FR2989152A1 - Luminary for use in building, has LEDs positioned at opposite surfaces of input light such that light emitted toward light input surface is extracted from light guide at planar front face - Google Patents

Abstract

The luminary (10) has a light source comprising a light guide (22) consisting of a thin plate (220), where the thin plate comprises transparent or translucent planar front and back faces (225, 226). An outer cylindrical surface (221) comprises light input surfaces (222). The planar front and back faces are attached with a bottom wall of a housing (11) and an inner surface (232) of a cover (23). LEDs are positioned at opposite surfaces of the input light such that the light emitted toward the light input surface is extracted from the light guide at the planar front face.

Description

The present invention relates to the field of safety lighting. It relates more particularly to a security lighting fixture provided with an autonomous power supply and able to provide ambient lighting or anti-panic in case of failure of the normal lighting of a room in which the luminaire is intended to be installed, of the type comprising a housing in which is mounted an emergency light source and a lid at least partly translucent adapted to close the housing.

A preferred application of the invention relates to ambient safety lighting or panic lighting, necessarily used in all establishments receiving the public, to ensure a minimum luminous flux in the room where they are installed. There are many examples of safety lighting fixtures of this type. They are conventionally equipped with a battery and one or more emergency light sources, which may consist of incandescent or fluorescent bulbs, or light-emitting diodes. Ambient lighting must meet strict requirements, including, in particular, produce at least 5 lumens per square meter, be evenly distributed in the room and at a certain density. Room lighting or anti-panic luminaires can be switched off or on in the standby state (mains present) and are powered by their battery in the emergency state (sector not present). In addition to these requirements, other requirements may appear. For example, depending on the premises in which the ambient lighting luminaires are to be installed, a certain discretion or aesthetic character of these may be sought or required. However, the overall volume given for the set housing and cover is constrained by the space required to accommodate the emergency light source or sources and the battery in particular. To meet this constraint, the constitution of the safety lighting fixtures is such, to date, that it implies a minimal size that is incompatible with the desire to achieve greater compactness and better integration of these luminaires in their environment, so that they do not notice or little.

