CN104417888B - Anti-counterfeiting device - Google Patents

Abstract

The invention discloses an anti-counterfeiting device which sleeves the outer side of an inner cap of a bottle or the outer side of an opening of the bottle and comprises a threaded cap (3), a shell (1), an anti-counterfeiting assembly (2) and a resetting assembly (4). The threaded cap (3) fixedly sleeves the outer side of the inner cap of the bottle or the outer side of the opening of the bottle; the shell (1) sleeves the outer side of the threaded cap (3) and can rotate relative to the threaded cap (3); the anti-counterfeiting assembly (2) is arranged between the shell (1) and the threaded cap (3) and can rotate along with the shell (1), so that preset anti-counterfeiting marks can be displayed; the resetting assembly (4) is arranged between the anti-counterfeiting assembly (2) and the threaded cap (3), and the anti-counterfeiting assembly (2) can be automatically reset under the effect of the resetting assembly (4); anti-counterfeiting display effects can be realized by the anti-counterfeiting assembly (2) when the shell (1) rotates towards a certain direction relative to the threaded cap (3). The anti-counterfeiting device has the advantages that the anti-counterfeiting device can be damaged in bottle opening procedures, a bottle cap does not need to be damaged troublesomely in the procedures, and an anti-counterfeiting structure is naturally locked in the natural bottle opening procedures after the genuineness of objects in the bottle is verified.

Description

A kind of false proof device

Technical field

The present invention relates to a kind of false proof device, particularly relate to a kind of be used on bottle to play antifalse effect False proof device.

Background technology

Along with socioeconomic development, the living standard of people gradually steps up, and various high-grade famous brands are produced Product gradually enter among the life of people, and the huge commercial opportunities therefore brought make lawless person make a desperate move, greatly The imitated famous-brand and high-quality goods of amount, compromise the economic interests of consumer, cause the loss of state tax revenue, more seriously The physical and mental health compromising the people, especially with high-grade famous brand of wine and high-grade medicine for.Therefore, how to have The true and false of the difference bottled article of effect becomes the problem needing solution badly.

In patent application document ZL02214915.5 disclosed in China, it uses the side cut off by bottle neck Formula so that user can only be opened once, although this kind of mode can the most effectively prevent Reusing of bottle, but if the wine in bottle still has residue, then wine can not be resealed, from And cause the waste of wine.

As can be seen here, in prior art, shortage one can not either be destroyed bottle and be capable of again false proof purpose The false proof device on bottle.

Summary of the invention

It is an object of the invention to provide one and can either realize bottled article antifalse effect, again can simply, just Just the false proof device dismantled.

For achieving the above object, the concrete technical scheme of a kind of false proof device of the present invention is:

A kind of false proof device, is set in the outside of bottle inner cap or bottle body and bottleneck, including: blind nut, fixing It is set in the outside of bottle inner cap or bottle body and bottleneck；Shell, is set in the outside of blind nut, it is possible to relative to Blind nut rotates；False proof assembly, is arranged between shell and blind nut, it is possible to rotate with shell, with reality Now preset the display of anti-counterfeiting mark；Reset assembly, is arranged between false proof assembly and blind nut, it is possible to make to prevent Pseudo-assembly automatically resets；When relative to blind nut towards a direction rotational shell, false proof assembly can be real Existing false proof display.

Compared with existing false proof device, the false proof device of the present invention has the advantage that

1, anti-counterfeiting technology is advanced.Have employed triboelectricity machine technology, utilize the electric energy that rotary bottle cover produces Drive LCD screen display specific pattern, be difficult to imitate.

2, low cost.LCD screen and rectifier bridge are mass customized parts, and each module is Plastic Forming Structure, and the tedious work such as the welding eliminating wire, greatly reduce cost.

3, good looking appearance is without destroying.Anti-counterfeit structure destructive process is the process of corkage, and this process is not required to numerous Trivial destroys bottle cap, after verifying bottled article true and false, during corkage naturally Anti-counterfeit structure is the most locked.

4, the suitability is wide.May be used for the bottle of any size shape.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of the false proof device of the present invention；

Fig. 2 is the sectional view of the false proof device of the present invention；

Fig. 3 is the axonometric chart of the blind nut in Fig. 1；

Fig. 4 is the upward view of the shell in Fig. 1；

Fig. 5 is the sectional view of the shell in Fig. 1；

Fig. 6 is the top view of the display screen bracket in Fig. 1；

Fig. 7 is the decomposing schematic representation of the rectification unit in Fig. 1；

Fig. 8 is the top view of the generator support in Fig. 1；

Fig. 9 is the axonometric chart of the moving cell in Fig. 1；

Figure 10 is the upward view of the moving cell in Fig. 1；

Figure 11 is the assembling schematic diagram of the moving cell in Fig. 9；

Figure 12 is the structural representation of the locked assembly in the false proof device of the present invention；

Figure 13 is structural representation when being in the lock state of the locked assembly in Figure 12；

Figure 14 is structural representation when being in unlocked state of the locked assembly in Figure 12；

Figure 15 is the structural representation of another embodiment of the locked assembly in the false proof device of the present invention；

Figure 16 is structural representation when being in unlocked state of the locked assembly in Figure 15；

Figure 17 is structural representation when being in the lock state of the locked assembly in Figure 15；

Figure 18 is the structural representation of the first embodiment of the friction generator in the false proof device of the present invention Figure；

Figure 19 is the structural representation of the second embodiment of the friction generator in the false proof device of the present invention Figure；

Figure 20 is the structural representation of the 3rd embodiment of the friction generator in the false proof device of the present invention Figure；

Figure 21 is the structural representation of the 4th embodiment of the friction generator in the false proof device of the present invention Figure.

Detailed description of the invention

In order to be better understood by the purpose of the present invention, structure and function, below in conjunction with the accompanying drawings, with bottle it is A kind of false proof device of the present invention is done further detailed description by example.

As depicted in figs. 1 and 2, the false proof device of the present invention includes shell 1, false proof assembly 2, blind nut 3 and reset assembly 4, wherein, blind nut 3 is set in bottle inner cap or Bottle neck for wine bottle (not shown) Outside, specifically, the inner side of blind nut 3 is formed with female thread, the inside and outside both sides of bottle inner cap shape respectively Become to have female thread and external screw thread, by formed outside the female thread formed inside blind nut 3 and bottle inner cap Externally threaded cooperation makes blind nut 3 cover in being arranged on bottle, and interior by formed inside bottle inner cap Blind nut 3 is integrally provided on bottle by screw thread with what bottle inner cap was formed, also or, the inner side shape of blind nut 3 Becoming to have female thread, the outside of Bottle neck for wine bottle is formed with external screw thread, by the female thread formed inside blind nut 3 With outside Bottle neck for wine bottle formed externally threaded cooperation make blind nut 3 be arranged on bottle.

