FR2574490A2 - Turbine for capturing the energy of fluids in movement, in particular wind energy - Google Patents

Abstract

The present invention relates to a turbine for capturing the energy of fluids in movement, in particular wind energy. Turbine characterised in that it is combined with a Darrieus-type turbine 8 as starter turbine for the latter by mounting, on a common rotational shaft 2', the Darrieus-type turbine 8, being permanently integrated with the shaft 2' and the starter turbine 7 being integrated with the shaft 2' fixedly or intermittently by a controlled or automatically-actuated link device, and in that the starter turbine 7 is mounted internally or externally to the Darrieus turbine 8.

Description

 The main patent relates to a turbine for capturing the energy of moving fluids, in particular wind energy, characterized in that it is essentially constituted by two blades in volume integral with an axis of rotation. , symmetrical with respect to said axis of rotation, each having a hyperboloidal section, which advantageously extends over an angle at the center slightly less than 1800, and a substantially elliptical cross section in planar projection, these blades being assembled together with offset at the level from their junction plane, so as to produce two crescent-shaped openings whose ends narrow to form a semicircular section channel at each junction point between the sections.

 The present application for a certificate of addition relates to an alternative embodiment of the invention.

 In accordance with a characteristic of the invention, the turbine is combined with a Darrieus type turbine as a starting turbine for the latter by mounting on a common axis of rotation, the Darrieus type turbine being permanently secured to the axis, and the starting turbine being fixedly or intermittently attached to the axis by a controlled or automatically actuated connection device, and in that the starting turbine is mounted internally or externally to the Darrieus turbine.

 The invention will be better understood thanks to the description below, which relates to preferred embodiments, given by way of nonlimiting examples, and explained with reference to the appended schematic drawings, in which FIGS. 1 to 3 are elevation views of different possible arrangements of the two turbines, and Figures 4 to 11 are views similar to Figures 1 to 3 of different possible embodiments of the connection between the turbines.

 In accordance with the invention, and as shown more particularly, by way of example, FIGS. 1 to 10 of the appended drawings, a turbine 7 constituted, in accordance with the main patent, by two blades in volume 1 secured to an axis 2 and symmetrical with respect to said axis 2, is combined with a Darrieus type turbine 8 as a starting turbine for the latter by mounting on a common axis of rotation 2 '. The turbine 8 is fixedly mounted on the axis 2 ', that is to say integral in rotation, while the turbine 7 used for starting is integral with the axis 2' fixedly or intermittently by via a connection device, which can be either controlled or automatically actuated.

 The turbine 7 can be mounted inside the turbine 8 (FIG. 1) or outside the latter, namely above (FIG. 2) or below (FIG. 3). In these cases, the connection between the turbine 7 and the axis 2 'is a fixed connection. Such an embodiment makes it possible to considerably lower the wind speed necessary to drive a Darrieus turbine and simultaneously increase the energy efficiency of the turbine 7, which also acts as a brake for the turbine 8 in the event very high wind speeds, so that the turbine 8 cannot reach its critical speed.

 According to a characteristic of the invention, not shown in the accompanying drawings, the connection between the axis 2 of the turbine 7 and the common axis 2 'is achieved by means of a centrifugal clutch. Thus, starting of the turbine 8 is made possible even in light winds, and as soon as the optimum operating speed of the turbine 7 is reached, the Darrieus turbine 8 is detached from the turbine 7 by the clutch. In such an embodiment, only the turbine 8 is connected to an energy production device.

 FIG. 4 represents an alternative embodiment of the invention, in which the connection between the turbine 7 and the axis 2 ′ of the turbine 8 is an intermittent link with automatic actuation formed by a freewheel device 9, the wheel of which drive is secured to the axis 2 of the turbine 7 and whose pawl is secured to the axis 2 '.

 FIG. 5 represents an alternative embodiment, in which the intermittent link with automatic actuation is constituted, on the one hand, by a freewheel device 9 used for starting, and, on the other hand, by a centrifugal clutch 10 re-establishing a connection between the turbines 7 and 8 as soon as a critical operating speed of the turbine 8 is reached for braking. Thus, the turbine 7 allows the turbine 8 to be started by means of the device 9, then its independent operation, and the centrifugal clutch 10 is engaged when the predetermined maximum rotational speed is exceeded, so that the turbine 7 brakes the turbine 8.

 According to another characteristic of the invention, the braking connection between the turbine 8 and the turbine 7 can also be controlled and be effected by means of an electromagnetic clutch actuated by the current of a generator or a current of a auxiliary battery, the activation being controlled by an anemometer, by a tachometer, or by another control device at a predetermined wind or rotation speed.