In this context, the object of the invention is to propose a safety lighting fixture free from the limitations that have just been mentioned. To this end, the safety lighting fixture of the invention, which moreover conforms to the generic definition given in the preamble above, is essentially characterized in that the emergency light source comprises a light guide. consisting of a thin plate of transparent or translucent rigid material having opposite planar faces, respectively rear and front and an outer cylindrical surface having a plurality of light entry surfaces, the front and rear planar faces being respectively in plane contact with a bottom wall of the housing and an inner surface of the cover, while a plurality of light-emitting diodes are positioned facing respectively the plurality of light input surfaces, so that the light emitted by the light-emitting diodes in the direction of respective light entry surfaces of the outer cylindrical surface are extracted from the guide of light at the plane front face of the thin plate. Thanks to this arrangement, the luminaire thus produced has a small thickness. The reduced thickness generated by such a luminaire, for which the light-emitting diodes are arranged on the edge of the diffusing means, in this case the thin plate forming a light guide, sandwiched between the bottom wall of the housing and the surface internal cover, advantageously provides extremely varied integration possibilities. Preferably, the safety lighting fixture according to the invention also has one or more of the following characteristics, taken separately or in combination: the light-emitting diodes are arranged equidistantly aligned on a mounting face of an insulating support flexible strip-shaped, equipped with at least one conductive track to which the light-emitting diodes are connected, the flexible insulating support being arranged along a periphery of the bottom wall of the housing facing the outer cylindrical surface according to an arrangement having a plurality of inflection points located respectively between the plurality of light-emitting diodes; the mounting face of the flexible insulating support in the form of a strip is mounted in line with a protruding flange formed along the periphery of the bottom wall of the housing against which the inner cylindrical surface of the light guide rests internally; opposite to the outer cylindrical surface of the light guide with respect to the projecting rim, the projecting rim further having apertures through which the respective light entry surfaces of the outer cylindrical surface of the light guide open out next to the light-emitting diodes; the bottom wall of the housing is equipped on its periphery with lugs protruding at the points of inflection of the flexible insulating support and disposed opposite the rim protruding from the flexible insulating support, the protruding lugs being adapted to maintain the arrangement of the flexible insulating support along the periphery of the bottom wall of the housing; the cover comprises a diffusing film having a lower surface constituting the inner surface of the cover mounted in plane contact with the flat front face of the thin plate forming a light guide and, at its periphery, superimposed on the diffusing film, a ring of opaque material thermally conductive having means for attachment to the housing; the ring comprises an annular flat face disposed on a peripheral portion of the diffusing film facing the front flat face, the annular flat face being dimensioned so as to mask at least the light entry surfaces of the outer cylindrical surface, and a cylindrical rim extending the annular flat face disposed opposite the outer cylindrical surface opposite the outer cylindrical surface with respect to the flexible insulating support, the cylindrical rim comprising, at each connection between the light-emitting diodes and the flexible insulating support, at least one contact zone and an elongate zone extending out of this contact zone adapted to bear against a rear face of the housing to serve as means for fixing the cover to the housing; the luminaire comprises a reflective ring interposed by its opposite reflective faces between the front plane face of the thin plate forming a light guide and the internal surface of the cover, bordering a peripheral edge of the front plane face, and extending on a width adapted to cover the light entry surfaces of the outer cylindrical surface of the thin plate, so as to mask the alternation of light and dark spots at right and in the immediate vicinity of the light emitting diodes; the rear plane face of the thin light guide plate is mounted in plane contact with the bottom wall of the housing by means of a reflecting film having a reflective surface disposed against the rear planar face of the thin plate; each light entry surface of the outer cylindrical surface of the thin plate forming a light guide comprises a convex portion in which is formed a housing intended to receive a light-emitting diode of the plurality of light-emitting diodes, the housing comprising, opposite of the light-emitting diode to be received therein, a hemicylindrical inner surface, which protrudes inwardly of the thin light guide plate; the housing comprises a rear face comprising a cavity delimited by a cylindrical surface projecting from the rear face of the housing and arranged according to a plurality of internal housings arranged radially around a central zone of the cavity, suitable for accommodating a plurality of elements; coplanar electric accumulator in a radial radial arrangement. Other characteristics and advantages of the invention will become clear from the description which is given below, by way of indication and in no way limiting, with reference to the accompanying drawings, in which: - Figure 1 is an exploded perspective view a luminaire according to the invention; - Figure 2 is an axial sectional view of the light guide that includes this luminaire, shown in isolation. In the embodiment shown in FIG. 1, the luminaire 10 comprises a housing 11 which has a generally circular outline in plan. The housing 11 comprises on its front face 12 a substantially flat bottom wall, preferably reflective, designed to receive a printed circuit board 25 provided with the electronic components necessary for the operation of the luminaire 10 and, in particular, a light source of 30. relief, which will be described in more detail later. In the embodiment shown, the bottom wall of the housing 11 advantageously has a cavity 14 for housing the components fixed to a surface of the printed circuit board 25, so that the opposite surface of the card is substantially flush with the wall of the housing. housing bottom 11. In the case of a fixture that can be recessed, the housing 11 has in addition to its bottom wall and, in practice in one piece with it, a side wall 15 extending from the side of the rear face 16 of the housing opposite the front face 12, peripherally forming, outwardly projecting, a border 17. The side wall 15 further comprises, along its periphery, in recess with respect to the edge 17, a cylindrical surface 18, which protrudes rearward of the housing, orthogonal to the edge 17, so as to constitute a cavity 19 in which is intended to be inserted a battery of accumulator elements 20 for supplying the luminaire 10 to the operating state thereof. The cavity 19, thus delimited by the cylindrical surface 18 of the side wall 15 extending at the rear face 16 of the housing, is adapted to receive a plurality of electrical accumulator elements arranged in the same substantially parallel plane. in the plane formed by the bottom wall of the housing. In particular, the cavity 19 can be arranged according to a plurality of internal housings arranged radially around a central zone of the cavity 19, adapted to