EP1426677A2 - Illumination device with light emitting diodes - Google Patents

Abstract

The electroluminous diode light source has several light sources (20) spaced regularly at the periphery of a distributor (22). Each source is an electroluminous diode with a base color, red, green or blue. The distributor provides a light and color mix.

Description

TECHNICAL AREA

The invention relates to a lighting element comprising at least one diode light emitter electroluminescent device for emitting white light, and distribution means to increase the light emission surface, said distribution means being intended to receive at least one incident light beam supplied by said transmitter of light-emitting diode light and distributing said beam into outgoing beams to a light scattering zone.

STATE OF THE ART

Light emitting diode (LED) lighting devices are based on light-emitting diode several diodes to get white light. The two most common types of association known are the use of diodes of several colors in a poly-chromatic system or the use of a white light emitter comprising at least one emitting diode in the blue or ultraviolet to excite layers of phosphorus that in turn emit white light.

Polychromatic systems, such as those shown in Figure 1, are generally consist of light emitting diode arrays 1, 2, 3 emitting in the red, green and blue. They are widely used for signage but do not not allow to have a good color rendering index. Their use for lighting risk of denaturing the color of illuminated objects.

White light-emitting diode lighting devices 4, shown in FIG. Figure 2 are based on phosphorescence fluorescence which when excited by a blue or ultraviolet radiation 6 re-emit a different color light 8 allowing to have a white light 9. Light-emitting diode lighting blanks can cover the visible spectrum sufficiently uniformly to have a good color rendering index. However, the spectral density of energy is imposed by the nature of the diodes and it is difficult to control the lighting color temperature.

The color temperature can be corrected by the use of light-emitting diodes other colors 10, 11 in combination with the white light-emitting diodes. The diodes 10 and 11 may emit in particular red 12 or green light 13. patent applications WO01 / 41215 and US2002 / 0048177 show examples combination of white diodes and color diodes to correct the temperature of color.

The luminous flux at the output of the light-emitting diodes is generally low. So, known lighting devices require a large number of diodes electroluminescent to obtain a sufficient level of illumination. In addition, lighting devices consisting of such diodes are very bulky and require a specific layout of a lighting system.

There are high power diodes to reduce the surface of the device lighting. However, the light density per unit area and / or solid angle is too high to be used safely for users' eyes in lighting direct. Some lighting devices include light distributors such as devices described in WO00 / 15462 and WO01 / 14790. However, these signaling devices do not allow good quality light for lighting.

In addition, the number of diodes being reduced, the color mixture with the color diodes for color temperature correction is no longer homogeneous. The result is a light of poor quality that is difficult to correct.

SUMMARY OF THE INVENTION

The aim of the invention is a lighting device making it possible to solve the problems of state-of-the-art devices and providing good quality and secure lighting for a user.

• plusieurs émetteurs de lumière blanche à diodes électroluminescente disposés en périphérie des moyens de répartition,
• des émetteurs de lumière rouge à diodes électroluminescentes, et
• des émetteurs de lumière bleue et/ou verte à diodes électroluminescentes,

les émetteurs à diodes électroluminescentes de couleur blanche, rouge, et bleue et/ou verte étant disposés en périphérie des moyens de répartition selon une période spatiale régulière et une symétrie de révolution, les moyens de répartition effectuant un mélange des lumières et/ou des couleurs.A lighting device according to the invention comprises

• a plurality of white light emitting diode emitters disposed at the periphery of the distribution means,
• red light emitters with light-emitting diodes, and
• emitters of blue and / or green light with light-emitting diodes,

the emitters with light-emitting diodes of white, red, and blue and / or green color being disposed at the periphery of the distribution means in a regular spatial period and a symmetry of revolution, the distribution means effecting a mixture of the lights and / or the colors .

In a preferred embodiment, the lighting device comprises means for broadcast to diffuse outgoing light beams distributed by the means of division.

Preferably, the diffusion means are arranged between the distribution means and the light scattering area.

Advantageously, the diffusion means are associated with the distribution means for to form the same element.

