CN104808138B - A kind of triboelectricity apparatus test device - Google Patents
A kind of triboelectricity apparatus test device Download PDFInfo
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- CN104808138B CN104808138B CN201410667407.XA CN201410667407A CN104808138B CN 104808138 B CN104808138 B CN 104808138B CN 201410667407 A CN201410667407 A CN 201410667407A CN 104808138 B CN104808138 B CN 104808138B
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Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02N—ELECTRIC MACHINES NOT OTHERWISE PROVIDED FOR
- H02N1/00—Electrostatic generators or motors using a solid moving electrostatic charge carrier
- H02N1/04—Friction generators
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- Investigating Strength Of Materials By Application Of Mechanical Stress (AREA)
Abstract
The invention discloses a kind of triboelectricity apparatus test device, the test device includes:Seal case (1);Friction generator puts component (2), is arranged in seal case (1), for placing triboelectricity material;Push component (3), component (2) is put with friction generator to be oppositely arranged, to act power to the triboelectricity material being placed on friction generator storing component (2), and extruding, the friction to triboelectricity material are realized, make to produce electric charge on triboelectricity material;Electrostatic charge detection components (4), it is arranged in seal case (1), for detecting the quantity of electric charge on triboelectricity material.The triboelectricity apparatus test device of the present invention is designed according to the major influence factors of friction generator performance, and friction generator performance test methods, compensate for the blank of friction generator performance test special purpose device.
Description
Technical field
The present invention relates to a kind of test device, more particularly to a kind of test device for friction generator.
Background technology
During phase mutual friction a side can be made to take negative electricity between object and object, the opposing party becomes positively charged, this due to object
Between rub and caused electricity cry friction electricity.The electricity that rubs is one of most common phenomenon of nature, and the Production conditions for the electricity that rubs are non-
Constant width is general.A kind of generator according to object triboelectricity phenomenon development is referred to as friction generator.
At present, a kind of special purpose device that can facilitate testing friction generator performance is still lacked in industry so that existing to rub
The test job for wiping generator is complicated, difficult and ineffective.Further, since the working environment of friction generator is to its transducing
Efficiency has considerable influence, such as air humidity, temperature etc., therefore the detection need of work of friction generator is under stable environment
Carry out.
The content of the invention
It is an object of the invention to provide a kind of device dedicated for friction generator performance test, with can quickly,
The performance of friction generator is detected exactly.
To achieve the above object, a kind of concrete technical scheme of triboelectricity apparatus test device of the invention is:
A kind of triboelectricity apparatus test device, including:Seal case;Friction generator puts component, is arranged on seal box
In vivo, for placing triboelectricity material;Component is pushed, putting component with friction generator is oppositely arranged, to be rubbed to being placed on
Wipe the triboelectricity material that generator is put on component and act power, and realize extruding, the friction to triboelectricity material, make
Electric charge is produced on triboelectricity material;Electrostatic charge detection components, are arranged in seal case, for detecting triboelectricity material
The quantity of electric charge.
The advantages of triboelectricity apparatus test device of the present invention, is:
1) triboelectricity apparatus test device of the invention can automatically adjust the temperature and humidity of box house, to ensure to survey
The stabilization in test ring border;
2) triboelectricity apparatus test device of the invention can realize that the side-friction of friction generator and longitudinal direction extrude, and
The size of friction velocity, distance and frictional force can be controlled, be easy to comprehensively, intactly the performance of friction generator is surveyed
Examination;
3) triboelectricity apparatus test device of the invention can complete the real-time measurement to the friction material surface quantity of electric charge, solve
The problem of electrostatic charge evanescence is unstable, improves measuring accuracy and compensate for friction generator performance test special purpose device
Blank;
4) triboelectricity apparatus test device of the invention can be tested the friction generator of unlike material, so as to fast
Speed, to accurately determine which kind of type, the frictional behaviour of the friction generator of material more preferable.
Brief description of the drawings
Fig. 1 is the stereogram of the triboelectricity apparatus test device of the present invention;
Fig. 2 is the cut-away view of the triboelectricity apparatus test device of the present invention;
Fig. 3 is the positive perspective view of the triboelectricity apparatus test device of the present invention;
Fig. 4 is the lateral perspective of the triboelectricity apparatus test device of the present invention;
Fig. 5 is the structural representation of the first embodiment of the friction generator in the present invention;
Fig. 6 is the structural representation of the second embodiment of the friction generator in the present invention;
Fig. 7 is the structural representation of the 3rd embodiment of the friction generator in the present invention.
