CN103339445A - Flint lighter - Google Patents

Abstract

The invention provides a flint lighter, which comprises a gas release mechanism, a spark producing mechanism and an operating mechanism; the spark producing mechanism comprises an energy storage element (7) storing energy by deformation, a flint (4) built in the lighter, a grinding wheel (5) contacting the flint, a wheel rotating member (10) rotating forward synchronously with the grinding wheel (5) when the energy storage element (7) releases energy, and an energy storage element force application position (8) rotating synchronously with the wheel rotating member (10) and contacting or connected to the energy storage element (7); the operating mechanism comprises a toggle member (15) capable of toggling the wheel rotating member (10) to rotate in reverse; when the toggle member (15) rotates forward and toggles the wheel rotating member (10) to rotate reversely, the energy storage element force application position (8) rotates synchronously and reversely and deforms the energy storage element (7) to store energy; when the toggle member (15) continues to rotate forward and separates from the wheel rotating member (10), the energy storage element (7) releases energy and drives the energy storage element force application position (8) to rotate forward, the wheel rotating member (10) rotates forward synchronously and resets, and the grinding wheel (5) rotates forward synchronously with friction against the flint (4) to produce a spark; and the gas release mechanism is activated by the operating mechanism to release gas before the extinction of the spark.

Description

A kind of fire stone lighter

A kind of fire stone lighter

Technical field

Pyrophoric lighter is produced by emery wheel and flint friction the present invention relates to one kind.Background technology

At present, main lighter has two kinds：One kind is electronic lighter, and another is fire stone lighter.Because electronic lighter will not make hand dirty in use, so while the quality of fire stone lighter is identical with electronic lighter, price is also lower than electronic lighter, but many consumers are more willing to buy electronic lighter.The epoch of health, health are increasingly being emphasized, fire stone lighter must change traditional sparking mode.

Chinese patent application 200910115330. 4 discloses a kind of flint lighter, and it includes cluster gear, resetting means and separator etc..The patent application can allow the sparking mode of fire stone lighter more to clean, but the feel during sparking still can not be compared favourably with electronic lighter, it is necessary to which the very quick pressing force that applies to button can just light lighter, and production gets up also more complicated.

Chinese patent 97226690. 9 discloses a kind of gaseous fuel ignition device, it imitates the ignition process and principle of electronic lighter, the energy put aside using pressing in button procedure rotates forward flint wheel to light a fire suddenly, and then need to consider further that the frictional force how both avoided between steel wheel and flint after completing igniting, allow all part reverts in situ again.

Chinese patent 95243330. 3 discloses a kind of vertical pressing type friction steel wheel lighter, it includes mounting, steel wheel, flint, having on mounting on the press device buckled including button, compression spring, return spring, rotating rod, supercharging, steel wheel has steel wheel cover.But in the technical scheme of the patent, the strength unreasonable distribution of spring must pull against the frictional force between steel wheel and flint, this can cause steel wheel often to be blocked by flint during making steel wheel homing.

Therefore it provides a kind of igniting good hand touch, simple in construction, with low cost, sanitation and hygiene, be adapted to fire stone lighter own characteristic, and it really is able to put into the fire stone lighter of actual production and becomes the problem of industry needs solution.The content of the invention

In view of the shortcomings of the prior art, the purpose of the present invention is to light fire stone lighter with a kind of mode more cleaned, moreover, and the feel of fire stone lighter igniting of the present invention is all almost the same with electronic lighter.And the structure of the present invention is very simple, cost is low, it is easy to produce in enormous quantities.

To achieve these goals, the invention provides a kind of fire stone lighter, it includes combustion gas relieving mechanism, spark generating mechanism, operating-controlling mechanism；Wherein, spark generating mechanism is included by the energy-storage travelling wave tube of deformation energy, the emery wheel for being built in the flint of lighter, contact with flint, the rotation component when energy-storage travelling wave tube releases energy with the rotation of emery wheel synchronous forward, the energy-storage travelling wave tube force position with rotating component synchronous axial system and contacting or connect with energy-storage travelling wave tube；Operating-controlling mechanism, which includes that rotation component can be stirred, makes its counter-rotational stir component；When stirring component positive movement and stirring rotation component and rotate backward it, energy-storage travelling wave tube force bit synchronization, which rotates backward and acts on energy-storage travelling wave tube, makes its deformation and energy storage；Stir component continue positive movement and with rotation component separate when, energy-storage travelling wave tube release energy and drive energy-storage travelling wave tube exert a force position rotate forward, rotation component then synchronous forward rotates and resets, emery wheel then synchronous forward rotate and with flint friction generation spark；Combustion gas relieving mechanism is opened by operating-controlling mechanism before blow-out and discharges combustion gas. In the present invention, cocked orientation refers to a kind of position residing for movable part, if movable part is in cocked orientation, and stirring component can be stopped in motion process by rotation component；If movable part is not at cocked orientation, stirring component will not be stopped in motion process by rotation component.

In the present invention, rotation component, the rotation of energy-storage travelling wave tube force position and emery wheel, which can be divided into, to be rotated forward and rotates backward, wherein can cause the rotation that emery wheel friction flint produces spark and spark is sputtered to orientation where gas nozzle, is referred to as rotating forward；It is on the contrary then to rotate backward.

In the present invention, operating-controlling mechanism includes stirring component, stirring lever shaft, the axis hole of lever shaft that component is rotated around it, then this operating-controlling mechanism is called lever operating-controlling mechanism.

In the present invention, operating-controlling mechanism includes stirring component, sliding block, chute, it can be slided positioned at the sliding block stirred on component being fixed in the chute in lighter, or be fixed on the sliding block in lighter can in the chute stirred on component slide, then this operating-controlling mechanism is called slide block type operating-controlling mechanism.

In the present invention, when influence stirs the component of each point movement locus on component from normal activity space into dislocation space in operating-controlling mechanism, the motion referred to as dislocation motion that component is done is stirred.For example; operating-controlling mechanism is lever operating-controlling mechanism; the lever shaft for then stirring component is the component that each point movement locus on component is stirred in influence in operating-controlling mechanism; the normal activity space of lever shaft should be lever axis hole, and stir the motion as dislocation motion that component is done when lever shaft enters dislocation space from lever axis hole；In another example; operating-controlling mechanism is slide block type operating-controlling mechanism; then sliding block is the component that each point movement locus on component is stirred in influence in operating-controlling mechanism, and the normal activity space of sliding block should be chute, and stirs the motion as dislocation motion that component is done when sliding block enters dislocation space by chute.

In the present invention, energy-storage travelling wave tube can be the various elements by stored energy amount, such as various springs, concretely torsion spring, compression spring or extension spring.

In the present invention, energy-storage travelling wave tube energy storage can be made by stirring the positive movement of component, and operating-controlling mechanism can open combustion gas relieving mechanism to discharge combustion gas during component positive movement is stirred；The positive movement is one-way movement.

In the present invention, combustion gas relieving mechanism includes gas nozzle and the fuel-release lever for prizing the gas nozzle, fuel-release lever controls the release of combustion gas by prizing gas nozzle, and when not any external force acts on fuel-release lever, gas nozzle is closed.Fuel-release lever rotating shaft can be located between the force side of fuel-release lever and gas nozzle, and when pressing down on the force side of fuel-release lever, the other end of fuel-release lever prizes gas nozzle upwards；Can also be that gas nozzle is located between fuel-release lever rotating shaft and the force side of fuel-release lever, when pushing up the force side of fuel-release lever, the other end of fuel-release lever prizes gas nozzle upwards.The structure of gas nozzle belongs to prior art, will not be repeated here.

In the present invention, operator stirs rotation component by operating operating-controlling mechanism to make to stir component, stir component and stir energy-storage travelling wave tube energy storage when rotation component rotates backward it, when the energy that energy-storage travelling wave tube is put aside is very sufficient, component is stirred to separate with rotation component, energy-storage travelling wave tube, which releases energy, causes emery wheel quickly to rotate forward, emery wheel rubbed during rotating forward flint produce spark.Operator operates operating-controlling mechanism, is not required to directly contact emery wheel, its not only good hand touch, operates almost the same with electronic lighter, and sanitation and hygiene.

