CN106252086A - A kind of solar energy electric component box - Google Patents

Abstract

The application relates to a kind of solar energy electric component box, and described casing is arranged over ceiling, and described ceiling is solar panel, and described body side is provided with heat dissipation tank, is provided with electric motor fan inside described heat dissipation tank, and described casing is provided with observation window.

Description

A kind of solar energy electric component box

Technical field

The application relates to electrical equipment, particularly relates to a kind of solar energy electric component box.

Background technology

Outdoor electric equipment box is mainly used in outdoor optical cable and the connection of all kinds of cable, distribution etc., be mostly installed on community, Roadside.Owing to box house exists, substantial amounts of electrical equipment external temperature in addition is too high, it is obstructed to dispel the heat, can be to electric in casing Equipment is properly functioning to be impacted.

The resource of present stage solar energy is the abundantest, and the most universal, it is affected less by season, landform, and solar energy Use cleaning, the generation of greenhouse gases and toxic gas etc. can be significantly reduced.Along with the development of sophisticated technologies today, the sun The research of energy technology is just processing the flourish stage, and solar battery technology is the most effective mode nowadays utilizing solar energy.

Summary of the invention

For overcoming problem present in correlation technique, the application provides a kind of solar energy electric component box.

The application is achieved through the following technical solutions:

A kind of solar energy electric component box, including casing, it is characterised in that described casing is arranged over ceiling, described top Canopy is solar panel, and described body side is provided with heat dissipation tank, is provided with electric motor fan, on described casing inside described heat dissipation tank It is provided with observation window.

The technical scheme that embodiments herein provides can include following beneficial effect:

1., in the electric component box of the application, dye-sensitized solar cells uses carbon nanomaterial leading as light anode Electric layer, one layer of bulky grain TiO2 of its surface screen-printed；Carbon nanomaterial uses simple spin-coating method and flame method to prepare, its In, use sodium lauryl sulphate (K12) as pore creating material, prepared carbon nanomaterial contains CNT and carbon nanometer simultaneously Fiber, it has layering loose structure, and resistance value is relatively low, and the layering loose structure of carbon nanomaterial has big surface area, profit In improving the uniformity of bulky grain TiO2, dispersibility, it is possible to further more adsorpting dye molecule, divide from improving dyestuff The density aspect of son is conducive to improving the photoelectric transformation efficiency of sunlight.

2. in the electric component box that the application relates to, dye-sensitized solar cells to electrode in terms of, simultaneously use with Carbon nanomaterial that light anode is identical and W metal are as the Catalytic Layer to electrode, and carbon nanomaterial has the porous knot of layering Structure, W metal can well be dispersed therein, and substantially increases the catalytic efficiency to electrolyte reduction reaction；And to electricity One layer of Cr film of magnetron sputtering between pole Ti substrate and carbon nanomaterial；Carbon nanomaterial owing to having the loose structure of layering, its Be conducive to the raising to electrolyte reduction reaction catalytic efficiency；Additionally, increase by one layer between electrode basement and carbon nanomaterial Cr film, it is as transition zone, adds the absorption viscosity of carbon nanomaterial and Ti substrate, forms two ohms in interface simultaneously Contact, adds the electric conductivity to electrode.

Aspect and advantage that the application adds will part be given in the following description, and part will become from the following description Obtain substantially, or recognized by the practice of the application.It should be appreciated that above general description and details hereinafter only describe It is exemplary and explanatory, the application can not be limited.

Accompanying drawing explanation

Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meet the enforcement of the present invention Example, and for explaining the principle of the present invention together with description.

Fig. 1 is the structural representation of the electric component box of the present invention.

Fig. 2 is the dye-sensitized solar cells Making programme figure in electric component box of the present invention.

Wherein, 1-casing, 2-ceiling, 3-heat dissipation tank, 4-observation window.

Detailed description of the invention

Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.Explained below relates to During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the present invention.On the contrary, they are only with the most appended The example of the apparatus and method that some aspects that described in detail in claims, the present invention are consistent.

Following disclosure provides many different embodiments or example for realizing the different structure of the application.For letter Changing disclosure herein, hereinafter parts and setting to specific examples are described.Certainly, they are the most merely illustrative, and It is not intended to limit the application.Additionally, the application can in different examples repeat reference numerals and/or letter.This heavy It is for purposes of simplicity and clarity again, itself is more than the relation between various embodiment being discussed and/or arranging.This Outward, the various specific technique that this application provides and the example of material, but those of ordinary skill in the art it can be appreciated that The applicability of other techniques and/or the use of other materials.It addition, fisrt feature described below Second Eigenvalue " on " Structure can include that the first and second features are formed as the embodiment directly contacted, it is also possible to include that other feature is formed at Embodiment between first and second features, such first and second features are not likely to be directly contact.

In the description of the present application, it should be noted that unless otherwise prescribed and limit, term " is installed ", " being connected ", " connect " and should be interpreted broadly, for example, it may be mechanically connected or electrical connection, it is also possible to be the connection of two element internals, can Being to be joined directly together, it is also possible to be indirectly connected to by intermediary, for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term.

