NL1034680C2 - Vertical wind powered generator for being mounted on roof of building to generate electricity from wind, has vertically positioned shaft driven by horizontal wind disk, valves mounted on double plate, and vertical shaft surmounted by disk - Google Patents

Abstract

The generator has a vertically positioned shaft driven by a horizontal wind disk. The wind disk is provided with a double plate, and a set of valves is mounted on the double plate, where the wind disk drives with a magnetic bearing pivot by horizontal wind. A vertical shaft is surmounted by the wind disk.

Description

Wind powered vertical generator.

The wind-driven generator consists of a vertically arranged shaft, which is driven by a horizontal wind disk.

The axis of the generator is perpendicular to a pivot bearing, but makes only a small contact with it due to a possible magnetic force field.

The total pressure on the pivot bearing, due to the mass of the generator and the wind disk, is then made smaller by means of magnetism.

This results in an almost frictionless construction that requires a greater efficiency or a smaller driving force.

There is also less strobe effect, such as with a normal wind turbine, due to the absence of large vertically rotating blades.

Also the pressure force on the vertical axis as with normal wind turbines is missing, so there is no danger of a bending mast or turbine blades touching each other.

There is also no loss due to friction by the gear transmission because the generator shaft, the rotor, and the wind disk form one whole.

Because the generator has a vertical axis, with a horizontal wind disk above it, the area that cannot be used for grazing cattle is no larger than the size of the vertical structure.

The vertical axis with generator is an existing construction, namely an axis generator that is arranged not horizontally but vertically.

The drive through the horizontal wind disk, combined with the magnetic pivot bearing, ensures a high efficiency

The construction of the wind disk consists of a double plate between which the valves 25 are mounted.

This creates a flat whole from which the valves rotating with the wind fold down.

The valves are constructed in such a way that force and arm above and below the pivot point are almost equal.

Due to the small difference, the part below the pivot will fold down and catch the wind and close it again when it turns against the wind. A small piece of the valves may possibly protrude outside the sealing plate, so that the wind helps the valve to fold down.

This means that the upper plate catches at least some wind, which can be brought even further back by roughening (such as a shark skin). J 1 034680 2

This creates a wind-driven generator that, regardless of the wind direction, always stays in the same position and catches maximum wind.

Depending on the location, several wind-driven generators can be placed next to each other by making the axis of the generator and the wind disk longer or shorter.

5 Various versions of the drive are possible, such as: • A horizontal wind disk that ensures that the rotor rotates and generates electricity. See FIG. 1 and 2.

• Multiple horizontal wind discs that are connected to a rotor bush and can therefore exert a greater force and thus generate more electricity. See FIG. 3 • Horizontal wind discs that twist against each other, so left and right wind discs, which are equipped with coils so that electricity can be generated.

• Horizontal wind discs that rotate against each other, so left and right wind discs 15, one of which drives the rotor and the other the stator.

If the shape of the vertical wind-driven generator is made as if there is a silo, this also results in less horizon pollution and thus forms more a whole with the countryside.

Because the wind is not directly a constant drive and the national grid must be able to meet the demand, it is a possibility to use the generated electrical energy for electrolysis.

The advantage of this is that the hydrogen produced can be burned in gas-fired power stations, saving fossil fuel.

The power stations continue to run at normal power, so high efficiency and continue to feed the electricity grid.

The technology required for this method of hydrogen generation and use provides employment and knowledge.

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Claims (2)

5. There is less space loss, so more generators can be placed next to each other, with the wind disk possibly at different heights. • No sagging blades or mast. • Less or no strobe effect. • The generators do not have to be exceptionally high due to the construction. • Wind-driven generators can also be installed on roofs or other high-rise buildings. • The shape of the vertical generator can be adapted to the environment, for example as a silo. Because of this there is minda: annoying horizon pollution. 15. Because of the implementation, the wind-driven generators can also be placed in pastures among grazing cattle. • Due to the magnetic pivot bearing there is less frictional loss, • Due to less frictional losses, this construction requires less wind to generate electricity and can therefore generate faster and / or more energy, resulting in greater efficiency. 1 034680