Further, shell 1 is set in the outside of blind nut 3, and can rotate relative to blind nut 3, false proof Assembly 2 is arranged between shell 1 and blind nut 3.When relative to blind nut 3 towards a direction rotational shell When 1, false proof assembly 2 can realize false proof display, as show false proof logo, security code, name of product or Product related information etc.；And when reversely rotating shell 1, shell 1 and blind nut 3 lock together, and make The false proof device of the present invention loses antiforge function, and blind nut 3 also can be made to divide with bottle inner cap or Bottle neck for wine bottle From, and then the false proof device of the present invention is taken off from bottle, with opening wine bottle.Additionally, reset assembly 4 are arranged between false proof assembly 2 and blind nut 3, it is possible to make false proof assembly 2 automatically reset.

It should be noted that for purposes of illustration only, hereinafter shell 1 is rotated with display anti-relative to blind nut 3 The rotation direction of fake information is defined as " clockwise ", and by shell 1 relative to blind nut 3 rotate with The rotation direction of opening wine bottle is defined as " counterclockwise ".

Referring to accompanying drawing 1 to Figure 17, to the shell 1 in the false proof device of the present invention, false proof assembly 2, Blind nut 3 and reset assembly 4 are described further:

As shown in Figure 1 to Figure 3, the blind nut 3 in the false proof device of the present invention has base 35, base 35 outsides being set in bottle inner cap or Bottle neck for wine bottle, its top is formed with panel-like platform 31, and tabular is put down There is between the end face of platform 31 and base 35 internal circumferential groove 32, and on the end face of panel-like platform 31 Being provided with screw rod 33, screw rod 33 is preferably placed at the center of panel-like platform 31, outside it is formed Screw thread, and it is also formed with at least one lower spring hole 34 around screw rod 33 on panel-like platform 31.

Further, as shown in Figure 1, Figure 2, shown in Fig. 4 and Fig. 5, the shell in the false proof device of the present invention 1 outside being set in blind nut 3, the bottom of shell 1 is formed with the first of the base 35 of accommodating blind nut 3 Space 11, and the ring of the panel-like platform 31 being formed on accommodating blind nut 3 on the top in the first space 11 Shape external groove 13, the groove walls 14 of ring-type external groove 13 bottom then can be with panel-like platform 31 and base 35 End face between internal circumferential groove 32 match so that shell 1 is assembled together with blind nut 3, And make shell 1 can rotate relative to blind nut 3 simultaneously.

Further, the top in the first space 11 in shell 1 is formed with accommodating false proof assembly 2, resets The second space 12 of assembly 4 and the remainder in addition to the base 35 of blind nut 3, and at second space 12 Sidewall on be formed with multiple vertical groove 15, with the false proof assembly that is contained in second space 12 of location 2, and false proof assembly 2 can also be made to rotate together with shell 1 simultaneously.Additionally, the end face of shell 1 On be also formed with watch window 16, it can be seen that the display unit being described below at watch window 16 In display screen, be achieved in false proof display function.

Further, as shown in Figure 1, Figure 2, shown in Fig. 6 to Figure 11, false proof in the false proof device of the present invention Display unit 21 that assembly 2 includes arranging from top to bottom, rectification unit 22, triboelectricity unit 23 and Moving cell 24.Wherein, as shown in figures 1 to 6, the display unit 21 in the present embodiment includes showing Display screen 211 and display screen bracket 212.Specifically, display screen bracket 212 is circular configuration, its top (this groove structure can be according to the display chosen to be formed with the regular hexagon groove of accommodating display screen 211 on face Depending on the shape of screen), and the edge of regular hexagon groove is provided with the first wire through-hole 213, display The wire pin of screen 211 is arranged in the first wire through-hole 213.Additionally, the side of display screen bracket 212 Being provided with multiple first positioning convex 214 on wall, the first positioning convex 214 is preferably at display screen bracket 212 On be symmetrical arranged, the first positioning convex 214 in the present embodiment can be with the vertical groove 15 in shell 1 Match, with locating and displaying unit 21 in shell 1, and display unit 21 can also be made with outer simultaneously Shell 1 rotates together.

Further, the display screen 211 in the present embodiment is regular hexagon structure, can be from shell 1 top Expose at watch window 16, in order at watch window 16, see the anti-counterfeiting label of display on display screen 211 Know.But the present invention is not limited only to this, the shape of display screen 211 can also be changed according to design needs, Such as: circular etc., and at watch window 16, display screen part or all of be can be observed.This reality Executing the display screen 211 in example can be current existing LCD screen, electronic-paper display screen or other are low The display screen etc. of power consumption, display screen 211 can show the anti-counterfeiting mark pre-set, such as, false proof Logo, security code, name of product or product related information etc..

Further, as shown in Figure 1 and Figure 7, the rectification unit 22 in the present embodiment is arranged on display list The bottom of unit 21, including upper cover 221, lower cover 222 and rectifier bridge 223.Wherein, upper cover 221 is circular configuration, and its lower surface is formed the groove (not shown) of accommodating rectifier bridge 223, And the edge of this groove is provided with the second wire through-hole 2211, the second wire through-hole 2211 and display The first wire through-hole 213 on unit 21 is corresponding, and a pair output lead pin of rectifier bridge 223 It is arranged in the second wire through-hole 2211, thus can realize the electricity of rectifier bridge 223 and display screen 211 Connect.And lower cover 222 is also circular configuration, its top surface is formed with accommodating rectifier bridge 223 Groove, and the edge of this groove is provided with privates through hole 2221, another of rectifier bridge 223 Input lead pin is arranged in privates through hole 2221.Additionally, upper cover 221 and lower cover Being respectively arranged with multiple second positioning convex 224 on the sidewall of 222, the second positioning convex 224 preferably exists Being symmetrical arranged in upper cover 221 and lower cover 222, the second positioning convex 224 in the present embodiment can be with Vertical groove 15 in shell 1 matches, to position rectification unit 22 in shell 1, and also simultaneously Rectification unit 22 can be made to rotate together with shell 1.

Further, the rectifier bridge 223 in the present embodiment is square structure, but the present invention is not limited only to this, The groove of the accommodating rectifier bridge 223 in upper cover 221 and lower cover 222 can be according to the shape of rectifier bridge 223 Shape determines.Having two pairs of wire pins on rectifier bridge 223, wherein, input lead pin is arranged on the 3rd In wire through-hole 2221, to be connected with the friction generator 232 being described below, and output lead draws Foot is arranged in the second wire through-hole 2211, to be connected with display screen 211.Rectification in the present embodiment Bridge 223 can be current existing rectifier bridge, is mainly used in converting alternating current to unidirectional current, specifically ties Structure no longer describes in detail.

