CN205945587U - Board -like sunlight photovoltaic power generation and complemental photovoltaic power supply station of moonlight photovoltaic power generation turn over - Google Patents

Board -like sunlight photovoltaic power generation and complemental photovoltaic power supply station of moonlight photovoltaic power generation turn over Download PDF

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Publication number
CN205945587U
CN205945587U CN201620840799.XU CN201620840799U CN205945587U CN 205945587 U CN205945587 U CN 205945587U CN 201620840799 U CN201620840799 U CN 201620840799U CN 205945587 U CN205945587 U CN 205945587U
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solaode
turnover panel
solar cell
photovoltaic
photovoltaic power
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Chinese (zh)
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林华
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Wuxi Tongchun New Energy Technology Co Ltd
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Wuxi Tongchun New Energy Technology Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/47Mountings or tracking
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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Abstract

The utility model relates to a board -like sunlight photovoltaic power generation and complemental photovoltaic power supply station of moonlight photovoltaic power generation turn over belongs to new forms of energy application technique field. At subaerial photovoltaic module support frame first and the photovoltaic module support frame second of setting up respectively, install solar cell first in the photovoltaic module support frame first of the ten heavenly stems, solar cell second, board rotary device first is turned over in photosensitive automatic control, the circular axle first of board turns over, ball bearing first, the conductor wire, install solar cell third in the photovoltaic module support frame second of the ten heavenly stems, solar cell butyl, board rotary device second is turned over in photosensitive automatic control, the circular axle second of board turns over, ball bearing second, the conductor wire, photosensitive automatic control is turned over board rotary device the first and photosensitive automatic control and is turned over board rotary device second and overturn solar cell first and solar cell's third surface respectively towards the sunlight on daytime, solar cell the second and solar cell butyl's a surface orientation moon light overturn respectively at night, photovoltaic power generation carries out, realized utilizing daytime day optical power generation and night to utilize month optical power generation to supply each other.

Description

The turnover plate type daylight photovoltaic generation photovoltaic power supply station complementary with moonlight photovoltaic generation
Technical field
This utility model is related to the turnover plate type daylight photovoltaic generation photovoltaic power supply station complementary with moonlight photovoltaic generation, belongs to new Energy source use technical field.
Background technology
In tellurian nature can Reusability, and the fast energy of renewable speed specific consumption rate, referred to as Regenerative resource.The basic source of regenerative resource is the Sun and the Moon.
The sun discharges huge solar energy during nuclear fusion, the various energy that the mankind use on earth, its Initially the energy is all the sun.Solaode receives luminous energy by photovoltaic effect and is converted into electric energy output, in the mistake of photovoltaic generation Carbon dioxide, sulfur dioxide isothermal chamber gas is not discharged, solar energy causes tellurian atmospheric air circulation, human use's sun in journey The wind energy that can change carries out wind-power electricity generation, during wind-power electricity generation, does not equally discharge carbon dioxide, sulfur dioxide isothermal chamber Gas, is advocated photovoltaic generation and wind-power electricity generation energetically, can be polluted with slow down air, alleviates tellurian climate change.
The diameter of the sun is about 1,380,000 kilometers, and the diameter of the earth is about 380,000 kilometers, the moon forever with the same face to landing Ball, it is irradiated to the sunlight that the source of tellurian moon light is reflection, because the moon is a solid celestial body, itself is not Can be luminous.The sunlight that the mankind are emitted onto on earth surface and moon light make full use of, and just can meet human society to energy Whole demands in source, a large amount of in 200 years of the past, oil of preciousness of directly burning and coal fossil resource, in the air discharge Substantial amounts of carbon dioxide, sulfur dioxide isothermal chamber gas, cause air pollution, climate warming, many countries and regions on the earth Haze weather occurs, damages health.After Paris agreement is signed, many countries accelerate the utilization step of solar energy in the world Cut down, but the work that is combined with of moon luminous energy started to walk just now.
Utility model content
The purpose of this utility model is to overcome deficiency of the prior art, provides turnover plate type daylight photovoltaic generation and moonlight The complementary photovoltaic power supply station of photovoltaic generation.
