FR2997736A1 - Vertical axis wind mill e.g. Darrieus wind mill, has blades diametrically opposite relative to rotor axis and connected together by connection unit, where unit is extended, so that pivoting of one of blades causes pivoting of another blade - Google Patents

Abstract

The wind mill has a pair of blades (1a, 1b) diametrically opposite with respect to a rotor axis (Y), where each blade is mounted to pivot on a support around a vertical axis (2). The blades are connected to each other by a connection unit (6) that is extended, so that pivoting of one of the blades causes pivoting of another blade. Each blade has a leading edge and a trailing edge, and the blades are mounted to pivot around the vertical axis, where the axis is extended in vicinity of the leading edge. The connecting unit is designed as a fixed-length link stretched between the two blades.

Description

A vertical axis wind turbine comprising at least one pair of pivoting blades whose pivoting is associated with each other. The field of the invention is that of the design and manufacture of wind turbines. More specifically, the invention relates to a vertical axis wind turbine of the type comprising at least one pair of pivoting blades. In the field of the invention, there are two main families of wind turbines, namely: - horizontal axis wind turbines; 10 - vertical axis wind turbines. Among vertical axis wind turbines, we know different types of designs, including: - Darrieus type wind turbines, using the principle of lift effect exerted on a profile subjected to the action of a wind 15 relative; - "Savonius" type wind turbines, the general principle of which is based on the use of two (or more) semicylindrical buckets, slightly off-axis; rotating wind turbines (or wings), otherwise referred to as panemones. The panemones implement the following general principle: the blades are mounted on a support rotatably mounted about a vertical axis, the blades being mounted on the support so as to be pivotable about a vertical axis, so that they offer maximum lift when moving in the wind direction, while they fade when they come back against the wind. Panemones have existed for a long time but do not experience industrial development because of their low yield. Recently, improvements have been made to panemones to improve their performance. In this sense, it has been proposed to combine the action of a wind vane with that of a panemone, so as to wedge the blades in real time with respect to the direction of the wind. However, panemones of this type have several disadvantages, among which: the wind vane used is cumbersome and unsightly, and undergoes vortices generated by the rotation of the blades; - The wind vane generates an operation with a poor reactivity in wind and / or variable intensity, which does not allow the use of such panemones in urban areas; - the wind vane is fixed while the blades are adjusted to the real wind that the wind vane indicates; however, the blades being in motion, the "apparent" winds for the blades are different from the real wind; - Each blade rotates about its axis, which implies constraints of mounting and maintenance of this axis, which results in possible defects of mechanical strength in time and aesthetics; - The blade edges are alternately attack and flight, which makes it impossible to use the profiles of the wing type of aircraft which, therefore, affects the efficiency and aesthetics of the whole. The invention particularly aims to overcome the disadvantages of the prior art.

More precisely, the purpose of the invention is to propose a panemone-type wind turbine which makes it possible to improve the efficiency compared with wind turbines of the same type of the prior art. Another object of the invention is to provide such a vertical axis wind turbine which makes it possible to integrate aeronautical techniques for the design of the blades.

The invention also aims to provide such a vertical axis wind turbine that can be compact in equivalent performance compared to a wind turbine of the same type of the prior art. Another object of the invention is to provide such a wind turbine which can be proposed more aesthetically than wind turbines of the same type of the prior art. These objectives, as well as others which will appear later, are achieved by virtue of the invention, which relates to a vertical axis wind turbine of the type comprising at least one pair of diametrically opposed blades 10 with respect to a rotor axis. said blades being each pivotally mounted on a support about a vertical axis, characterized in that said blades of a pair are connected to each other by a connecting means extending in such a way that the pivoting a blade causes a pivoting of the other blade. In this way, according to the principle of the invention, the blades are connected to one another by a connecting means which organizes the pivoting of the blades in pairs, so that when a first blade of the same pair deviates to the wind, the other blade of the pair "borders" under the action of the first, and vice versa. In other words, if one blade is facing the wind, it gives slack to the other blade of the same pair, which can then deviate to the wind. It will be understood that the connecting means is provided in such a way as to obtain a de facto equilibrium: the gybes and the tackings of the two blades of the same pair occur naturally, as the rotation of the together around the rotor axis. In a way, the blades react like the sail of a sailboat. This results in a significantly improved performance compared to known panemones, this of course for an equivalent area of blades or sails and for the same wind speed. Indeed, the blades are oriented two by two optimally with respect to the direction of the wind, with the best ratio between taking the wind of one and the erasure of the other.