Embodiment
In order to be better understood by the purpose of the present invention, structure and function, below in conjunction with the accompanying drawings, a kind of of the present invention is rubbed
Generator test device does further detailed description.
As shown in Figures 1 to 4, triboelectricity apparatus test device of the invention includes seal case 1, friction generator is put
Component 2, push component 3 and electrostatic charge detection components 4.Wherein, friction generator is put component 2 and is arranged in seal case 1, uses
In placement triboelectricity material;Push component 3 to be oppositely arranged with friction generator storing component 2, with to being placed on triboelectricity
The triboelectricity material that machine is put on component 2 acts power, so as to realize extruding, the friction to triboelectricity material, makes to rub
Wipe and produce electric charge in electricity generation material;Electrostatic charge detection components 4 are arranged in seal case 1, for detecting triboelectricity material
The quantity of electric charge.In addition, the environmental Kuznets Curves component 5 for changing case vivo detection environment is additionally provided with seal case 1.
Further, friction generator is put component 2 and is arranged on the bottom wall of seal case 1, can be in seal case 1 laterally
It is mobile;Push component 3 and be arranged on the top that friction generator puts the mobile route of component 2, can be put relative to friction generator
Component 2 is put to vertically move;Electrostatic charge detection components 4 are arranged on the top that friction generator puts the mobile route of component 2, can phase
Component 2 is put for friction generator to vertically move.
Thus, triboelectricity apparatus test device of the invention be according to the major influence factors of friction generator performance, with
And friction generator performance test methods design, the blank of friction generator performance test special purpose device compensate for.
With reference to Fig. 1 to Fig. 4, the concrete structure of the triboelectricity apparatus test device of the present invention is illustrated.
As shown in Fig. 2 friction generator, which puts component 2, includes linear guides 21, placement platform 22 and driver 23.Wherein,
Linear guides 21 are fixedly installed on the bottom wall of seal case 1, and placement platform 22 is slidably arranged on linear guides 21, triboelectricity
For material fixed placement in placement platform 22, driver 23 can drive placement platform 22 to be moved back and forth on linear guides 21.It should be noted that
, in the present embodiment, placement platform 22 can only move horizontally relative to linear guides 21, can not arbitrarily rotate, to ensure to put
The triboelectricity material placed on platform 22 and the face relation for pushing component 3.In addition, this can be selected in the driver 23 in the present invention
The power set commonly used in field, such as servomotor.
Further, pushing component 3 includes lifting element 31 (referring to Fig. 4) and lower lock block 32.Wherein, lower lock block 32 is set
In the bottom of lifting element 31, put the placement platform 22 in component 2 with friction generator and be oppositely arranged, lifting element 31 can drive
Lower lock block 32 lifts, and is produced and made with the triboelectricity material put to being placed on friction generator in the placement platform 22 in component 2
Firmly, so as to realizing extruding to triboelectricity material, friction.
Further, include also referring to Fig. 1, lifting element 31 by driver 311, eccentric wheel 312 and connecting rod 313 sequentially
Connect the lift unit, the decline unit being made up of guide rod 314 and mass 315 and connection lift unit and decline of composition
The link 316 of unit.Wherein, lower lock block 32 is arranged on the bottom of guide rod 314, and lift unit can be driven by link 316
Decline unit and lower lock block 32 rises together, declining unit can drive lower lock block 32 to decline together, so that lower lock block 32 can be right
It is placed on the triboelectricity material that friction generator is put on component 2 and acts power, so as to realizes to triboelectricity material
Extruding, friction.It should be noted that the driver 311 in the present embodiment can be servomotor, mass 315 can be counterweight.This
Outside, as depicted in figs. 1 and 2, the link 316 in the present embodiment is tower structure, and the connecting rod 313 in lift unit is with being connected
The top plate of frame 316 is connected, and declines the bottom plate that the guide rod 314 in unit passes through link 316, and mass 315 is arranged on guide rod 314
On, and between the bottom plate and top plate of link 316, wherein, decline to be flexibly connected between unit and link 316,
That is, guide rod 314 can move up and down relative to the bottom plate of link 316.
Further, the lift unit in lifting element 31 is arranged on the top of seal case 1, declines unit and is arranged on sealing
The inside of casing 1, top plate connection lift unit and decline unit of the link 316 through seal case 1.It should be noted that it is
Ensure the sealing property of seal case 1, sealing structure is provided between link 316 and the top plate of seal case 1.
