EP1152187A2 - Lighting device - Google Patents

Abstract

Lighting device comprising a light source (2), a primary reflector (4), presenting a double volute (6, 7) cross-section profile and a secondary reflector (5), which reflects the light rays directly from the source (2) and from the primary reflector (4) to form a light beam directed outwards.

Description

• This invention relates to lighting devices for use in motor vehicles, for example for illuminating the passenger compartment, or in homes or offices and public working premises.
• This invention particularly relates to a lighting device of the type comprising a light source, which is extended longitudinally and devices for reflecting the light rays emitted by the source so to form a beam of a predetermined conformation output by the device.
• The purpose of this invention is to realise a lighting device presenting high efficiency and a simple, cost-effective, small sized structure.
• In order to attain this purpose, this invention relates to a lighting device characterised in that said reflecting devices comprise:
     a primary reflector, arranged adjacently on one side of the extended light source, for reflecting the light rays output by the source and
• a secondary reflector, for picking up both the light rays directly from the source and the light rays reflected by the main reflector and conveying said light rays to form a light beam of a predetermined shape outwards.
• Said device is also characterised in that the primary reflector presents a section on a plane, which is perpendicular to the longitudinal axis of the source, comprising two volute sections, joined to form a cusp immediately adjacent to the source and preferably with the axis of the double volute slanted towards the secondary reflector and in that said secondary reflector presents a section, on a plane, which is perpendicular to the longitudinal axis of the source, comprising a set of reflecting sectors arranged in steps.
• Thanks to the characteristics described above, the lighting device according to this invention presents very high efficiency and is very small in the output direction of the beam.
• In a preferred form of embodiment, said extended light source is fluorescent tube, for example of the type marketed with the codes T8 or T5. However, a device utilising a light source of any other type, for example incandescence, halogen or discharge bulbs, is comprised in the scope of this invention.
• In a first form of embodiment, said reflecting sectors of the secondary reflector are spaced by portions of a union arranged radially with respect to the external extremity of the volute profile of the primary reflector.
• In a second form of embodiment, the reflecting sectors of the secondary reflector are separated by slots and a each equipped with a reflecting tab for reflecting the light rays in the direction which is opposite to that of the main output direction of the light beam from the device, through said slots.
• The device according to this invention can be equipped with a lens arranged in front of the primary reflector and the secondary reflector with an internal surface which may be partially or totally equipped with micro prisms.
• This invention will be better explained by the following detailed descriptions with reference to the accompanying figure as non-limiting example, whereas:
• figure 1 is a prospective schematic view of an example of embodiment of the lighting device according to this invention,
• figure 2 is a cross-section view according to the line II-II in figure 1,
• figure 3 is a variation of figure 2 and
• figures from 4 to 6 illustrate two additional variations of figure 2.
• With reference to figure 1, 2, numeral 1 generally indicates a lighting device comprising a pair of light sources 2 in the shape of fluorescent tubes, with an extended longitudinal direction. A reflecting structure, indicated generally with reference numeral 3, is associated to the two light sources. As clearly visible in figure 2, the reflecting structure presents a primary reflector 4 and a secondary reflector 5, associated to each light source 2, Each primary reflector 4 presents, on a plane with is perpendicular to the longitudinal direction of the light sources 2 (see figure 2) a profile consisting of two volute sections 6, 7, presenting concave surfaces facing the source 2 and joined together to form a cusp 8, located in immediately adjacent to the source 2. The axis 4a of the double cusp is slanted towards the secondary reflector 5. Each secondary reflector 5 presents a plurality of active reflecting sectors 9 corresponding, for example, to portions of a parabola or presenting a complex geometry of any type, joined by union sections 10, arranged radially with respect to the free extremity 7a facing outwards with respect to the double volute profile of the primary reflector 4.
• During operation, the secondary reflectors 5 reflect the light rays directly from the light source 2 either associated to it or reflected by the primary reflector 4 outwards (i.e. rightwards with reference to figure 2).
• Thanks to the particular geometry described above, the light device presents high efficiency (in the order of 80%) of extraction of the light in the output direction of the light flow with respect to the total output energy. At the same time, the dimension of the device in the direction of output of the light beam is extremely reduced, which makes the device suitable, for example, also to illuminate rooms in homes or working premises fitted to the ceiling or the wall with the two secondary reflectors 5 both adjacent to the ceiling, because, in this position, the device will only slightly project from the surface on which it is fastened.
• Figure 3 illustrates a variation with a single source 2, presenting a profile which essentially corresponds to one half of the profile in figure 2.
• Figure 4 illustrates a variation which differs from the solution in figure 2 only for the fact that it is provided with a lens 11 which closes the front of the device and which has an internal surface partially or totally provided with micro prisms 12.
• Figure 5 illustrates a variation of figure 3 in which slots 13 are made between the active portions 9 of the secondary reflector and in which each active portion 9 is equipped with an additional tab 14 for reflecting the light rays hitting its rear surface (with reference to the main output direction of the light beam) in the opposite direction to said main direction. The solution in figure 5 can be used, for example, for illuminating the inside of vertical light panels visible on both sides, such as the case, for example, of light panels which indicate fire exits in public venues or working premises.
• In the variant in figure 6, the central part of the device is more extended outwards, over the edge of the wall or ceiling. This solution is particularly suitable for ceiling applications in which the depth of the device must be reduced and good beam direction control is required at the same time.
• Naturally, numerous changes can be implemented to the construction and forms of embodiment of the invention herein envisaged, all comprised within the context of the concept characterising this invention, as defined by the following claims:

