CN106602923A - Frictional nano-generator for collecting wind energy, and power generation system - Google Patents

Abstract

The invention relates to the field of nano-generation, and discloses a frictional nano-generator for collecting wind energy, and a power generation system. The frictional nano-generator comprises a first power generation part; a second power generation part which is set to be opposite to the first power generation part, and deforms under the wind action to contact with or be separated with the first power generation part, wherein the frictional nano-generator generates and outputs an electric signal based on the deformation, and the second power generation part is a vibrating film; a supporting fixing part, wherein two ends of each of two surfaces of the second power generation part are fixed on the first power generation part through the supporting fixing part, and a gap is formed between the first and second power generation parts. According to the invention, the frictional nano-generator and the power generation system are simple in structure, are low in cost, are stable in output performance, and effectively achieve the collection of wind energy.

Description

Collect the friction nanometer power generator and electricity generation system of wind energy

Technical field

The present invention relates to nanometer generating field, in particular it relates to a kind of friction nanometer power generator for collecting wind energy and generating System.

Background technology

In recent years, cleaning, regenerative resource are increasingly paid close attention to by the whole world.In numerous collectable clean energy resourcies, Wind energy is a kind of preferable energy source.Friction nanometer power generator at present by contact-separate structure collection wind energy is main It is divided into single-ended fixation and both-end fixes two kinds of forms.

For example, a kind of single-ended fixation of vibrating diaphragm is proposed in prior art and both-end fixes the friction nanometer for collecting wind energy Motor, it is mainly vibrating diaphragm two sides is by magnetron sputtering copper facing and is protected by friction material FEP and prepares.Single-ended fixation Generator output voltage is 400V, and electric current is 60 μ A, and power is 3.7mW；The generator output voltage that both-end is fixed is 240V, electric Flow for 80 μ A, power density is 3KW/m3.But the two is present, and continuous operation stability is poor, can only unidirectionally collect wind energy etc. no Foot.Additionally, a kind of single-ended fixed friction generator for collecting wind energy based on triboelectric effect is also proposed in prior art, but There is the deficiencies such as structure is relative complex, continuous operating time is shorter in the electromotor.

The content of the invention

It is an object of the invention to provide a kind of friction nanometer power generator and electricity generation system for collecting wind energy, above-mentioned existing to solve There is the problem in technology.

To achieve these goals, the present invention provides a kind of friction nanometer power generator for collecting wind energy, wherein, the friction is received Rice electromotor includes：First electrical generation components；Second electrical generation components, are arranged corresponding to first electrical generation components, in wind-force effect Under deform upon and contact or separate with first electrical generation components, the friction nanometer power generator is produced simultaneously based on the deformation The output signal of telecommunication, wherein second electrical generation components are vibrating diaphragm；And support fixation elements, the two of second electrical generation components The respective two ends in individual surface are fixed to first electrical generation components and make first Power Generation Section by the support fixation elements Space is formed between part and second electrical generation components.

Preferably, first electrical generation components include electrode layer and the frictional layer being arranged on the electrode layer, in wind-force The frictional layer and vibrating diaphragm contact or separate under effect, and during being contacting and separating, the frictional layer with Franklinic electricity potential difference is produced between the vibrating diaphragm.

Preferably, first electrical generation components also include supporting layer, and the electrode layer for being provided with the frictional layer is arranged On the supporting layer, the supporting layer is used to support the electrode layer and the frictional layer.

Preferably, the material of the electrode layer is metal.

Preferably, the frictional layer is metallic matrix super-hydrophobic layer.

Preferably, the material of the vibrating diaphragm is organic polymer thin-film material, the organic polymer thin-film material choosing At least one in following：Polyamide, polrvinyl chloride, polydimethylsiloxane, politef, polyethylene, poly- inclined dichloro Ethylene, polyacrylonitrile, poly- diphenyl propane carbonic ester, PEN, polytrifluorochloroethylene, xylol ring two Body, acrylonitrile-butadiene-styrene terpolymer and vinyl chloride-vinyl acetate copolymer.