Thus, the eccentric wheel 312 on the output shaft of driver (servomotor) 311 is fixed at driver (servomotor)
Under 311 drive, by connecting rod 313 link 316 can be driven to move upwards, guide rod 314 and the matter being fixed on guide rod 314
After gauge block (counterweight) 315 and lower lock block 32 rise to setting height with link 316, driver (servomotor) 311 quickly returns
To initial position, the rapid decrease under the promotion of connecting rod 313 of link 316, mass (counterweight) 315 and lower lock block 32 are then done certainly
By falling, so as to complete to put triboelectricity material in the placement platform 22 in component 2 to being placed on friction generator
Extruding.In addition, the depression distance of lower lock block 32 and lower pressure can be entered by the corner and counterbalance mass for adjusting servomotor
Row control.
Further, friction generator is put the triboelectricity material placed in the placement platform 22 in component 2 and rubbed to be split type
Wipe generator, including the first triboelectricity unit 61 and the second triboelectricity unit 62 (referring to Fig. 5 to Fig. 7).Wherein, first
Triboelectricity unit 61 is placed on the lower lock block 32 pushed in component 3, and the second triboelectricity unit 62 is placed on triboelectricity
Machine is put in the placement platform 22 in component 2, pushes the lower lock block 32 in component 3 and the storing in friction generator storing component 2
When platform 22 contacts, the first triboelectricity unit 61 and the second triboelectricity unit 62 thereon can mutually act power, realize
Extruding, friction between first triboelectricity unit 61 and the second triboelectricity unit 62.In addition, the triboelectricity in the present invention
Machine puts the triboelectricity material placed on component 2 and is alternatively monoblock type friction generator, thus, pushes pushing in component 3
When block 32 contacts with the placement platform 22 that friction generator is put in component 2, lower lock block 32 can directly extrude monoblock type friction hair
Motor.It should be noted that the structure of monoblock type friction generator is similar with the structure of above-mentioned split type friction generator, can refer to
Split type friction generator is set, and detail is no longer described in detail.
Further, as shown in Fig. 2 electrostatic charge detection components 4 include linear guides 41, slide holder 42, driver 43
With electrostatic probe 44.Wherein, linear guides 41 are fixed in the side wall of seal case 1, and slide holder 42, which is arranged on, linearly leads
On rail 41, electrostatic probe 44 is fixed on slide holder 42, and electrostatic probe 44 is put in component 2 with friction generator
Placement platform 22 is oppositely arranged, and driver 43 can drive slide holder 42 to be moved back and forth on linear guides 41, to change electrostatic
Probe 44 puts the distance between placement platform 22 in component 2 with friction generator.It should be noted that the driver in the present invention
43 can be selected power set commonly used in the art, such as servomotor.Thus, triboelectricity apparatus test device of the invention can
Detected in real time by the quantity of electric charge on electrostatic 44 pairs of triboelectricity materials of probe, it is unstable to solve electrostatic charge evanescence
Problem.
Further, as shown in Fig. 2 environmental Kuznets Curves component 5 includes being arranged on the inside of seal case 1 for changing temperature in casing
Heater 51, the refrigerator 52 of degree, and/or be arranged on the inside of seal case 1 and be used to change the humidifier 53 of humidity in casing, take out
Wet device 54.In addition, the wall of the seal case 1 in the present invention is preferably the stainless steel plate for being sandwiched between polyurethane foam, and extremely
It can be made up on a few wall formed with observation window 11, observation window 11 of glass.Thus, friction generator of the invention test dress
Temperature and humidity that can arbitrarily in control cabinet body is put, to ensure stable, suitable test environment.
To sum up, the course of work of triboelectricity apparatus test device of the invention is:
1) driver (servomotor) 311 drives link 316 to move upwards by eccentric wheel 312, connecting rod 313, guide rod
314th, after mass (counterweight) 315 and lower lock block 32 rise to setting height with link 316, driver (servomotor) 311
It is quickly returning to initial position, the rapid decrease under the promotion of connecting rod 313 of link 316, mass (counterweight) 315 and lower lock block 32
The movement of falling object is done with guide rod 314, lower lock block 32 is put the placement platform 22 in component 2 with friction generator and is in contact, so that
The second mutually longitudinal direction extruding of triboelectricity unit 62 on the first triboelectricity unit 61 and placement platform 22 on lower lock block 32, enters
And produce electric charge.