According to one embodiment of the present invention, in addition to the resetting-mechanism for making to stir component reset.

According to one embodiment of the present invention, resetting-mechanism is dislocation resetting-mechanism, and it includes being used to stir component generation dislocation motion avoiding rotating the dislocation space that component stops, and contacts or connect, for making to stir component with stirring component It is automatic to occur dislocation motion and make to stir the automatically reset flexible member of component.Operating-controlling mechanism is lever operating-controlling mechanism, and it includes stirring component, stirs lever shaft, the axis hole of lever shaft that component is rotated around it；Lever shaft can the activity in the hole that axis hole and dislocation space are collectively constituted.In the present invention, flexible member can be the various elements by stored energy amount, such as various springs, concretely torsion spring, compression spring or extension spring.

According to another embodiment of the invention, resetting-mechanism is dislocation resetting-mechanism, operating-controlling mechanism is slide block type operating-controlling mechanism, it includes stirring component, sliding block, chute, can be slided positioned at the sliding block stirred on component being fixed in the chute in lighter, or be fixed on the sliding block in lighter can slide in the chute stirred on component；Provided with the protuberance being connected with chute by chute（Misplace space）, sliding block can be movable in the space that chute and protuberance are collectively constituted, and dislocation space is protuberance.

According to another embodiment of the invention, rotation component and the contact surface of component is stirred provided with stirring the automatically reset obstruction portion of component for obstruction.

According to another embodiment of the invention, resetting-mechanism is spinning reduction mechanism, it is the movable part that can be rotated around the rotary shaft of its own in the range of restriction to stir component and the end that contact of rotation component, or movable part of the rotation component with stirring end that component is contacted for that can be rotated around the rotary shaft of its own in the range of restriction；Spinning reduction mechanism includes rotary shaft, and contacts or connect with stirring component, for making to stir the automatically reset flexible member of component.Spinning reduction mechanism is by allowing movable part to rotate, and the stop and reset that component avoids rotating component are stirred in order.The spinning reduction mechanism, which may also include, to be contacted or connects with movable part, for making movable part automatically reply the reset element of cocked orientation after rotation.In the present invention, reset element can be the various elements by stored energy amount, such as various springs, concretely torsion spring, compression spring or extension spring.

According to another embodiment of the invention, in this embodiment, it may be configured as just lighting lighter when must be applied more than 4. 1 kilograms of power to the pressing position of operating-controlling mechanism, it is in order to avoid children can light a fire easily to be arranged such.

According to another embodiment of the invention, it is provided with and emery wheel synchronous axial system and the accessible anti-card column of hand in spark generating mechanism；Accordingly, anti-hole clipping of the lighter provided with the anti-card column of receiving in it with emery wheel synchronous axial system.When emery wheel is blocked by flint, anti-card column is stirred with hand, rotation component can be allowed to reset.

According to another embodiment of the invention, the part that emery wheel will not touch the flint is provided with the scarce a being asymmetrical in shape.

Compared with prior art, the present invention possesses following beneficial effect：

1st, in the present invention, operator is by operating operating-controlling mechanism to rotate backward rotation component, energy-storage travelling wave tube energy storage simultaneously, when the energy that energy-storage travelling wave tube is put aside is very sufficient, component is stirred to separate with rotation component, energy-storage travelling wave tube, which releases energy, causes emery wheel quickly to rotate forward, emery wheel rubbed during rotating forward flint produce spark, operator operates operating-controlling mechanism, it is not required to directly contact emery wheel, its not only good hand touch, and operate electronic lighter almost the same, and sanitation and hygiene；

2, the characteristics of present invention has taken into full account fire stone lighter itself, without the ignition process and principle for simply imitating electronic lighter, but Schilling rotation component rotates backward and makes energy-storage travelling wave tube energy storage, when the energy that energy-storage travelling wave tube is put aside is very sufficient, making energy-storage travelling wave tube release energy causes rotation component and emery wheel synchronous forward to rotate, the flint that rubbed while emery wheel is rotated forward produces spark, just it is not required to consider further that the reset issues of emery wheel after the completion of ignition process, it need not more consider further that the problem of how to avoid the frictional force between emery wheel and flint during all part reverts after completing ignition process are in situ, therefore drop significantly The probability that low emery wheel is blocked by flint；

3rd, the present invention produces spark using emery wheel and flint, and its cost is less than piezoelectric ceramics necessary to electronic lighter, thus the lighter cost of the present invention is cheaper；

4th, lighter structure of the invention is simple, it is easy to produce in enormous quantities.

The present invention is described in further detail below in conjunction with the accompanying drawings.Brief description of the drawings

Fig. 1 is the partial internal structure schematic diagram of the embodiment of the present invention 1, which show when not carrying out any operation to lighter, each part state in which in lighter；

Fig. 2 is the partial internal structure schematic diagram of embodiment 1, and external force is applied which show operator, makes to stir component rotation, stirs component and is contacted with rotation component；

Fig. 3 is the partial internal structure schematic diagram of embodiment 1, and external force is continued to which show operator, and rotation component is rotated backward, compressed energy-storage element, and stirs the fuel-release lever that members into contact controls combustion gas relieving mechanism；

Fig. 4 is the partial internal structure schematic diagram of embodiment 1, and which show stirring component to separate with rotation component, the energy of energy-storage travelling wave tube savings is very sufficient, and combustion gas relieving mechanism has begun to discharge combustion gas；

Fig. 5 is the partial internal structure schematic diagram of embodiment 1, which show stir component with rotation component separate after, energy-storage travelling wave tube driving rotation component and emery wheel are rotated forward, and the emery wheel of rotation and flint quickly rub generation spark, and spark lights combustion gas and produces flame；

Fig. 6 is the partial internal structure schematic diagram of embodiment 1, and which show stir during component resets under the elastic force effect of flexible member to be stopped by rotation component；

Fig. 7 is the partial internal structure schematic diagram of embodiment 1, which show stirring component under the elastic force effect of flexible member to occur dislocation motion, and then makes to stir the stop that component avoids rotating component；

Fig. 8 is the partial internal structure schematic diagram of the embodiment of the present invention 1, which show when not carrying out any operation to lighter, each part state in which in lighter；

Fig. 9 is the partial internal structure schematic diagram of embodiment 2, and external force is applied which show operator, and it is up to make to stir component, stirs component and is contacted with rotating component；

Figure 10 is the partial internal structure schematic diagram of embodiment 1, and which show stirring component to separate with rotation component, the energy of energy-storage travelling wave tube savings is very sufficient, and combustion gas relieving mechanism has begun to discharge combustion gas；

Figure 11 is the partial internal structure schematic diagram of embodiment 2, which show stir component with rotation component separate after, energy-storage travelling wave tube driving rotation component and emery wheel are rotated forward, and the emery wheel of rotation and flint quickly rub generation spark, and spark lights combustion gas and produces flame；

Figure 12 is the partial internal structure schematic diagram of embodiment 1, which show stir component flexible member elastic force effect under reset during by rotation component stopped, and stir component flexible member elastic force effect under dislocation motion takes place；

Figure 13 is the partial internal structure schematic diagram of embodiment 2, which show stirring component under the elastic force effect of flexible member to occur dislocation motion, and then makes to stir the stop that component avoids rotating component； Figure 14 is the partial internal structure schematic diagram of the embodiment of the present invention 3, which show when not carrying out any operation to lighter, each part state in which in lighter；

Figure 15 is the partial internal structure schematic diagram of embodiment 3, which show stir component with rotation component separate after, energy-storage travelling wave tube driving rotation component and emery wheel are rotated forward, and the emery wheel of rotation and flint quickly rub generation spark, and spark lights combustion gas and produces flame；

Figure 16 is the partial internal structure schematic diagram of embodiment 3, and which show during component reset is stirred, the movable part for stirring component rotates certain angle, and then makes to stir the stop that component avoids rotating component；

