RU2615622C1 - Solar photovoltaic power plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: solar photovoltaic power plant includes a solar battery and attached to the wall of the building supporting structure made, for example, of two arc-shaped pipes with holes of the same diameter, made at regular intervals, the upper ends of the tubes are connected to horizontally pivot and attached to the wall, the lower ends of the tubes are connected to horizontally pivot to each lower end of the tube attached to the rods abutting against the wall and connected by a horizontal pivot coaxially on each arched tube mounted with a slight clearance arcuate pipe of larger cross section and shorter length with holes the same diameter as the inner tube, and the same step, with the possibility of moving and fixing the compound by rigid pipes through coinciding holes, upper and lower ends of the outer pipe is connected horizontally between the rods forming a frame for placing a solar battery to which the upper and lower horizontal parts of the corrugations secured, opposite ends of which are connected with rods fixed to the wall.

EFFECT: simplicity and reliability of the design to install the solar battery relatively the sun position above the horizon.

3 cl, 1 dwg

Description

The invention relates to devices for converting solar energy into electrical energy, in particular, to the designs of solar photovoltaic stations located on building structures of buildings (peaks or canopies above the porch, balcony, terrace, etc.).

Known solar photovoltaic station, adopted by us as a prototype, including a solar battery and a supporting structure mounted on a wall above the entrance to a 2-storey individual residential building [1]. The solar battery consists of separate modules and, in fact, acts as a roof over the porch of the house.

The disadvantages of the prototype include the fact that the solar battery is installed on the supporting structure constantly at the same angle, which reduces power generation by 20% or more, compared with installing the solar battery every time to a new angle relative to the horizon, at least once a month.

The technical result is the simplicity and reliability of the design for installing the solar battery of a solar photovoltaic station, which allows you to adjust the angle of the solar battery relative to the changing position of the sun over the horizon during the year.

The technical result is achieved in that the solar photovoltaic station consists of a solar battery and a support structure mounted on the wall of the building on which the solar battery is placed, the support structure is made of several arcuate pipes, at least two, with holes of the same diameter, made with equal pitch moreover, the upper ends of the pipes are interconnected horizontally by a rod and attached to the wall, the lower ends of the pipes are also interconnected horizontally by a rod, with each lower end The core of the pipe is attached with rods that abut against the wall and are also interconnected by a horizontal rod, while an arcuate pipe of a larger cross section and a smaller length, with holes of the same diameter as on the inner pipe, and with the same diameter, is coaxially mounted on each arc-shaped pipe step, with the possibility of moving the outer pipe relative to the inner and fixing its position relative to the horizontal plane by rigidly connecting the pipes through the matching holes, while the upper and lower ends of the bunk The spring pipes are connected horizontally between each other by rods, forming a frame for placing a solar battery, to which corrugations are attached in the upper and lower horizontal parts, the opposite ends of which are connected to the rods mounted on the wall.

A rigid connection of pipes through matching holes is made by bolting.

The rod has a section in the form of a corner.

In FIG. 1 shows a general view of a solar photovoltaic station.

The solar photovoltaic station consists of a solar battery 1 and a supporting structure 2, mounted on the wall of the building 3. The supporting structure 2 is made of several arcuate tubes 4, at least two, with holes 5 of the same diameter, made with equal pitch. The upper ends of the pipes 4 are connected horizontally by a rod 6, for example a corner, and are attached to the wall 3. The lower ends of the pipes 4 are also connected horizontally by a rod 7, for example by a corner, with rods 8 fixed against each wall to each lower end of the pipe 4 3 and also interconnected by a horizontal rod 9. Coaxially on each arc-shaped pipe 4, an arc-shaped pipe 10 of a larger cross section and a smaller length, with holes 11 of the same diameter as on the inner pipe 4 and the same pitch, is installed with a small gap ohm, with the possibility of moving the outer pipe 10 relative to the inner 4 and fixing its position relative to the horizontal plane by rigidly connecting the 12 pipes through the matching holes 5 and 11. The upper and lower ends of the outer pipes 10 are connected horizontally by rods 13, for example corners, forming a frame 14 for placement of the solar battery 1, to which in the upper and lower horizontal parts are attached corrugations 15, the opposite ends of which are connected to the rods 6 and 7, mounted on the wall 3.

A rigid connection of the pipes through the matching holes is made by a bolted connection 12.

The rods 6, 7, 9, 13 have a section in the form of a corner.

The proposed device operates as follows.

In the current month (decade, day) determine the optimal angle of installation of the solar battery 1 relative to the horizon. Having unscrewed the bolts 12, they move the frame 14 relative to the horizon, having achieved the required angle of installation of the solar battery relative to the horizon, look for the closest matching holes in the inner tube 4 and the outer tube 10, insert the bolt and tighten the nut. So fasten the frame 14 with bolts 12 several times on each side. Corrugations 15 still cover the entire area, for example, the porch of a building (not shown), over which the proposed device is located.

As a result of using the proposed technical solution, the generation of electric energy is increased (up to 20%) compared with the installation of a solar battery constantly at the same angle.

The proposed solar photovoltaic station can be easily manufactured using commercially available canopies above the porch for manor individual residential houses (cottages, rural residential buildings), on terraces of garden plots, in parks, city squares, for example, for autonomous lighting of the surrounding area, giving a recreation area original aesthetic appearance while ensuring autonomy (can be installed anywhere) and electrical safety (many gardeners install lamps with LEDs directly on the construction of the canopy to illuminate the entrance to the house in the evening and at night).

The solar battery, based on the need for electricity and the area of the canopy, for example, above the porch, can be made using 50M photovoltaic modules with a power of 50 W made of single-crystal silicon.

Information sources

1. Guidelines for the design of heat supply systems. On the 10th anniversary of Wissmann LLC in Ukraine. - Kiev: LLC "Advertising Agency" Gold-graph ", 2010. - 195 p. (p. 53, Fig. B1.7-2). (Prototype).

Claims (3)

1. Solar photovoltaic station, consisting of a solar battery and a supporting structure mounted on the wall of the building on which the solar battery is located, characterized in that the supporting structure is made of several arcuate tubes, at least two, with holes of the same diameter, made with equal step, and the upper ends of the pipes are interconnected horizontally by a rod and attached to the wall, the lower ends of the pipes are also interconnected horizontally by a rod, while attached to each lower end of the pipe There are rods abutting against the wall and also interconnected by a horizontal rod, while coaxially on each arc-shaped pipe, an arc-shaped pipe of a larger cross section and a smaller length, with holes of the same diameter as on the inner pipe, and at the same step, is installed with a small gap. with the possibility of moving the outer pipe relative to the inner one and fixing its position relative to the horizontal plane by rigidly connecting the pipes through the matching holes, the upper and lower ends of the outer pipes being connected They are horizontally interconnected by rods, forming a frame for placing a solar battery, to which corrugations are attached at the upper and lower horizontal parts, the opposite ends of which are connected to the rods mounted on the wall. 2. Solar photovoltaic station according to claim 1, characterized in that the rigid connection of the pipes through the matching holes is made by bolting. 3. The solar photovoltaic station according to claim 1, characterized in that the rod has a section in the form of a corner.

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