BE1025515B1 - POST OF FLOOR LAMP WITH FUNCTIONAL MODULES - Google Patents

Abstract

The invention relates to a lamp post comprising: a support mast, a lighting module supported by the support mast, said lighting module comprising a light source, a functional module, said functional module comprising a housing and functional circuitry mounted in said housing, said functional module being carried by the support pole, said housing comprising a frame frame, a fixing means for fixing the frame frame against the outer surface of the support pole and one or more panels attached to the frame with frame so as to close the frame with frame.

Description

DESCRIPTION OF THE EMBODIMENTS

Figure 1 is a schematic illustration of an exemplary embodiment of a lamppost post 1000. The lamppost post 1000 comprises a support mast 100 and a plurality of modules 200, 300, 400, 600 supported by the mast support 100. The plurality of modules includes a lighting module 200 comprising a light source, an antenna module 300 comprising an antenna 350 configured to receive and transmit cellular data, and another optional module 400, eg. a Wi-Fi transceiver module, a speaker module, a camera module, a video surveillance module, etc. Other examples of functionalities which may be included in one or more modules 400 are one or more of the following functionalities:

- an electrical management circuit comprising for example one or more of the following systems: an electrical meter, a fuse, a line protection device, a circuit breaker, an electrical connection for several electrical lines, a clock, an astronomical clock, a module power supply, a programmable logic controller, a computer, a communication module, display circuits, etc. ; the electrical management circuit is preferably configured to manage the supply of electricity to multiple lamp posts, preferably at least three lamp posts, for example. more than ten lampposts. In these embodiments, electrical connection cables pass from the functional module, through the support mast, to other lamppost posts, for example. underground;

- a telecommunications circuit comprising at least one of the following systems: a fiber optic connection, a fiber / copper interface, a fiber optic patch panel, a modem, a router, a switch, a patch panel, a video recorder on network (NVR - network video recorder), a computer;

- an audio systems management circuit comprising at least one of the following systems: an amplifier, a transformer, a multimedia player (connected to a network or not), electrical connections for multiple speaker lines, a computer;

- a Wi-Fi circuit;

- a charger circuit, e.g. a phone, computer or tablet charger circuit or a vehicle charger circuit;

- an environmental data sensor such as a microphone, or a detector of CO2, NOx, smoke, etc., and the associated circuits;

- a human interface device (PIH) and associated circuits.

The modules 200, 300, 400 can be arranged in any order one above the other, and can be connected to the support mast 100 and to each other by any means

BE2017 / 5598 suitable, e.g. using connectors 510, 520, 530 as described in the patent

EP 3,076,073 B1 in the name of the applicant.

The plurality of modules further includes a base station module 600 comprising a housing 610 and base station circuits 621, 622, 623, 624 mounted in said housing 610 (see also Figures 2 and 4). The base station circuits 621, 622, 623, 624 are coupled to the antenna 350 (see reference 710). The base station module 600 is attached to an outer surface 110 of the support mast 100 and its weight is carried by the support mast 100. As illustrated in FIG. 2, the support mast 100 can be fixed on the ground G and the base station module 600 housing can be at a distance d above the ground G. However, it is also possible to arrange the base station module more or less at ground level G.

The housing 610 of the base station module 600 comprises a frame with a structurally rigid frame 630 attached to the support mast 100, a fixing means 691, 692, for example. at least two screws or bolts, making it possible to fix the frame with frame 630 against the external surface 110 of the support mast 100, and one or more panels 661, 662, 663 attached to the frame with frame so as to close the frame with frame (see figures 2 to 5). According to an exemplary embodiment, the housing 610 can be provided with one or more ventilation openings, e.g. a plurality of slots or perforations. In the illustrated embodiment, a plurality of slots 615a, 615b are arranged in the two opposite side panels 662, 663 of the housing, so as to create an air flow in the housing.