It is known that traditional energy includes various fossil energy, such as coal, oil, natural gas etc., traditional energy is in short-term In do not possess recyclability, along with lasting exploitation, its reserves gradually decrease；On the other hand, the refinement of traditional energy Process typically can produce noxious substance, greenhouse gases etc., thus destroys ecological environment, causes environmental pollution, and nowadays ecology is asked Topic and extreme climate, use the mode of traditional energy to beat alarm bell to the mankind.Therefore, actively find, developing can Substitute new forms of energy become in the urgent need to.

Now, study more new forms of energy and include water energy, wind energy, nuclear energy, tide energy, biomass energy and solar energy.This its In, the resource of solar energy is the abundantest, and the most universal, it is affected less by season, landform, and solar energy uses cleaning, can To be significantly reduced the generation of greenhouse gases and toxic gas etc..Along with the development of sophisticated technologies today, grinding of heliotechnics Studying carefully and just process the flourish stage, solar battery technology is the most effective mode nowadays utilizing solar energy.Solaode Experienced by general three developmental stage: silicon solar cell, thin-film solar cells and DSSC.The silicon sun Energy battery is the most most widely used general, and its conversion efficiency is high, stable performance, but refines HIGH-PURITY SILICON and need to consume mass energy；Thin It is higher that the manufacturing cost of film solar cell compares traditional energy price, how toxic prepares raw material, and production process can produce sternly The environmental pollution of weight, limits it and applies on a large scale.

Dye-sensitized solar cells (DSSC) is generally sandwich structure, including light anode, to electrode and electrolyte.Light sun Pole is usually and is made up of electrically conducting transparent substrate and the nano thin-film being positioned in conductive substrates, and conductive substrates is generally ITO, FTO etc. Electro-conductive glass, nano thin-film surface adsorption has dye molecule, dye molecule Main Function to be the energy absorbing photon, produces electricity Son；Typically being made up of electrode conductive substrates and the catalysis material being positioned at its surface, identical with light anode, conductive substrates is generally The electro-conductive glass such as ITO, FTO or other conductive material, catalysis material is generally noble metal platinum, and catalysis material is used for going back original electrolyte Middle oxidation-reduction pair, it is ensured that the circulation of dye cell can be smoothed out；Electrolyte generally contains the liquid of oxidation-reduction pair Body, be wherein typical for iodine negative/iodine three anion, by oxidized be reduced participation cyclic process.

At present, the research to dye-sensitized solar cells is concentrated mainly on optimization selection and the structure of each several part material Design aspect, such as, light anode research aspect, scattering layer can be introduced, increase the dyestuff absorption region to spectrum, electrode is ground Study carefully aspect, have the improvement etc. of the replacement of Catalytic Layer material, electrode structure.Traditional DSSC uses expensive gold to electrode Genus platinum is catalysis material, and due to Cost Problems, it is unfavorable for large-scale application；It addition, light anode construction is to DSSC opto-electronic conversion Efficiency has a great impact, and the structure of autotelic change nano material is that a kind of DSSC photoelectricity that improves turns Change the effective means of efficiency.

Dye-sensitized solar cells involved by electric component box in the present invention, in existing dye-sensitized solar cells The problem existed, design is prepared for a kind of dye-sensitized solar cells with novel electrode structure, uses carbon nanomaterial to make For the bearing bed of light anode dye molecule, simultaneously as the Catalytic Layer to electrode, its carbon nanomaterial preparation process is simple, preparation The photoelectric transformation efficiency of dye-sensitized solar cells high, solar cell good operating stability.

Embodiment one:

By Fig. 1, embodiments herein relates to a kind of solar energy electric component box, including casing 1, it is characterised in that institute Stating casing and be arranged over ceiling 2, described body side is provided with heat dissipation tank 3, and described heat dissipation tank 3 is internal is provided with electric motor fan, described Casing 1 is provided with observation window 4.

Preferably, described casing side is provided with door, and described door is provided with lock body.

Preferably, described ceiling 2 is solar panel.

Preferably, described solar panel is connected with storage battery, and described accumulator is located at described box house.

Preferably, described solar panel is dye-sensitized solar cells, and described dye-sensitized solar cells is by light sun Pole, electrolyte and to electrode constitute；Described smooth anode be followed successively by from outside to inside ITO substrate, carbon nanomaterial, bulky grain TiO2, Dye molecule；Described Ti substrate, Cu thin film, carbon nanomaterial, Ni thin film that electrode is followed successively by from outside to inside, described smooth anode with Described is 100 μm to electrode spacing；Described Ni thickness is 20nm.

Preferably, Fig. 2 shows described dye-sensitized solar cells Making programme figure, and its concrete preparation process is as follows:

S1, makes electrode:

A) clean, process Ti substrate:

Use Ti as the substrate to electrode, choose the Ti sheet of suitable size (such as 5cm × 5cm), after cleaning, then use sand Paper is polished, and the mesh number of sand paper is incremented by, the sand papering 20min of every kind of mesh number so that Ti substrate surface removes obvious impurity, and And there is camber, and utilize magnetron sputtering method to be deposited with layer of metal Cu thin film on its surface, thickness is 300nm, then, by Ti base The end, is put into hydrochloric acid solution and soaks 30min, distinguishes ultrasonic cleaning 20min with acetone, ethanol and deionized water, subsequently by Ti substrate certainly So dry；

B) Ti substrate surface growth carbon nanomaterial:

