JP2016044828A - Independent type energy supply facility including hydrogen fuel supply unit for vehicle and battery charger for electric vehicle through utilization of sunlight - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide independent type energy supply facilities capable of supplying hydrogen fuel for a vehicle generated through utilization of sunlight energy and similarly electrical energy for an electric vehicle generated by electrically converting sunlight energy within the same facilities.SOLUTION: This invention provides independent type energy supply facilities in which focusing panels for sunlight energy including a tracking unit for sunlight are installed at a roof floor or the like in energy supply facilities, sunlight energy is divided into infrared ray easily converted into heat and visible light easily converted into electricity and focused within the focusing panels, respectively, the infrared ray is taken out as heat, fed into a medium-temperature steam electrolyte device to generate hydrogen and supplied to a hydrogen vehicle using hydrogen as power fuel through a hydrogen fuel supply unit for a vehicle and visible light of sunlight energy is converted into electricity by focusing cells at the focusing panels and can be supplied as electrical power for an electric vehicle.SELECTED DRAWING: Figure 1

Description

The present invention is an independent energy supply facility capable of supplying hydrogen fuel for automobiles generated using solar energy and electric energy for electric vehicles generated by converting solar energy into electricity. It is about.

The present invention is a stand-alone energy that can supply hydrogen fuel for automobiles generated by efficiently converting sunlight into energy and electric power for electric vehicles generated by converting solar energy into the same facility. The present invention relates to a stand, and the feature of the configuration in the present invention is that a condensing grid that forms a condensing panel by installing a condensing panel having a plurality of solar tracking devices on the roof or roof of an energy supply facility Thus, an energy supply facility capable of effectively utilizing solar energy by forming so that sunlight enters the condensing grid for a long time is provided.

In addition, the present invention divides sunlight energy into visible light that easily converts electricity and infrared rays that are easily converted into heat in the grid of the light collecting panel, and condenses the light, and converts the visible light into electricity in a light collecting cell. Then, it is stored in a storage battery, and infrared rays are extracted as heat and introduced into a condensing heat boiler to generate intermediate temperature steam.

Thus, the energy supply facility of the present invention supplies the electric power as electric energy for the electric vehicle by electrically converting the visible light of the solar energy in the condensing cell and storing the electric power in the storage battery. It provides a stand-alone energy supply facility. In addition, infrared rays of solar energy are condensed in a condensing cell and introduced into a condensing heat boiler via an optical fiber to generate intermediate temperature steam, and the intermediate temperature steam is supplied to an intermediate temperature steam electrolyzer to generate hydrogen. The hydrogen is stored in a hydrogen tank at a high pressure, thereby providing a stand-alone energy supply facility that can supply hydrogen to a hydrogen fuel vehicle that uses it as power fuel.

In order to use solar energy efficiently, a lot of developments such as a daylighting system including a solar tracking device and a solar cell system for converting solar energy into electric energy have been made.

For example, as an example of a daylighting apparatus provided with a solar light tracking device in order to use sunlight as daylighting, there is JP 2013-104261 A (hereinafter referred to as Patent Document 1). The invention of Patent Document 1 is a sunlight lighting device called a toplight installed on the roof or roof of a building. A sunlight reflecting device provided with a sunlight tracking system is provided in a dome constituting the toplight. An efficient daylighting device that tracks the sun and directly faces sunlight is provided.

Moreover, as an example of a solar cell system that converts sunlight energy into electric energy, there is JP-A-11-97729 (hereinafter referred to as Patent Document 2). The invention of Patent Document 2 provides means for exhibiting power generation characteristics similar to those in the south direction at any module installation location, and a plurality of light condensing units each having a condensing system and solar cells. The solar cell module is configured with cells, and the optical axis of the condensing system constituting the condensing cell is configured such that there is at least one condensing cell having a direction different from the normal direction of the main surface of the module, It is possible to provide a solar cell module in which the concentrating cells can be moved so that the time for directly facing sunlight can be increased, and the power generation efficiency and the installation area efficiency can be increased.

Furthermore, as a conventional example of a hydrogen supply station that generates solar energy using solar energy and supplies it to a hydrogen vehicle that uses the hydrogen as a motive fuel, Japanese Patent Application Laid-Open No. 2002-249031 (hereinafter referred to as Patent Document 3). ) The invention of Patent Document 3 supplies purified water to a solar water splitting panel having a shape like a solar water heater, supplies oxygen and hydrogen generated in the solar water splitting panel, and It consists of a hydrogen separator that separates hydrogen from the product gas containing water vapor, and the hydrogen separated by the hydrogen separator is combined with hydrogen from hydrogen generators by other bacterial fuel reformers and fuel cell devices A hydrogen supply stand stored in a high-pressure hydrogen tank and supplied to a hydrogen fuel cell vehicle through a hydrogen gas filling machine is provided.

Thus, in the above-mentioned Patent Document 1, as a form of utilization of sunlight, a sunlight tracking device is provided and sunlight is directly used for illumination or the like. However, it cannot be said that the solar energy itself is efficiently utilized even if the sunshine hours of sunlight are efficiently lit.

Patent Document 2 relates to solar cell power generation that uses solar energy converted into electric energy. As a form of use of solar energy, there are overwhelmingly many things related to solar cell power generation that converts solar energy into electric energy and uses it. However, solar energy is composed of light of different wavelengths, such as ultraviolet rays, visible light, infrared rays, etc., and solar cells convert only the visible light that is part of the solar energy and use it. In fact, the majority of the light is in the ultraviolet region and infrared light other than that is not fully utilized in power generation or the like. However, there is a problem that light in the ultraviolet region with a short wavelength has high energy and accelerates the deterioration of the solar power cell, and light in the infrared region with a wavelength longer than visible light has a problem with the temperature of the solar power cell. As well as increasing, there is a drawback that the output of the solar power generation cell is reduced.

Further, Patent Document 3 discloses a hydrogen supply stand that is supplied to a hydrogen fuel cell vehicle by a solar water splitting device that generates hydrogen from pure water using solar energy. However, the invention of Patent Document 3 is an arrangement of a bacterial fuel reforming device, a solar decomposition device, and a fuel cell device that can supply hydrogen at a lower cost than in the future. In addition, there is a disadvantage that it becomes a large scale as in the above, and the generation of hydrogen using electric power from a large facility such as wind power generation or power supplied from the outside that causes transmission loss, etc. The capital investment cost versus the hydrogen generation cost has a disadvantage that it cannot provide efficient and inexpensive hydrogen.