2) when 32 transfixion of lower lock block, servomotor 23 drives placement platform 22 to be moved back and forth on linear guides 21,
So that the 62 mutually transverse cunning of the second triboelectricity unit on the first triboelectricity unit 61 and placement platform 22 on lower lock block 32
Dynamic friction, and then produce electric charge.
3) when the second triboelectricity unit 62 on the first triboelectricity unit 61 and placement platform 22 on lower lock block 32 is complete
Into after extruding, abrasive action, under placement platform 22 being moved into electrostatic probe 44 just along linear guides 21 by servomotor 23
Side, and by servomotor 43 slide holder 42 can be driven to be moved back and forth on linear guides 41, to change electrostatic probe 44
The distance between placement platform 22, and then complete the inspection to the surface charge amount of the second triboelectricity unit 62 in placement platform 22
Survey.
With reference to Fig. 5 to Fig. 7, the split type triboelectricity placed in the placement platform in component is put to friction generator
The structure of machine illustrates.It should be noted that the structure for the monoblock type friction generator being placed in placement platform can refer to setting,
No longer it is described in detail.
As shown in figure 5, it illustrates the first structure of the friction generator in the present invention.In the present embodiment, friction hair
The first triboelectricity unit 61 in motor includes first electrode layer 611, and the second triboelectricity unit 62 includes what is be stacked
The high polymer insulating layer 622 of the second electrode lay 621 and second.Wherein, the high molecular polymer of first electrode layer 611 and second
Insulating barrier 622 is oppositely arranged to form frictional interface, first electrode layer 611 and the surface phase of the second high polymer insulating layer 622
Mutual friction can produce electrostatic charge, first electrode layer 611 and the output electrode that the second electrode lay 621 is friction generator.
In addition, in order to improve the generating capacity of friction generator, the insulation of the high molecular polymer of first electrode layer 611 and second
Micro-nano structure 63 can be further set at least one face in two faces that layer 622 is oppositely arranged.Therefore, first electrode layer
611 and second the apparent surface of high polymer insulating layer 622 can better contact with friction, and in first electrode layer 611
With more electric charge is induced at the second electrode lay 222.
Wherein, the second high polymer insulating layer 622 is selected from Kapton, aniline formaldehyde resin film, gathered
Formaldehyde film, ethyl cellulose film, polyamide film, melamino-formaldehyde film, poly (ethylene glycol) two acid ester film, fiber
Plain film, cellulose acetate film, polyethylene glycol adipate film, polydiallyl phthalate film, fiber sea
Meagre strength film, renewable sponge film, elastic polyurethane body thin film, styrene-acrylonitrile copolymer copolymer film, styrene-butadiene-copolymer
Film, staple fibre film, poly- methyl film, methacrylic acid ester film, polyvinyl alcohol film, polyvinyl alcohol film, polyester
Film, polyisobutene film, polyurethane flexible sponge films, pet film, polyvinyl butyral resin
Film, formaldehyde-phenol film, neoprene film, butadiene-propylene copolymer film, natural rubber films, polyacrylonitrile are thin
Any one in film, acrylonitrile vinyl chloride film and polyethylene the third diphenol carbonate thin film.
Wherein, the material therefor of first electrode layer 611 is selected from metal or alloy;Wherein, metal be Au Ag Pt Pd, aluminium,
Nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium;Alloy is aluminium alloy, titanium alloy, magnesium alloy, beryllium alloy, copper alloy, zinc conjunction
Gold, manganese alloy, nickel alloy, metal, tin alloy, cadmium alloy, bismuth alloy, indium alloy, gallium alloy, tungsten alloy, molybdenum alloy, niobium close
One kind in gold or tantalum alloy.
The material therefor of the second electrode lay 621 is selected from indium tin oxide, graphene, silver nanowire film, metal or alloy;Its
In, metal is Au Ag Pt Pd, aluminium, nickel, copper, titanium, chromium, selenium, iron, manganese, molybdenum, tungsten or vanadium;Alloy is aluminium alloy, titanium alloy, magnesium
Alloy, beryllium alloy, copper alloy, kirsite, manganese alloy, nickel alloy, metal, tin alloy, cadmium alloy, bismuth alloy, indium alloy, gallium
One kind in alloy, tungsten alloy, molybdenum alloy, niobium alloy or tantalum alloy.
