DE3045826A1 - Wind-driven energy plant - automatically aligns guide surface in front of turbine to wind direction - Google Patents

Abstract

The plant uses a wind turbine (1) with a rotational axis (2) extending perpendicular to the wind direction, the rotational moment delivered to the turbine (1) coupled to an electrical generator (4) or a pump. The turbine (1) a guide surface (3) positioned in front of it relative to the wind direction, its longitudinal axis extending parallel to the turbine axis (2). Pref. the guide surface (3) has a constant cross-section throughout its length. It may comprise a sheet metal plate angled towards the turbine axis (2), with a roller attached to it for automatically aligning it with the wind direction. The plant is compact and efficient.

Description

"Resistance system"

The invention relates to a wind power plant consisting of a wind turbine6 with an essentially perpendicular to the wind direction or adjustable Axis of rotation 80-like an output for taking the generated by the wind power Torque.

In a known wind turbine of the type mentioned, there is Turbine made of a so-called Savonius rotor, which staggered two in opposite directions having arranged blade blades and a vertical axis of rotation. The Savonius rotor is independent of the wind direction and has a very even torque curve Over the angle of rotation and a high starting torque. However, the efficiency is relative small amount. The Savonius rotor is mainly used to drive roof stars on vehicles applied.

High-speed wind turbines are used to generate energy on a larger scale with two or more blades rotating around a horizontal axis. Such wind turbines have a good degree of efficiency, but the external dimensions are such Wind turbine relatively large and the bulky construction is already suitable for optical reasons Often times not for setting up in the countryside. 1 The invention is the The underlying task is to design a wind turbine of the type mentioned at the outset in such a way that that they can be used as a large system with good while maintaining the compact design Can use efficiency.

According to the invention this object is achieved in that in the wind direction in front of the turbine on the one turning against the wind Side of the Turbine a nozzle is arranged.

The construction according to the invention makes it possible to increase the efficiency a wind turbine with the axis of rotation perpendicular to the wind direction to improve. This makes this type of wind turbine also suitable for larger systems economically.

On the other hand, with high-speed wind turbines, which were previously used in coarser systems have been used alone, the wind turbine according to the invention has a more compact one Construction method that can be incorporated into the landscape more inaccessible.

The guide apparatus preferably has its entire length essentially constant cross-section, with the longitudinal axis of the diffuser parallel to the turbine axis.

The best effect is achieved when the diffuser is over the extends the entire axial length of the turbine. In contrast to the Savonius rotor, which has only a relatively short axial length, the wind turbine in the invention System be made relatively long, so that a comparatively large energy yield is achievable.

The diffuser can have a wide variety of geometric shapes. Good results can be achieved if the distributor is in the shape of a salaried employee Has Leitbieches that is inclined towards the turbine axis. Further a good result is achieved when the perpendicular to the longitudinal axis of the diffuser lying cross-section of the diffuser with one pointing against the wind direction Curvature is provided.

To further increase the efficiency, the in the wind direction seen rear side area of the turbine side moving with the wind direction a guide plate following approximately the outline of the turbine may be arranged, with the FUhrung3blech at its end facing the wind direction a wind inlet slope having. -With the wind turbine according to the invention, the axis of rotation can Turbine all positions within the substantially perpendicular to the wind direction occupy a standing level. The horizontal arrangement of the axis of rotation shows the Advantage of a low overall height, however, the Rotorachae must with 'changing Wind directions are always swiveled. A preferred embodiment is therefore a wind turbine with a vertical axis of rotation. In this embodiment, at least the turbine itself is independent of the wind direction, it is only necessary to use the nozzle and, if necessary, adapt the guide plate to the respective wind direction. Of the For this purpose, the diffuser and the guide plate are preferably on one the axis of rotation of the turbine rotatable frame attached and can preferably automatically depending on the Set wind direction to automatic bin position can be used on the rotatable frame to align the Wind vane serving for the diffuser be arranged. Alternatively, a Wind sensor can be provided with which the frame for aligning the guide apparatus is rotatable via a separate drive.

In order to be able to build sufficiently large turbine lengths, for example form slender, tower-like constructions with a vertical axis of rotation the turbine in its central area is concentric to its axis of rotation zwecIna'ziger an enclosed core area to which the rotor blades adjoin.

This core area can have a circular cross-section to which Connect curved rotor blades tangentially. The core area can, however, in cross section also have the shape of a polygon, for example an equilateral triangle or a square, in which the polygon surfaces to form the barrel shovel over One corner each are continued.

