NL1038871C2 - LIGHTING SYSTEM. - Google Patents

Description

Title: Lighting system DESCRIPTION

The invention relates to a lighting system for a system ceiling.

A suspended ceiling is a ceiling in which a freely accessible space is created between the upper floor and the ceiling by means of ceiling panels and ceiling profiles and a suspension system. This space can be used for the installation of various system pipes such as electricity, heating / ventilation and sewerage. For the illumination of the space below the suspended ceiling, in particular "down-lights", recessed or surface-mounted fluorescent luminaires are suitable.

Nowadays there is a high demand for LED lighting in the context of energy saving and reducing the environmental impact (waste problem). Some disadvantages of the current LEDs are the efficiency, the color reproduction and the temperature management in combination with the service life (cooling). The aim is often to replace the fluorescent lamps in existing TL fixtures with LED tubes. Another option is where LEDs are placed in a pattern in a mounting fixture, applied in a system ceiling and provided with an opal plate to prevent too high a brightness.

The present invention has for its object, on the one hand, to provide a better design adapted to the possibilities of LEDs, and on the other hand to provide that the operating conditions under which the LEDs are used are optimal for achieving a high energy efficiency. For LEDs it is very important that the operating temperature is low: within certain limits it holds that the lower the temperature of the LEDs is kept, the more light they emit, the lower their consumption is and the longer their lifespan.

1038871 2

In order to meet these and other requirements and wishes, the invention provides a lighting system for a system ceiling with ceiling plates and elongated bearing profiles which are provided with substantially horizontal beams, viewed in cross-section, for supporting the ceiling plates and with substantially vertical uprights viewed in cross-section. for suspension and / or reinforcement of the support profiles, which lighting system comprises one or more elongated lighting modules which extend at least partly on the side of the relevant support profile remote from the upright and comprise one or more electric light sources, and wherein furthermore one or more cooling members is provided for dissipating heat generated by the light sources, which one or more cooling members 15 thermally and / or mechanically on the one hand with the lighting module and / or the light sources and on the other hand with the beam or the upright-the bearing profile - are connected.

With the invention it is achieved in particular that, for dissipating heat generated by the light sources, use is made (also) of the bearing profile which previously only served to support the ceiling plates, etc. According to the invention, the lighting module can either the bottom side of a (for example already existing) support profile can be coupled (a), or the flat bottom side - indicated above with the girder - of a support profile can be combined as it were with (a part of) the cooling element of the lighting module (b). In both options, the above-mentioned one or more cooling members are preferably formed by a (elongated) cooling profile, including, in the context of the present patent application, also counting an (elongated) row of (more or less) separate cooling elements. Such a cooling profile (or row of cooling elements) fits well with the (after all also elongated) shape of the support profile.

First of all, the first implementation direction (a) will be discussed, which is of particular importance when use is made of (possibly already installed) standard bearing profiles. In this preferred embodiment the lighting module is preferably provided with a cooling profile and coupling means are furthermore provided for thermally and / or mechanically coupling said cooling profile to a beam of the same bearing profile connected to the upright of the relevant bearing profile. A thermally conductive intermediate layer, for example a carbon-containing foil, can optionally be applied between the girder and the cooling profile to fill in any unevennesses and thereby improve the thermal coupling between the girder and the cooling profile.

The cooling profile can be connected to the beam by means of screws or rivets, for example. Preferably, however, it is preferred that the cooling profile is clamped against the girder by means of one or more clamping members, preferably on the outside of the cooling profile and the girder, so that - unlike with screws or riveting - the interior of the lighting module, in which there are (vulnerable) lighting sources, for example LEDs, are spared during assembly. The cooling profile can also be connected to the girder by gluing with a suitable, preferably thermally conductive adhesive.

The cooling profile preferably comprises at least a part of the housing of the lighting module. The clamping members are preferably arranged on the outside of the part of the cooling profile serving as housing for the lighting module, and preferably the cooling profile also comprises a housing for said clamping members and / or electrical wiring, whereby the clamping members and / or the electrical wiring protected and invisible from the outside.

The second implementation direction (b) will now be discussed, which is of particular importance when new, hitherto non-standard bearing profiles can be used. In this preferred embodiment, the lighting module is preferably provided with a cooling profile that is directly connected and / or integrated with the upright of the relevant support profile, so that there is no question of a separate beam and cooling profile that must be coupled to each other . While the current standard support profiles are generally made of steel sheet, the integrated support / cooling profiles proposed here preferably use a thermally conductive and extrudable material such as aluminum.

