FR2955626A1 - Panemone wind turbine for use as advertisement display medium in urban environment, has rotor movable around main rotational axis, and lower and upper blade supports and connection shafts constituting self-supporting rigid structure - Google Patents

Abstract

The turbine (1) has a rotor (2) movable around a main rotational axis (A1) i.e. vertical axis, and provided with hollow blades (3-5) that are movable around secondary rotational axes (A2) on lower and upper blade supports (6, 7). The supports are mutually integrated with one another by connection shafts (8-10). The supports are not provided with connection shafts at the level of the main axis. The shafts simultaneously constitute the secondary rotational axes of the blades. The supports and the connection shafts constitute a self-supporting rigid structure.

Description

The invention relates to a wind turbine which will find a particular application, but not limited to, as an advertising medium. The wind turbine is of the "panemone" type, for which the rotor of the wind turbine is rotated due to a mechanical engine torque generated by a differential aerodynamic drag force between the blades. In "panemone" type wind turbines, this drag differential is achieved by providing the mobile blades on the rotor blade support, along secondary axes of rotation, said carrier, itself, being rotatable about a main axis. The rotation of the blades is coordinated with the rotation of the rotor blade support, so that the drag of the blade descending to the wind is greater than the drag of the blade upwind, to maximize the engine torque developed by the blades. blades. Such a wind turbine, with blade pitch continuously variable, should preferably be oriented in the direction of the wind. Document FR-08/57567 discloses such a wind turbine whose mechanism for coordinating the blades with the rotation of the rotor blade support comprises a central shaft of the rotor and a central pulley connected via a clutch. Once disengaged, it is possible to orient the wind turbine in the direction of the wind to optimize its performance. Also known, for example from GB 2.292.191, FR 2.459.380, WO 2005/100785, GB 2.438.209, such wind turbines, whose blade coordination mechanism with the blade support comprises a tail, preferably positioned above the wind turbine, which allows to mechanically orient the wind turbine in the direction of the wind. Often in such wind turbines, the rotor is vertical axis of rotation to capture the wind regardless of its direction. However, if the wind is strongly channeled, it may be advantageous to opt for a horizontal axis of rotation. The blade support of the rotor comprises a first support, lower, and a second support, upper, arranged relatively on either side of the blades, along the longitudinal axis of said blades. The first support and the second support each have a central hub intended to co-operate in rotation with the main axis of the wind turbine, the blades being articulated at their ends by means of secondary hubs of the first support, and secondary hubs. the second support, between the first support and the second support. A single main link shaft, coaxial with the main axis of rotation of the rotor, secures the first support and the second support. In such a rotor, the blades participate with the first and second supports and the main link shaft, the rigidity of the self-supporting structure of the rotor. However, being an integral part of the self-supporting structure of the rotor, the blades must be of sufficiently robust design, especially in survival mode in high winds, which represents a major drawback to the design and construction of such structures. For example, documents GB 2,067,670, GB 2,396,190, GB 2,438,209, DE 191,715,373 and GB 2,292,191 disclose such wind turbines, the structure of which has a main link shaft and blades articulated to their ends through the secondary hubs of the first and second supports. The object of the present invention is to overcome the aforementioned drawbacks by proposing a wind turbine whose rotor design makes it possible to be much more tolerant on the design of the blades, especially in terms of their shape and their mechanical strength. Another disadvantage of this rotor, according to the inventor, lies in the unsightly and cumbersome presence of a connecting shaft on the main axis of the rotor joining the first support, lower, and the second support, upper. Another object of the invention is to provide such a wind turbine whose design provides automatic aerodynamic braking of said rotor, which braking thus advantageously reducing the forces exerted on the rotor structure in extreme force wind. Another object of the present invention is to propose such a wind turbine of improved aesthetic appearance, particularly with regard to integration problems in the urban environment. Another object of the invention is to propose such a wind turbine, whose design predestines it to constitute an advertising medium, particularly in view of the maintenance operations or the renewal of the display, which operations require intervention on site and to realize work at height. Other objects and advantages of the present invention will become apparent from the following description which is given by way of indication only. The invention thus relates to a wind turbine comprising at least one rotor movable about a main axis of rotation, said rotor comprising at least two blades and a blade support, each blade being rotatable about a secondary axis of rotation on said blade holder, said blade holder being rotatable about said main axis of rotation. According to the invention, the blade support comprises a first support and a second support, arranged relatively on either side of said blades along the longitudinal axis of the blades, the first support and said second support being mutually interconnected via connecting shaft 20 of said blade support, said blade support being devoid of connecting shaft at the main axis of rotation of the rotor, said connecting shafts simultaneously constituting the secondary axes of rotation of said blades, the first support, the second support and the connecting shafts thus constituting a rigid self-supporting structure. According to optional features: - the blades are hollow, - the hollow blades have translucent walls and an internal lighting intended for the backlighting of said blades, - the body of each of the blades is obtained by the assembly 30 of two half-shells whose assembly plane of the two half-shells may be parallel to the secondary axis of rotation of said blade, or alternatively, the body of each of the blades is obtained in one piece by molding of a thermoplastic, - the first support and the second support each have a star configuration, which star has a number of branches equal to the number of rotor blades, each connecting shaft joining the end of a branch of the star of the rotor. first support at the end of a branch of the star of the second support, - each connecting shaft may consist of a spar, removable fastening means, such as pin system providing a e rigid connection between each end of said connecting shaft and one of the corresponding branches of the first support or second support, - the rotor is three blades, said secondary axes of rotation being angularly distributed from each other by 120 ° about said axis main, said secondary axes being equidistant from said main axis of rotation, - the wind turbine comprises a connecting mechanism adapted to coordinate the rotation of the blades with the rotation of the blade support, which comprises at least one main pulley, a secondary pulley connected to one of the blades and a belt connecting the secondary pulley to the main pulley, the wind turbine has a means of aerodynamic braking of said rotor in the event of strong wind, comprising an elastic means in torsion, along a secondary axis of rotation subject to said secondary pulley and the blade corresponding to said secondary pulley, - the main axis of rotation is vertical or horizontal. The invention also relates to the use of such a wind turbine as an advertising display medium. The invention will be better understood on reading the description accompanied by the appended drawings in which: FIG. 1 is a schematic view of a wind turbine 30 according to the invention according to one embodiment, FIG. 3 is a diagrammatic view of a wind turbine according to the invention; FIG. 4 is a diagrammatic view of a wind turbine according to the invention; FIG. invention, according to a second embodiment, the blade coordination mechanism with the blade support comprises a tail, positioned above the wind turbine, for mechanically orienting the wind turbine in the direction of the wind, - the FIG. 5 is a diagrammatic view of a wind turbine as illustrated in FIG. 4, said wind turbine also having an aerodynamic braking means for said rotor in the event of strong wind, comprising an elastic means in torsion (ie torsion spring ) salt a secondary axis of rotation, securing the secondary pulley and the corresponding blade to said secondary pulley, - Figure 6 is a schematic view of the blades, from above illustrating the variable pitch of the blades in normal wind (solid lines), and the FIG. 7 is a diagrammatic view of a wind turbine as shown in FIG. 4 showing removable fastening means, such pins, providing the rigid connection between each end of the connecting shaft and one of the corresponding branches of the first support or second support, - Figure 7a is a detail of the frame VII as shown in Figure 7.

