FR2966206A1 - Technical device for optimizing brightness of image display in wind turbine, has lasers, cameras, self-powered or power generators and electrical, electronic or photonic instruments integrated to dampening modules - Google Patents

Abstract

The device has detectors, probes, energy sensors, signal receivers/transmitters, optical fibers, monitors, projectors, LED, lasers, cameras, partially or completely self-powered or power generators and electrical, electronic or photonic instruments integrated to dampening modules (16). Lighting conduits are arranged to capture environment light (19) and made of glass, polycarbonate, translucent silicon, and resin materials. The dampening modules are made of rubber materials.

Description

A medium-sized urban or peri-urban wind turbine (up to + 30m high) is intended to produce local electricity. There are wind turbines with vertical axis and horizontal axis. In order to communicate on the surface of the blades, they can be painted and / or personalized with a logo in the form of adhesive sheet, or even display a projected or dynamically created light image using LED or laser technologies, remotely controllable, illustrated in Figure 1 (1). Wind turbines associating the Savonius and Darrieus technologies (eg in figure 1) develop in operation average speeds of +/- 150 to 200 revolutions / minute (RPM), due to aerodynamic braking related to their design. Safety standards also require the integration of brakes.

Limited nominal speeds and wider blades of this type of wind turbines provide viewing surfaces directly on the blades, since a displayed image is recognizable or a short message readable even when the wind turbine is running at its maximum speed. Therefore, this type of wind turbine is more suitable to serve as a rotating display of images directly on the blades, compared to a wind turbine with long and thin blades that can develop speeds of more than 1000 revolutions per minute. minute. The integrated display allows the image to be seen and recognized by any type of wind, even weak, or even when the wind turbine is not running. In addition, the wind turbine does not need to be motorized using its own low-wind power generation to be able to generate the display of an image, which makes it more efficient.

The present device aims to optimize 1. the functionalities and the energy efficiency of a communicating wind turbine 2. as well as the brightness of display of images and / or short messages on the device in the light of the day and in full sun.

Firstly, the device makes it possible to optimize the functionalities and the efficiency of the wind turbine by integrating or associating with damping modules (13) (16) optional equipment and equipment, examples of which are illustrated. in Figures 2 to 5, characterized in that said apparatuses are fixed on said modules of a display (1), (5), (10) (LED screens, laser projectors, for example) within and 1 or on the turbine, the mast or one or more blades of a wind turbine on damping modules (13) (16). It may be equipment or apparatus such as detectors, sensors, energy sensors, signal receivers, fiber and optical systems, monitors, projectors, LEDs or lasers, probes, photonic instruments and / or cameras. They are characterized, moreover, in that they can be mechanical, electrical, electronic and partially or totally autonomous in energy, even producers of electricity to optimize the efficiency, the partial or total energy autonomy of the device and its apparatus embedded or connected, without impacting the design of the wind turbine as a whole. The damper modules (16) (13) (rubber plates and / or springs) can also themselves be provided with probes, sensors or cells capturing the surrounding energy or any other electrical, electronic or pneumatic system. , hydraulic, piezoelectric or antistatic, whose functions are, besides calibrating the various components, to balance differences in frequencies, to reduce or eliminate the production or accumulation of static electricity, electromagnetic fields and vibrations possible, etc., to produce electricity.

Secondly, the device can, moreover, always with the aim of optimizing the energy efficiency as well as increasing the brightness and therefore the visibility of the images displayed in full sun, include a dedicated optimization and anti-glare system (FIG. 6). , integrated in the display on the wind turbine.

In order to obtain a sufficient luminous flux in Lux for clearly visible images, even in sunny weather, this optimization device (FIG. 6) is characterized by wells or conduits of light (16) which capture the surrounding light. These wells (16) can be closed at the surface by a transparent film or plate (17), or even be encapsulated in glass, polycarbonate, resin, translucent silicone or similar material to be watertight and to prevent fouling. They (16) are located around the outer face of the blade (4), each pixel or set of pixels (pitch) (18) and / or each screen (1) (15). The captured luminous fluxes (19) are multiplied through a specific optical system (20) and proportionally provide the complementary light necessary to increase the brightness of each pixel or set of pixels (18) and thus enable the display of images clearly visible in the light of the day on the wind turbine. To limit the effects of glare on the screen or screens, this device may be a black metal or plastic mesh (21) incorporating relief sunshades (22) with the dual function of antireflection and direct the luminous flux emitted ( the displayed image) to the observer. The light image emitted by the display (s) (5) (10) can be enlarged to the size of the external display surface (1) on the blade or blades, by passing through one or more photonic systems of and optical and or lens, illustrated in Figures 4 and 5, (6) (15), Figure 6 (15), which may consist of optical fibers, mirrors, lenses, magnifiers and prisms (not shown in detail). The end of the device is characterized by a distinct optic according to FIGS. 4, 5 and 6 (15), in the form of a transparent polycarbonate tip or other suitable robust material, which can be easily dismantled and replaced individually or by subassemblies, degradation (wear, vandalism or other) by a system of clips, slides, and / or screws (not shown). All components integrated in the wind turbine, including the mast can, in addition, be equipped with systems for capturing the surrounding energy (kinetic, wind, photovoltaic, photonic, thermal, piezoelectric), such as photosensitive cells or sensors, for example (not shown) and, which connected to one or more generators, can produce electricity. Figure 3 shows the section of a blade seen from above with a surface or display screen (1) fixed on the outer surface of the blade and / or blades (4). Each attachment of the variants illustrated in Figures 2 and 3 is provided with a damping module (16), comparable to the device (13) described above. The projection systems illustrated in FIGS. 4 and 5 are respectively fixed with their base (14) to the rotor (tower) or within the nacelle of a wind turbine. Figures 2 and 3 illustrate only one blade face with a screen. It is understood that the different types of display systems must be installed in a balanced manner, either by using counterweights (not shown), or symmetrically within the same rotor (tower) (12) or a nacelle wind turbine, to ensure a balance of the installation as a whole. For maintenance and servicing, all the components of the display device and its appendices are individually accessible, either directly or by one or more hatches or valves located on the rotor (tower) and / or the platform (not shown ), one or blades or mast of the wind turbine and dismountable, either by subassemblies or individually with standard tools.

