RU172079U1 - Solar battery - Google Patents

Abstract

The utility model relates to the field of devices designed to convert the energy of solar radiation into electrical energy. The solar battery according to a utility model includes flat double-sided solar cells, current-carrying buses, solar reflectors. In this case, flat bilateral solar cells are made in the form of horizontal, vertical and frontal planes intersecting with each other, covered with a photo layer, are rigidly bonded to each other and fixed on a support, and solar radiation reflectors are installed from below and from the sides of the solar cells and directed to their surface. In this case, solar reflectors are mounted on a support cantilever. The technical result of the utility model is to increase the amount of generated energy due to more complete use of the solar flux and simplifying the design of the solar battery. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of devices designed to produce electrical energy from natural renewable energy sources, namely, to the field of devices that convert the energy of solar radiation into electrical energy. The utility model can be used in solar power plants, solar combines, as well as for autonomous power supply of low-power consumers.

Known sliding solar photovoltaic battery, consisting of individual flat boards glued on the active side with photocells forming sections of the solar battery (see patent No. 240131, IPC H01L 31/045, publ. 01.01.1969).

The disadvantage of a sliding solar battery (taken as an analogue) is the complexity of the design and the inefficiency of using the area of the device that collects solar flux for its conversion into electrical energy.

Closest to the claimed device is a solar battery, including flat double-sided solar cells, current-carrying tires, solar reflectors (see patent SU No. 1598781, IPC ⁵ HOIL 31/04, publ. 30.10.1994).

The disadvantage of the prototype is the design complexity and lack of effectiveness of the use of flat two-sided solar cells.

The objective of the proposed technical solution is to simplify the design of the solar battery and increase its efficiency.

The technical result consists in increasing the amount of generated energy due to more complete use of the solar flux and simplifying the design of the solar battery.

The technical result is achieved by the fact that in a three-dimensional solar battery, including flat two-sided solar cells, current-carrying buses, solar reflectors, according to a utility model, flat two-sided solar cells are made in the form of intersecting horizontal, vertical and frontal planes coated with a photo layer, rigidly bonded to each other and mounted on a support, while solar radiation reflectors are installed from below and from the sides of the solar cells and directed to their surface.

Solar reflectors are mounted on a support console.

This device will improve the efficiency of the solar battery, as well as simplify its design.

The essence of the solar battery is illustrated by the drawing, where the figure shows its structural diagram.

The solar battery consists of three flat two-sided solar cells 1 located in the vertical, horizontal and frontal planes, on which the photo layers are applied. Solar cells 1 are fastened together by stiffeners 2, for example, in the form of metal corners. The solar cells 1 are equipped with down conductors 3, which are connected to the consumer by conductors 4. The solar cells 1 are mounted on a support 5. Below and around the system of solar cells 1 are reflectors 6, 7, 8, 9, which are mounted on consoles 10, 11 mounted on support 5.

The solar battery operates as follows.

The sun's rays, directly and from the reflectors 6, 7, 8, 9, fell on the photolayers of the solar cells 1, caused the appearance of a photo EMF in them, which was transmitted to the collector buses 3. A load was connected to the collector buses 3, in which current started to flow under the influence of the photo EMF , the value of which is proportional to the area and intensity of illumination of the solar cells 1, and through the conductors 4, the current passed to the consumer.

Using a solar battery will allow, in comparison with the prototype, to simplify the design of the solar battery and increase the efficiency of its use.

Claims (2)

1. The solar battery, including flat two-sided solar cells, current-carrying tires, reflectors of solar radiation, characterized in that the flat two-sided solar cells are made in the form of intersecting horizontal, vertical and frontal planes coated with a photo layer, rigidly bonded to each other and mounted on support, while reflectors of solar radiation are installed from below and from the sides of the solar cells and are directed to their surface. 2. The device according to p. 1, characterized in that the reflectors of solar radiation are mounted on a support console.

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