Also, the invention relates to a wind turbine 1 which comprises at least one rotor 2 movable about a main axis of rotation Al. This rotor 2 comprises at least two blades 3, 4, 5 and a blade support 6, 7. blade 3, 4, 5 is movable in rotation about a secondary axis of rotation A2 on said blade support, said blade support being rotatable about said main axis of rotation Al. The first support 6 and / or the second support 7 may each have a central hub 61; 71 cooperating in rotation along the main axis of rotation Al. As illustrated in FIG. 1, according to one example, only the first lower support 6 may have a central hub cooperating with a shaft 11 to constitute a pivot 21, the second support 7 being deprived. According to the examples of FIGS. 4 to 7, the first support 6 and the second support 7 each have a central hub 61; 71. According to the invention, the blade support 6, 7 comprises a first support 6 and a second support 7, arranged relatively on either side of said blades 3, 4, 5 along the longitudinal axis of the blades, the first support 6 and the second support 7 being interconnected by means of connecting shafts 8, 9, 10 of said blade support. As shown in FIG. 1, the blade support has no connecting shafts at the main axis of rotation Al of the rotor, the connecting shafts 8, 9, 10 simultaneously constituting the secondary axes of rotation A2. said blades 3, 4, 5. The first support 6 and the second support 7 and said connecting shafts 8, 9, 10 constitute a self-supporting rigid structure. Of course, each blade 3, 4, 5 can be provided, in particular at its ends, with bearings 20 cooperating in rotation with one of said connecting shafts 8, 9 or 10. In particular, according to the example of FIG. 1, the first support 6 and the second support 7 have a star configuration, which star has three branches equal to the number of blades 3, 4, 5 of the rotor. Each connecting shaft 8, 9, 10 joins the end of a branch of the star of the first support 6 to the end of a branch of the star of the second support 7. The connecting shafts and the branches of the first support 6 and the second support 7 may consist of a welded-mechanic 30 forming a "frame" almost indeformable. The rotor is, for example, three blades 3, 4, 5. The secondary rotation axes A2 are angularly distributed from each other by 120 ° about said main axis A1 and equidistant from said main axis of rotation Al. to be much more tolerant on the design of the blades 3, 4, 5, with such a structure. The blades can be of inferior rigidity, or even of any shape compared to those of the state of the art developed. The blades 3, 4, 5 can be hollow, the skin thickness of the blades being low in comparison with the blades of a rotor of the state of the art. A small thickness of the wall of the blades advantageously makes it possible to create blades that can be backlit, whose walls are translucent, an internal lighting device to the blades for backlighting said blades. In addition, this arrangement makes it possible to create blades of any shape in particular according to the simplified schematic example of Figure 3. The body of a blade can be obtained by the meeting of two half-shells. The body of each of the blades can thus be obtained by assembling two half-shells, in particular molded and in particular translucent. The assembly plane P of the two half-shells of the blade may be parallel to the secondary axis of rotation A2 of said blade. Alternatively, the body of each of the blades can be obtained in one piece, in particular by molding a thermoplastic. Such a wind turbine, one of whose characteristics is the slow rotation of its rotor, will find particular application as advertising display medium, the blades can be thus shaped, almost without constraint, the logo or the shape of another distinctive sign, or be backlit for better viewing, especially at night. An alternator (not shown), driven by the rotor of the wind turbine, will in particular generate the electricity needed to power the backlight device of said blades. As illustrated, a connecting mechanism may be provided to coordinate the rotation of the blades 3, 4, 5 with the rotation of said blade holder 6, 7, 8, 9, 10. According to the example of FIGS. 1 and 2, the first support 6 (lower support) of the rotor support and the output shaft 11 are rotatable relative to each other by means of a pivot 21 formed by a central hub of the first support 6 and the output shaft 11, with axis of rotation coaxial with the main axis A1. The linking mechanism comprises at least one main pulley 12, in particular connected to the output shaft 11, as well as at least one secondary pulley 13, 14 Connected to one of the blades 3, 4, 5 and a belt 16, 17, 18 connecting the secondary pulley to the main pulley. This link mechanism is developed only briefly in the present application. For more details on this mechanism, a person skilled in the art can refer to document FR-08/57567. The link mechanism of the invention may optionally have the clutch mechanism described in this document, or its motorized servo system, which can direct the wind turbine in the direction of the wind. The example of FIG. 4 illustrates a three-blade wind turbine whose secondary axes of rotation A2 are angularly distributed from each other by 120 ° about said main axis of rotation A1. For the sake of clarity, FIG. second axes A2 connecting trees 8 and 9 in the same plane, which does not correspond to reality. The blade support of the rotor 2 comprises the first support 6, lower, and the second support 7, upper, and three connecting shafts 8, 9, 10 constituting the secondary rotation shafts A2 of the wind turbine. The first support 6, lower, has a central hub 61 intended to cooperate in rotation along the main axis of rotation Al, vertical, with a fixed support shaft 62 and secured to the frame. Around this central hub 61, three branches of the first support 6 extend every 120 ° around Al, the end of each of the branches being rigidly secured to a lower end of one of the connecting shafts 8, 9 or 10.

