FR3027969A1 - DEVICE FOR GENERATING ELECTRICITY USING A VERTICAL AXIS TURBINE, WHERE THE GATHERING MEANS OR THE WATER ARE CONSTITUTED OF SWIVEL BLADES - Google Patents

Abstract

The invention relates to a device for generating electricity, wind or water, panemone type, comprising means for taking (3) wind or water organized around a rotor axis (20) vertical, characterized in that the catch means (3) for wind or water are carried by at least two rigid frames (4) extending radially with respect to the rotor axis (20), the frames each comprising a lower cross member (40). ) and an upper cross member (41) connected at each of their ends by at least one upright (42), each frame carrying at least two blades (30) pivotally mounted about a vertical axis (31) extending between the cross member lower and the upper cross.

Description

Device for generating electricity by means of a turbine with a vertical axis, whose means of catching wind or water consist of pivoting blades. The field of the invention is that of the design and manufacture of turbine, wind turbine or tidal turbine power generating devices. More specifically, the invention relates to a power generation device whose turbine has a vertical axis of rotation. In the field of the invention, there are two main families of turbines for power generation devices, namely: - turbines with horizontal axes; - turbines with vertical axis. Among vertical axis wind turbines, rotary wind turbine (or wing) turbines otherwise known as 15 panemones are known. The panemones implement the general principle according to 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 provide maximum lift as they move in the wind direction, while they fade when they come back against the wind. Panemones have been around for a long time, but do not experience development at an industrial level because of their low yield. According to a first panemone architecture, the axes of the pivoting blades 25 are mounted on an upper disk and a lower disk, the axes being distributed in a concentric circle with the disks. In this case, each disk generates a flywheel that affects the performance of the wind turbine. To reduce this flywheel, it has been proposed to mount the axes 30 of the pivoting blades at the ends of lower and upper radial arms. The frame of the wind turbine is thus considerably lightened, this however at the expense of its mechanical strength. In fact, such a wind turbine can deform or even irreparably deteriorate when subjected to medium or strong force winds. Similar designs can be implemented in the context of tidal turbines, however, leading to the same disadvantages as those mentioned above. The invention particularly aims to overcome the disadvantages of the prior art. More specifically, the invention aims to provide a power generation device, wind or tidal panemone, which offers a significantly higher performance of the device of the same type of the prior art. The invention particularly aims to provide such a device which has a significantly improved mechanical strength compared to the device of the same type of the prior art. These objectives, as well as others which will appear subsequently, are achieved by virtue of the invention which relates to a device for generating electricity, wind or water, of the panemone type, comprising means for taking wind or in the water organized around a vertical rotor axis, characterized in that the means of taking wind or water are carried by at least two rigid frames extending radially relative to the rotor axis, the frame each comprising a lower cross member and an upper cross member connected at each of their ends by at least one upright, each frame carrying at least two blades pivotally mounted about a vertical axis extending between the lower cross member and the upper cross member. Thus, thanks to the invention, the efficiency of the electricity generating device can be substantially increased compared to the panemone-type devices of the prior art, by having the chassis carry a greater number of pivoting blades, this while ensuring a mechanical strength of each chassis sufficiently strong, including 30 when the device is subjected to wind or relatively large currents.

As will become clearer later, all the blades of the chassis can be aligned to form a single plane of wing which tends to increase the efficiency of the device, this with a flywheel of each blade relatively limited (compared to a single blade having a wing identical to that of the set of several blades grouped). According to an advantageous solution, the lower cross member and the upper cross member are each constituted by a plate, the two plates of a frame being connected at their ends by a pair of posts.

Thus, the lower and upper sleepers have increased strength vis-à-vis the buckling and torsional stresses. According to a preferred embodiment, the device comprises three frames distributed at 1200 two by two around the rotor axis. In this way, the device thus configured has an optimized compromise between weight (and inertia) and efficiency. According to a particular embodiment, each frame carries five blades. According to a preferred solution, the blades of a chassis have their vertical axes aligned in the vicinity of one of the longitudinal edges of the plates. Advantageously, the plates of each frame are connected by a strut. Such a strut helps improve the mechanical strength of the chassis. Preferentially, the blades each extend between two vertical edges, the vertical axis of each blade extending in the vicinity of one of the vertical edges of the blade. In this way, a better reactivity of the blades to be effaced when they arrive in a phase where they raise the flow of air or water, thus improving their ability to limit their resistance to the flow as much as possible.