Thus, the present invention has been made in view of the above-described points, and is divided into infrared rays that easily convert solar energy into heat and visible light that easily converts into electric light within the light collecting grid of the light collecting panel. The infrared rays of solar energy are accumulated in the condenser heat boiler device by taking out as heat, and then introduced into the intermediate temperature steam electrolyzer to generate hydrogen, and the generated hydrogen is pressurized and stored in the hydrogen tank , Which can be supplied to a hydrogen vehicle using the hydrogen as a motive fuel, and the visible light of solar energy can be converted into electricity in a condensing cell, and the electric power can be stored in a storage battery and supplied as electric power for an electric vehicle. The present invention relates to a stand-alone energy supply facility equipped with a hydrogen fuel supplier for vehicles and a charger for electric vehicles using light.

JP 2013-104261 A JP-A-11-97729 JP 2002-249031 A

The present invention installs a solar energy condensing panel equipped with a solar tracking device on the roof or roof portion of an independent energy supply facility, and converts the solar energy into infrared rays that are easily converted into heat. Easy visible light is divided and collected in the light collecting grid of the light collecting panel, and infrared rays of solar energy are extracted as heat and accumulated in a condensing heat boiler device, and then introduced into a medium temperature steam electrolyzer. The generated hydrogen is pressurized and stored in a hydrogen tank, can be supplied to a hydrogen vehicle that uses the hydrogen as power fuel, and the visible light of solar energy is converted into electricity by a light collecting cell. A stand-alone energy supply facility equipped with an automobile hydrogen fuel supplier and an electric vehicle charger that uses sunlight to store electricity in a storage battery and supply it as electric vehicle electricity It is intended to provide.

The present invention provides an energy supply stand for next-generation hydrogen vehicles and electric vehicles by providing a stand-alone energy supply facility including a hydrogen fuel supplier for vehicles and a charger for electric vehicles using sunlight. There is no need to transport dangerous materials such as gasoline, LPG gas, and hydrogen gas from the manufacturing plant to each supply station by tank lorries like conventional energy supply stations. An energy supply facility capable of supplying electric power for an electric vehicle is provided.

The present invention installs a solar energy condensing panel equipped with a solar tracking device on the roof or roof of an energy supply facility, and infrared light that easily converts heat of the solar energy and visible light that easily converts electricity. In the condensing grid of the condensing panel, the light is condensed and collected, and the infrared rays of the solar energy are extracted as heat, accumulated in the condensing heat boiler device, and then introduced into the intermediate temperature steam electrolyzer to generate hydrogen. The generated hydrogen is pressurized and stored in a hydrogen tank, and can be supplied to a hydrogen vehicle using hydrogen as power fuel via a hydrogen fuel supplier for vehicles, and the visible light of the solar energy is a concentrating cell. Water for automobiles using sunlight, which can be converted into electricity and stored in a storage battery and supplied as electric vehicle power via an electric vehicle charger There is provided a self-contained energy supply facilities having a fuel supply unit and an electric charger for an automobile.

The present invention also provides a solar energy condensing panel provided with a solar tracking device on the roof or roof portion of an energy supply facility, and a plurality of condensing grids constituting the respective condensing panels. Installs a Fresnel lens that collects sunlight on the upper incident light side of each housing, and the sunlight collected through the Fresnel lens is located at the middle of the housing with respect to the Fresnel lens installation surface. Only the visible light is reflected by a visible light reflection filter installed with an inclined surface of 45 degrees, is incident on the condensing cell via the auxiliary prism lens, and is converted into electricity. Is stored in a capacitor with a lead wire via a system controller, and the power stored in the capacitor can be supplied as electric vehicle power via a power supply control panel and an electric vehicle charger, and the visible Light reflection filter The infrared rays that have passed through are reflected and condensed by an infrared reflecting mirror installed at a lower angle of the visible light reflection filter with an inclination angle of 45 degrees with respect to the installation surface of the Fresnel lens. The light collected at the optical fiber introduction port is irradiated to the heat exchange conduction pipe of the condensing heat boiler, and the water circulating in the heat exchange conduction pipe is heated. Steam is generated, the steam is converted into intermediate temperature steam through a steam heating device and introduced into an intermediate temperature steam electrolysis device to generate hydrogen and oxygen, and the generated hydrogen is stored in a hydrogen tank, Hydrogen in the tank can be supplied to hydrogen-fueled vehicles with a hydrogen fuel supply device through a secondary pressure booster. Solar-powered vehicle hydrogen fuel supply device and electric vehicle charger are equipped with independent energy. There is provided a feeding facility.

Further, in the present invention, a plurality of the light collecting panels are installed on the roof or roof portion in the energy supply facility, and the light collecting panels are provided with an angle adjustment or rotation mechanism with respect to sunlight, and the angle adjustment. Sunlight can be efficiently collected by rotating the mechanism and rotating mechanism with a solar light tracking device, and each condensing panel can be folded into two or more in the condensing panel support frame. A stand-alone energy supply facility equipped with an automobile hydrogen fuel supplier and electric vehicle charger that uses sunlight that can be folded or folded and stored indoors during nighttime, sunset, or typhoon weather conditions. It is to provide.

In the present invention, the infrared light that has passed through the visible light reflection filter in the light collection grid of the light collection panel has an inclination angle of 45 degrees with respect to the installation surface of the Fresnel lens below the visible light reflection filter. Infrared light is reflected and collected by the infrared reflecting mirrors installed and collected through the correcting condensing lens and collected at the optical fiber inlet, and the light collected at the respective optical fiber inlets is collected by the condenser heat boiler. Irradiated to the heat exchange conduction pipe, the water circulating in the heat exchange conduction pipe is heated to generate water vapor, and the water vapor is heated to a medium temperature water vapor through a water vapor heating device, and the medium temperature water vapor is perforated on one side of the electrolyte. Electrolysis is performed by applying a voltage between both the porous cathode and the porous anode while continuously supplying it into an electrolytic cell provided with a porous cathode and a porous anode on the opposite side. Hydrogen and oxygen are generated by the electrolysis, and the generated hydrogen is stored in a hydrogen tank, and the hydrogen in the hydrogen tank is supplied to a hydrogen fuel vehicle by a hydrogen fuel supplier via a secondary pressure intensifier. The present invention provides a stand-alone energy supply facility equipped with an automobile hydrogen fuel supplier and an electric vehicle charger using solar power.

Further, in the present invention, in order to increase the power capacity stored in the battery in the independent energy supply facility, hydrogen and oxygen generated by the intermediate temperature steam electrolysis device and stored in the hydrogen tank or oxygen tank are stored in the energy supply facility. Providing a stand-alone energy supply facility equipped with an automotive hydrogen fuel supplier and an electric vehicle charger using sunlight, which generates electricity by supplying it to a fuel cell and stores it in the electricity storage device To do.

The present invention provides an energy source for a next-generation hydrogen fueled vehicle and an electric vehicle by providing a stand-alone energy supply facility provided with the hydrogen fuel supplier for an automobile and the charger for an electric vehicle using the solar energy. Establishing supply stations, unlike conventional energy supply stations, it is not necessary to transport dangerous materials such as gasoline, LPG gas, and hydrogen gas from the manufacturing plant to each supply station by tank lorries. An energy supply facility capable of supplying power for hydrogen fuel and electric vehicles is provided.