Further, as illustrated in figures 1 and 8, the triboelectricity unit 23 in the present embodiment is arranged on whole The bottom of stream unit 22, including generator support 231 and friction generator 232.Wherein, friction is sent out Motor 232 includes the first Power Generation Section 2321 and the second Power Generation Section 2322, the first Power Generation Section 2321 and Two Power Generation Sections 2322 are provided separately, and when the first Power Generation Section 2321 and the second Power Generation Section 2322 phase mutual connection Can be generated electricity by friction time tactile.Additionally, the generator support 231 in the present embodiment is circular configuration, The first Power Generation Section 2321 and the second Power Generation Section 2322 in friction generator 232 are separately positioned on electromotor The both sides up and down of support 231, and on generator support 231, it is provided with privates through hole (not shown), Privates through hole is corresponding with the privates through hole 2221 in rectification unit 22, with friction generator The 232 wire pins being connected are arranged in privates through hole, thus can realize friction generator 232 Electrical connection with rectifier bridge 223.Multiple 3rd convex it is additionally provided with on the sidewall of generator support 231 Playing 233, the 3rd positioning convex 233 is preferably symmetrical arranged on generator support 231, in the present embodiment The 3rd positioning convex 233 can match with the vertical groove 15 in shell 1, with fixed in shell 1 Position triboelectricity unit 23, and triboelectricity unit 23 can also be made to rotate together with shell 1 simultaneously.

Further, as Fig. 1, Fig. 9 are to shown in 11, and the moving cell 24 in the present embodiment is arranged on and rubs Wipe the bottom of generator unit 23, including slide block 241.Wherein, slide block 241 is circular configuration, slide block The top of 241 is formed with the diameter of columnar projections 2411(columnar projections 2411 and is preferably generator support The 3/4 of the interior diameter of 231), and columnar projections 2411 can be resisted against second in friction generator 232 On Power Generation Section 2322, so that friction generator 232 is applied extruding force.Additionally, the sidewall of slide block 241 On be additionally provided with multiple 4th positioning convex 2412, the 4th positioning convex 2412 is preferably on slide block 241 Being symmetrical arranged, the 4th positioning convex 2412 in the present embodiment can be with vertical groove 15 phase in shell 1 Coordinate, to position moving cell 24 in shell 1, and moving cell 24 and shell can also be made simultaneously 1 rotates together.

Further, the bottom surface of slide block 241 being formed with internal thread hole 2413, internal thread hole 2413 can be with The screw rod 33 of blind nut 3 matches, and with when rotation case 1, blind nut 3 can be made to produce with slide block 241 Relative movement, and it is formed with bullet at least one around internal thread hole 2413 on the bottom surface of slide block 241 Spring hole 2414, front upper spring opening 2414 is corresponding with the lower spring hole 34 at base 35 top of blind nut 3, And it is provided with reset assembly 4, with when blind nut 3 and slide block in front upper spring opening 2414 with lower spring hole 34 241 can realize reset function when producing relative rotation, and in the present embodiment, reset assembly 4 is torsion spring 41, Torsion spring 41 is fastened in front upper spring opening 2414 and lower spring hole 34, when blind nut 3 is relative with slide block 241 During rotation, torsion spring 41 produces deformation, and after rotation terminates, and torsion spring 41 discharges this deformation, thus from Move and make slide block 241 realize resetting.It addition, work as the front upper spring opening 2414 base 35 top with blind nut 3 When lower spring hole 34 is respectively multiple, can be controlled by the position that reset assembly 4 is arranged wherein Rotation dynamics.

To sum up, the operation principle of the false proof device of 1 to 11 couple of present invention is described below in conjunction with the accompanying drawings:

First, shell 1 is rotatably sleeved on the base 35 in the outside of blind nut 3, specifically blind nut 3 It is positioned in the first space 11 of shell 1, the panel-like platform 31 on base 35 end face, internal circumferential groove 32 and screw rod 33 be positioned in the second space 12 of shell 1, by panel-like platform on blind nut 3 31 with Ring-type external groove 13 on shell 1 matches, and internal circumferential groove on blind nut 3 32 and shell 1 On the groove walls 14 of ring-type external groove 13 bottom match and realize.

The false proof assembly 2 arranged between shell 1 and blind nut 3 is positioned in the second space 12 of shell 1, By the display screen 211 being cascading from top to bottom, display screen bracket 212, upper cover 221, whole Stream bridge 223, lower cover the 222, first Power Generation Section 2321, generator support the 231, second Power Generation Section 2322 Form with slide block 241, and also set up torsion spring 41 between slide block 241 and the blind nut 3 in false proof assembly 2.

Display screen bracket 212, upper cover 221, lower cover 222, generator support 231 and slide block 241 Each positioning convex (first positioning convex the 214, second positioning convex the 224, the 3rd positioning convex can be passed through 233 and the 4th positioning convex 2412) realization location of matching with the vertical groove 15 on shell 1, and Can also rotate together with shell 1 simultaneously.

Display screen 211, rectifier bridge 223 and friction generator 232 can pass through each wire through-hole, and (first leads Line three-way hole the 213, second wire through-hole 2211, privates through hole 2221 and privates through hole) phase Even, specifically can realize by dripping conducting resinl in each wire through-hole.Wherein, the needs according to design are each Wire through-hole could be arranged to one or more.

Slide block 241 can be by the internal thread hole 2413 on slide block 241 and the spiral shell on blind nut 3 with blind nut 3 Bar 33 matches and realizes connecting, and torsion spring 41 is then specifically located at the front upper spring opening 2414 on slide block 241 And between the lower spring hole 34 on blind nut 3.

Secondly, blind nut 3 fixed cover in the false proof device of the present invention is located at bottle inner cap or Bottle neck for wine bottle On, match with the external screw thread covered in bottle realization specifically by the female thread on blind nut 3, or logical Cross the female thread on blind nut 3 to match with the external screw thread on Bottle neck for wine bottle realization.

Finally, (rotating about 60 degree) when being rotated in the clockwise direction shell 1, shell 1 can carry Dynamic display screen bracket 212, upper cover 221, lower cover 222, generator support 231 and slide block 241 Rotate together, and blind nut 3 is fixing, so that can occur relative between slide block 241 with blind nut 3 Rotate, utilize the threaded engagement between slide block 241 and blind nut 3, slide block 241 finally can be made towards friction Electromotor 232 moves.

