RU2709406C1 - Solar battery - Google Patents

Abstract

FIELD: electrical equipment.SUBSTANCE: invention relates to the electrical equipment. Sheets 1 with photocells 2 are inclined to water surface and are attached to longitudinal planks 5. Planks 5 are fixed at the point of inclination by transverse planks 6. Planks 5 are located on air-filled sealed containers 7. On lower sheet 8 there is electric motor 9. Electric motor shaft 10 is connected with propeller 12. When the vessel approaches the solar battery, the operator applies voltage to electric motor 9. Third sheet 1 from shore with photocells 2 comes under the second sheet. Second and third sheets come under the sheet first from the shore. Three sheets with photocells occupy a small area near the shore, freeing passage to the ship.EFFECT: proposed solar cell will make it possible to produce electric power without large expenditures on a small island.1 cl, 4 dwg

Description

The invention relates to electrical engineering.

A solar battery is known consisting of photocells arranged in series and parallel connected by poles (L. S. Zhdanov, V. A. Marajan. Physics course. Moscow. 1970, pp. 527-529).

However, this solar battery has little power.

A solar battery consisting of several sheets on which photocells are arranged sequentially and parallelly connected by poles, and several photocells are connected responsibly by poles with terminals fixed to the sheets and connected to each other by wires, has great power.

However, this solar battery, being in a pond, occupies a large area in it, interfering with the passage of the vessel.

The technical result of the invention is the creation of a solar battery located in a pond and freeing the passage of the vessel by temporarily reducing its area.

The specified technical result is achieved by the fact that the solar battery consists of several sheets on which the photocells are arranged in series and parallel with the poles, and several photocells are connected respectively by poles with terminals fixed to the sheets, respectively connected by wires, while the sheets with photocells are inclined to the surface of the water and are attached to longitudinal strips located at an angle to each other, lying with their ends on airtight containers filled with air m and fastened at one end by transverse strips connected to each other and supported by ropes on the shore, and the last longitudinal strips from the shore are fastened with a bottom sheet on which an electric motor is located, the shaft of which is connected by a hinge to the propeller.

In FIG. 1 shows a solar battery, occupying a large area of the reservoir, side view, section.

In FIG. 2 depicts a solar battery, occupying a large area of the reservoir, top view, section.

In FIG. 3 shows a solar battery, occupying a small area of the reservoir, side view, section.

In FIG. 4 depicts a solar battery, occupying a small area of the reservoir, top view, section.

The solar battery has the following design. Photocells 2 are arranged in series and parallel to the poles on sheets 1. Several photocells 2 are connected respectively by poles with terminals 3 fixed on sheets 1. The terminals 3 of sheets 1 are interconnected by wires 4. The sheets 1 with photocells are tilted to the surface of the water and attached to the longitudinal bars 5 Planks 5 are inclined at an angle to each other. They are fastened in the place of inclination by transverse bars 6. The bars 5 with their ends lie on the hermetic containers 7 filled with air. The last longitudinal strips 5 from the shore are fastened by the bottom sheet 8. An electric motor 9 is located on the sheet 8. The shaft 10 of the electric motor 9 is connected by a hinge 11 to the propeller 12. The transverse strips 6 are interconnected by cables 13. The first transverse bar 6 from the coast is connected by a cable 13 to the on the shore with a support 14. Terminals 3 are connected by wires 15 through a support 14 with a power line. The electric motor 9 is connected by a wire 16 to the power line through a switch 17 located on the support 14.

The solar battery is used as follows. Sealed containers 7, filled with air, hold the longitudinal bars 5 and sheets 1 with photocells 2 on water. The cable 13 does not allow the transverse slats 6 and the sheets with photocells to move away from the shore. When the surface of the photocell 2 is illuminated, an emf is formed between its poles Photocells connected in series by poles increase the emf solar battery. Solar cells connected in parallel with the poles increase the power of the solar battery. In the daytime, electric current from the solar battery through wires 15 enters the power line. The solar battery has great power, but takes up a lot of water. When the vessel approaches the solar battery, the operator through the switch 17 supplies voltage through the wire 16 to the electric motor 9. The shaft 10 of the electric motor rotates the propeller 12 through the hinge 11. The third longitudinal strips 5 offshore enter the wide part of the second longitudinal strips offshore. The third sheet 1 from the shore with photocells comes under the second sheet from the shore. The third hermetic container 6 from the shore, pressing against the second one from the shore, pushes it. The second and third sheets go under the first sheet from the shore. Three sheets with photocells occupy a small area near the coast, freeing the passage of the vessel. After the passage of the vessel, the operator, using a switch 17, supplies reverse polarity voltage to the electric motor 9. The propeller 12, rotating in the opposite direction, draws the third sheet from the shore from under the second sheet from the shore. The cable 13, stretching, pulls the second sheet from under the first sheet. When the cable 13 connecting the first lateral cross strips 6 is pulled, the operator disconnects the voltage from the electric motor. When night falls, the operator applies voltage to electric motor 9. Sheets 1 with photocells 2 enter each other. Occupying a small area, the solar battery does not interfere with the passage of ships at night. In the morning, the operator applies reverse polarity voltage to the electric motor and the sheets with photocells diverge from each other.

Using a solar battery of the proposed design will allow to obtain the following technical and economic effect. To build a power station on the island, as well as to maintain it, is expensive. On a small island, these costs will not pay off. The solar battery of the proposed design will allow you to get electricity without high costs on a small island.

Claims (1)

A solar battery consisting of several sheets on which photocells are arranged sequentially and parallelly connected by poles, and several photocells are connected respectively by poles with terminals fixed to the sheets, interconnected by wires, characterized in that the sheets with photocells are inclined to the surface of the water and attached to the longitudinal slats located at an angle to each other, lying with their ends on airtight containers filled with air and fastened at one end by transverse slats, soy cables separated between themselves and by a support on the shore, and the last longitudinal strips from the shore are fastened with a bottom sheet on which an electric motor is located, the shaft of which is connected by a hinge to the propeller.

Images