The polygon sides can also be slightly curved, with the Connect the blades to the rolygon sides in a constant curvature.

The invention is illustrated in the drawing, for example and described in detail below with reference to the drawing. They show: Fig. 1 shows a vertical cross section through an exemplary embodiment of a wind turbine along the line I-I from Fig. 2, FIG. 2 shows a section along the line II-II Fig. 1, Fig. 3 shows a similar section to Fig. 2 of another embodiment of the wind turbine and FIG. 4 shows a similar section to FIG. 2 of another Exemplary embodiment of a wind power plant.

In the embodiment shown in Figs. 1 and 2, there is the wind turbine from a wind turbine 1 with a vertical axis of rotation 2, a automatically adjustable to the wind direction diffuser 3 and a through the turbine 1 drivable generator 4.

The WinBurbine 1 shows in comparison. to its diameter one relative large axial length, eo that when the turbine 1 is suspended on its vertical Axis of rotation 2 a tower-like X-construction is created. The required rigidity the wind turbine 1 is surrounded by a concentric to the axis of rotation 2 arranged Core area 5 formed by a surrounding the axis of rotation 2 at a distance cylindrical tube 6 is generated. To the pipe 6 close in tangential Arrangement of three curved blades 7 offset from one another by 1200, which extend over the entire axial length of the wind turbine 1.

The turbine is circular at the top and bottom Plate 8 or 9 limited, the diameter of which extends to the outer ends of the blades 7 is enough. The blades 7 are with their upper and lower end faces to the Plates 8 and 9 attached. The plates 8 and 9 also support the bearings 10 and 11, with which the turbine 1 is guided on the axis of rotation 2.

With greater heights, the wind turbine 1 is over its length with at least a stiffener 12 is provided which has the shape of a circular plate with the same Diameter as the plates 8 and 9 has. In the level of the stiffener 12 can the blades 7 be subdivided, with the possibility also being given that individual blade sections to move each other.

The axis of rotation 2 has the shape of a bearing mast, which is shown in FIG attached to a base 13 anchored in the ground in a vertical arrangement so as not to be rotatable is.

The axis of rotation points approximately in the area of the upper plate 8 ′ of the turbine 1 2 has a paragraph 14 on which the entire turbine eats suspended. The camp 10 for this purpose, in addition to the radial bearing part, also does not have one in the drawing Axialllagereil shown in more detail on the lower bearing II, however, only exists from a radial bearing part.

A frame 15 is also rotatably mounted on top of the axis of rotation 2, which carries the diffuser 3. In the embodiment shown in FIGS. 1 and 2 the diffuser 3 is designed as an employed guide plate 16, which is Ab, he extends the entire height of the blades 7 and over its entire length one has a constant cross-section. The guide plate 16 is parallel to the axis of rotation 2 of the turbine arranged.

The employed guide plate 16, which is inclined towards the axis of rotation 2 is, should, in order to develop its optimal effect, always arranged in this way be that it is in the direction of the wind in front of the turbine 1 on the opposing wind Side of the turbine. as shown in FIG.

So that the baffle 16 depending on the changing Can adjust the wind direction automatically, has the frame 15 on the mefestigungsstelle of the diffuser 9 opposite side on a wind vane 17.

The baffle plate 16 hanging on the frame 15 is used for larger construction heights for reasons of stability also guided at its lower end, unizwar supports it extends over rollers 18 on a rail 19 running around the base 13 away.

The one used to extract the torque generated by the wind power Generator 4 is arranged in a recess 30 of base 13. The drive shaft 20 of the generator 4 points vertically upwards and carries at its upper end a pinion 21 connected to one on the outer periphery of the lower plate 9 of the wind turbine t arranged internally toothed ring 22 is in the Bing.

Instead of the generator 4, a different one can of course also be used Drive device, for example a pump, may be provided.

In the embodiment shown in Fig. 3, both Wind turbine 1 and the diffuser 3 have been modified.

The core area 5 through which the axis of rotation 2 is passed is, is formed in this embodiment by a box-shaped profile 23, whose cross section has the shape of an equilateral triangle. The triangular areas are here to form the blades 24 over one corner of the triangle continued so that the blades 24 have a planar shape. For reasons of manufacturing technology, a rotor blade 24 can be made from one piece exist with a side surface of the Xastenprofils 23, so that from the Kastenprofll 23 as well as' the three blades 24 bedetehende unit of three rectangular metal sheets can be welded together.

The storage and suspension of the turbine 1 is carried out in the same way has been as in the embodiment shown in Figs.