accommodate the coplanar electric accumulator elements in a radial radial arrangement, thereby enabling have a large number of battery cells, for example ten battery cells in the embodiment of Figure 1, while promoting the compactness of the arrangement of the battery within the housing 11. A base of recess 21 is intended to cover the cavity 19 incorporating the battery of electric accumulator elements 20. In addition, a cover 23, which will be described in more detail later, is provided to close the housing 11 on the side its front face 12, while the emergency light source of the luminaire 10 is arranged between the bottom wall of the housing and the cover 23. The emergency light source of the luminaire area 10 comprises a light guide 22 consisting of a thin plate 220 of transparent or translucent rigid material, having for example a thickness of about 4mm. The thin plate 220 comprises a generally circular shape in the embodiment shown in Figure 1, which substantially coincides with the bottom wall of the housing 11. The thin plate 220 is disposed within the luminaire 10, so that plane faces opposed respectively 225 and 226, respectively rear and front, of the thin plate 220, on which a plurality of optical microstructures are formed, are in plane contact respectively with the bottom wall of the housing on the side of the front face 12 of the housing and a surface internal wall of the cover 23 intended to cap the housing 11. Preferably, the rear plane face 225 of the thin plate 220 forming a light guide 22 is disposed in plane contact with the bottom wall of the housing 11 via a reflective film 24 interposed between the bottom wall of the housing 11 and the rear planar face 225. This reflecting film 24 has a reflective surface disposed opposite As a variant, the bottom wall 10 of the housing may be designed to itself act as a reflective surface covering the rear plane face 225 of the light guide 22. The light guide 22 uses a lighting system. the wafer using point light sources such as light-emitting diodes positioned equidistantly over the entire periphery of the thin light-guide plate 220. To do this, the thin plate 220 forming a light guide 22 has an outer cylindrical surface 221 having a plurality of light entry surfaces 222, for example eight light input surfaces in accordance with the embodiment depicted in FIG. 1, each adapted to receive a light emitting diode. In particular, each light entry surface 222 disposed at the periphery of the thin plate 220 comprises a convex portion of the outer cylindrical surface 221, in which a housing 223 is formed for receiving a light emitting diode. The housing 223 is for example in the form of a hemicylindrical groove formed in the thickness of the thin plate 220, bordering it, substantially in the middle of the convex portion of the light entry surface 222 corresponding. Each housing 223 thus comprises, facing the light-emitting diode intended to be received, a hemicylindrical inner surface 224, which projects inwardly from the thin plate 220. Each light-entry surface 222 forms a lens of FIG. light diffusion, allowing the light emitted by the diodes to enter the light guide 22. In the embodiment of Figure 1, in order to arrange the assembly of the thin plate 220 forming a light guide 22, the bottom wall of the housing 11 has a rim 13 projecting formed along the periphery of the bottom wall of the housing 11 on the side of its front face 12, against which comes to bear internally the outer cylindrical surface 221 of the thin plate 220 forming light guide 22, when the rear planar face 225 of the thin plate 220 comes into plane contact with the bottom wall of the housing 11. The flange 13 projecting from the bottom wall of the housing present in or lights 131 through which open the respective light entry surfaces 222 of the outer cylindrical surface 221, so as to provide access to the housing 223 for receiving the light emitting diodes. 2 shows in section along the axis A-A the light guide 22, using light emitting diodes Si, S2 disposed at the periphery of the light guide as explained above. The light emitted by each light-emitting diode 51, S2 thus enters the material of the thin plate 220 via the hemicylindrical inner surfaces 224 of their respective housing 223 and is then diffused into the light guide, and is then extracted at the surface. in an efficient and homogeneous manner on the side of the plane front exit face 226 according to the arrows referenced D in FIG. 2, thanks to the plurality of optical microstructures formed on it, while the light extracted at the surface from the side of the face The rear plane 225, itself equipped with the plurality of optical microstructures, is advantageously optimally reflected towards the front planar front face 226 via the reflecting film 24 applied against the rear plane face 225. The light emitting diodes provided for distributed around the periphery of the light guide 22 are arranged in such a way as to be aligned quidistante on a mounting face of a flexible insulating support 50, for example a polyamide strip, equipped with at least one conductive track to which are connected the light emitting diodes. This flexible insulating support, not shown in Figure 1, is arranged along the periphery of the bottom wall of the housing 11 in an arrangement having a plurality of inflection points respectively between the light emitting diodes, so that each of the diodes The electroluminescent electrodes disposed on the support are received in a respective housing 223 of the light entry surfaces 222 of the thin plate 220, the rear planar face 225 of which is in plane contact with the bottom wall of the housing, preferably via In particular, the mounting face of the band-shaped flexible insulating support is mounted to the right of the protruding rim 13 formed along the periphery of the bottom wall of the housing 11, opposite the surface. outer cylindrical 221 of the light guide 22 relative to the flange 13 projecting. The bottom wall of the housing 11 is also equipped on its perimeter lugs 132 projecting at the points of inflection of the flexible insulating support on which are mounted the light emitting diodes. These lugs 132 projecting are more precisely disposed opposite the flange 13 projecting from the flexible insulating support arranged as indicated above along this rim, so that the face of the flexible insulating support opposite its mounting face comes bear against these lugs 132, which are thus designed to maintain the flexible insulating support in position along the periphery of the bottom wall of the housing. In addition, the lugs 132 are arranged at the peripheral edge of the bottom wall of the housing 11, substantially at a distance from the flange 13 projecting, thereby creating a clearance space for the flexible insulating support, under the effect of the temperature increase when the light-emitting diodes are lit, to expand freely without undergoing mechanical stresses to damage it. The cover 23 has an inner surface adapted to come into plane contact with the front planar face 226 of the light guide thin plate 220. In the embodiment of FIG. 1, the cover 23 comprises a diffusing film 231 used for to obtain a very homogeneous distribution of light, without dazzling, which has a lower surface 232 constituting the inner surface of the cover 23 mounted in plane contact with the flat front face 226 of the thin plate 220 forming a light guide 22. The cover 23 comprises in addition, on its periphery, superimposed on the diffusing film 231, a ring 234 of opaque material and thermally conductive, in particular of metal type such as for example aluminum, serving both for fixing the cover 23 to the housing 11 and for dissipating the heat produced by the light-emitting diodes distributed on the periphery of the light guide 22 disposed in the housing 11.

