FR2922628A1 - Floor lamp for taxiway, has pole fixed in ground, and electrical accumulation circuit provided for charging electrical accumulation battery from electrical power provided by assembly of photovoltaic cells and wind turbine - Google Patents

Abstract

The lamp (100) has a pole (102) fixed in ground, and a lantern (118) fixed to a free end of the pole and comprising a lighting device. A power supply block (110) is provided for supplying electrical power to the lighting device. The block has an electrical accumulation circuit provided for charging an electrical accumulation battery from the electrical power provided by an assembly of photovoltaic cells (112) and a wind turbine (114). The assembly of photovoltaic cells and the wind turbine are arranged above the lantern.

Description

The present invention relates to a lamp post comprising a set of photovoltaic cells and a wind turbine. A street lamp disposed along a traffic lane conventionally comprises a mast fixing in the ground and a lantern attached to the free end of the mast and comprising a light device. The power supply of the light device is done through electrical cables that run under the floor from one lamp to another to an electrical box. The electric cables go up along each mast and are connected to the light device.

The installation of such a lamp requires heavy preparation work, especially since it is necessary to dig the ground to bury the electric cables. An object of the present invention is to provide a street lamp which does not have the disadvantages of the prior art and which in particular allows easy implementation. For this purpose, a floor lamp is proposed comprising: - a mast fixed in the ground, - a lantern fixed to the free end of the mast and comprising a light device, - a power supply unit intended to supply electrical energy to the luminous device and comprising: - an electric storage battery, - a set of photovoltaic cells, - a wind turbine, and - an electrical storage circuit designed to charge the storage battery from the electrical energy supplied by the set of photovoltaic cells and the wind turbine. Advantageously, the wind turbine has a vertical axis of rotation. Advantageously, the set of photovoltaic cells and the wind turbine are arranged above the lantern. Advantageously, the street lamp comprises an ignition control device of the light device comprising: - at least one presence detection means comprising a detection zone, - an intensity dimmer adapted to vary the electrical intensity supplying the light device according to that the or one of the presence detection means detects or not the presence of an individual in its detection zone. Advantageously, the ignition control device comprises a base on which is mounted the or each presence detection means and orientation means provided to allow the orientation of the base by rotation about a vertical axis. Advantageously, the ignition control device comprises a first solidarization interface provided to secure the base on the mast.

Advantageously, the ignition control device comprises a second securing interface provided for securing the lantern to the base. According to a particular embodiment, the ignition control device comprises two presence detection means arranged in a diametrically opposite manner with respect to each other.

According to another particular embodiment, the ignition control device comprises three presence detection means arranged at 120 ° from each other. FIG. 1 represents the upper part of a lamppost according to the invention, FIG. 2 is an exploded view of the lamppost according to the invention, FIG. 3 is an exploded view of an ignition control device according to the invention, FIGS. 4a, 5a and 6a show three variants of the ignition control device, and FIGS. 4b, 5b and 6b represent the detection zones of each of the previous variants. Fig. 1 shows a lamppost 100 comprising: - a mast 102 fixing in the ground, - a lantern 118 fixed to the free end of the mast 102 and comprising a light device. The lamppost 100 also comprises a power supply unit 110 intended to supply electrical energy to the luminous device and comprising: an electric storage battery 202 (FIG 2), a set of photovoltaic cells 112, a wind turbine, 114, and 3 - an electrical accumulation circuit provided for charging the accumulation battery 202 from the electrical energy supplied by the set of photovoltaic cells 112 and the wind turbine 114. Thus, when the light energy is sufficient, the set of photovoltaic cells 112 receives the light energy which is converted into electrical energy which is stored in the accumulator battery 202 through the electrical accumulation circuit. Similarly, when the wind is sufficient, the wind turbine 114 captures this energy, which is converted into electrical energy which is stored in the electric accumulator battery 202 through the electrical accumulation circuit. The set of photovoltaic cells 112 consists here of two panels which are fixed on a box 120 and which face south. Such lamppost 100 has the advantage of not needing electrical power cables to supply electrical energy to the light device.

