JP7165859B1 - A photovoltaic power generation device installed on road guardrails. - Google Patents

Abstract

The present invention provides a photovoltaic power generation device to be attached to a guardrail or side wall of a road, which can be built quickly and easily with a low construction cost. A plurality of mounting members 2 are joined on the mounting base 1 perpendicularly to the mounting base 1, a fixing plate 4 for fixing the solar panel is press-fitted, and the tips of the plurality of mounting members 2 are connected. A solar panel frame A joined by a member 5, the solar panel frame A is inserted into the beam 6 of the guardrail and fixed with a plurality of screws 7, and the bolts provided on the solar panel frame A. A fixing member B for a solar panel formed by joining a plurality of bolts 8 to a connecting member 9 in a hole 3, and each bolt 8 of the fixing member B for the solar panel is connected to the bolts 8 of the mounting frame A for the solar panel. A photovoltaic power generation device D formed by inserting a photovoltaic panel C into a hole 3, placing the photovoltaic panel C thereon and fixing the photovoltaic panel C using a nut 10, and providing a connection space for the photovoltaic power generation device D. A photovoltaic power generation device attached to a guardrail or a side wall of a road characterized by generating power by continuously laying the photovoltaic power generation device. [Selection drawing] Fig. 1

Description

TECHNICAL FIELD The present invention relates to a photovoltaic power generation device attached to a guardrail or side wall of a road to generate power by attaching the photovoltaic power generation device to the guardrail or side wall of the road.

There are various scales of conventional solar power generation, from those that use the roofs of houses and structures, to mega solar that utilizes mountains, idle land, embankments, and landfills, to small-scale power generation that utilizes privately owned sites. Currently, solar power generation is being disseminated under the guidance of the government.

Solar power generation that utilizes the roof of a building is generally installed on a frame.

Mounting systems are common for mega-solar power plants that utilize mountains, idle land, embankments, and landfill sites, as well as solar power plants that utilize privately-owned sites.

However, the current situation is that large and small installation sites are required for mega solar power generation that utilizes mountains, idle land, embankments, and landfills, and small-scale solar power generation that utilizes privately owned sites.

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Conventional solar power generation has the following problems.
〇 There are issues such as introduction cost, management cost, and technical aspects to introduce mega solar.
〇 A problem that requires large and small installation sites necessary for solar power generation.

SUMMARY OF THE INVENTION In view of the above problems, the present invention provides a photovoltaic power generation device to be attached to a guardrail or side wall of a road, which can be manufactured quickly and easily at a low construction cost.

The present invention has been made to solve the above-mentioned problems, and a plurality of gantry members are joined perpendicularly to the gantry base on the gantry base molded into a shape to be inserted onto the beam of the guardrail. Then, a fixing plate for fixing a solar panel having holes for bolts on the gantry base side of the gantry member is press-contacted, and the tips of the plurality of gantry members are aligned with the bolts at the center of the position of the gantry member. A solar panel mount formed by connecting and connecting with a connecting member provided with a hole, and the solar panel mount is inserted into the beam of the guardrail and fixed with a plurality of screws, and provided on the solar panel mount. A fixing member for a solar panel, which is formed by connecting a plurality of bolts to the holes of the bolts so as to match the intervals of the mounting member and is joined to the connecting member; A photovoltaic power generation device formed by inserting a nut into a hole in a bolt muscle of a mounting frame, mounting a solar panel, and fixing the solar panel using the nut, and connecting the photovoltaic power generation device. A photovoltaic power generation device installed on a guardrail or side wall of a road characterized in that a space is provided for continuous laying to generate power, the collected electricity is converted from DC to AC by a power conditioner, and the collected electricity is transmitted to a power storage station or the side wall. (Claim 1) is provided.

A huge site for laying solar panels is required by continuously laying the solar power generation device according to claim 1 with a connection space on the guardrails and side walls of long roads all over the country. To provide a photovoltaic power generation device (claim 2) attached to a road guardrail or side wall, which is different from conventional mega-solar power plants and is characterized by the ability to construct many mega-solar power plants.