On July 7th, 2016, the permanent basic farmland in the whole nation delimit working site can be in Held in Hangzhou.For ensureing national food Safety, promotes modern agricultural development, carries out special protection to the permanent basic farmland delimited.All parts of the country will not be ratified with substantially The land resource of farmland protection area is building photo-voltaic power generation station.In order to the infield to solaode finds a way out, some Photovoltaic enterprise removes to build photovoltaic plant to Arid Desert Region one after another, when desert, the photovoltaic plant in semidesert area run one section Between after, the sand and dust that sandstorm blows afloat fall on the surface of solaode, can stop that solaode fully absorbs the photograph of sunlight Penetrate, reduce the photoelectric transformation efficiency of solaode, reduce photovoltaic power generation quantity.The hot environment of summer desert area is to thermostability It is unfavorable that bad solaode carries out photovoltaic generation, and hot environment can reduce the generated energy of solaode.Some ground Area advocates installation photovoltaic power generation apparatus on roof, obtains good achievement, but for various reasons, increases the speed of erection space Degree is not very quickly.Make full use of the sunlight being irradiated to earth surface and moon light developing clean energy resource, to guarantor by every possible means The tellurian ecological environment of shield human living, reduces air pollution, protection health is beneficial.Using limited soil Area builds the photo-voltaic power generation station that can simultaneously utilize sunlight and moon light, and improving the generated energy on unit area soil is this The purpose of utility model.
Photosensitive automatic control turnover panel rotary apparatuss first and photosensitive automatic control turnover panel rotary apparatuss second respectively have built-in light sensor certainly Movement controller part, can automatically control solaode first and solaode second, solaode third and solar-electricity respectively The automatic turning of Chi Ding.Sunlight on daytime intensity is big, and photosensitive automatic control turnover panel rotary apparatuss first drive installation is in photovoltaic module The solaode first in turnover panel circular shaft first in bracing frame first and solaode second rotate to the table of solaode first Face up, the surface position directed downwardly of solaode second, be suitable under sun exposure use solaode first absorb too In sunlight, the light of relevant wavelength carries out photovoltaic generation.Night moon exposure rate is little, and photosensitive automatic control turnover panel rotary apparatuss first is driven Solaode first in the dynamic turnover panel circular shaft first being arranged in photovoltaic module bracing frame first and solaode second rotate to The surface of solaode first down, the face-up position of table of solaode second, be suitable for using too under moon light irradiation The light that sun energy battery second absorbs relevant wavelength in moon light carries out photovoltaic generation.Sunlight on daytime intensity is big, photosensitive from Control solaode third He in the turnover panel circular shaft second in photovoltaic module bracing frame second for the turnover panel rotary apparatuss second drive installation Solaode fourth rotate to solaode third surface upward, the surface position directed downwardly of solaode fourth, be suitable for The light that the solaode third using under sun exposure absorbs relevant wavelength in sunlight carries out photovoltaic generation, and the night moon shines Penetrate that intensity is little, photosensitive automatic control turnover panel rotary apparatuss second drive installation is in the turnover panel circular shaft second in photovoltaic module bracing frame second Solaode third and solaode fourth rotate to solaode fourth surface upward, the surface of solaode third down Position, the light that the solaode fourth being suitable for using under moon light irradiation absorbs relevant wavelength in moon light carries out photovoltaic and sends out Electricity.
The power of photosensitive automatic control turnover panel rotary apparatuss first driving solaode first and the rotation of solaode second is by built-in Lithium ion battery first provide, photosensitive automatic control turnover panel rotary apparatuss second drives solaode third and the rotation of solaode fourth Power is provided by built-in lithium ion battery second.