As shown in fig. 6, it illustrates second of structure of the friction generator in the present invention.This structure is sent out with above-mentioned friction
The difference of the first structure of motor is:First triboelectricity unit 61 includes the first electrode layer 611 that is stacked and the
One high polymer insulating layer 612, the first high polymer insulating layer 612 and the second high polymer insulating layer 622
It is oppositely arranged to form frictional interface, the table of the first high polymer insulating layer 612 and the second high polymer insulating layer 622
Face phase mutual friction can produce electrostatic charge.Wherein, the material of the first high polymer insulating layer 612 and in embodiment one second high
The material selection scope of Molecularly Imprinted Polymer is identical, but both preferably different materials.The material of first electrode layer and the second electrode lay
Material is identical with the material selection scope of the second electrode lay in embodiment one.With reference to the first structure of above-mentioned friction generator, sheet
Art personnel can relatively easily understand the operation principle of the present embodiment, remaining structure setting mode, material selection etc., this
Place repeats no more.
As shown in fig. 7, it illustrates the third structure of the friction generator in the present invention.This structure is sent out with above-mentioned friction
The difference of second of structure of motor is that the second triboelectricity unit 62 further comprises film layer 623 between two parties, and its stacking is set
Put on the second high polymer insulating layer 622, the first high polymer insulating layer 612 and the between two parties phase of film layer 623
Frictional interface formed to setting, the second high polymer insulating layer 622 and film layer 623 is also oppositely arranged to form friction between two parties
Interface.First high polymer insulating layer 612, the second high polymer insulating layer 622 respectively and between two parties film layer 623
Surface phase mutual friction can produce electrostatic charge.Wherein, the second high molecular polymer in the material of film layer 623 and embodiment two between two parties
The material selection scope of layer 622 is identical, but both preferred different materials, and between two parties the material of film preferably with the first high score
The material of sub- polymer insulation layer is different.With reference to second of structure of above-mentioned friction generator, those skilled in the art can be compared with
Operation principle, remaining structure setting mode, material selection of this structure etc. are will be readily understood that, here is omitted.
The present invention is further described by specific embodiment above, it should be understood that, here specifically
Description, should not be construed as the restriction to the spirit and scope of the invention, and one of ordinary skilled in the art is reading this explanation
The various modifications made after book to above-described embodiment, belong to the scope that the present invention is protected.
Claims (14)
- A kind of 1. triboelectricity apparatus test device, it is characterised in that including:Seal case (1);Friction generator puts component (2), is arranged in seal case (1), for placing triboelectricity material;Component (3) is pushed, putting component (2) with friction generator is oppositely arranged, to put component to being placed on friction generator (2) the triboelectricity material on acts power, makes to produce electric charge on triboelectricity material;Electrostatic charge detection components (4), it is arranged in seal case (1), for detecting the quantity of electric charge on triboelectricity material;Wherein, pushing component (3) includes lifting element (31) and lower lock block (32), and lower lock block (32) is arranged on lifting element (31) Bottom, with friction generator put component (2) be oppositely arranged, lifting element (31) can drive lower lock block (32) lift, with right It is placed on the triboelectricity material that friction generator is put on component (2) and acts power;Lifting element (31) includes being sequentially connected with the lifting list formed by driver (311), eccentric wheel (312) and connecting rod (313) Member, the link for declining unit and connecting lift unit and decline unit being made up of guide rod (314) and mass (315) (316), lower lock block (32) is arranged on the bottom of guide rod (314), lift unit can be driven by link (316) decline unit and Lower lock block (32) rises together, and declining unit can drive lower lock block (32) to decline together, so that lower lock block (32) can be to placing The triboelectricity material on component (2), which is put, in friction generator acts power.
- 2. triboelectricity apparatus test device according to claim 1, it is characterised in that friction generator puts component (2) It is arranged on the bottom wall of seal case (1), can be in seal case (1) interior transverse shifting;Push component (3) and be arranged on triboelectricity Machine puts the top of the mobile route of component (2), can put component (2) relative to friction generator and vertically move;Electrostatic charge is examined Survey component (4) and be arranged on the top that friction generator puts the mobile route of component (2), can be relative to friction generator storing group Part (2) vertically moves.
- 3. triboelectricity apparatus test device according to claim 1, it is characterised in that be provided with use in seal case (1) In the environmental Kuznets Curves component (5) for changing test environment in casing.
- 4. according to any described triboelectricity apparatus test device in claims 1 to 3, it is characterised in that friction generator is put Putting component (2) includes linear guides (21), placement platform (22) and driver (23), and linear guides (21) are arranged on seal case (1) on bottom wall, placement platform (22) is slidably arranged on linear guides (21), and triboelectricity material is placed on placement platform (22) On, driver (23) can drive placement platform (22) to be moved back and forth on linear guides (21).