Preferably, the thickness range of the vibrating diaphragm is 0.02mm to 0.1mm.

Preferably, the material of the support fixation elements and the supporting layer is acrylic.

Preferably, the thickness range of the support fixation elements is 0.5mm to 1mm, and the thickness range of the supporting layer For 4mm to 10mm.

Present invention also offers a kind of electricity generation system, wherein, including multiple above-mentioned friction nanometer power generators.

By above-mentioned technical proposal, it is possible to use the side that support fixation elements are fixed on two surfaces of vibrating diaphragm with two ends Formula is fixed respectively first electrical generation components and is supported vibrating diaphragm so as to be formed between the first electrical generation components and vibrating diaphragm Space.Thus, vibrating diaphragm can deform upon under wind-force effect and contact or separate with first electrical generation components, so as to The signal of telecommunication (that is, using triboelectric effect and electrostatic induction effect) can be produced and exported based on the deformation, and that realizes wind energy has Effect is collected.Also, adopt the first electrical generation components and with vibrating diaphragm directly as the second electrical generation components (it is, nothing in vibrating diaphragm Electrode need to be set) friction nanometer power generator is constituted so that electromotor has the stable spy of simple structure, low cost, output performance Point.

Other features and advantages of the present invention will be described in detail in subsequent specific embodiment part.

Description of the drawings

Accompanying drawing is, for providing a further understanding of the present invention, and to constitute the part of description, with following tool Body embodiment is used to explain the present invention together, but is not construed as limiting the invention.In the accompanying drawings：

Fig. 1 is the structural representation of the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention；

Fig. 2A to 2C is the output telecommunications of the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention Number figure；

Fig. 3 is the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention to 10000 μ F capacitors The schematic diagram of charging；

Fig. 4 A to 4B are that the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention collects different angles The output signal of telecommunication figure of degree wind energy；And

Fig. 5 is that the friction nanometer power generator running voltage change of the collection wind energy according to one embodiment of the present invention is illustrated Figure.

Description of reference numerals

The support fixation elements of 1 first 2 second electrical generation components of electrical generation components 3

The supporting layer of 11 electrode layer, 12 frictional layer 13

Specific embodiment

The specific embodiment of the present invention is described in detail below in conjunction with accompanying drawing.It should be appreciated that this place is retouched The specific embodiment stated is merely to illustrate and explains the present invention, is not limited to the present invention.

Fig. 1 is the structural representation of the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention.

As shown in figure 1, the friction nanometer power generator of the collection wind energy of one embodiment of the present invention offer includes：First Electric part 1；Second electrical generation components 2, are arranged corresponding to first electrical generation components 1, wind-force effect under deform upon and with institute State the first electrical generation components 1 to contact or separate, the friction nanometer power generator produces and export the signal of telecommunication based on the deformation, wherein Second electrical generation components 2 are vibrating diaphragm；And support fixation elements 3, two surfaces of second electrical generation components 2 are respective Two ends are fixed to first electrical generation components 1 and make first electrical generation components 1 and described by the support fixation elements 3 Space is formed between two electrical generation components 2.

By above-mentioned technical proposal, it is possible to use the side that support fixation elements are fixed on two surfaces of vibrating diaphragm with two ends Formula is fixed respectively first electrical generation components and is supported vibrating diaphragm so as to be formed between the first electrical generation components and vibrating diaphragm Space.Thus, vibrating diaphragm can deform upon under wind-force effect and contact or separate with first electrical generation components, so as to The signal of telecommunication (that is, using triboelectric effect and electrostatic induction effect) can be produced and exported based on the deformation, and that realizes wind energy has Effect is collected.Also, adopt the first electrical generation components and (that is, need not be set in vibrating diaphragm directly as the second electrical generation components with vibrating diaphragm Put electrode) friction nanometer power generator is constituted so that the characteristics of electromotor has simple structure, low cost, output performance stable.