In order to solve above-mentioned technical problem, this utility model is achieved through the following technical solutions:
By solaode first 1, solaode second 2, photosensitive automatic control turnover panel rotary apparatuss first 3, ball bearing first 4, light Volt modular support frame first 5, conductor wire 6, controller first 7, solaode the third 8, the rotation of solaode fourth 9, photosensitive automatic control turnover panel Rotary device second 10, ball bearing second 11, photovoltaic module bracing frame second 12, controller second 13, header box 14, inverter 15, energy storage Battery 16, controlling switch 17, electrical appliance 18 collectively constitute;
On the ground at photovoltaic power supply station, right-to-left side-by-side erects photovoltaic module bracing frame first 5 and photovoltaic module props up Support second 12, installs photosensitive automatic control turnover panel rotary apparatuss first 3 on the top of the Right side support bar of photovoltaic module bracing frame first 5, Ball bearing first 4 is installed on the top of the Left-side support bar of photovoltaic module bracing frame first 5, in photosensitive automatic control turnover panel rotary apparatuss first 3 Turnover panel circular shaft first is installed and ball bearing first 4 between, back side solar energy glued together is installed on turnover panel circular shaft first Battery first 1 and solaode second 2, on daytime, solaode first 1 overturns to surface upward in turnover panel circular shaft first When, its surface receives the irradiation of sunlight, under the surface direction of the solaode second 2 positioned at the back side of solaode first 1 Side, sunlight less than the solaode second 2 at the back side, night, solaode second 2 overturn in turnover panel circular shaft first to Surface upward when, its surface receive moon light irradiation, positioned at the solaode first 1 at the back side of solaode second 2 Surface downward, the moon bright light exposure less than the back side solaode first 1, solaode first 1 and solaode second 2 Upper and lower position there is corresponding upper Yu the next exchange with the change at daytime and night, in solaode first 1 with too Controller first 7 is installed in the lower section of sun energy battery second 2, installs photosensitive on the top of the Right side support bar of photovoltaic module bracing frame second 12 Automatic control turnover panel rotary apparatuss second 10, installs ball bearing second 11 on the top of the Left-side support bar of photovoltaic module bracing frame second 12, Between photosensitive automatic control turnover panel rotary apparatuss second 10 and ball bearing second 11, turnover panel circular shaft second is installed, in turnover panel circular shaft second Back side solaode glued together the third 8 and solaode fourth 9 be installed, on daytime, solaode the third 8 is circular in turnover panel Overturn in axle second to surface upward when, its surface receives the irradiation of sunlight, positioned at the back side of solaode the third 8 too Downward, sunlight is less than the solaode fourth 9 at the back side, night, solaode fourth on the surface of sun energy battery fourth 9 9 overturn in turnover panel circular shaft second to surface upward when, its surface receive moon light irradiation, positioned at solaode fourth The surface of the solaode at 9 back side the third 8 downward, the moon bright light exposure less than the back side solaode the third 8, solar energy The upper and lower position of battery the third 8 and solaode fourth 9 with daytime and night change occur corresponding upper with the next right Change, in the lower section of solaode the third 8 and solaode fourth 9, controller second 13 is installed, in controller first 7 and controller second 13 In the middle of install header box 14, the lower section of header box 14 install inverter 15, near photovoltaic power supply station installation energy storage electricity Pond 16, controlling switch 17 and electrical appliance 18.
Solaode first 1 and solaode second 2 are connected with controller first 7 by conductor wire 6, and controller first 7 is passed through Conductor wire 6 is connected with header box 14, and solaode the third 8 and solaode fourth 9 pass through conductor wire 6 with controller second 13 even Connect, controller second 13 is connected with header box 14 by conductor wire 6, header box 14 is connected with inverter 15 by conductor wire 6, inversion Device 15 is connected with energy-storage battery 16, controlling switch 17 and electrical appliance 18 by conductor wire 6.
Solaode first 1 and solaode the third 8 is to be suitable for carrying out the monocrystal silicon of photovoltaic generation under sun exposure too Sun can battery or polysilicon solar cell or perovskite solaode.
Solaode second 2 and solaode fourth 9 are the CIGSs being suitable for carrying out photovoltaic generation under moon light irradiation Solaode or amorphous silicon thin-film solar cell.