At 80 DEG C, preparation NiSO4 solution and sodium lauryl sulphate (K12) solution, concentration is respectively 21%～42% He 18%～35% (mass fraction), respectively takes 200ml, under magnetic stirring mix homogeneously, utilizes sol evenning machine to be spun on a The Ti substrate surface that step obtains, after being dried 2h, places it in flame surface and processes 20min, i.e. form carbon at Ti substrate surface and receive Rice material；

C) catalyst n i thin film is made

Taking Ti substrate obtained above, put in magnetic control sputtering device, be deposited with layer of Ni thin film, wherein, base vacuum is 1.5 × 10-3pa, obtains electrode；

S2, making light anode:

A) clean, process ITO substrate:

Light anode substrate uses ito glass, chooses and the ITO substrate to electrode Ti substrate same size, according to step one In, use sand papering ITO substrate, then with acetone, ethanol and deionized water ultrasonic cleaning 20min respectively, subsequently by ITO substrate Naturally dry；

B) ITO substrate superficial growth carbon nanomaterial:

Same procedure in using step one b), at ITO substrate superficial growth carbon nanomaterial,

C) silk screen printing bulky grain TiO2:

Take bulky grain (500nm) TiO2 nano-particle and the 5ml glacial acetic acid mix homogeneously of 18g, be then added dropwise over from Sub-water and ethanol grind, and milling time is 4h, by adding terpineol in ground mixed solution, carry out in supersonic cleaning machine Ultrasonic disperse, is placed in solution in Rotary Evaporators subsequently and is steamed by unnecessary dehydrated alcohol, then continued by remaining slurry Grind 3h, i.e. obtain bulky grain TiO2 slurry；Utilize the method for silk screen printing by prepared bulky grain TiO2 slurry for rotary coating in life Long have in the ITO substrate of carbon nanomaterial, and bulky grain TiO2 slurry thickness is 2500nm, then ITO substrate is put into Muffle furnace In 400 DEG C calcining 30min

D) absorbing dye:

The mixed solution (volume ratio 1:1) taking N719 and the tert-butyl alcohol and acetonitrile is configured to the dye solution of 0.6mM, will calcining After ITO substrate put in dye solution, through 28h dyestuff soak after take out, rinse 2min with acetonitrile, dry, obtain light Anode；

S3, filling electrolyte solution and encapsulation:

The light anode of absorbing dye is staggered relatively with to electrode, be encapsulated together with sarin resin, light anode with Being 100 μm to thickness between electrode, the most backward gap therebetween perfusion electrolyte, electrolyte solution is the iodine of 0.06M, 1.2M's 1-methyl-3 propyl imidazole iodine, the guanidine thiocyanate of 0.7M, the acetonitrile solution of the tert .-butylpyridine of 0.6M, closure electricity after fill Solve matter perfusing hole, complete the preparation of dye-sensitized solar cells.

Preferably, the dye-sensitized solar cells in electric component box of the present invention all have employed phase to electrode with light anode Same carbon nanomaterial.The bottom of carbon nanomaterial is relatively compact even in hardening close to base part, presents compacted zone, top Point, it being separated from each other, present porous layer, compacted zone and porous layer thickness ratio are 1:3.This dye-sensitized solar cells is carried out light Photoelectric transformation efficiency is measured, and simulated solar irradiation is formed by simulated solar photogenerator, and light intensity is 100mWcm-2, and spectrum meets AM1.5 standard, arriving of test, the open-circuit voltage of this dye-sensitized solar cells is 0.72 ± 0.05V, and short-circuit current density is 9.6 ± 0.1mAcm-2, conversion efficiency is 12.4%.

In the electric component box of the present invention, the carbon that dye-sensitized solar cells uses manufacturing process simple, with low cost is received Rice material is as to the Catalytic Layer of electrode and the conductive layer of light anode, and this carbon nanomaterial has compacted zone and the porous of uniqueness Layer, is applied to electrode, and its loose structure is conducive to the catalysis of electrolyte reduction reaction, and it forms ohm with transition zone Cr Contact, has relatively low resistance, is applied to light anode, and it considerably increases the dispersibility of bulky grain TiO2, uniformity, further Improve the adsorption rate of dyestuff, use the dye-sensitized solar cells of this electrode structure to show higher sunlight conversion effect Rate.

The electric component box of the present invention is capable of the efficient utilization of sunlight, and this repeatability, has good stability, light Photoelectric transformation efficiency is high, possesses the biggest market application foreground.

Embodiment two:

By Fig. 1, embodiments herein relates to a kind of solar energy electric component box, including casing 1, it is characterised in that institute Stating casing and be arranged over ceiling 2, described body side is provided with heat dissipation tank 3, and described heat dissipation tank 3 is internal is provided with electric motor fan, described Casing 1 is provided with observation window 4.

Preferably, described casing side is provided with door, and described door is provided with lock body.

Preferably, described ceiling 2 is solar panel.

Preferably, described solar panel is connected with storage battery, and described accumulator is located at described box house.

Preferably, described solar panel is dye-sensitized solar cells, and described dye-sensitized solar cells is by light sun Pole, electrolyte and to electrode constitute；Described smooth anode be followed successively by from outside to inside ITO substrate, carbon nanomaterial, bulky grain TiO2, Dye molecule；Described Ti substrate, Cu thin film, carbon nanomaterial, Ni thin film that electrode is followed successively by from outside to inside, described smooth anode with Described is 100 μm to electrode spacing；Described Ni thickness is 20nm.

