NL2000889C2 - Device for generating power from wind or water flows. - Google Patents

Description

DEVICE FOR GENERATING POWER FROM WIND OR WATER FLOW

The invention relates to a device for generating power from wind or water flow.

Various embodiments of such a device are known in the relevant field. A well-known example is the wind turbine, which is usually used to generate electricity (green electricity), sometimes in large 'parks' with many wind turbines, on land or at sea (off-shore). There are two basic designs of the known wind turbine: with a horizontal axis or with a vertical axis. The Horizontal Axis Wind Turbine is equipped with a rotor with (three) rotor blades that rotate around a horizontal axis. The Vertical Axis Wind Turbine is equipped with a rotor with (helical) rotor blades that rotate around a vertical axis. The best known types of VAWTs are Darrieus and Savonius.

The invention has for its object to provide a device for generating power from wind or water flow with an alternative design.

The device according to the invention comprises a frame; at least one mast movably attached to the frame at a first end; and at least one vane attached to a second end of the mast; wherein the wick and the mast 20 are movable under the influence of wind or water flow; and wherein the device is further provided with means for generating power, which are coupled to the first end of the mast, wherein the mast is adapted to perform a pendulum movement.

In the device according to the invention, only the wick is on top of the mast, while the means for generating power are at the bottom of the mast, so that the device has a low center of gravity. This means that a small foundation and a lighter mast are sufficient. The high position of the wick leads to less noise pollution. The low position of the power generation means makes it easily accessible, which leads to lower maintenance costs. Thanks to the pendulum movement, the forces exerted on the vane are moreover more constant than with a rotating movement, which has a positive contribution to the service life of the vane.

In a first preferred embodiment of the device according to the invention, the pendulum movement can be carried out between two extreme positions, which are located on either side 2 of a central position, in which central position the mast, in the position of use of the device, is substantially perpendicular to the device. frame extends.

According to a further preferred embodiment, the device according to the invention comprises a counterweight which is attached to the first end of the mast. The counterweight ensures balance and is needed for optimum energy management.

The counterweight can preferably be releasably coupled to the means for generating power to lift the mast to the position of use or. to iron in the resting position. The installation of the device can thus easily take place without large cranes and therefore at lower costs. The maintenance can be carried out in the resting position. The resting position can also serve as a storm position lock.

In a practical preferred embodiment, the device according to the invention further comprises means for rotating the frame. The position of the mast and the vane can hereby be optimally adjusted to the wind direction.

In another preferred embodiment the vane is tiltably attached to the mast, such that the vane extends substantially perpendicular to the direction of movement during the movement of the mast. The speed of the vane during the pendulum movement is therefore substantially the same over its entire surface. As a result, it is not necessary to design the vane in a twisted manner, but a simpler and therefore cheaper construction is sufficient for the vane.

The device according to the invention preferably comprises means for automatically adjusting the wind angle of the vane in the extreme positions of the mast.

In yet another preferred embodiment, the device according to the invention comprises a housing, in which the frame and the means for generating power are accommodated. In an elegant preferred embodiment, the housing is at least partially underground.

According to an energetically favorable embodiment, the device according to the invention comprises a flywheel which can be coupled to the means for generating power.

Preferably, the means for generating power comprise a mechanical transmission and a power generator, so that the device according to the invention is suitable as a wind turbine for generating electricity (green power).

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The invention will now be discussed in more detail with reference to the drawings, in which

Figures 1A, B, C show schematic side views of a preferred embodiment of a device according to the invention in three positions of the mast;

Figure 2A shows a cut-away schematic side view of a part of the device of figure 1 in the position of use;

Figure 2B shows the device of Figure 2A in rest position; Figure 3A shows a cut-away schematic front view of an upper part of the device of figure 1 in the right-hand position of the mast;

Figure 3B shows the device of Figure 3A in rear view;

Figure 3C shows a cut-away schematic front view of a lower part of the device of figure 1 in the right-hand position of the mast; Figures 4A, B, C show schematic top views of the device of figure 1 in the three positions of the mast; and

Figure 5 shows a schematic side view of the device from Figure 1 with an additional housing.

