FR2876162A1 - Aerogenerator for e.g. domestic application, has octagonal shaped part that constitutes frame of aerogenerator and formed of wind sensors-orientators, and flaps having blades which open by raising and close by lowering by their weight - Google Patents

Abstract

The aerogenerator has a rotor (1) receiving wind and transforming a linear force of the wind into circular force at a pulley. A fixed outer octagonal shaped part (5) constitutes a frame of the aerogenerator and is formed of wind sensors-orientators (6) and fixed flaps (7). The flaps are arranged at each side of the part (5) and have horizontal blades (8) which open by raising and close by lowering by their dead weight.

Description

Pierre GAUDIN

    My desire 49170 SAINT GEORGES SUR LOIRE tel. : 02.41.39.14.64 AEROGENERATOR AT TOUVENT

Brief description:

  The device consists of two parts: one MOBILErE, the other FIXED.

  The movable central part is formed of a vertical rotor, with horizontal rotation on a VERTICAL AXIS. The outer part is fixed; OCTOGONAL (inspired by the Rose of the Winds) is the building of the apparatus, the rigid structure, formed by wind directional sensors and fixed shutters themselves equipped with horizontal blades that open by rising and closing in s 'lowering at will, allowing to capture and control the wind whatever its direction and strength.

  - A third fixed part placed under the sensors and the ROTOR constitutes the technical cabin allowing to receive the various mechanisms, pulleys and generator.

  It's sort of a type of 3-stroke wind engine.

  1. Admission on the windward side, P. i 2. Pressure on the blades, - O e.

  3. Exhaust on the side opposite the wind. 44 P "4 This unit captures the wind, whatever its direction, to orient it, to control it and to transform its force into horizontal rotary motion.

  Operation: Start-up: We open 2 or 3 shutters on the side from which the vefit comes by raising the blades 41. - Horizontal to allow the entry of air, then 2 shutters on the opposite side to the wind to create the depression and the call of air. (current type of air in a house).

  The air flow thus established rotates the pesa of the rotor. It starts moving and drives a pulley fixed below it (in the teolwheel cabin itself leads others, flying inert which allows to compensate and regulate the blows of the wind. , F

  It is only necessary to recover the energy produced with a power generator appropriate to the size of the apparatus. The electricity produced can be directed to the E.D.F. or stored in batteries.

  In case of strong wind or storm, it seems more prudent to close all shutters. The rotor stops and can better withstand the wind.

  The current setting and control of operation are manual, but can be mechanized and automated.

  These types of wind turbines must be placed in sites well exposed to all winds (such as windmills of old). But it does not seem necessary to place them at very great heights.

  It is especially necessary to place them in open spaces and at least above the ridge of the roofs or the top of the surrounding trees.

  This equipment can adapt perfectly in a built environment and blend in the built environment or in any environment. It can be built on a pedestal base in wood, metal or masonry. t 3 It could also take place on a roof terrace. Because of its wind capture mode, all drafts are good to take.

  This device requires an oi, one can imagine a roof and a SOUTH facade, equipped with photovoltaic solar cells, thus achieving a bi-20 energy capture station

Claims (10)

-3-CLAIM   1. This unit starts moving regardless of the direction or direction of the wind, thanks to its double-acting directional sensors. They capture and direct the wind towards the blades at the entrance but also prevent the friction of the wind on the blades of the opposite rotor.   2. The rotor with vertical axis and horizontal blades receives the wind and transforms its linear force in circular force to a pulley located under the rotor. This energy is taken up and amplified thanks to a set of flywheel pulleys, which transmit it to a generator, located in a technical cabin, under the rotor.   3. The rigid outer construction, octagonal shape gives strength and wind resistance that must be guaranteed by the manufacturer.   4. The outer shutters, on each side of the octagon are equipped with horizontal blades that open by rising and closing by lowering by their own weight, which allows the adjustment of the air inlet , see its closure in this windy weather.   5. The power generator appropriate to the size of the device converts the energy into electricity that can be directed to the E.D.F. or stored with batteries and a transformer.   6. This simple and easy-to-build aerogenerator can be made by craftsmen or contractors, carpenters, carpenters (wood or iron) or by knowledgeable and skilled handymen.   7. Easy and inexpensive operation, monitoring and maintenance can be performed by anyone. Its moderate construction cost is very affordable and its operation is SILENT.   8. This unit must naturally be placed in a sufficiently windy area from all winds and above surrounding roofs and trees.   It can be mounted on a pedestal or wood or masonry frame or masonry, possibly on a roof terrace.   9. Currently the mastery of air entry and exit is manual but can be easily mechanized and automated.   10. By adding photovoltaic solar cells on the roof and on the south facade, we obtain a power station from two different and complementary sources, which increases its total autonomy capacity.