The frame with frame 630 can comprise at least four vertical crosspieces 631, 632, 633, 634, at least four lateral crosspieces 651, 652, 653, 654 extending in the direction of a first width perpendicular to the axial direction A of the support mast and connecting the four vertical crosspieces

631, 632, 633, 634, and at least four lateral crosspieces 635, 636, 637, 638 extending in a plane perpendicular to the direction of the first width and connecting the four vertical crosspieces 631,

632, 633, 634. Additional lateral crosspieces 639, 640, 641 may possibly be provided to facilitate the fixing of the base station circuits. The frame with frame 630 is fixed to the support mast 100 in a first and a second position spaced from each other, seen in the axial direction of the support mast 100, for example by means of a first and second screw or a first and second bolt 691, 692 passing through the crosspieces 642, 643. Other fixing positions may possibly be provided to facilitate the fixing of the frame with frame 630 to the support mast 100. In the mode of illustrated embodiment, the panels comprise two side panels 662, 663 and a bent central panel 661 intended to form the top and the front face of the housing 610. The central panel 661 can be provided with edges 665

BE2017 / 5598 extending over the edges of the side panels 662, 663, as shown in Figure 2A. A joint (not shown) can optionally be arranged between the edges of adjacent panels. This reduces the risk of water and dirt entering the housing 610 between the edges of the panels. Those skilled in the art will understand that the enclosure of the housing 610 can be made in other ways, e.g. in the form of a unitary enclosure which can be placed around and fixed to the framework with framework.

The support mast 100 is hollow and is provided with a removable door 120 allowing access to an interior part of said support mast 100 (see FIG. 1). The door 120 is arranged substantially opposite the base station module 600, allowing the operator to access the interior of the base station module 600 through the door 120. However, it is also possible to remove a or several panels 661, 662, 663 of the housing 610 in order to be able to access the base station circuits 621, 622, 623, 624.

The housing 610 of the base station module 600 covers a certain area of the support mast 100, and the support mast 100 is provided, in said area, with a first hole 131 and a second hole 132 located above of the first hole 131, seen in the axial direction of the support mast 100 (see Figures 3 and 4). The lamppost post 1000 comprises a connection cable 710 (see FIG. 1, not illustrated in FIGS. 3 and 4) going from the antenna 350 to the base station circuits 621, 622, 623, 624 passing through an interior part. of the support mast 100 and through the second hole 132, as well as an electrical connection cable 720 passing, from a lower end of the support mast 100, through the first hole 131 to supply the base station circuits 621,622, 623,624.

The housing 610 of the base station module 600 has a first width wl extending in a first direction perpendicular to the axial direction A of the support mast 100, said first width wl being less than the outside diameter D of the support mast 100. The base station module housing 600 has a second width w2 extending in a second direction perpendicular to the first width and in the axial direction A of the support mast 100, said second width w2 being greater than the outside diameter of the support mast 100 , preferably making at least twice the outside diameter of the support mast 100. This gives a compact housing 600, relatively long and narrow, of a shape suitable for containing the base station circuits.

The antenna module 300 is arranged in a position located above the base station module 600. The antenna module 300 is arranged between the base station module 600 and the lighting module 200, seen in the axial direction of the support mast 100. In an alternative mode of

BE2017 / 5598 embodiment, the antenna module 300 could be arranged above the lighting module 200. The antenna 350 may consist of a directional antenna having a limited angular range, eg. a range covering between 90 ° and 180 °. The antenna module 300 has a housing 310, 320 which is arranged in alignment with the support mast 100. This antenna module 300 can preferably pivot around an axis A of the support mast 100, so that said antenna module 300 is orientable to orient the directionality of reception and emission of antenna 350. For example, the antenna can be included in a module such as that disclosed in patent EP 3 076 073 Bl , the content of which is included by reference. This example is illustrated in FIG. 6. With the module connectors 510, 520, 530 (see FIGS. 1 and 6, where only the connector 530 is illustrated in FIG. 6), comprising two connector parts 530a, 530b which can be fixed around the rounded end parts 331, 332 of the modules, the module 300 can pivot around the axial direction A of the support mast 100 in a desired position before being fixed by the connector parts 530a, 530b. The antenna module 300 can comprise a central part 330 comprising a passage for cables and wires and two cover parts 310, 320. The antenna 350 can be arranged against a face of the central part 330 and covered by a first cover 310 made of a non-metallic material, e.g. in plastic. The central part 330 and the second cover 320 can be made of a metallic material to increase the rigidity of the antenna module 300. The module 200 ′ shown in FIG. 6 can be a lighting module or another additional module, by ex. a Wi-Fi transceiver module, a speaker module, a camera module, a video surveillance module, etc.

