FR3023903A1 - ASSEMBLY FOR SHAPING A MODULAR LIGHTING SYSTEM USING COUPLING ELEMENTS PROVIDING A CARRIER CONNECTION - Google Patents

Abstract

The invention relates to an assembly for shaping a modular lighting system, of the type comprising at least one lighting module (1) with an electroluminescent source having at least one electroluminescent unit (11) controlled, the lighting module comprising a plate (2) supporting the one or more electroluminescent units, the plate being of polygonal shape whose perimeter has at least three segments (21), each segment having at least one plug-in connector (3), (4) capable of providing a electrical and mechanical connection, characterized in that it comprises at least one pair of rigid coupling elements (100), (101) and in that the plate (2) has in the vicinity of at least one of the segments at least a pair of hooking means (20) for each receiving a coupling member (100), (101), the coupling members (100), (101) and the plate (2) being adapted to provide a self-supporting connection with an ec module drawing of the same type.

Description

An assembly for shaping a modular lighting system using coupling elements providing a self-supporting connection. The field of the invention is that of the design and manufacture of lighting modules with electroluminescent source (LED, OLED, ...) and lighting systems obtained using these modules. More specifically, the invention relates to a technique for assembling LED lighting modules coupled together in particular using plug connectors.

In the field of the invention, the concept of the modularity of a lighting system, in particular LED, is now well known for the benefits it provides, including: - ease of transport and storage; - possibility of multiple assemblies; - cost containment ; - customization; Clearly, the so-called modular lighting solutions allow users to compose a lighting device according to the needs, which allows, when traveling, to take only the necessary equipment, leading to reduce the size and weight transported material. In other words, these modular lighting systems offer users the possibility to create unique lighting devices, customized according to light needs, budgets and space constraints. Conventionally, with existing modular lighting systems, it is necessary to use an additional supporting structure as well as additional electrical connection elements. These additional elements are necessary to maintain the lighting modules and to couple them together, but involve practical constraints that outweigh the advantages of the modularity of the system. By way of example, modular lighting systems using magnetic devices for mechanical assembly are known. Such a technique makes it possible to assemble the modules quickly. However, this solution proves in practice rather inefficient, insofar as it generates a certain insecurity with regard to the rigidity of the structure. In fact, the technical constraints created by the accumulation of the weight of the modules rapidly exceed the magnetic adhesion force of the magnets, which leads to the destructuring of the assembly.

It is therefore understood that these systems using the magnetic assembly principle are drastically limited as to the extent of the light surface. It is also known a modular lighting system assembly technique described by the patent document published under the number EP-2 198 197. According to the technique described, the modular lighting system comprises an LED panel including him- even several lighting modules of the same type, with controlled electro-electroluminescent diodes, the panel implementing a polygonal box frame, preferably rectangular, which receives the lighting modules and inside which is arranged a plate for receiving the modules lighting. The panel has on at least one of its sides a plug-in connector, provided to allow mechanical coupling according to a dovetail-type connection, as well as spring-loaded contact pins to provide the electrical connection. Such a technique thus clearly entails some of the disadvantages mentioned above, namely: additional elements must be used to ensure both the mechanical connection and the electrical connection; The structure and the shape of the box frame do not offer a great flexibility of assembly of the panels; - The number of important parts to achieve the lighting system involves logistical heaviness and relatively significant manufacturing costs. The invention particularly aims to overcome these disadvantages 5 of the prior art. More specifically, the object of the invention is to propose a light source lighting module assembly technique which is simple and fast, and which significantly reduces the number of parts to be used to obtain a mechanical and electrical connection. reliable. The invention also aims to provide such a technique that offers great possibilities of modularity and customization by the user. The invention also aims to provide such a technique which facilitates the transport of modules and which generates little or no logistical constraints. Another object of the invention is to provide such a technique which leads to compact modules and lighting systems. These objectives, as well as others which will appear later, are achieved by means of the invention which relates to an assembly for shaping a modular lighting system, of the type comprising at least one source lighting module. electroluminescent circuit having at least one controlled electroluminescent unit, the module comprising a plate supporting the one or more electroluminescent units, the plate being of polygonal shape whose perimeter has at least three segments, each segment having at least one plug-in connector capable of ensuring an electrical and mechanical connection, characterized in that it comprises at least one pair of rigid coupling elements and in that the plate has, in the vicinity of at least one of the segments, at least one pair of attachment means for each receiving a coupling element, the coupling elements and the plate being designed to provide a self-supporting connection with a lighting module of the same type. Thus, the technique provided by a lighting system obtained with an assembly according to the invention, provides great flexibility and great flexibility of use. Indeed, no additional supporting structure is needed to create light surfaces, possibly large. It is therefore possible to assemble lighting modules of different sizes and / or shapes within the same lighting system.

