BE1028832B1 - Implementation method of a digital lamppost and facade wall lamppost - Google Patents

Abstract

Version of a modular digital lamppost and facade wall lamppost, characterized in that both are equipped with a modular light fixture, a post top, one or more post brackets and an underground socket. The post top, post brackets and socket contain means for facilitating applications based on the principles of the Internet of Things.

Description

Implementation method of a digital lamppost and facade wall lamppost.

It is known that public lighting is an annually recurring cost for cities and municipalities, a cost that can be avoided if lampposts are upgraded to digital poles that, in addition to illuminating the street environment, generate income from facilitating applications based on the principles of the Internet of Things. It is known that in urban environments a lamppost or a facade wall lamp is placed every 25m to 30m, making them ideally suited for supporting 5G, Wifi, RF, LiFi access points, for example. Information boards, video and sound cameras can also be mounted on and in the post, enabling some order in the proliferation of street furniture.

It is also known that at present, the means necessary for controlling these applications are mounted at the bottom of the base of the lamppost. For practical and aesthetic reasons, the diameter of the pile foot is limited, so that the number of means that can be mounted therein is also limited. The current modular version of the lamppost and the facade wall lamppost aims to provide a solution to the aforementioned and other problems, because it provides, among other things, an underground socket in which

° BE2020/0123 an almost unlimited number of resources can be installed, resources that are connected to a touch-safe voltage source, which prevents electrification.

In order to better demonstrate the features of the invention, some preferred embodiments of a modular digital lamppost and a modular digital facade wall lamppost are described below, by way of example without any limiting character, with reference to the accompanying drawings, in which: Figure 1 schematically and in perspective depicts the lamppost according to the invention. Figure 2 shows schematically and in perspective the facade wall lamp post according to the invention. Figure 3 shows schematically and in perspective the composition of the lamppost according to the invention. Figure 4 shows schematically and in perspective the underground socket in the retracted position according to the invention. Figure 5 shows schematically and in perspective the underground socket in the extended position according to the invention. Figure 6 shows schematically and in perspective the application of the digital lamppost for charging and discharging electric vehicles according to the invention. Figure 1 shows schematically and in perspective the embodiment of the digital lamppost 1 . Lamp post 1 is built around post 3 on which light fixture 5, a post

> BE2020/0123 top 6 and a post bracket 7 are attached; the underground socket 8 is connected to the pole 3 via pole clamp 9.

Figure 2 shows schematically and in perspective the embodiment of the facade wall lamp post 2 .

The wall lamp post 2 is built up around a shortened post 4 on which light fixture 5, a post top 6 and a post bracket 7 are attached; the underground socket 8 is via a cable duct 10 with post 4 attached to the facade.

The socket 8 is connected with current conductors 11 and signal conductors 12 to the electrical distribution network and fiber optic network, respectively, for example.

The post top 6, the post bracket 7 and the socket 8 contain means for facilitating applications based on the principles of the Internet of Things.

Figure 3 shows a cross-section of the digital lamppost 1 according to the invention.

The lamp post 1 comprises two fixed elements, post 3 and socket 8, which are connected to each other with a post clamp 9. The functionality of lamp post 1 is determined, among other things, by the means installed in post top 6, post bracket 7 and socket 8.

The pole 3 is provided with an exchangeable pole top 6 that protects the components, such as a 5G antenna, which are mounted at the top of the pole, against weather influences.

The post top 6 comprises two basic parts, a base 13 which is screwed into the post 3 and a tube 14 which is

“ BE2020/0123 the pedestal 13 slides and is secured with a quarter turn; an O-ring between base 13 and tube 14 prevents water from seeping into the tube 14 and into post 3 .

Incorporated into base 13 is a connector block 15 with which components are connected to the power and signal conductors 16.

The light fitting 5 is divided into a passive and an active part. The passive part only contains Led indicators and the active part that controls the Led indicators is in the socket 8.

The pole bracket 7 has the shape of a cross-sectional donut which is clamped over the pole. The basic version comprises two identical halves that are screwed together. Cameras, microphones, sensors and multi-colored LED indicators can be built into the pole bracket 6, among other things.

By illuminating the post bracket 7 inside with multi-colored LED indicators, the post bracket 7 can be used as a light fixture.

The pile 3 is provided with a cable duct 17, the top of which protrudes above the pavement; the bottom side is connected to the socket 8 with a watertight cable gland 18; the current and signal conductors 16 enter the socket 8 via the cable duct 17.

The socket 8 is provided with a closing cover 19 which is secured to the socket 8 with security screws 20

° BE2020/0123 screwed; O-ring 21 prevents water from entering the socket 8.

Street frame 22 absorbs the difference in height that arises when the lamppost 1 is installed and ensures the leveling of the street cover 23 with the surrounding pavement.

The socket 8 is equipped with an extendable mounting system 24 which aims to make the means supporting the applications easily accessible to the technicians, for example.

