FR2968725A1 - Savonius rotor type wind power device i.e. wind turbine, for mounting on roof of e.g. motor vehicle, to convert wind into electrical energy, has rotary shaft arranged to vary in height from folded position to deployed position - Google Patents

Abstract

The device (1) has a Savonius type rotor with vertical axis carrying a rotary shaft (11) on which two reinforcement elements (5, 7) are fixed, where the reinforcement elements carry two flexible semi cylindrical blades (9). The shaft is arranged to vary in height from a folded position until a deployed position and vice-versa. Modification of height of the shaft causes modification of spacing between the reinforcement elements. The shaft is telescopic in a portion located between the reinforcement elements. The shaft has a jack configured to be actuated remotely.

Description

REPLIABLE WIND-UP DEVICE

The invention is in the field of wind turbine devices for transforming wind energy into mechanical or electrical energy. The invention is particularly intended for wind turbine devices having a rotor with a vertical axis of rotation that can for example be mounted on the roof of a vehicle. More specifically, the invention relates to wind devices that can be folded for storage. The invention also relates to a method for deploying and folding a wind turbine device with a vertical axis. It is known from the prior art devices for converting wind energy into mechanical or electrical energy. The most common are horizontal axis wind turbines, whose axis of rotation of the rotor is horizontal, comprising propellers with several blades and to be placed facing the wind. There are also vertical axis wind turbines, the axis of rotation of the rotor is vertical, comprising for example semi-circular curved blades or panels rotating about said central axis. The use of vertical axis wind turbines has many advantages over horizontal axis wind turbines, such as generating low noise and being set in motion with low wind speeds. Unfortunately they also have the disadvantage of being bulky and are therefore difficult to retract for use as a source of extra energy that can be mounted for example on the roof of a vehicle. Indeed, such wind devices must be deployed when the vehicle is stationary and must be stowed when the vehicle moves or when the user does not use it. For reasons both aesthetic and aerodynamic, the storage and / or retraction of such devices implies that they have, once stored, a footprint as small as possible. Preferably, the operations of deployment or folding and / or retraction of the wind device must be remotely performed by the user without having to act on the device itself. However the congestion presented by vertical axis wind devices makes their simple retraction difficult and there is currently no way to reduce this congestion satisfactorily. EP1468187 proposes for example to mount a vertical axis wind turbine on a telescopic mast. Unfortunately, if such a device allows to vary the height at which is placed the rotor of the wind turbine, it does not change its volume, which makes its storage and / or retraction delicate. Thus in this document of the prior art the blades of the wind turbine must be removed for storage of the device and reassembled at the time of its deployment.

This is unfortunately not compatible with a search for a deployment for example motorized or automated wind device that can be remotely controlled for example from the dashboard of a vehicle and does not require manual intervention of the from the user. The document FR2927375 presents a wind device for example Savonius type whose blades consist of conical webs that can be tensioned at both ends of a rotary mast and can be sunk along said mast in the manner of the sails of a boat in case excessive tornado or for maintenance operations. Unfortunately, if such a system makes it possible to fold the blades of a wind turbine device, it does not make it possible to hide it from view or to retract it since the rotary mast remains erect and only the sails are foldable. Similarly document US7241105 presents a wind device whose blades of flexible material are attached to supports that can be fixed on the central rotating mast and can be moved vertically over the height of the mast for the deployment or folding of said wind device. Again, only the blades are collapsible, a possible folding of the mast for storage and / or retraction must be the subject of a separate operation. Furthermore the blade attachment system described by this prior document requires human intervention to proceed to the assembly or disassembly of the blades and can not be controlled remotely.

The object of the invention is to overcome the drawbacks presented by the prior art by proposing to the person skilled in the art a new vertical axis wind device which can be completely folded in order to be stored and / or retracted so as to present once refolded as small a space as possible preferably the folding or deployment of said device can be automated and remotely controlled. For this purpose, the subject of the invention is a wind turbine device comprising a rotor with a vertical axis carrying a rotary shaft on which at least two reinforcing elements carrying at least two flexible blades are fixed, remarkable in that the rotary shaft is configured to be able to vary in height from a folded position to an extended position and vice versa. Advantageously, the modification of the height of the rotary shaft causes the modification of the spacing of said reinforcing elements. According to a preferred embodiment of the invention, the device has in the folded position a lower height than it has in the deployed position. Optionally, the rotary shaft is telescopic, preferably the rotary shaft is telescopic at least in its portion located between the frame members.

