CN205596377U - Automobile -used antifog door window of riding instead of walk old age - Google Patents

Abstract

Automobile -used antifog door window of riding instead of walk old age is energy absorption layer, glass layer, gluing agent layer, conductive resin layer to the car in in proper order, dredges water film layer outside the car, the energy absorption layer is linked together through first electrical wiring with solar cell, the conductive resin layer is linked together through the second electrical wiring with on -vehicle circuit or solar cell, contains single -control simply connected switch on the first electrical wiring, contain two accuse simply connected switches on the second electrical wiring, two accuse simply connected switches intercommunication conductive resin layer and on -vehicle circuit, or intercommunication conductive resin layer and solar cell.

Description

Mobility scooter for old people antifogging vehicle window

Technical field

This utility model relates to a kind of antifogging vehicle window, particularly to mobility scooter for old people antifogging vehicle window.

Background technology

Mobility scooter for old people, is again electrombile for old people, bicycle for old people, old vehicle using motor, is the trip of old people open air, the preferable vehicle ridden instead of walk.Its performance is the most stable, speed is slower, use electric power without refueling, therefore also known as environmental protection bicycle for old people, the energy that electrombile for old people is used has a lot, mainly has lead-acid battery (leaded acid colloids battery), Ni-MH battery, nickel-cadmium cell, nickel iron cell, lithium ion battery (often referred to as lithium battery), fuel cell etc..Chemical energy is directly converted into electric energy by electrochemical means by battery.It, without heat engine process, is not limited by Carnot cycle, and energy conversion efficiency is high (40-60%), is nearly free from NO_xAnd SO_xDischarge.

Although the travel speed of mobility scooter for old people is relatively slow, but owing to driver is older, vision is good not as young driver, and the harm that the fog that windshield surface produces causes is bigger.Typically now removing the method for water smoke for use rag wiping, such behavior potential safety hazard for mobility scooter for old people is bigger.

Utility model content

In order to solve prior art problem, this utility model provides a kind of mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer from car, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

As a kind of embodiment of the present utility model, described energy-absorbing layer is selected from interference filter type coating, body absorption-type coating, convex-concave surface type coating, metal-dielectric composite coating.

As a kind of embodiment of the present utility model, the material of described glassy layer is safety glass.

As a kind of embodiment of the present utility model, described adhesive layer contains epoxy adhesive or organosilicon adhesive.

As a kind of embodiment of the present utility model, the material of described conductive resin layer is selected from polyacetylene, polypyrrole, polythiophene, gathers the one in styrene, polyaniline, polypyridine, polyphenylene sulfide, poly-3,4-ethylene dioxythiophene or poly styrene sulfonate.

As a kind of embodiment of the present utility model, the material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint or water solublity Al₂O₃Nano paint.

As a kind of embodiment of the present utility model, described solaode one in silicon system solaode, multi-element compounds thin-film solar cells, polymer multi-layer modified electrode type battery, nanocrystalline chemistry solaode.

As a kind of embodiment of the present utility model, described silicon system solaode includes, monocrystaline silicon solar cell, multi-crystal silicon film solar battery, amorphous silicon thin-film solar cell.

As a kind of embodiment of the present utility model, the material of described multi-element compounds thin-film solar cells one in GaAs, cadmium telluride, CIS.

As a kind of embodiment of the present utility model, described nanocrystalline chemistry solaode is obtained by sol-gal process or hydro-thermal reaction sputtering method.

The beneficial effects of the utility model are: energy-absorbing layer contains the material that can absorb solar energy, convert solar energy into electric energy and are stored in solaode by single control single connection plane switch.Conductive resin layer can obtain energy by dual control single connection plane switch from solaode, is heated up, and removes the fog on vehicle window；When solar energy reserves deficiency, conductive resin layer also can connect vehicle electronic circuit by dual control single connection plane switch, removes fog after intensification.The effect of adhesive layer is not only and is prevented glass for vehicle window from pulverizing a large amount of glass disintegrating slags of generation, also conductive resin layer can be bonded in windshield surface.The effect of hydrophobic membrane is to prevent fog from condensing at vehicle window inner surface, it is ensured that potential safety hazard be preferably minimized.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

The structural representation of the mobility scooter for old people antifogging vehicle window that Fig. 1 provides for this utility model.