2. The solar panel frame according to claim 1 is inserted into the beam of the guardrail and fixed with a plurality of screws, and a plurality of bolts are inserted into the bolt holes provided in the solar panel frame. A solar panel fixing member joined to a connecting member in accordance with the interval of , each bolt muscle of the solar panel fixing member is inserted into the hole of the bolt muscle of the solar panel frame, and a nut is attached. 3. A solar power generation system comprising a solar panel mounted on the solar panel and fixed by using the nut, according to claim 1 or 2. A photovoltaic device (claim 3) is provided.

A packing for preventing side slippage of the solar panel is attached to a portion of the fixing plate for fixing the solar panel according to claim 1 and the fixing member of the solar panel where the solar panel contacts, thereby preventing the side slippage of the solar panel. There is provided a photovoltaic power generation device (claim 4) attached to a guardrail or side wall of a road according to any one of claims 1 to 3, characterized in that it prevents

Each bolt muscle of the solar panel fixing member according to claim 1 is inserted into the bolt muscle hole of the solar panel frame, a nut is attached, the solar panel is placed, and the nut is used. There is provided a photovoltaic power generation device (claim 5) attached to a guardrail or side wall of a road according to any one of claims 1 to 4, wherein the solar panel is fixed.

The photovoltaic power generation device according to claim 1 is attached to the parapet of the structure, and the two photovoltaic power generation devices are continuously laid with a connection space to generate power, and the collected electricity is converted from direct current to alternating current by a power conditioner. According to any one of claims 1 to 5, there is provided a photovoltaic power generation device attached to a guardrail or side wall of a road (claim 6), wherein the solar power is converted and used for power storage or power transmission.

The photovoltaic power generation device according to claim 1 is installed on a folded plate roof, and the photovoltaic power generation device is continuously installed with a connection space to generate power, and the collected electricity is converted from direct current to alternating current by a power conditioner. , a power storage station or power transmission, according to any one of claims 1 to 5, providing a photovoltaic power generation device (claim 7) attached to a guardrail or side wall of a road.

The remarkable effects of the present invention are listed below.
b) No installation site acquisition cost is required by utilizing structures managed by the national, prefectural and municipal governments.
b) It is possible for the national government, prefectures, and municipalities to compete to construct a huge photovoltaic power generation network nationwide.
c) Speedy construction of photovoltaic power generation network through competitive promotion by national, prefectural and municipal governments.
2) Reduction of electricity consumption through a photovoltaic power generation network that the national government, prefectures, and municipalities are competing to construct.
E) Elimination of management costs and technical issues through the promotion of national, prefectural and municipal governments.

As described above, according to the invention of claim 1, a plurality of gantry members are joined at intervals perpendicular to the gantry base on the gantry base molded into a shape to be inserted onto the beam of the guardrail. Then, a fixing plate for fixing a solar panel having holes for bolts on the gantry base side of the gantry member is press-contacted, and the tips of the plurality of gantry members are aligned with the bolts at the center of the position of the gantry member. A solar panel mount formed by connecting and connecting with a connecting member provided with a hole, and the solar panel mount is inserted into the beam of the guardrail and fixed with a plurality of screws, and provided on the solar panel mount. A fixing member for a solar panel, which is formed by connecting a plurality of bolts to the holes of the bolts so as to match the intervals of the mounting member and is joined to the connecting member; A photovoltaic power generation device formed by inserting a nut into a hole in a bolt muscle of a mounting frame, mounting a solar panel, and fixing the solar panel using the nut, and connecting the photovoltaic power generation device. By providing a space and continuously laying and generating power, converting the collected electricity from direct current to alternating current with a power conditioner, and transmitting it to a power storage station or power transmission, the above-mentioned special effects can be obtained.

According to the invention according to claim 2, the solar power generation device according to claim 1 is continuously laid on guardrails and side walls of long roads throughout the country with a connection space provided, so that a solar panel can be obtained. Unlike the conventional mega solar that requires a huge site to lay a large number of mega solar, the effect of being able to build many mega solar is great.

According to the invention according to claim 3, the solar panel frame according to claim 1 is inserted into the beam of the guardrail and fixed with a plurality of screws, and the holes for the bolts are provided in the solar panel frame. (2) a fixing member for a solar panel formed by joining a plurality of bolts to the connecting member in accordance with the intervals of the mounting member; By inserting a nut into the hole of the solar panel, placing the solar panel on top of the solar panel, and fixing the solar panel with the nut, the solar power generation device can efficiently generate power. is.