It is not necessary to dig trenches in the ground. The lamppost 100 is thus completely autonomous and ecological since it only works via renewable energies. The combination of the set of photovoltaic cells 112 and the wind turbine 114 ensures that, whatever the time and whatever the time of day, the electric storage battery 202 will be able to be charged and the light device powered . In order to facilitate the access of the set of photovoltaic cells 112 and of the wind turbine 114 to their respective source of energy (sun and wind), the set of photovoltaic cells 112 and the wind turbine 114 are disposed of above the lantern 118. For this purpose, the lantern 118 is covered with a plate 116 on which rests the set of photovoltaic cells 112 and the wind turbine 114. FIG. 2 shows an exploded view of the lamppost 100. A frame 202, in the form of a gantry, is fixed above the plate 116. The box 120 covers the frame 204 and the accumulation battery 202 which is disposed here under the frame 204 To reduce the bulk of the power supply 110, the wind turbine 114 has a vertical axis of rotation and blades that rotate about this axis of rotation. Here, the wind turbine 114 consists of three blades. The axis of rotation of the wind turbine 114 cooperates with a transformation device, for example of the alternator type, designed to transform the rotational energy of the wind turbine into electrical energy. The transformation device is here arranged in a transformation box 122 in the upper part of the box 120.

To allow an economy of the electrical energy stored in the accumulator battery 202, the street lamp 100 comprises an ignition control device 106 of the light device itself comprising a dimmer adapted to vary the electrical power supply. the luminous device. The variator is intended to control the lighting device when an individual is close to the lamppost 100 and to turn off the light device when no individual is close to the lamppost 100. The extinction of the luminous device can be replaced by a reduction the luminous intensity emitted by the luminous device. The detection of the presence of an individual is carried out by means of at least one presence detection means 310 comprising a detection zone that the ignition control device 106 comprises. The or each presence detection means 310 may be for example an infrared detector. Thus, the intensity variator varies the electrical intensity according to whether or one of the presence detection means 310 or not detects the presence of an individual in its detection zone. The ignition control device 106 includes electronic components necessary to perform this operation. Fig. 3 shows a particular embodiment of an ignition control device 106 according to the invention. The ignition control device 106 here comprises a base 306 on which is mounted the or each presence detection means 310 via a support 308. The presence detection means 310 is fixed on the support 308 which is itself fixed on the base 306. The base 306 takes the form of a circular ring and comprises a first fastening interface 304 provided for securing the base 306 on the mast 102. The first solidarization interface 304 takes the form of a cylinder disposed under the base 306 which engages in the mast 102 which is provided hollow at its free end. The circular shape of the first interface 304 makes it possible to position the base 306 in the desired position by rotation around the axis of the first interface 304. It is thus possible to orient the presence detection means 310 according to the zones by which individuals are supposed to arrive.

Of course the shape of the first interface 304 depends on the section of the mast 102. It is thus possible to provide that the mast 102 and the first interface 304 have a polygonal section. Even if such a section allows a certain freedom of orientation of the base 306 by rotation around the vertical axis, this freedom is less than in the case of a circular section. It is also possible to provide that only the base 306 is rotatable about the vertical axis. For example, the base 306 may be a rotating ring mounted free to rotate on the first interface 304 via connecting means.

In general, the ignition control device 106 comprises the base 306 on which is mounted the or each presence detection means 310 and orientation means provided to allow the orientation of the base 306 by rotation around it. of the vertical axis. These orientation means may be the first interface 304, or the connection means.