In figure, each labelling is as follows, energy-absorbing layer 1, glassy layer 2, adhesive layer 3, conductive resin layer 4, hydrophobic film layer 5, solaode the 6, first electrical wiring 7, vehicle electronic circuit the 8, second electrical wiring 9, single control single connection plane switch 10, dual control single connection plane switch 11.

Detailed description of the invention

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer 1 from car, glassy layer 2, adhesive layer 3, conductive resin layer 4, hydrophobic film layer 5, described energy-absorbing layer is connected by the first electrical wiring 7 with solaode 6, described conductive resin layer is connected by the second electrical wiring 9 with vehicle electronic circuit 8 or solaode, containing single control single connection plane switch 10 on described first electrical wiring, containing dual control single connection plane switch 11 on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

As a kind of embodiment of the present utility model, described energy-absorbing layer is selected from interference filter type coating, body absorption-type coating, convex-concave surface type coating, metal-dielectric composite coating.

Interference filter type coating is the coat system utilizing principle of interference to prepare, and can be widely applied to the reflectance of coating, transmitance and absorbance are modified or controlled.The spectral characteristic on coating top layer is determined by interfering between reflecting and project on hierarchy interface.Coating is formed plural layers system by medium and metal, and solar radiation is absorbed by multiple reflections mode in film system, and long wave is then reflected.

Body absorption-type coating be a kind of absorption region be the semiconductive thin film of 1-3 m, show the highest reflection characteristic at the infrared band more than 3 m.The distinctive internal electronic architecture of semi-conducting material determines that it suitably does selective coating.Semi-conducting material has specific band gap E_g, wavelength is not enough to excite the electronics of inside to play migration more than the photon absorbing limit, the reflectance of substrate can be made to reach the highest.Wavelength is less than the photonexcited electron absorbing limit so that it is by valence band to conduction band, thus absorb solar energy.

Pore type rough surface or little particle surface in convex-concave surface type coating have different effect for long-wave radiation and shortwave radiation, and for shortwave radiation, it is rough surface, can be fully absorbed, and for long-wave radiation, it is mirrored, and reflectance is the highest.When micropore surface roughness is compared the biggest with solar radiation wavelength, due to the reflection of surface micropore, the absorbability to sunlight can be improved.When surface roughness is the least compared with heat wave length, its thermal-radiating ability reduces.Also being such for little particle surface, the wavelength that granular layer its granule of energy absorptance is little, is then transparent to longer wavelength, i.e. transmitance is high, and radiance is low.

Metal one electrolyte composite coating is generally metallic particles and the complex of pottery (electrolyte) of high-selenium corn, i.e. contains the composite coating of fine metal particles in dielectric base body.Due to band-to-band transition and the interparticle use of metallic particles, make composite coating have the highest absorbance in solar radiation district, and there is in ultrared the highest transparency.This composite membrane is generally deposited to be had on fine reflexive metal (A1, Cu, Fe etc.) matrix to ultrared, to obtain best light absorption selectivity.This type coating has considerable flexibility, can obtain best selective absorbability by selecting suitable parameter (such as coating layer thickness, particle concentration, shape, size, orientation etc.).Conventional electrolyte is Al₂O₃, porous Al₂O₃And carbide, conventional metal has Ni, Cr, Co, Mo, Ag, W etc..

As a kind of embodiment of the present utility model, the material of described glassy layer is safety glass.

