NL8301775A - Windmill with axis of rotation at right angles to wind direction - has four vertical, curved blades which swivel to optimise output - Google Patents

Abstract

The four shovel-shaped blades (12) are mounted on the ends of horizontal arms (2 to 5) which join together and pivot on a vertical shaft (6) at the centre. The shaft (6) is supported by a tube (7) anchored in a base (8). The blades are mounted by brackets (11) which can swivel on vertical support tubes (9) on the ends of the arms. The blades automatically adopt angles to the wind which provide the greatest rotary moment. Damping cylinders (18), swivel-mounted between the edges of the blades and angled support bars (20) on the arms, prevent vibration and shock. The cylinders can operate independently, or be linked by hydraulic lines between opposing pairs of blades.

Description

-1-23092 / CV / tl

Short Designation: Windmill.

The invention relates to a windmill provided with a body rotatable about a substantially vertical axis of rotation, to which blades are coupled, such that these blades are pivotable relative to the body about at least substantially pivot axes extending about the axis of rotation.

Such a windmill is known from Dutch patent application 7807654. In this known windmill, the hinge axis around which a blade is pivotally located in the plane of the blade itself and near one end of the blade. During operation, the blade hereby performs unwanted pivoting movements, which generate a resistance to twisting of the body about its axis of rotation and thus adversely affect the capacity of the windmill.

According to the invention, the blades are now coupled to the rotatable body by means of arms attached to the blades, which extend at least substantially perpendicular to the longitudinal axes of the cross-sections of the blades and are fixed to the blades in between longitudinal edges of the blades extending substantially parallel to the axis of rotation.

When the construction according to the invention is used, it can be effected that the blades adjust fully automatically depending on the wind force and the wind direction, without the blades assuming an undesirably resistant position.

The invention will be explained in more detail below with reference to some exemplary embodiments of the construction according to the invention schematically shown in the accompanying figures.

Fig. 1 shows in perspective an embodiment of a windmill according to the invention.

FIG. 2 schematically shows a top view of a part of the windmill shown in FIG. 1.

Fig. 3 shows the mutual coupling of two hydraulic cylinders, which are connected with at least substantially diametrically opposed blades.

Fig. 1 schematically shows a windmill according to the invention, which comprises a body 1, which in the illustrated exemplary embodiment shows four arms extending at least substantially in radial direction 2-5. The body is attached to a vertically standing shaft 6, which is rotatably mounted in a support tube 7> which is attached to a pedestal 8. At the ends of the arms 2-5 are mounted 5 vertically standing sleeves 9, in which vertically hinged shafts 10 are alloyed. The ends of arms 11 are connected to the ends of a pivot shaft 10 projecting below and above the sleeve 9.

The ends of the arms 11 remote from the pivot shaft 10 are fixedly attached to a blade 12.

As can be seen in particular from Fig. 2, the blades 12 have a more or less wing-shaped profile in cross-section and the arms 11 extend approximately perpendicular to the longitudinal axis of the cross-section of the blade, ie the connecting line between the boundary edges 13 and the 14 of the respective blade 12 extending parallel to the axis of rotation of the windmill, which connecting line extends at least substantially parallel to the outer surface of the blade 12 remote from the arms 11.

The distance between the longitudinal edge 13 and the point of attachment of an arm 11 to the blade 12 is approximately half the distance 20 between the longitudinal edge 14 and the point of attachment of the arm 11.

In addition, ears 15 are mounted near the longitudinal edge 13 on the inner side of the blade for coupling a cylinder 1g, in which a piston is connected, which is connected to a piston rod 17, by means of a vertically extending hinge pin 16. is coupled, with the aid of a vertical hinge pin 19, to a support 20 which is attached to one of the radially extending arms.