And when the second Power Generation Section in the columnar projections 2411 extrusion friction electromotor 232 on slide block 241 When 2322, the first Power Generation Section 2321 and the second Power Generation Section 2322 phase in friction generator 232 can be made Mutual connection touches wiping, and then produces electric energy.

The electric energy produced in friction generator 232 can be passed further by the conducting resinl in each wire through-hole Passing rectifier bridge 223, display screen 211, display screen 211 can show default anti-counterfeiting label after obtaining electric energy Know, and then realize antiforge function.

For the ease of bottle open before wine can be carried out repeatedly fake certification, in the present embodiment outside Shell 1 can automatically reset after rotating under the effect of torsion spring 41 every time such that it is able to the most repeatedly tests The true and false of card wine.

Further, as shown in Figure 12 to Figure 17, the false proof device of the present invention is also provided with locked group Part 5, when opening wine bottle, can make the false proof device of the present invention lose antiforge function by locked assembly 5, Thus avoid the false proof device of the present invention still can use after bottle is opened.

Specifically, see Figure 12 to Figure 14, it illustrates locked group in the false proof device of the present invention The first embodiment of part.In the present embodiment, locked assembly 5 includes lock hole 51 and clamping block 52.Its In, lock hole 51 is arranged on shell 1, is specially arranged on the ring-type external groove 13 within shell 1 In the groove walls 14 of bottom；Clamping block 52 is then arranged on blind nut 3, is specially arranged on blind nut 3 Base 35 top internal circumferential groove 32 in, and clamping block 52 includes spring 522 and securing rod 521.

When bottle is not opened, the internal circumferential groove 32 on blind nut 3 matches with the groove walls 14 on shell 1 Close, and make clamping block 52 be in compressive state, prevent when the shell 1 that turns clockwise makes false proof device show During fake information, clamping block 52 can be constantly in compressive state.

And when rotational shell 1 counterclockwise makes bottle open, in the internal circumferential groove 32 on blind nut 3 Clamping block 52 can meet with the lock hole 51 in the groove walls 14 on shell 1, thus clamping block 52 meeting Trail under the effect of spring 522, and make securing rod 521 enter in lock hole 51, thus simultaneously Blind nut 3 will be locked together with shell 1, make false proof device lose false proof display function.Enter one Step rotational shell 1, under the effect of locked assembly 5 and torsion spring 41, can be by blind nut 3 and bottle inner cap Or Bottle neck for wine bottle is separately, also will take off from bottle the false proof device of the present invention.

Further, see Figure 15 to Figure 17, it illustrates the locked assembly in the false proof device of the present invention The second embodiment.In the present embodiment, locked assembly 5 includes forward block 53 and reverse block 54, Forward block 53 and reverse block 54 all include facade and domatic.Wherein, forward block 53 is arranged On shell 1, specially it is arranged in the groove walls 14 of ring-type external groove 13 bottom within shell 1； Reversely block 54 is then arranged on blind nut 3, is specially arranged on the ring at base 35 top of blind nut 3 In shape inner groovy 32.

When bottle is not opened, the internal circumferential groove 32 on blind nut 3 matches with the groove walls 14 on shell 1 Closing, and forward block 53 is domatic relative with reverse block 54, when turning clockwise, shell 1 makes false proof During device display anti-counterfeiting information, forward block 53 is domatic relative with reverse block 54 always.

And when rotational shell 1 counterclockwise makes bottle open, in the internal circumferential groove 32 on blind nut 3 Reversely block 54 can meet with the forward block 53 in the groove walls 14 on shell 1, and makes forward Block 53 utilizes the domatic of reverse block 54 to cross reverse block 54, so that forward block 53 is with anti- It is that facade is relative to block 54, the relative blind nut 3 of shell 1 thus can be stoped to turn clockwise, make to prevent Pseudo-device loses false proof display function.Further rotate shell 1, under the effect of torsion spring 41, can Blind nut 3 is separated with bottle inner cap or Bottle neck for wine bottle, also will the false proof device of the present invention take from bottle Under.

Below with reference to Figure 18 to Figure 21, the concrete knot to the friction generator in the false proof device of the present invention Structure is described in detail:

As shown in figure 18, it illustrates the first embodiment of friction generator in the present invention.This enforcement In example, the first Power Generation Section 2321 in friction generator 232 includes the first electrode layer 23211, second Power Generation Section 2322 includes the second electrode lay 23221 and the second high molecular polymer insulating barrier 23222.Its In, the first electrode layer 23211 and the second high molecular polymer insulating barrier 23222 are oppositely arranged formation friction Interface, the first electrode layer 23211 and the output electrode that the second electrode lay 23221 is friction generator 232, It is connected with external circuit.

Introducing electricity generating principle in detail below: when rotating clockwise shell 1, shell 1 can finally carry Movable slider 241 moves towards friction generator 232, and the second generating in extrusion friction electromotor 232 Portion 2322, and first Power Generation Section 2321 relative with the second Power Generation Section 2322 is static, thus second The second high molecular polymer insulating barrier 23222 in electricity portion 2322 will rub in the first Power Generation Section 2321 The first electrode layer 23211, cause the first electrode layer 23211 and the second high molecular polymer insulating barrier 23222 surfaces produce electrostatic charge because of friction, thus cause the first electrode layer 23211 and the second electrode Between layer 23221, electric potential difference occurs.Due between the first electrode layer 23211 and the second electrode lay 23221 The existence of electric potential difference, free electron will be flowed to, by the side that electromotive force is low, the side that electromotive force is high by external circuit, Thus in external circuit, form electric current.When each layer of this friction generator 232 returns to original state, At this moment the built-in potential being formed between the first electrode layer 23211 and the second electrode lay 23221 disappears, now Reverse electromotive force will be again produced between Balanced first electrode layer 23211 and the second electrode lay 23221 Difference, then free electron forms reverse current by external circuit.By repeatedly rubbing and recovering, it is possible to External circuit is formed periodic ac signal, thus realizes the purpose of generating.

It addition, for the generating capacity improving friction generator 232, at the first electrode layer 23211 and Can enter at least one face in two faces that two high molecular polymer insulating barriers 23222 are oppositely arranged One step arranges micro-nano structure.Therefore, the first electrode layer 23211 and the second high molecular polymer insulating barrier The apparent surface of 23222 can better contact with friction, and at the first electrode layer 23211 and the second electrode More electric charge is induced at layer 23221.