Safety glass belongs to safety glass.Safety glass is a kind of prestressed glass in fact, for improving the intensity of glass, generally uses method chemically or physically, form compressive stress at glass surface, first offset skin stress when glass bears external force, thus improve bearing capacity, reinforcing glass self anti-wind pressure, cold and summer-heat, impact etc..Safety glass is to be first cut into requiring size by common annealing glass, it is then heated to about 700 degree close to softening point, cool down the most rapidly and uniformly and obtain that (glass of usual 5-6mm heats about 240 seconds under 700 degree of high temperature, lowers the temperature about 150 seconds.8-10mm glass heats about 500 seconds under 700 degree of high temperature, lowers the temperature about 300 seconds.In a word, different according to thickness of glass, the time selecting heating cooling is also different).After tempering processes, glass surface forms uniform compressive stress, and inside then forms tensile stress, makes the bending resistance of glass and impact strength be improved, and its intensity is approximately more than four times of common annealing glass.

As a kind of embodiment of the present utility model, described adhesive layer contains epoxy adhesive or organosilicon adhesive.

Epoxy adhesive contains various polarity group and the biggest active epoxy radicals, thus with the various polarity materials such as metal, glass, cement, timber, plastics, the material that especially surface activity is high has the strongest bonding force, the cohesive strength of curable epoxide thing is the biggest simultaneously, so its glue-joint strength is the highest.

Substantially free of the life of low molecular weight volatile produce during epoxy adhesive solidification.The cubical contraction of glue-line is little, about 1%-2%, is one of kind of cure shrinkage minimum in thermosetting resin.Less than 0.2% can be dropped to after adding filler.The linear expansion coefficient of curable epoxide thing is the least.Therefore internal stress is little, little on glue-joint strength impact.In addition the creep of curable epoxide thing is little, so the good stability of the dimension of glue-line.

Epoxy adhesive and gas chromatography (monomer, resin, rubber) and inorganic matter (such as filler etc.) have the good compatibility and reactivity, it is easy to carry out copolymerization, cross-link, be blended, the modification such as filling, to improve the performance of glue-line.

Organosilicon adhesive can be divided into organic siliconresin adhesive and the big class of organic silicon rubber adhesive two by molecular structure.Condensed type and add-on type, aggretion type three class can be divided into by curing mode.Hot setting, low-temperature setting and cold curing three class can be divided into again by solidification temperature.There is the characteristics such as excellent high and low temperature resistance, water-fast, corrosion-resistant, resistance to atmospheric aging, can mixing with silicon resin solution or silicone rubber, filler, cross-linking agent, catalyst and other additives etc. form.It is applicable to the bonding and sealing of metal, pottery, glass, plastic components.

As a kind of embodiment of the present utility model, the material of described conductive resin layer is selected from polyacetylene, polypyrrole, polythiophene, gathers the one in styrene, polyaniline, polypyridine, polyphenylene sulfide, poly-3,4-ethylene dioxythiophene or poly styrene sulfonate.

As a kind of embodiment of the present utility model, the material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint or water solublity Al₂O₃Nano paint.

Water solublity TiO₂Nano paint or water solublity Al₂O₃Nano paint, this nano paint can be directly coated with, one layer of nano-sized hydrophobic thin film of dried formation, it is attached to transparent flexible Inorganic material carrier film surface, make it possess the several functions such as waterproof and dustproof, fungi-proofing, heat-resisting, acid and alkali-resistance and uvioresistant, also make the solar light reflecting mirror outer surface being positioned at outdoor have self-cleaning function, easily washing or compressed air purging, it is difficult to binding dust, so that it is guaranteed that its high reflectance to sunlight.

As a kind of embodiment of the present utility model, described solaode one in silicon system solaode, multi-element compounds thin-film solar cells, polymer multi-layer modified electrode type battery, nanocrystalline chemistry solaode.

As a kind of embodiment of the present utility model, described silicon system solaode includes, monocrystaline silicon solar cell, multi-crystal silicon film solar battery, amorphous silicon thin-film solar cell.

