DE2948060A1 - Wind-driven rotor with vertical shaft - has blades formed by helical strips with ends held between radial spokes on rotor shaft - Google Patents

Abstract

The wind energy converter comprises a rotor which is rotatable (A) about a vertical axis (1) and has blades (3) shaped such that, on rotation, they generate a cylinder of revolution (2). The blade surfaces form a helical pattern on the surface of this imaginary cylinder. The surfaces of the blades may be contoured similarly to the tooth flanks of a single or double-helical gear wheel. The ends of each blade may be secured to spokes (4a,b) radially extending from the rotor shaft.

Description

Device for converting wind energy

The invention relates to a device for converting wind energy, which is rotatable about a vertical axis and with leaf-shaped, for receiving the Parts used for wind power generate a cylindrical surface during rotation.

Conventional wind rotors of this type, also referred to as "H" rotors are built with vertical leaves, preferably on an imaginary Circumferential cylinder surface. These rotors have the advantage that they are of the Wind direction are independent and that the rotor blades at all points with the same Speed around. However, there are very strong aerodynamic changes Forces that reach a maximum twice and twice during an orbit decrease to 0. The maximum force is once towards the axis of the rotor and the other ideally directed away from the axis. Similarly, it changes from the rotor generates torque.

This change is particularly effective with single- and two-blade rotors unfavorable. But even with multi-blade rotors of this type, the fanning of unwanted vibrations in the structure, the gearbox and the driven machines be expected.

In any case, constructive measures are required to suppress the vibrations required, which of course entail undesirable costs.

Therefore, the object of the invention is seen in a wind turbine to create with a rotating body of the type mentioned, in which the listed disadvantages are avoided.

This object is achieved in that the surface of the leaf-shaped, To accommodate the wind power serving rotor parts as curved, on a helical line of the cylinder jacket running helix is executed.

In place of the well-known "H" rotor with the straight, parallel to the According to the invention, a helical blade rotor is to occur with blades rotating around the rotor axis.

The effect of the applied force is in such rotors similar to helical or helical gear teeth. The attack of wind power starts punctually, and the effect of the wind forces overlaps in a more meaningful way Way. However, the applied force is applied during part of the rotor revolution other side of the sheet and is punctiform again, which also improves the degree of uniformity in the company.

Further advantageous embodiments of the invention are therefore with development of the basic idea characterized in that the surface the leaf-shaped part similar to the tooth flank a helical or a herringbone wheel is designed.

The torque delivered to the rotor shaft changes during a Only a little in circulation. One way to adjust the blade angle during the circulation does not need to be provided.

Further details, features and advantages of the invention result from the claims as well as from the following description and the drawing figures, in which the invention is explained in detail and schematically in an embodiment example is shown.

1 shows a perspective-schematic side view of a rotor according to the invention, FIG. 2 is a plan view in the axial direction of the rotor of Fig. 1.

In Fig. 1 is a wind turbine with three blades that can be acted upon by the wind 3, which is rotatable about a vertical axis 1. The surface of the rotor blades is according to the invention as a curved, on a helical line one through the circumferential Rotor blades produced, imaginary cylinder jacket 2 running spiral surface executed. The rotor blades 3 are each at their upper and lower ends from the ends held by arms 4.

In this way, the main loads in the sheet can pass through Tensile forces are advantageously absorbed.

The rotor arms 4 go up and down on the rotor in a star shape from the Axis 1 off. In the present three-leaved embodiment, the arms are 4 below and above in plan view parallel to each other and guide the sheets 3 on a helical line of the imaginary shell 2 in each case from the one arm, for example arm 4a, above, to which in the direction of rotation, which is indicated by an arrow "A", next arm, for example arm 4b, below.

While in the illustrated embodiment, the blade arrangement is helical follows on an imaginary lateral surface, have leaf surfaces as with the Tooth flanks of a helical tooth system and blade shapes that are the same as those of a herringbone tooth system corresponding flank shapes that have also been found to be advantageous.

In addition to the advantages that even the "H" runner seem cheap let the following advantages arise with wind rotors according to the invention.

Kick during a revolution because of the more evenly acting wind force and only minor disruptions due to local disruption of the flow on the rotor blades only slight fluctuations in angular velocity. Because of that now A rotor according to the invention is therefore in contrast to a good degree of uniformity In addition to the well-known "H" rotors, it is also suitable for driving electrical machines.

Claims (4)

Claims device for converting wind energy to a vertical axis is rotatable and with leaf-shaped, for receiving the Winakraft A cylinder jacket surface is generated for the parts that are used in circulation, characterized in that that the surface of the sheet-shaped parts (3) as curved, on a helical line of the cylinder jacket (2) extending helix is ausfunrt. 2. Device according to the preamble of claim 1, characterized in that that the surface of the leaf-shaped parts (3) similar to a tooth flank of a helical gear is designed. 3. Device according to the preamble of claim 1, characterized in that that the surface of the leaf-shaped parts (3) similar to a tooth flank of a Wheel is designed with a herringbone toothing. 4. Device according to one of the preceding claims, characterized in that that the leaf-shaped parts (3) of the rotating body at their ends above and below, respectively are held by arms (4) connected to the axis (1).