Figure 17 is the partial internal structure schematic diagram of the embodiment of the present invention 4, which show when not carrying out any operation to lighter, each part state in which in lighter；

Figure 18 is the partial internal structure schematic diagram of embodiment 4, which show stir component with rotation component separate after, energy-storage travelling wave tube driving rotation component and emery wheel are rotated forward, and the emery wheel of rotation and flint quickly rub generation spark, and spark lights combustion gas and produces flame；

Figure 19 is the partial internal structure schematic diagram of embodiment 4, and which show during component reset is stirred, the movable part for stirring component rotates certain angle, and then makes to stir the stop that component avoids rotating component；

Figure 20 is the partial internal structure schematic diagram of the embodiment of the present invention 5；

Figure 21 is the partial internal structure schematic diagram of the embodiment of the present invention 6, and which show the structure of rotation component side；Figure 22 is the partial internal structure schematic diagram of embodiment 6, the structure for the position side that exerted a force which show energy-storage travelling wave tube；Figure 23 is the partial internal structure schematic diagram of the embodiment of the present invention 7；

Figure 24 is the partial internal structure schematic diagram of the embodiment of the present invention 8；

Figure 25 is the partial internal structure schematic diagram of the embodiment of the present invention 9, which show when not carrying out any operation to lighter, each part state in which in lighter, wherein, dotted line xlx2, x3x4, yly2, y3y4 surround a rectangle frame；

Figure 26 is the structural representation for lighter entity gained along x2xl direction projections to paper plane that the rectangle frame in Figure 25 is cut；

Figure 27 is the structural representation with the same embodiments of Figure 26 and same view angle, and which show during component reset is stirred, the movable part of rotation component rotates certain angle, and then makes to stir the stop that component avoids rotating component；

Figure 28 is the partial internal structure schematic diagram of the embodiment of the present invention 10, which show when not carrying out any operation to lighter, each part state in which in lighter, and stirs component and separated with rotating component；

Figure 29 is the partial internal structure schematic diagram of embodiment 10, and which show stir component during reset, to be stopped and can not be automatically reset by the obstruction portion on rotation component under the elastic force effect of flexible member；

Figure 30 is the partial internal structure schematic diagram of embodiment 10, which show component is stirred under the external force effect of operator, makes to stir component generation dislocation motion, and then make to stir the stop that component avoids rotating component；

Figure 31 is the partial internal structure schematic diagram of the embodiment of the present invention 11, which show stir component during reset, its movable part for being located at end is contacted with rotation component, and movable part can not rotate sufficiently large angle automatically, making to stir component can not avoid rotating the stop of component automatically；

Figure 32 is the partial internal structure schematic diagram of embodiment 11, which show stir component operator external force effect under, The movable part for stirring component rotates enough angles, and then makes to stir the stop that component avoids rotating component；Figure 33 is the partial internal structure schematic diagram of the embodiment of the present invention 12, which show stir component to separate with rotation component, the power that now operator is applied on the pressing position of operating-controlling mechanism is not less than 4. 1 kilograms, and gas nozzle is in the critical condition that will discharge combustion gas or just starts to discharge combustion gas；

Figure 34 is the partial internal structure schematic diagram of embodiment 12, which show the pressing position that operator increases strength pressing operating-controlling mechanism, stirs the fuel-release lever that component pushes combustion gas relieving mechanism, makes combustion gas relieving mechanism sustained release combustion gas；Stir after component separates with rotation component, energy-storage travelling wave tube driving rotation component and emery wheel are rotated forward, the emery wheel of rotation and flint quickly rub generation spark, spark lights combustion gas and produces flame；

Figure 35 is the partial internal structure schematic diagram of the embodiment of the present invention 13；

Figure 36 is the partial internal structure schematic diagram of the embodiment of the present invention 14；

Figure 37 is the partial internal structure schematic diagram of the embodiment of the present invention 15；

Figure 38 is the partial internal structure schematic diagram of the embodiment of the present invention 16, causes emery wheel to be blocked by flint which show the quality problems because of emery wheel or flint；

Figure 39 is the portion of external structural representation of embodiment 16, and which show anti-card column and its anti-hole clipping；

Figure 40 is the portion of external structural representation of embodiment 16, and anti-card column is stirred with hand which show operator；Figure 41 is the portion of external structural representation of embodiment 16, is freed which show emery wheel from the state being stuck；Figure 42 is the partial internal structure schematic diagram of the embodiment of the present invention 17；Embodiment

Embodiment 1

As shown in figure 1, in the present embodiment, operating-controlling mechanism is lever operating-controlling mechanism.

Lighter includes four parts：Combustion gas relieving mechanism, spark generating mechanism, operating-controlling mechanism and resetting-mechanism.

Combustion gas relieving mechanism is included in gas nozzle 2, nozzle springs 1 and fuel-release lever 19, the present embodiment, and fuel-release lever rotating shaft 18 is located between the force side 46 of fuel-release lever and gas nozzle 1；

Resetting-mechanism includes flexible member 11 and dislocation space 14.

Operating-controlling mechanism includes stirring component 15, stir the lever shaft 13 of component and stirring the lever axis hole 37 of component.

Spark generating mechanism includes emery wheel 5, flint 4, flint spring 20, rotation component 10, energy-storage travelling wave tube 7 and energy-storage travelling wave tube force position 8.Its medium plain emery wheel 5 and rotation component 10 are combined and can rotated around the rotary shaft 6 of emery wheel, energy-storage travelling wave tube force position 8 is located on rotation component 10, and emery wheel 5, rotation component 10 and energy-storage travelling wave tube force position 8 can synchronously rotate around the rotary shaft 6 of emery wheel.Flint 4 is firmly propped up emery wheel 5 by flint spring 20.Energy-storage travelling wave tube 7 is a torsion spring in the present embodiment, the torsion spring spire 34 of energy-storage travelling wave tube 7 is enclosed in the rotary shaft 6 of emery wheel, one of energy-storage travelling wave tube 7 props up the energy-storage travelling wave tube fixed bit 3 being fixed on inside lighter, and other end props up the energy-storage travelling wave tube force position 8 on rotation component 10.In the case where not applying any external force, energy-storage travelling wave tube 7 applies elastic force to energy-storage travelling wave tube force position 8, rotation component 10 is propped up limited block 9.

The lever shaft 13 for stirring component that stirring component 15 can be fixed in lighter around one is rotated.The lever axis hole 37 and dislocation space 14 that component is stirred in the present embodiment collectively constitute a gross space 38, and gross space 38 is on component 15 is stirred Form the hole of a Long Circle, the diameter of the lever shaft 13 of stirring component of the width slightly larger than cylinder in hole.Rotation component 10 and stir the threshold value that component 15 is contacted to stir the lever axis hole 37 of component more remote than the space 14 that misplaces.The lever shaft 13 for stirring component can the activity in the hole of the Long Circle of the formation of gross space 38.When the lever shaft 13 for stirring component enters dislocation space 14 by the lever axis hole 37 for stirring component, the motion as dislocation motion that component 15 is done is stirred.

The present embodiment elastic element 11 is a compression spring, and one end of flexible member 11 is fixed on the flexible member fixed bit 25 inside lighter, and the other end is fixed on the flexible member force position 26 stirred on component 15.Using Fig. 1 as reference, in the case where not applying any external force, flexible member 11 in the present embodiment applies the elastic force of lower right to component 15 is stirred, make to be fixed on the cylindrical limited block 16 inside lighter and firmly prop up the cylinder stirred on component 15 and agree with block 17, the lever shaft 13 for now stirring component is located at and stirred in the lever axis hole 37 of component.

When the pressing position 35 of operating-controlling mechanism is pressed down on hand 21, stir component 15 and start to overcome the elastic force of flexible member 11 to do unidirectional rotary motion around the lever shaft 13 for stirring component, this unidirectional rotary motion is positive movement.When stir component 15 touch rotation component 10 when（Such as Fig. 2), stirring component 15 then also needs to overcome the frictional force between the elastic force and emery wheel 5 and flint 4 of energy-storage travelling wave tube 7 in addition to the elastic force of flexible member 11 to rotate backward rotation component 10, in the process, it is all put on stir component 15 make a concerted effort to determine that dislocation motion will not be occurred by stirring component 15.The energy storage during rotation component 10 is rotated backward of energy-storage travelling wave tube 7.

