CN210662925U - Double-fire ignition gun - Google Patents

Abstract

The utility model relates to a two fire ignition guns, which comprises a housin, be equipped with handheld portion, electric arc emergence portion on the casing and connect the connecting portion of handheld portion and electric arc emergence portion, be equipped with power supply module in the handheld portion and the high-pressure package of being connected with power supply module, be equipped with the arc emission end in the electric arc emergence portion, the arc emission end includes first arc lead wire and second arc lead wire, be equipped with the control button who is used for controlling arc emission end transmission electric arc in the handheld portion, be equipped with naked light ignition mechanism in addition in the casing, still be equipped with the naked light ignition switch that is used for controlling the ignition of naked light ignition mechanism in the handheld portion, be equipped with insulating porcelain cup in the electric arc emergence portion. Adopt above-mentioned technical scheme, the utility model provides a two fire burning torches, this burning torch can adopt electric arc ignition, also can adopt the naked light to ignite, and compact structure in the burning torch, rationally distributed to burning torch can a thing multi-purpose, convenient and practical.

Description

Double-fire ignition gun

Technical Field

The utility model relates to an ignition gun, in particular to a double-fire ignition gun.

Background

An ignition gun is an electronic igniter using inflammable gas, and is generally used for ignition of indoor gas cookers, field ignition and the like. The ignition gun comprises a shell, wherein a power supply assembly and a high-voltage pack connected with the power supply assembly are arranged in the shell, an arc emission end and a control button used for controlling the arc emission end are arranged on the shell, and the arc emission end is connected with the high-voltage pack. However, the ignition gun in the prior art cannot use open fire, so that a gas ignition gun is required to be additionally arranged when the open fire is required to be used, the ignition gun is troublesome when going out, a plurality of ignition guns are required to be carried, the internal structure of the ignition gun is not compact due to unreasonable layout in a plurality of ignition guns, the ignition gun is inconvenient to install, and the ignition gun is troublesome to use.

Disclosure of Invention

The utility model aims at: in order to overcome the defects of the prior art, the utility model provides a double-fire ignition gun, this ignition gun can adopt electric arc ignition, also can adopt naked light to ignite, and compact structure in the ignition gun, rationally distributed to the ignition gun can be multi-purpose, convenient and practical.

The technical scheme of the utility model: a double-fire ignition gun comprises a shell, wherein a handheld portion, an arc generating portion and a connecting portion for connecting the handheld portion and the arc generating portion are arranged on the shell, a power supply assembly and a high-voltage package connected with the power supply assembly are arranged in the handheld portion, an arc emitting end is arranged on the arc generating portion and connected with the high-voltage package, the arc emitting end comprises a first arc lead and a second arc lead, a control button for controlling the arc emitting end to emit arc is arranged on the handheld portion, the double-fire ignition gun is characterized in that an open fire ignition mechanism is additionally arranged in the shell, an open fire ignition switch for controlling the open fire ignition mechanism to ignite is further arranged on the handheld portion, an insulating porcelain cup is arranged on the arc generating portion, a first mounting foot and a second mounting foot are oppositely arranged on the insulating porcelain cup, and the first arc lead is mounted in the first mounting foot, the second arc lead is installed in the second installation foot, be located on the insulating porcelain cup and be equipped with open flame fire outlet between first installation foot and the second installation foot.

Adopt above-mentioned technical scheme, can utilize electric arc to light the cigarette, can utilize naked light to light cigarette etc. again, select different ignition modes according to different demands, need not hand-carry two ignition tools like this, conveniently carry more like this, the fire outlet setting of naked light is between first electric arc lead wire and second electric arc lead wire, makes electric arc and the setting of the ignition head of naked light together like this, and is also more convenient during the use.

The utility model discloses a further setting: ignition mechanism includes gas receiver, piezoceramics, wane and sets up the air outlet valve on the gas receiver, the wane card is established on the air outlet valve, still be equipped with the spout in handheld portion, it is equipped with the feather key to slide in the spout, control button sets up on the feather key, naked light ignition switch and feather key linkage fit, still be equipped with the reset spring who is used for restoring to the throne naked light ignition switch in handheld portion, to the synchronous slip key of gas receiver direction slip drive naked light ignition switch, naked light ignition switch supports downwards and presses the wane to make the air outlet valve be in the on-state, thereby also supports downwards simultaneously and presses piezoceramics to realize the naked light ignition, loosens feather key reset spring and makes naked light ignition switch and piezoceramics and wane separation to the ignition head direction with the feather key.

