DE10010258B4 - Combined solar wind system - Google Patents

Abstract

combined Solar wind plant with a mast (1), at its upper tip Generator is arranged by the solar panels attached to support arms (14) is driven, wherein the solar panels (14) each in a separated upper and a lower part and all parts thereof in three further solar panels are divided, the middle main solar panel twice as big as the laterally attached Side solar panels, which fold when switching to wind operation are.

Description

In order to generate electricity by wind or sun, usually two separate plants are built. However, the separate plants can not always be active, because neither the sun shines constantly, nor the wind constantly blowing. Therefore, combined systems have already been proposed. According to the JP 6167269 The usual propellers of a wind turbine are equipped with solar cells. According to the utility model DE 297 17 984 cup-shaped blade elements are provided outside and inside with solar cells. The DE 297 05 410 describes a wind-driven drivable, vertical cylindrical rotor, on the upper face solar cells are applied. With such combined systems, electricity can be generated simultaneously by the two energy sources (wind, sun).

at The proposed plants is the size of the solar area and so that the achievable solar yield always by the size of the Wind exposed area the propeller or rotors limited, in turn, by the constructive provided resistance the plant opposite the predicted maximum wind speeds.

The Invention is thus based on the task of designing the plant so that at a given resistance of the plant to a maximum Wind load a larger solar yield is reached.

to solution the task sees the invention of a combined solar-wind plant according to the claim 1 ago.

These The system defined therein has the advantage of being foldable designed solar panels whose effective size are adapted to the wind strength can, so that z. B. in low wind, the solar area can be increased can.

A such a combined system can therefore be at least twice as much Generate electricity as the individual plants can do it alone. By the way, can the facility expedient in each Size to be built.

KSWA is in itself a wind turbine, with the generator instead of propellers carrying solar panels ( 3B ). It is steered by a switchgear. The switchgear has two sensors, each measuring the wind speed or solar heat. It is programmed so that it reacts quickly to the yield of solar heat or wind speed and switches from wind to sun and vice versa according to a given measure.

The KSWA ( 1B ) consists of a mast ( 2 ) resting on a concrete foundation ( 1 ) is mounted erect. In the slightly enlarged top of the mast ( 3 ) is a generator ( 4 ) Installed. The generator rotates but instead of propellers by solar panels ( 14 ). The solar panels are replaced by two on the lid of the generator ( 6 ) fixed support arms ( 10 ) hanged on the mast. The solar panels are separated into an upper and a lower part ( 2 B ) so as not to hinder the rotation. Each of the four solar panels ( 2 B ) is in turn divided into three more solar panels ( 2 B . 16 . 15 ). The main plate, which is in the middle, is twice as wide as the individual side plates. The side plates have the purpose of increasing the solar area as possible, thereby generating more electricity. But since a large solar area in the air can threaten the danger of collapse due to strong wind, the side panels are folded when switching to wind ( 4B ). This task is carried out by small units installed at the back of the solar panels where they hang from the main panel ( 18 ). The two side panels are folded backwards ( 4B ), so that they do not damage the solar cells and so that the main plate during the rotation is still solar active and can generate electricity.

In order to use the solar heat and the wind force effectively to generate electricity, the solar panels are moved by two other small aggregates. These small aggregates are installed in the hollow support arms on the side of the solar panels, where they terminate with an axis of rotation ( 13 ). They are there to move the solar panels towards the sun ( 3B ) or the wind ( 6B ) to turn. On the lid of the generator ( 6 ) is a small fan ( 9 ) and a small solar panel ( 8th ) Installed. The rotation of the small fan measures the wind force while the system is solar active, and the solar panel measures the solar power while the system is wind active. The measurements are transferred to the switchgear ( 7 ), where they are then sent to the small aggregates ( 13 . 18 ), which are responsible for turning or opening and closing the solar panels, are forwarded. Once the units have received the message, they will switch the wind power to the sun and vice versa; the electricity generated is then passed on to where you want it to go ( 5 ). Through the sensors, the power generation system turns on wind at night, and during the day it can switch from solar to wind and vice versa, depending on which of the En more electricity can be generated. This immensely increases the power generation compared to the individual wind turbines or the solar area of the same size.

A Risk of collapse of the solar wings replacing the propeller is not given, as the solar panels with the wind direction around the mast rotate. This KSWA is also quieter than the wind turbine. There the solar panels do not oppose the wind direction, but instead Run with the wind direction, there will be no noise, which at the wind turbine caused by the friction of the wind at the propeller surface.

Claims (4)

Combined solar-wind plant with a mast ( 1 ), at the upper tip of which a generator is arranged, which is secured by support plates attached to solar panels ( 14 ), the solar panels ( 14 ) are each separated into an upper and a lower part and all parts thereof are divided into three further solar panels, wherein the central main solar panel is twice as large as the laterally attached side solar panels, which are collapsible when switching to wind operation. Combined solar-wind plant according to claim 1, characterized characterized in that the plant with small, at the back the area attached aggregates, which for the folding and unfolding of the solar panels are responsible, and two others, the solar surface horizontally and vertically rotating aggregates is provided. Combined solar-wind plant according to claim 2, characterized characterized in that it comprises a wind sensor and a solar sensor, through which the system switched from solar to wind power and vice versa becomes. Combined solar-wind plant after one of the previous ones Claims, characterized in that it is characterized by the two regenerative energy sources, Sun and wind, alternately generating electricity.