In a preferred embodiment, the lighting device comprises means for reflection arranged near the means of distribution opposite the diffusion zone from light.

Preferably, the lighting device comprises at least one diode light emitter Electroluminescent power supply greater than one watt or power luminous greater than ten lumens.

Advantageously, the distribution means comprise a narrow part receiving at minus an incident light beam and a wide part to distribute the beams luminous outgoing for lighting.

Preferably, the axis of at least one incident beam is substantially perpendicular to the narrow part.

In a variant, the lighting device comprises at least one local reflector for receive an incident beam and direct it in a direction where its axis is substantially perpendicular to the narrow part.

Preferably, the distribution means comprise a series of prisms.

Preferably, the distribution means have a circular or elliptical shape.

In a preferred embodiment, the lighting device comprises means control electronics connected between a power supply line and the Light emitting diode light emitters for controlling lighting.

Advantageously, the control means comprise control means for check the color temperature and / or light intensity.

Advantageously, the lighting device comprises a presence detector connected to the control means for controlling the lighting control according to the presence of a person in a detection zone.

Advantageously, the lighting device comprises means of communication controlling light emitting diode emitters to emit a signal optical.

Advantageously, the control means comprise means for regulating the light according to the ambient light flux and / or the time.

Advantageously, the lighting device comprises cycle memory means light connected to the light control means.

BRIEF DESCRIPTION OF THE DRAWINGS

• les figures 1 et 2 représentent des dispositifs d'éclairage connus ;
• la figure 3 représente un dispositif d'éclairage selon un mode de réalisation de l'invention;
• la figure 4 représente un dispositif d'éclairage selon une variante du mode de réalisation de l'invention de la figure 3 ;
• la figure 5 représente une vue de face d'un dispositif selon le mode réalisation de la figure 3;
• la figure 6 représente un schéma d'un circuit de commande d'un dispositif d'éclairage selon un mode de réalisation de l'invention ;
• les figures 7, 8, et 9 représentent des vues de la disposition des émetteurs de lumière et du répartiteur optique d'un dispositif d'éclairage selon un mode de réalisation de l'invention.

Other advantages and features will emerge more clearly from the following description of particular embodiments of the invention, given by way of non-limiting examples, and represented in the accompanying drawings in which:

• Figures 1 and 2 show known lighting devices;
• FIG. 3 represents a lighting device according to one embodiment of the invention;
• FIG. 4 represents a lighting device according to a variant of the embodiment of the invention of FIG. 3;
• FIG. 5 represents a front view of a device according to the embodiment of FIG. 3;
• FIG. 6 represents a diagram of a control circuit of a lighting device according to one embodiment of the invention;
• Figures 7, 8, and 9 show views of the arrangement of the light emitters and the optical splitter of a lighting device according to one embodiment of the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

A lighting device according to one embodiment of the invention shown in FIG. 3 comprises light emitting diode emitters 20 emitting light. white light 21, and an optical light splitter 22 to decrease the intensity luminous per unit area. The optical splitter 22 is intended to receive incident light beams 23 provided by the white light emitters 20 with diodes electroluminescent and to distribute said incident beams in outgoing beams 24 to a light scattering zone.

A diffuser 26 receives distributed beams of light and diffuses them towards the zone of 25. The diffuser 26 may consist of an insert disposed against the optical splitter 22 or be associated with said splitter in one and the same element. He can too also be realized in the material of the distributor by a suitable treatment such as by frosting.

A reflector 27 disposed near the distributor opposite the diffusion zone of the light 25 returns a portion of the beams of light to the diffusion zone and thus increases the efficiency of the lighting device. The reflector can be constituted by a mirror.

In the embodiment of FIG. 3, the distributor comprises a narrow portion 28 for receive incident light beams 21 and a wide portion 29 to distribute the stream luminous outgoing beams for lighting. Preferably, the axis of the beams incidents is substantially perpendicular to the narrow part. The incident beams can also be emitted on a local reflector 30 which returns them in a sense substantially perpendicular to the narrow part. Such a variant is represented on the drawing of the figure 4.