Wherein, the second high molecular polymer insulating barrier is thin selected from Kapton, aniline-formaldehyde resin Film, polyformaldehyde thin film, ethyl cellulose film, polyamide film, melamino-formaldehyde thin film, poly-second Glycol succinate thin film, cellulose membrane, cellulose acetate film, 10PE27 are thin Film, polydiallyl phthalate thin film, fiber (regeneration) sponge films, polyurethane elastomer are thin Film, styrene-acrylonitrile copolymer copolymer film, styrene-butadiene-copolymer thin film, staple fibre thin film, poly- Methyl thin film, methacrylic acid ester film, polyvinyl alcohol film, polyvinyl alcohol film, mylar, Polyisobutylene thin film, polyurethane flexible sponge films, pet film, polyethylene Butyral thin film, formaldehyde-phenol thin film, neoprene thin film, butadiene-propylene copolymer thin film, sky So rubber film, polyacrylonitrile thin film, acrylonitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film In any one.

Wherein, the first electrode layer and the second electrode lay material therefor are indium tin oxide, Graphene, Yin Na Rice noodle film, metal or alloy；Wherein, metal be Au Ag Pt Pd, aluminum, nickel, copper, titanium, chromium, Selenium, ferrum, manganese, molybdenum, tungsten or vanadium；Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper conjunction Gold, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, Gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

As shown in figure 19, it illustrates the second embodiment of friction generator in the present invention.This enforcement In example, the first Power Generation Section 2321 in friction generator 232 includes the first electrode layer 23211 and first High molecular polymer insulating barrier 23212, the second Power Generation Section 2322 include the second electrode lay 23221 and Second high molecular polymer insulating barrier 23222.Wherein, the first high molecular polymer insulating barrier 23212 He Second high molecular polymer insulating barrier 23222 is oppositely arranged formation frictional interface, the first electrode layer 23211 Output electrode with the second electrode lay 23221 is friction generator 232, is connected with external circuit.

In the structure shown in Figure 19, the first high molecular polymer insulating barrier 23212 and the second macromolecule Polymer insulation layer 23222, as two frictional interfaces of friction generator 232, introduces one in detail below The principle of lower the two frictional interface triboelectricity: when rotating clockwise shell 1, shell 1 can be final Band movable slider 241 moves towards friction generator 232, and second in extrusion friction electromotor 232 Electricity portion 2322, and first Power Generation Section 2321 relative with the second Power Generation Section 2322 is static, thus second The second high molecular polymer insulating barrier 23222 in Power Generation Section 2322 will rub the first Power Generation Section 2321 In the first high molecular polymer insulating barrier 23212, cause the first high molecular polymer insulating barrier 23212 Produce electrostatic charge with the second high molecular polymer insulating barrier 23222 surface because of friction, thus cause the Between one electrode layer 23211 and the second electrode lay 23221, electric potential difference occurs.Due to the first electrode layer 23211 And the existence of electric potential difference between the second electrode lay 23221, free electron is by low by electromotive force by external circuit Side flows to the side that electromotive force is high, thus forms electric current in external circuit.When this friction generator 232 When each layer returns to original state, at this moment it is formed at the first electrode layer 23211 and the second electrode lay 23221 Between built-in potential disappear, the most Balanced first electrode layer 23211 and the second electrode lay 23221 it Between will again produce reverse electric potential difference, then free electron forms reverse current by external circuit.By instead Multiple friction and recovery, it is possible in external circuit, form periodic ac signal, thus realize generating Purpose.

It addition, for the generating capacity improving friction generator 232, insulate at the first high molecular polymer At least one in two faces that layer 23212 and the second high molecular polymer insulating barrier 23222 are oppositely arranged Micro-nano structure can be set on face further.Therefore, the first high molecular polymer insulating barrier 23212 and The apparent surface of two high molecular polymer insulating barriers 23222 can better contact with friction, and at the first electricity More electric charge is induced at pole layer 23211 and the second electrode lay 23221.

Wherein, the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier are respectively selected from Kapton, aniline-formaldehyde resin thin film, polyformaldehyde thin film, ethyl cellulose film, polyamide Thin film, melamino-formaldehyde thin film, Polyethylene Glycol succinate thin film, cellulose membrane, cellulose second Acid esters thin film, 10PE27 thin film, polydiallyl phthalate thin film, fiber are (again Raw) sponge films, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene butadiene Copolymer film, staple fibre thin film, poly-methyl thin film, methacrylic acid ester film, polyvinyl alcohol are thin Film, polyvinyl alcohol film, mylar, polyisobutylene thin film, polyurethane flexible sponge films, poly-right PET thin film, polyvinyl butyral film, formaldehyde-phenol thin film, neoprene are thin Film, butadiene-propylene copolymer thin film, natural rubber films, polyacrylonitrile thin film, acrylonitrile vinyl chloride Any one in thin film and polyethylene the third diphenol carbonate thin film.

Wherein, the first electrode layer and the second electrode lay material therefor are indium tin oxide, Graphene, Yin Na Rice noodle film, metal or alloy；Wherein, metal be Au Ag Pt Pd, aluminum, nickel, copper, titanium, chromium, Selenium, ferrum, manganese, molybdenum, tungsten or vanadium；Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper conjunction Gold, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, Gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

Wherein, the material of the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier is permissible Identical, it is also possible to different.If the material of two-layer high molecular polymer insulating barrier is the most identical, can cause rubbing The quantity of electric charge wiping electrification is the least.Preferably, the first high molecular polymer insulating barrier and the second high molecular polymerization Thing insulating barrier material is different.

As shown in figure 20, it illustrates the 3rd embodiment of friction generator in the present invention.This enforcement In example, friction generator 232 adds one between the first Power Generation Section 2321 and the second Power Generation Section 2322 The first electrode layer 23211 that individual thin layer between two parties, i.e. friction generator 232 include being cascading, First high molecular polymer insulating barrier 23212, between two parties thin layer the 2323, second high molecular polymer insulate Layer 23222 and the second electrode lay 23221.Wherein, thin layer 2323 is the 3rd polyphosphazene polymer between two parties Compound insulating barrier, is arranged on the first high molecular polymer insulating barrier 23212 exhausted with the second high molecular polymer Between edge layer 23222, thin layer 2323 is relative with the first high molecular polymer insulating barrier 23212 between two parties Formation frictional interface, and/or thin layer 2323 and the second high molecular polymer insulating barrier between two parties are set 23222 are oppositely arranged formation frictional interface, and the first electrode layer 23211 and the second electrode lay 23221 are for rubbing Wipe the output electrode of electromotor 232, be connected with external circuit.

