FR2987664A1 - Device for supporting and fixing horizontal axis wind turbine mast to building wall, has damping units interposed between suspension arm and tightening unit in connection area and between support wings and anchoring parts in fixing area - Google Patents

Abstract

The device has lower and upper suspension arms (11, 21) fixed to a wall part (30) and associated with a set of tightening units around a mast (1) of a wind turbine in a connection area to the mast. The arms include branches (12, 22) with divergent pace from the area to the mast in a direction of a fixing area to the wall part. Each branch has free ends provided with support wings (13, 23). Damping units i.e. damping pads (29), are interposed between each arm and the tightening unit in the connection area and between the wings and anchoring parts (14, 24) to the wall part in the fixing area. The damping pads are made of elastically deformable material e.g. rubber or polymer material.

Description

The present invention relates to the field of domestic wind turbines, and more particularly the devices for fixing wind turbine masts.

The current development of renewable energies gives rise to the establishment of many wind turbines, including domestic wind turbines, such as horizontal wind turbines, with a power of a few hundred Watts. These wind turbines consist of a mast and a rotor that supports the blades have a height currently limited in France to a dozen meters.

The mast is a cylindrical tubular element whose base can be fixed either to the ground on a base, or to a vertical structure, such as the pinion of a building. In the latter case, for gains in height of the top of the wind turbine exceeding above the roof, or for a reduction of the height of the mast, or for reasons of lack of space on the ground (because for example of the presence of a terrace or lean-to) the mast does not rest on the ground but is fixed to the wall wall by suspension arms. The body of the mast is held by a plurality of clamping means of the mast associated with said suspension arms.

These arms are generally profiles provided with fastening tabs to the wall, and arranged either towards the longitudinal axis of the mast, or alternately on either side of the latter. The operation of the wind turbine, and more particularly the rotation of the blades, generates vibrations, more or less intense depending on the wind speed and therefore on the speed of rotation of the blades. With the current mast support devices, the vibrations that are transmitted from the rotor to the mast also communicate with the wall, causing sound waves, very annoying for the inhabitants when it is precisely the wall of a house.

To reduce these inconveniences, it has been envisaged to coat the clamping means of the mast, in particular the inner face of the clamps surrounding the mast, with a damping material, such as an elastically deformable material, such as for example a rubber. However regardless of the number of these clamps distributed along the mast of the wind turbine, the vibrations are not sufficiently attenuated to solve the entire sound problem. Moreover, these repeated and frequent vibrations cause, in the long run, loosening of the fastening elements, which also generates safety problems. Moreover, since the body of the mast is generally in the form of a hollow tubular element, open at its base, sound resonance phenomena are frequently observed. The object of the present invention is to overcome the above disadvantages by proposing a wind mast mast support device which considerably attenuates or even eliminates the vibrations transmitted to the wall wall. Another object of the invention is to provide a device for attaching and fixing a wind turbine mast which limits or even eliminates the problems of loosening of the connecting pieces and the fastening elements. Yet another object of the invention is to reduce as much as possible the sound waves emitted by the vibrations transmitted to the tubular mast and the sound resonance phenomena of the open tubular element forming the mast. For this purpose, the present invention relates to a device for supporting and fixing a wind turbine mast, in particular a horizontal axis wind turbine, to a wall wall, such as the wall of a building, the device comprising suspension arms, a lower suspension arm and at least one upper suspension arm adapted to be fastened to said wall wall, associated, in the mast connection area, with a plurality of clamping means around said mast, characterized in that the arms each suspension being formed of two divergent branches from the connection zone to said mast towards the attachment zone 30 to the wall, the free ends of each branch being provided with a support wing, damping means are interposed at least, firstly, between each suspension arm and the clamping means in the mast connection area and, secondly, between the support wings of each suspension arm and the feet. 35 anchorage to the wall in the fastening area.