In addition, the present invention can provide a stand-alone energy supply facility that can simultaneously supply hydrogen fuel for hydrogen-fueled vehicles and clean energy for electric vehicles by making the most effective use of solar energy. .

And this invention divides | segments sunlight energy into visible light which is easy to convert electrically, and infrared rays which are easy to convert heat in the light collecting grid, and condenses each of the visible light in a light collecting cell and stores it in a storage battery. Infrared light is taken out as heat and converted into water vapor with a condensing heat boiler device to produce hydrogen and oxygen with a medium temperature steam electrolyzer that can efficiently generate hydrogen, of which hydrogen is a fuel for hydrogen fueled automobiles By using oxygen as fuel for fuel cells and fuel for fuel cells, solar energy can be widely used.

It is explanatory drawing which shows embodiment of this invention. It is a perspective view explaining the tracking device of sunlight in FIG. It is a cross-sectional enlarged view explaining the AA principal part of FIG. It is explanatory drawing of the condensing heat boiler shown in FIG. It is explanatory drawing of the intermediate temperature steam electrolysis apparatus shown in FIG.

The present invention installs a solar energy condensing panel equipped with a solar tracking device on the roof or roof portion of an independent energy supply facility, and converts the solar energy into infrared rays that are easily converted into heat. Easy visible light is divided and collected in the light collecting grid of the light collecting panel, and infrared rays of solar energy are extracted as heat and accumulated in a condensing heat boiler device, and then introduced into a medium temperature steam electrolyzer. The generated hydrogen is pressurized and stored in a hydrogen tank, can be supplied to a hydrogen vehicle that uses the hydrogen as power fuel, and the visible light of solar energy is converted into electricity by a light collecting cell. A stand-alone energy supply facility equipped with an automobile hydrogen fuel supplier and an electric vehicle charger that uses sunlight to store electricity in a storage battery and supply it as electric vehicle electricity It is intended to provide.

The present invention provides an energy supply stand for next-generation hydrogen vehicles and electric vehicles by providing a stand-alone energy supply facility including a hydrogen fuel supplier for vehicles and a charger for electric vehicles using sunlight. There is no need to transport dangerous materials such as gasoline, LPG gas, and hydrogen gas from the manufacturing plant to each supply station by tank lorries like conventional energy supply stations. An energy supply facility capable of supplying electric power for an electric vehicle is provided.

Thus, the configuration of the present invention includes a solar energy condensing panel provided with a solar tracking device on the roof or roof portion in an energy supply facility, and infrared light that easily converts the solar energy into heat. Visible light that is easily converted into electricity is collected separately in the light collecting grid of the light collecting panel, and infrared rays of the solar energy are extracted as heat and accumulated in a condensing heat boiler device, and then introduced into a medium temperature steam electrolyzer. Thus, the generated hydrogen is pressurized and stored in a hydrogen tank, and can be supplied to a hydrogen vehicle using hydrogen as power fuel through a hydrogen fuel supplier for the vehicle. Visible light is converted into electricity in a condensing cell, electric power is stored in a storage battery, and water for automobiles using sunlight that can be supplied as electric vehicle power via an electric vehicle charger It is preferably independent of the energy supply facilities having a fuel supply unit and an electric charger for an automobile.

The present invention also provides a solar energy condensing panel provided with a solar tracking device on the roof or roof portion of an energy supply facility, and a plurality of condensing grids constituting the respective condensing panels. Installs a Fresnel lens that collects sunlight on the upper incident light side of each housing, and the sunlight collected through the Fresnel lens is located at the middle of the housing with respect to the Fresnel lens installation surface. Only the visible light is reflected by a visible light reflection filter installed with an inclined surface of 45 degrees, is incident on the condensing cell via the auxiliary prism lens, and is converted into electricity. Is stored in a capacitor with a lead wire via a system controller, and the power stored in the capacitor can be supplied as electric vehicle power via a power supply control panel and an electric vehicle charger, and the visible Light reflection filter The infrared rays that have passed through are reflected and condensed by an infrared reflecting mirror installed at a lower angle of the visible light reflection filter with an inclination angle of 45 degrees with respect to the installation surface of the Fresnel lens. The light collected at the optical fiber introduction port is irradiated to the heat exchange conduction pipe of the condensing heat boiler, and the water circulating in the heat exchange conduction pipe is heated. Steam is generated, the steam is converted into intermediate temperature steam through a steam heating device and introduced into an intermediate temperature steam electrolysis device to generate hydrogen and oxygen, and the generated hydrogen is stored in a hydrogen tank, Hydrogen in the tank can be supplied to hydrogen-fueled vehicles with a hydrogen fuel supply device through a secondary pressure booster. Solar-powered vehicle hydrogen fuel supply device and electric vehicle charger are equipped with independent energy. It is preferable that the feeding facility.

Further, in the present invention, a plurality of the light collecting panels are installed on the roof or roof portion in the energy supply facility, and the light collecting panels are provided with an angle adjustment or rotation mechanism with respect to sunlight, and the angle adjustment. Sunlight can be efficiently collected by rotating the mechanism and rotating mechanism with a solar light tracking device, and each condensing panel can be folded into two or more in the condensing panel support frame. It is a stand-alone energy supply facility equipped with a hydrogen fuel supply vehicle for automobiles and a charger for electric vehicles that use solar light that can be folded or folded and stored indoors at night, at sunset, or during typhoons. Preferably there is.

In the present invention, the infrared light that has passed through the visible light reflection filter in the light collection grid of the light collection panel has an inclination angle of 45 degrees with respect to the installation surface of the Fresnel lens below the visible light reflection filter. Infrared light is reflected and collected by the infrared reflecting mirrors installed and collected through the correcting condensing lens and collected at the optical fiber inlet, and the light collected at the respective optical fiber inlets is collected by the condenser heat boiler. Irradiated to the heat exchange conduction pipe, the water circulating in the heat exchange conduction pipe is heated to generate water vapor, and the water vapor is heated to a medium temperature water vapor through a water vapor heating device, and the medium temperature water vapor is perforated on one side of the electrolyte. Electrolysis is performed by applying a voltage between both the porous cathode and the porous anode while continuously supplying it into an electrolytic cell provided with a porous cathode and a porous anode on the opposite side. Hydrogen and oxygen are generated by the electrolysis, and the generated hydrogen is stored in a hydrogen tank, and the hydrogen in the hydrogen tank is supplied to a hydrogen fuel vehicle by a hydrogen fuel supplier via a secondary pressure intensifier. Preferably it is possible.