As will become clearer later, it is also possible to realize two-dimensional or three-dimensional lighting systems, with no real size limit. It should be noted that the rigidity of the structure is ensured in particular by the rigid coupling elements associated with the LED lighting modules. With a modular lighting system obtained with an assembly according to the invention, the user can custom build the lighting system, particularly easy and fast manner. According to an advantageous solution, the plate has in the vicinity of each segment at least one pair of attachment means for receiving each a coupling element. In this way, one multiplies the possibilities of assembly with other modules, of the same type or not, thus increasing the possibilities of personalization by the user. Preferably, the coupling elements comprise rigid link jumpers. Such jumpers can be installed and fixed particularly simple, this with a small footprint and discreetly from an aesthetic point of view. According to a particular embodiment, the attachment means comprise orifices in the vicinity of the segments, the connecting jumpers being coupled by screws screwed into the orifices.

According to another advantageous characteristic of the invention, the plate carries two superposed layers: a printed circuit supporting the one or more electroluminescent units and a heat dissipation layer.

Note that the plate is made of a rigid material, and designed with a thickness such that it participates in the self-supporting structure of the modular lighting system made with one of the sets according to the invention. In other words, the jumpers are present on the side of the rear face of the plate, opposite to the front face of the printed circuit exposing the electroluminescent units. According to an advantageous embodiment that can be envisaged, the module carries magnets. As will become clearer later, such magnets may allow attaching accessories to the plate, this being part of the approach of the invention for a quick and easy assembly. According to an advantageous solution, the plate is surmounted by a shaping element of the light. In this case, the light-shaping element is preferably integral with metal pegs coinciding in position with the magnets to cooperate with them. It is understood that, in this way, it is easy to set up or remove the light scattering element from the corresponding lighting module 25. Of course, this characteristic can be declined and transposed to other types of accessories, such as filters or secondary optics for example. Other features and advantages of the invention will emerge more clearly on reading the following description of a preferred embodiment of the invention, given as a simple illustrative and nonlimiting example, and the appended drawings, among which: FIGS. 1 to 3 schematically illustrate an example of lighting modules that may form part of an assembly according to the invention; - Figures 4 and 5 illustrate an embodiment of an assembly according to the invention for shaping a modular lighting system. As illustrated in FIGS. 1 to 3, a lighting module 1 comprises a plate 2, in this case metallic, carrying at least one controlled electroluminescent unit. According to the present embodiment, the plate 2 carries a plurality of electroluminescent units 11. In the following description, these electroluminescent units are cited as being electro-electroluminescent diodes (LED), the invention is of course not limited. to this technology. The plate 2 is equipped, according to the present embodiment, with the following constituent parts: control circuits 12 of the LEDs; a control circuit 13; photometric and colorimetric supervision circuits 14; Temperature monitoring circuits 15; supervision circuits for the supply voltage 16; an accelerometer 17. In a conventional way, the control circuits of the LEDs, the control circuits, the supervision circuits and the LEDs themselves are connected by the tracks 9 of a printed circuit 90. The electro-electroluminescent diodes are mounted on the front face of the lighting module, according to the view provided in FIG. 3. On the rear face of the module (ie the face opposite to the front face mentioned above), the module has: - imprints or pellets (disks electrical connection) with a module of the same type (making it possible to provide a lighting assembly bidirectionally) or with an external control module; a magnet 5 intended to ensure the mechanical connection with another module of the same type or with an external control module. In addition, steel positioning pins 18 are forcefully mounted in the plate through the printed circuit (in which the pins are also mounted in force), thereby securing the printed circuit and the plate.

The lighting module has a general polygonal shape (the support plate itself being of polygonal shape) and therefore has a perimeter having at least three segments. As is clear from FIGS. 1 to 3, the lighting module according to the embodiment comprises a square-shaped support plate, each segment of which has: a power supply connector 3; two data connectors 4, on either side of the power supply connector 3. It is noted that the power supply connectors and the data connectors are plug-in connectors providing a mechanical connection function. In addition, the set of connectors is of hermaphrodite design, and allows to ensure a connection of two modules between them either in the same plane or in two orthogonal planes. According to the principle of the invention, an assembly for shaping a modular lighting system comprises, in addition to an LED lighting module such as that just described, at least one pair of coupling element 100 101, the plate 2 having in turn in the vicinity of at least one of its lateral segments 21 at least one pair of attachment means 20 for receiving each a coupling element. In addition, the coupling elements and the plate are designed to provide a self-supporting connection with a lighting module of the same type. According to a preferred embodiment, each of the segments 5 of the lighting modules has a pair of attachment means for receiving each a coupling element. As can be seen in FIG. 4, the coupling elements can take various forms, namely: four-point coupling elements 100, provided for connecting four lighting modules to one another at the angles of each module; a two-point coupling element 101 provided for connecting two lighting modules, this type of coupling element being preferably provided for the mechanical connection between two module angles, the segments of which form a border of the lighting system; shaped. As shown in FIG. 4, a lighting system can thus be fashioned with a variable number of lighting modules, according to different conceivable shapes and dimensions. Furthermore, it is noted that the four-point coupling elements 100 may further have in their center a thread 103, allowing the mechanical connection by screwing the lighting system with other accessories. For example, it is possible through these tapping coupling elements to secure the lighting system to a tripod having coupling means provided of course to cooperate with the tapping 103 of the corresponding coupling elements. The coupling elements 100, 101 are rigid connecting jumpers 30, for example made of a metal material such as aluminum 6060, with a thickness of 5 mm.