Claims (9)

1. Lighting device comprising a light source (2) which is extending longitudinally and reflecting devices (4, 5) for reflecting the light rays output by the source (2) in such a way for form an extending, wide beam output by the device,
   characterised in that said reflecting devices comprise:

   a primary reflector(4), arranged adjacently on one side of the light source (2), for reflecting the light rays output by the source (2) and

   a secondary reflector (5), for picking up both the light rays directly from the source (2) and the light rays reflected by the main reflector (4) and conveying said light rays to form a light beam of a predetermined shape outwards,

   said device being additionally characterised in that said primary reflector presents a section on a plane, which is perpendicular to the longitudinal axis of the source (2), comprising two volute sections (6, 7), which concavities face the source (2), joined to form a cusp (8) immediately adjacent to the source (2) and
   in that said secondary reflector (5) presents a section, on a plane, which is perpendicular to the longitudinal axis of the source (2), comprising a set of reflecting sectors (9) arranged in steps.
2. Lighting device according to claim 1, characterised in that the light source (2) is a fluorescent tube, for example type T8 or T5.
3. Lighting device according to claim 1, characterised in that the light source (2) is an incandescence, halogen or discharge bulb.
4. Lighting device according to claim 1, characterised in that the reflecting sectors (9) of the secondary reflector (5) are spaced by portions of a union (10) arranged radially with respect to the external extremity of the double volute profile of the primary reflector (4).
5. Lighting device according to claim 1, characterised in that the reflecting sectors (9) of the secondary reflector (5) are separated by slots (13) and are equipped each with a reflecting tab (14) for reflecting the light rays from the light source (2) and from the primary reflector (4) in the opposite direction with respect to the main output direction of the light beam from the device, through said slots (13).
6. Lighting device according to any of the previous claims, characterised in that it comprises a pair of extended light sources, respectively parallel and spaced, each equipped with a primary reflector and a secondary reflector of the type specified above, with the secondary reflectors (5) essentially reciprocal co-planar and the joined along the longitudinal edge (15).
7. Lighting device according to any of the previous claims, characterised in that it comprises a transparent element (11) located in front of the reflecting devices (4, 5).
8. Lighting device according to claim 7, characterised in that the transparent element (11) presents an internal surface which is partially or totally equipped with micro prisms (12).
9. Lighting device according to claim 1, characterised in that the double volute section (6, 7) of the primary reflector (4) presents an axis which is slanted towards the secondary reflector (5).

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