Further, in the present invention, in order to increase the power capacity stored in the battery in the independent energy supply facility, hydrogen and oxygen generated by the intermediate temperature steam electrolysis device and stored in the hydrogen tank or oxygen tank are stored in the energy supply facility. It is preferable that the fuel cell be configured to generate electricity by being supplied to the fuel cell and store in the capacitor.

Thus, the present invention provides a next-generation hydrogen fueled vehicle and an electric vehicle by providing a stand-alone energy supply facility equipped with the above-described hydrogen fuel supplier for vehicles and a charger for electric vehicles using solar energy. Establishing an energy supply stand for automobiles, there is no need to transport dangerous materials such as gasoline, LPG gas, and hydrogen gas from a manufacturing plant to each supply stand by a tank lorry like a conventional energy supply stand. An energy supply facility capable of supplying safe and inexpensive hydrogen fuel and electric power for electric vehicles is provided.

In addition, the present invention can provide a stand-alone energy supply facility that can simultaneously supply hydrogen fuel for hydrogen-fueled vehicles and clean energy for electric vehicles by making the most effective use of solar energy. .

Furthermore, the present invention divides sunlight energy into visible light that is easy to convert into electricity and infrared light that is easy to convert into heat within the light collecting grid, and condenses each of the visible light in a condensing cell and stores it in a storage battery. Infrared light is taken out as heat and converted into water vapor with a condensing heat boiler device to produce hydrogen and oxygen with a medium temperature steam electrolyzer that can efficiently generate hydrogen, of which hydrogen is a fuel for hydrogen fueled automobiles By using oxygen as fuel for fuel cells and fuel for fuel cells, solar energy can be widely used.

FIG. 1 is an explanatory view showing an embodiment of the present invention, FIG. 2 is a perspective view for explaining the solar light tracking device in FIG. 1, and FIG. 3 is a cross-sectional view for explaining the main part AA in FIG. 4 is an explanatory view of the condensing heat boiler shown in FIG. 1, and FIG. 5 is an explanatory view of the intermediate temperature steam electrolysis apparatus shown in FIG.

In FIG. 1, 1A and 1B are condensing panel units whose panel surfaces are expanded toward sunlight, and 2a and 2b can arbitrarily rotate the entire condensing panel units 1A and 1B. The solar light tracking device 3a, 3b is capable of adjusting the angle so that 1B always faces sunlight, and 3a, 3b is a light collecting panel support frame, and the light collecting panel units 1A, 1B are a roof or roof portion of an energy supply facility. The number of the light collecting panel units 1A and 1B installed on the roof and the roof of the energy supply facility is the scale of the energy supply facility. Thus, it can be installed in a plurality of units.

FIG. 2 illustrates the solar light tracking device in FIG. 1, 1A indicates a condensing panel unit, and the condensing panel unit 1A includes two condensing panels 1a that can be folded in an arrow R direction. The light collecting panels 1a and 1b are fitted and held in the light collecting panel frame 4 to constitute the light collecting panel unit 1A. In addition, the light collecting panels 1a and 1b are constituted by an aggregate of light collecting grids 5a, 5b, 5c..., And the light collecting panels formed by the light collecting grids 5a, 5b, 5c. The unit 1A and the light collecting panels 1a and 1b are mounted on a rotating plate 6 configured to be rotatable, and can adjust the angle with respect to sunlight and track the azimuth and altitude of the sun on the rotating plate 6 ( The solar light tracking devices 2a and 2b are described in FIG. 1), and the light collecting panels 1a and 1b constituting the light collecting panel unit 1A are installed on the rooftop or outside of the building and have poor weather conditions such as nighttime, sunset, and typhoon. Sometimes it is folded or folded so that it can be stored indoors.

Further, the configuration of the condensing grids 5a, 5b, 5c... Fitted and held in the condensing panel frame 4 condenses the solar energy into visible light P1 that easily converts electricity and infrared light P2 that easily converts heat. Each of the grids 5a, 5b, 5c,... Is condensed and condensed, and the visible light P1 is converted into electricity by the condensing cell 20 and connected to the capacitor 9 via the system controller 8 via the lead wire 7 to store the light. The infrared rays P2 can be introduced into the condensing heat boiler apparatus 11 (shown in FIG. 1) by taking out the infrared rays P2 through the optical fiber 10 as heat.

Next, the configuration of the light collecting panel unit 1A and the light collecting panels 1a and 1b will be described with reference to FIG. 3, condensing grids 5a, 5b, 5c... Form hollow casings 12a, 12b, 12c..., And side walls 13 and bottoms of the casings 12a, 12b, 12c. An aluminum cover material 15 is attached to 14. Further, a Fresnel lens 17 that collects sunlight is installed on the upper incident light side 16 of the casings 12a, 12b, 12c..., And Fresnel is disposed in the middle of the casings 12a, 12b, 12c. A visible light reflection filter 18 capable of reflecting only visible light installed with an inclination angle of 45 degrees with respect to the installation surface of the lens 17 is provided, and the casings 12a and 12b facing the visible light reflection filter 18 are provided. , 12c,..., 12c... Are arranged on the side wall 13 via a correcting prism lens 19, and the condenser cell 20 is connected to a battery 6 (FIG. 1) via a cell control board 20c. Connected).

Therefore, the operation of the light collecting panels 1a and 1b is performed by the hollow housings 12a, 12b, and 12c in the light collecting grids 5a, 5b, 5c,. .., And a Fresnel lens 17 that condenses sunlight is installed on the upper incident light side 16 of the casings 12 a, 12 b, 12 c..., And the sun collected through the Fresnel lens 17. The visible light reflection which can reflect only visible light P1 installed in the middle part of said housing | casing 12a, 12b, 12c ... with the inclination angle of 45 degrees with respect to the installation surface of the said Fresnel lens 17 is possible. After being reflected by the filter 18, the light enters the condensing cell 20 through the correcting prism lens 19 and is converted into electricity, and the converted electricity is converted into electricity by the system control device 8 (FIGS. 1 and 2). Beam controlled power is accumulated in the capacitor 6.

FIG. 1 shows a method of using the electric power stored in the electric storage device 6, and the electric power stored in the electric storage device 6 is introduced into an electric vehicle charger 23 through a power supply control device 22 having an inverter 21. The introduced electric power is supplied to the electric vehicle 25 by an electromagnetic induction type fixed charger 24 embedded in a floor surface or the like in the energy supply facility.

3, the configuration in which the infrared rays P2 of solar energy are collected and taken out as heat is the installation surface of the Fresnel lens 17 on the bottom 14 of the visible light reflection filter 18 in the casings 12a, 12b, 12c. Is provided with an infrared reflection mirror 27 installed at an inclination angle of 45 degrees with respect to the side wall 13 of the casings 12a, 12b, 12c... Facing the infrared reflection mirror 27. An optical fiber introduction port 29 is installed through the lens 28, and the optical fibers 10, 10a, 10b, 10c,... Having the optical fiber introduction port 29 are connected to the condensing heat boiler apparatus 11 as shown in FIG. A plurality of hollow casings 12a, 12b, 12c,... Constituting the condensing grids 5a, 5b, 5c,. It is fitted and held to constitute a panel shape plate.