According to the invention of claim 4, the fixing plate for fixing the solar panel according to claim 1 and the fixing member of the solar panel of claim 1 are attached to a portion where the solar panel is in contact with the packing for preventing lateral displacement of the solar panel. The effect of improving workability is significant by preventing lateral slippage of the solar panel.

According to the invention according to claim 5, the bolts of the fixing member for the solar panel according to claim 1 are inserted into the holes of the bolts of the solar panel frame, nuts are attached, and the solar panel is mounted. is placed and the solar panel is fixed using the nut, the effect of improving workability is significant.

According to the invention according to claim 6, the solar power generation device according to claim 1 is provided on the parapet of the structure, and the two solar power generation devices are continuously laid with a connection space to generate and collect power. By converting electricity from direct current to alternating current with a power conditioner and transmitting it to a power storage station or power transmission, the effect of being able to generate power in a wide variety of structures is significant.

According to the invention of claim 7, the photovoltaic power generation device of claim 1 is installed on the folded plate roof, and the photovoltaic power generation device of claim 1 is continuously laid with a connection space to generate power, and the collected electricity is used as power. By converting direct current into alternating current with a conditioner and transmitting it to a power storage station or power transmission, the effect of being able to generate power in a wide variety of structures is significant.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a view of a photovoltaic power generator installed on a guardrail according to the present invention. Figure 2 is a view of the photovoltaic power generation installed on the side wall. FIG. 3 is a detailed plan view of a mounting frame for the solar panel. FIG. 4 is a detailed view of the step surface of the photovoltaic power generation device. Fig. 5 is an installation diagram of a photovoltaic power generation system installed on a guardrail that receives sunlight from the road side. Fig. 6 is an installation diagram of a photovoltaic power generation system installed on a guardrail that receives sunlight from the opposite side of the road. Fig. 7 is an installation diagram of a photovoltaic power generation device installed on a side wall that receives sunlight from the road side. Fig. 8 is an installation diagram of a photovoltaic power generation device installed on a side wall that receives sunlight from the opposite side of the road. Fig. 9 is an installation diagram of a photovoltaic power generation system installed on a double-sided guardrail in the middle of a road. FIG. 10 is a detailed plan view showing a fixing member for the solar panel; FIG. 11 is an enlarged detailed view of the detailed plan view of FIG. 8C showing the mount of the solar panel. FIG. 12 is a detailed plan view of the solar panel. 13 is an enlarged view of a portion A shown in FIG. 1; FIG. Fig. 14 is an installation diagram of a photovoltaic power generation device installed on a parapet or the like of a structure. FIG. 15 is an installation diagram of a photovoltaic power generation device installed on a folded-plate roof.

To explain the embodiment of the present invention in detail with reference to the drawings, FIG. A fixing plate 4 for fixing a solar panel having bolt holes 3 provided on the gantry base 1 side of the gantry member 2 is press-contacted, and the tips of the plurality of gantry members 2 are attached to the gantry. A solar panel mount A formed by connecting and connecting a member 2 with a connecting member 5 having a bolt hole 3 in the center of the position of the member 2, and inserting the solar panel mount A into the beam 6 of the guard rail with a plurality of screws. 7, and a plurality of bolts 8 are joined to the connecting member 9 in accordance with the intervals of the mounting member 2 in the holes 3 of the bolting provided in the mounting frame A of the solar panel. and each bolt muscle 8 of the fixing member B of the solar panel is inserted into the hole 3 of the bolt muscle of the solar panel frame A, the nut 10 is attached, and the solar panel C is placed. The photovoltaic power generation device D is formed by fixing the solar panel C using the nut 10, and the photovoltaic power generation device D is continuously laid with a connection space to generate power, and the collected electricity is stored in the power conditioner. A photovoltaic power generation system installed on a guardrail according to the present invention, in which a photovoltaic power generation device installed on a road guardrail or side wall is installed on a guardrail, characterized by converting direct current into alternating current with NaE and transmitting it to a power storage station or power transmission. It is a diagram.

FIG. 2 is a view of the photovoltaic power generation installed on the side wall.

FIG. 3 is a detailed plan view of a solar panel mount.

FIG. 4 is a detailed view of a stepped surface of the photovoltaic power generation device.

FIG. 5 is an installation diagram of a photovoltaic power generation device installed on a guardrail that receives sunlight from the road side.