Preferably, Fig. 2 shows described dye-sensitized solar cells Making programme figure, and its concrete preparation process is as follows:

S1, makes electrode:

A) clean, process Ti substrate:

Use Ti as the substrate to electrode, choose the Ti sheet of suitable size (such as 5cm × 5cm), after cleaning, then use sand Paper is polished, and the mesh number of sand paper is incremented by, the sand papering 20min of every kind of mesh number so that Ti substrate surface removes obvious impurity, and And there is camber, and utilize magnetron sputtering method to be deposited with layer of metal Cu thin film on its surface, thickness is 300nm, then, by Ti base The end, is put into hydrochloric acid solution and soaks 30min, distinguishes ultrasonic cleaning 20min with acetone, ethanol and deionized water, subsequently by Ti substrate certainly So dry；

B) Ti substrate surface growth carbon nanomaterial:

At 80 DEG C, preparation NiSO4 solution and sodium lauryl sulphate (K12) solution, concentration is respectively 21%～42% He 18%～35% (mass fraction), respectively takes 200ml, under magnetic stirring mix homogeneously, utilizes sol evenning machine to be spun on a The Ti substrate surface that step obtains, after being dried 2h, places it in flame surface and processes 20min, i.e. form carbon at Ti substrate surface and receive Rice material；

C) catalyst n i thin film is made

Taking Ti substrate obtained above, put in magnetic control sputtering device, be deposited with layer of Ni thin film, wherein, base vacuum is 1.5 × 10-3pa, obtains electrode；

S2, making light anode:

A) clean, process ITO substrate:

Light anode substrate uses ito glass, chooses and the ITO substrate to electrode Ti substrate same size, according to step one In, use sand papering ITO substrate, then with acetone, ethanol and deionized water ultrasonic cleaning 20min respectively, subsequently by ITO substrate Naturally dry；

B) ITO substrate superficial growth carbon nanomaterial:

Same procedure in using step one b), at ITO substrate superficial growth carbon nanomaterial,

C) silk screen printing bulky grain TiO2:

Take bulky grain (500nm) TiO2 nano-particle and the 5ml glacial acetic acid mix homogeneously of 18g, be then added dropwise over from Sub-water and ethanol grind, and milling time is 4h, by adding terpineol in ground mixed solution, carry out in supersonic cleaning machine Ultrasonic disperse, is placed in solution in Rotary Evaporators subsequently and is steamed by unnecessary dehydrated alcohol, then continued by remaining slurry Grind 3h, i.e. obtain bulky grain TiO2 slurry；Utilize the method for silk screen printing by prepared bulky grain TiO2 slurry for rotary coating in life Long have in the ITO substrate of carbon nanomaterial, and bulky grain TiO2 slurry thickness is 2500nm, then ITO substrate is put into Muffle furnace In 400 DEG C calcining 30min

D) absorbing dye:

The mixed solution (volume ratio 1:1) taking N719 and the tert-butyl alcohol and acetonitrile is configured to the dye solution of 0.6mM, will calcining After ITO substrate put in dye solution, through 28h dyestuff soak after take out, rinse 2min with acetonitrile, dry, obtain light Anode；

S3, filling electrolyte solution and encapsulation:

The light anode of absorbing dye is staggered relatively with to electrode, be encapsulated together with sarin resin, light anode with Being 100 μm to thickness between electrode, the most backward gap therebetween perfusion electrolyte, electrolyte solution is the iodine of 0.06M, 1.2M's 1-methyl-3 propyl imidazole iodine, the guanidine thiocyanate of 0.7M, the acetonitrile solution of the tert .-butylpyridine of 0.6M, closure electricity after fill Solve matter perfusing hole, complete the preparation of dye-sensitized solar cells.

Preferably, electrode all be have employed identical with light anode by the dye-sensitized solar cells of electric component box of the present invention Carbon nanomaterial.The bottom of carbon nanomaterial is relatively compact even in hardening close to base part, presents compacted zone, top Point, it being separated from each other, present porous layer, compacted zone and porous layer thickness ratio are 2:3.Dye-sensitized solar cells of the present invention is entered Row photoelectric transformation efficiency is measured, and simulated solar irradiation is formed by simulated solar photogenerator, and light intensity is 100mWcm-2, and spectrum Meeting AM1.5 standard, arriving of test, the open-circuit voltage of this dye-sensitized solar cells is 0.72 ± 0.05V, short-circuit current density Being 9.6 ± 0.1mAcm-2, conversion efficiency is 11.6%.

In the electric component box of the present invention, the carbon that dye-sensitized solar cells uses manufacturing process simple, with low cost is received Rice material is as to the Catalytic Layer of electrode and the conductive layer of light anode, and this carbon nanomaterial has compacted zone and the porous of uniqueness Layer, is applied to electrode, and its loose structure is conducive to the catalysis of electrolyte reduction reaction, and it forms ohm with transition zone Cr Contact, has relatively low resistance, is applied to light anode, and it considerably increases the dispersibility of bulky grain TiO2, uniformity, further Improve the adsorption rate of dyestuff, use the dye-sensitized solar cells of this electrode structure to show higher sunlight conversion effect Rate.