As a kind of embodiment of the present utility model, the material of described multi-element compounds thin-film solar cells one in GaAs, cadmium telluride, CIS.

As a kind of embodiment of the present utility model, described nanocrystalline chemistry solaode is obtained by sol-gal process or hydro-thermal reaction sputtering method.

When silicon system solaode is monocrystal silicon, solar energy monocell efficiency is 15-24%, and solar module efficiency is 13-20%, main preparation methods is surface structuration launch site passivation subregion doping, advantage is that efficiency is the highest, technology maturation, and shortcoming is that the loaded down with trivial details cost of technique is high.

When silicon system solaode is polysilicon, solar energy monocell efficiency is 10-17%, solar module efficiency 10-15%, main preparation methods is chemical vapour deposition technique, liquid phase epitaxial method, sputtering method, advantage is inefficiency decline problem, cost is far below monocrystal silicon, and shortcoming is that efficiency is less than monocrystal silicon.

When silicon system solaode is non-crystalline silicon, solar energy monocell efficiency is 8-13%, solar module efficiency 5-10%, main preparation methods is reactive sputtering, PECVD, LPCVD method, advantage is that cost is relatively low, and conversion efficiency is higher, and shortcoming is that stability is the highest.

When the material of multi-element compounds thin-film solar cells is GaAs, monocell efficiency is 19-32%, and module efficiency is 23-30%；When material is cadmium telluride, monocell efficiency is 10-15%, and module efficiency is 7-10%.When the material of multi-element compounds thin-film solar cells is GaAs or cadmium telluride, main preparation methods is MOVPE and LPE technology, and advantage is that efficiency is higher, and cost is low compared with for monocrystal silicon, it is easy to large-scale production, and shortcoming is that raw material cadmium has severe toxicity.

When the material of multi-element compounds thin-film solar cells is CIS, monocell efficiency is 10-12%, and module efficiency is 8-10%, main preparation methods is vacuum vapour deposition and selenizing method, and advantage is cheap, functional, technique is simple, and shortcoming is that raw material sources ratio is relatively limited.

The monocell efficiency of nanocrystalline chemistry solaode is 8-11%, module efficiency about 8%, main preparation methods sol-gal process or hydro-thermal reaction sputtering method, and advantage is with low cost, and technique is simple and stable performance.

The monocell efficiency of polymer multi-layer modified electrode type battery is 3-5%, central also in research and development at present, and advantage is easily to make, and material is extensive, and cost is relatively low, and shortcoming is that the life-span is short.

Embodiment 1

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from interference filter type coating；The material of described glassy layer is safety glass；Described adhesive layer contains epoxy adhesive；The material of described conductive resin layer is selected from polyacetylene；The material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Embodiment 2

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from body absorption-type coating；The material of described glassy layer is safety glass；Described adhesive layer contains organosilicon adhesive；The material of described conductive resin layer is selected from polypyrrole；The material of described hydrophobic film layer is selected from water solublity Al₂O₃Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Embodiment 3

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from convex-concave surface type coating；The material of described glassy layer is safety glass；Described adhesive layer contains epoxy adhesive；The material of described conductive resin layer is selected from gathering styrene；The material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Embodiment 4

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from metal-dielectric composite coating；The material of described glassy layer is safety glass；Described adhesive layer contains organosilicon adhesive；The material of described conductive resin layer is selected from polyaniline；The material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Embodiment 5

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from interference filter type coating；The material of described glassy layer is safety glass；Described adhesive layer contains organosilicon adhesive；The material of described conductive resin layer is selected from polyphenylene sulfide；The material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Embodiment 6

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from interference filter type coating；The material of described glassy layer is safety glass；Described adhesive layer contains epoxy adhesive；The material of described conductive resin layer is selected from poly styrene sulfonate；The material of described hydrophobic film layer is selected from water solublity Al₂O₃Nano paint；Described solaode is selected from multi-crystal silicon film solar battery.

