DE4304577A1 - New design of the wind-driven power generator - Google Patents

Abstract

The introduction of the unified design of the wind-driven modular power generator has the effect of reducing its cost. The high output (power) can be effectively used in the case of heating water in boilers and of heating houses. In the case of strong wind, it becomes warmer and more comfortable at home. As a consequence, there will be substantial savings in fuel, and the costs of installation of the cost effective, wind-driven power generator will be recovered very quickly. The use of wind-driven power generators furthermore improves the ecological situation.

Description

In the design offered, the wings are on the Rotor shaft and generator housing set, the rotor and the stator of the generator in opposite directions rotate. Such attachment of the wings allowed two times more To generate electrical energy. In drawing no. 1 that is Shown module in which the wings on the generator shaft and whose housing is attached. The ends of the shaft rotate free in the bearings of Π-like construction.

The energy consumption takes place through rings and on the housing attached brushes. On the drawing no. 2 the module in shown on another level. There are one each on the drawing Pair of blades on the rotor and on the housing of the generator shown. The blades turn the rotor and stator in opposite directions. In drawing no. 3 the Wing of the generator shown separately. On the wing of the An aileron is attached at an angle to the generator by means of the wind effect on the wing around the axis in the sleeve the housing of the generator rotates. There is a spring in the sleeve attached, the wing almost with weakening wind strength perpendicular to the wind power. When the wind strength increases the aileron turns the wing at an acute angle to the wind current. At very strong wind, the wings become almost parallel to the wind current set up. This enables the speed of the engine to be stabilized Generator and protecting the wing from breakage. At Ab weakening the wind force, the wings are in the previous Positioned. On drawing No. 4 is the lineup Possibility of three modules shown on one support. A such a set of modules enables Construction to always face the wind without additional corrections. It is recommended at the first level introducing the construction mainly for the Water heating in the boilers and heating the houses too use. This offers the opportunity to add fuel save what the cost of the wind powered very quickly Power generator will cover and the ecological situation, especially in windy countries, improved.

Reference list

1.1 generator
1.2 rotor shaft
1.3 stator blades
1.4 rotor blades
1.5 Mechanism for power consumption
1.6 ailerons
1.7 Π-shaped bearings
2.1 stator blades
2.2 rotor blades
3.1 Generator housing
3.2 sleeve
3.3 wing
3.4 Ailerons
4.1 Module of the wind powered electricity generator.

Claims (6)

The construction shown is characterized in that it consists of three standardized, easily removable modules that can be replaced during repair and operation. Each module consists of a Π-shaped metal construction with a wind-powered electricity generator ( Fig. 1). It is also characterized in that the ends of the Rotor shaft are located in bearings of the Π-shaped construction and the rotor rotates freely in the Π-shaped bearings of the support, as well as the stator around the rotor. This enables the stator and turn the rotor in the opposite directions. This is characterized in that the performance of the wind powered electricity generator with every wind flow around it double increases. Fig. 2 '' shows the opposite rotation of the stator and rotor blades. The blades are mounted in the sleeves on the housings of the rotor and stator, where they rotate when the wind force increases suddenly ( Fig. 3). Ailerons are attached to the wings at a certain angle, which are the levers for turning wings under the wind. This protects the wings from breakage and stabilizes the speed of rotation. There is a damping spring in the sleeve which brings the wing into the starting position. Fig. 4 shows the installation of modules on the support. The construction is characterized in that it enables turning against the wind without additional correction.