DE3126692A1 - Wind turbine - Google Patents

Abstract

The invention relates to a wind turbine with a multi-bladed wind wheel, which is bell shaped and open to windward. For controlling the transmission of wind energy to the blades, the latter are, according to the invention, made from an elastically flexible material, with their end faces fixed on two spoked wheels, the fixing being arranged on the larger spoked wheel arranged on the windward side so that it is displaceable on the spokes by means of tension elements. The effective surface can thereby be adjusted to the respective wind position and in particular considerably improve the storm position of the wind turbine. A wind wheel for the wind turbine according to the invention is depicted in Fig. 1, from which the adjustability of the blades can be seen. <IMAGE>

Description

Wind turbine

The invention relates to a wind turbine of the type according to the preamble of claim 1.

In the case of wind turbines of this type, the special shape and Arrangement of the blades of the wind turbine in connection with the centrally arranged bluff body a favorable wind energy utilization achieved. The regulation of wind energy transmission on the wing takes place by changing the shape and size of the bluff body.

The invention is based on the object of a generic Wind turbine to implement a regulation of the wind energy transmission to the blades, without the need for a special bluff body.

This object is achieved according to the invention by the features in the characterizing part of the claim 1 listed features solved.

Appropriate further developments are laid down in subclaims 2 to 5.

In the case of the wind turbine according to the invention, the regulation becomes simpler Way by moving the resiliently flexible wings along the spokes of the Spoked wheel made, the favorable funnel-shaped training after Basic principle of the generic wind turbine for better use of wind power, in particular in weak winds, is largely preserved.

At the same time, the storm situation of the wind turbine can be considerably reduced improve without needing to be turned out of the wind.

The invention is explained below with reference to the drawing in an example explained in more detail. The figures show: FIG. 1 in side view an embodiment of the invention Wind turbine; Figure 2, also in side view, another embodiment of the The subject of Figure 1; FIG. 3 shows a plan view of the object of FIG. 1; FIG. 4 shows a plan view of the basic element of a wing (uncoiled) and FIG. 5 shows a Wings in a spiral shape, as it is arranged on the spoked wheels.

In Figures 1 and 3, the wind turbine of a wind turbine is shown, in the case of a hub 3, which is also the shaft of the turbine, not shown is, a spoke wheel 30 and a larger spoke wheel 31 are arranged. The associated Spokes are labeled 30.1 to 30.8 and 31.1 to 31.8, respectively. On the spoke wheels 30, 31 wings 2 are attached, in the example (Figure 3) eight of them with the designations 2.1 to 2.8. The wings 2 are made of an elastically flexible material and are accordingly deformable, as indicated by the dashed line and the number 2 ' can be seen from FIG. The arrangement of the wings 2 on the spoke wheels 30, 31 is such that the inner end surface 8 of the wing 2 is fixed to the spoke wheel 30 and on the larger spoked wheel 31 the outer end surfaces 9 of the wings 2 are displaceable are arranged. The shift takes place along the spokes 31.1 to 31.8. The displaceability is brought about by pulling elements 32, which have a role play 34 can be actuated and guided over pulleys 35 and with a stop and Guide element 33 are connected to which the wings 2 are attached and which on the spokes 31.1 can be moved to 31.8.

The embodiment of the wind turbine, which is shown in Figure 2, differs from that in Figure 1 in that the displaceability of the wings 2 is effected via a tension element 32 designed as a spring element. Farther the spokes 30, 31 are inclined so that the wings 2 in the storm position -2 'suffer a less pronounced curvature than in the embodiment in Figure 1. The Roller capstan 34 is replaced by a multiple roller capstan 36, so there is one for each Tension element has its own role.

Depending on the strength of the wind flowing in the direction of arrow 6, the The position of the wings 2 is changed by actuating the pulling element 32. At lower The position of the wind force is preferably selected as shown in FIGS. 1 and 2 solid lines with respect to the wing 2 is shown. In this position I bid the wing 2 represents the largest area for the wind. In the event of a storm, the is dashed The illustrated position of the wings 2 'is set, in which the wings 2' are the least Present attack surface.

As can be seen from FIG. 4, the wing 2 has proven to be a favorable shape one that is formed from a basic element 200, the less is coiled around the neutral fiber 10 as a quarter turn. The basic element 200 is opposite the base element 20 of the blade of the generic wind turbine tapered on one side and less than 900 around the neutral fiber 10 in its final shape formed coiled. As can be seen from FIG. 5, this results in a position of the inner end face 8 of the wing 2, which is opposite to the direction of the hub 3 around the acute angle (C is twisted.

2 wings 2.1 .. 2.8 wings 20 basic element, -200 tapered on one side Basic element 3 shaft, hub 30 spoke wheel 30.1 .. 30.8 spokes 31 larger spoke wheel 31.1 .. 31.8 spokes 32 tension element 33 stop and guide element 34 roller capstan 35 Deflection pulley 50 Wind turbine 6 Direction of flow arrow 8 Inner end surface of the wing 9 outer end face of the flake 10 neutral fiber α acute angle Blank page

Claims (5)

Wind turbine patent claims 1 Wind turbine with one of several blades existing wind wheel to drive a work machine or a generator, wherein According to the patent (patent application P 30 47 501 from December 17, 1980) the blades are made of circular ring sections which are twisted a quarter turn (900) around their neutral fiber and are each arranged with the inner end face radially to the wind turbine hub, while the outer Enfläche is arranged axially and on a circular path, so that the blades form a goblet-like wind turbine open to the wind, d a d u r c h e k e n n n z e i c h n e t that on the hub (3) of the wind turbine (50) a Spoked wheel (30) and a larger spoke wheel (31) are attached to the spoke wheel (30) the inner end surfaces (8) of the wings (2, 2.1 .... 2.8) firmly and on the larger Spoked wheel (31) the outer end surfaces (9) of the wings (2, 2.1 .... 2.8) displaceable on spokes (3101 .. 31.8) are arranged and the wings (2, 201 ... 2.8) from one elastically pliable material are made. 2. Wind turbine according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the displaceability of the wings (2.1 .. to 2.8) on the spokes (31.1 ... 31.8) of the larger spoked wheel (31) are caused by tension elements t32), which are connected to the wings via stop and guide elements (33). 3. Wind turbine according to claims 1 and 2, d a d u r c h g e k e n n z e i c h n e t that the pulling element (32) is actuated via a roller capstan (34) and is guided over a pulley (35). 4. Wind turbine according to claim 1 or according to claim 1 and one or several of the following claims, d a d u r c h e k e n n n z e i c h n e t that the inner end surfaces (8) of the wings (2) at an acute angle (ort) opposite the direction of the hub (3) twisted on the spoked wheel (30) is attached and accordingly the base element (20, 200) by less than a quarter turn (900) around the neutral Fiber (10) is coiled. 5. Wind turbine according to claim 1 or claim 1 and one or several of the following claims, d a d u r c h e k e n n n z e i c h n e t that the basic element (20) of the wing (2) designed as a circular ring section as one-sided, namely towards the inner end surface (8), tapered base element (200) is formed is.