FR2981730A1 - Lighting installation for illuminating e.g. road, in urban area, has rechargeable batteries in inner volume of mast to store solar energy collected by solar cells, and electronic board restoring energy stored by batteries to lighting device - Google Patents

Abstract

The installation (1) has a lighting device (2) fixed on a hollow mast (3), and solar cells (4) covering a portion of an outer wall of the mast. Rechargeable batteries are received in an inner volume of the mast, to store solar energy collected by the solar cells. An electronic board restores the energy stored by the batteries to the lighting device, where the mast extends along a vertical plane, and includes a continuous shape with a lower vertical length section (31) followed by an upper curved length section (32).

Description

The invention relates to a lighting installation and will find a particular application to illuminate roads, streets or others, urban or extra-urban. In the field of street lighting we know the street lights powered from the power grid and which require the realization of trenches for the passage of electrical power cables to the pole of the lamp. The state of the art also knows lampposts equipped with solar panels and rechargeable batteries. The solar energy captured by the solar panels is used to recharge the batteries. The batteries are used to power the lighting system of the lamp when needed. For example, the document US2007 / 0052385 discloses such a lighting installation for which the solar cells are integrated into the lampshade of said lamppost. When the brightness detected by a sensor is not sufficient, the lighting system is controlled at ignition. An external source of power, of origin other than solar, makes it possible to supply the lamp post with electricity when the intensity of the sun is not sufficient to recharge the batteries. The object of the present invention is to provide such a lighting installation, provided with solar cells and an energy storage system capable of storing the solar energy captured by said cells, of improved performance. More particularly, an object of the present invention is to provide such a lighting installation, autonomous energy, which does not require the realization of trenches. Another object of the present invention is to provide such a lighting installation, able to capture solar energy satisfactorily, regardless of the inclination and direction of the sun. Another object of the present invention is to provide such a lighting installation, energy saving. Another object of the present invention is to provide such a lighting installation that can be manufactured cheaply.

Another object of the present invention is to provide such a lighting installation whose energy storage system is protected against theft. Other objects and advantages of the invention will become apparent from the following description which is given for information only and which is not intended to limit it. Also the invention relates to a lighting installation comprising: - a lighting device, - a hollow mast, on which is fixed said lighting device, - a plurality of solar cells covering at least a portion of the outer wall of said mast, - a system for storing energy, received in the inner volume of said mast, able to store the solar energy sensed by said plurality of solar cells, - means for restoring the energy stored by the system storage to said lighting device.

According to optional features of the invention, taken alone or in combination: the mast extends in a vertical plane and has a continuous shape with a section of vertical length, lower, followed by a section of curved length, upper; said solar cells extend on at least one outer wall of said vertical length section and on at least one outer wall of said curved length section; - At least a first row of solar cells extends along the length of the mast on a concave outer wall of said mast and at least a second row of solar cells extends along the length of the mast on a convex outer wall of said mast; - The body of the mast consists essentially of a tubular section comprising a casing forming the outer wall of the mast; the tubular profile comprises two reinforcement webs, interior to said envelope, each respectively joining two parts of said envelope, said reinforcement webs dividing the internal volume of said tubular section into three parts, a median part intended to receive said storage system; energy, and two side portions, on either side of said middle portion; - At least one of the two reinforcement webs has a groove opening into the volume of said middle portion, inside which are intended to run electrical cables of the installation; said installation has sliding means directed along the length of the mast and intended for holding the solar cells on the outer wall of said mast, said slide means comprising two holding wings intended respectively to retain two opposite edges of a solar cell and forming a slide; - The tubular section 6 has a section with two rounded edges 67 between which are provided said slide means 7, said slide means (7) being constituted at least in part by the end portions of the rounded edges 67 of the tubular section (6); soft seals are interposed between said slide means and said opposite edges of each solar cell; the storage system comprises a plurality of batteries received in the inner volume of the lower part of the mast, said mast having an access opening, capable of allowing the batteries to be withdrawn, said access opening being positioned in height, above the level of said batteries, a lifting system including a cable / pulley assembly or the like for moving the batteries from a lower position to the level of said access opening.

The invention will be better understood on reading the following description accompanied by the drawings in which: FIG. 1 is a side view of an installation according to the invention according to one embodiment. FIG. 2 is a front view of the installation as illustrated in FIG. 1. FIG. 3 is a rear view of the installation as illustrated in FIG. 1. FIG. front view of the mast of the installation as shown in Figure 1. - Figure 5 is a view in a vertical section of the mast as shown in Figure 4. - Figure 6 is a view according to the section VV as illustrated in Figure 5. - Figure 7 is a side view of the installation as shown in Figure 1, illustrating the positioning of the batteries in transparency. - Figure 8 is a detailed view of the installation as shown in the figure showing more particularly the access opening of the mast for changing batteries, and said lifting system. - Figure 9 is a view of the lighting installation having, in addition to solar cells, a vertical axis wind turbine. Also the invention relates to a lighting installation 1 comprising: - a lighting device 2, - a hollow mast 3, on which is fixed said lighting device, - a plurality of solar cells 4 covering at least a portion of the outer wall of said mast 3, - a storage system 5 of the energy received in the inner volume of said mast, able to store the solar energy sensed by said plurality of solar cells 4, - means for restoring the energy stored by the storage system at said lighting device 2. The lighting device 2 comprises a light source, for example of the neon type, incandescent lamp, or preferably light-emitting diode. The hollow mast 3 extends at least vertically and carries in particular at its distal end, said lighting device 2. The solar cells can be in the form of photovoltaic panels and can be fixed on the outer wall of the mast by means of sliding means directed along the length of the mast and intended for holding the solar cells 30 on the outer wall of said mast.