Adopt the aforesaid further setting, the feather key slides downwards in the spout, naked light ignition switch makes naked light ignition switch lapse simultaneously with feather key linkage cooperation, piezoceramics and air outlet valve all set up the lower extreme at naked light ignition switch, when naked light ignition switch lapse, can all support piezoceramics and wane downwards and press, the air outlet valve is in the open mode, piezoceramics produces the electric spark, can realize naked light ignition this moment, loosen behind the feather key, feather key can upwards reset under reset spring's effect, naked light control switch and wane separation, the air outlet valve is closed, can't carry out naked light ignition this moment, set up safelyr like this.

The utility model discloses a further setting again: the improved open fire ignition switch is characterized in that a first through hole is formed in the sliding groove, a sliding block is correspondingly arranged on the sliding key and is arranged in the first through hole in a sliding mode, the open fire ignition switch comprises a pressing rod and a pressing block which are integrally arranged, the pressing rod is arranged at the lower end of the pressing block, a through groove is formed in the pressing block corresponding to the first through hole, a boss is arranged on the inner side wall of the through groove, a clamping block is correspondingly arranged on the sliding block, and the clamping block is clamped on the boss to achieve linkage matching of the open fire ignition switch and the sliding key.

By adopting the above further arrangement, the linkage matching of the sliding key and the open fire control switch is better realized, and the ignition function of the open fire ignition mechanism is realized.

The utility model discloses a still further set up: the handheld portion comprises a first shell and a second shell which are detachably connected, the connecting portion comprises a third shell which is detachably connected with the handheld portion, the lower end of the third shell is provided with a first opening for the upper end of the handheld portion to stretch into, the first shell and the second shell are both provided with elastic pieces, a second through hole is formed in the third shell corresponding to the position of the elastic pieces, and when the handheld portion is connected with the connecting portion, the elastic pieces extend into the second through hole.

Adopt the aforesaid to set up still further, the casing can be dismantled the inside spare part of easy to assemble, and the portion of handing is connected with connecting portion and is made things convenient for the dismouting, presses the elastic component and makes the elastic component break away from the second through-hole, can dismantle the third casing from handheld portion.

The utility model discloses a still further set up: one side that second installation foot was kept away from to first installation foot is equipped with first mounting groove, and one side that first installation foot was kept away from to second installation foot is equipped with the second mounting groove, first electric arc lead wire is installed in the first mounting groove that corresponds, and in first electric arc lead wire extended to handheld portion, second electric arc lead wire is installed in the second mounting groove that corresponds, and in second electric arc lead wire extended to handheld portion, be equipped with first extension and second extension on the third casing, first extension corresponds first installation foot position and overlaps and establish in the first mounting groove outside, and the second extension corresponds second installation foot position and overlaps and establish the outside at the second mounting groove.

Adopt above-mentioned still further setting, set up like this and make the structure in the burning torch compacter, the overall arrangement is more reasonable, and inner structure can not be mixed and disorderly, and the lead wire in first mounting groove and the second mounting groove can be protected to first extension and second extension, prevents that entry such as water from in the burning torch, taking place the potential safety hazard.

The utility model discloses a still further set up: the power supply assembly comprises a circuit board and a battery connected with the circuit board, the high-voltage pack, the control button and the open fire ignition switch are all connected with the circuit board, a plurality of LED lamps are arranged on the circuit board along the axial direction of the circuit board, the circuit board is connected with a control switch used for controlling the on and off of the circuit, a third through hole is formed in the handheld portion corresponding to each LED lamp, and one end of the control switch extends out of the handheld portion.

Adopt above-mentioned still further setting, when control switch closed, press the unable electric arc that produces of control button, open flame ignition switch opens also can't realize the open flame ignition function, only under the state that control switch opened, press control button and just can produce electric arc, open flame ignition switch opens and just can realize the open flame ignition, set up safer like this, prevent that the user from pressing control button or starting open flame ignition switch and realizing the ignition function under the careless condition, the LED lamp is used for showing the electric quantity, remind the user.