In particular, the ring 234 has an annular flat face 236 affixed against a peripheral portion of the diffusing film 231, which extends over the entire periphery of the plane front face 226 of the light guide 22, this annular flat face 236 being dimensioned by in order to mask at least the light entry surfaces 222 of the outer cylindrical surface 221 of the thin plate 220, in particular their housing portion 223, where the light-emitting diodes mounted on the flexible insulating support arranged along the periphery of the light-emitting diode are received. the bottom wall of the housing 11. The annular flat face 236 of the ring 234 is further extended by a cylindrical edge 237 intended to cover the face of the flexible insulating support opposite its mounting face, which extends outwardly along around the bottom wall of the housing 11 being held by the lugs 132, as explained above. In particular, during the operation of the light-emitting diodes, the heating of the polyamide strip-type flexible insulating support results in an expansion of the latter bringing it in contact against the cylindrical edge 237, favoring the dissipation of heat towards the outside. . More specifically, in the embodiment of FIG. 1, the cylindrical edge 237 comprises contact zones 238 intended to be positioned opposite each connection between the light-emitting diodes and the flexible insulating support and, for each contact zone 238 an elongate zone 239 extending out of the contact zone 238. Also, during the installation of the ring 234, the cylindrical edge 237 covers the opposite face of the flexible insulating support, particularly at each contact zone. 238, while each elongated zone 239 comes to bear against the rear face 16 of the housing 11, at the edge 17, to serve as fixing means of the cover 23 to the housing 11. With this arrangement, the light guide 22 is sandwiched and held in position between the bottom wall of the housing 11 and the cover 23. The latter, in addition to participating in the masking of the light entry surfaces 222 of the surface c External ylindrique 221 of the light guide 22, allows the dissipation of heat is effected effectively, especially towards the front of the luminaire through the annular flat face 236, as well as back through the elongated areas 239. This arrangement of the light source of the luminaire, in combination with the previously described arrangement of the coplanar electrical accumulator elements on the rear face of the housing, provides a great compactness to the assembly. Finally, according to one embodiment, a reflective ring 26 having opposite reflective faces can be interposed by its opposite reflective faces between the plane front plane 226 of the light outlet of the thin plate 220 forming the light guide 22 and the diffusing film 231. of the cover 23, at the limit of a peripheral edge of the plane front face 226. This reflecting ring 26 has a very small thickness relative to that of the light guide 22 and which is substantially equivalent to that of the diffusing film 231, for example of the order of a tenth of a millimeter, so as not to create extra thickness. The reflective ring 26 is more precisely disposed on the front planar face 226 of the thin plate 220 at the peripheral edge thereof, and extends over a width adapted to cover the light entry surfaces 222 of the outer cylindrical surface 221 of the thin plate 220, so as to conceal the alternation of light and dark spots at right and in the immediate vicinity of the light emitting diodes. By thus making it possible to mask the hot spots, that is to say the zones of immediate proximity of the light-emitting, light-emitting and dark diodes, the source of the light emission is advantageously not detectable for an observer, giving a rendering soft light diffusion over the entire diffusing surface of the luminaire. The annular flat face 236 of the ring 234 is advantageously sized in correspondence with the width of the reflective screen, so as to make it invisible.