For this purpose, said slide means comprise two retaining wings 71, 72, 73, 74 respectively intended to retain two opposite edges of a solar cell 4 and forming a slide for a row of solar cells 4. The storage system 5 of FIG. the energy may comprise a plurality of rechargeable batteries and a circuit allowing the batteries 51 to be recharged from the electrical energy produced by the solar cells 4. Said means for restoring the energy may comprise an electronic card which optimizes the level of energy. illumination according to detection areas of objects, including vehicles, downstream and upstream of the invention.

This electronic card can be in wireless communication via transmitters / receivers with an electronic management system incorporating a precision clock, and measurement systems. This management system can be in connection with presence detectors, in particular infrared detectors, of the Doppler type or of the inductive type.

This management system can make it possible to establish an ignition strategy and thus make illumination conditional. According to the embodiment illustrated in Figures 1 to 3, the mast has a lower end to be fixed to the ground and extends in a vertical plane when fixed on a support. The mast may have a continuous shape with a section of vertical length 31, lower, followed by a section of curved length 32, upper. Said solar cells 4 may extend over at least one outer wall of said vertical section 31 and, also, on at least one outer wall of said section of curved length 32 in order to capture the solar energy in a satisfactory manner regardless of the tilt and direction of the sun. The installation may in particular have at least a first row 41, 42 of solar cells extending along the length of the mast 3 on the concave outer wall 33 of the curved length section 32 of the mast and, alternatively or additionally, at least one second row 43, 44 of solar cells extending along the length of the mast 3, on the convex outer wall 34 of the curved length section 32 of the mast. For example, according to the example of the figures, the installation has two rows 41, 42 on said concave outer wall 33 and two others 43, 44 on the convex outer wall 34.

In order to overcome the differences in charge intensities according to the exposure zones of the mast, the wiring of the solar cells 4 to the storage system is preferably a specific individual wiring, specific to each solar cell 4, or to all the less specific to each subgroup of solar cells 4. Advantageously, in order to reduce costs, the body of the mast 3 may consist essentially of a tubular section 6, in particular of extruded aluminum. This tubular section 6 comprises a casing 60 forming the outer wall of the mast, see two reinforcement webs 61, 62, inside said casing 60. Said reinforcing webs 61, 62 may divide the internal volume of said tubular section 6 into three parts 63 , 64, 65, namely a medial portion 63 and, on either side, two lateral portions 64, 65. The middle portion 63, of predominant section is intended to receive the energy storage system and in particular the batteries, so superimposed on each other. These batteries are received at least on a lower portion of the mast 3. As illustrated each reinforcement core 61,62 may have a groove, directed along the length of the mast 3, opening into the volume of the middle portion 63 and to the interior of which can run electric cables. According to the example of the figures the profile 6 may have a section having two rounded edges 67 between which are provided said slide means 7, directed along the length of the mast 3 and intended for holding the solar cells 4 on the outer wall of the mast. Such a section makes it possible to obtain good resistance to the wind, despite the surface of the walls of the mast 3 which can be between 2 m2 and 4 m2, and in particular between 2.5 m2 and 3 m2 by limiting the wind gain of the mast. These slide means 7 comprise said two holding flanges 71, 72, 73, 74 respectively intended to hold two opposite edges of a solar cell, forming a slide for a row 41, 42, 43, 44 of solar cells.

According to the example illustrated in FIG. 6, the tubular section 6 has a section with two rounded edges 67 between which said sliding means 7 are provided. On the concave outer wall 33, the sliding means 7 may comprise four holding flanges 71, 72,73,74 to maintain two rows 41,42 of solar cells, juxtaposed. On the convex outer wall 34, the slide means may comprise four holding wings 71, 72, 73, 74 making it possible to maintain two rows 43, 44 of solar cells, juxtaposed. It will be noted that the respective planes of two juxtaposed rows 41, 42 or 43, 44 are preferably not parallel to each other, but have a slight, strictly positive angle which can be between 2 ° and 20 °. This configuration makes it possible to confer a triangular shape on the walls 33 and 34, "in point", and thus to limit the wind catch of the mast 3. Moreover, the outer holding wings 71, 72 may each consist of a single holding with the tubular section 6, in particular by the end portions of the rounded edges 67. On the contrary, the intermediate wings 72, 73 co-operating respectively with the two rows of juxtaposed cells 41, 42 or 43, 44 may be constituted by a separate element of the profile tubular 6, removably attached to the profile. This arrangement makes it easier to maintain the cells, and more particularly to remove them. Advantageously, flexible joints (not shown), elastomeric material or other, can be inserted between the slides and each of the solar cells to block the position of the cell in the slide. These flexible joints prevent said solar cell from being constrained during the elastic deformation of the mast 3, in particular in the case of strong winds on said installation 1. According to the example of the figures, the section 6 has sliding means allowing to receive four rows of solar cells, namely two rows 41,42 of solar cells 4 on the concave outer wall 33 of the mast and two rows 43,44 of solar cells on the convex outer wall 34 of the mast.