Advantageously, each frame carries, for each blade, at least one stop in rotation. Thus, as will be explained in more detail later, the blades are locked in pivoting about their vertical axis when they are in their phase of displacement during which the flow exerts maximum thrust on the blades. In this case, a rod connects the blades being pivotally mounted on one of the upper or lower end edges of the blades, the side thereof opposite the vertical axis of rotation.

According to a preferred embodiment, the frames are coupled at least in their upper part to the rotor axis, the device having a fixed tube inside which the rotor axis is guided in rotation, the rotor axis being coupled to an electricity generator present below the fixed tube. Other characteristics and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment of the invention, given by way of a simple illustrative and nonlimiting example, and the appended drawings among which: - Figure 1 is an overall front view of the power generation device according to the invention; - Figure 2 is a partial view from above of an electricity generating device according to the invention. With reference to FIGS. 1 and 2, an electricity generating device according to the invention comprises: a base frame 1, which can take the form of a box; - An electricity generator 2, installed in the base frame 1 by being fixed on a cast concrete slab 10 at the bottom of the base frame; a rotor axis 20, the rotation of which is used by the generator for the production of electricity, this rotor axis thus extending from the generator and in elevation above the base frame while passing through the wall upper 11 thereof; wind or water catching means 3 described in greater detail below, organized around the vertical rotor axis and being designed so that the electricity generating device is capable of operating both in wind turbines and tidal turbines The base frame can be made of concrete, its upper wall being a concrete cover attached to the base frame, with a seal inserted between the cover and the base frame. A metal plate is attached and secured, for example by bolting on the concrete cover, a seal being interposed between the metal plate and the fixed tube. By its design described below, the device according to the invention 10 is panemone type. According to the principle of the invention, the winding or water catching means 3 are carried by at least two rigid frames 4, extending radially with respect to the rotor axis 20. In the preferred embodiment presented below, the device comprises three frames. The frames each comprise: - a lower cross member 40; an upper cross member 41; at least one upright 42 present at each longitudinal end of the lower and upper crosspieces and connecting them (these uprights may take the form of metal tubes having at each of their ends a tapping allowing the fastening by screwing the uprights on each cross-member; ). According to the present embodiment, the lower cross member 40 and the upper cross member 41 are in the form of aluminum or galvanized steel plates, dimensioned identically for the lower cross member and the upper cross member. In this configuration, an amount 42 connects the plates at each corner thereof. According to the principle of the invention, each frame carries at least two blades 30 (made of aluminum or galvanized steel) pivotally mounted about a vertical axis 31 extending between the lower cross member 40 and the upper cross member 41. Preferably, each frame carries five blades, the set of blades of the device forming the means for catching wind or water.

As shown in FIG. 2, the device furthermore has the following characteristics: it comprises three frames distributed at 120 ° in pairs around the rotor axis; - The blades 30 of a frame have their vertical axes 31 aligned in the vicinity of one of the longitudinal edges of the plates, along a line parallel to the longitudinal axis of the plate; the blades extend between two vertical edges, the vertical axis 31 of each blade extending in the vicinity of one of these vertical edges; each chassis carries, for each blade, at least one rotational stop carried by at least one of the plates. According to the preferred embodiment illustrated in Figures 1 and 2, a rod 32 connects the blades being pivotally mounted on one of the upper or lower end edges (in this case the upper edge) of the blades, on the side of those opposite to the vertical axis of rotation. Thus, the rod 32 is capable of abutting against the vertical axes of rotation of the blades when they are oriented perpendicular to the engine flow (wind or water). It should be noted that the rod 32 makes it possible to keep the spacing between the corresponding ends of the blades constant, which amounts to keeping the blades of a chassis parallel to each other. In addition, for the blade of each frame in position in the vicinity of the rotor axis, the stop is constituted by one of the uprights 42, this to prevent said blade comes into contact with the rotor axis. In addition, it is specified that the spacing between the end posts of each frame allows the passage of the corresponding end blade.