The utility model discloses a still further set up: the battery is rechargeable battery, still be equipped with charging socket and be used for supplying the gas storage box inflatable inflation inlet on the handheld portion, charging socket is connected with the circuit board electricity.

By adopting the above further arrangement, the igniter can be used for multiple times, and can be replenished after the energy source is consumed, so that the igniter can be used for multiple times for a long time.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a front view of an embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

fig. 4 is a schematic view of the internal structure of the open flame ignition switch according to the embodiment of the present invention when it is turned off;

fig. 5 is a schematic view of a sliding key when the open fire ignition switch is turned on according to an embodiment of the present invention;

fig. 6 is a schematic view of the internal structure of the open fire ignition switch according to the embodiment of the present invention;

fig. 7 is an exploded view of an embodiment of the present invention;

FIG. 8 is a schematic view of an insulating porcelain cup according to an embodiment of the present invention;

fig. 9 is a schematic diagram of an open flame ignition switch according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1-9, a dual-fire ignition gun comprises a housing 1, wherein a handheld portion 2, an arc generating portion 3, and a connecting portion 4 connecting the handheld portion 2 and the arc generating portion 3 are disposed on the housing 1, a power supply assembly and a high voltage pack 21 connected to the power supply assembly are disposed in the handheld portion 2, an arc emitting end 31 is disposed on the arc generating portion 3, the arc emitting end 31 is connected to the high voltage pack 21, the arc emitting end 31 includes a first arc lead 311 and a second arc lead 312, the first arc lead 311 is an anode lead, the second arc lead 312 is a cathode lead, a control button 22 for controlling the arc emitting end 31 to emit an arc is disposed on the handheld portion 2, an open fire ignition mechanism is further disposed in the housing 1, an open fire ignition switch 23 for controlling the open fire ignition mechanism to ignite is further disposed on the handheld portion 2, an insulating porcelain cup 6 is disposed on the arc generating portion 3, the utility model discloses a cigarette lighter, including insulating porcelain cup 6, first installation foot 61 and second installation foot 62 are equipped with relatively on the insulating porcelain cup 6, and first electric arc lead wire 311 is installed in first installation foot 61, and second electric arc lead wire 312 is installed in second installation foot 62, it is equipped with naked light fire outlet 63 to lie in on insulating porcelain cup 6 between first installation foot 61 and the second installation foot 62, sets up like this and to utilize electric arc to light cigarette, can utilize naked light to light cigarette etc. again, the user selects different ignition modes according to different demands, need not hand-carry two ignition tools, and it is so more convenient to carry, and naked light fire outlet 63 sets up between first electric arc lead wire 311 and second electric arc lead wire 312, makes electric arc and the ignition head setting of naked light together, and is also more convenient during the use.

In this embodiment, the ignition mechanism includes an air storage tank 51, piezoelectric ceramics 52, a rocker 53 and an air outlet valve 54 arranged on the air storage tank 51, the rocker 53 is clamped on the air outlet valve 54, the handheld portion 2 is further provided with a sliding slot 7, a sliding key 71 is slidably arranged in the sliding slot 7, the control button 22 is arranged on the sliding key 71, the open fire ignition switch 23 is in linkage fit with the sliding key 71, the handheld portion 2 is further provided with a return spring 24 for returning the open fire ignition switch 23, the sliding key 71 slides towards the air storage tank 51 to drive the open fire ignition switch 23 to slide synchronously, the open fire ignition switch 23 presses the rocker 53 downwards to make the air outlet valve 54 in an open state, and presses the piezoelectric ceramics 52 downwards to realize open fire ignition, the sliding key 71 is released to return the sliding key 71 towards the arc generation portion 3 to return the sliding key 71 to make the open fire ignition switch 23 separate from the piezoelectric ceramics 52 and the rocker 53, the sliding key 71 slides downwards in the sliding chute 7, the open fire ignition switch 23 is in linkage fit with the sliding key 71 to enable the open fire ignition switch 23 to simultaneously slide downwards, the piezoelectric ceramics 52 and the air outlet valve 54 are both arranged at the lower end of the open fire ignition switch 23, when the open fire ignition switch 23 slides downwards, the piezoelectric ceramics 52 and the rocker 53 are both pressed downwards, the air outlet valve 54 is in an open state, the piezoelectric ceramics 52 generate electric sparks, open fire ignition can be achieved at the moment, after the sliding key 71 is loosened, the sliding key 71 can reset upwards under the action of the reset spring 24, the open fire control switch 23 is separated from the rocker 53, the air outlet valve 54 is closed, open fire ignition cannot be conducted at the moment, and accordingly the arrangement is safer.