Wherein, the support fixation elements 3 can be with certain thickness supporter, such as pad.The pad is logical Cross bonding method to fix the two ends on two surfaces up and down of the second electrical generation components 2 (for example, closely paste) to described first While electric part 1, second electrical generation components 2 can be played a supportive role so as to form gap therebetween.The gap can To be adjusted by changing the thickness of support fixation elements 3.The setting of the thickness of the support fixation elements 3 can be by ability Field technique personnel set according to practical situation, and the present invention is not defined to this.

According to the shape of one embodiment of the present invention, first electrical generation components 1 and second electrical generation components 2 Think strip, and the size of the two can be with identical.Wherein, for used as the vibrating diaphragm of the second electrical generation components 2, it can be to appoint What can bend the elastically-deformable film of generation.

As shown in figure 1, first electrical generation components 1 can include electrode layer 11 and be arranged on rubbing on the electrode layer 11 Layer 12 is wiped, the frictional layer 12 and the vibrating diaphragm (the second electrical generation components 2) contact or separation under wind-force effect, and connecing During touching and being detached, franklinic electricity potential difference is produced between the frictional layer 12 and the vibrating diaphragm.

Wherein, electrode layer 11 and frictional layer 12 can closely be pasted by bonding method.

Thus, it is possible to the electrode layer 11 passed through in the first fixed respectively electrical generation components 1 of upper and lower two surfaces of vibrating diaphragm is defeated Go out the signal of telecommunication.

It is, when the wind blows, vibrating diaphragm is constantly contacted-separated with the surface of frictional layer 12 in the first electrical generation components 1, Because friction produces equal, the electrically contrary electric charge of the quantity of electric charge.Meanwhile, because electrostatic effect is produced and frictional layer on electrode layer 11 The electrically contrary electric charge of the electric charge that 12 surfaces produce.And periodically variable sinusoidal wave form alternating current is outwards exported by outfan Signal, effectively converts wind energy into electric energy.

As shown in figure 1, the friction nanometer power generator for collecting wind energy of the present invention is also associated with ammeter (A).Although Shown in figure for ammeter, it is to be understood by those skilled in the art that corresponding inspection can also be replaced with according to actual needs Survey device or load, voltmeter of such as detection voltage etc..

Fig. 2A to 2C is the output telecommunications of the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention Number figure.

Specifically, Fig. 2A is the output voltage figure of the friction nanometer power generator for collecting wind energy, and Fig. 2 B are to collect rubbing for wind energy The output current figure of nano generator is wiped, Fig. 2 C are the power diagram of the friction nanometer power generator for collecting wind energy (that is, after loading resistor Curent change and corresponding power).

In Fig. 2A to 2C, the friction nanometer power generator for collecting wind energy of the present invention works under the wind speed of 12m/s.

In the example shown in Fig. 2A to 2C, collecting the vibrating diaphragm size of the friction nanometer power generator of wind energy can be 120mm × 10mm × 0.06mm (corresponds respectively to length and width and thickness), between vibrating diaphragm and upper and lower two the first electrical generation components 1 Gap (distance) 0.8mm can be.When the friction nanometer power generator for collecting wind energy is operated in wind speed 12m/s, output electricity Press as 218V (see Fig. 2A), electric current is 30 μ A (see Fig. 2 B), peak power is 2.21mW, and internal resistance is 5M Ω (see Fig. 2 C).

It will be appreciated by those skilled in the art that what above-mentioned example was merely exemplary, it is not intended to limit the present invention.

The signal of telecommunication of friction nanometer power generator output of the present invention may be used for peripheral circuit and power.For example can be with For capacitor charging.

Fig. 3 is the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention to 10000 μ F capacitors The schematic diagram of charging.

In figure 3, the friction nanometer power generator for collecting wind energy of the present invention works under the wind speed of 12m/s.

In figure 3, when electromotor is in wind speed 12m/s, wipe nano generator respectively by direct rectification charging, transformation- Rectification charging and transformation-management circuit charging modes charge to 10000 μ F capacitors.