Figures 1A, B and C show a preferred embodiment of a device 1 according to the invention, which is suitable for generating power from wind. In Figure 1A, device 1 occupies the extreme left position. In Figure 1B, device 1 occupies the central position. In Figure 1C, device 1 takes the extreme right-hand position.

Device 1 comprises a frame 10. A mast 20 is movably attached to the frame 10 at a first end 25. Device 1 further comprises at least one vane 30 which is attached to a second end of the mast 20. The mast 20 is together with the vane 30 adapted to perform a pendulum movement under the influence of wind. In the context of the present invention, a shuttle movement is understood to be a movement back and forth from a center point. The pendulum movement is executable between the two extreme positions shown in Figs. 1A and 1C. Thereby the central position is always passed, as shown in figure 1B, in which the mast extends substantially perpendicular to the frame. In the extreme left position, the mast 20 has a deviation through a pendulum angle Ui relative to the central position (shown as a (dashed) line). In the extreme right position, the mast 20 has a 4 deviation corresponding to the pendulum angle U2 relative to the central position. In general:

I Owl = I U2I

Figure 2A shows a cut-away schematic side view of a part of device 1 in the position of use. The rest position of device 1 is shown in Figure 2B.

The mast 20 is rotatably mounted on the frame 10 with the first end about a shaft 21. A counterweight 22 is attached to the first end of the mast 20.

Device 1 is further provided with means 40 for generating power, which are coupled to the first end of the mast 20. The movement of the mast 20 is transmitted via a drive rod 41, a crankshaft 42 and a transmission 43 to a ( generator 44. A flywheel 45 is preferably placed between the transmission 43 and the generator 44.

The frame 10 has a number of legs 11 which are supported on a turntable 12. The turntable is accommodated in a foundation 13 with a concrete edge 14, which is provided on the inside with supporting rollers 15 for securing the turntable 12. A motor, for example a wheel motor 16, is provided for rotating the turntable. By rotating the frame, the position of the mast 20 with blade 30 can thus be optimally adjusted to the prevailing wind direction. The foundation 13 is preferably arranged wholly or partially submerged in the substrate.

The mast 20 is releasably coupled at the height of the counterweight 22 to the means 40 for generating power. In the shown preferred embodiment this is realized by means of a detachable attachment of the drive rod 41 to the pin 24 at the bottom of the mast 20. In addition, many other possibilities are conceivable for realizing the detachable coupling. An example of this is an alternative connecting rod with adjustable length. Others Upon installation, upon coupling of the drive rod 41 to the crankshaft 42, the mast 20 will automatically move to the central position, as shown in Figure 1B, thanks to the counterweight 22. By disengaging the drive rod 41 and the crankshaft 42, the mast can be lowered (see figure 2B). If required, the mast can be easily locked in the ironed position, for example if the maximum permitted wind force is exceeded.

Figures 3A and 3B show a partly cut-away schematic front view and rear view, respectively, of an upper part of the device from figure 1 in the right-hand position of the mast. Figure 3C shows a partly cut-away schematic front view of a lower part of the device of figure 1 in the right-hand position of the mast. The vane 30 is mounted tiltably on the mast 20. Device 1 is provided with means for tilting the vane 30 relative to the mast 20. The vane 30 is mounted on a shaft 31 at the second end of the mast 20. The means for tilting the vane 30 comprises a yoke 32 which is mounted on a shaft 39 transversely of the vane shaft 31. Two tension cables 33, 34 are attached to the yoke 32. Steel cables are an example of suitable tension cables. The tensioning cables 33, 34 are of equal length and extend substantially parallel to each other in the mast 20. The tensioning cables 33 and 34 are mounted at the bottom of the mast on a yoke 23 which is mounted on the shaft 21. As a result of this, the wick will extend substantially perpendicular to the direction of movement during the movement of the mast.

If the yoke 23 is fixed in an orientation parallel to the surface level M (ie in horizontal position with the shown horizontal placement of the frame 10 on a flat surface), the yoke 32 will also have an orientation parallel to the surface level M (in this example continue to assume a horizontal position) during the pendulum movement of the mast 20. The winding shaft 31 and the winding blade 30 extend substantially transversely of the yoke 32, that is, the wiper 30 assumes an orientation transversely of the ground level M (in this case for example a vertical position) at a horizontal position of the yoke 32.