- 5. triboelectricity apparatus test device according to claim 1, it is characterised in that the lifting list in lifting element (31) Member is arranged on the top of seal case (1), declines the inside that unit is arranged on seal case (1), and link (316) passes through sealing The top plate connection lift unit and decline unit of casing (1).
- 6. according to any described triboelectricity apparatus test device in claims 1 to 3, it is characterised in that electrostatic charge detection group Part (4) includes linear guides (41), slide holder (42), driver (43) and electrostatic probe (44), linear guides (41) and set Put in the side wall of seal case (1), slide holder (42) is arranged on linear guides (41), and electrostatic probe (44) is fixed On slide holder (42), put component (2) with friction generator and be oppositely arranged, driver (43) can drive slide holder (42) moved back and forth on linear guides (41), to change between electrostatic probe (44) and friction generator storing component (2) Distance.
- 7. triboelectricity apparatus test device according to claim 3, it is characterised in that environmental Kuznets Curves component (5) includes setting Put and be used for the heater (51), the refrigerator (52) that change case body temperature inside seal case (1), and/or be arranged on sealing It is used for humidifier (53), the dehumidifier (54) for changing humidity in casing inside casing (1).
- 8. triboelectricity apparatus test device according to claim 7, it is characterised in that during the wall of seal case (1) is Between accompany the stainless steel plate of polyurethane foam, and formed with observation window (11) at least one wall.
- 9. triboelectricity apparatus test device according to claim 1, it is characterised in that friction generator puts component (2) The triboelectricity material of upper placement is split type friction generator, including the first triboelectricity unit (61) and the second triboelectricity Unit (62), wherein, the first triboelectricity unit (61), which is placed on, to be pushed on component (3), and the second triboelectricity unit (62) is put Put and put in friction generator on component (2), when pushing component (3) and putting component (2) with friction generator and contact, first rubs Generator unit (61) and the second triboelectricity unit (62) can mutually act power.
- 10. triboelectricity apparatus test device according to claim 9, it is characterised in that the first triboelectricity unit (61) Including first electrode layer (611), the second triboelectricity unit (62) is high including the second electrode lay (621) being stacked and second Molecularly Imprinted Polymer insulating barrier (622), first electrode layer (611) and the second high polymer insulating layer (622) are oppositely arranged shape Into frictional interface, first electrode layer (611) and the output electrode that the second electrode lay (621) is friction generator.
- 11. triboelectricity apparatus test device according to claim 10, it is characterised in that the first triboelectricity unit (61) It is exhausted including the first electrode layer (611) being stacked and the first high polymer insulating layer (612), the first high molecular polymer Edge layer (612) and the second high polymer insulating layer (622) are oppositely arranged to form frictional interface.
- 12. triboelectricity apparatus test device according to claim 11, it is characterised in that the second triboelectricity unit (62) Including film layer between two parties (623), film layer (623) is stacked on the second high polymer insulating layer (622) between two parties, First high polymer insulating layer (612) and film layer (623) is oppositely arranged to form frictional interface and/or the second high score between two parties Sub- polymer insulation layer (622) and film layer (623) is oppositely arranged to form frictional interface between two parties.
- 13. according to any described triboelectricity apparatus test device in claim 10 to 12, it is characterised in that the first friction hair Being oppositely arranged in electric unit (61) and the second triboelectricity unit (62) is at least one in two faces to form frictional interface Micro-nano structure (63) is provided with face.
- 14. triboelectricity apparatus test device according to claim 1, it is characterised in that friction generator puts component (2) The triboelectricity material of upper placement is monoblock type friction generator, pushes component (3) and is contacted with friction generator storing component (2) When, directly extrude the monoblock type friction generator.
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CN110297134B (en) * | 2019-07-24 | 2021-07-13 | 上海交通大学 | Friction electrification testing device |
KR102280649B1 (en) * | 2019-12-17 | 2021-07-21 | 송찰스기석 | Method of analyzing electric signal of triboelectric power generating device |
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CN201145711Y (en) * | 2008-01-25 | 2008-11-05 | 华南理工大学 | Apparatus with virtual instrument technique for testing electrostatic dynamic electric potential |
CN102710166B (en) * | 2012-04-13 | 2015-01-07 | 纳米新能源(唐山)有限责任公司 | Friction generator |
CN102636679B (en) * | 2012-04-16 | 2015-01-21 | 深圳市新纶科技股份有限公司 | Automatic test apparatus for friction voltage |
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