From the figure 3, it may be seen that voltage is charged to from 0V when Jing transformations-management circuit charging modes charge to 10000 μ F capacitors It is 161s the time required to being charged to 3.3V to capacitor that 3.3V only needs 98s, Jing transformations-rectification, and is directly filled to electric capacity after rectification Correspondence condenser voltage is only 0.15V during electric 98s.

According to one embodiment of the present invention, with continued reference to Fig. 1, first electrical generation components 1 can also include supporting layer 13, the electrode layer 11 for being provided with the frictional layer 12 is arranged on the supporting layer 13, and the supporting layer 13 is used to support The electrode layer 11 and the frictional layer 12.

It is, that surface that electrode layer 11 is not provided with frictional layer 12 can closely be pasted onto support by bonding method On layer 13.

Wherein, the supporting layer 13 can be strip, and its size can be with first electrical generation components 1 and described second Electrical generation components 2 it is equivalently-sized.

According to one embodiment of the present invention, the material of the electrode layer 11 can be metal.For example, aluminum, zinc and copper etc.. The material of the electrode layer 11 preferably adopts aluminum.

According to one embodiment of the present invention, the frictional layer 12 can be metallic matrix super-hydrophobic layer.Such as aluminum substrate Super-hydrophobic layer.

The metallic matrix super-hydrophobic layer can be etched by, acid solution polished to electrode layer 11 and be, for example, by mass concentration The 1H of 1.2% (wt%), forms after 1H, 2H, 2H- perfluoro decyl trichlorosilane-toluene solution modification on the surface of electrode layer 11, Contact angle is up to 153 °.Wherein, electrode layer 11 both can be as electrode, while and can (metallic matrix is super thin used as frictional layer Water layer) 12 carriers.The metallic matrix super-hydrophobic layer is referred to as the super-hydrophobic electrode of metallic matrix with electrode layer 11 (one side is super-hydrophobic).

Because friction nanometer power generator of the present invention is using the electrode of super hydrophobic material, therefore humidity is to its property in environment Can affect less.And made electromotor can collect the wind energy from different angles, the total space for realizing wind energy is collected.

Fig. 4 A to 4B are that the friction nanometer power generator of the collection wind energy according to one embodiment of the present invention collects different angles The output signal of telecommunication figure of degree wind energy.

Wherein, Fig. 4 A are the output voltage figures that friction nanometer power generator collects different angle wind energies, and Fig. 4 B are friction nanometers Electromotor collects the output current figure of different angle wind energies.From Fig. 4 A to 4B, with electromotor rotation output voltage and Short circuit current is presented periodically variable trend.It is possible thereby to surface friction nanometer power generator of the present invention can be collected come From the air-flow of different directions, the total space for realizing wind energy is collected, and improves the practical application performance of electromotor.

According to one embodiment of the present invention, the material of the vibrating diaphragm can be organic polymer thin-film material.

Wherein, the organic polymer thin-film material can be selected from it is following at least one：Polyamide, polrvinyl chloride, It is polydimethylsiloxane, politef, polyethylene, polyvinylidene chloride, polyacrylonitrile, poly- diphenyl propane carbonic ester, poly- (ethylene naphthalate), polytrifluorochloroethylene, xylol ring disome, acrylonitrile-butadiene-styrene terpolymer and Vinyl chloride-vinyl acetate copolymer.

According to one embodiment of the present invention, the thickness range of the vibrating diaphragm can be 0.02mm to 0.1mm.

According to one embodiment of the present invention, the material of the support fixation elements 3 and the supporting layer 13 can be Acrylic.

For example, the support fixation elements 3 can be acrylic board, and the supporting layer 13 can be thin for acrylic Piece.

According to one embodiment of the present invention, the thickness range of the support fixation elements 3 can be 0.5mm to 1mm, and The thickness range of the supporting layer can be 4mm to 10mm.

Present invention also offers a kind of electricity generation system, including the friction nanometer generating described in multiple above-mentioned embodiments Machine.