Therefore, the structure of the condensing heat boiler apparatus 11 is demonstrated in FIG. In FIG. 4, the condensing heat boiler apparatus 11 includes a thermoelectric converter 30, which receives water from an externally introduced water pipe 31, and in the thermoelectric converter 30 covered with a heat insulating holding material 33. The heat exchange conduction pipe 34 can be supplied. In the thermoelectric converter 30, the infrared ray P2 condensed on the outer diameter portion 35 through the correcting condenser lens 28 is disposed by optical fibers 10a, 10b, 10c, 10d, etc., and the optical fiber 10a. The infrared rays P2 arranged at 10b, 10c, 10d, etc. are thermally converted in a condensed state, and the infrared rays P2 in the respectively condensed state are converted into the optical fibers 10a, 10b, 10c, 10d, etc. The heat exchange conduction pipe 34 built in the thermoelectric converter 30 is irradiated from the irradiation ports 36a, 36b, 36c,..., And the water 32 circulating inside the heat exchange conduction pipe 34 is heated to generate water vapor 37. Let
It should be noted that by providing a plurality of thermoelectric converters 30 built in the condensing heat boiler 11 in parallel, infrared P2 from more condensing panel units 1A, 1B, 1C,. The water 32 supplied from the external introduction water pipe 31 is supplied from an external infrastructure to a water supply tank 40 including a filter 38 and a circulation pump 39 shown in FIG.

Further, the generated water vapor 37 is accumulated in the boiler tank 42 covered with the heat insulating material 41 via the heat exchange conduction pipe 34, and the water vapor 37 is introduced into the water vapor heating device 44 through the vapor supply port 43, By passing through a high-temperature heater composed of an electric-heated steam heater, a high-frequency steam heater or the like equipped in the steam heater 44, the temperature of the reheated steam can be adjusted to a medium temperature steam (about 500 degrees), This intermediate temperature steam 45 is introduced into an intermediate temperature steam electrolyzer 46 to generate hydrogen and oxygen.
The driving power of the steam heater 44 uses the power from the condensing grids 5a, 5b, 5c,... Stored in the capacitor 9 as a heating power source, and controls the energy converter from the system controller 8. It is also possible to use it by introducing it from an external infrastructure from the standby primary power supply 47 via the device 26.

Next, the structure of the intermediate temperature steam electrolyzer 46 will be described with reference to FIG. In FIG. 5, 48 is a housing formed of an insulator, 49 is a steam inlet for supplying intermediate temperature steam 45 into the housing, 50 is an outlet for the generated hydrogen 51, and 52a and 52b are generated oxygen. 53, an inside of the housing 48 formed of the insulator, a cathode 54 made of a porous electrode is provided on one side of the electrolyte, and an anode 55 made of a porous electrode is provided on the opposite side. A plurality of electrolytic cells 56 composed of ceramic pipes are constructed, and electrolysis is performed by applying a voltage between the cathode 54 and the anode 55 of both electrodes while continuously supplying the intermediate temperature steam 45 to the cathode 54 side. Thus, the intermediate temperature steam 45 is decomposed and separated into hydrogen 51 and water 53 containing water.

Therefore, the hydrogen 51 containing water is stored in the hydrogen tank 59 after being introduced only into the primary pressure booster 58 through the hydrogen gas separator 57 shown in FIG. The hydrogen fuel supplier 61 supplies the hydrogen fuel automobile 62 in a stand form.

Further, the oxygen 53 generated by the intermediate temperature steam electrolyzer 46 is stored in the oxygen tank 64 via the oxygen gas cooling device 63 shown in FIG. 1, and the oxygen is supplied as fuel for the fuel cell vehicle. The fuel cell device 65 installed in the energy supply facility of the present invention is also used as a fuel, and the electric power generated by the fuel cell device 65 is stored in the battery 9 by the electric wiring 66, It is also used as a power source for the power supply control device 22 of the electric vehicle charger 23.

Thus, in the first embodiment of the present invention, the solar energy condensing panel units 1A and 1B provided with the solar tracking devices 2a and 2b on the roof or roof portion in the energy supply facility shown in FIG. It is installed and condensed into infrared rays P2 that easily convert the solar energy into visible light P1 and visible light P1 that are easily converted into electricity in the light collecting grids 5a, 5b, 5c,. Of the solar energy, the infrared rays P2 are extracted as heat, accumulated in the condensing heat boiler device 11, and then introduced into the intermediate temperature steam electrolyzer 46 to generate hydrogen. The generated hydrogen is pressurized and supplied to a hydrogen tank 59. Can be supplied to a hydrogen automobile 62 that uses hydrogen as a motive fuel through an automobile hydrogen fuel supplier 61, and the visible light P1 of the solar energy is supplied to the light collecting cell 20. Electric vehicle hydrogen fuel supplier and electric vehicle charging using solar light, which can be converted into electricity, stored in the battery 9 and supplied as electric vehicle power via the electric vehicle charger 23 It is a stand-alone energy supply facility equipped with a vessel.

The first embodiment of the present invention provides a next-generation hydrogen-fueled vehicle by providing a stand-alone energy supply facility equipped with the above-described hydrogen fuel supplier for vehicles and a charger for electric vehicles using solar energy. It is necessary to transport dangerous materials such as gasoline, LPG gas, and hydrogen gas from the manufacturing plant to each supply station by tank lorry like conventional energy supply stations. It provides an energy supply facility that can supply safe and inexpensive hydrogen fuel and electric vehicle power.

In addition, the first embodiment can provide a stand-alone energy supply facility that can simultaneously supply hydrogen fuel for hydrogen-fueled vehicles and clean energy for electric vehicles by making the most effective use of solar energy. is there.

Furthermore, in Example 1, sunlight energy is divided into visible light that is easily converted into electric power and infrared light that is easily converted into heat in a light collecting grid, and the visible light is converted into electric power in a light collecting cell and stored in a storage battery. Electricity is stored and infrared rays are extracted as heat and converted into water vapor using a condensing heat boiler device. Hydrogen and oxygen are produced in a medium temperature steam electrolyzer that can generate hydrogen efficiently. By using oxygen as fuel for fuel cells and fuel cells, solar energy can be widely used.

FIG. 1 to FIG. 5 illustrate Example 2, FIG. 1 is an explanatory diagram illustrating an embodiment of the present invention, and FIG. 2 is a perspective view illustrating a solar light tracking device in FIG. 3 is an enlarged cross-sectional view for explaining the main part AA of FIG. 2, FIG. 4 is an explanatory view of the condensing heat boiler shown in FIG. 1, and FIG. 5 is an explanatory view of the intermediate temperature steam electrolyzer shown in FIG. It is.