The second support 7, upper, has a central hub 71 for cooperating in rotation, along the main axis of rotation Al, with a shaft 72 of a device for orienting the wind turbine in the direction of the wind.

Around this central hub 71, three branches of the second support 7 extend every 120 ° around Al, the end of each of the branches being rigidly attached to an upper end of one of the connecting shafts 8, 9 or 10. Also, the first support 6, the second support 7 and the three connecting shafts constitute a self-supporting rigid chassis. Each of the blades 3, 4 or 5 is rotatably mounted on its corresponding connecting shaft 8, 9 or 10. For this purpose, the ends of the blades may be provided with bearings 20 cooperating in rotation with the corresponding connecting shaft 8. 9 or 10.

As illustrated, the wind turbine has a connecting mechanism adapted to coordinate the rotation of the blades 3, 4 or 5 with the rotation of the blade support 6, 7, 8, 9, 10, comprising a main pulley 12, as well as secondary pulleys 13, 14, 15, each connected and secured to a blade 3, 4, 5. Belts 16, 17, 18 respectively connect the secondary pulleys to the main pulley. The device for orienting the wind turbine in the direction of the wind comprises a empennage 80 which is secured via said shaft 72 of the main pulley 12. This empennage 80 can automatically and mechanically guide the wind turbine by the force exerted by the wind on empennage 80.