The electric component box of the present invention is capable of the efficient utilization of sunlight, and this repeatability, has good stability, light Photoelectric transformation efficiency is high, possesses the biggest market application foreground.

Embodiment three:

By Fig. 1, embodiments herein relates to a kind of solar energy electric component box, including casing 1, it is characterised in that institute Stating casing and be arranged over ceiling 2, described body side is provided with heat dissipation tank 3, and described heat dissipation tank 3 is internal is provided with electric motor fan, described Casing 1 is provided with observation window 4.

Preferably, described casing side is provided with door, and described door is provided with lock body.

Preferably, described ceiling 2 is solar panel.

Preferably, described solar panel is connected with storage battery, and described accumulator is located at described box house.

Preferably, described solar panel is dye-sensitized solar cells, and described dye-sensitized solar cells is by light sun Pole, electrolyte and to electrode constitute；Described smooth anode be followed successively by from outside to inside ITO substrate, carbon nanomaterial, bulky grain TiO2, Dye molecule；Described Ti substrate, Cu thin film, carbon nanomaterial, Ni thin film that electrode is followed successively by from outside to inside, described smooth anode with Described is 100 μm to electrode spacing；Described Ni thickness is 20nm.

Preferably, Fig. 2 shows described dye-sensitized solar cells Making programme figure, and its concrete preparation process is as follows:

S1, makes electrode:

A) clean, process Ti substrate:

Use Ti as the substrate to electrode, choose the Ti sheet of suitable size (such as 5cm × 5cm), after cleaning, then use sand Paper is polished, and the mesh number of sand paper is incremented by, the sand papering 20min of every kind of mesh number so that Ti substrate surface removes obvious impurity, and And there is camber, and utilize magnetron sputtering method to be deposited with layer of metal Cu thin film on its surface, thickness is 300nm, then, by Ti base The end, is put into hydrochloric acid solution and soaks 30min, distinguishes ultrasonic cleaning 20min with acetone, ethanol and deionized water, subsequently by Ti substrate certainly So dry；

B) Ti substrate surface growth carbon nanomaterial:

At 80 DEG C, preparation NiSO4 solution and sodium lauryl sulphate (K12) solution, concentration is respectively 21%～42% He 18%～35% (mass fraction), respectively takes 200ml, under magnetic stirring mix homogeneously, utilizes sol evenning machine to be spun on a The Ti substrate surface that step obtains, after being dried 2h, places it in flame surface and processes 20min, i.e. form carbon at Ti substrate surface and receive Rice material；

C) catalyst n i thin film is made

Taking Ti substrate obtained above, put in magnetic control sputtering device, be deposited with layer of Ni thin film, wherein, base vacuum is 1.5 × 10-3pa, obtains electrode；

S2, making light anode:

A) clean, process ITO substrate:

Light anode substrate uses ito glass, chooses and the ITO substrate to electrode Ti substrate same size, according to step one In, use sand papering ITO substrate, then with acetone, ethanol and deionized water ultrasonic cleaning 20min respectively, subsequently by ITO substrate Naturally dry；

B) ITO substrate superficial growth carbon nanomaterial:

Same procedure in using step one b), at ITO substrate superficial growth carbon nanomaterial,

C) silk screen printing bulky grain TiO2:

Take bulky grain (500nm) TiO2 nano-particle and the 5ml glacial acetic acid mix homogeneously of 18g, be then added dropwise over from Sub-water and ethanol grind, and milling time is 4h, by adding terpineol in ground mixed solution, carry out in supersonic cleaning machine Ultrasonic disperse, is placed in solution in Rotary Evaporators subsequently and is steamed by unnecessary dehydrated alcohol, then continued by remaining slurry Grind 3h, i.e. obtain bulky grain TiO2 slurry；Utilize the method for silk screen printing by prepared bulky grain TiO2 slurry for rotary coating in life Long have in the ITO substrate of carbon nanomaterial, and bulky grain TiO2 slurry thickness is 2500nm, then ITO substrate is put into Muffle furnace In 400 DEG C calcining 30min

D) absorbing dye:

The mixed solution (volume ratio 1:1) taking N719 and the tert-butyl alcohol and acetonitrile is configured to the dye solution of 0.6mM, will calcining After ITO substrate put in dye solution, through 28h dyestuff soak after take out, rinse 2min with acetonitrile, dry, obtain light Anode；

S3, filling electrolyte solution and encapsulation:

The light anode of absorbing dye is staggered relatively with to electrode, be encapsulated together with sarin resin, light anode with Being 100 μm to thickness between electrode, the most backward gap therebetween perfusion electrolyte, electrolyte solution is the iodine of 0.06M, 1.2M's 1-methyl-3 propyl imidazole iodine, the guanidine thiocyanate of 0.7M, the acetonitrile solution of the tert .-butylpyridine of 0.6M, closure electricity after fill Solve matter perfusing hole, complete the preparation of dye-sensitized solar cells.