In the structure shown in Figure 20, thin layer 2323 and the first high molecular polymer insulating barrier between two parties 23212, and/or between two parties thin layer 2323 and the second high molecular polymer insulating barrier 23222 as friction Two frictional interfaces of electromotor 232, introduce the two frictional interface triboelectricity in detail below Principle: when rotating clockwise shell 1, shell 1 can finally band movable slider 241 towards friction generator 232 move, and the second Power Generation Section 2322 in extrusion friction electromotor 232, and with the second Power Generation Section 2322 the first relative Power Generation Sections 2321 and/or between two parties thin layer 2323 are static, thus the first Power Generation Section The first high molecular polymer insulating barrier 23212 in 2321 produces with thin layer 2323 phase mutual friction between two parties Electrostatic charge, and/or, the second high molecular polymer insulating barrier 23222 in the second Power Generation Section 2322 and residence Between thin layer 2323 phase mutual friction produce electrostatic charge, thus cause the first electrode layer 23211 and the second electricity Between pole layer 23221, electric potential difference occurs.Due to the first electrode layer 23211 and the second electrode lay 23221 it Between the existence of electric potential difference, free electron will be flowed to that electromotive force is high by external circuit by the side that electromotive force is low one Side, thus in external circuit, form electric current.When each layer of this friction generator 232 returns to original state Time, the built-in potential being at this moment formed between the first electrode layer 23211 and the second electrode lay 23221 disappears, Between the most Balanced first electrode layer 23211 and the second electrode lay 23221 reverse by again producing Electric potential difference, then free electron forms reverse current by external circuit.By repeatedly rubbing and recovering, so that it may To form periodic ac signal in external circuit, thus realize the purpose of generating.It addition, in order to Improve the generating capacity of friction generator 232, at thin layer 2323 and the first high molecular polymer between two parties At least one face in two faces that insulating barrier 23212 is oppositely arranged is provided with micro-nano structure, and/or occupies Between in two faces being oppositely arranged of thin layer 2323 and the second high molecular polymer insulating barrier 23222 extremely A few face is provided with micro-nano structure.Therefore, thin layer 2323 is exhausted with the first high molecular polymer between two parties Edge layer 23212, and/or the phase of thin layer 2323 and the second high molecular polymer insulating barrier 23222 between two parties Surface can be better contacted with friction, and at the first electrode layer 23211 and the second electrode lay 23221 Induce more electric charge.

Wherein, the first high molecular polymer insulating barrier, the second high molecular polymer insulating barrier, between two parties thin film Layer is respectively selected from Kapton, aniline-formaldehyde resin thin film, polyformaldehyde thin film, ethyl cellulose Thin film, polyamide film, melamino-formaldehyde thin film, Polyethylene Glycol succinate thin film, cellulose are thin Film, cellulose acetate film, 10PE27 thin film, polydiallyl phthalate are thin Film, fiber (regeneration) sponge films, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, Styrene-butadiene-copolymer thin film, staple fibre thin film, poly-methyl thin film, methacrylic acid ester film, Polyvinyl alcohol film, polyvinyl alcohol film, mylar, polyisobutylene thin film, polyurethane flexible sponge Thin film, pet film, polyvinyl butyral film, formaldehyde-phenol thin film, Neoprene thin film, butadiene-propylene copolymer thin film, natural rubber films, polyacrylonitrile thin film, third Any one in alkene nitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film.

Wherein, the first high molecular polymer insulating barrier, the second high molecular polymer insulating barrier, between two parties thin film The material of layer can be identical, it is also possible to different.If material all phases of three floor height Molecularly Imprinted Polymer insulating barriers With, the quantity of electric charge that can cause triboelectrification is the least.Preferably, the first high molecular polymer insulating barrier and residence Between the material of thin layer different, the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier The most identical, material category can be reduced, the making making the present invention is convenient.

Wherein, the first electrode layer and the second electrode lay material therefor are indium tin oxide, Graphene, Yin Na Rice noodle film, metal or alloy；Wherein, metal be Au Ag Pt Pd, aluminum, nickel, copper, titanium, chromium, Selenium, ferrum, manganese, molybdenum, tungsten or vanadium；Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper conjunction Gold, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, Gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

As shown in figure 21, it illustrates the 4th embodiment of friction generator in the present invention.This enforcement In example, friction generator 232 adds one between the first Power Generation Section 2321 and the second Power Generation Section 2322 The first electrode layer 23211 that individual intervening electrode layer, i.e. friction generator 232 include being cascading, First high molecular polymer insulating barrier 23212, intervening electrode layer the 2324, second high molecular polymer insulate Layer 23222 and the second electrode lay 23221.Wherein, intervening electrode layer 2324 is arranged on the first high score Between sub-polymer insulation layer 23212 and the second high molecular polymer insulating barrier 23222, intervening electrode layer 2324 and first high molecular polymer insulating barrier 23212 be oppositely arranged formation frictional interface, and/or between two parties Thin layer 2323 and the second high molecular polymer insulating barrier 23222 are oppositely arranged formation frictional interface, the One electrode layer 23211 and the second electrode lay 23221 are connected the voltage and current as friction generator 232 An output electrode, intervening electrode layer 2324 is as voltage and current another of friction generator 232 One output electrode.

In the structure shown in Figure 21, intervening electrode layer 2324 and the first high molecular polymer insulating barrier 23212, and/or intervening electrode layer 2324 and the second high molecular polymer insulating barrier 23222 are as friction Two frictional interfaces of electromotor 232, introduce the two frictional interface triboelectricity in detail below Principle: when rotating clockwise shell 1, shell 1 can finally band movable slider 241 towards friction generator 232 move, and the second Power Generation Section 2322 in extrusion friction electromotor 232, and with the second Power Generation Section 2322 the first relative Power Generation Sections 2321 and/or intervening electrode layer 2324 are static, thus the first Power Generation Section The first high molecular polymer insulating barrier 23212 in 2321 produces with intervening electrode layer 2324 phase mutual friction Electrostatic charge, and/or, the second high molecular polymer insulating barrier 23222 in the second Power Generation Section 2322 and residence Between electrode layer 2324 phase mutual friction produce electrostatic charge, thus cause intervening electrode layer 2324 and the first electrode Electric potential difference is produced between layer 23211 and the second electrode lay 23221.Due to intervening electrode layer 2324 and The existence of electric potential difference between one electrode layer 23211 and the second electrode lay 23221, free electron will be by outward Circuit is flowed to, by the side that electromotive force is low, the side that electromotive force is high, thus forms electric current in external circuit.When this rubs Wipe each layer of electromotor 232 when returning to original state, be at this moment formed at intervening electrode layer 2324 and the Built-in potential between one electrode layer 23211 and the second electrode lay 23221 disappears, the most Balanced between two parties To again produce between electrode layer 2324 and the first electrode layer 23211 and the second electrode lay 23221 reversely Electric potential difference, then free electron forms reverse current by external circuit.By repeatedly rubbing and recovering, just Periodic ac signal can be formed in external circuit, thus realize the purpose of generating.