Claims (10)

REVENDICATIONS1. Luminaire (10) for emergency lighting provided with a self-contained power supply and capable of providing ambient or anti-panic lighting in the event of failure of the normal lighting of a room in which the luminaire (10) is intended to be installed, of the type comprising a housing (11) in which is mounted a backup light source and a cover (23) at least partially translucent adapted to close the housing (11), characterized in that the light source emergency device comprises a light guide (22) consisting of a thin plate (220) made of transparent or translucent rigid material having opposing flat faces (225, 226), respectively rear and front, and an outer cylindrical surface (221) having a a plurality of light input surfaces (222), the front and rear plane faces (225, 226) being in planar contact respectively with a bottom wall of the housing (11) and an inner surface (232) of the cover (23). while a plurality electroluminescent diodes are respectively positioned opposite the plurality of light input surfaces (222), so that the light emitted by the light emitting diodes towards the respective light input surfaces (222) of the outer cylindrical surface (221) is extracted from the light guide (22) at the front planar face (226) of the thin plate (220). 2. Luminaire according to claim 1, characterized in that the light-emitting diodes are arranged aligned equidistantly on a mounting face of a flexible insulating support (SO) in the form of a strip, equipped with at least one conductive track to which the light-emitting diodes are connected, the flexible insulating support (SO) being arranged along a periphery of the bottom wall of the housing (11) facing the outer cylindrical surface (221) in a disposition having a plurality of dots; bending respectively between the plurality of light emitting diodes. 3. Luminaire according to claim 2, characterized in that the mounting face of the flexible insulating support (SO) in the form of strip is mounted to the right of a rim (13) projecting formed along the periphery of the bottom wall. of the casing (11) against which the external surface (221) of the light guide (22) abuts against the outer cylindrical surface (221) of the light guide (22) with respect to the flange (13). projecting rim (13) further having apertures (131) through which respective light entry surfaces (222) of the outer cylindrical surface (221) of the light guide (22) emerge. light emitting diodes. 4. Luminaire according to claim 3, characterized in that the bottom wall of the housing (11) is equipped on its periphery pins (132) projecting at the points of inflection of the flexible insulating support (SO) and arranged to the opposite of the flange (13) protruding from the flexible insulating support (SO), the projecting lugs (132) being adapted to maintain the arrangement of the flexible insulating support (SO) along the periphery of the bottom wall of the housing (11). 5. Luminaire according to any one of claims 2 to 4, characterized in that the cover (23) comprises a diffusing film (231) having a lower surface (232) constituting the inner surface of the cover mounted in plane contact with the face. front plane (226) of the thin plate (220) forming a light guide (22) and, at its periphery, superimposed on the diffusing film (231), a ring (234) of thermally conductive opaque material comprising means for fixing the housing (11). 6. Luminaire according to claim 5, characterized in that the ring (234) comprises an annular flat face (236) disposed on a peripheral portion of the diffusing film (231) facing the front plane face (226), the flat face. ring (236) being dimensioned so as to mask at least the light entry surfaces (222) of the outer cylindrical surface (221), and a cylindrical edge (237) extending the annular flat face (236) disposed opposite of the outer cylindrical surface (221), opposite the outer cylindrical surface (221) with respect to the flexible insulating support (SO), the cylindrical edge (237) comprising, at each connection between the light-emitting diodes and the flexible insulating support (SO), at least one contact zone (238) and an elongated zone (239) extending out of this contact zone adapted to bear against a rear face (16) of the housing (11) for serve as means of fixing the lid e (23) to the housing (11). 7. Luminaire according to any one of the preceding claims, characterized in that it comprises a reflecting ring (26) interposed by its opposite reflective faces between the front plane face (226) of the thin plate (220) forming a light guide ( 22) and the inner surface of the cover (23), bordering a peripheral edge of the front planar face (226), and extending over a proper width to cover the light entry surfaces (222) of the outer cylindrical surface (221) of the thin plate (220), so as to mask the alternation of light and dark spots at right and in the immediate vicinity of the light emitting diodes. 8. Luminaire according to any one of the preceding claims, characterized in that the rear plane face (225) of the thin plate (220) forming a light guide (22) is mounted in plane contact with the bottom wall of the housing ( 11) through a reflecting film (24) having a reflective surface disposed against the rear planar face (225) of the thin plate (220). 9. Luminaire according to any one of the preceding claims, characterized in that each light entry surface (222) of the outer cylindrical surface (221) of the thin plate (220) forming a light guide (22) comprises a convex portion in which is formed a housing (223) for receiving a light-emitting diode of the plurality of light-emitting diodes, the housing (223) comprising, opposite the light-emitting diode intended to be received therein, an inner semicylindrical surface (224) projecting inwardly from the thin plate (220) forming a light guide. 10. Luminaire according to any one of the preceding claims, characterized in that the housing (11) comprises a rear face (16) having a cavity (19) delimited by a cylindrical surface (18) projecting from the rear face (16). ) of the housing (11) and arranged in a plurality of internal housings arranged radially around a central zone of the cavity (19), adapted to accommodate a plurality of coplanar electric accumulator elements (20) in a radial radial arrangement. 30