Fig. 5 is that the friction nanometer power generator running voltage change of the collection wind energy according to one embodiment of the present invention is illustrated Figure.

Referring to Fig. 5,10000 μ F capacitor voltages first can be charged to by 3.3V by 0V by transformation-management circuit, treat voltage Starting wireless senser after stable 20s makes it start working.Need to consume more because wireless senser starts and wirelessly connect mobile phone Energy, so capacitance voltage drops to 2.3V by 3.3V.After wireless senser start working and after being successfully connected mobile phone voltage by Gradually rise, finally stable to 3.3V, this process takes 69s, afterwards voltage stabilization is in 3.3V and the sustainable work of wireless senser.

The manufacturing process of the friction nanometer power generator of collection wind energy of the present invention is described with reference to example.

Embodiment 1：

Cut lengths for 120mm × 10mm × 0.35mm (corresponding respectively to length and width and thickness) aluminium flake, and it is polished, It is super-hydrophobic aluminum substrate to be formed after chemical etching and the modification of 1H, 1H, 2H, 2H- perfluoro decyl trichlorosilane on a surface of aluminium flake Layer；Cut lengths are the acrylic strip of 120mm × 10mm × 5mm (corresponding respectively to length and width and thickness), and by after modification The side of aluminum substrate super-hydrophobic layer that is formed without of aluminium flake is closely pasted onto on acrylic bar；And the aluminium base formed on aluminium flake Size is closely pasted respectively for 10mm × 10mm × 0.8mm's (corresponding respectively to length and width and thickness) in the two ends of body super-hydrophobic layer Acrylic pad；Then cut lengths are the nylon membrane of 120mm × 10mm × 0.06mm (corresponding respectively to length and width and thickness) (for example, can be polyamide membrane) is fixed in the middle of two aluminium flakes after being stretched as vibrating diaphragm by acrylic pad (for example, with reference to Fig. 1).

When the friction nanometer power generator prepared in above-described embodiment one works in wind speed for 12m/s, output voltage is 218V, electric current is 30 μ A.As shown in Figure 2 A and 2B.

Wherein, 1H, 1H, 2H, 2H- perfluoro decyl trichlorosilane is a kind of organic compound, and it can be with etched aluminum Surface hydroxyl reacts, and by fluorochemical modification on aluminum substrate surface, reduces the surface property of aluminum substrate, collaboration etching Micro nano structure so that surface has super-hydrophobicity.

Embodiment 2：

Cut lengths for 120mm × 10mm × 0.35mm (corresponding respectively to length and width and thickness) aluminium flake, and it is polished, It is super-hydrophobic aluminum substrate to be formed after chemical etching and the modification of 1H, 1H, 2H, 2H- perfluoro decyl trichlorosilane on a surface of aluminium flake Layer；Cut lengths are the acrylic strip of 120mm × 10mm × 5mm (corresponding respectively to length and width and thickness), and by after modification The side of aluminum substrate super-hydrophobic layer that is formed without of aluminium flake is closely pasted onto on acrylic bar；And the aluminium base formed on aluminium flake Size is closely pasted respectively for 10mm × 10mm × 0.8mm's (corresponding respectively to length and width and thickness) in the two ends of body super-hydrophobic layer Acrylic pad；Then cut lengths are the nylon membrane of 120mm × 10mm × 0.04mm (corresponding respectively to length and width and thickness) (for example, can be polyamide membrane) is fixed in the middle of two aluminium flakes after being stretched as vibrating diaphragm by acrylic pad (for example, with reference to Fig. 1).

When the friction nanometer power generator prepared in above-described embodiment two works in wind speed for 12m/s, output voltage is 190V, electric current is 25 μ A.