It addition, for the generating capacity improving friction generator 232, at intervening electrode layer 2324 and At least one face in two faces that one high molecular polymer insulating barrier 23212 is oppositely arranged is provided with micro- Micro-nano structure, and/or intervening electrode layer 2324 and the second high molecular polymer insulating barrier 23222 be oppositely arranged Two faces at least one face be provided with micro-nano structure.Therefore, intervening electrode layer 2324 and first High molecular polymer insulating barrier 23212, and/or intervening electrode layer 2324 is exhausted with the second high molecular polymer The apparent surface of edge layer 23222 can better contact with friction, and at the first electrode layer 23211 and second More electric charge is induced at electrode layer 23221 and intervening electrode layer 2324.

Wherein, the first high molecular polymer insulating barrier, the second high molecular polymer insulating barrier are respectively selected from Kapton, aniline-formaldehyde resin thin film, polyformaldehyde thin film, ethyl cellulose film, polyamide Thin film, melamino-formaldehyde thin film, Polyethylene Glycol succinate thin film, cellulose membrane, cellulose second Acid esters thin film, 10PE27 thin film, polydiallyl phthalate thin film, fiber are (again Raw) sponge films, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene butadiene Copolymer film, staple fibre thin film, poly-methyl thin film, methacrylic acid ester film, polyvinyl alcohol are thin Film, polyvinyl alcohol film, mylar, polyisobutylene thin film, polyurethane flexible sponge films, poly-right PET thin film, polyvinyl butyral film, formaldehyde-phenol thin film, neoprene are thin Film, butadiene-propylene copolymer thin film, natural rubber films, polyacrylonitrile thin film, acrylonitrile vinyl chloride Any one in thin film and polyethylene the third diphenol carbonate thin film.

Wherein, the first high molecular polymer insulating barrier and the second high molecular polymer insulating barrier material can phases With, it is also possible to different.Preferably, the first high molecular polymer insulating barrier and the second high molecular polymer are exhausted Edge layer is identical, can reduce material category, and the making making the present invention is convenient.

Wherein, the first electrode layer and the second electrode lay material therefor are indium tin oxide, Graphene, Yin Na Rice noodle film, metal or alloy；Wherein, metal be Au Ag Pt Pd, aluminum, nickel, copper, titanium, chromium, Selenium, ferrum, manganese, molybdenum, tungsten or vanadium；Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper conjunction Gold, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, cadmium alloy, bismuth alloy, indium alloy, Gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

Wherein, intervening electrode layer material therefor is metal or alloy；Wherein, metal be gold, silver, platinum, Palladium, aluminum, nickel, copper, titanium, chromium, selenium, ferrum, manganese, molybdenum, tungsten or vanadium；Alloy is aluminium alloy, titanium conjunction Gold, magnesium alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, ashbury metal, Cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.

Also, it is noted that although above-described embodiment is all described as in friction generator 232 One Power Generation Section 2321 is arranged on the top of generator support 231, and the second Power Generation Section 2322 is arranged on generating The bottom of machine support 231, as it is shown in figure 1, but those skilled in the art can be it is contemplated that rub The position wiping the first Power Generation Section 2321 in electromotor 232 and the second Power Generation Section 2322 can exchange, also That is, the first Power Generation Section 2321 is arranged on the bottom of generator support 231, and the second Power Generation Section 2322 is arranged Top at generator support 231.

By specific embodiment the present invention done above further describe it should be understood that, this In concrete description, should not be construed as the restriction to the spirit and scope of the invention, common in this area The various amendments that above-described embodiment is made by technical staff after reading this specification, broadly fall into institute of the present invention The scope of protection.

Claims (22)

1. a false proof device, is set in the outside of bottle inner cap or bottle body and bottleneck, it is characterised in that Including:

Blind nut (3), fixed cover is located at the outside of bottle inner cap or bottle body and bottleneck；

Shell (1), is set in the outside of blind nut (3), it is possible to rotate relative to blind nut (3)；

False proof assembly (2), is arranged between shell (1) and blind nut (3), it is possible to shell (1) Rotate together, to realize presetting the display of anti-counterfeiting mark；

Reset assembly (4), is arranged between false proof assembly (2) and blind nut (3), it is possible to make false proof Assembly (2) automatically resets；

When relative to blind nut (3) towards a direction rotational shell (1), false proof assembly (2) energy Enough realize false proof display.

False proof device the most according to claim 1, it is characterised in that also include:

Locked assembly (5), is arranged between shell (1) and blind nut (3), it is possible to make shell (1) Lock together with blind nut (3)；

When reversely rotating shell (1), shell (1) locks together with blind nut (3), makes false proof Device loses antiforge function, and can take off from bottle.

False proof device the most according to claim 1 and 2, it is characterised in that false proof assembly (2) It is arranged on shell (1) internal, including arrange from top to bottom:

Display unit (21), it is possible to expose from shell (1), the anti-counterfeiting mark preset with display；

Rectification unit (22), is electrically connected with display unit (21) and triboelectricity unit (23), Alternating current can be converted to unidirectional current, for display unit (21)；

Triboelectricity unit (23), can produce electric energy by extruding；

Moving cell (24), can be towards friction under the effect of blind nut (3) during rotational shell (1) Generator unit (23) is mobile, with extrusion friction generator unit (23).

False proof device the most according to claim 3, it is characterised in that display unit (21) wraps Including display screen (211) and display screen bracket (212), display screen (211) is arranged on display screen bracket (212) on end face, it is electrically connected with rectification unit (22), it is possible to display anti-counterfeiting mark.

False proof device the most according to claim 3, it is characterised in that rectification unit (22) wraps Including cover (221), lower cover (222) and rectifier bridge (223), rectifier bridge (223) is positioned at Between cover (221) and lower cover (222), the input of rectifier bridge (223) and triboelectricity list Unit (23) is connected, and outfan is connected with display unit (21), it is possible to alternating current is converted to unidirectional current.

False proof device the most according to claim 3, it is characterised in that triboelectricity unit (23) Including generator support (231) and friction generator (232), friction generator (232) includes One Power Generation Section (2321) and the second Power Generation Section (2322), the first Power Generation Section (2321) and the second generating Portion (2322) is separately positioned on the both sides up and down of generator support (231), when the first Power Generation Section (2321) Can be generated electricity by friction when contacting with each other with the second Power Generation Section (2322), friction generator (232) It is electrically connected with rectification unit (22).