In addition, a wind turbine according to the invention does not require the implementation of wind vane, which allows to obtain a reduction in overall size. According to another advantageous characteristic of the invention, each blade having a leading edge and a trailing edge, said blades are pivotally mounted about a vertical axis extending in the vicinity of the leading edge. Thus, unlike the solutions of the prior art in which the pivot axis extends in the median position of the blade, the axis of pivoting of each blade is here shifted towards one of the edges (in this case the leading edge) of the blade, which allows a design of the blades with an aeronautical type profile, that is to say integrating a leading edge opposite a trailing edge. Such blades profiled in the manner of an aircraft wing are 15 times more efficient and more aesthetic. According to yet another characteristic of a wind turbine according to the invention, in which each blade has a leading edge and a trailing edge, said connecting means is connected to each blade by an attachment point located at the edge. leak or in the vicinity of it. In this way, the connecting means is hooked to the blade at a level where it has an optimized torque, especially when the pivot axis is located on the opposite edge, i.e. from the leading edge. According to a first embodiment, the connecting means is a link of fixed length stretched between the two blades. In this case, the link is advantageously deflected around two return means, each associated with one of the blades. Said return means are then advantageously each constituted by a pulley. In this way, an excellent transmission of the forces from one blade to the other is ensured, while limiting the effects of wear on the link.

According to a particular embodiment, at least a second return means is capable of deflecting the link, said second return means being movable under the force of the centrifugal action. Such a second return means tends to increase the tension of the connecting means when the speed of rotation of the wind turbine increases, which then generates a greater reactivity of the connecting means and therefore an optimized control of a blade to the wind. 'other. According to a second embodiment, the connecting means is constituted by a set of articulated rods. According to a first conceivable configuration, said blades are pivotally mounted on an arm rotatably mounted about the rotor axis. According to a second possible configuration, said blades are pivotally mounted on a ring or a disc rotatably mounted around the rotor axis. Other features to the advantage of the invention will appear more clearly on reading the following description of a preferred embodiment of the invention, given by way of illustrative and non-limiting example, and the accompanying drawings. of which: - Figure 1 shows schematically a vertical axis wind turbine according to the invention, seen from the side; - Figure 2 schematically shows a vertical axis wind turbine according to the invention, seen from above; - Figures 3 to 10 illustrate, with top views of the wind turbine according to the invention, an operating cycle. With reference to FIGS. 1 and 2, a wind turbine according to the invention is of the vertical axis type, with a rotor axis marked "Y" (FIG. 1), and at least one pair of blades 1a, 1b diametrically opposed by relative to the rotor axis Y. Pale means any element likely to have a wind-exposed surface and connected to the rotor so as to drive it in rotation. The blades can be rigid materials or be constituted by a wing.

Each blade is mounted on a support pivotally about a vertical axis 2. According to the present embodiment, the axis 2 of rotation of the blades is carried by an arm 3. A wind turbine according to the invention may have a generator 4, as shown in FIG. 1. In this case, the arm 3 is carried by the generator 4 and extends diametrically with respect thereto between the two blades. In addition, the axes 2 of the same pair of blades are interconnected by guys 5, which contribute to ensuring the rigidity and strength of the assembly. As it appears in FIG. 2, and according to the principle of the invention, the blades of a pair are connected to each other by a connecting means 6, extending in such a way that the pivoting of One blade causes pivoting of the other blade, as will be explained in more detail later. According to the present embodiment, the blades of the wind turbine each have a leading edge 100 and a trailing edge 101. In this configuration of the blades, the vertical axis 2 around which the blades are pivotally mounted extends to adjacent to the leading edge 100. In addition, the connecting means is connected to each blade via a hooking point 60 located at the trailing edge 101, or in the vicinity thereof. The connecting means here is a flexible link of fixed length, stretched between the two blades, and more precisely between the two trailing edges of the blades of the same pair. This link can be of different lengths depending on the dimensions of the wind turbine. It can have different thicknesses, colors and materials. By way of example, such a link can be constituted by: a metal rope; - chain ; - a synthetic rope; - As shown in Figure 2, the link 6 is deflected around two return means 61, each associated with one of the blades.

As an indication, these return means may each consist of a pulley or any other means capable of transmitting the forces by limiting the effects of wear. According to a particular embodiment, second return means may be provided so as to generate a second deflection of the link between the two return means 61. Preferably, these second return means are movable under the action of the centrifugal force, in order to increase the tension of the link between the two blades when the speed of rotation of the wind turbine increases. It should be noted that, according to another conceivable embodiment, the flexible link extending between the two blades, as just described, can be replaced by a set of articulated links pivotally mounted so as to transmit them too. efforts from one blade to another. With reference to FIG. 2, the blades 1a, 1b are pivotally mounted on an arm 3 extending diametrically between the leading edges of the blades, as already mentioned above. However, according to another possible embodiment, the blades may be pivotally mounted on a ring or disc rotatably mounted about the rotor axis. Figures 1 and 2 of the wind turbine according to the invention which has just been described show a single pair of blades. Of course, a wind turbine according to the invention may comprise several pairs of blades without departing from the scope of the invention. As such, it should be noted that in the case where a wind turbine according to the invention has several pairs of blades, the return means 61 associated with the connecting means of a pair of blades can be mounted coaxially with the pivot axes of the blades. blades of another adjacent pair. The operation of a wind turbine according to the invention is described below.