In this embodiment, a first through hole 72 is disposed in the sliding groove 7, a sliding block 711 is correspondingly disposed on the sliding key 71, the sliding block 711 is slidably disposed in the first through hole 72, the open fire ignition switch 23 includes a pressing rod 231 and a pressing block 232 that are integrally disposed, the pressing rod 231 is disposed at the lower end of the pressing block 232, a through groove 2321 is disposed on the pressing block 232 corresponding to the first through hole 72, a boss 2322 is disposed on an inner side wall of the through groove 2321, a clamping block 7111 is correspondingly disposed on the sliding block 711, and the clamping block 7111 is clamped on the boss 2322 to achieve linkage matching of the open fire ignition switch 23 and the sliding key 71, so that linkage matching of the sliding key 71 and the open fire control switch 23 can be better achieved, and an ignition function of the open fire ignition mechanism can be achieved. Handheld portion 2 is including dismantling first casing 25 and the second casing 26 of connection, connecting portion 4 includes and can dismantle the third casing 41 of being connected with handheld portion 2, the lower extreme of third casing 41 is equipped with the first opening that supplies handheld portion 2 upper end to stretch into, all be equipped with elastic component 251 on first casing 25 and the second casing 26, it is equipped with second through-hole 412 to correspond elastic component 251 position on the third casing 41, and when handheld portion 2 was connected with connecting portion 4, elastic component 251 extended to in the second through-hole 412, the inside spare part of easy to assemble can be dismantled to the casing, and the convenient dismouting of the connected mode of handheld portion 2 and connecting portion 4.

In this embodiment, a first mounting groove is formed on a side of the first mounting leg 61 away from the second mounting leg 62, a second mounting groove 621 is formed on a side of the second mounting leg 62 away from the first mounting leg 61, the first arc lead 311 is mounted in the corresponding first mounting groove, the first arc lead 311 extends into the handheld portion 2, the second arc lead 312 is mounted in the corresponding second mounting groove 621, the second arc lead 312 extends into the handheld portion 2, the third housing 41 is provided with a first extension portion 413 and a second extension portion 414, the first extension portion 413 corresponds to the first mounting leg 61 and is sleeved on the outer side of the first mounting groove, the second extension portion 414 corresponds to the second mounting leg 62 and is sleeved on the outer side of the second mounting groove 621, so that the structure in the ignition gun is more compact, the layout is more reasonable, and the internal structure is not disordered, the first extension part 413 and the second extension part 414 can protect the lead wires in the first mounting groove and the second mounting groove 621, and prevent water and the like from entering the ignition gun and causing potential safety hazards.

In this embodiment, the power supply module includes a circuit board 81 and a battery 82 connected to the circuit board 81, the high voltage package 21, the control button 22 and the open fire ignition switch 23 are all connected to the circuit board 81, the circuit board 81 is provided with a plurality of LED lamps 811 along an axial direction thereof and is connected to a control switch 812 for controlling on and off of the circuit, the handheld portion 2 is provided with a third through hole 27 corresponding to each LED lamp 811, one end of the control switch 812 extends out of the handheld portion 2, when the control switch 812 is turned off, the control button 22 is pressed to generate an arc, the open fire ignition switch 23 is turned on to realize the open fire ignition function, only when the control switch 812 is turned on, the control button 22 is pressed to generate an arc, and when the open fire ignition switch 23 is turned on to realize the open fire ignition, which is safer to prevent a user from pressing the control button 22 or starting the open fire ignition switch 23 to realize the ignition function without intention, the LED lamp 811 is used for displaying the electric quantity and reminding the user.

In this embodiment, the battery 82 is a rechargeable battery, the handheld portion 2 is further provided with a charging socket 28 and an inflation inlet for inflating the gas storage tank 52, the charging socket 28 is electrically connected with the circuit board 81, so that the ignition gun can be used for multiple times, and the energy can be replenished after the energy is consumed, so that the ignition gun can be used for multiple times for a long time.