When stir component 15 will rotate component 10 turn to certain position when, stir component 15 and come into contact with fuel-release lever 19 (such as Fig. 3).Then during stirring the continuation positive movement of component 15, have one and stir the process that component 15 gradually tends to separate with rotation component 10.When stir component 15 with rotation component 10 will separate when（Such as Fig. 4), the energy that flexible member 11 and energy-storage travelling wave tube are put aside is very big, the energy that wherein energy-storage travelling wave tube 7 is put aside has been enough to drive the quick rotation of emery wheel 5 and the flint 4 that rubs produces substantial amounts of spark, and now stir the fuel-release lever 19 that component 15 has acted on lever construction, fuel-release lever 19 rotates around fuel-release lever rotating shaft 18 and opens gas nozzle 2, and combustion gas starts release.Only at the moment or it is neighbouring this moment when, because the strength that flexible member 11 and energy-storage travelling wave tube 7 are distributed in actual product can have different differences as the case may be, all act on is caused to stir making a concerted effort to allow and stirring component 15 and occur dislocation motion for component 15, order is stirred component 15 and shifted to an earlier date with rotating the opportunity that separates of component 10.But this moment or it is neighbouring this moment when dislocation motion will not produce any problem to igniting, because the present embodiment has very high requirement unlike embodiment 12 to the opportunity for stirring component 15 with rotation component 10 is separated, this moment or it is neighbouring this moment when the energy put aside of energy-storage travelling wave tube 7 be enough to drive that rotation component 10 and emery wheel 5 are rotated and the flint 4 that rubs produces substantial amounts of spark and can made and rotates component 10 and reset already, these sparks are fully sufficient to light combustion gas, and combustion gas also early has started to release.The present embodiment can also increase only shifting face 44 and the limited block 45 as in embodiment 12, to avoid dislocation motion this moment, such as Figure 33.

Continue to press down on the pressing position 35 of operating-controlling mechanism, stirring component 15 can separate with rotation component 10（Such as Fig. 5), energy instantaneous burst that energy-storage travelling wave tube 7 is put aside simultaneously promotes energy-storage travelling wave tube to exert a force position 8, rotate component 10 and an emery wheel 5-revolution, rotation component 10 resets immediately, the revolution of emery wheel 5 is to rotate forward, a large amount of sparks when emery wheel 5 is turned round produced by friction flint 4 light rapidly combustion gas, and stir component 15 and then may proceed to positive movement, until the limited block 12 being fixed in inside lighter is blocked, component 15-directly continuingly act on fuel-release lever 19 is stirred in this process, combustion gas is continued for release, because combustion gas has been ignited, as long as so pressing 35 flames of pressing position of operating-controlling mechanism always will be continued for.Whole ignition process is completed.Since operator presses the pressing position 35 of operating-controlling mechanism with hand 21, until beating The process that lighter is ignited, referred to as ignition process.

When hand 21 stops the pressing position 35 of pressing operating-controlling mechanism, flexible member 11, which can be promoted, to be stirred component 15 and resets, fuel-release lever 19 will no longer be acted on by stirring component 15 in this process, gas nozzle 2 can be pushed back closed position by nozzle springs 1, fuel-release lever 19 also returns to original position, combustion gas is closed immediately, fray-out of flame.Also in the process, rotation component 10 can be touched and by the stop of rotation component 10 by stirring component 15（Such as Fig. 6).In the present invention, stirring after component 15 completes ignition process during reset, the face come in contact on rotation component 10 with stirring component 15 is referred to as resetting contact surface 36.The contact surface 36 that resets in the present embodiment is a smooth arc-shaped curved surface.And when stir component 15 touch rotation component 10 after, all collective effects for acting on the smooth arc curved surface made a concerted effort and reset contact surface 36 for stirring component 15, which can allow, stirs the generation dislocation motion of component 15, and order stirs component 15 and gradually tends to separate with rotation component 10（Such as Fig. 7) and be finally recovered.After being separated with rotation component 10, stirring component 15 can automatically reset under the elastic effect of flexible member 11（Such as Fig. 1).

Embodiment 2

As shown in figure 8, in the present embodiment, operating-controlling mechanism is slide block type operating-controlling mechanism.

Lighter includes four parts：Combustion gas relieving mechanism, spark generating mechanism, operating-controlling mechanism and resetting-mechanism.

Combustion gas relieving mechanism is included in gas nozzle 2, nozzle springs 1, fuel-release lever 19, the present embodiment, and fuel-release lever rotating shaft 18 is located between the force side 46 of fuel-release lever and gas nozzle 1.

Resetting-mechanism includes flexible member 11 and dislocation space 14.

Operating-controlling mechanism includes stirring component 15, chute 29, sliding block 30 and reverse lever 31.

Spark generating mechanism includes emery wheel 5, flint 4, flint spring 20, rotation component 10, energy-storage travelling wave tube 7 and energy-storage travelling wave tube force position 8.Relation in spark generating mechanism between each part is in the same manner as in Example 1.Energy-storage travelling wave tube 7 is torsion spring in the present embodiment, the torsion spring spire 34 of energy-storage travelling wave tube 7 is enclosed in the rotary shaft 6 of emery wheel, one of energy-storage travelling wave tube 7 props up the energy-storage travelling wave tube fixed bit 3 being fixed on inside lighter, other end props up the energy-storage travelling wave tube force position 8 on rotation component 10, in the case where not applying any external force, energy-storage travelling wave tube 7 applies elastic force to energy-storage travelling wave tube force position 8, rotation component 10 is propped up limited block 9.

In the present embodiment, chute 29 is provided with lighter, stirring the sliding block 30 on component 15 can the activity in the gross space 38 that chute 29 and dislocation space 14 are collectively constituted.Dislocation space 14 is located at vicinity of the position of sliding block 30 when stirring component 15 and rotation component 10 is contacted, and dorsad rotates by chute 29 protuberance that the side formation one of component 10 is connected with chute 29.When sliding block 30 moves into dislocation space 14 by chute 29, stir component 15 and occur dislocation motion.When sliding block 30 is only moved in chute 29, sliding block 30 can be slided up and down and will not rotated.

The present embodiment elastic element 11 is a compression spring, and one end of flexible member 11 is fixed on the flexible member fixed bit 25 inside lighter, and the other end is fixed on the flexible member force position 26 stirred on component 15.Using Fig. 8 as reference, in the case where not applying any external force, flexible member 11 applies the elastic force of vertical downward direction to component 15 is stirred, and will stir component 15 and be firmly pressed in the bottom of chute 29.

During the power for the oblique direction for applying deviation rotation component 10 direction to the pressing position 35 of operating-controlling mechanism with hand 21, stirring component 15 starts to overcome the elastic force of flexible member 11 to do unidirectional linear motion upwards along chute 29, and this unidirectional linear motion is positive movement.Under the guiding of the ramp profile of the pressing position 35 of operating-controlling mechanism, hand 21 is to operating-controlling mechanism during this The direction of pressing position 35 force conform exactly to force custom when people holds lighter.When stir component 15 touch rotation component 10 when（Such as Fig. 9), stir component 15 and then also need to overcome the frictional force between the elastic force and emery wheel 5 and flint 4 of energy-storage travelling wave tube 7 in addition to the elastic force of flexible member 11 to rotate backward rotation component 10.The energy storage during rotation component 10 is rotated backward of energy-storage travelling wave tube 7.

