BE1017434A3 - Wind motor for generating electricity, includes drive mechanism for tilting pivotally mounted wind guide up or down - Google Patents

Abstract

The wind guide (3) is pivotally mounted on the undercarriage (2) and can be pivoted about a horizontal axle. The motor (1) includes a drive mechanism (26) for tilting the wind guide in the upward and downward directions. The wind guide has a tubular construction and contains a windmill.

Description

Device for extracting energy.

The present invention relates to a device for generating energy, more in particular a device for converting wind energy into another energy form, for example electrical energy.

More specifically, the invention relates to a device of the type which essentially consists of an undercarriage, a tubular wind deflecting element carried by the undercarriage and a windmill provided in the wind deflecting element.

Such a device is described inter alia in the international patent application WO 98/17912, wherein the windmill can be moved in the wind-guiding element by means of a carriage on which the windmill is mounted and of driving means for sliding the carriage over a guide.

Also from BE 1.013.284, such a device is already known, wherein means are provided for displacing the windmill, which in this case consist of rotatable arms extending between, on the one hand, a frame, and on the other hand, the aforementioned windmill, and drive means for moving said arms.

The present invention has an improved device for generating energy as an object, which is of the aforementioned type, and which has the special feature that the aforementioned wind guide element is arranged tiltably on the chassis, about a horizontal or substantially horizontal axis, and that the device comprises drive means for tilting the wind guide element up and down.

The device according to the invention has, thanks to the upward and downward tilting design of the wind deflecting element, inter alia the advantage that the wind deflecting element can be tilted, depending on the upward and downward windward component, so that an optimum efficiency of the apparatus can be obtained.

Another advantage of a device according to the invention is that it is extremely suitable for use in, for example, valleys, on mountain walls and the like, because it is possible to take account of possible mountain and valley winds.

In a preferred embodiment, the aforementioned device is designed in the form of a tower structure with a plurality of levels arranged one above the other, with a respective wind guide element having a windmill therein arranged on each level.

Such a tower structure makes it possible to provide a large number of wind turbines on a relatively small surface, whereby a very good efficiency and a large energy yield can be achieved.

With the insight to better demonstrate the characteristics of the present invention, a few preferred embodiments of a device according to the invention for energy recovery according to the invention are described below as an example without any limiting character, with reference to the accompanying drawings, in which: figure 1 represents a side view of a device according to the invention; figure 2 represents a section of a device according to figure 1; figure 3 represents a view, similar to that of figure 2, but with the wind guide element in a different position; figure 4 represents a part of a top view of an embodiment variant of a device according to the invention; Figure 5 represents the part indicated by arrow F5 in Figure 4.

The device 1 according to the invention as shown in figures 1 and 2 consists essentially of a chassis 2, a tubular wind guide element 3, a windmill 4 displaceable in the wind guide element 3, and means 5 for moving the windmill 4.

The base 2 consists essentially of a pylon 6, on which a frame 7 is rotatably mounted around a vertical axis ΔΑ ', because this frame 7 rests on the aforementioned pylon 6 by means of an axial thrust bearing, for example in the form of a pivot bearing. .

The frame 7 in this case consists of a horizontal supporting structure 8, which is designed in the form of a supporting beam, which is provided with upwardly directed arms 9 on its free ends.

According to the invention, the aforementioned wind-guiding element 3 is arranged tiltably about a horizontal or substantially horizontal axis on the chassis 2, which is realized in this case in that the aforementioned arms 9 are provided at their respective ends with a hinge 10 with which the wind-guiding element 3 is hinged between these arms 9 is suspended.

The wind guide element 3 has at least one section 12 narrowing from the entrance 11 in the direction of the wind direction W and preferably, as shown, a section 14 adjoining the exit 13, which is adjacent thereto.

More particularly, the wind guide element 3 essentially has the shape of a single-leaf hyperboloid, the longitudinal axis of which is intended to be rotated parallel to the wind direction.

The windmill 4 mainly consists of a rotor 15, with two or more blades 16, which is mounted on the drive shaft of a generator 17.

The aforementioned windmill 4 is arranged axially displaceably in the wind guide element 3 in this case, in that the generator 17 is supported by rotatable arms 18 and 19, in this case two pairs of arms which, on the one hand, are attached to the wind guide element 3 and, on the other hand, are connected to the windmill 4 by means of pivot points 22 and 23.

The above-mentioned means 5 for moving the windmill 4 are in this case designed in the form of means for rotating the rotatable arms 18 and 19, which means 5 in the example shown consist of one or more drive cylinders, in this case two drive cylinders 24 mounted between, on the one hand, supports 25 on the wind guide element 3 and, on the other, one or more of the aforementioned rotatable arms 18 and / or 19. Of course, the aforementioned drive cylinders 24 can also be mounted in a different manner.