Compared with prior art, the beneficial effects of the utility model are:1. make photovoltaic power supply station accomplished day and night, day Day continual every night carry out photovoltaic generation.The solaode installed in existing photovoltaic power supply station is mostly to be suitable for Carry out polysilicon solar cell and the monocrystaline silicon solar cell of photovoltaic generation under sun exposure, on daytime, polysilicon is too Sun battery and monocrystaline silicon solar cell can absorb the light of relevant wavelength in sunlight and carry out photovoltaic generation, but at night Between, the light that polysilicon solar cell and monocrystaline silicon solar cell can not absorb relevant wavelength in moon light carries out photovoltaic and sends out Electricity, because the wavelength of the light of sunlight and moon light is different, different types of solaode needs to absorb corresponding ripple Long light just can carry out photovoltaic generation, and the solaode first in this utility model and solaode third are exactly to be suitable in day Carry out polysilicon solar cell and the monocrystaline silicon solar cell of photovoltaic generation under light irradiation.Solar energy in this utility model Battery second and solaode fourth are copper indium gallium selenium solar cell and the amorphous being suitable for carrying out photovoltaic generation under moon light irradiation Silicon film solar batteries, at night, by the surface upset of copper indium gallium selenium solar cell and amorphous silicon thin-film solar cell Upward, accept the irradiation of moon light, the light absorbing relevant wavelength in moon light carries out photovoltaic generation, so photovoltaic power supply can be made Station accomplish day and night, day and night continual carry out photovoltaic generation.2. improve the soil for building photovoltaic power supply station The utilization ratio of the ground corollary equipment such as resource and photovoltaic bracket, conductor wire, controller, inverter, header box.3. in relevant trip This kind of photovoltaic plant is built at urticaria scenic spot, can publicize sun culture and Moon culture simultaneously, popularize science.
Brief description
Fig. 1 is structural representation of the present utility model.
Specific embodiment
Daylight photovoltaic generation and moonlight photovoltaic generation are all the rising industries having boundless prospects.1883, earliest solar energy The photoelectric transformation efficiency of battery only has 1%, and photoelectric transformation efficiency brings up to 6% within 1956, nineteen ninety monocrystaline silicon solar cell Photoelectric transformation efficiency reaches 20%, and the commonly used photoelectric transformation efficiency in photovoltaic power supply station of throughout world various countries reaches more than 16% Polysilicon solar cell and photoelectric transformation efficiency reach more than 20% monocrystaline silicon solar cell, in recent years, the perovskite sun Can battery progress fast, a kind of photoelectric transformation efficiency of the organic solar batteries of perovskite structure reaches 50%, for current The sunlight of more multi-wavelength effectively can be converted into electric power, significantly drop by 2 times of solar cell photoelectric conversion efficiency on market The use cost of low solaode.Solar energy power generating has become as the key technology that the mankind build low carbon society.The mankind Carry out photovoltaic generation using moon light just now to start, the CIGS that can carry out photovoltaic generation under moon light irradiation having now been found that The photoelectric transformation efficiency of the moonlight photovoltaic generation of solaode and amorphous silicon thin-film solar cell all below 5%, generated energy It is limited, needs to strengthen the research of the solaode under moon light irradiation, improve the effect carrying out photovoltaic generation using moon light Rate.