The fact of interposing at least two damping means between the mast and the wall in the connection zone and in the fixing zone considerably reduces the vibrations transmitted by the wind turbine to the mast. In addition, the shape of the suspension arms, consisting of two diverging branches, distributes the vibrations transmitted by the mast of the wind turbine towards the wall, and a better stability of the assembly (especially in case strong winds). Advantageously, the clamping means of the mast are not mounted directly on the suspension arms but are mounted on fixing plates, connected to each of the suspension arms, damping means being interposed at least between said arms and the plates . By adding yet another damping means between the mast and the wall wall, the vibrations are dampened again. This multilayer damping arrangement, also called "millefeuilles", further attenuates the residual vibrations. Thus, both the noise generated by the mast vibrations communicated to the wall wall and the loosening problems of the connecting pieces of the fixing elements of the support devices of the prior art are overcome. To complete this provision "in millefeuilles" damping means, the clamping means of the mast can be composed of clamps whose inner face is equipped with damping means, such as resiliently deformable flexible material. As mentioned in the introduction, the most common vibration problems are encountered when the base of the wind turbine mast does not rest directly on the ground. In order to keep this mast suspended along the wall, one of the suspension arms, namely the lower suspension arm, carries a plate having a curved wing adapted to receive the base of the mast of the wind turbine. . Thus, this curved wing serves as a stop and support for the base of the wind turbine mast. The mast is generally formed of a tubular body. To prevent water infiltration stagnating inside this tubular body, the base of the mast is open, which may give rise to resonance phenomena that can generate noise disturbances according to their frequency. Advantageously, the upper face of this curved flange of the plate, adapted to receive the base of the mast, is coated with a vibration-damping material. The presence of this vibration-damping material such as a damping cushion thus avoids the resonance phenomena, especially when the body of the mast is in the form of a hollow tube open at its base. Preferably, each suspension arm substantially affects the shape of an omega (or open U) disposed horizontally. This horizontal arrangement puts each branch of the suspension arm at the same level and thus balances the pulling forces. To reduce the range of the lower suspension arm, (the suspension arm carrying the plate having a curved wing, adapted to receive the base of said mast) it may comprise an additional branch, such as a strut, arranged orthogonally to the other two branches from the top of the omega and whose free end is provided with a support wing. As for the other branches of the suspension arms, damping means may be interposed between the support leg of the strut and an anchor to the wall in the fixing area. Advantageously, the damping means interposed between each suspension arm and the associated plates are seals of elastically deformable material, such as rubber or polymer material. The damping means interposed between each suspension arm support wing 35 and the anchoring pieces to the wall wall in the fixing zone may be damping buffers, such as damping pads of the Silentbloc® type, of elastically deformable material , such as rubber or polymer material. Other features and advantages of the invention will emerge from the following description of an embodiment given by way of non-limiting example and illustrated in the single figure showing an exploded view of a device according to the invention. . Referring to this figure, the device according to the invention is intended to suspend and fix a wind turbine mast 1 to a wall wall shown schematically by the reference 30, the base 10 4 of said mast not resting on the ground. This wind turbine mast 1 comprises a tubular body 2 surmounted by a head 3 intended to receive the rotor (not shown) supporting the blades of the wind turbine. In the example shown in this figure, this mast 1 is held vertical, parallel to the wall wall 30, and spaced from it, by two suspension arms 11, 21 respectively provided with two branches 12, 22 divergent rate from the zone of the connection to said mast towards the attachment area to the wall wall 30. 20 These suspension arms 11, 21 therefore also have a spacer function of the wall and fixing points therein. For this purpose, the branches 12 and 22 are each provided with a support flange 13, 23 for fixing them by means of anchors 14, 24 to the wall wall 30. 25 Mast clamping means comprise clamps 5, closed by screws 6, arranged in an upper pair 15 and a lower pair 25. The pair of upper clamps is attached to a plate 10 having two curved ends 16 towards the suspension arm 11. Gaskets of elastically deformable material 7 are interposed between the plate 10 and the top of the omega of the suspension arm 11. In the example presented here, the upper suspension arm 11 is advantageously arranged horizontally but could, in certain circumstances, be arranged vertically. However, the horizontal arrangement is preferred.

Between the support flanges 13 of each of the branches 12 of the upper suspension arm 11 and the anchoring parts 14 are shock absorbers 8 of the Silentbloc® damping buffer type, made of rubber.

Shocks 8 of the same type are also interposed between the support wings 23 of each of the branches 22 of the lower suspension arm 21 and the corresponding anchoring parts 24.