Operating-controlling mechanism includes a reverse lever 31, and this reverse lever 31 is rotated around the lever shaft 32 of reverse lever；And the limited block 33 and fuel-release lever 19 that this reverse lever 31 is reversed lever collectively define scope of activities, to ensure that fuel-release lever 19 can necessarily be touched during positive movement by stirring component 15.Then stir during component 15 continues to slide up, have one and stir the process that component 15 gradually tends to separate with rotation component 10.When stir component 15 with rotation component 10 will separate when（Such as Figure 10), the energy that flexible member 11 and energy-storage travelling wave tube 7 are put aside is very big, the energy that wherein energy-storage travelling wave tube 7 is put aside has been enough to make emery wheel 5 rotate and the flint 4 that rubs produces substantial amounts of spark, and now stir component 15 and acted on reverse lever 31, and reversely lever 31 will stir the upward power that component 15 applies and be changed into downward power and act on the fuel-release lever 19 of lever construction, fuel-release lever 19 rotates around fuel-release lever rotating shaft 18 and opens gas nozzle 2, and combustion gas starts release.

Continuation hand 21 with equidirectional push it is dynamic stir component 15, stirring component 15 can separate with rotation component 10（Such as Figure 11), energy instantaneous burst that energy-storage travelling wave tube 7 is put aside simultaneously promotes energy-storage travelling wave tube to exert a force position 8, rotation component 10 and emery wheel 5 are turned round, rotation component 10 resets immediately, the revolution of emery wheel 5 is to rotate forward, the flint 4 that rubbed during rotating forward of emery wheel 5 produces substantial amounts of spark, spark lights rapidly combustion gas, and stir component 15 and may proceed to upward sliding, until reaching the summit of chute 29, component 15-directly continuingly act on reverse lever 31 is stirred in this process, reverse lever 31 also acts on fuel-release lever 19 always makes combustion gas be continued for release, because combustion gas has been ignited, as long as so pressing 35 flames of pressing position of operating-controlling mechanism always will be continued for.Whole ignition process is completed.

When hand 21 stops the pressing position 35 of pressing operating-controlling mechanism, flexible member 11, which can be promoted, to be stirred component 15 and resets, reverse lever 31 will no longer be acted on by stirring component 15 in this process, reverse lever 31 also no longer forces in fuel-release lever 19, gas nozzle 2 can be pushed back closed position by nozzle springs 1, fuel-release lever 19 also returns to original position, and combustion gas is closed immediately, fray-out of flame.Also rotation component 10 can be touched and by the stop of rotation component 10 by stirring component 15 in the process（Such as Figure 12).The contact surface 36 that resets in the present embodiment is a smooth plane.And when stir component 15 touch rotation component 10 after, all collective effects for acting on the smooth flat made a concerted effort and reset contact surface 36 for stirring component 15 can allow sliding block 30 to slip into dislocation space 14, dislocation motion can be occurred by stirring component 15 simultaneously, and order stirs component 15 and gradually tends to separate with rotation component 10 during auto-returned is slided（Such as Figure 13) and be finally recovered.After being separated with rotation component 10, the bottom of chute 29 can be returned to reset under the elastic effect of flexible member 11 by stirring component 15（Such as Fig. 8).

The structure of combustion gas relieving mechanism can also be changed in embodiment 4 like that in the present embodiment, make gas nozzle 2 be located between the force side 46 of fuel-release lever and fuel-release lever rotating shaft 18, and allow and stir component 15 and press the force side 46 of fuel-release lever from bottom to top to open combustion gas relieving mechanism（Using Figure 17 as reference）.

Embodiment 3

As shown in figure 14, in the present embodiment, operating-controlling mechanism is lever operating-controlling mechanism.

Lighter includes four parts：Combustion gas relieving mechanism, spark generating mechanism, operating-controlling mechanism and resetting-mechanism. Spark generating mechanism and combustion gas relieving mechanism are same as Example 1.

Resetting-mechanism includes flexible member 11, the rotary shaft 22 and reset element 23 of movable part.

Operating-controlling mechanism includes stirring component 15, stir the lever shaft 13 of component and stirring the lever axis hole 37 of component.

Stirring component 15 can rotate around the lever shaft 13 for stirring component, and the lever axis hole 37 for stirring component is slightly larger than the lever shaft 13 for stirring component.Stir movable part 24 of the component 15 with the end that contact of rotation component 10 for that can be rotated around the rotary shaft 22 of movable part in the range of restriction.The scope that movable part 24 in the present embodiment can be rotated around the rotary shaft 22 of movable part be：Using Figure 14 as reference, rotatably it is more than 90 degree clockwise from cocked orientation and less than 180 degree, and can not be rotated counterclockwise from cocked orientation（Movable part 24 in Figure 14 is located at cocked orientation）.When stir component 15 not with rotation component 10 contact when, movable part 24 reset element 23 elastic force effect under be always positioned at cocked orientation.Reset element 13 in the present embodiment uses extension spring, and one of reset element 23 is fixed on the reset element fixed bit 28 stirred on component 15, and other end is fixed on the reset element force position 27 on movable part 24.

When the pressing position 35 of operating-controlling mechanism is pressed down on hand 21, stir component 15 and overcome the elastic force of flexible member 11 to do unidirectional rotary motion around the lever shaft 13 for stirring component, this unidirectional rotary motion is positive movement.When stirring component 15 and touching rotation component 10, stir component 15 and then also need to overcome the frictional force between the elastic force and emery wheel 5 and flint 4 of energy-storage travelling wave tube 7 in addition to the elastic force of flexible member 11 to rotate backward rotation component 10.The energy storage during rotation component 10 is rotated backward of energy-storage travelling wave tube 7.

When stir component 15 will rotate component 10 turn to certain position when, stir component 15 and come into contact with fuel-release lever 19.Then stir component 15 to continue during rotating with equidirectional, have one and stir the process that component 15 gradually tends to separate with rotation component 10.When stir component 15 with rotation component 10 will separate when, the energy that flexible member 11 and energy-storage travelling wave tube 7 are put aside is very big, the energy that wherein energy-storage travelling wave tube 7 is put aside has been enough to drive the quick rotation of emery wheel 5 and the flint 4 that rubs produces substantial amounts of spark, and now stir the fuel-release lever 19 that component 15 has acted on lever construction, fuel-release lever 19 rotates around fuel-release lever rotating shaft 18 and opens gas nozzle 2, and combustion gas starts release.

Continue to press down on the pressing position 35 of operating-controlling mechanism, stirring component 15 can separate with rotation component 10（Such as Figure 15), energy instantaneous burst that energy-storage travelling wave tube 7 is put aside simultaneously promotes energy-storage travelling wave tube to exert a force position 8, rotation component 10 and emery wheel 5 are turned round together, rotation component 10 resets immediately, the revolution of emery wheel 5 is to rotate forward, a large amount of sparks when emery wheel 5 is turned round produced by friction flint 4 light rapidly combustion gas, and stir component 15 and then may proceed to positive movement, blocked until being limited block 12, component 15-directly continuingly act on fuel-release lever 19 is stirred in this process, combustion gas is continued for release, because combustion gas has been ignited, as long as so pressing 35 flames of pressing position of operating-controlling mechanism always will be continued for.Whole ignition process is completed.

When hand 21 stops the pressing position 35 of pressing operating-controlling mechanism, promotion is stirred component 15 and resetted by flexible member 11, stir component 15 and no longer act on fuel-release lever 19, gas nozzle 2 can be pushed back closed position by nozzle springs 1, fuel-release lever 19 also returns to original position, combustion gas is closed immediately, fray-out of flame.Also rotation component 10 can be touched and by the stop of rotation component 10 by stirring component 15 in the process.And now, it is all act on movable part 24 make a concerted effort movable part 24 can be allowed to be done rotationally clockwise around the rotary shaft 11 of movable part（Using Figure 14 as reference）.Under the joint effect of all smooth arc curved surfaces made a concerted effort and reset contact surface 36 for acting on movable part 24, movable part 24 gradually rotates enough angles around the rotary shaft 11 of movable part, stirs component 15 and also gradually tends to separate with rotation component 10（Such as Figure 16) and be finally recovered. Stir component 15 with rotation component 10 separate after, reset element 23 can apply elastic force to reset element force position 27, movable part 24 is pulled back to cocked orientation immediately, stirs component 15 while can also be rotated further and finally reset under the elastic effect of flexible member 11（Such as Figure 14).

