve pipe electric wire 13 is respectively provided with link and discharge end 131, and link is connected with high intensity coil 11 respectively, and 4 discharge ends 131 extend module high voltage bag 1 and are oppositely arranged (referring to Fig. 7) around an ignition center.
IC oscillating tube 20 preferably employs the IC oscillating tube of small-sized high-power, it is possible to produce self-oscillation, controls static current of lcd.
As it is shown in figure 1, in one preferred embodiment, it is a high magnetic conduction core of double; two group that two high magnetic conduction cores 12 are wholely set, to obtain monomer double; two group magnetic field;Four discharge ends 131 of four sleeve pipe electric wires 13 are arranged in " X ".
In other implementations, booster can arrange more than two, and discharge end 131 distribution shape also can change, as "+" font.
In an embodiment being more highly preferred to, a point groove isolation skeleton 10 has high-pressure trough and isolation trough, and high intensity coil is intertwined and connected respectively on high-pressure trough and isolation trough;High-pressure trough and trough are respectively provided with multiple wire casing, are wound around a high intensity coil (referring to Fig. 1) in each wire casing.The high intensity coil 11 that point groove is wound around in order, it is possible to make High voltage output stability strengthen.
In further preferred embodiment, the application provides a kind of preferred internal circuit connected mode, namely the positive pole of IC oscillating tube 20 is connected with the positive electrical of chargeable lithium battery 30, the negative pole of chargeable lithium battery 30 electrically connects with one end of fine motion ignition switch 40, and the other end of fine motion ignition switch 40 is connected with the negative electricity of IC oscillating tube 20.Wherein involved all parts layout (referring to Fig. 4-6) in arc type ignition device can change, and this change only relates to connect the layout of wire, does not affect its basic circuit theory layout.
As it is shown in figure 1, in other embodiment, module high voltage bag 1 also includes packaging body 14, point groove isolation skeleton 10, high intensity coil 11 and high magnetic conduction core 12 are arranged in packaging body 14, and discharge end 131 extends packaging body 14.
In an optional embodiment, a point groove isolation skeleton 10 is made up of high temperature high voltage resistant plastic resin;High intensity coil 11 is the high strength enamelled wire of wire diameter 0.035mm;Sleeve pipe electric wire 13 is high temperature resistant tetrafluoro sleeve pipe electric wire;Packaging body 14 is made up of epoxy resin.
It is pointed out that a point material for groove isolation skeleton 10 is transformable;The wire diameter of high intensity coil 11 can also change, and is advisable too much not take up room and not waste resource;Sleeve pipe electric wire 13 can adopt other electric wire commonly employed in the art;The material of packaging body 14 also alterable, is as the criterion not affecting existing capability.
As Figure 4-Figure 6, other preferred embodiment in, arc type ignition device also includes housing, and housing includes internals assembling shell 50, middle frame 51, shell 52 and skull 53;Module high voltage bag, chargeable lithium battery 30, fine motion ignition switch 40 and IC oscillating tube 20 are arranged in internals assembling shell 50, middle frame 51 is connected by pin 6 is fixing with internals assembling shell 50, skull 53 is pivotally connected by pin 6 and internals assembling shell 50, the high-temperature insulation porcelain cup 7 (referring to Fig. 7) coordinated with discharge end 131 it is provided with in middle frame 51, ignition center is the geometric center of high-temperature insulation porcelain cup 7, and high-temperature insulation porcelain cup 7 is provided with the hole coordinated with discharge end 131;Shell 52 side is provided with the switch opening (referring to Fig. 3) for coordinating with fine motion ignition switch 40, and internals assembling shell 50 is connected by fixed screw 8 is fixing with shell 52, it would however also be possible to employ other forms are fixed, such as grafting or clamping.
Discharge end 131 forms a region of discharge in high-temperature insulation porcelain cup 7, and electric discharge produces electric arc, it is possible to avoids user to scald, and improves service life.
In an interchangeable embodiment, it is also possible to be not provided with internals assembling shell 50, and itself and shell 52 are become one.
In other implementations, module high voltage bag, chargeable lithium battery 30, fine motion ignition switch 40 and the IC oscillating tube 20 practical layout in housing are transformable.The position of fine motion ignition switch 40 and described switch opening is also transformable.Additionally, optional, also fine motion ignition switch 40 can be matched with skull 53, so that lighting a fire while opening skull.
As shown in Figure 6, in one preferred embodiment, power module also includes control circuit plate 31, and control circuit plate 31 is plugged in the slot of internals assembling shell 50 lower end;Control circuit plate 31 electrically connects with IC oscillating tube 20, chargeable lithium battery 30.
IC oscillating tube 20 shown in Fig. 1 integrates with control circuit plate 31, optionally, can be arranged near module high voltage bag 1 by IC oscillating tube 20.Fig. 1 only makees to illustrate, not as the restriction of particular location.
Control output electric current by integrated circuit, and then ensure that its output electric current is a suitable scope, improves the service life of chargeable lithium ion battery.
As shown in Figure 6, in an embodiment being more highly preferred to, power module also includes charging inlet 32 and charging indicator light 33, charging inlet 32 and charging indicator light 33 and electrically connects with control circuit plate 31, and charging inlet 32 is USB interface.
In order to reduce the space shared by charging inlet 32, it is possible to adopt the USB interface of mini type, it would however also be possible to employ other suitable charging inlet.
In other optional embodiment, the output voltage of chargeable lithium battery 30 is 3.7V, and the higher frequency peak value of module high voltage bag is 17KHz, and the voltage extremity of module high voltage bag is 4.5KV, and the total current of arc type ignition device is output as 3-3.2 ampere.
Above-mentioned parameter selected and limits, being so that the output of arc type ignition device is more stable, light a fire faster, safer, abate the noise.
Using the arc type ignition device that the application provides, the duration of ignition is short, electric spark is strong and stablizes, and volume is little easy to carry, simplified manufacturing process, it is possible to obtain stay-in-grade product, more durable environmental protection.
The foregoing is only the preferred embodiment of the application, be not limited to the application, for a person skilled in the art, the application can have various modifications and variations.All within spirit herein and principle, any amendment of making, equivalent replacement, improvement etc., should be included within the protection domain of the application.