The wind turbine illustrated in Figure 5 is substantially similar to that of Figure 4 and differs in that it has, in addition, a means of aerodynamic braking of said rotor in high winds. This braking means consists essentially of elastic means 30 in torsion, along a secondary axis of rotation A2 which fasten each blade 3, 4, or 5 with its corresponding secondary pulley 13, 14, 15. As illustrated in FIG. , these elastic means 30 are constituted for each secondary axis A2 by a torsion spring connecting a secondary pulley 13, 14, 15 with the corresponding blade 3, 4 or 5. The operation of this braking means is illustrated in Figure 6. In the case of moderate winds, the blades are illustrated in solid lines, the blade coordination mechanism for maximizing the engine torque, the blade upwind being particularly oriented in such a way as to minimize the drag force, the blade descending to the wind oriented in such a way as to maximize the drag force. In the case of strong winds, the torque exerted by the wind on the blades is much greater than the restoring torque induced by the elastic means 30, the blades 3, 4, or 5 being then forced to pivot relative to their corresponding secondary pulley. thus minimizing the force differential generated by the blade coordination mechanism with the blade support. Finally, the wind turbine of FIG. 7 is substantially similar to that of FIG. 4 and is however distinguished by the structure of the rotor blade support 2 which allows rapid disassembly of the blades 3, 4, 5. For this purpose , Removable fixing means 21, such as pin system, provide the rigid connection between each of the two ends of the connecting shafts 8, 9 or 10 and the branch associated with this end of the first support 6 or the second support 7. For example , as shown in Figure 7a, the end of the leg of the first and second supports 6, 7 may be U-section and provided to straddle one of the connecting shafts. A locking element such as a pin 22 passes simultaneously through the connecting shaft and the support leg to allow locking of these elements at this end. Naturally, other embodiments could have been envisaged by those skilled in the art without departing from the scope of the invention defined by the claims below.

Claims (12)

REVENDICATIONS1. Wind turbine (1) comprising at least one rotor (2) movable about a main axis of rotation (Al), said rotor (2) comprising at least two blades (3, 4, 5) and a blade support (6, 7), each blade (3, 4, 5) being rotatable about a secondary axis of rotation (A2) on said blade support, said blade support (6, 7) being rotatable about said axis of rotation; main rotation (Al), characterized in that the blade support (6, 7) comprises a first support (6) and a second support (7), arranged relatively on either side of said blades (3, 4, 5 ) along the longitudinal axis of the blades, said first support (6) and said second support (7) being mutually secured by means of connecting shafts (8, 9, 10) of said blade support, said blade support having no connecting shaft at the main axis of rotation (Al) of said rotor (2), said connecting shafts (8, 9, 10) simultaneously constituting the second rotation axes daires (A2) of said blades (3, 4, 5), the first support (6), the second support (7) and said connecting shafts (8, 9, 10) constituting a self-supporting rigid structure. 2. Wind turbine according to claim 1, wherein the blades (3, 4, 5) are hollow. 3. Wind turbine according to claim 2, wherein the blades have translucent walls, and internal lighting for the backlight of said blades. 4. Wind turbine according to one of claims 1 to 3, wherein the body of each blade is obtained by assembling two half-shells. 5. Wind turbine according to claim 4, wherein the assembly plane (P) of the two half-shells of the blade is parallel to the secondary axis of rotation (A2) of said blade. 6. Wind turbine according to one of claims 1 to 5, wherein the first support (6) and the second support (7) each have a star configuration, which star has a number of branches equal to the number of rotor blades, each connecting shaft (8, 9, 10) joining the end of a branch of the star of the first support (6) to the end of a branch of the star of the second support (7). 7. Wind turbine according to claim 6, having removable fastening means (21) such as pin system, ensuring the rigid connection between each end of one of the connecting shafts and one of the branches of the first support or second support . 8. Wind turbine according to one of claims 1 to 7, wherein the rotor is three blades (3, 4, 5), said secondary rotation axes (A2) being angularly distributed from each other by 120 ° about said axis. main rotation (Al), equidistant from said main axis of rotation (Al). 9. Wind turbine according to one of claims 1 to 8, comprising a connecting mechanism adapted to coordinate the rotation of the blades (3, 4, 5) with the rotation of said blade support (6, 7, 8, 9, 10), which comprises at least one main pulley (12) and at least one secondary pulley (13, 14, 15) connected to one of the blades (3, 4, 5) and a belt (16, 17, 18). connecting the secondary pulley to the main pulley. 10. A wind turbine according to claim 9, having an aerodynamic braking means of said rotor in high winds, comprising elastic means (30) in torsion along a secondary axis of rotation (A2), said elastic means securing the secondary pulley (13). 14; 15) and the corresponding blade (3; 4; 5) to said secondary pulley. 11. Wind turbine according to one of claims 1 to 10, wherein said main axis of rotation (Al) is vertical. 12. Use of the wind turbine according to one of claims 1 to 11 as advertising display medium.