Embodiment 4

As shown in figure 17, in the present embodiment, operating-controlling mechanism is slide block type operating-controlling mechanism.

Lighter includes four parts：Combustion gas relieving mechanism, spark generating mechanism, operating-controlling mechanism and resetting-mechanism.

Combustion gas relieving mechanism is included in gas nozzle 2, nozzle springs 1 and fuel-release lever 19, the present embodiment, and gas nozzle 2 is located between the force side 46 of fuel-release lever and fuel-release lever rotating shaft 18；

Resetting-mechanism includes flexible member 11, the rotary shaft 22 and reset element 23 of movable part.

Spark generating mechanism is same as Example 2.

Operating-controlling mechanism includes stirring component 15, chute 29 and sliding block 30.

Stir movable part 24 of the component 15 with the end that contact of rotation component 10 for that can be rotated around the rotary shaft 11 of movable part in the range of restriction.The scope that movable part 24 in the present embodiment can be rotated around the rotary shaft 22 of movable part be：Using Figure 17 as reference, rotatably it is more than 90 degree clockwise from cocked orientation and less than 180 degree, and can not be rotated counterclockwise from cocked orientation（Movable part 24 in Figure 17 is located at cocked orientation）.When stir component 15 not with rotation component 10 contact when, movable part 24 reset element 23 elastic force effect under be always positioned at cocked orientation.Reset element 23 in the present embodiment uses extension spring, and one of reset element 23 is fixed on the reset element fixed bit 28 stirred on component 15, and other end is fixed on the reset element force position 27 on movable part 24.

The present embodiment mainly has following difference with embodiment 2：

1st, the present embodiment stirs movable part 24 of the component 15 with the end that contact of rotation component 10 for that can be rotated around the rotary shaft 11 of movable part in the range of restriction.

2nd, chute 29 is provided only with the lighter of the present embodiment, without the space 14 that misplaces.

3rd, there is no reverse lever 31 in the operating-controlling mechanism of the present embodiment.

The ignition process be the same as Example 2 of the lighter of the present embodiment is only not, i.e. because the gas nozzle 1 in the present embodiment is located between the force side 46 of fuel-release lever and fuel-release lever rotating shaft 18, so during the slip of component 15 is stirred in promotion from bottom to top, the force side 46 of fuel-release lever can be acted on from bottom to top by stirring component 15, rather than stir component 15 acts on fuel-release lever 19 by reverse lever 31 like that in embodiment 1.Fuel-release lever 19 rotates then around fuel-release lever rotating shaft 18 and opens gas nozzle 2, and combustion gas discharges immediately.The combustion gas discharged can be ignited in subsequent ignition process（Such as Figure 18).

In addition, completing after ignition process, when hand 21 stops the pressing position 35 of pressing operating-controlling mechanism, flexible member 11 promotes the process for stirring the reset of component 15 can be different.

During flexible member 11 promotes and stirs the reset of component 15, fuel-release lever 19 will no longer be acted on by stirring component 15, and gas nozzle 2 can be pushed back closed position by nozzle springs 1, and fuel-release lever 19 also returns to original position, combustion gas is closed immediately, fray-out of flame.Also rotation component 10 can be touched and by the stop of rotation component 10 by stirring component 15 in the process.And now, it is all act on movable part 24 make a concerted effort movable part 24 can be allowed to be done rotationally clockwise around the rotary shaft 11 of movable part（During using Figure 17 as reference）.In all light made a concerted effort and reset contact surface 36 for acting on movable part 24 Under the joint effect of sliding plane, movable part 24 gradually rotates enough angles around the rotary shaft 11 of movable part, stirs component 15 and also gradually tends to separate with rotation component 10（Such as Figure 19) and be finally recovered.Stir component 15 with rotation component 10 separate after, reset element 23 can apply pulling force to reset element force position 27, movable part 24 is pulled back to cocked orientation immediately, stirs component 15 while can also continue to slide and finally reset under the elastic effect of flexible member 11（Such as Figure 17).

The structure of combustion gas relieving mechanism can also be changed in embodiment 1 like that in the present embodiment, make fuel-release lever rotating shaft 18 be located between the force side 46 of fuel-release lever and gas nozzle 1, and allow and stir component 15 and act on fuel-release lever to open combustion gas relieving mechanism by reverse lever 31（Such as Fig. 8).Embodiment 5

As shown in figure 20, it can be used to illustrate that movable part 24 can be on rotation component 10 in the present embodiment.

In the present embodiment, rotation component 10 and end that component 15 is contacted is stirred for the movable part 24 that can be rotated around the rotary shaft 22 of movable part in the range of restriction.When stir component 15 not with rotation component 10 contact when, movable part 14 reset element 23 elastic force effect under be always positioned at cocked orientation.The scope that movable part 24 in the present embodiment can be rotated around the rotary shaft 22 of movable part be：Using Figure 20 as reference, rotatably it is more than 60 degree clockwise from cocked orientation and less than 120 degree, and can not be rotated counterclockwise from cocked orientation（Movable part 24 in Figure 20 is located at cocked orientation）.

The present embodiment mainly has following difference with embodiment 4：

1st, in the present embodiment, rotation component 10 and end that component 15 is contacted is stirred for the movable part 24 that can be rotated around the rotary shaft 22 of movable part in the range of restriction.

1st, in the present embodiment, reset element 23 is torsion spring.The torsion spring spire 34 of reset element 23 is enclosed in the rotary shaft 11 of movable part, and one of reset element 23 props up the reset element fixed bit 28 rotated on component 10, and other end props up the reset element force position 27 on movable part 24.

The ignition process be the same as Example 4 of the lighter of the present embodiment is just the same.Lighter is completed after ignition process, and flexible member 11, which is promoted, stirs the process of the reset of component 15 also almost in the same manner as in Example 4, and different is only：The rotation of movable part 24 occurs on rotation component 10, rather than on component 15 is stirred.

The structure of combustion gas relieving mechanism can also be changed in embodiment 1 like that in the present embodiment, make fuel-release lever rotating shaft 18 be located between the force side 46 of fuel-release lever and gas nozzle 1, and allow and stir component 15 and act on fuel-release lever to open combustion gas relieving mechanism by reverse lever 31（Such as Fig. 8).

Embodiment 6

Such as positive local interior's structural representation that Figure 21 is the present embodiment, Figure 22 is the back side local interior structural representation of the present embodiment.The present embodiment can be used to illustrate that position 8 can be exerted a force respectively positioned at the both sides of emery wheel 5 with energy-storage travelling wave tube by rotating component 10.

Lighter in the present embodiment, whole ignition process and stir the reset of component 15 process it is all the same with embodiment 1.

The present embodiment and the main difference of embodiment 1 are：

Energy-storage travelling wave tube force position 8 is located on wheel combined member 39, and wheel combined member 39 is located at the both sides of emery wheel 5 with rotation component 10 respectively, wherein wheel combined member 39, rotation component 10 and emery wheel 5 are combined into a sub-assembly and can be around emery wheels Rotary shaft 6 rotate.

Embodiment 7

As shown in figure 23, the present embodiment compared with Example 3, has lacked reset element 23, reset element fixed bit 28 and reset element force position 27.When just putting lighter and not carrying out any operation to lighter, movable part 24 is always positioned at cocked orientation under gravity；When being inverted lighter, movable part 24 is not located at cocked orientation all the time under gravity.

It is the custom of people using lighter when just putting lighter.When lighter is just put, the ignition process of the lighter in the present embodiment, and complete to stir the process of the reset of component 15 after ignition process, all as 3-mould of embodiment.

Embodiment 8

As shown in figure 24, in the present embodiment compared with Example 5, reset element 23, reset element fixed bit 28 and reset element force position 27 have been lacked.When just putting lighter and not carrying out any operation to lighter, movable part 24 is not located at cocked orientation all the time under gravity；When being inverted lighter, movable part 24 is always positioned at cocked orientation under gravity.

It is the custom of people using lighter when just putting lighter, and this lighter can just be lighted when being inverted, this just limits non-targeted crowd（Such as child）Use, and make this lighter safer.