According to a preferred embodiment of the invention, the rotary shaft comprises at least one jack preferably configured to be actuated remotely by means for example of a motor and a control member. Preferably, the height change of the rotary shaft imparts a vertical translational movement to an upper armature member to vertically move it upward to position the device in the deployed position and / or to move it vertically downward. to place the device in the folded position. Advantageously, a lower reinforcement element remains stationary during the modification of the height of the rotary shaft. Optionally, it further comprises at least one intermediate reinforcement element located between the lower reinforcement element and the upper reinforcement element, and the height modification of the rotary shaft imparts a vertical translation movement. to said intermediate frame member in order to move it vertically.

Optionally, the rotating shaft does not extend vertically beyond the upper armature member. According to one embodiment of the invention, the blades are made of a flexible material preferably waterproof and are dimensioned to be stretched when the device is in the deployed position. According to one embodiment of the invention, the blades are semi-cylindrical and / or in that the rotor is a Savonius type rotor, preferably the blades are at least three in number. Optionally, the blades are helically arranged.

Optionally, the rotor is mounted on a telescopic mast. The invention also relates to a remarkable vehicle in that it has a wind device as defined further, preferably mounted on its roof. It will be understood that the implementation of the invention consists in proposing a wind device capable of retracting or deploying in the vertical direction by a modification of the height of its rotor. In particular, the rotary shaft of the device according to the invention is configured to be able to vary in height which induces a modification of the spacing between the reinforcing elements fixed at the lower and upper ends of the blades and preferably fixed at the lower ends. and upper rotary shaft. The invention consists in providing a wind turbine device with flexible blades fixed at their lower and upper ends to reinforcing elements and making the upper reinforcing element, while being fixed on the rotary shaft, movable in the direction vertically to allow deployment or retreat of the wind turbine device. It will be noted that it is the difference in spacing between the supports which defines the different states of the device. The telescopic nature of the rotary shaft makes it possible to make the upper reinforcement element movable relative to the lower reinforcement element. Unlike the prior art where the rotor was simply mounted on a telescopic mast, the invention proposes to give a telescopic character to the rotor itself. The invention proposes a vertical axis wind device whose rotor, comprising a rotary shaft carrying blades, has means for flattening for storage. The device according to the invention allows both the folding of the blades and the rotary shaft. The invention is remarkable in that the folding operation of the blades and the rotary shaft is simultaneous and preferably can be automated and controlled remotely. Finally, the invention is remarkable in that the blade folding operations do not require detaching or unhooking the blades of their supports, namely the armature elements, or detach or unhook said supports from the rotary shaft. According to the invention the upper and lower reinforcement elements are fixedly fixed on the rotary shaft. Likewise, the blades are fixed irremovably on the reinforcing elements. It is the movement of retraction or deployment of the rotating mast which causes the movement of the reinforcing elements contrary to the prior art where the reinforcing elements are movable relative to the rotary mast. The invention will be well understood and other aspects and advantages will become apparent from the following description given by way of example with reference to the accompanying drawing sheet in which: - Figure 1 is a perspective view of a device according to the invention in the deployed position. - Figure 2 is a perspective view of a device according to the invention in the folded position. - Figure 3 is a view of the wind turbine device according to the invention on which a single blade is shown to reveal the telescopic central rotating shaft.

Reference will firstly be made to FIG. 1 representing an example of a wind device (1) according to the invention. Such a device (1) is able to transform wind energy into electrical or mechanical energy by means well known to those skilled in the art and which will not be described further herein. The device according to the invention is for example a device (1) with a vertical axis Savonius type and has blades (9) curved, preferably semi-cylindrical. Those skilled in the art will nevertheless be able to adapt the invention to other types of wind turbine devices with a vertical axis, for example wind turbines of the Darrieus type or planar, curved or helical radial blades.