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In this embodiment the cooling profile can take over the function of the girder and is therefore preferably, apart from cooling the lighting module, also adapted to support the ceiling plates. Also in this embodiment of the invention, the cooling profile preferably comprises at least a part of the housing of the lighting module.

Depending on the design of the (preferably extruded) profile, the lighting modules can be arranged such that their top side extends substantially at the level of the bottom side of the ceiling plates. In another embodiment, the lighting modules can be arranged such that their upper side extends above the level of the lower side of the ceiling plates.

The invention will be discussed in more detail below with reference to a few exemplary embodiments, with reference to a few figures.

Figures 1a-b illustrate a first exemplary embodiment of the invention, wherein the lighting module can be "clicked" to a conventional support profile;

Figure 2 illustrates a second exemplary embodiment of the invention, wherein the cooling profile and the housing 35 of the lighting module form an integrated whole;

Figure 3 illustrates a third exemplary embodiment in which the lighting module is flush with the ceiling surface.

All figures schematically show a lighting system for a system ceiling with ceiling plates 1 and elongated support profiles which are provided with substantially horizontal beams 2 viewed in cross-section for supporting the ceiling plates 1 and with substantially vertical uprights 3 viewed in cross-section for the purpose of suspension - via suspension bars 4 to, for example, an upper ceiling and / or mechanical reinforcement (stiffening) of the bearing profiles. The lighting system comprises elongated lighting modules 5 which extend on the side of the relevant support profile remote from the upright 3 and comprise electric light sources 6. LEDs are currently being considered in particular for the light sources. Furthermore, one or more cooling members are provided for dissipating heat generated by the light sources, which one or more cooling members thermally and / or mechanically on the one hand with the lighting module 5 and / or the light sources 6 and on the other hand with the girder 2 and the upright 3 are connected. As a result of this configuration, at least a part of the heat can be dissipated via the beam 2 and the upright 3, so that the LEDs remain cooler, so that their light output is greater, their consumption is lower and their service life longer.

25

Figures la-b illustrate an exemplary embodiment in which the lighting module is suitable for being "clicked" on a conventional support profile. In the configuration of figures 1a and 1b, the lighting module 5 is provided with a cooling profile 7 and furthermore coupling means are provided for coupling said cooling profile 7 to the beam 2 (connected to the upright 3 of the support profile). the cooling profile 7 can also be connected to the girder 2 by means of, for example, screws, riveting, gluing or gluing, in this exemplary embodiment, the cooling profile 7 is clamped against the girder by means of clamping members 8 which, after assembly (figure 1b), on the one hand on the cooling profile 7 and 6 on the other hand engage (or behind) the beam 2. As both figures illustrate, the lighting module 5 can be clamped against the underside of the girder 2 by moving the lighting module 5 upwards so that at a certain moment the (resilient) clamping members 8 click around the side and top edge of the girder 2 " and remains clamped by the clamping members 8 against the underside of the girder 2, whereby a thermal and mechanical coupling is established between the cooling profile 7, the girder 2 and the upright 3. As a result, the development in the lighting module becomes the heat is also absorbed by the beam 2 and the upright 3 of the carrier profile and released to their ambient air. By "clicking" the lighting module 5 on the beam 2 of the support profile, the ceiling plates are pushed up slightly, which, however, will not cause any problems in practice.

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As the figures show, the cooling profile 7 comprises at least a part of the housing of the lighting module in that the cooling profile also extends to the side walls 9 of that housing.

The clamping members 8 are arranged on the outside of the part of the cooling profile serving as housing for the lighting module, i.e. on the outside of the side walls 9. In addition, in the embodiment shown, the cooling profile furthermore comprises a housing and / or shielding for the clamping members 8 and / or electrical wiring (not shown), namely by means of the additional walls 10 which can also serve through their inwardly extending ends 10a for securing the clamping members 8. The profile of the (elongated) lighting module 5 shown in cross-section in the figures lends itself perfectly to manufacture by means of aluminum extrusion. Moreover, aluminum has an excellent thermal conductivity.