When being inverted lighter, the ignition process of the lighter in the present embodiment is as 5-mould of embodiment.And at the pressing position 35 for stopping forcing in operating-controlling mechanism after completing ignition process, no matter just put or be inverted lighter, component 15 is stirred during automatically reseting nearly or completely by any stop less than rotation component 10, component 15 is stirred and can easily be resetted under the elastic force effect of flexible member 11.

The structure of combustion gas relieving mechanism can also be changed in embodiment 1 like that in the present embodiment, make fuel-release lever rotating shaft 18 be located between the force side 46 of fuel-release lever and gas nozzle 1, and allow and stir component 15 and act on fuel-release lever to open combustion gas relieving mechanism by reverse lever 31（Such as Fig. 8).

Embodiment 9

Shown with Figure 25 when not to lighter any operation of progress of the present embodiment, each part state in which in lighter.Using Figure 25 as reference, parallel to horizontal plane axle be X-axis, perpendicular to horizontal plane axle be y-axis, then the present embodiment to illustrate that the present invention be not limited to xy axles composition plane on.

Using Figure 25 as reference, the plane that z-axis is constituted perpendicular to xy axles.

Understand the present embodiment in order to simpler, now parallel to the xlx2 lines of X-axis, x3x4 lines and the yly2 lines parallel to y-axis, this four straight lines of y3y4 lines iris out a rectangle frame in Figure 25 lighter structure figure, then the lighter entity that this rectangle frame cuts the present embodiment along z-axis can obtain a domain entities, it is structure chart that Figure 26 is shown finally to project to this domain entities cut out on paper plane from x2 to xl directions, and Figure 27 is that the structure chart under lighter different conditions is shown with visual angle same Figure 26.

Movable part 24 is located on rotation component 10 in the present embodiment.

The present embodiment and the main difference of embodiment 5 are：

1st, the slewing area of the movable part 24 of the present embodiment is on the plane that yz axles are constituted, without on the plane that xy axles are constituted.

2nd, reset element 23 uses extension spring in the present embodiment.

State such as Figure 26 each parts shown is the state in which when not carrying out any operation to lighter.With hand 21 When pressing the pressing position 35 of operating-controlling mechanism, stir the meeting positive movement of component 15 and touch rotation component 10.Continue the pressing position 35 of pressing operating-controlling mechanism, then can occur ignition process same as Example 5.And it is also same principle with embodiment 5 to stir the automatically reset process of component 15 after ignition process is completed, the plane that only movable part 24 is rotated has changed to the plane of yz axles composition, and Figure 27, which illustrates movable part 24 in the process and rotates and stir component 15 and rotate component 10, tends to separated state.

The structure of combustion gas relieving mechanism can also be changed in embodiment 1 like that in the present embodiment, make fuel-release lever rotating shaft 18 be located between the force side 46 of fuel-release lever and gas nozzle 1, and allow and stir component 15 and act on fuel-release lever to open combustion gas relieving mechanism by reverse lever 31（Such as Fig. 8).

Embodiment 10

As shown in figure 28, the lighter in the present embodiment and the difference of embodiment 1 are：Component is rotated in the present embodiment

There is obstruction portion 40 on 10 reset contact surface 36.

The ignition process of lighter in the present embodiment is the same with embodiment 1.During difference is that the reset of component 15 is stirred in the promotion of flexible member 11 after completion ignition process, stir component 15 can be stopped by obstruction portion 40, it is now all act on stir component 15 make a concerted effort can not allow stir component 15 automatically occur dislocation motion（Such as Figure 29), component 15 is stirred in order can not avoid rotating the stop of component 10 automatically.And needing people with hand 21 to the power for stirring the application oblique direction of component 15, dislocation motion could be occurred by stirring component 15, and the stop of obstruction portion 40 can just be got around by stirring component 15（Such as Figure 30), stir component 15 and then separate and finally reset with rotation component 10（Such as Figure 28).

The meaning of the present embodiment is, stirring component 15 after completion ignition process every time can not all automatically reset, and need the auxiliary of manpower, stirring component 15 could reset, lighter could be lighted again, and the direction of this auxiliary force is totally different from the direction for the power for needing to apply in ignition process, and which increase non-targeted crowd（Such as child）Use difficulty, substantially increase the security of lighter.

Embodiment 11

As shown in Figure 31 and Figure 32, the structure of the lighter in the present embodiment and 3-sample of embodiment, the reset element 23 in the present embodiment is extension spring, is that the elasticity rate of reset element 23 in the present embodiment is larger with the difference of embodiment 3.During flexible member 11 after completing ignition process promotes and stirs the reset of component 15, rotation component 10 can be touched and be stopped by it by stirring component 15, but because the elastic force of reset element 23 is excessive, cause it is all act on movable part 24 make a concerted effort movable part 24 can not be allowed to rotate sufficiently large angle around the rotary shaft 11 of movable part, stir component 15 therefore can not get around automatically rotation component 10 stop（Such as Figure 31) and can not automatically reset, and the auxiliary of manpower is needed, movable part 24 could rotate sufficiently large angle around the rotary shaft 11 of movable part, make to stir the stop that component 15 gets around rotation component 10（Such as Figure 32), and finally reset.

The meaning of the present embodiment is, adds non-targeted crowd (such as child）Use difficulty, improve the security of lighter.

Embodiment 12

As shown in figure 33, its principle of the lighter in the present embodiment in the same manner as in Example 1, is that, embodiment improves the security that lighter is used, specific implementation method is as follows with the difference of embodiment 1：In ignition process, stir component 15 and rotation component 10 and that time that will be separated with rotation component 10 are rotated during positive movement, operator be applied to operating-controlling mechanism pressing position 35 on power be not less than 4. 1 kilograms, and stir at this moment component 15 acted on combustion gas release Bar 19, gas nozzle 1 then starts to discharge combustion gas in the critical condition that will discharge combustion gas or just, now once increasing the pressing position 35 of strength pressing operating-controlling mechanism, component 15 is then stirred to may proceed to act on fuel-release lever 19, combustion gas meeting sustained release, simultaneously stirring component 15 can separate with rotation component 10（Such as Figure 34), energy instantaneous burst that energy-storage travelling wave tube 7 is put aside simultaneously promotes energy-storage travelling wave tube to exert a force position 8, rotate component 10 and an emery wheel 5-revolution, rotation component 10 resets immediately, spark when emery wheel 5 is turned round produced by friction flint 4 lights rapidly combustion gas, and stir component 15 and then may proceed to positive movement, blocked until being limited block 12, component 15-directly continuingly act on fuel-release lever 19 is stirred in this process, combustion gas is continued for release, because combustion gas has been ignited, as long as so pressing 35 flames of pressing position of operating-controlling mechanism always will be continued for.In addition, since acting on fuel-release lever 19 stirring component 15 until stirring during component 15 touches this section of limited block 12, the present embodiment, which can not be permitted, stirs the generation dislocation motion of component 15, because it influences whether to stir, can component 15 promptly and accurately acts on fuel-release lever 19, and the opportunity that the present embodiment discharges to combustion gas requires very high, a cylindrical limited block 45 being fixed on inside lighter is added in lighter to solve this problem the present embodiment, and one is added on component 15 is stirred and stops shifting face 44.In ignition process, all lever shafts 13 for stirring component are possibly into the stage in dislocation space 14, and limited block 45 can all prop up to stir stops shifting face 44 on component 15, and component 15 is stirred in order can not occur dislocation motion；And during flexible member 11 after completing ignition process promotes and stirs the reset of component 15, stir the limited block 45 when dislocation motion occurs automatically of component 15 and do not reach only shifting face 44, so limited block 45 and only shifting face 44 will not produce any influence to dislocation motion in the process.This limited block 45 and only shifting face 44 can be similarly applied in embodiment 1 and embodiment 10.

When hand 21 stops the pressing position 35 of pressing operating-controlling mechanism, it is the same to stir the automatically reset process of component 15 with embodiment 1.