According to one conceivable variant, rotational stops are carried by the plates of the chassis being arranged, for each blade, on the opposite side of the blade relative to the side of the blade where is present its pivot axis.

According to one conceivable variant, the axis of pivoting of a blade may itself constitute the abutment for the neighboring blade, which blade is then dimensioned so as to be able to partially overlap a neighboring blade. Furthermore, as indicated above, the pivot axes of the blades are aligned in the vicinity of one of the longitudinal edges of the plates. Preferably, the pivot axes are positioned on the frames so as to be aligned with the rotor axis of the device. On the opposite side to this edge in the vicinity of which the pivot axes are present, the lower plate and the upper plate are connected by a strut 43. According to the present embodiment, the base frame 1 carries a fixed tube 5 to inside which the rotor axis 20 is guided in rotation (the generator being thus in this configuration present below the fixed tube which is carried by the upper wall 11 of the base frame) this by means of ball bearings 50 provided at least in the lower part and in the upper part of the fixed tube, inside thereof. The frames are secured in their lower part, that is to say through the lower crosspieces formed by the plates, to a member 6 mounted concentrically around the fixed tube and guided in rotation around it by the intermediate of a ball bearing. The upper crosspieces of each frame are in turn coupled, according to the present embodiment, to an equilateral triangular plate 7, itself coupled to the rotor axis 20, via a square portion 200 present in the housing. upper end of the rotor axis. The equilateral triangular plate 7 can be guided in rotation on the fixed tube by means of a ball bearing 70.

Claims (5)

REVENDICATIONS1. A device for generating electricity, wind or water, panemone type, comprising means (3) for catching wind or water organized around a vertical rotor axis (20), characterized in that the gripping means (3) to wind or water are carried by at least two rigid frames (4) extending radially relative to the rotor axis (20), the frames each comprising a lower cross member (40) and a cross member upper (41) connected at each of their ends by at least one upright (42), each frame carrying at least two blades (30) pivotally mounted about a vertical axis (31) extending between the bottom rail and the transom higher. 15 2. Electricity generating device according to claim 1, characterized in that the lower cross member (40) and the upper cross member (41) are each constituted by a plate, the two plates of a frame being connected at their ends by a pair of uprights (42). 20 3. Electricity generating device according to one of claims 1 or 2, characterized in that it comprises three frames (4) distributed at 120 ° in pairs around the rotor axis (20). 4. Electricity generating device according to any one of claims 1 to 3, characterized in that each frame (4) carries five blades (30). 5. Electricity generating device according to any one of claims 2 to 4, characterized in that the blades (30) of a frame 30 have their vertical axes (31) aligned in the vicinity of one of the longitudinal edges of the plaques.6. 7. 8. 9. 20 10. 25 Electricity generating device according to claim 5, characterized in that the plates of each frame are connected by a strut (43). Electricity generating device according to one of Claims 1 to 6, characterized in that the blades (30) each extend between two vertical edges, the vertical axis (31) of each blade extending in the vicinity one of the vertical edges of the blade. Electricity generating device according to any one of claims 1 to 7, characterized in that each frame (4) carries, for each blade (30), at least one stop in rotation. Electricity generating device according to any one of claims 1 to 7, characterized in that a rod connects the blades being pivotally mounted on one of the upper or lower end edges of the blades, on the side thereof opposite to the vertical axis of rotation. Electricity generating device according to one of Claims 1 to 9, characterized in that the frames (4) are coupled at least in their upper part to the rotor axis (20), the device having a fixed tube ( 5) inside which the rotor axis (20) is guided in rotation, the rotor axis (20) being coupled to an electricity generator (2) present below the fixed tube.