Advantageously, the slide means 7 consist wholly or partly of said tubular section 6 during the extrusion of said profile. According to one embodiment, the storage system 5 comprises several batteries 51 received in the inner volume of the lower part of the mast 3, and more particularly, in the inner volume of said middle portion 63.

In order to allow the maintenance and the change of the batteries, said mast has an access opening 8, able to allow the withdrawal of the batteries 51 and in particular closed by a hatch. Advantageously, said access opening 8 is positioned in height, above the level of said batteries 51, preferably at a height sufficient to discourage theft attempts. A lifting system comprising in particular a cable / pulley assembly or the like can make it possible to move the batteries 51 from a lower position to the level of said access opening 8. Possibly the batteries are loaded on a carriage able to slide vertically on the height of the mast.

The lighting installation may comprise, as illustrated in Figure 9 a wind turbine 10, in particular vertical axis, carried by the mast 3, able to supply energy storage system of wind energy energy. The axis of this wind turbine 10 can be located in the extension of the vertical length section 31, the wind turbine positioned above said vertical section 31. This wind turbine 10 can drive an alternator received in the mast 3. The energy produced This wind turbine is used to recharge the batteries 51. Of course, other embodiments could have been envisaged by those skilled in the art without departing from the scope of the invention as defined by the claims below.

Claims (11)

REVENDICATIONS1. Lighting installation (1) comprising: - a lighting device (2), - a hollow mast (3) on which said lighting device is fixed, - a plurality of solar cells (4) covering at least a part of the outer wall of said mast (3), - a storage system (5) of the energy received in the inner volume of said mast, able to store the solar energy sensed by said plurality of solar cells (4), means for returning the energy stored by the storage system to said lighting device. Solar system according to claim 1 wherein the mast (3) extends in a vertical plane, having a continuous shape with a section of vertical length (31), lower, followed by a section of curved length (32). , superior. The solar installation according to claim 2, wherein said solar cells extend over at least one outer wall of said vertical length section (31) and on at least one outer wall of said curved length section (32). Solar system according to claim 2 or 3, wherein at least a first row (41,42) of solar cells extends along the length of the mast on a concave outer wall (33) of said mast and at least a second row. (43,44) of solar cells extends along the length of the mast on a convex outer wall (34) of said mast. 5. Installation according to one of claims 1 to 4 wherein the body of the mast (3) consists essentially of a tubular section (6) comprising a casing (60) forming the outer wall of the mast (3). 6. Installation according to claim 5, wherein the tubular section (6) comprises two reinforcement webs (61,62), interior to said envelope, each respectively joining two parts of said envelope (60), said reinforcement webs (61 , 62) dividing the inner volume of said tubular section (6) into three portions, a middle portion (63) for receiving said energy storage system, and two side portions (64, 65), on each side and other of said middle portion (63). 7. Installation according to claim 6, wherein at least one of the two reinforcing webs (61,62) has a groove (66) opening into the volume of said middle portion, inside which are intended to run electrical cables of the installation. 8. Installation according to one of claims 1 to 7 having slide means (7) directed along the length of the mast (3) and intended for holding the solar cells (4) on the outer wall of said mast (3), said slide means comprising two holding wings (71,72,73,74) intended respectively to retain two opposite edges of a solar cell (4) and forming a slide for a row (41,42,43,44) of solar cells . 9. Installation according to claim 5 and 8, wherein the tubular section 6 has a section with two rounded edges 67 between which are provided said slide means 7, said slide means (7) being constituted at least in part by the end portions of rounded edges 67 of the tubular section (6). 10. Installation according to one of claims 1 to 9 wherein the storage system (5) comprises several batteries (51) received in the inner volume of the lower part of the mast (3), said mast having an access opening ( 8), adapted to allow the removal of the batteries (61), said access opening (8) being positioned in height, above the level of said batteries (51), a lifting system comprising in particular a cable / pulley assembly or the like for moving the batteries (51) from a lower position to the level of said access opening (8). 11. Installation according to one of claims 1 to 10 comprising a wind turbine (10) including a vertical axis, carried by the mast, adapted to supply said energy storage system wind energy energy.