RU120200U1 - SOLAR PHOTOELECTRIC DEVICE - Google Patents

Abstract

A solar photovoltaic device containing one or more photovoltaic modules, a support structure mounted on a fixed base or rotating around a vertical axis, two rectangular frames, one of which (base) is fixed on the said base, and the other frame (suspended) serves as a seat for photovoltaic modules with the possibility of rotation of the frame around the horizontal axis, characterized in that the corners of the frames are connected by the ends of multidirectional pairs of collapsible semi-perimeters of regular polygons, composed of a number of rectilinear segments.

Description

The utility model relates to collapsible power sources of medium and high power, using solar energy.

A solar photovoltaic device (SFU) is known, comprising photovoltaic modules and a support structure made in the form of a portable collapsible dwelling, which is a frame with an awning web stretched over it, to the outer surface of which photovoltaic modules are attached using Velcro (RU 2371641, C1).

The main disadvantages of this device include the relatively small size of the modules used (Velcro fastening of large photovoltaic modules is unreliable) and the inability to continuously or periodically change the orientation of the modules in the direction of the sun.

A solar photovoltaic device (RU 2367852 C1, prototype) is also known, comprising one or more photovoltaic modules and a support structure formed by two differently directed pairs of semicircular arches, the ends of which are fixed at the corners of two rectangular frames. One of the frames (basic) is mounted on a base that is stationary or rotating around a vertical axis, the other frame (suspended) serves as a seat for photovoltaic modules and can rotate around a horizontal axis.

This device is collapsible. However, its design includes two pairs of semicircular arches - large enough parts, which makes it difficult to transport a disassembled SFU by car.

The technical result, which is aimed at the claimed solution, is to increase the portability of the proposed device.

A positive result is achieved by the fact that a solar photovoltaic device containing one or more photovoltaic modules, a support structure mounted on a base which is stationary or rotates around a vertical axis, two rectangular frames, one of which (base) is mounted on the base and the other (suspended) ) serves as a seat for photovoltaic modules with the possibility of rotation of the frame around the horizontal axis, according to this proposal, the corners of the frames are connected by the ends of multidirectional pairs collapsible semi-perimeters of regular polygons composed of a number of rectilinear segments.

The essence of the proposed technical solution is illustrated by the drawing of the supporting structure of the SFU for the case of stationary orientation on the sun of the working surface of the solar modules.

Attached to the corners of a rectangular base frame 1, for example, by means of threaded connections, are the free ends of the half-perimeters of regular polygons 2 and 2 ′, composed of rectilinear segments interconnected, for example, also by threaded connections. The corners of the suspended frame 3 are similarly attached to the ends of the semi-perimeters of the regular polygons 4 and 4 ', and the suspended frame itself can rotate around axis 5, for example, when the photoelectric modules are automatically oriented to the sun. The stops 6 provide the possibility of stationary orientation of the photovoltaic modules in the sun or, if necessary, manually changing the orientation.

If the base on which the supporting structure of the Siberian Federal University is mounted is rotating, automatically guided by a known snosob on the sun in the azimuthal direction, and the suspended frame 3 with solar modules will automatically move around axis 5, orienting the working surface of the modules in the sun in the zenithal direction, then you can get the maximum possible amount of “solar” electricity per daylight hours.

On this proposal, several samples of the supporting structure of the SFU were made. Their advantage in comparison with the prototype in terms of transportability in the disassembled position was confirmed, design documentation was developed.

Claims (1)

A solar photovoltaic device comprising one or more photovoltaic modules, a support structure mounted on a base which is stationary or rotates around a vertical axis, two rectangular frames, one of which (base) is mounted on the base, and the other frame (suspended) serves as a seat for the photovoltaic modules with the possibility of rotation of the frame around the horizontal axis, characterized in that the corners of the frames are connected by the ends of multidirectional pairs of collapsible semi-perimeters of correct polygons made up of a series of rectilinear segments.