 The intermittent connection between the two turbines 7 and 8 can also be achieved by means of permanent magnets 11 mounted on the axes 2 and 2 ', without contact with each other, and integral with the latter (Figure 6). By this embodiment, the drive of the turbine 8 by the turbine 7 is ensured at start-up, and as soon as the maximum speed of rotation of the turbine 7 is reached the turbine 8 can continue at accelerated speed, no physical connection part not connecting it to said turbine 7.

 FIG. 7 represents a variant embodiment of the invention, in which the intermittent connection between the turbines 7 and 8 is produced by means of two groups of magnets 12 and 13 cooperating with a centrifugal connection device 14, the group d magnets 12 are advantageously permanent magnets and used for starting, while the group of magnets 13 is preferably a group of excited magnets cooperating with the connection device 14 for braking and actuated by an anemometer, by a speedometer, or by another control device at a predetermined wind or rotation speed.

 According to an alternative embodiment of FIG. 7> not shown, the intermittent connection between the turbines 7 and 8 can be achieved by means of two groups of magnets 12 and 13 cooperating or not with a centrifugal connection device 14 for braking, these magnets being actuated by a current from an auxiliary battery which is controlled by an anemometer, by a tachometer, or by another control device at a predetermined wind or rotation speed.

In such an embodiment, the connection between the turbines 7 and 8 and their uncoupling can be effected by simple excitation of the magnets or by cutting this excitation.

 According to another alternative embodiment of the invention, and as shown in FIG. 8, the axis 2 ′ secured to the Darrieus turbine -8 is advantageously provided with a stator 15 of an electric generator and the axis 2 of the turbine 7 mounted with free rotation on the axis 2 ′ is provided with the rotor 16 of said generator, a freewheel device (not shown) capable of ensuring the connection of the two turbines at start-up, the differential speed of the turbines producing in normal operating conditions directly usable electrical energy.

 It is also possible to provide that the axis 2 ', which is integral with the Darrieus turbine 8, is advantageously provided with a stator 15 of an electric generator and the axis 2 of the turbine 7, which is mounted at free rotation on the axis 2 ', is provided with the rotor 16 of said generator, the connection of the two turbines 7 and 8 being ensured by an excitation current coming from a battery (not shown) and controlled by an anemometer, by a tachometer, or by another control device at a predetermined wind or rotation speed. In normal operating conditions, the differential speed of the turbines 7 and 8 then produces directly usable electrical energy.

 FIG. 9 represents another alternative embodiment of the combination of turbines according to FIG. 8, in which the current produced by the generator formed by the stator 15 and rotor 16 excites a generator 17 with variable excitation, integrated or not with the set of turbines.

 Finally, FIG. 10 represents another variant embodiment of the invention7 in which the electric current produced by the stator 15 and rotor 16 assembly is intended to actuate an electric clutch 18 connecting the turbine 7 with the axis 2 of the turbine 8 and / or an electric brake 19 mounted on the axis 2 ′ for braking the turbine 8, the clutch 18 being actuated by means of a trigger reacting to a given current or power threshold , namely a lower threshold, and the brake being actuated by this same trigger or by a second trigger as soon as a predetermined higher current or power threshold is reached.

 It is also possible, as shown in FIG. 11, to make the intermittent connection between the turbines 7 and 8 by means of a centrifugal device with contacts 20 secured to the axis 2 of the starting turbine 7 and combined with a clutch. . This device 20 disengages the connection between the turbines 7 and 8 at a predetermined speed of rotation and its contacts then circuit an auxiliary battery 21, the current of which is used to excite a generator 22, the stator of which is integral with the axis 2 ′ of the turbine 8 and the rotor of which is integral with the said turbine 8. In service, the generator 22 recharges the annex battery 21.

 In accordance with another characteristic of the invention, the turbines 7 and 8 can be provided with light elements in the form of lamps or signals, integrated into the assembly of the turbine or one of its elements, and the supply of which in electric current is provided by a generator integrated into the turbine or driven by it. Such an embodiment proves to be particularly advantageous in the field of signaling or decoration, no additional current source being necessary.

 Thanks to the invention, it is possible to produce a combination of turbines allowing considerable powers to be obtained, while limiting the higher extreme rotational speeds. The embodiments according to the invention make it possible in particular to produce signaling or decoration devices incorporating luminaires, or flash lamps.

 Of course, the invention is not limited to the embodiments described and shown in the accompanying drawings. Modifications remain possible, in particular from the point of view of the constitution of the various elements 5 or by substitution of technical equivalents, without thereby departing from the scope of protection of the invention.