The meaning of the present embodiment is, in the lighter in using the present embodiment, if not to the pressing position of operating-controlling mechanism

35 are applied more than 4. 1 kilograms of power, then lighter can not be ignited.And the limitation of 4. 1 kilograms of power can then allow the use difficulty of child to increase, the security of lighter is substantially increased.

Embodiment 13

As shown in figure 35, the present embodiment and the difference of embodiment 3 are：

1st, in the present embodiment, energy-storage travelling wave tube 7 is extension spring, and its one end is fixed on the energy-storage travelling wave tube fixed bit 3 inside lighter, and the other end is fixed on the energy-storage travelling wave tube force position 8 on rotation component 10.

2nd, in the present embodiment, flexible member 11 is torsion spring, the torsion spring spire 34 of flexible member 11 is enclosed on the lever shaft 13 for stirring component, its one end props up the flexible member fixed bit 25 being fixed on inside lighter, and the other end props up the flexible member force position 26 stirred on component 15.

This example demonstrates energy-storage travelling wave tube 7 can also be extension spring, and flexible member 11 can also be torsion spring.

Embodiment 14

As shown in figure 36, the present embodiment and the difference of embodiment 1 are：

1st, in the present embodiment, energy-storage travelling wave tube 7 is compression spring, and its one end is fixed on the energy-storage travelling wave tube fixed bit 3 inside lighter, and the other end is fixed on the energy-storage travelling wave tube force position 8 on rotation component 10.

1st, in the present embodiment, flexible member 11 is extension spring, and its one end is fixed on the flexible member fixed bit 25 inside lighter, and the other end is fixed on the flexible member force position 26 stirred on component 15. This example demonstrates energy-storage travelling wave tube 7 can also be compression spring, and flexible member 11 can also be extension spring.

Embodiment 15

As shown in figure 37, the present embodiment and the difference of embodiment 4 are：In the present embodiment, reset element 23 is compression spring, and one of reset element 23 is fixed on the reset element fixed bit 28 stirred on component 15, and other end is fixed on the reset element force position 27 on movable part 24.

This example demonstrates reset element 23 can also be compression spring except that can be extension spring as in Example 4 or be torsion spring as in Example 5.

Embodiment 16

As shown in figure 38 is the extreme case that embodiment 1 occurs, this be also fire stone lighter involved in the present invention all it is possible that the extreme situation of comparison：Emery wheel 5 probably due to the cause for quality of flint 4 or emery wheel 5 itself and be stuck.Figure 38 is shown that it is particularly the case, after stirring the rotation of component 15 rotation component 10 and being separated with rotation component 10, stop the pressing position 35 to operating-controlling mechanism to exert a force, now stirring component 15 can automatically reset, and emery wheel 5 is stuck, rotation component 10 is caused to turn round and reset.

The present embodiment is on the basis of embodiment 1：An anti-card column 41 is added on rotation component 10, this anti-card column 41 is overlapping with energy-storage travelling wave tube force position 8 in the present embodiment, and anti-card column 41 is extend out to outside lighter along the axle perpendicular to paper plane；Accordingly, anti-hole clipping 42 of the lighter provided with the anti-card column 41 of receiving in it with the synchronous axial system of emery wheel 5.

When emery wheel 5 is stuck（Such as Figure 39), as long as firmly stirring anti-card column 41 (such as Figure 40) with hand 21, emery wheel 5 will free from the state being stuck, and the energy put aside in energy-storage travelling wave tube 7 discharges rapidly, and rotation component 10 is then rebounded and resetted by energy-storage travelling wave tube 7（Such as Figure 41).

Embodiment 17

As shown in figure 42, the present embodiment and the difference of embodiment 1 are：There is the breach of asymmetrically shape in the present embodiment, wheel 5, and this breach will not touch flint 4 during the use of lighter.

The meaning of this breach is set to be：Have on emery wheel 5 and produce pyrophoric topping 43 for the flint 4 that rubs, assembly crewman just knows the direction of topping 43, personnel's assembling convenient for assembly by the shape of breach on emery wheel 5.

The operating principle of the present embodiment is the same with embodiment 1 with process.Although the present invention is disclosed above with preferred embodiment, the scope that the present invention is implemented is not limited to.Any one of ordinary skill in the art, in the invention scope for not departing from the present invention, when that can make a little improvement, i.e., every equal improvement done according to the present invention, the invention scope that should be the present invention is covered.

Claims (9)

1. Claim

   1st, a kind of fire stone lighter, it includes combustion gas relieving mechanism, spark generating mechanism, operating-controlling mechanism；Wherein, the spark generating mechanism include by the energy-storage travelling wave tube of deformation energy, the emery wheel for being built in the flint of the lighter, contact with the flint, the rotation component when the energy-storage travelling wave tube releases energy with emery wheel synchronous forward rotation, with the energy-storage travelling wave tube force position for rotating component synchronous axial system and contacting or connect with the energy-storage travelling wave tube；The operating-controlling mechanism, which includes that the rotation component can be stirred, makes its counter-rotational stir component；Described when stirring component positive movement and stirring the rotation component and rotate backward it, the energy-storage travelling wave tube force bit synchronization, which rotates backward and acts on the energy-storage travelling wave tube, makes its deformation and energy storage；It is described stir component continue positive movement and with it is described rotation component separate when, the energy-storage travelling wave tube releases energy and drives the energy-storage travelling wave tube force position to rotate forward, then synchronous forward is rotated and resetted the rotation component, and then synchronous forward rotates and produces spark with flint friction described, wheel；The combustion gas relieving mechanism is opened by the operating-controlling mechanism before the blow-out and discharges combustion gas.

   2nd, fire stone lighter as claimed in claim 1, wherein, in addition to for making the resetting-mechanism for stirring component reset.

   3rd, fire stone lighter as claimed in claim 2, wherein, the resetting-mechanism is dislocation resetting-mechanism, it, which includes being used for the component of stirring, occurs dislocation motion to avoid the dislocation space that the rotation component stops, and contact or connect, the dislocation motion occurs automatically and stirs the automatically reset flexible member of component for stirring component described in making described in making with the component of stirring.

   4th, fire stone lighter as claimed in claim 3, wherein, the operating-controlling mechanism is lever operating-controlling mechanism, it include described in stir component, described stir lever shaft, the axis hole of the lever shaft that component is rotated around it；The lever shaft can be movable in the hole that the axis hole and the dislocation space are collectively constituted.

   5th, fire stone lighter as claimed in claim 3, wherein, the operating-controlling mechanism is slide block type operating-controlling mechanism, it stirs component, sliding block, chute described in including, can be slided positioned at the sliding block stirred on component being fixed in the chute in the lighter, or be fixed on the sliding block in the lighter can slide in the chute stirred on component；Provided with the protuberance being connected with the chute by the chute, the sliding block can be movable in the space that the chute and the protuberance are collectively constituted, and the dislocation space is the protuberance.

   6th, the fire stone lighter as described in claim 4 or 5, wherein, rotation component and the contact surface for stirring component, which are provided with, to be used to hindering described to stir the automatically reset obstruction portion of component.7th, fire stone lighter as claimed in claim 2, wherein, the resetting-mechanism is spinning reduction mechanism；It is described that to stir component with the end that contact of rotation component be the movable part that can be rotated around the rotary shaft of its own in the range of restriction, Or the rotation component stirs end that component contacts for the movable part that can be rotated around the rotary shaft of its own in the range of restriction with described；The spinning reduction mechanism includes the rotary shaft, and contact or connect, for stirring the automatically reset flexible member of component described in making with the component of stirring.

   8th, fire stone lighter as claimed in claim 7, wherein, the spinning reduction mechanism also includes contacting or connecting with the movable part, for making the movable part automatically reply the reset element of cocked orientation after rotation.

   9th, fire stone lighter as claimed in claim 1, wherein, it is provided with and the emery wheel synchronous axial system and the accessible anti-card column of hand in the spark generating mechanism；Correspondingly, the lighter is provided with the anti-hole clipping for accommodating the anti-card column.

   10th, the fire stone lighter as described in claim 1, wherein, the part that the emery wheel will not touch the flint is provided with the breach being asymmetrical in shape.