Figure 4 shows a perspective view of the underground socket in the retracted position according to the invention.

The mounting system 24 comprises three parts, a guide mechanism 25 consisting of a slide guide type spindle 26 with spindle nut 27 and a slide guide type drawer guide 28; a frame 29 mounted between the spindle 26 and drawer guide 28 and mounting boards 30 screwed onto the frame 29 .

The mounting boards 30 are provided with DIN-rail conductors 31, for example, on which means are mounted in DIN-rail housings 32 and connected to the current and signal conductors 16. Figure 5 shows the underground socket in extended position according to the invention in perfect detail. .

The spindle 26 is connected to the frame 29 with a spindle nut 27 .

By driving the spindle 26, the frame

29 pushed upwards or retracted out of the socket 8 . The spindle 26 can be driven both manually and mechanically with a drilling machine, for example.

The frame 29 is less high than the socket 8, the space created by this between the underside of the frame 29 and the socket 8 serves for rolling up and uncoiling, among other things, the current conductors 11 and signal conductors 12 with which the socket 8 connects to the distribution network and the fiber optic network, for example, is connected. Figure 6 illustrates schematically and in perspective the application of the digital pole for charging and discharging electric vehicles.

Claims (17)

† BE2020/0123 Conclusions. 1.- Lamp post (1) characterized in that it is built around a post (3) provided with a modular light fixture (5), an interchangeable modular post top (6), a modular post bracket (7) and an underground socket (8) which is attached to post (3) with a clamp (9). 2.- Facade wall lamp post (2) characterized in that it is built around a shortened post (4) provided with a modular light fixture (5), an exchangeable modular post top (6), a modular post bracket (7) and an underground socket (8 ) which is connected to post (4) with a cable duct (10) fixed to the facade. Modular light fitting (5) according to claim 1 and 2, characterized in that the fitting only contains Led indicators and that the LED indicators are not controlled in the fitting itself but from the socket (8). Pile top (6) according to claims 1 and 2, characterized in that it is composed of a pile foot (13) and a pile sleeve (14) which slide over the pile foot (13) and turn the pile foot () with a quarter turn. 13) is secured. The pile foot (13) is fitted with an O-ring to prevent water from penetrating into the pile sleeve (14). Post base (13) according to claim 4, is provided with a connector block (15) on which components are mounted along the top side and means are provided on the bottom side, for example connectors, for connecting the components to the current and signal conductors (16). ) which are connected to the socket (8). Post bracket (7) according to claims 1 and 2, characterized in that the bracket consists of two identical semi-doughnut parts which are screwed together around the post (3) and (4). Post bracket (7) according to claim 6, characterized in that the two parts of the post bracket (7) are personalized according to the type of sensor supporting the post bracket (7). Each sensor is equipped with a specific adapter that is placed on the poles (3) and (4) and that gives access to the power and signal conductors (16) in the poles. Post bracket (7) according to claim 7, can be used as a light fixture by illuminating it from the inside with multi-colored LED indicators and making the outer wall of the post bracket (7) translucent. The socket (8) according to claim 1 and 2, is underground with a post clamp (9) type U-profile, for example, on post (3) and with a cable duct (10) attached to the facade on post (4 ) fixed. The post (3) according to claim 9 is provided with a cable duct (17) on the inside, the top protruding well above the street covering and the bottom being fixed to the socket (8) with a watertight cable grommet (18). The socket (8) is closed with a cover (19) which is screwed to the box wall with safety screws (20) and sealing ring (21). Street frame (22) according to claim 9, slides over the socket {8) and serves to absorb the play created during the installation of the socket (8) and the lamppost (1) and also serves to cover the street cover ( 23) to level with the surrounding pavement. ° BE2020/0123 The socket (8) according to claim 9, characterized in that the socket (8) is equipped with a retractable system (24) by which the modules responsible for the applications slide upwards out of the socket (8) to allow access. to facilitate these modules. The extendable system (24) according to claim 12, characterized in that it is composed of three parts, a guide mechanism (25) consisting of a slide guide type spindle (26) with spindle nut (27) and a slide guide type drawer guide (28); a frame (29) mounted between the two guides and two mounting plates (30) mounted on the front and back of the frame (29). The mounting boards (30) according to claim 13, characterized in that they are equipped with DIN rail conductors (31) for example, on which means are mounted in DIN housings (32) and connected to the power and signal conductors (16). ). 15. The spindle (26) according to claim 13 is connected to the frame (29) with a spindle nut (27). Driving the spindle (26) pushes or retracts the frame (29) out of the socket (8). The spindle (26) can be operated both manually and mechanically with a drilling machine, for example. The frame (29) according to claim 13 is shorter than the socket (8), the space that becomes free between the frame (29) and the bottom of the socket (8) serves, inter alia, for rolling up and unrolling the current conductors (11) and signal conductors (12). 17. The socket (8) according to claims 1 and 2 comprises means for controlling a plurality of pop-up satellite charging and discharging points for electric vehicles.