FIG. 6 is an installation diagram of a photovoltaic power generation device installed on a guardrail that receives sunlight from the opposite side of a road.

FIG. 7 is an installation diagram of a photovoltaic power generation device installed on a side wall that receives sunlight from the road side.

FIG. 8 is an installation diagram of a photovoltaic power generation device installed on a side wall that receives sunlight from the opposite side of a road.

FIG. 9 is an installation diagram of a photovoltaic power generation device installed on a double-sided guardrail in the center of a road.

FIG. 10 is a detailed plan view showing a fixing member for the solar panel.

FIG. 11 is a detailed plan view showing the mount for the solar panel.

FIG. 12 is a detailed plan view of the solar panel.

13 is an enlarged view of the A portion shown in FIG. 1. FIG.

FIG. 14 is an installation diagram of a photovoltaic power generation device installed on a parapet or the like of a structure.

FIG. 15 is an installation diagram of a photovoltaic power generation device installed on a folded-plate roof.

As described above with reference to the drawings, the present invention can quickly and easily construct a mega-solar power generation system by laying a photovoltaic power generation device on the guardrail or side wall of a road without requiring the acquisition cost of the land required for photovoltaic power generation. To provide a photovoltaic power generation device that can be constructed and attached to road guardrails and side walls.

Three lip channel steels (mounting member 2) are joined perpendicular to the mounting base 1 at 600 mm intervals on the mounting base 1 formed by using a t2.3mm iron plate into a shape to be inserted over the beam of the guardrail. Then, a 2.3 mm steel plate (fixing plate 4) for fixing the solar panel with 10 mmφ bolt holes 3 provided on the frame base 1 side of the lip channel steel (mounting member 2) is inserted into the lip channel steel and pressure welded. Then, the ends of the three lip channel steels (mounting member 2) are bent into a t2.3mm steel plate with the holes 3 for the 10mmφ bolt bars in the centers of the three lip channel steels (mounting member 2). A solar panel mount A formed by joining with a processed connecting member 5, the solar panel mount A is inserted into the beam 6 of the guardrail and fixed with three screws 7, and the solar panel mount A is provided. In the 10mmφ bolt hole 3 provided in the above, three 9mmφ bolt bars 8 are aligned with the intervals of the lip channel steel (mounting member 2), and joined to the connecting member 9 made by bending a t2.3mm steel plate. A solar panel fixing member B, three 9 mmφ bolts 8 of the solar panel fixing member B are inserted into the holes 3 of the 10 mmφ bolts 3 of the solar panel frame A, and nuts 10 are tightened. A photovoltaic power generation device D formed by mounting, placing a photovoltaic panel C of 480 mm x 1,800 mm x 35 mm, and fixing the photovoltaic panel C using the nut 10, and the photovoltaic device D is 200 mm A photovoltaic power generation device that generates electricity by providing a connection space and continuously laying it, converts the electricity collected in the power conditioner E from DC to AC, and transmits it to a power storage station.

As tragic reports of natural disasters that frequently occur due to abnormal weather become commonplace, the realization of a decarbonized society is an urgent issue. When the photovoltaic power generation device attached to the guardrail or side wall of the road of the present invention is laid on roads suitable for photovoltaic power generation in prefectures and municipalities nationwide, a mega solar power plant is born every 6 km. If prefectures and municipalities all over the country compete to lay them, all prefectures and municipalities across the country will acquire a large number of huge power plants in a single year, and it will be possible to sell electricity. On the other hand, it can make a great contribution to the realization of a decarbonized society. Moreover, there is no need to acquire the land required for solar power generation.

The figure of the photovoltaic power generation installed in the guardrail which concerns on this invention. A view of the photovoltaic power generation installed on the side wall. The detailed plan view of the mounting frame of the solar panel. A detailed view of the step surface of the photovoltaic power generation device. An installation diagram of a photovoltaic power generation device installed on a guardrail that receives sunlight from the road side. An installation diagram of a photovoltaic power generation device installed on a guardrail that receives sunlight from the opposite side of the road. The installation drawing of the solar power generation device installed in the side wall which receives sunlight from the road side. An installation drawing of a photovoltaic power generation device installed on a side wall that receives sunlight from the opposite side of a road. An installation drawing of a photovoltaic power generation device installed on a double-sided guardrail in the center of a road. The detailed plan view showing the fixing member of the solar panel. The detailed plane view which showed the mounting frame of the solar panel. A detailed plan view of the solar panel. FIG. 2 is an enlarged view of part A shown in FIG. 1; The installation drawing of the solar power generation device installed in the parapet etc. of the structure. It is an installation diagram of a photovoltaic power generation device installed on a folded-plate roof.