Preferably, electrode all be have employed identical with light anode by the dye-sensitized solar cells of electric component box of the present invention Carbon nanomaterial.The bottom of carbon nanomaterial is relatively compact even in hardening close to base part, presents compacted zone, top Point, it being separated from each other, present porous layer, compacted zone and porous layer thickness ratio are 1:1.Dye-sensitized solar cells of the present invention is entered Row photoelectric transformation efficiency is measured, and simulated solar irradiation is formed by simulated solar photogenerator, and light intensity is 100mWcm-2, and spectrum Meeting AM1.5 standard, arriving of test, the open-circuit voltage of this dye-sensitized solar cells is 0.72 ± 0.05V, short-circuit current density Being 9.6 ± 0.1mAcm-2, conversion efficiency is 10.7%.

In the electric component box of the present invention, the carbon that dye-sensitized solar cells uses manufacturing process simple, with low cost is received Rice material is as to the Catalytic Layer of electrode and the conductive layer of light anode, and this carbon nanomaterial has compacted zone and the porous of uniqueness Layer, is applied to electrode, and its loose structure is conducive to the catalysis of electrolyte reduction reaction, and it forms ohm with transition zone Cr Contact, has relatively low resistance, is applied to light anode, and it considerably increases the dispersibility of bulky grain TiO2, uniformity, further Improve the adsorption rate of dyestuff, use the dye-sensitized solar cells of this electrode structure to show higher sunlight conversion effect Rate.

The electric component box of the present invention is capable of the efficient utilization of sunlight, and this repeatability, has good stability, light Photoelectric transformation efficiency is high, possesses the biggest market application foreground.

Embodiment four:

By Fig. 1, embodiments herein relates to a kind of solar energy electric component box, including casing 1, it is characterised in that institute Stating casing and be arranged over ceiling 2, described body side is provided with heat dissipation tank 3, and described heat dissipation tank 3 is internal is provided with electric motor fan, described Casing 1 is provided with observation window 4.

Preferably, described casing side is provided with door, and described door is provided with lock body.

Preferably, described ceiling 2 is solar panel.

Preferably, described solar panel is connected with storage battery, and described accumulator is located at described box house.

Preferably, described solar panel is dye-sensitized solar cells, and described dye-sensitized solar cells is by light sun Pole, electrolyte and to electrode constitute；Described smooth anode be followed successively by from outside to inside ITO substrate, carbon nanomaterial, bulky grain TiO2, Dye molecule；Described Ti substrate, Cu thin film, carbon nanomaterial, Ni thin film that electrode is followed successively by from outside to inside, described smooth anode with Described is 100 μm to electrode spacing；Described Ni thickness is 20nm.

Preferably, Fig. 2 shows described dye-sensitized solar cells Making programme figure, and its concrete preparation process is as follows:

S1, makes electrode:

A) clean, process Ti substrate:

Use Ti as the substrate to electrode, choose the Ti sheet of suitable size (such as 5cm × 5cm), after cleaning, then use sand Paper is polished, and the mesh number of sand paper is incremented by, the sand papering 20min of every kind of mesh number so that Ti substrate surface removes obvious impurity, and And there is camber, and utilize magnetron sputtering method to be deposited with layer of metal Cu thin film on its surface, thickness is 300nm, then, by Ti base The end, is put into hydrochloric acid solution and soaks 30min, distinguishes ultrasonic cleaning 20min with acetone, ethanol and deionized water, subsequently by Ti substrate certainly So dry；

B) Ti substrate surface growth carbon nanomaterial:

At 80 DEG C, preparation NiSO4 solution and sodium lauryl sulphate (K12) solution, concentration is respectively 21%～42% He 18%～35% (mass fraction), respectively takes 200ml, under magnetic stirring mix homogeneously, utilizes sol evenning machine to be spun on a The Ti substrate surface that step obtains, after being dried 2h, places it in flame surface and processes 20min, i.e. form carbon at Ti substrate surface and receive Rice material；

C) catalyst n i thin film is made

Taking Ti substrate obtained above, put in magnetic control sputtering device, be deposited with layer of Ni thin film, wherein, base vacuum is 1.5 × 10-3pa, obtains electrode；

S2, making light anode:

A) clean, process ITO substrate:

Light anode substrate uses ito glass, chooses and the ITO substrate to electrode Ti substrate same size, according to step one In, use sand papering ITO substrate, then with acetone, ethanol and deionized water ultrasonic cleaning 20min respectively, subsequently by ITO substrate Naturally dry；

B) ITO substrate superficial growth carbon nanomaterial:

Same procedure in using step one b), at ITO substrate superficial growth carbon nanomaterial,

C) silk screen printing bulky grain TiO2:

Take bulky grain (500nm) TiO2 nano-particle and the 5ml glacial acetic acid mix homogeneously of 18g, be then added dropwise over from Sub-water and ethanol grind, and milling time is 4h, by adding terpineol in ground mixed solution, carry out in supersonic cleaning machine Ultrasonic disperse, is placed in solution in Rotary Evaporators subsequently and is steamed by unnecessary dehydrated alcohol, then continued by remaining slurry Grind 3h, i.e. obtain bulky grain TiO2 slurry；Utilize the method for silk screen printing by prepared bulky grain TiO2 slurry for rotary coating in life Long have in the ITO substrate of carbon nanomaterial, and bulky grain TiO2 slurry thickness is 2500nm, then ITO substrate is put into Muffle furnace In 400 DEG C calcining 30min