Device 1 is further provided with means for adjusting the wind angle, i.e. the angle that the vane makes with respect to the wind direction. These adjusting means are also adapted to automatically fold over the vane 30 in the extreme positions of the mast 20. To this end, the vane 30 is rotatably arranged around the vane shaft 31. The means for adjusting the wind angle comprise a flange 35 which is arranged under the vane 30 on the vane shaft 31. A motor 36 and a (gear) transmission 37 ensure the rotation of the vane.

A disc-shaped housing 38 is provided around the winding shaft 31, in which the means for tilting the wick, ie the yoke 32 and the top side of the tensioning cables 33, 34, and the means for adjusting the wind angle, ie the flange 35 , the motor 36 and the transmission 37 are accommodated. The disc-shaped housing 38 is partially shown in Figures 3A and 3B.

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The movements of the mast 20 and the vane 30 of device 1 are illustrated in Figures 4A, 4B and 4C. In all figures the wind direction is indicated by W and the direction of movement of the mast 20 by B.

In figure 4A the mast 20 takes the extreme left position. The frame 10 is rotated to the optimum position of the mast 20 taking into account the wind direction W. The vane 30 is rotated relative to the mast 20 to the shown optimum orientation with wind angle taking into account the wind direction W. Device 1 is now ready for outgoing movement in the direction of movement

In figure 4B, the mast 20 takes the central position. In this position, the mast 10 extends substantially perpendicular to the frame 10. When the frame 10 is placed horizontally on a flat surface, the mast 20 assumes a vertical position. The orientation of the vane 30 is unchanged.

In figure 4C, the mast 20 takes the extreme right-hand position. Just before the mast 20 has taken the extreme right-hand position, the adjusting means have caused the vane to flip over to the orientation shown with associated wind angle a2. The two wind angles for outgoing and return movement are related via the relation a2 = 360 ° - ai. Device 1 is now ready for return movement in the direction of movement.

Optionally, the frame 10 with the means 40 for generating power are accommodated in a housing 50, as shown in Figure 5. The housing 50 can be arranged partially sunk in the substrate.

The invention is of course not limited to the described and shown preferred embodiments, but extends to any embodiment that falls within the scope of the scope of protection as defined in the claims viewed in the light of the foregoing description and accompanying drawings.

Claims (10)

An apparatus (1) for generating power from wind or water flow, comprising: 5. a frame (10); - at least one mast (20), which is movably attached to the frame at a first end; and - at least one vane (30) attached to a second end of the mast; wherein the wick and the mast are movable under the influence of wind or water flow; 10 and wherein the device is further provided with means (40) for generating power which are coupled to the first end of the mast, wherein the mast (20) is adapted to perform a pendulum movement. 2. Device as claimed in claim 1, wherein the pendulum movement is executable between two extreme positions, which are located on either side of a central position, in which central position the mast (20), in the position of use of the device, is substantially perpendicular to the frame (10) extends. The device of claim 2, further comprising a counterweight (22) attached to the first end of the mast (20). Device according to claim 1, 2 or 3, further comprising means (12, 13, 14, 15, 16) for rotating the frame. Device as claimed in any of the foregoing claims, wherein the vane (30) is tiltably attached to the mast (20), such that the vane extends substantially perpendicular to the direction of movement during the movement of the mast. Device as claimed in any of the foregoing claims, further comprising means (35, 36, 37) for automatically adjusting the wind angle of the vane (30) in the extreme positions of the mast (20). Device according to one of the preceding claims, further comprising a housing, in which the frame (10) and the means (40) for generating power are accommodated. Device as claimed in claim 7, wherein the housing is at least partially underground. Device according to one of the preceding claims, further comprising a flywheel (45) which can be coupled to the means (40) for generating power. 10 Device according to one of the preceding claims, in which the means (40) for generating power comprise a mechanical transmission (43) and a current generator (44).