In the configuration of the second embodiment, solar energy condensing panel units 1A, 1B,... Equipped with a solar tracking device are installed on the roof or roof of the energy supply facility, and the respective condensing panel units are installed. A plurality of condensing grids 5a, 5b, 5c... Constituting 1A, 1B... Condenses sunlight on the upper incident light side 16 of each casing 12a, 12b, 12. The lens 17 is installed, and the sunlight condensed through the Fresnel lens 17 has an inclined surface of 45 degrees with respect to the installation surface of the Fresnel lens 17 in the middle part of the casings 12a, 12b, 12c. The visible light reflection filter 18 is provided to reflect only the visible light P1, and is incident on the condensing cell 20 through the auxiliary prism lens 19, and converted into electricity. The converted electricity is a system control device. Lee through 8 The electric power stored in the battery 9 through the line 7 can be supplied as electric power for the electric vehicle 25 via the power supply control device 22 and the electric vehicle charger 23, and the visible light reflection can be performed. The infrared ray P2 that has passed through the filter 18 is reflected and collected by the infrared reflection mirror 27 that is installed at a lower angle of 45 degrees with respect to the installation surface of the Fresnel lens 17 below the visible light reflection filter 18. Then, the light is condensed on the optical fiber introduction port 29 via the correcting condensing lens 28, and the light condensed at each of the optical fiber introduction ports 29 is irradiated to the heat exchange conduction pipe 34 of the condensing heat boiler device 11, Water circulating in the heat exchange conduction pipe 34 is heated to generate water vapor, and the water vapor is converted into intermediate temperature water vapor via the water vapor heating device 44 and introduced into the intermediate temperature water vapor electrolysis device 46. Hydrogen and oxygen are generated, and the generated hydrogen is stored in the hydrogen tank 59. The hydrogen in the hydrogen tank 59 is transferred to the hydrogen fuel vehicle 62 by the hydrogen fuel supplier 61 via the secondary pressure intensifier 60. It is a stand-alone energy supply facility equipped with a hydrogen fuel supply for automobiles using solar power that can be supplied and a charger for electric cars.

Further, as another example in Example 2, a plurality of the light collecting panel units 1A, 1B,... Of the present invention are installed on the roof or roof portion in the energy supply facility, and the light collecting panel unit 1A, 1B... Has an angle adjustment and rotation mechanism with respect to sunlight, and efficiently collects sunlight by rotating the angle adjustment mechanism and rotation mechanism with the sunlight tracking devices 2a and 2b. Each of the light collecting panel units 1A, 1B,... Can be folded into two or more in the light collecting panel support frame 4 and can be folded or folded at night, at sunset, or in bad weather conditions such as typhoons. It can be stored indoors.

The infrared rays P2 that have passed through the visible light reflection filter 18 in the light collection grids 5a, 5b, 5c... Of the light collection panel units 1A, 1B. Infrared ray P2 is reflected and collected by an infrared reflecting mirror 27 installed at an inclination angle of 45 degrees with respect to the installation surface of the lens 17 and condensed on the optical fiber introduction port 29 via the correcting condensing lens 28. The light condensed at the respective optical fiber introduction ports 29 is irradiated to the heat exchange conduction pipe 34 of the condensing heat boiler device 11, and the water circulating in the heat exchange conduction pipe 34 is heated to generate water vapor. The steam is heated to intermediate temperature steam via a steam heating device 44, and the intermediate temperature steam is electrolyzed with a porous cathode 54 on one side of the electrolyte and a porous anode 55 on the other side. 56, while supplying continuously into the electrode 56, a voltage was applied between the porous cathode 54 and the porous anode 55 to perform electrolysis, and hydrogen and oxygen were generated by the electrolysis. Hydrogen is stored in a hydrogen tank 59, and hydrogen in the hydrogen tank 59 can be supplied to a hydrogen fueled vehicle 62 by a hydrogen fuel supplier 61 through a secondary pressure intensifier 60. It is a stand-alone energy supply facility equipped with a feeder and a charger for electric vehicles.

In the embodiment of the present invention, the intermediate temperature steam electrolyzer 46 generates and stores it in the hydrogen tank 59 or the oxygen tank 64 in order to increase the capacity of the electric power stored in the electric storage in the independent energy supply facility. A hydrogen fuel supplier for an automobile and a charger for an electric car using solar power that generates electricity by supplying the hydrogen and oxygen supplied to a fuel cell device 65 provided in the energy supply facility and stores it in the battery 9 A stand-alone energy supply facility can be provided.

Thus, the present invention provides a stand-alone energy supply facility equipped with the above-described hydrogen fuel supplier for automobiles and a charger for electric cars using solar energy, thereby enabling the generation of next-generation hydrogen fuel automobiles and electric vehicles. Establishing an energy supply stand for automobiles, there is no need to transport dangerous materials such as gasoline, LPG gas, and hydrogen gas from a manufacturing plant to each supply stand by a tank lorry like a conventional energy supply stand. An energy supply facility capable of supplying safe and inexpensive hydrogen fuel and electric power for electric vehicles is provided.

In addition, the present invention can provide a stand-alone energy supply facility that can simultaneously supply hydrogen fuel for hydrogen-fueled vehicles and clean energy for electric vehicles by making the most effective use of solar energy. .

Furthermore, the present invention divides sunlight energy into visible light that is easy to convert into electricity and infrared light that is easy to convert into heat within the light collecting grid, and condenses each of the visible light in a condensing cell and stores it in a storage battery. Infrared light is taken out as heat and converted into water vapor with a condensing heat boiler device to produce hydrogen and oxygen with a medium temperature steam electrolyzer that can efficiently generate hydrogen, of which hydrogen is a fuel for hydrogen fueled automobiles By using oxygen as fuel for fuel cells and fuel for fuel cells, solar energy can be widely used.