The embodiment combining in accompanying drawing is further described by this utility model below:
By solaode first 1, solaode second 2, photosensitive automatic control turnover panel rotary apparatuss first 3, ball bearing first 4, light Volt modular support frame first 5, conductor wire 6, controller first 7, solaode the third 8, the rotation of solaode fourth 9, photosensitive automatic control turnover panel Rotary device second 10, ball bearing second 11, photovoltaic module bracing frame second 12, controller second 13, header box 14, inverter 15, energy storage Battery 16, controlling switch 17, electrical appliance 18 collectively constitute;
On the ground at photovoltaic power supply station, right-to-left side-by-side erects photovoltaic module bracing frame first 5 and photovoltaic module props up Support second 12, installs photosensitive automatic control turnover panel rotary apparatuss first 3 on the top of the Right side support bar of photovoltaic module bracing frame first 5, Ball bearing first 4 is installed on the top of the Left-side support bar of photovoltaic module bracing frame first 5, in photosensitive automatic control turnover panel rotary apparatuss first 3 Turnover panel circular shaft first is installed and ball bearing first 4 between, back side solar energy glued together is installed on turnover panel circular shaft first Battery first 1 and solaode second 2, on daytime, solaode first 1 overturns to surface upward in turnover panel circular shaft first When, its surface receives the irradiation of sunlight, under the surface direction of the solaode second 2 positioned at the back side of solaode first 1 Side, sunlight less than the solaode second 2 at the back side, night, solaode second 2 overturn in turnover panel circular shaft first to Surface upward when, its surface receive moon light irradiation, positioned at the solaode first 1 at the back side of solaode second 2 Surface downward, the moon bright light exposure less than the back side solaode first 1, solaode first 1 and solaode second 2 Upper and lower position there is corresponding upper Yu the next exchange with the change at daytime and night, in solaode first 1 with too Controller first 7 is installed in the lower section of sun energy battery second 2, installs photosensitive on the top of the Right side support bar of photovoltaic module bracing frame second 12 Automatic control turnover panel rotary apparatuss second 10, installs ball bearing second 11 on the top of the Left-side support bar of photovoltaic module bracing frame second 12, Between photosensitive automatic control turnover panel rotary apparatuss second 10 and ball bearing second 11, turnover panel circular shaft second is installed, in turnover panel circular shaft second Back side solaode glued together the third 8 and solaode fourth 9 be installed, on daytime, solaode the third 8 is circular in turnover panel Overturn in axle second to surface upward when, its surface receives the irradiation of sunlight, positioned at the back side of solaode the third 8 too Downward, sunlight is less than the solaode fourth 9 at the back side, night, solaode fourth on the surface of sun energy battery fourth 9 9 overturn in turnover panel circular shaft second to surface upward when, its surface receive moon light irradiation, positioned at solaode fourth The surface of the solaode at 9 back side the third 8 downward, the moon bright light exposure less than the back side solaode the third 8, solar energy The upper and lower position of battery the third 8 and solaode fourth 9 with daytime and night change occur corresponding upper with the next right Change, in the lower section of solaode the third 8 and solaode fourth 9, controller second 13 is installed, in controller first 7 and controller second 13 In the middle of install header box 14, the lower section of header box 14 install inverter 15, near photovoltaic power supply station installation energy storage electricity Pond 16, controlling switch 17 and electrical appliance 18.
Solaode first 1 and solaode second 2 are connected with controller first 7 by conductor wire 6, and controller first 7 is passed through Conductor wire 6 is connected with header box 14, and solaode the third 8 and solaode fourth 9 pass through conductor wire 6 with controller second 13 even Connect, controller second 13 is connected with header box 14 by conductor wire 6, header box 14 is connected with inverter 15 by conductor wire 6, inversion Device 15 is connected with energy-storage battery 16, controlling switch 17 and electrical appliance 18 by conductor wire 6.
Solaode first 1 and solaode the third 8 is to be suitable for carrying out the monocrystal silicon of photovoltaic generation under sun exposure too Sun can battery or polysilicon solar cell or perovskite solaode.
Solaode second 2 and solaode fourth 9 are the CIGSs being suitable for carrying out photovoltaic generation under moon light irradiation Solaode or amorphous silicon thin-film solar cell.