False proof device the most according to claim 3, it is characterised in that moving cell (24) wraps Including slide block (241), slide block (241) is connected with blind nut (3), it is possible under the drive of blind nut (3) Mobile towards triboelectricity unit (23), the top of slide block (241) is formed with columnar projections (2411), Columnar projections (2411) can be resisted against on triboelectricity unit (23), with to triboelectricity unit (23) Apply extruding force.

False proof device the most according to claim 3, it is characterised in that blind nut (3) includes base (35), base (35) is set in outside bottle inner cap or bottle body and bottleneck, the top shape of base (35) Become to have panel-like platform (31), the end face of panel-like platform (31) is provided with screw rod (33), false proof group The bottom of the moving cell (24) in part (2) is formed with internal thread hole (2413), on blind nut (3) Screw rod (33) match with the internal thread hole (2413) on moving cell (24), it is possible to drive fortune Moving cell (24) is mobile towards triboelectricity unit (23).

False proof device the most according to claim 8, it is characterised in that the base (35) of blind nut (3) The panel-like platform (31) at top is upper is formed with multiple lower spring hole (34) around screw rod (33), false proof It is formed with multiple front upper spring opening (2414) on the bottom surface of the moving cell (24) in assembly (2), multiple Hyte part (4) is arranged between lower spring hole (34) and front upper spring opening (2414), it is possible to make motion Unit (24) automatically resets.

False proof device the most according to claim 9, it is characterised in that be arranged on blind nut (3) On lower spring hole (34) and the front upper spring opening (2414) on moving cell (24) between reset group Part (4) is torsion spring.

11. false proof devices according to claim 8, it is characterised in that the base of blind nut (3) (35) between panel-like platform (31) and the end face of base (35) on, there is internal circumferential groove (32), The inside of shell (1) has the ring-type external groove (13) of accommodating panel-like platform (31), ring-type outer recessed The groove walls (14) of groove (13) bottom matches with the internal circumferential groove (32) on blind nut (3), Make shell (1) together with blind nut (3) slidable fit.

12. false proof devices according to claim 3, it is characterised in that in false proof assembly (2) Display unit (21), rectification unit (22), triboelectricity unit (23) and moving cell (24) Sidewall on be provided with positioning convex, the sidewall of shell (1) is formed vertical groove (15), anti- Positioning convex in pseudo-assembly (2) matches with the vertical groove (15) in shell (1), with outside Positioning anti-fake assembly (2) in shell (1), and false proof assembly (2) can be made to turn with shell (1) Dynamic.

13. false proof devices according to claim 3, it is characterised in that in false proof assembly (2) Display unit (21), rectification unit (22) and triboelectricity unit (23) on be correspondingly arranged on and lead Line three-way hole, is provided with conducting resinl in wire through-hole, display unit (21), rectification unit (22) and rub Wipe generator unit (23) to be electrical connected by the conducting resinl in wire through-hole.

14. false proof devices according to claim 2, it is characterised in that be arranged on shell (1) And the locked assembly (5) between blind nut (3) includes lock hole (51) and clamping block (52), locking Hole (51) is arranged on shell (1), and clamping block (52) is arranged on blind nut (3), rotation case (1) lock hole (51) and clamping block (52) is made to fasten, it is possible to by shell (1) and blind nut (3) Lock together, make false proof device lose antiforge function.

15. false proof devices according to claim 14, it is characterised in that the lock on blind nut (3) Determine block (52) and include spring (522) and securing rod (521), outside securing rod (521) can enter In lock hole (51) on shell (1), it is achieved locking effect.

16. false proof devices according to claim 2, it is characterised in that be arranged on shell (1) And the locked assembly (5) between blind nut (3) includes forward block (53) and reverse block (54), Forward block (53) is arranged on shell (1), and reverse block (54) is arranged on blind nut (3), Rotation case (1) makes forward block (53) and reverse block (54) mutually block, it is possible to make false proof Device loses antiforge function.

17. false proof devices according to claim 16, it is characterised in that on shell (1) just Reverse block (54) on block (53) and blind nut (3) all includes facade and domatic, unlocked Regularly, forward block (53) is domatic relative with reverse block (54)；During locking, forward block (53) It is that facade is relative with reverse block (54).

18. false proof devices according to claim 6, it is characterised in that friction generator (232) In the first Power Generation Section (2321) include the first electrode layer (23211)；Second Power Generation Section (2322) The second electrode lay (23221) arranged including stacking and the second high molecular polymer insulating barrier (23222)； First electrode layer (23211) and the second high molecular polymer insulating barrier (23222) are oppositely arranged formation and rub Wipe interface；First electrode layer (23211) and the second electrode lay (23221) are friction generator (232) Outfan.

19. false proof devices according to claim 6, it is characterised in that friction generator (232) In the first Power Generation Section (2321) include the first electrode layer (23211) and the first high score that stacking arranges Sub-polymer insulation layer (23212)；Second Power Generation Section (2322) includes the second electrode that stacking is arranged Layer (23221) and the second high molecular polymer insulating barrier (23222)；First high molecular polymer insulation Layer (23212) and the second high molecular polymer insulating barrier (23222) are oppositely arranged formation frictional interface； First electrode layer (23211) and the output that the second electrode lay (23221) is friction generator (232) End.

20. false proof devices according to claim 19, it is characterised in that friction generator (232) Farther include: be arranged on the first high molecular polymer insulating barrier (23212) and the second high molecular polymerization Thin layer between two parties (2323) between thing insulating barrier (23222)；Thin layer (2323) is poly-between two parties Compound thin layer, between two parties thin layer (2323) and the first high molecular polymer insulating barrier (23212) phase To arranging formation frictional interface, and/or thin layer (2323) and the insulation of the second high molecular polymer between two parties Layer (23222) is oppositely arranged formation frictional interface.

21. false proof devices according to claim 19, it is characterised in that friction generator (232) Farther include: be arranged on the first high molecular polymer insulating barrier (23212) and the second high molecular polymerization Intervening electrode layer (2324) between thing insulating barrier (23222)；Intervening electrode layer (2324) and One high molecular polymer insulating barrier (23212) is oppositely arranged formation frictional interface, and/or intervening electrode layer (2324) and the second high molecular polymer insulating barrier (23222) is oppositely arranged formation frictional interface；The One electrode layer (23211) and the second electrode lay (23221) series connection are the one of friction generator (232) Individual outfan, intervening electrode layer (2324) is another outfan of friction generator (232).

22. according to described false proof device arbitrary in claim 18-21, it is characterised in that is formed and rubs At least one face wiped in two faces at interface is provided with micro-nano structure.