According to the embodiment illustrated in FIGS. 4 to 5, the mechanical connection between the support plate and the connecting jumpers is ensured in the following way: the attachment means comprise orifices 104 in the vicinity of the segments 21, and particular located at the corners of the support plate; - The connecting jumpers are coupled by screws 102, for each coupling point, screwed into the corresponding holes 104.

According to an advantageous embodiment, the screws 102 are captive screws of the connecting jumpers. According to another characteristic of the invention, the support plate 2 carries two superposed layers, namely: the printed circuit 90 supporting the electro-electroluminescent diodes and on which the tracks 9 appear; - A heat dissipation layer 91, reported on the printed circuit on the back side thereof (a heat transfer layer being interposed between the printed circuit 90 and the heat dissipating layer 91). Note that, according to this embodiment, the connecting jumpers are coupled to the plate 2, the jumpers and the plate, made of a metallic material (or other, such as a thermally conductive plastic), contributing together to the freestanding structure of the lighting system.

As illustrated in FIG. 1, each lighting module may be provided with a light-shaping element 6 (which may be a diffusion element or, conversely, a light-concentrating element) , surmounting the support plate. This light shaping member is recessed within a removable frame 7 mounted on each lighting module to provide an aesthetic finish to the lighting system. In addition, the removable frame 7 carries magnets 8 at each of its angles, these magnets being intended to cooperate with the pins 18 mentioned above (passing through the printed circuit) to couple the removable frame to the printed circuit. Removable frames can thus be coupled to printed circuits without tools. The light shaping elements may be provided with a coating to customize the lighting modules according to the environment in which they are installed. The lighting system obtained with the assembly according to the invention 10 which has just been described, can provide for the implementation of lighting modules carrying monochromatic or polychromatic light sources of LED or OLED type (organic electroluminescent diode) . The diodes can be controlled individually or in groups. 15

Claims (8)

REVENDICATIONS1. An assembly for shaping a modular lighting system, of the type comprising at least one lighting module (1) with an electroluminescent source having at least one light-emitting unit (11) controlled, the lighting module comprising a plate (2) sup Carrying the electroluminescent unit or units, the plate being of polygonal shape whose perimeter has at least three segments (21), each segment having at least one plug connector (3), (4) capable of providing an electrical connection and mechanical, characterized in that it comprises at least one pair of rigid coupling elements (100), (101) and in that the plate (2) has in the vicinity of at least one of the segments at least one pair of hooking means (20) for each receiving a coupling member (100), (101), the coupling members (100), (101) and the plate (2) being adapted to provide a self-supporting connection with a 20 m lighting module I kind. 2. An assembly for shaping a modular lighting system according to claim 1, characterized in that the plate (2) has in the vicinity of each segment (21) at least one pair of attachment means (20) for each receive a coupling element (100), (101). 3. An assembly for forming a modular lighting system according to one of claims 1 and 2, characterized in that the coupling elements (100), (101) comprise rigid connecting jumpers. 4. An assembly for shaping a modular lighting system according to claim 3, characterized in that the attachment means (20) comprise orifices (104) in the vicinity of the segments (21), the connecting jumpers being coupled by screws (102) screwed into the orifices (104). 5. An assembly for shaping a modular lighting system according to any one of claims 1 to 4, characterized in that the plate (2) carries two superimposed layers: a printed circuit (90) supporting the or electroluminescent units and a heat dissipation layer (91). 6. An assembly for shaping a modular lighting system according to any one of claims 1 to 5, characterized in that the lighting module (1) carries pins (18) metal. An assembly for shaping a modular lighting system according to any of claims 1 to 6, characterized in that the lighting module (1) is surmounted by a light shaping element (6). 8. An assembly for shaping a modular lighting system according to claims 6 and 7, characterized in that the light-forming element is carried by a removable frame (7) carrying magnets (8) coinciding with one another. position with the pins (18) to cooperate with them.