To secure the lantern 118, the ignition control device 106 comprises a second securing interface 302 provided for securing the lantern 118 to the base 306. The second securing interface 302 takes the form of a cylinder disposed at above the base 306 which engages in a sleeve 108 of the lantern 118. The circular section of the second interface 302 allows to orient the lantern 118 and thus the set of photovoltaic cells 112 by rotation about the axis vertical. As for the first interface 304, the second interface 302 and the sleeve 108 may have a polygonal section. The first interface 304 and the second interface 302 are presented here as male interfaces, but they can also be female interfaces in which the mast 102 and the sleeve 108 penetrate. The passage of the connection cables between the presence detection means 310 and the various components constituting the lamppost 100 is provided by a hole 312 passing through the base and the second interface 302. The various electronic components constituting the ignition control device 106 can be deported relative to the base 306 at the box 120 Fig. 4a is a bottom view of an ignition control device 406 comprising a single presence detection means 410. FIG. 4b is a top view of the detection zone 422 of the presence detecting means 410. FIG. 5a is a bottom view of an ignition control device 506 including two presence detecting means 510a and 510b. Fig. 5b shows in top view, the detection zone 522a of the presence detection means 510a and the detection zone 522b of the presence detection means 510b.

The two presence detection means 510a and 510b are arranged diametrically opposite one another. The ignition control device 506 is more particularly used in the case where the lamppost 100 is disposed on a traffic lane, in particular a sidewalk, parallel to the diameter on which the two presence detection means 510a and 510b are arranged.

Fig. 6a is a bottom view of an ignition control device 606 comprising three presence detecting means 610a, 610b and 610c. Fig. 6b shows in top view, the detection zone 622a of the presence detection means 610a, the detection zone 622b of the presence detection means 610b, and the detection zone 622c of the presence detection means 610c. The three presence detection means 610a, 610b and 610c are arranged at 120 ° from each other. The ignition control device 606 is more particularly used in the case where the lamppost 100 is disposed at a crossing of several traffic lanes, in particular of several sidewalks. Depending on the topology of the area to be illuminated, it is possible to provide an ignition control device which includes one or more presence detection means. Of course, the present invention is not limited to the examples and embodiments described and shown, but it is capable of many variants accessible to those skilled in the art.

Claims (9)

1) Floor lamp (100) comprising: - a mast (102) fixing in the ground, -a lantern (118) fixed to the free end of the mast (102) and comprising a light device, - a power supply unit Device (110) for supplying electrical energy to the light device and comprising: - an electric storage battery (202), - a set of photovoltaic cells (112), - a wind turbine (114), and - an electrical circuit of predicted accumulation for charging the accumulator battery (202) from the electrical energy supplied by the set of photovoltaic cells (112) and the wind turbine (114). 2) lamp post (100) according to claim 1, characterized in that the wind turbine (114) has a vertical axis of rotation. 3) lamp post (100) according to one of claims 1 or 2, characterized in that the set of photovoltaic cells (112) and the wind turbine (114) are disposed above the lantern (118). 4) Street lamp (100) according to one of claims 1 to 3, characterized in that it comprises an ignition control device (106) of the light device comprising: - at least one presence detection means (310) comprising a detection zone; a dimmer adapted to vary the electrical intensity supplying the light device according to whether the one or one of the presence detection means (310) detects the presence of an individual in his or her presence; detection area. 8 5) lamp post (100) according to claim 4, characterized in that the ignition control device (106) comprises a base (306) on which is mounted the or each presence detection means (310) and means d orientation intended to allow the orientation of the base (306) by rotation around a vertical axis. 6) Floor lamp (100) according to one of claims 4 or 5, characterized in that the ignition control device (106) comprises a first connection interface (304) provided for securing the base (306) on the mast (102). 7) lamppost (100) according to claim 5, characterized in that the ignition control device (106) comprises a second securing interface (302) 10 provided for securing the lantern (118) on the base (306). 8) Floor lamp (100) according to one of claims 4 to 7, characterized in that the ignition control device (106) comprises two presence detection means (510a, 510b) arranged diametrically opposite one of compared to each other. 15 9) Floor lamp (100) according to one of claims 4 to 7, characterized in that the ignition control device (106) comprises three presence detection means (610a, 610b, 610c) arranged at 120 ° each others.