According to the invention, the device 1 further comprises drive means 26 for tilting the wind guide element 3 up and down about a horizontal or substantially horizontal axis, which drive means 26 in this case are designed in the form of one or more drive cylinders 27, which are arranged between the aforementioned frame 7 and the aforementioned wind guide element 3.

In this case the drive cylinder 27 extends between the horizontal support structure 8 and a reinforcement ring 28 which is arranged around the aforementioned wind guide element 3.

According to a special feature of the invention, the device 1 can further be provided with a controller (not shown in the figures) for controlling the aforementioned drive means 26, on the basis of measurements of the up and down wind direction component W '.

The operation of the device 1 according to the invention is simple and as follows.

The frame 7 is always rotated around the vertical axis A-A 'so that the entrance 11 is in the wind. This can be done either with the aid of a fin (not shown), as a result of which the whole automatically turns in the wind, or by means of motorized drive means (not shown) for rotating the frame 7.

Such drive means can for instance be embodied in the form of a hydraulic pump or the like which is coupled via a gear wheel to a side of the aforementioned axial thrust bearing with which the frame 7 rests on the pylon 6, all this so that it is allowed to wind element 3 and rotate the windmill 4 completely around the vertical axis AA '.

However, it goes without saying that these drive means can be designed in a variety of ways and that they need not necessarily be provided with a hydraulic pump.

Whether or not on the basis of measurements, the upward or downward tilt of the wind deflecting element 3 can also be controlled by means of the aforementioned driving means 26, as shown in figure 3, wherein the wind deflecting element 3 is tilted backwards by a certain angle B because the the rod of the drive cylinder 27 is pushed outwards, for example to take account of mountain or off-peak wind.

Analogously, the wind guide element 3 can be brought into a more horizontal position by further retracting the rod of the drive cylinder 27, so that the angle B becomes smaller.

Because the tilt of the wind guide element 3 can be adjusted, an optimum wind flow rate can always be controlled through this wind guide element 3, so that the device 1 shows a high efficiency.

Due to the shape of the wind guide element 3, the wind is accelerated from the entrance 11 of this wind guide element 3, where it is widest, to the center of the wind guide element 3, where it is the narrowest.

The wind deflecting element 3 again widens to the outlet 13, so that the speed of the air flowing through the wind deflecting element 3 decreases again.

Depending on the wind speed, the windmill 4 is, as is known, positioned in the wind guide element 3 such that it can make optimum use of the present wind speed.

In other words, when there is little wind, the windmill 4 is positioned in the narrowest part of the wind guide element 3, where the wind is accelerated, as is shown in full line in Figures 2 and 3.

On the other hand, when there is a lot of wind, the windmill 4 is placed at the back of the wind guide element 3, as shown in broken line in figures 2 and 3, to prevent the windmill 4 from being overloaded and / or being damaged.

Moving the windmill 4 relative to the wind guide element 4 is done by rotating the arms 18 and 19 by means of the drive means 26.

Figure 4 shows a part of a variant of a device 1 according to the invention, which is designed in the form of a tower structure 29 with a plurality of levels 30 arranged above one another, with at each level 30 a number of wind guide elements 3 with a windmill in each case 4 are arranged.

The entrance 11 of each wind guide element 3 can preferably always be brought into the wind. This can be done either with the aid of a fin (not shown), whereby the whole automatically turns in the wind, or by means of motorized drive means (not shown).

In this example, the aforementioned tower structure 29 is in the form of a tubular structure, or a so-called "framework", which is made up of modular standard elements, so that it is possible to quickly adjust the dimensions and / or the shape of the tower structure 29 and / or to even be able to move the tower structure 29.

In addition, because the invention permits the use of a minimum of different standard elements, the tower structure 29 can be produced in series production, which is inexpensive. and is simple.

The tubes of such a tube construction can for instance be interconnected by means of pinions or flanges provided for this purpose, so that a strong structure is obtained.

An advantage of such a tubular tower structure 29 is that wind can freely blow through the tower, without being obstructed.

In this case, and as shown in more detail in Figure 5, the tubular structure consists of a number of vertically arranged intermediate pieces 31 which serve as a column and which are connected by horizontal, parallel beams 32 which have a double-walled circumference of the tower structure 29 shapes and horizontal side beams 33 which connect the two parallel walls of the tower structure 29 to each other.

Finally, the tubular structure is further provided with central beams not shown in the figure, which form an actual level at which one or more wind turbines can be provided.

A practical realization of a device 1 according to the invention can for instance consist of a tower structure with a diameter of approximately 250 meters and a height of approximately 1070 meters, which is provided with forty levels on which twenty-five windmills 4 are each provided.