Embodiment 7

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from interference filter type coating；The material of described glassy layer is safety glass；Described adhesive layer contains epoxy adhesive；The material of described conductive resin layer is selected from poly-3,4-ethylene dioxythiophene；The material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint；Described solaode is selected from amorphous silicon thin-film solar cell.

Embodiment 8

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from interference filter type coating；The material of described glassy layer is safety glass；Described adhesive layer contains epoxy adhesive；The material of described conductive resin layer is selected from polypyridine；The material of described hydrophobic film layer is selected from water solublity Al₂O₃Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Embodiment 9

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from body absorption-type coating；The material of described glassy layer is safety glass；Described adhesive layer contains organosilicon adhesive；The material of described conductive resin layer is selected from polypyrrole；The material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Embodiment 10

Mobility scooter for old people antifogging vehicle window, in car, it is followed successively by energy-absorbing layer, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer from car, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

Described energy-absorbing layer is selected from convex-concave surface type coating；The material of described glassy layer is safety glass；Described adhesive layer sticks agent containing organic silica gel；The material of described conductive resin layer is selected from polyaniline；The material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint；Described solaode is selected from monocrystaline silicon solar cell.

Claims (10)

1. mobility scooter for old people antifogging vehicle window, it is characterized in that, in car, it is followed successively by energy-absorbing layer from car, glassy layer, adhesive layer, conductive resin layer, hydrophobic film layer, described energy-absorbing layer is connected by the first electrical wiring with solaode, described conductive resin layer is connected by the second electrical wiring with vehicle electronic circuit or solaode, containing single control single connection plane switch on described first electrical wiring, containing dual control single connection plane switch on described second electrical wiring, described dual control single connection plane switch connection conductive resin layer and vehicle electronic circuit, or connect conductive resin layer and solaode.

2. mobility scooter for old people antifogging vehicle window as claimed in claim 1, it is characterised in that described energy-absorbing layer is selected from interference filter type coating, body absorption-type coating, convex-concave surface type coating, metal-dielectric composite coating.

3. mobility scooter for old people antifogging vehicle window as claimed in claim 1, it is characterised in that the material of described glassy layer is safety glass.

4. mobility scooter for old people antifogging vehicle window as claimed in claim 1, it is characterised in that described adhesive layer contains epoxy adhesive or organosilicon adhesive.

5. mobility scooter for old people antifogging vehicle window as claimed in claim 1, it is characterized in that, the material of described conductive resin layer is selected from polyacetylene, polypyrrole, polythiophene, gathers the one in styrene, polyaniline, polypyridine, polyphenylene sulfide, poly-3,4-ethylene dioxythiophene or poly styrene sulfonate.

6. mobility scooter for old people antifogging vehicle window as claimed in claim 1, it is characterised in that the material of described hydrophobic film layer is selected from water solublity TiO₂Nano paint or water solublity Al₂O₃Nano paint.

7. mobility scooter for old people antifogging vehicle window as claimed in claim 1, it is characterized in that, described solaode one in silicon system solaode, multi-element compounds thin-film solar cells, polymer multi-layer modified electrode type battery, nanocrystalline chemistry solaode.

8. mobility scooter for old people antifogging vehicle window as claimed in claim 7, it is characterised in that described silicon system solaode includes, monocrystaline silicon solar cell, multi-crystal silicon film solar battery, amorphous silicon thin-film solar cell.

9. mobility scooter for old people antifogging vehicle window as claimed in claim 7, it is characterised in that the material of described multi-element compounds thin-film solar cells one in GaAs, cadmium telluride, CIS.

10. Mobility scooter for old people antifogging vehicle window as claimed in claim 7, it is characterised in that described nanocrystalline chemistry solaode is obtained by sol-gal process or hydro-thermal reaction sputtering method.