Starting in the position illustrated in Figure 3 which shows a wind turbine according to the invention exposed to a wind whose direction is indicated by the arrow V, the wind turbine being then rotatable in the direction indicated by the arrow R. In the position illustrated in Figure 3, the thrust of the wind has the effect of deviating the blade 2 (its trailing edge tending to approach the rotor axis of the wind turbine). In this position, the blade lb pulls on the trailing edge of the blade la which is bordering and prevents the blade lb to rotate further about its axis. The blade lb is thus greatly open to the effect of the wind. In this configuration, the two blades are both propulsive and drive the assembly in rotation towards the position illustrated in FIG. 4. In the position illustrated in FIG. 4, the blade progressively shifts it while the blade locks as shown by the arrow F1. These respective movements of the blades are naturally made as the rotation of the wind turbine under the combined action of the wind and the link connecting the trailing edges of the blades. The assembly is rotated towards the position shown in Figure 5, in which the blade begins to depart, while the blade lb tightens.

The rotation continues towards the position illustrated in FIG. 6, in which the two blades balance each other and propel the assembly towards the position illustrated in FIG. 7. In this position, there is a configuration identical to the starting position, with reversal of the positions of the two blades.

In the position illustrated in FIG. 8, the rotation of the wind turbine, with the pivoting of the blades, continues identically to the configuration described with reference to FIG. 4, with, of course, reversal of the position of the blades. Figures 9 and 10 respectively correspond to the configurations of Figures 5 and 6, always with reversal of the position of the blades. In the position illustrated in Figure 10, the two blades 5 balance and propel the assembly towards a return to the position shown in Figure 3. The 360 ° rotation of the wind turbine is then performed. It has been observed with a wind turbine according to the invention that: after an acceleration phase, when the speed of the wind turbine stabilizes due to a drop in wind intensity, the wind turbine sets itself even in "Darrieus position"; - A wind turbine according to the invention is very effective for a situation in which it undergoes a pitching effect, because it recovers the pitch energy; a wind turbine according to the invention can be used effectively to start Darrieus wind turbines. As an indication, the blades of a wind turbine according to the invention may have a height of about 120 cm, with a spacing between the vertical axes 2 of pivoting blades of the order of 85 cm. With such dimensions and aesthetic characteristics 20 possible, a device according to the invention is particularly intended for capturing wind energy in urban areas.

Claims (10)

REVENDICATIONS1. Vertical axis wind turbine, of the type comprising at least one pair of blades (1a), (1b) diametrically opposed with respect to a rotor axis (Y), said blades being each pivotally mounted on a support around a vertical axis ( 2), characterized in that said blades (1a), (1b) of a pair are connected to each other by a connecting means (6) extending in such a way that the pivoting of a blade causes a pivoting of the other blade. 2. A vertical axis wind turbine according to claim 1, wherein each blade has a leading edge (100) and a trailing edge (101), characterized in that said blades (1a), (1b) are pivotally mounted around a vertical axis (2) extending in the vicinity of the leading edge (100). 3. A vertical axis wind turbine according to claim 1, wherein each blade has a leading edge (100) and a trailing edge (101), characterized in that said connecting means (6) is connected to each blade by an attachment point (60) located at or near the trailing edge (101). 4. Vertical axis wind turbine according to claim 1, characterized in that the connecting means (6) is a fixed length link stretched between the two blades (1a), (1b). 5. A vertical axis wind turbine according to claim 4, characterized in that the link is deflected around two return means (61), each associated with one of the blades (1a), (1b). 6. Vertical axis wind turbine according to claim 5, characterized in that said return means (61) are each constituted by a pulley. 7. A vertical axis wind turbine according to claim 5, characterized in that at least a second return means (62) is capable of deflecting the link, said second return means being movable under the action of the centrifugal force. 8. vertical axis wind turbine according to claim 1, characterized in that the connecting means (6) is constituted by a set of articulated rods. 9. vertical axis wind turbine according to any one of claims 1 to 8, characterized in that said blades (1a), (1b) are pivotally mounted on an arm (3) rotatably mounted about the rotor axis (Y ). 10.A vertical axis wind turbine according to claim 1, characterized in that said blades (1a), (1b) are pivotally mounted on a ring or a disc rotatably mounted around the rotor axis (Y).