From above-described embodiment as can be seen that output of the thickness of vibrating diaphragm to friction nanometer power generator has an impact, embodiment The middle vibrating diaphragm for having used two kinds of different-thickness：It is higher using friction nanometer power generator output performance during 0.06mm thick vibrating diaphragms, And friction nanometer power generator performance is relatively low when adopting 0.04mm vibrating diaphragms.This be primarily due to vibrating diaphragm it is relatively thin when, in phase Larger with tensile elongation under pulling force, when electromotor works under certain wind speed, relatively thin film amplitude is relatively low, and electromotor can not have Effect with super-hydrophobic layer friction so that output performance has declined.Therefore, it can be adopted when friction nanometer power generator is manufactured With the vibrating diaphragm of relative thick, to improve the output performance of friction nanometer power generator.

It will be appreciated by those skilled in the art that with regard to material, size, preparation method etc. in above-mentioned embodiment of the invention What description was merely exemplary, it is not intended to limit the present invention.

The preferred embodiment of the present invention is described in detail above in association with accompanying drawing, but, the present invention is not limited to above-mentioned reality The detail in mode is applied, in the range of the technology design of the present invention, various letters can be carried out to technical scheme Monotropic type, these simple variants belong to protection scope of the present invention.

It is further to note that each particular technique feature described in above-mentioned specific embodiment, in not lance In the case of shield, can be combined by any suitable means.In order to avoid unnecessary repetition, the present invention to it is various can The compound mode of energy is no longer separately illustrated.

Additionally, combination in any can also be carried out between a variety of embodiments of the present invention, as long as it is without prejudice to this The thought of invention, it should equally be considered as content disclosed in this invention.

Claims (10)

1. it is a kind of collect wind energy friction nanometer power generator, wherein, the friction nanometer power generator includes：

First electrical generation components；

Second electrical generation components, are arranged corresponding to first electrical generation components, deform upon under wind-force effect and with described first Electrical generation components are contacted or separated, and the friction nanometer power generator produces and export the signal of telecommunication based on the deformation, wherein described the Two electrical generation components are vibrating diaphragm；And

Support fixation elements, the respective two ends in two surfaces of second electrical generation components are fixed by the support fixation elements To first electrical generation components and making to form space between first electrical generation components and second electrical generation components.

2. friction nanometer power generator according to claim 1, wherein, first electrical generation components include electrode layer and setting Frictional layer on the electrode layer, the frictional layer and vibrating diaphragm contact or separation under wind-force effect, and connecing During touching and being detached, franklinic electricity potential difference is produced between the frictional layer and the vibrating diaphragm.

3. friction nanometer power generator according to claim 2, wherein, first electrical generation components also include supporting layer, if The electrode layer for being equipped with the frictional layer is arranged on the supporting layer, and the supporting layer is used to support the electrode layer and institute State frictional layer.

4. the friction nanometer power generator according to Claims 2 or 3, wherein, the material of the electrode layer is metal.

5. the friction nanometer power generator according to any one of claim 2-4, wherein, the frictional layer is super for metallic matrix Hydrophobic layer.

6. the friction nanometer power generator according to any one of claim 1-5, wherein, the material of the vibrating diaphragm is organic High molecular film material, at least one of the organic polymer thin-film material in following：It is polyamide, polrvinyl chloride, poly- Dimethyl siloxane, politef, polyethylene, polyvinylidene chloride, polyacrylonitrile, poly- diphenyl propane carbonic ester, poly- naphthalene Naphthalate, polytrifluorochloroethylene, xylol ring disome, acrylonitrile-butadiene-styrene terpolymer and chlorine Ethylene-vinyl acetate copolymer.

7. the friction nanometer power generator according to any one of claim 1-6, wherein, the thickness range of the vibrating diaphragm is 0.02mm to 0.1mm.

8. friction nanometer power generator according to claim 3, wherein, the material of the support fixation elements and the supporting layer Material is acrylic.

9. friction nanometer power generator according to claim 8, wherein, the thickness range of the support fixation elements is 0.5mm to 1mm, and the thickness range of the supporting layer is 4mm to 10mm.

10. a kind of electricity generation system, wherein, including the friction nanometer power generator any one of multiple claim 1-9.