Figure 2 illustrates a second exemplary embodiment of the invention, wherein the cooling profile and the housing of the lighting module form an integrated whole. In the lighting system shown in Figure 2, the lighting module 5 is provided with a cooling profile 11 which is directly connected and integrated with the 7 upright 3 of the support profile (which is also here also connected with suspension bars 4 and via this with for example an upper ceiling is connected). The cooling profile is therefore designed not only for dissipating the heat, but also for supporting the ceiling plates 1. In this embodiment too, the cooling profile 11 comprises a part of the housing of the lighting module, namely its side walls 9. Thus, in fact, the entirety of the side walls 9 of the lighting module 5, its upper wall 11 (referred to above as cooling profile 11), and the stand 3 connected thereto, comprise the cooling member of the lighting module 5 through which the generated heat is dissipated . That (elongated) whole of the side walls 9, the top wall 11 and the upright 3 is preferably made in integrated form by means of extrusion of, for example, aluminum.

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In the embodiment of Figure 2, the lighting module - in particular the integrated cooling member consisting of the parts 9, 11 and 3, is arranged such that the top side thereof, ie the top side of the top wall 11, is approximately at the level of the bottom side. 20 side of the ceiling plates. The light-emitting (bottom) surface in this embodiment is therefore below the (bottom) surface of the ceiling plates 1.

Figure 3 illustrates an exemplary embodiment in which the lighting module is flush with the ceiling surface (i.e. the bottom surface of the ceiling plates). In other words, the lighting module and in particular the integrated profile consisting of the parts 9, 11 and 3 are arranged such that the top side thereof, ie the top side of the top wall 11, is above the level 30 of the bottom side of the extends ceiling plates, namely such that the light-emitting (bottom) surface is approximately flush with the (bottom) surface of the ceiling plates 1. This is achieved in this embodiment in that beams 12 are provided on the profile consisting of parts 9, 11 and 3, on which the ceiling plates 1 can rest. In this embodiment, (the housing of) the lighting module 5 is therefore situated between ceiling plates 1, which are therefore at a greater distance from each other 8 than in the previous embodiments. The beams 12 form one whole with the parts 9, 11 and 3 and together with that they can be made in one piece by extrusion of, for example, aluminum. By adding the beams 5, the heat-dissipating surface of the complete aluminum profile, consisting of the parts 12, 9, 11 and 3, is further increased, as a result of which the cooling of the lighting module 5 is again improved and thus the properties of the lighting module 5 with regard to light output, consumption and service life.

10 1038871

Claims (12)

1. Lighting system for a system ceiling with ceiling plates (1) and elongated support profiles which are provided with substantially horizontal beams (2) viewed in cross-section for supporting the ceiling plates and with substantially vertical uprights (3) viewed in cross-section for suspension and / or reinforcement of the support profiles, which lighting system comprises one or more elongated lighting modules (5) which extend at least partly on the side of the relevant support profile 10 remote from the upright and one or more electric light sources (6), and further comprising one or more cooling members for dissipating heat generated by the light sources, which one or more cooling members thermally and / or mechanically on the one hand with the lighting module (5) and / or the one or more 15 light sources and, on the other hand, are connected to the beam (2) or the upright (3). 2. Lighting system as claimed in claim 1, wherein the lighting module is provided with a cooling profile (7) and furthermore coupling means are provided for thermally and / or mechanically coupling said cooling profile to a post with the upright (3) of the relevant bearing profile connected beam (2) of the same bearing profile. 3. Lighting system as claimed in claim 2, wherein the cooling profile is connected to the beam by means of screws or rivets. 4. Lighting system according to claim 2, wherein the cooling profile is connected to the beam by means of gluing or sticking. JD38B71: * »\ 5. Lighting system according to claim 2, wherein the cooling profile is clamped against the beam by means of one or more clamping members (8). Lighting system according to one of the preceding claims, wherein the cooling profile comprises at least a part (9) of the housing of the lighting module. 7. Lighting system according to claims 5 and 6, wherein the clamping members are arranged on the outside of the part (9) of the cooling profile serving as housing for the lighting module and the cooling profile in addition a housing or shield for the clamping members (8) and / or electrical wiring. 15 The lighting system according to claim 1, wherein the lighting module is provided with a cooling profile (11) that is directly connected and / or integrated with the upright (3) of the relevant support profile. 20 9. Lighting system as claimed in claim 8, wherein the cooling profile is also adapted to support the ceiling plates. The lighting system according to claim 8 or 9, wherein the cooling profile comprises at least a part (9) of the housing of the lighting module. 11. Lighting system as claimed in any of the foregoing claims, wherein the top side (11) of the lighting modules (5) extends substantially at the level of the bottom side of the ceiling plates (1). 12. Lighting system as claimed in any of the foregoing claims, wherein the top side (11) of the lighting modules (5) extends above the level of the bottom side of the ceiling plates (1). 1038871