The ground on the right side at photovoltaic power supply station arranges photovoltaic module bracing frame first, on the right side of photovoltaic module bracing frame first Photosensitive automatic control turnover panel rotary apparatuss first is installed on the top of collateral strut, on the top of the Left-side support bar of photovoltaic module bracing frame first Ball bearing first is installed, between photosensitive automatic control turnover panel rotary apparatuss first and ball bearing first, turnover panel circular shaft first is installed, is turning over Back side solaode first glued together and solaode second, daytime, solaode first are installed on plate circular shaft first Turnover panel circular shaft first overturns to surface upward when, its surface receives the irradiation of sunlight, absorbs related in sunlight The light of wavelength carries out photovoltaic generation, the surface of the solaode second positioned at the back side of solaode first down, sunlight Irradiate the solaode second less than the back side.At night, solaode second overturns in turnover panel circular shaft first to the direction of surface Fang Shi, its surface receives the irradiation of moon light, and the light absorbing relevant wavelength in moon light carries out photovoltaic generation, positioned at solar energy The surface of the solaode first at the back side of battery second down, the moon bright light exposure less than the back side solaode first, solar energy The upper and lower position of battery first and solaode second with daytime and night change occur corresponding upper with the next right Change.On the top of the Right side support bar of photovoltaic module bracing frame second, photosensitive automatic control turnover panel rotary apparatuss second is installed, in photovoltaic module Ball bearing second is installed on the top of the Left-side support bar of bracing frame second, in photosensitive automatic control turnover panel rotary apparatuss second and ball bearing second Between turnover panel circular shaft second is installed, back side solaode third glued together and solar energy are installed on turnover panel circular shaft second Battery fourth, daytime, solaode third overturn in turnover panel circular shaft second to surface upward when, its surface receive sunlight Irradiation, absorb the light of relevant wavelength in sunlight and carry out photovoltaic generation, positioned at the solar energy at the back side of solaode third Down, less than the solaode fourth at the back side, night, solaode fourth is circular in turnover panel for sunlight on the surface of battery fourth Overturn in axle second to surface upward when, its surface receive moon light irradiation, absorb moon light in relevant wavelength light Carry out photovoltaic generation, the surface of the solaode third positioned at the back side of solaode fourth downward, the moon bright light exposure not Solaode third to the back side.Existing photovoltaic power supply station, is only provided with the monocrystalline being suitable for producing electric current under sun exposure Silicon solar cell or polysilicon solar cell, are fitted without being suitable for producing the CIGS sun of electric current under moon light irradiation Energy battery or amorphous silicon thin-film solar cell, more do not overturn the device of solar panel, therefore, can only send out on daytime Electricity, night can not generate electricity.Photovoltaic power supply station in this utility model, had both been provided with the sun producing electric current under suitable sun exposure Can battery first and solaode third, be simultaneously installed with solaode second and the solar energy producing electric current under suitable moon light irradiation Battery fourth, be more provided with can with the change of daylight and the intensity of illumination of moonlight, can be by photosensitive automatic control turnover panel rotating dress Put first and photosensitive automatic control turnover panel rotary apparatuss second stirs the surface court of solaode first and solaode third respectively on daytime To sunlight, the surface stirring solaode second and solaode fourth respectively at night carries out photovoltaic towards moon light and sends out Electricity it is achieved that photovoltaic power supply station day and night, day and night generate electricity dream it is achieved that photovoltaic power supply station generates electricity daytime in a large number, Night a small amount of preliminary aim generating electricity, with the scientific and technological progress about solaode, the generated energy at daytime and night can Improve constantly.Jiangxi Province's Yichun City have simultaneously abundant sun light resources and moon light resources, need to combine tourism advertisement The bright moon mountain breeze scenic spot of ' Moon culture ' is suitably to implement one of area of this patent.
Now enumerate embodiment as follows:
Embodiment one:
Photovoltaic module bracing frame first and photovoltaic module bracing frame second are respectively provided with the ground at photovoltaic power supply station, in photovoltaic Monocrystaline silicon solar cell first, copper indium gallium selenium solar cell second, photosensitive automatic control turnover panel rotating dress are installed on modular support frame first Put first, turnover panel circular shaft first, ball bearing first, conductor wire, monocrystaline silicon solar cell is installed on photovoltaic module bracing frame second Thirdth, copper indium gallium selenium solar cell fourth, photosensitive automatic control turnover panel rotary apparatuss second, turnover panel circular shaft second, ball bearing second, conduction The light that line, monocrystaline silicon solar cell first and monocrystaline silicon solar cell third are suitable for receiving relevant wavelength in daylight irradiates, produces Raw electric current, copper indium gallium selenium solar cell second and copper indium gallium selenium solar cell fourth are suitable for receiving the light of relevant wavelength in moonlight Irradiate, produce electric current, photosensitive automatic control turnover panel rotary apparatuss first and photosensitive automatic control turnover panel rotary apparatuss second overturn list respectively on daytime The surface of crystal silicon solar batteries first and monocrystaline silicon solar cell third, towards sunlight, overturns CIGS too respectively at night Sun can battery second and copper indium gallium selenium solar cell fourth surface towards moon light, it is achieved thereby that photovoltaic power supply station can be white It generates electricity, and can generate electricity at night again, improves the land resource of photovoltaic power supply station occupancy and the utilization ratio of relevant device.