Claims (13)

 - R E V E N D I C A T I O N S -  1, Turbine for capturing the energy of moving fluids, in particular wind energy, according to any one of claims 1 to 6 of the main patent, characterized in that it is combined with a turbine (8) Darrieus type as a starting turbine for the latter by mounting on a common axis of rotation (2g), the Darrieus type turbine (8) being secured to the axis (2 ') definitively, and the turbine (7) start-up being secured to the axis (2 ') fixedly or intermittently by un.dispositiF connection controlled or automatically actuated, and in that the starting turbine (7) is mounted internally or externally to the turbine by Darrieus (8).  2. Turbine according to claim 1, characterized in that the connection between the axis (2) of the turbine (7) and the common axis (2 ') is produced by means of a centrifugal clutch.  3. Turbine> according to claim 1, characterized in that the connection between the turbine (7) and the axis (2 ') of the turbine (8) is an intermittent link with automatic actuation formed by a freewheel device ( 9), whose drive wheel is secured to the axis (2) of the turbine (7) and whose pawl is secured to the axis (2 ').  4. Turbine according to claim 1, characterized in that the intermittent link with automatic actuation is constituted, on the one hand, by a freewheel device (9) used for starting, and, on the other hand, by a clutch centrifugal (10) restoring a connection between the turbines (7) and (8) upon reaching a critical operating speed of the turbine (8) for braking.  5. Turbine> according to claim 4, characterized in that the braking connection between the turbine (8) and the turbine (7) is controlled and is effected by means of a geelectromagnetic clutch actuated by the current of a generator or a current from an auxiliary battery, the actuation being controlled by an anemometer, by a tachometer or by another control device at a predetermined wind or rotation speed.  6. Turbine according to claim 1, characterized in that the intermittent connection between the turbines (7 and 8) is produced by means of two groups of magnets (12 and 13) cooperating with a centrifugal connection device (14), the group of magnets (12) advantageously being permanent magnets and used for starting, while the group of magnets (13) is preferably a group of excited magnets cooperating with the connection device (14) for braking and actuated by an anemometer, by a tachometer, or other control device at a predetermined wind or rotation speed.  7. Turbine according to claim 6, characterized in that the intermittent connection between the turbines (7 and 8) is achieved by means of two groups of magnets (12 and 13) cooperating or not cooperating with a centrifugal connection device (14 ) for braking and actuated by a current from an auxiliary battery, the current being controlled by an anemometer, by a tachometer, or by another control device at a predetermined wind or rotation speed.  8. Turbine according to claim 1, characterized in that the axis (2 ') integral with the Darrieus turbine (8) is advantageously provided with a stator (15) of an electric generator and the axis (2 ) of the turbine (7) mounted with free rotation on the axis (2 ′) is provided with the rotor (16) of said generator, a freewheel device which can ensure the connection of the two turbines at start-up, the differential speed of the turbines producing under normal operating conditions of directly usable electrical energy.  9. Turbine according to claim 8, characterized in that the axis (2 ') integral with the Darrieus turbine (8) is advantageously provided with a stator (15) of an electric generator and the axis (2 ) of the turbine (7) mounted with free rotation on the axis (2 ') is provided with the rotor (16) of said generator, an excitation current coming from a battery and controlled by an anemometer, by a tachometer, or by another control device at a predetermined wind or rotation speed ensuring the connection of the two turbines at start-up, the differential speed of the turbines producing directly usable electrical energy under normal operating conditions.  10. Turbine according to claim 7, characterized in that the current produced by the generator formed by the stator assembly tel5) and rotor (16) excites a generator (17) with variable excitation, integrated or not in the assembly of turbines.  11. Turbine according to claim 7, characterized in that the electric current produced by the stator (15) and rotor (16) assembly is intended to actuate an electric clutch (18) connecting the turbine (7) with the 'axis (2') of the turbine (8) and / or an electric brake (19) mounted on the axis (2 ') for braking the turbine (8), the clutch (18) being actuated by l by means of a trigger reacting to a given current or power threshold, namely a lower threshold, and the brake being actuated by this same trigger or by a second trigger as soon as a predetermined current or power threshold is awaited .  12. Turbine> according to claim 1, characterized in that the intermittent connection between the turbines (7 and 8) is produced by means of a centrifugal contact device (20) integral with the axis (2) of the turbine starting (7) and combined with a clutch, the centrifugal device (20) disengaging, at a predetermined speed of rotation, the connection between the turbines (7 and 8), and its contacts then switching on an auxiliary battery (21) , whose current is used to excite a generator (22), whose stator is integral with the axis (2 ') fixed to the turbine (8) and whose rotor is integral with said turbine (8), this generator (22) recharging, in service, the auxiliary battery (21).  13. Turbine according to any one of claims 1 to 12, characterized in that the turbines (7 and 8) are provided with light elements in the form of lamps or signals, integrated into the whole of the turbine or one of its elements, and whose electric current is supplied by a generator integrated into the turbine or driven by the latter.