The diffuser 3 is also suspended in the same way as in the previous embodiment. However, according to Fig. 3, the cross section of the diffuser 3 is designed differently, namely as a curved sheet metal 25 formed whose curvature points obliquely against the wind direction. The one in the direction of the wind The projected width corresponds approximately to that of the guide plate 16 according to FIG. 2.

A further exemplary embodiment of the wind turbine 1 is shown in FIG. 4. The area 5 enclosing the axis of rotation 2 is in this case by a box-shaped Profile 26 is formed, the cross-section of which has the shape of a square with something outward Has curved sides. The Laufsohaufeln 27 close in steady Curvature on the outwardly curved sides of the square. The rotor unit that consists of the box-shaped profile 26 and the adjoining four LauSschaufeln 27 consists of four bent metal sheets can be welded together.

The diffuser 3 has in the embodiment according to FIG.

4 has the same shape as in the embodiment shown in FIG.

To further improve the efficiency, the embodiment According to FIG. 4, however, still provided with an air guide plate 28, which is around the rear side area of the turbine side moving with the wind direction extends. At its end facing the wind direction, the guide plate has a Wind inlet slope 29.

Claims (15)

Claims 1. Wind power plant, consisting of a wind turbine with an essentially perpendicular to the wind direction or adjustable axis of rotation and an output for removing the torque generated by the wind power, d a -d u r c h e k e n n z e 1 c h n e t that in the wind direction in front of the turbine (1) on the counter-rotating Side of the turbine a diffuser (3) is arranged. 2. Wind power plant 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 diffuser (3) over its entire length essentially a has a constant cross-section and that the longitudinal axis of the diffuser (3) is parallel to the turbine axis (2). 3. Wind power plant according to claim 1 or 2, d a d u r c h g e k e It is noted that the diffuser (3) extends over the entire axial length the turbine (1) extends. 4. Wind power plant according to claim 2 or 3, d a d u r c h g e k e n It should be noted that the diffuser (3) is in the form of an employed guide plate (16) which is inclined towards the turbine axis (2). 5. Wind power plant according to claim 2 or 3, d a d u r c h g e k e n n z e i c h n e t that the one lying perpendicular to the longitudinal axis of the guide apparatus (3) Cross-section of the diffuser with one pointing essentially against the direction of the wind Curvature (25) is provided. 6. Wind power plant according to one of claims 1 to 5, d a -d u r c h e k e k e nn n nz e i c h n e t that around the rear, side, seen in the direction of the wind The area of the turbine side moving with the wind direction roughly corresponds to the outline the turbine (1) following MuStfUhrungsblech (28) is arranged. 7. Wind power plant according to claim 6, d a d u r c h g e -k e n n z e i c h n e t that the air guide plate (28) facing the wind direction on its Has a wind inlet slope (29) at the end. 8. Wind power plant according to one of claims 1 to 7, d a -d u r c h e k e n n n z e i c h n e t that the axis of rotation (2) the Wind turbine (1) is vertical. 9. Wind power plant according to claim 8, d a d u r c h g e -k e n n z E i c h n e t that the diffuser (3) and, if applicable, the air guide plate (28) sit on a frame (15) rotatable about the axis of rotation t2) of the turbine (1) and are automatically adjustable depending on the wind direction. 10. Wind power plant according to claim 9, d a d u r c h g e -k e n n z e i c h n e t that on the rotatable frame (15) one for aligning the diffuser (3) and optionally the wind vane (17) serving the air guide plate is. 11. Wind power plant according to claim 9, d a d u r c h g e -k e n n z E i c h n e t that a wind sensor is provided with which the frame as a function is rotatable from the wind direction. 12. Wind power plant according to one of claims 1 to t1, d a -d u r c h g e k e n n n e i c h n e t that the turbine (1) is in its central area has an enclosed core area (5) concentric to its axis of rotation (2), to which the blades (7; 24; 27) connect. 13. Wind power plant according to claim 12, d a d u r c h g e -k e n n z e i c h n e t that the core area (5) has a circular cross-section (6) the curved blades (7) connect tangentially. 14. Wind power plant according to claim 12, d a d u r c h g e -k e n n 8 e i c h n e t that the core area (5) has the shape of a polygon (23) in cross section has, in which the polygonal surfaces to form the Lauiechaufeln (24) over each a corner away. 15. Wind power plant according to claim 14, d a d u r c h g e -k e n n z e i without t that the sides of the polygon (26) are slightly curved outwards and that the blades (27) adjoin the sides of the polygon in a continuous curve.