Embodiment two:
Photovoltaic module bracing frame first and photovoltaic module bracing frame second are respectively provided with the ground at photovoltaic power supply station, in photovoltaic Polysilicon solar cell first, multi-crystal silicon film solar battery second, the rotation of photosensitive automatic control turnover panel are installed on modular support frame first Device first, turnover panel circular shaft first, ball bearing first, conductor wire, installs polycrystalline silicon solar electricity in photovoltaic module bracing frame second Pond third, amorphous silicon thin-film solar cell fourth, photosensitive automatic control turnover panel rotary apparatuss second, turnover panel circular shaft second, ball bearing second, lead Electric wire, polysilicon solar cell first and non-crystal silicon solar cell third be suitable for receive daylight in relevant wavelength light irradiate, Produce electric current, polysilicon solar cell second and amorphous silicon thin-film solar cell fourth are suitable for receiving the light of relevant wavelength in moonlight Line irradiates, produces electric current, and photosensitive automatic control turnover panel rotary apparatuss first and photosensitive automatic control turnover panel rotary apparatuss second overturn respectively on daytime The surface of polysilicon solar cell first and polysilicon solar cell third, towards sunlight, overturns non-crystalline silicon at night thin respectively The surface of film solar cell second and amorphous silicon thin-film solar cell fourth is towards moon light, it is achieved thereby that photovoltaic power supply station was both Can generate electricity on daytime, can generate electricity at night again, improve the land resource of photovoltaic power supply station occupancy and the utilization effect of relevant device Rate.

Claims (3)

1. the turnover plate type daylight photovoltaic generation photovoltaic power supply station complementary with moonlight photovoltaic generation, is characterized in that, by solaode First(1), solaode second(2), photosensitive automatic control turnover panel rotary apparatuss first(3), ball bearing first(4), photovoltaic module bracing frame First(5), conductor wire(6), controller first(7), solaode third(8), solaode fourth(9), the rotation of photosensitive automatic control turnover panel Device second(10), ball bearing second(11), photovoltaic module bracing frame second(12), controller second(13), header box(14), inverter (15), energy-storage battery(16), controlling switch(17), electrical appliance(18)Collectively constitute;
On the ground at photovoltaic power supply station, right-to-left side-by-side erects photovoltaic module bracing frame first(5)Support with photovoltaic module Frame second(12), in photovoltaic module bracing frame first(5)Right side support bar top install photosensitive automatic control turnover panel rotary apparatuss first (3), in photovoltaic module bracing frame first(5)Left-side support bar top install ball bearing first(4), in the rotation of photosensitive automatic control turnover panel Rotary device first(3)With ball bearing first(4)Between install turnover panel circular shaft first, in turnover panel circular shaft first install the back side be glued at Solaode first together(1)With solaode second(2), daytime, solaode first(1)Turnover panel circular shaft first is turned over Go to surface upward when, its surface receive sunlight irradiation, positioned at solaode first(1)The back side solar-electricity Chi Yi(2)Surface downward, sunlight is less than the solaode second at the back side(2), night, solaode second (2)Turnover panel circular shaft first overturns to surface upward when, its surface receive moon light irradiation, positioned at solaode Second(2)The back side solaode first(1)Surface downward, the moon bright light exposure less than the back side solaode first (1), solaode first(1)With solaode second(2)Upper and lower position with daytime and night change occur corresponding Upper Yu the next exchange, in solaode first(1)With solaode second(2)Lower section install controller first(7), in light Volt modular support frame second(12)Right side support bar top install photosensitive automatic control turnover panel