The piston located in the cylinder 18 is provided with a small passage through which fluid can flow from the space located on one side of the piston in the cylinder 18 to the space located on the other side of the piston in the cylinder 18 . It will be appreciated that thus the cylinder 18 with the piston and piston rod disposed therein acts as a buffer to slow down the pivoting of the respective blade 12 about the pivot axis 10. Also, these cylinders act as boundaries for the angle at which the blades will twist.

As seen in fig. 2, with a wind direction in the direction according to arrow A, the windmill will rotate about the vertical axis of rotation 6 in the direction 8301775 -3- 23092 / CV / tl according to arrow B. During this rotation of the windmill, the blades will automatically pivot about the pivot shafts to take the position which is most favorable relative to the wind direction for turning the windmill.

As the wind increases and thus the speed increases, the blades will tend to move under the influence of the centrifugal force to a position in which the arms 11 attached to the blades 12 extend approximately in the radial direction. This gives a * <braking effect, so that an excessive increase of the speed is avoided.

As shown schematically in fig. 3 of two diametrically opposed vanes, the cylinders 18 can be coupled to each other by means of a pipe 21, which is connected to the one cylinder i on the side of the respective cylinder from which the piston rod exits 15 and on the other cylinder at the end of the cylinder concerned facing away from the piston rod. The cylinders and the pipes will thereby be filled with liquid. It will be clear that in this way it is always effected that the two blades 12 so coupled together will rotate together such that if one blade extends approximately perpendicularly to the spoke supporting the blade concerned, the other blade will at least substantially will extend parallel to the spoke supporting this blade. At high speeds, however, this pivoting will again be influenced to a greater extent by the centrifugal forces exerted on the blades, and the two blades can thereby assume an intermediate position between the two under the influence of the forces exerted on the blades by the wind and the centrifugal forces. 2 and maintain this intermediate position, whereby an automatic limitation of the speed of the windmill will be effected.

As further indicated in fig. 3, an adjustable throttle valve can preferably be arranged in the pipe between the two cylinders of the diametrically opposed blades 1 so as to be able to influence the folding of the blades further such that this is uniform and quiet and no undesired noises are produced when the 35 blades are folded over. Of course, in this embodiment no passages are provided in the pistons connected to the piston rods.

8301775 -4-23092 / CV / tl ft

Although the illustrated embodiment of the windmill comprises four blades, a different number of blades can of course also be used.

The windmill can be used to drive, for example, 5 pumps, generators and the like.

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8301775

Claims (7)

Windmill provided with a body rotatable about a substantially perpendicular axis of rotation to which blades are coupled, such that these blades are pivotable about at least substantially parallel to the axis of rotation with respect to the body 5, characterized in that the vanes are coupled to the rotatable body by means of arms attached to the vanes, which extend at least substantially perpendicular to the longitudinal axes of the cross-sections of the vanes and are secured to the vanes between the at least substantially parallel to the axis of rotation. 10 linear longitudinal edges of the blades. 2. Windmill according to claim 1, characterized in that the point of attachment of an arm to a blade is located at a distance from one longitudinal edge, which is at least half the distance between this point of attachment of the arm and the other Longitudinal edge of the blade. Windmill according to claim 1 or 2, characterized in that the distance between the hinge axis of a blade and the blade itself is approximately one third of the distance between the longitudinal edges of the blades extending parallel to the axis of rotation. Windmill according to any one of the preceding claims, characterized in that means are provided for braking the pivots of the blades about their pivot axes. Windmill according to any one of the preceding claims, characterized in that a hydraulic adjusting cylinder is arranged between each blade and the body rotatable about the axis of rotation, while the hydraulic adjusting cylinders of two blades, which are at least approximately diametrically opposite each other, are provided by means of a pipe connected all this in such a way that the two blades coupled together with each other always + O over an angle of approximately - 90 lag. Windmill according to any one of the preceding claims, characterized in that means are provided to limit the pivoting of a blade to an angle of -90 °. Windmill according to any one of the preceding claims, characterized in that the arm is located closer to the edge of the blade leading in rotation than to the trailing edge of the blade. 8301 775 35