1A, 1B Condensing panel unit 1a, 1b Condensing panel
2a, 2b Sun light tracking device 3a, 3b Condensing panel support frame 4 Condensing panel frame 5a, 5b, 5c ... Condensing grid 6 Rotating plate 7 Lead wire 8 System control device 9 Capacitors 10, 10a, 10b, 10c ... Optical fiber 11 Condensing heat boiler devices 12a, 12b, 12c ... Housing 13 Side wall 14 Bottom 15 Aluminum cover material 16 Upper incident light side 17 Fresnel lens 18 Visible light reflection filter 19 Correction prism lens 20 Condensing cell 20c Cell control board 21 Inverter 22 Power supply control device 23 Electric vehicle charger 24 Fixed charger 25 Electric vehicle 26 Energy converter control device 27 Infrared reflecting mirror 28 Correcting condensing lens 29 Optical fiber introduction port 30 Heat converter 31 External introduction tube 32 Water 33 Heat insulation holding material 34 Heat exchange conduction pipe 35 Outer diameter part 3 Irradiation port 37 Water vapor 38 Filter 39 Circulating pump 40 Water supply tank 41 Heat insulating material 42 Boiler tank 43 Steam supply port 44 Water vapor heating device 45 Medium temperature water vapor 46 Medium temperature water vapor electrolysis device 47 Preliminary primary power supply 48 Housing 49 Medium temperature Steam inlet 50 Hydrogen outlet 51 Hydrogen 52a, 52b Oxygen outlet 53 Oxygen 54 Cathode 55 Anode 56 Electrolytic cell 57 Hydrogen gas separator 58 Primary pressure booster 59 Hydrogen tank 60 Secondary pressure booster 61 Hydrogen fuel supplier 62 Hydrogen Fuel vehicle 63 Oxygen gas cooling device 64 Oxygen tank 65 Fuel cell device 66 Electric wiring R Folding direction P1 Visible light P2 Infrared

Thus, the present invention has been made in view of the above-described points, and is divided into infrared rays that easily convert solar energy into heat and visible light that easily converts into electricity in a light collecting grid of the light collecting panel. The infrared rays of solar energy are accumulated in the condenser heat boiler device by taking out as heat, and then introduced into the intermediate temperature steam electrolyzer to generate hydrogen, and the generated hydrogen is pressurized and stored in the hydrogen tank , Which can be supplied to a hydrogen vehicle using the hydrogen as a motive fuel, and the visible light of solar energy can be converted into electricity in a condensing cell, and the electric power can be stored in a storage battery and supplied as electric power for an electric vehicle. The present invention relates to a stand-alone energy supply facility equipped with a hydrogen fuel supplier for vehicles and a charger for electric vehicles using light.

The present invention installs a solar energy condensing panel equipped with a solar tracking device on the roof or roof portion of an independent energy supply facility, and converts the solar energy into infrared rays that are easily converted into heat. Easy visible light is collected in the condensing grid of the condensing panel, and the infrared rays of solar energy are extracted as heat, accumulated in the condensing heat boiler device, and then introduced into the intermediate temperature steam electrolyzer. The generated hydrogen is pressurized and stored in a hydrogen tank, can be supplied to a hydrogen vehicle that uses the hydrogen as power fuel, and the visible light of solar energy is converted into electricity by a light collecting cell. A stand-alone energy supply facility equipped with an automobile hydrogen fuel supplier and an electric vehicle charger that uses sunlight to store electricity in a storage battery and supply it as electric vehicle electricity It is intended to provide.

The present invention installs a solar energy condensing panel equipped with a solar tracking device on the roof or roof of an energy supply facility, and infrared light that easily converts heat of the solar energy and visible light that easily converts electricity. In the condensing grid of the condensing panel, the light is condensed and collected , and the infrared rays of the solar energy are extracted as heat, accumulated in the condensing heat boiler device, and then introduced into the intermediate temperature steam electrolyzer to generate hydrogen. The generated hydrogen is pressurized and stored in a hydrogen tank, and can be supplied to a hydrogen vehicle using hydrogen as power fuel via a hydrogen fuel supplier for vehicles, and the visible light of the solar energy is a concentrating cell. Water for automobiles using sunlight, which can be converted into electricity and stored in a storage battery and supplied as electric vehicle power via an electric vehicle charger There is provided a self-contained energy supply facilities having a fuel supply unit and an electric charger for an automobile.

And this invention divides | segments sunlight energy into visible light which is easy to convert electrically, and infrared rays which are easy to convert heat in a condensing grid, respectively, and condenses visible light electrically in a condensing cell and stores it in a storage battery. Infrared light is taken out as heat and converted into water vapor with a condensing heat boiler device to produce hydrogen and oxygen with a medium temperature steam electrolyzer that can efficiently generate hydrogen, of which hydrogen is a fuel for hydrogen fueled automobiles By using oxygen as fuel for fuel cells and fuel for fuel cells, solar energy can be widely used.

The present invention installs a solar energy condensing panel equipped with a solar tracking device on the roof or roof portion of an independent energy supply facility, and converts the solar energy into infrared rays that are easily converted into heat. Easy visible light is collected in the condensing grid of the condensing panel, and the infrared rays of solar energy are extracted as heat, accumulated in the condensing heat boiler device, and then introduced into the intermediate temperature steam electrolyzer. The generated hydrogen is pressurized and stored in a hydrogen tank, can be supplied to a hydrogen vehicle that uses the hydrogen as power fuel, and the visible light of solar energy is converted into electricity by a light collecting cell. A stand-alone energy supply facility equipped with an automobile hydrogen fuel supplier and an electric vehicle charger that uses sunlight to store electricity in a storage battery and supply it as electric vehicle electricity It is intended to provide.

Thus, the configuration of the present invention includes a solar energy condensing panel provided with a solar tracking device on the roof or roof portion in an energy supply facility, and infrared light that easily converts the solar energy into heat. Visible light that is easily converted into electricity is collected separately in the condensing grid of the condensing panel , and infrared rays of the solar energy are extracted as heat, accumulated in a condensing heat boiler device, and then introduced into a medium temperature steam electrolyzer Thus, the generated hydrogen is pressurized and stored in a hydrogen tank, and can be supplied to a hydrogen vehicle using hydrogen as power fuel through a hydrogen fuel supplier for the vehicle. Visible light is converted into electricity in a condensing cell, electric power is stored in a storage battery, and water for automobiles using sunlight that can be supplied as electric vehicle power via an electric vehicle charger It is preferably independent of the energy supply facilities having a fuel supply unit and an electric charger for an automobile.

FIG. 2 illustrates the solar light tracking device in FIG. 1, 1A indicates a condensing panel unit, and the condensing panel unit 1A includes two condensing panels 1a that can be folded in an arrow R direction. The light collecting panels 1a and 1b are fitted and held in the light collecting panel frame 4 to constitute the light collecting panel unit 1A. Further, the light converging panel 1a, 1b a condenser grid 5a, 5b, and is configured by a collection of 5c · · ·, the condenser grid 5a, 5b, condensing panels constituted by 5c · · · The unit 1A and the light collecting panels 1a and 1b are mounted on a rotating plate 6 configured to be rotatable, and can adjust the angle with respect to sunlight and track the azimuth and altitude of the sun on the rotating plate 6 ( The solar light tracking devices 2a and 2b are described in FIG. 1), and the light collecting panels 1a and 1b constituting the light collecting panel unit 1A are installed on the rooftop or outside of the building and have poor weather conditions such as nighttime, sunset, and typhoon. Sometimes it is folded or folded so that it can be stored indoors.