As illustrated in FIG. 4, the base station circuits include a multiplexer 622, a basic transceiver unit 621, a wired or wireless transmission interface 623 configured to be connected to a network of communication, and an electrical management unit 624. The multiplexer 622 is connected to the antenna 350 and to the basic transceiver unit 621; and the basic transceiver unit 621 is further connected to the transmission interface 623. The transmission interface 623 may for example consist of a fiber / copper interface.

In the embodiment illustrated in Figures 2 and 5, the housing 610 of the base station module 600 has an inclined upper surface 671, said upper surface being inclined downward away from the support mast 100 and may have a screen 680, a battery charger, a sensor, a button and / or any other human interface device (see also the examples indicated below). In other embodiments, the top surface 671 can be horizontal or curved.

BE2017 / 5598

In the exemplary embodiments described above, the module 600 is a base station module. However, this module 600 can also be used to contain various circuits in addition to or in replacement of the base station circuits. Examples of other functional circuits which may be present in the functional module in addition to or in replacement of the base station circuits include at least one of the following circuits:

- an electrical management circuit comprising, for example. one or more of the following systems: an electrical meter, a fuse, a line protection device, a circuit breaker, an electrical connection for several electrical lines, a clock, an astronomical clock, a power supply module, a programmable controller, a computer, communication module, display circuits, etc. ; the electrical management circuit is preferably configured to manage the supply of electricity to multiple lamp posts, preferably at least three lamp posts, for example. more than ten lampposts. In these embodiments, electrical connection cables pass from the functional module, through the support mast, to other lamppost posts, for example. underground;

- a telecommunications circuit comprising at least one of the following systems: a fiber optic connection, a fiber / copper interface, a fiber optic patch panel, a modem, a router, a switch, a patch panel, a video recorder on network (NVR - network video recorder), a computer;

- an audio systems management circuit comprising at least one of the following systems: an amplifier, a transformer, a multimedia player (connected to a network or not), electrical connections for multiple speaker lines, a computer;

- a Wi-Fi circuit, where an antenna intended to receive Wi-Fi signals can be integrated either in the functional module, or in a separate antenna module as in the exemplary embodiment of the lamppost comprising a module base station;

- a charger circuit, e.g. a phone, computer or tablet charger circuit or a vehicle charger circuit;

- an environmental data sensor such as a microphone, or a detector of CO2, NOx, smoke, etc., and the associated circuits;

- a human interface device (PIH) and associated circuits, e.g. camera, speaker, button, etc.

Figure 7 is a schematic illustration of an exemplary embodiment having two antenna modules. The lamp post comprises a support mast 100, a lighting module 200 comprising a light source, and a first and second antenna modules 300, 300 ’. The first and second antenna modules 300, 300 ’are arranged one above the other, viewed in the axial direction of the support mast 100 and are supported by the mast

BE2017 / 5598 support 100. The first antenna module 300 comprises a first housing and a first directional antenna 350 arranged in said first housing and configured to receive and transmit cellular data. The first antenna module 300 can be implemented in the manner described for example above with reference to FIG. 6. The second antenna module 300 ′ can be identical or similar to the first antenna module 300, and includes a second housing and a second directional antenna 350 'arranged in said second housing and configured to receive and transmit cellular data. The first and second antenna modules 300, 300 'can pivot around the axial direction A of the support mast 100, so that said first and second antenna modules 300, 300' can be oriented to orient the direction of reception and the emission of the first and second directional antennas. The lighting module 200, the first antenna module 300 and the second antenna module 300 can be arranged in variable order one above the other, in alignment with the support mast 100, other modules also being optionally introduced in alignment with the support mast 100. The lamp post 100 optionally further comprises a base station module (not shown) comprising base station circuits, said base station circuits being coupled to the first and second directional antennas 350, 350 '. The first and second antenna modules 300, 300 ’are preferably arranged in a position above the base station module. The first and second antenna modules 300, 300 'can be arranged between the base station module and the lighting module 200', seen in the axial direction of the support mast 100. The base station module can be implemented according to any one of the embodiments described above.

It will also be noted that, in the embodiments of the invention, base station functionalities and / or other functionalities can be included either in a module such as the base station module 600 fixed to the support mast , either in one or more modules 400 supported by the support mast 100 and in alignment with the axial direction of the support mast 100. To this end, the module 400 may have a diameter greater than that of the support mast 100.