Claims (7)

1. A double-fire ignition gun comprises a shell, wherein a handheld portion, an arc generating portion and a connecting portion for connecting the handheld portion and the arc generating portion are arranged on the shell, a power supply assembly and a high-voltage package connected with the power supply assembly are arranged in the handheld portion, an arc emitting end is arranged on the arc generating portion and connected with the high-voltage package, the arc emitting end comprises a first arc lead and a second arc lead, a control button for controlling the arc emitting end to emit arc is arranged on the handheld portion, the double-fire ignition gun is characterized in that an open fire ignition mechanism is additionally arranged in the shell, an open fire ignition switch for controlling the open fire ignition mechanism to ignite is further arranged on the handheld portion, an insulating porcelain cup is arranged on the arc generating portion, a first mounting foot and a second mounting foot are oppositely arranged on the insulating porcelain cup, and the first arc lead is mounted in the first mounting foot, the second arc lead is installed in the second installation foot, be located on the insulating porcelain cup and be equipped with open flame fire outlet between first installation foot and the second installation foot.

2. The dual-fire ignition gun according to claim 1, wherein the ignition mechanism comprises a gas storage tank, piezoelectric ceramics, a rocker and a gas outlet valve arranged on the gas storage tank, the rocker is clamped on the gas outlet valve, a sliding groove is further formed in the handheld portion, a sliding key is arranged in the sliding groove, the control button is arranged on the sliding key, the open fire ignition switch is in linkage fit with the sliding key, a reset spring used for resetting the open fire ignition switch is further arranged in the handheld portion, the sliding key slides towards the direction of the gas storage tank to drive the open fire ignition switch to slide synchronously, the open fire ignition switch downwards presses the rocker to enable the gas outlet valve to be in an open state, meanwhile, the piezoelectric ceramics are downwards pressed to achieve open fire ignition, and the sliding key is reset towards the ignition head direction by loosening the sliding key reset spring to enable the open fire ignition switch to be separated from the piezoelectric ceramics and the rocker.

3. The dual-fire ignition gun according to claim 2, wherein a first through hole is formed in the sliding groove, a sliding block is correspondingly arranged on the sliding key, the sliding block is slidably arranged in the first through hole, the open fire ignition switch comprises a pressing rod and a pressing block which are integrally arranged, the pressing rod is arranged at the lower end of the pressing block, a through groove is formed in the pressing block corresponding to the first through hole, a boss is arranged on the inner side wall of the through groove, a clamping block is correspondingly arranged on the sliding block, and the clamping block is clamped on the boss to realize linkage matching of the open fire ignition switch and the sliding key.

4. A twin-fire ignition gun as defined in claim 1, 2 or 3, wherein the hand-held portion includes a first housing and a second housing which are detachably connected, the connecting portion includes a third housing which is detachably connected with the hand-held portion, a first opening is provided at a lower end of the third housing for an upper end of the hand-held portion to extend into, the first housing and the second housing are both provided with elastic members, the third housing is provided with a second through hole corresponding to the elastic member, and when the hand-held portion is connected with the connecting portion, the elastic members extend into the second through hole.

5. The twin-fire ignition gun according to claim 4, wherein a first mounting groove is formed in a side of the first mounting leg remote from the second mounting leg, a second mounting groove is formed in a side of the second mounting leg remote from the first mounting leg, the first arc lead is mounted in the corresponding first mounting groove, the first arc lead extends into the hand-held portion, the second arc lead is mounted in the corresponding second mounting groove, the second arc lead extends into the hand-held portion, the third housing is provided with a first extension portion and a second extension portion, the first extension portion corresponds to the first mounting leg and is sleeved outside the first mounting groove, and the second extension portion corresponds to the second mounting leg and is sleeved outside the second mounting groove.

6. The dual-fire ignition gun according to claim 5, wherein the power supply assembly comprises a circuit board and a battery connected with the circuit board, the high-voltage pack, the control button and the open fire ignition switch are all connected with the circuit board, a plurality of LED lamps and a control switch for controlling the on and off of the circuit are arranged on the circuit board along the axial direction of the circuit board, a third through hole is arranged on the handheld portion corresponding to each LED lamp, and one end of the control switch extends out of the handheld portion.

7. The twin-fire ignition gun according to claim 6, wherein the battery is a rechargeable battery, the hand-held portion further has a charging socket and an inflation port for inflating the gas storage tank, and the charging socket is electrically connected to the circuit board.

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