The wind turbine device (1) according to the invention therefore comprises a rotor with a vertical axis carrying at least two blades (9) placed sandwiched between two rigid reinforcing elements (5, 7) spaced apart and fixed to these reinforcing elements (5). , 7) by their lower and upper extremities. The blades (9) are fixed to the lower reinforcing element (5) by their lower end and fixed to the upper reinforcing element (7) by their upper end. It is specified that the number of blades (9) carried by the rotor of the device (1) can not be limiting of the invention and can be easily modified by those skilled in the art. When deployed, the device (1) is therefore in the form of a vertical axis wind turbine that is to say that the axis of rotation of the main rotor is arranged vertically and is parallel to the axis of the mast (not shown) carrying the wind device (1). The blades (9) are arranged substantially vertically. This type of wind turbine device (1) offers the advantage of being able to be fully effective whatever the direction of the wind. Preferably, the device (1) according to the invention will have at least three blades (9) which will facilitate the rotation of the rotor even in light wind. According to the invention and as illustrated in Figure 3, the wind turbine device (1) further comprises a central rotary shaft (11) configured to be able to change the height it has. According to the invention, the rotary shaft (11) is configured to be able to expand or retract along its height and thereby change the gap between the lower (5) and upper (7) supports from a deployed position to a folded position and vice versa, so that the device (1) has in the folded position a lower height than it has in the deployed position. In this way the storage or retraction of the wind device (1) according to the invention is facilitated. The device (1) according to the invention is therefore able to flatten for storage and preferably, it flattens as much as possible taking into account the thickness of the elements such as blades (9) which are folded between them. Figure 2 is a representation illustrating the wind device (1) according to the invention folded.

According to a preferred embodiment of the invention, the rotary shaft (11) is telescopic. For example, the rotary shaft comprises or consists of a jack. This jack can for example be a jack, hydraulic, pneumatic or electric. It is advantageously configured to be operated remotely by means of, for example, a motor and a control member. Those skilled in the art will find particular interest in being able to actuate the cylinder of the wind turbine device (1) from the dashboard of the vehicle on which the device is mounted. Preferably the rotary shaft (11) is telescopic at least in its portion between the lower frame members (5) and upper (7). It will be understood that the height modification of the rotary shaft (11) imparts a vertical translational movement to the upper armature element (7) in order to move it vertically upwards to place the device (1) in position deployed and / or moving vertically downward to place the device (1) in the folded position. In this way the change in the height of the rotary shaft (11) causes a change in the spacing between the lower and upper reinforcement elements. Advantageously, the lower reinforcement element (5) remains stationary during the modification of the height of the rotary shaft (11), but other configurations are possible. It is also conceivable in the context of the invention to place at least one intermediate reinforcing element (not shown) between the lower reinforcement element (5) and the upper reinforcement element (7), for example to stiffen the blades (9). In such a configuration, the height change of the rotary shaft (11) imparts a vertical translational movement to said intermediate frame member to move it vertically. This movement can be printed either directly when the intermediate reinforcing element is also fixed to the rotary shaft (11) or indirectly when the intermediate reinforcing element is connected to the rotary shaft without being fixed therefor, for example by means of an annular element. The intermediate reinforcement element may also have no contact with the rotary shaft and be only a structuring or stiffening element of the blades (9). In order to optimize the reduction in the bulk presented by the device (1), the rotary shaft (11) advantageously does not extend vertically beyond the upper reinforcement element (7). Advantageously, the blades (9) are made of a flexible material preferably waterproof and are dimensioned to be stretched when the device is in the deployed position. It will have been understood that it is the modification of the spacing between the upper (7) and lower (5) reinforcing elements which makes it possible to tension the blades and thus to deploy the wind turbine device (1). The constituent material of the blades (9) will preferably be inelastic.