The principles of the invention have been described above in conjunction with specific embodiments, but it will be understood that this description is intended only as an example and should not limit the scope of the protection which is determined by the claims attached.

Claims (18)

1. Floor lamp post comprising: - a support mast (100), a lighting module (200) supported by the support mast (100), said lighting module (200) comprising a light source, - a functional module, said functional module comprising a housing and functional circuits mounted in said housing, said functional module being carried by the support mast (100), said housing comprising a frame with framework, a fixing means for fixing the frame with frame against the outer surface of the support mast (100) and one or more panels attached to the frame with frame so as to close the frame with frame. 2. lamppost post according to claim 1, in which the support mast (100) is fixed to the ground G and the housing of the functional module is at a distance d from the ground G. 3. lamppost post according to any one of the preceding claims, in which the frame with framework is fixed to the support mast (100) in a first and a second position spaced from each other, viewed in the direction axial of the support mast (100). 4. lamppost post according to any one of the preceding claims, in which the support mast (100) is hollow, and in which the support mast (100) is provided with a removable door allowing access to a part interior of said support mast (100), said door being arranged substantially opposite the functional module. 5. lamppost post according to claim 1, in which the housing of the functional module has a first width extending in a first direction perpendicular to the axial direction of the support mast (100), said first width being less than outside diameter of the support mast (100). 6. lamppost post according to the preceding claim, wherein the housing of the functional module has a second width extending in a second direction perpendicular to the first width and to the axial direction of the support mast (100), said second width being greater the outside diameter of the support mast (100), preferably making at least twice the outside diameter of the support mast (100). BE2017 / 5598 7. A lamp post according to any one of the preceding claims, in which the housing of the functional module has an inclined upper surface, said upper surface being inclined downward away from the support mast (100), and a peripheral human interface being integrated in the inclined upper surface 8. Floor lamp post according to any one of the preceding claims, in which the functional circuits include at least one of: - an electrical management circuit preferably configured to manage the supply of electricity to multiple pole posts, - a telecommunications circuit, - an audio systems management circuit, - a Wi-Fi circuit, - a charger circuit, - an environmental data sensor such as a microphone, a CO2, NOx or smoke detector, and the associated circuits, - a human interface device (PIH) and associated circuits, such as a camera, a speaker, a button. 9. A lamp post according to any one of the preceding claims, further comprising an antenna module (300) supported by the support mast (100), said antenna module (300) comprising an antenna configured to receive and transmitting cellular data, said functional module being a base station module (600) comprising base station circuits coupled to the antenna. 10. Floor lamp post according to the preceding claim, in which the antenna module (300) is arranged in a position located above the functional module. 11. lamppost post according to claim 9 or 10, wherein the antenna module (300) is arranged between the functional module and the lighting module (200), seen in the axial direction of the support mast (100) . 12. lamppost post according to any one of claims 9 to 11, wherein the housing of the functional module covers a certain area of the support mast (100), said support mast (100) being provided, in said area, d 'a first hole and a second hole located above the first hole, viewed in the axial direction of the support mast (100), said lamppost post comprising a connection cable, going from the antenna BE2017 / 5598 to the base station circuits passing through an interior part of the support mast (100) and the second hole, as well as an electrical connection cable passing from a lower end of the support mast (100), through the first hole to supply the base station circuits. 13. A lamp post according to any one of claims 9 to 12, wherein the antenna is a directional antenna. 14. A lamp post according to any one of claims 9 to 13, in which the antenna module (300) has a housing which is arranged in alignment with the axial direction of the support mast (100) and which can pivot around the axial direction of the support mast (100), so that said housing is orientable to orient the directionality of reception and emission of the antenna. 15. A lamp post according to any one of claims 9 to 14, in which the base station circuits include a multiplexer, a basic transceiver unit and a wired or wireless transmission interface configured to be connected. to a communication network, said multiplexer being connected to the antenna and to the basic transceiver unit, and the basic transceiver unit being further connected to the transmission interface. 16. A lamp post according to the preceding claim, in which the transmission interface is a fiber / copper interface. 17. Floor lamp post according to any one of the preceding claims, in which the housing (610) of the functional module is provided with one or more ventilation openings (615a, 615b). 18. A lamp post according to any one of the preceding claims, in which the light source comprises a plurality of light-emitting diodes, and a driver for supplying the plurality of light-emitting diodes.