D) absorbing dye:

The mixed solution (volume ratio 1:1) taking N719 and the tert-butyl alcohol and acetonitrile is configured to the dye solution of 0.6mM, will calcining After ITO substrate put in dye solution, through 28h dyestuff soak after take out, rinse 2min with acetonitrile, dry, obtain light Anode；

S3, filling electrolyte solution and encapsulation:

The light anode of absorbing dye is staggered relatively with to electrode, be encapsulated together with sarin resin, light anode with Being 100 μm to thickness between electrode, the most backward gap therebetween perfusion electrolyte, electrolyte solution is the iodine of 0.06M, 1.2M's 1-methyl-3 propyl imidazole iodine, the guanidine thiocyanate of 0.7M, the acetonitrile solution of the tert .-butylpyridine of 0.6M, closure electricity after fill Solve matter perfusing hole, complete the preparation of dye-sensitized solar cells.

Preferably, electrode all be have employed identical with light anode by the dye-sensitized solar cells of electric component box of the present invention Carbon nanomaterial.The bottom of carbon nanomaterial is relatively compact even in hardening close to base part, presents compacted zone, top Point, it being separated from each other, present porous layer, compacted zone and porous layer thickness ratio are 4:3.Dye-sensitized solar cells of the present invention is entered Row photoelectric transformation efficiency is measured, and simulated solar irradiation is formed by simulated solar photogenerator, and light intensity is 100mWcm-2, and spectrum Meeting AM1.5 standard, arriving of test, the open-circuit voltage of this dye-sensitized solar cells is 0.72 ± 0.05V, short-circuit current density Being 9.6 ± 0.1mAcm-2, conversion efficiency is 10.2%.

In the electric component box of the present invention, the carbon that dye-sensitized solar cells uses manufacturing process simple, with low cost is received Rice material is as to the Catalytic Layer of electrode and the conductive layer of light anode, and this carbon nanomaterial has compacted zone and the porous of uniqueness Layer, is applied to electrode, and its loose structure is conducive to the catalysis of electrolyte reduction reaction, and it forms ohm with transition zone Cr Contact, has relatively low resistance, is applied to light anode, and it considerably increases the dispersibility of bulky grain TiO2, uniformity, further Improve the adsorption rate of dyestuff, use the dye-sensitized solar cells of this electrode structure to show higher sunlight conversion effect Rate.

The electric component box of the present invention is capable of the efficient utilization of sunlight, and this repeatability, has good stability, light Photoelectric transformation efficiency is high, possesses the biggest market application foreground.

Embodiment five:

By Fig. 1, embodiments herein relates to a kind of solar energy electric component box, including casing 1, it is characterised in that institute Stating casing and be arranged over ceiling 2, described body side is provided with heat dissipation tank 3, and described heat dissipation tank 3 is internal is provided with electric motor fan, described Casing 1 is provided with observation window 4.

Preferably, described casing side is provided with door, and described door is provided with lock body.

Preferably, described ceiling 2 is solar panel.

Preferably, described solar panel is connected with storage battery, and described accumulator is located at described box house.

Preferably, described solar panel is dye-sensitized solar cells, and described dye-sensitized solar cells is by light sun Pole, electrolyte and to electrode constitute；Described smooth anode be followed successively by from outside to inside ITO substrate, carbon nanomaterial, bulky grain TiO2, Dye molecule；Described Ti substrate, Cu thin film, carbon nanomaterial, Ni thin film that electrode is followed successively by from outside to inside, described smooth anode with Described is 100 μm to electrode spacing；Described Ni thickness is 20nm.

Preferably, Fig. 2 shows described dye-sensitized solar cells Making programme figure, and its concrete preparation process is as follows:

S1, makes electrode:

A) clean, process Ti substrate:

Use Ti as the substrate to electrode, choose the Ti sheet of suitable size (such as 5cm × 5cm), after cleaning, then use sand Paper is polished, and the mesh number of sand paper is incremented by, the sand papering 20min of every kind of mesh number so that Ti substrate surface removes obvious impurity, and And there is camber, and utilize magnetron sputtering method to be deposited with layer of metal Cu thin film on its surface, thickness is 300nm, then, by Ti base The end, is put into hydrochloric acid solution and soaks 30min, distinguishes ultrasonic cleaning 20min with acetone, ethanol and deionized water, subsequently by Ti substrate certainly So dry；

B) Ti substrate surface growth carbon nanomaterial:

At 80 DEG C, preparation NiSO4 solution and sodium lauryl sulphate (K12) solution, concentration is respectively 21%～42% He 18%～35% (mass fraction), respectively takes 200ml, under magnetic stirring mix homogeneously, utilizes sol evenning machine to be spun on a The Ti substrate surface that step obtains, after being dried 2h, places it in flame surface and processes 20min, i.e. form carbon at Ti substrate surface and receive Rice material；

C) catalyst n i thin film is made

Taking Ti substrate obtained above, put in magnetic control sputtering device, be deposited with layer of Ni thin film, wherein, base vacuum is 1.5 × 10-3pa, obtains electrode；

S2, making light anode:

A) clean, process ITO substrate:

Light anode substrate uses ito glass, chooses and the ITO substrate to electrode Ti substrate same size, according to step one In, use sand papering ITO substrate, then with acetone, ethanol and deionized water ultrasonic cleaning 20min respectively, subsequently by ITO substrate Naturally dry；