Thus, in the first embodiment of the present invention, the solar energy condensing panel units 1A and 1B provided with the solar tracking devices 2a and 2b on the roof or roof portion in the energy supply facility shown in FIG. It is installed and condensed into infrared rays P2 that easily convert the solar energy into visible light P1 that is easy to convert electrically, and condensing grids 5a, 5b, 5c ,. Of the solar energy, the infrared rays P2 are extracted as heat, accumulated in the condensing heat boiler device 11, and then introduced into the intermediate temperature steam electrolyzer 46 to generate hydrogen. The generated hydrogen is pressurized and supplied to a hydrogen tank 59. Can be supplied to a hydrogen automobile 62 that uses hydrogen as a motive fuel through an automobile hydrogen fuel supplier 61, and the visible light P1 of the solar energy is supplied to the light collecting cell 20. Electric vehicle hydrogen fuel supplier and electric vehicle charging using solar light, which can be converted into electricity, stored in the battery 9 and supplied as electric vehicle power via the electric vehicle charger 23 It is a stand-alone energy supply facility equipped with a vessel.

Further, in Example 1, sunlight energy is divided into visible light that is easily converted into electric power and infrared light that is easily converted into heat in a condensing grid, and the visible light is electrically converted by a condensing cell to be stored in a storage battery. Electricity is stored and infrared rays are extracted as heat and converted into water vapor using a condensing heat boiler device. Hydrogen and oxygen are produced in a medium temperature steam electrolyzer that can generate hydrogen efficiently. By using oxygen as fuel for fuel cells and fuel cells, solar energy can be widely used.

Furthermore, the present invention divides sunlight energy into visible light that is easy to convert into electricity and infrared light that is easy to convert into heat in a condensing grid, and condenses each of the visible light in a condensing cell and stores it in a storage battery. Infrared light is taken out as heat and converted into water vapor with a condensing heat boiler device to produce hydrogen and oxygen with a medium temperature steam electrolyzer that can efficiently generate hydrogen, of which hydrogen is a fuel for hydrogen fueled automobiles By using oxygen as fuel for fuel cells and fuel for fuel cells, solar energy can be widely used.

Claims (5)

A solar energy condensing panel unit equipped with a solar tracking device is installed on the roof and roof of the energy supply facility, and the solar energy is condensed into infrared rays that are easily converted into heat and visible light that is easily converted into electricity. The light is collected separately in the light collecting grid of the panel unit, and infrared rays of the solar energy are extracted as heat, accumulated in the light collecting heat boiler device, and then introduced into an intermediate temperature steam electrolyzer to generate hydrogen, The generated hydrogen is pressurized and stored in a hydrogen tank, and can be supplied to a hydrogen vehicle using hydrogen as power fuel through an automobile hydrogen fuel supplier, and the visible light of the solar energy is collected in a condensing cell. Automatic using solar light, characterized in that it can be converted into electricity, stored in a battery, and supplied as electric vehicle power via a charger for an electric vehicle Independent energy supply facility equipped with use hydrogen fuel supplier and the electric charger for automobiles. A solar energy condensing panel unit equipped with a solar tracking device is installed on the roof or roof of the energy supply facility, and a plurality of condensing grids constituting each condensing panel unit are provided in each housing. A Fresnel lens that collects sunlight is installed on the upper incident light side of the body, and the sunlight collected through the Fresnel lens is 45 degrees with respect to the installation surface of the Fresnel lens in the middle part of the housing. Only visible light is reflected by a visible light reflection filter installed with an inclined surface, is incident on a condensing cell via an auxiliary prism lens, and is converted into electricity, and the converted electricity is a system controller. And the electric power stored in the electric storage device can be supplied as electric vehicle electric power through a power supply control device and an electric vehicle charger, and the visible light reflection filter Infrared light that has passed through is reflected and condensed by an infrared reflecting mirror installed at a lower angle of the visible light reflection filter with an inclination angle of 45 degrees with respect to the installation surface of the Fresnel lens. The light collected at each optical fiber inlet is irradiated to the heat exchange conduction pipe of the condenser heat boiler device, and the water circulating in the heat exchange conduction pipe is heated. To generate steam, convert the steam into a medium temperature steam through a steam heating device and introduce it into a medium temperature steam electrolyzer to produce hydrogen and oxygen, store the generated hydrogen in a hydrogen tank, Hydrogen in a hydrogen tank can be supplied to a hydrogen fuel vehicle by a hydrogen fuel supplier via a secondary pressure intensifier, and a hydrogen fuel supplier for an automobile using sunlight and a charger for an electric vehicle Be equipped Independent of energy supply facilities. A plurality of the light collecting panel units are installed on the roof or roof portion in the energy supply facility, and the light collecting panel unit has an angle adjustment and rotation mechanism for sunlight, and the angle adjustment mechanism and the rotation mechanism are installed. By rotating the solar tracking device, sunlight can be collected efficiently, and each condensing panel unit can be folded into two or more in the condensing panel support frame. The hydrogen fuel supply device for automobiles using sunlight according to claim 1 or 2, wherein the vehicle can be folded or folded and stored indoors in bad weather conditions such as time and typhoon. A stand-alone energy supply facility with a charger for electric vehicles. Infrared light that has passed through the visible light reflection filter in the light collecting grid of the light collecting panel unit is disposed below the visible light reflection filter with an inclination angle of 45 degrees with respect to the installation surface of the Fresnel lens. Infrared light is reflected and collected by a mirror and condensed at the optical fiber inlet through the correcting condenser lens. The light collected at each optical fiber inlet is supplied to the heat exchange conduction pipe of the condenser heat boiler device. Irradiated, heats the water circulating in the heat exchange conduction pipe to generate water vapor, heats the water vapor to medium temperature water vapor through a water vapor heating device, and installs a porous cathode on one side of the electrolyte Electrolysis is carried out by applying a voltage between both electrodes of the porous cathode and the porous anode while continuously supplying into the electrolytic cell provided with a porous anode on the side. Producing hydrogen and oxygen, storing the produced hydrogen in a hydrogen tank, and hydrogen in the hydrogen tank can be supplied to a hydrogen fuel vehicle by a hydrogen fuel supplier via a secondary pressure intensifier. A stand-alone energy supply facility comprising a vehicle hydrogen fuel supply device using solar light and an electric vehicle charger according to any one of claims 1 and 2. In order to increase the power capacity stored in the battery in the independent energy supply facility, hydrogen and oxygen generated by the intermediate temperature steam electrolysis device and stored in the hydrogen tank or oxygen tank are supplied to the fuel cell device in the energy supply facility. 3. The vehicle hydrogen fuel supply device using solar light and the electric vehicle charger according to claim 1, wherein the power storage device generates electric power and stores the electric power in the electric storage device. Independent energy supply facility.

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