When the device (1) is of Savonius type, the blades (9) are semi-cylindrical and advantageously have a diameter equal to or greater than half the diameter presented by the rotor. When the diameter of the blades (9) is greater than half the diameter of the rotor, the blades (9) are then advantageously arranged so as to be slightly offset and have a known manner a spacing between their inner edges. Preferably, this spacing has a length of between one third and one sixth of the diameter presented by the blades (9). In order to linearize the force applied on the blades (9) these will advantageously be arranged helically. This is made possible inter alia by the manner in which the blades (9) are fixed on the reinforcing elements (5, 7). This effect can be reinforced by the use of intermediate reinforcing elements for structuring purposes. The reinforcing elements (5, 7) can be in the form of disks, as illustrated in the figures, but other forms are conceivable. For example, the reinforcement elements can match the profile of the blades (9).

It will be understood that ideally the device (1) has no rigid non-retractable element between the two reinforcing elements (5, 7) so that the flattening of the device (1), or in other words the approximation between the two frame members (5, 7) is not prevented or limited. The invention is also directed to vehicles such as motor vehicles or motor homes equipped with a wind device (1) according to the invention. Said device (1) is preferably mounted on the roof of the vehicle. It is placed in the deployed position when the vehicle is stopped to supply electricity, for example to recharge its battery. When the vehicle moves the device according to the invention is placed in the folded position and is stored in a compartment present on the roof and provided for this purpose. The person skilled in the art may find it advantageous to mount the rotor of the device (1) according to the invention on a telescopic mast and to couple the variation in height of the rotor, via the variation in height of the rotary shaft (11), with the increasing or decreasing the height of said mast to facilitate its retraction and storage for example in a storage box located on the roof of the vehicle. The opening of the storage compartment and the deployment or folding of the device are advantageously controlled from the dashboard of the vehicle. The invention is not limited to the embodiments described above, given only by way of example, but encompasses all the variants that may be envisaged by those skilled in the art within the framework of the definition that has been given.

Claims (15)

CLAIMS1- A wind generator (1) comprising a rotor with a vertical axis carrying a rotary shaft (11) on which are fixed at least two reinforcing elements (5, 7) carrying at least two blades (9) flexible, characterized in that the rotary shaft (11) is configured to be able to vary in height from a folded position to an extended position and vice versa. 2- A wind device (1) according to claim 1 characterized in that the modification of the height of the rotary shaft (11) causes the modification of the spacing between said reinforcing elements (5, 7). 3- wind device (1) according to one of claims 1 or 2 characterized in that it has in the folded position a lower height than it has in the deployed position. 4- wind device (1) according to one of claims 1 to 3 characterized in that the rotary shaft (11) is telescopic, preferably the rotary shaft (11) is telescopic at least in its portion between the elements reinforcement (5, 7). 5- wind device (1) according to one of claims 1 to 4 characterized in that the rotary shaft (11) comprises at least one jack preferably configured to be actuated remotely. 6. Wind device according to one of claims 1 to 5 characterized in that the height change of the rotary shaft (11) prints a vertical translation movement to an upper armature member (7) to move it vertically upwards to place the device (1) in the extended position and / or to move it vertically downwards to place the device (1) in the folded position. 2968725 n 7- wind device according to one of claims 1 to 6 characterized in that a lower frame member (5) remains stationary during the change of the height of the rotary shaft (11). 5 8- wind device (1) according to one of claims 1 to 7 characterized in that it further comprises at least one intermediate reinforcing element located between the lower frame member and the upper frame member and in that the height change of the rotary shaft (11) imparts a vertical translational movement to said intermediate frame member in order to move it vertically. 9- wind device (1) according to one of claims 1 to 8 characterized in that the rotary shaft (11) does not extend vertically beyond the upper armature member (7). 10-wind device (1) according to one of claims 1 to 9 characterized in that the blades (9) are of a flexible material preferably waterproof and are dimensioned to be stretched when the device (1) is in the deployed position. 11-wind device (1) according to one of claims 1 to 10 characterized in that the blades (9) are semi-cylindrical and / or in that the rotor is a Savonius-type rotor, preferably the blades are at least three in number. 25 12- Device according to one of claims 1 to 11 characterized in that the blades (9) are arranged helically. 13- Device according to one of claims 1 to 12 characterized in that the rotor is mounted on a telescopic mast. 14- Vehicle characterized in that it has a wind device (1) according to one of claims 1 to 13 preferably mounted on its roof. 15 20 30