rotary apparatuss second(10), in photovoltaic module Bracing frame second(12)Left-side support bar top install ball bearing second(11), in photosensitive automatic control turnover panel rotary apparatuss second(10) With ball bearing second(11)Between turnover panel circular shaft second is installed, the back side sun glued together is installed on turnover panel circular shaft second Can battery third(8)With solaode fourth(9), daytime, solaode third(8)Turnover panel circular shaft second overturns to surface court When upward, its surface receives the irradiation of sunlight, positioned at solaode third(8)The back side solaode fourth(9)'s Downward, sunlight is less than the solaode fourth at the back side on surface(9), night, solaode fourth(9)In turnover panel circle Overturn in shape axle second to surface upward when, its surface receive moon light irradiation, positioned at solaode fourth(9)The back side Solaode third(8)Surface downward, the moon bright light exposure less than the back side solaode third(8), solar-electricity Pond third(8)With solaode fourth(9)Upper and lower position with daytime and night change occur corresponding upper and the next Exchange, in solaode third(8)With solaode fourth(9)Lower section install controller second(13), in controller first(7)With Controller second(13)In the middle of install header box(14), in header box(14)Lower section install inverter(15), in photovoltaic power supply The neighbouring installation energy-storage battery stood(16), controlling switch(17)And electrical appliance(18);
Solaode first(1)With solaode second(2)By conductor wire(6)With controller first(7)Connect, controller first (7)By conductor wire(6)With header box(14)Connect, solaode third(8)With solaode fourth(9)By conductor wire (6)With controller second(13)Connect, controller second(13)By conductor wire(6)With header box(14)Connect, header box(14)Logical Cross conductor wire(6)With inverter(15)Connect, inverter(15)By conductor wire(6)With energy-storage battery(16), controlling switch (17)And electrical appliance(18)Connect.
2. the turnover plate type daylight photovoltaic generation according to claim 1 photovoltaic power supply station complementary with moonlight photovoltaic generation, its Feature is, described solaode first(1)With solaode third(8)It is suitable for carrying out photovoltaic generation under sun exposure Monocrystaline silicon solar cell or polysilicon solar cell or perovskite solaode.
3. the turnover plate type daylight photovoltaic generation according to claim 1 photovoltaic power supply station complementary with moonlight photovoltaic generation, its Feature is, described solaode second(2)With solaode fourth(9)It is suitable for carrying out photovoltaic generation under moon light irradiation Copper indium gallium selenium solar cell or amorphous silicon thin-film solar cell.
CN201620840799.XU 2016-08-05 2016-08-05 Board -like sunlight photovoltaic power generation and complemental photovoltaic power supply station of moonlight photovoltaic power generation turn over Withdrawn - After Issue CN205945587U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106301151A (en) * 2016-08-05 2017-01-04 无锡同春新能源科技有限公司 The photovoltaic power supply station that turnover plate type daylight photovoltaic generation is complementary with moonlight photovoltaic generation
CN108715137A (en) * 2018-08-02 2018-10-30 阿基米德航天航空精密工业科技(深圳)有限公司 The efficient dividing of environmentally protective energy of the sun moon luminous energy washes battery plate Foldable electric vehicle off

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106301151A (en) * 2016-08-05 2017-01-04 无锡同春新能源科技有限公司 The photovoltaic power supply station that turnover plate type daylight photovoltaic generation is complementary with moonlight photovoltaic generation
CN106301151B (en) * 2016-08-05 2018-05-11 无锡同春新能源科技有限公司 Turnover plate type daylight photovoltaic generation and the photovoltaic power supply station of moonlight photovoltaic generation complementation
CN108715137A (en) * 2018-08-02 2018-10-30 阿基米德航天航空精密工业科技(深圳)有限公司 The efficient dividing of environmentally protective energy of the sun moon luminous energy washes battery plate Foldable electric vehicle off

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