However, it goes without saying that a device 1 according to the invention can have any height or width and that it is not limited to the dimensions described as an example.

If desired, a space can be provided at the bottom of the tower structure, which can be used, for example, as a warehouse, workplace, offices or the like.

Preferably, the windmills are each provided with a separate pylon and the windmills are spread over the entire circumference of this level for each level.

Each of the windmills 4 preferably operates separately and, depending on the wind direction and any mountain or valley wind, can be rotated around a vertical axis A-A 'and tilted up and down. In this way, for wind turbines at different levels, differences in wind direction in height can be taken into account, so that an optimum efficiency can be obtained.

According to a special feature of the invention, each level of the tower structure can be in the form of a separately operating unit, all of which is allowed to increase or decrease the tower structure by adding or removing one or more levels.

An important advantage of such an embodiment is that it allows an optimum efficiency of wind energy to be achieved on a ground surface that is limited in size by using several wind turbines 4 placed one above the other.

Another advantage of such a device 1 according to Fig. 4 is that the wind is not disturbed, either upon entering the wind deflecting element 3, or upon leaving it, so that the different wind deflecting elements 3 with wind turbines 4 do not influence each other, which is excluded with conventional windmills.

According to the invention, it is therefore possible to mount the different wind guide elements 3 with their respective wind turbines 4 one above the other or to place them one behind the other in series.

According to a variant not shown in the figures, a device 1 according to the invention can be designed in the form of a wall construction or the like, instead of in the form of a tower construction.

The aforementioned drive means 26 for tilting up and down the wind deflector element 3 are not limited to the drive cylinders 27 described as an example, but can also be realized in other ways, for example in the form of a servo motor which, optionally via a transmission, adjusts the upwardly directed position of the wind guide element 3.

It is clear that the aforementioned windmills 4 can be of any shape or type, and that this also includes wind turbines and the like.

In the examples shown, the windmill 4 is displaceable in the wind guide element 3, by means of the arms 18 and 19, but it is clear that other means can also be provided for displacing the windmill 4 in the wind guide element 3, for example in the shape of a slide or the like.

According to the invention, it is also not excluded that the windmill 4 is fixedly mounted in the wind guide element 3.

The present invention is by no means limited to the embodiments described as examples and shown in the figures, but such a device for generating energy can be realized in various shapes and dimensions without departing from the scope of the invention.

Claims (14)

Device for generating energy, consisting essentially of an undercarriage (2), a tubular wind guide element (3) carried by the underframe (2), and a windmill (4) provided in the wind guide element (3), characterized in that said wind deflecting element (3) is arranged tiltably about a horizontal or substantially horizontal axis on the chassis (2) and the device (1) comprises drive means (26) for tilting the wind deflecting element (3) up and down. Device according to claim 1, characterized in that the wind guide element (3) is hingedly suspended in a frame (7) which is arranged on the aforementioned undercarriage (2). Device according to claim 2, characterized in that the above-mentioned frame (7) consists of a horizontal support structure (8) which is provided with two arms (9), which are provided with a hinge (10) at their respective ends, with which the wind guide element (3) is hingedly suspended between these arms (9). Device according to claim 1, characterized in that said drive means (26) for tilting the wind guide element (3) comprise one or more drive cylinders (27). Device according to claim 4, characterized in that said drive cylinder (27) is arranged between said frame (7) and said wind guide element (3). Device according to claim 1, characterized in that the aforementioned means (26) for tilting the wind guide element (3) are provided with a servo motor. Device according to one of the preceding claims, characterized in that it is provided with a controller for controlling said drive means (26) based on measurements of the wind direction. Device according to one of the preceding claims, characterized in that the aforementioned tubular wind guide element (3) has a varying diameter. Device according to claim 8, characterized in that the wind guide element (3) has a section (12) narrowed from the entrance (11) in the direction of the wind (W), as well as a section extending towards the exit (13) ( 14). Device according to one of the preceding claims, characterized in that the aforementioned windmill (4) is designed so as to be movable in the aforementioned wind guide element (3), and in that the device (1) comprises means (5) for displacing the windmill (4) ). Device according to one of the preceding claims, characterized in that the wind guide element (3) is arranged rotatably about a substantially vertical axis (A-A ') on the chassis (2), so that it can always be adjusted in the direction of the wind turned. Device according to one of the preceding claims, characterized in that it is in the form of a tower structure (29) with a plurality of levels (30) arranged one above the other, wherein on each level (30) a wind guide element (3) having therein a windmill (4) is fitted. Device according to claim 12, characterized in that the above-mentioned tower structure (29) is designed in the form of a tubular construction. Device according to claim 13, characterized in that the aforementioned tubular structure is composed of standard modular elements.