The lower pair of clamps 5 is disposed near the base 4 of the mast 1. This pair of clamps 5 is attached to a bottom plate 20 carried by the lower suspension arm 21, equipped with a leg 26 disposed orthogonally to the two horizontal branches 22, whose free end is provided with a support wing 23. Between the support wing 23 of the strut 26 of the lower suspension arm 21 and the workpiece anchor 24 is also interposed a damper 8. The bottom plate 20 has two curved ends, the upper end 27 is facing the suspension arm 21, and the lower end forms a lower flange 28 for supporting the base 4 of the mast 1. The tubular body 2 of the mast 1 can be open at its base 4 and only a portion of this base can rest on the curved lower flange. Advantageously, between this base 4 and the curved lower flange 28 of the plate 20, is disposed a damping cushion 29 which avoids sound resonance phenomena. This cushioning cushion may be a single layer of a polymeric material (for example a cellular foam-type polymer) or rubber. Likewise, the internal force of each of the clamps 5 of each of the two pairs 15 and 25 of collars may also be coated with an elastically deformable, vibration-damping material 9, such as a polymeric material or a rubber. Thus, the interposition according to the invention of a multiplicity of damping means, respectively between the mast and the clamps, the support plate and the arm 35 of suspension, and between the suspension arms and the anchors substantially eliminates the vibrations generated during operation of the wind turbine at wall wall 30. The present invention is not limited to the embodiment described above.

More particularly, the example detailed above includes a pair of suspension arms, namely a lower suspension arm and an upper suspension arm, but the device according to the invention is not limited to this configuration and could comprise , in particular according to the height of the mast and / or the wall and / or the size of the wind turbine, several upper suspension arms.

Claims (10)

REVENDICATIONS1. A device for supporting and fixing a wind turbine mast (1), in particular a horizontal axis wind turbine, to a wall (30), such as the wall of a building, the device comprising suspension arms, an arm of lower suspension (11) and at least one upper suspension arm (21) adapted to be fixed to said wall-wall, associated, in the zone of connection to the mast (1), with a plurality of clamping means around said mast, characterized in that the suspension arms (11; 21) each being formed with two limbs (12; 22) diverging from the connection area to said mast (1) in the direction of the attachment area to the wall (30). ), the free ends of each branch being provided with a support flange (13; 23), damping means are interposed, on the one hand, between each suspension arm (11, 21) and the clamping means in the zone of connection to the mast 15 and, on the other hand, between the support wings (13, 23) of each arm suspension and anchors (14, 24) to the wall wall in the attachment area. 2. Device according to claim 1, characterized in that the clamping means of the mast are mounted on mounting plates (10, 20), connected to each of the suspension arms (11, 21), damping means being interposed at least between said arms and the plates. 3. Device according to claim 1 or 2, characterized in that the clamping means of the mast are composed of clamps (5) whose inner face is equipped with damping means, such as resiliently deformable flexible material. 4. Device according to any one of claims 2 or 3, characterized in that the lower suspension arm (21) carries a plate (20) having a curved flange (28), adapted to receive the base (4) of the mast (1) of the wind turbine. 5. Device according to claim 4, characterized in that the upper face of the curved wing (28) of the plate (20), adapted to receive the base of the mast, is coated with a vibration-damping material. 35 6. Device according to any one of the preceding claims, characterized in that each suspension arm (11, 21) substantially affects the shape of an omega, disposed horizontally. 7. Device according to claim 6, characterized in that the lower suspension arm (21) comprises an additional branch, such as a strut (26), arranged orthogonally to the other two branches (22) from the top of the omega and whose free end is provided with a support wing (23). 8. Device according to claim 7, characterized in that a damper means is interposed between the support leg (23) of the strut and an anchor (24) to the wall wall (30) in the fixing area. 9. Device according to any one of the preceding claims, characterized in that the damping means interposed between each suspension arm (11, 21) and the plates (10, 20) associated are seals (7) of elastically deformable material , such as rubber or polymer material. 10. Device according to any one of the preceding claims, characterized in that the damping means interposed between each support wing (13, 23) of the suspension arm and the anchoring parts (14, 24) to the wall. in the fixing zone are damping buffers (8), such as damping pads of Silentbloc® type, of elastically deformable material, such as rubber or polymer material. 25