1. Mounting base
2. Mounting member
3. Bolt hole
4. Fixed plate to fix the solar panel
5. Connecting member with bolt hole 3
6. Guardrail Beam
7. Screw
8. Bolt muscle
9. Connecting member
10. Nut
11. Side walls
12. Packing
13. Anchor bolt
14. Construct Parapets
15. Folded plate roof
A. Mounting frame for solar panel
B, Fixing member of solar panel
C. Solar panel
D, photovoltaic device
E, inverter

Claims (7)

A plurality of gantry members are joined perpendicular to the gantry base on the gantry base molded into a shape to be inserted on the beam of the guardrail with a gap, and bolt holes are formed on the gantry base side of the gantry members. The solar panel is formed by pressing a fixing plate for fixing the provided solar panel, and connecting and connecting the ends of the plurality of mounting members with a connecting member provided with a hole for the bolt at the center of the mounting member. A frame and a frame for the solar panel are inserted into the beam of the guardrail and fixed with a plurality of screws, and a plurality of bolts are inserted into the holes of the bolts provided in the frame for the solar panel to form a space between the frame members. A solar panel fixing member joined to a connecting member according to the above, each bolt muscle of the solar panel fixing member is inserted into the hole of the bolt muscle of the solar panel frame, a nut is attached, and the solar panel is A photovoltaic power generation device in which a photovoltaic panel is placed and fixed using the nuts, and the photovoltaic power generation device is continuously laid with a connection space to generate power and collect electricity. A photovoltaic power generation device attached to a guardrail or side wall of a road, characterized in that a power conditioner converts direct current into alternating current and transmits it to a power storage station or to power transmission. A huge site for laying solar panels is required by continuously laying the solar power generation device according to claim 1 with a connection space on the guardrails and side walls of long roads all over the country. A photovoltaic power generation device attached to road guardrails and sidewalls, which is different from conventional mega solar power plants and is characterized in that many mega solar power plants can be constructed. 2. The solar panel frame according to claim 1 is inserted into the beam of the guardrail and fixed with a plurality of screws, and a plurality of bolts are inserted into the bolt holes provided in the solar panel frame. A solar panel fixing member joined to a connecting member in accordance with the interval of , each bolt muscle of the solar panel fixing member is inserted into the hole of the bolt muscle of the solar panel frame, and a nut is attached. 3. A solar power generation system comprising a solar panel mounted on the solar panel and fixed by using the nut, according to claim 1 or 2. photovoltaic device. A packing for preventing side slippage of the solar panel is attached to a portion of the fixing plate for fixing the solar panel according to claim 1 and the fixing member of the solar panel where the solar panel contacts, thereby preventing the side slippage of the solar panel. 4. The photovoltaic power generation device attached to the guardrail or side wall of the road according to any one of claims 1 to 3, characterized in that it prevents Each bolt muscle of the solar panel fixing member according to claim 1 is inserted into the bolt muscle hole of the solar panel frame, a nut is attached, the solar panel is placed, and the nut is used. 5. The photovoltaic power generation device attached to a guardrail or side wall of a road according to claim 1, wherein the photovoltaic panel is fixed. The photovoltaic power generation device according to claim 1 is attached to the parapet of the structure, and the two photovoltaic power generation devices are continuously laid with a connection space to generate power, and the collected electricity is converted from direct current to alternating current by a power conditioner. 6. The photovoltaic power generation device attached to the guardrail or side wall of the road according to any one of claims 1 to 5, wherein the solar power generation device converts and transmits power to a power storage station or power transmission. The photovoltaic power generation device according to claim 1 is installed on a folded plate roof, and the photovoltaic power generation device is continuously installed with a connection space to generate power, and the collected electricity is converted from direct current to alternating current by a power conditioner. 7. The photovoltaic power generation device attached to the guardrail or side wall of the road according to any one of claims 1 to 6, wherein the photovoltaic power generation device is used for power storage or power transmission.

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