B) ITO substrate superficial growth carbon nanomaterial:

Same procedure in using step one b), at ITO substrate superficial growth carbon nanomaterial,

C) silk screen printing bulky grain TiO2:

Take bulky grain (500nm) TiO2 nano-particle and the 5ml glacial acetic acid mix homogeneously of 18g, be then added dropwise over from Sub-water and ethanol grind, and milling time is 4h, by adding terpineol in ground mixed solution, carry out in supersonic cleaning machine Ultrasonic disperse, is placed in solution in Rotary Evaporators subsequently and is steamed by unnecessary dehydrated alcohol, then continued by remaining slurry Grind 3h, i.e. obtain bulky grain TiO2 slurry；Utilize the method for silk screen printing by prepared bulky grain TiO2 slurry for rotary coating in life Long have in the ITO substrate of carbon nanomaterial, and bulky grain TiO2 slurry thickness is 2500nm, then ITO substrate is put into Muffle furnace In 400 DEG C calcining 30min

D) absorbing dye:

The mixed solution (volume ratio 1:1) taking N719 and the tert-butyl alcohol and acetonitrile is configured to the dye solution of 0.6mM, will calcining After ITO substrate put in dye solution, through 28h dyestuff soak after take out, rinse 2min with acetonitrile, dry, obtain light Anode；

S3, filling electrolyte solution and encapsulation:

The light anode of absorbing dye is staggered relatively with to electrode, be encapsulated together with sarin resin, light anode with Being 100 μm to thickness between electrode, the most backward gap therebetween perfusion electrolyte, electrolyte solution is the iodine of 0.06M, 1.2M's 1-methyl-3 propyl imidazole iodine, the guanidine thiocyanate of 0.7M, the acetonitrile solution of the tert .-butylpyridine of 0.6M, closure electricity after fill Solve matter perfusing hole, complete the preparation of dye-sensitized solar cells.

Preferably, electrode all be have employed identical with light anode by the dye-sensitized solar cells of electric component box of the present invention Carbon nanomaterial.The bottom of carbon nanomaterial is relatively compact even in hardening close to base part, presents compacted zone, top Point, it being separated from each other, present porous layer, compacted zone and porous layer thickness ratio are 5:3.Dye-sensitized solar cells of the present invention is entered Row photoelectric transformation efficiency is measured, and simulated solar irradiation is formed by simulated solar photogenerator, and light intensity is 100mWcm-2, and spectrum Meeting AM1.5 standard, arriving of test, the open-circuit voltage of this dye-sensitized solar cells is 0.72 ± 0.05V, short-circuit current density Being 9.6 ± 0.1mAcm-2, conversion efficiency is 9.4%.

In the electric component box of the present invention, the carbon that dye-sensitized solar cells uses manufacturing process simple, with low cost is received Rice material is as to the Catalytic Layer of electrode and the conductive layer of light anode, and this carbon nanomaterial has compacted zone and the porous of uniqueness Layer, is applied to electrode, and its loose structure is conducive to the catalysis of electrolyte reduction reaction, and it forms ohm with transition zone Cr Contact, has relatively low resistance, is applied to light anode, and it considerably increases the dispersibility of bulky grain TiO2, uniformity, further Improve the adsorption rate of dyestuff, use the dye-sensitized solar cells of this electrode structure to show higher sunlight conversion effect Rate.

The electric component box of the present invention is capable of the efficient utilization of sunlight, and this repeatability, has good stability, light Photoelectric transformation efficiency is high, possesses the biggest market application foreground.

Those skilled in the art, after considering description and putting into practice invention disclosed herein, will readily occur to its of the present invention Its embodiment.The application is intended to any modification, purposes or the adaptations of the present invention, these modification, purposes or Person's adaptations is followed the general principle of the present invention and includes the undocumented common knowledge in the art of the application Or conventional techniques means.Description and embodiments is considered only as exemplary, and true scope and spirit of the invention are by following Claim is pointed out.

It should be appreciated that the invention is not limited in precision architecture described above and illustrated in the accompanying drawings, and And various modifications and changes can carried out without departing from the scope.The scope of the present invention is only limited by appended claim.

Claims (5)

1. a solar energy electric component box, including casing, it is characterised in that described casing is arranged over ceiling, described casing Side is provided with heat dissipation tank, is provided with electric motor fan inside described heat dissipation tank, and described casing is provided with observation window.

Electric component box the most according to claim 1, the phase is characterised by, described casing side is provided with door, and described door sets There is lock body.

Electric component box the most according to claim 1, it is characterised in that described ceiling is solar panel.

Electric component box the most according to claim 3, it is characterised in that described solar panel is electrically connected with accumulator Connecing, described accumulator is located at described box house.

Electric component box the most according to claim 4, it is characterised in that described solar panel is the dye sensitization sun Battery, electrode by light anode, electrolyte and is constituted by described dye-sensitized solar cells；Described smooth anode is followed successively by from outside to inside ITO substrate, carbon nanomaterial, bulky grain TiO2, dye molecule；Described electrode is followed successively by from outside to inside Ti substrate, Cu thin film, Carbon nanomaterial, Ni thin film.