The accompanying drawings illustrate the invention:

FIG. 1 illustrates the device of the invention as a whole. FIG. 2 illustrates a first variant of the method of fixing the visible part of the device (blade section, view from above). FIG. second alternative method of fixing the visible part (1) of the device (blade section, top view) Figure 4: illustrates a mechanical variant of the display system Figure 5: illustrates an electronic variant of a display system Figure 6: illustrates the brightness and anti-glare optimization device 4

Claims (9)

REVENDICATIONS1. Technical device of a communicating wind turbine which allows to add functionalities and optimize its efficiency without impacting its design, characterized in that optional equipment and equipment, examples of which are illustrated in FIGS. 2 to 5 (detectors, sensors, sensors, energy, signal-receivers, fiber and optical systems, monitors, projectors, LEDs or lasers, sensors, cameras, electrical, electronic, photonic instruments, partially or totally autonomous in energy, or even electricity producers), are integrated or associated with damping modules (13) (16) and in that said apparatuses are fixed to the modules (13) (16) of a display (1), (5), (10) (LED screens, laser projectors, for example) within or on the turbine, the mast or one or more blades of a wind turbine. 2. Device according to claim 1, characterized in that the damping modules (16) (13) (rubber plates and / or springs) can themselves be equipped with probes, detectors and / or cells. capturing the surrounding energy or any other mechanical, electrical, electronic, pneumatic, hydraulic, piezoelectric and / or antistatic system which may, in addition to calibrating the different components, balance the differences in frequencies, reduce or eliminate the production or accumulation of static electricity, electromagnetic fields and possible vibrations, etc., produce electricity. 3. Device according to the preceding claims, characterized in that a dedicated optimization and antireflection system, illustrated in Figure 6, is integrated with the turbine and / or blades, located around the outer face of the blade (4). ), each pixel or set of pixels (pitch) (18) or each screen (1) (15). 4. Device according to claim 3, characterized in that the system comprises wells or conduits of light (16) which capture the surrounding light, can be closed on the surface by a transparent film or plate (17), or even be encapsulated in glass , polycarbonate, translucent silicone, resin or similar material to be waterproof and prevent fouling. 5. Device according to claims 3 and 4, characterized in that the captured light fluxes (19) are multiplied by passing through a specific optical system (20) and provides proportionally additional light necessary to increase the brightness of each pixel or set of pixels (18) and thus allow the display of images clearly visible in the light of day on the wind turbine. 6. Device according to claims 3 to 5, characterized in that, to limit the effects of reflection on the screen or screens, the device comprise a metal mesh or black plastic (21) incorporating in relief sun visors (22) with the dual function of antireflection and to direct the luminous flux emitted (the image displayed in height) towards the observer. 7. Device according to claims 3 to 6, characterized in that the light image emitted by the display (s) (5) (10) can be enlarged to the size of the external display surface (1) on the or the blades, passing through one or more photonic systems of optics and or lenses, according to FIGS. 4 and 5, (6) (15), FIG. 6 (15), which may consist of optical fibers, mirrors, lenses, loupes or prisms (not shown in detail), then transferred to the outer face of the blade (4). 8. Device according to any one of the preceding claims, characterized in that all components integrated in the wind turbine, including the mast can, in addition, be provided with systems for capturing the surrounding energy (kinetic, photovoltaic, photonic, wind turbine, thermal, piezoelectric), as photosensitive cells or sensors (not shown) and, which connected to one or more generators, can produce electricity. 9. Device according to the preceding claims, characterized in that for maintenance and maintenance, all components of the display device and its appendices are individually accessible, either directly or by one or more hatches or valves located at rotor (tower) and / or the nacelle (not shown), one or blades or mast of the wind turbine and dismountable, either by subassemblies or individually with standard tools.