In Figures 3 and 4 the distributor is shown in section view from the side. In this mode of realization, the distributor comprises a series of prisms 31. This form sawtooth preferably comprises prisms 32 further away from the diffusion area on board the teller and prisms 33 closer to the diffusion zone towards the center of the distributor. Preferably, in front view the distributor has a generally circular shape or elliptical. Thus, the prisms follow the general form to form a series of bonuses concentric at different distances from the edge of the tundish, the diffuser and the diffusion. A circular shaped distributor is shown in the drawing of Figure 5.

White light emitting diode emitters are preferably high power transmitters to reduce the number of transmitters. Preferably, White light emitters have a light output greater than ten lumens or one power supply greater than one watt. Advantageously, the power light of a white light emitter may be of the order of one hundred lumens or its Power supply power can be in the range of five watts.

Advantageously, the lighting device comprises several light emitters white light-emitting diode disposed at the periphery of the splitter. Thus, Transmitter cooling devices are directed to the outside of the dispatcher for improve lighting efficiency and make temperature operation more stable. Indeed, a heating of the light-emitting diodes can disturb the intensity and the color emitted by the emitter diodes.

To control, the color shade the color rendering as well as the temperature of the white, the lighting device comprises transmitters 34 and 35 of blue and red light with diodes emitting. The distributor and / or the diffuser also act as mixer of color and light to make the lighting uniform and of good quality. Issuers white, blue, and red light respectively 20, 34 and 35 are preferably arranged in periphery of the splitter according to a regular spatial period and a symmetry of revolution. Thus, edge effects are avoided and the scattered light is homogeneous. The issuer of Blue light can also be replaced or supplemented with a green light emitter.

FIG. 6 represents a block diagram of a connected electronic control circuit 40 between a power source 41 and the diode light emitters electroluminescent circuits 20, 34, 35. The control circuit comprises a circuit 42 connected to the source 41 and power circuits 43, 44 and 45 for supplying emitters or groups of light emitters 20, 34 and 35, respectively white, blue and red. A circuit 46 for control and regulation is connected to the circuits of power to control the lighting of the light emitters according to parameters operating and control signals. The control circuit 46 allows in particular to control the color temperature and / or light intensity.

Advantageously, the lighting device comprises a light sensor 47 connected to the circuit 46 to provide signals representative of light or illumination. So, the Light regulation can operate according to a slave system and to instructions. A memory circuit 48 connected to the control and regulation circuit makes it possible to memorize light cycles and / or control parameters. For example, the regulation of the light can be made according to the ambient light flux and / or the time.

The lighting device comprises a presence detector 49 connected to the circuit 48 for control lighting according to the presence of a person in a detection zone said sensor. The presence detector 49 is preferably located in the center of the lighting device, for example in the center of the light distributor 22. The control may also be associated with timing or ignition delay functions or extinction.

A communication circuit 50 is connected to the circuit 46 to receive signals from controlling a remote control receiving device 51 and or a network or a bus 52. The communication circuit may also control electroluminescent diodes light emitters for emitting light signals. For example, the circuit of communication can control the blue diode of the light emitter 34.

FIGS. 7, 8 and 9 represent views of the arrangement of the light emitters 20, 34, and 35 around the optical splitter 22 of a lighting device according to a mode of embodiment of the invention.

In the embodiments described above the splitter comprises prisms circular shapes but other forms may be suitable for distributing light beams especially a regular or irregular slope.

Claims (17)

A lighting device having at least one light emitting diode emitter (20) for emitting white light, and distribution means (22) for increasing the light emitting surface, said distributing means being for receiving at least one incident light beam (23) provided by said light emitting diode light emitter and distributing said beam (21) in outgoing beams (24) to a light scattering zone (25),
characterized in that it comprises a plurality of light emitting diode white light emitters (20) disposed at the periphery of the distribution means (22), emitters (35) of red light with light-emitting diodes, and emitters (34) of blue and / or green light with light-emitting diodes, the emitters (20, 34, 35) with light-emitting diodes of white, red, and blue and / or green color being disposed at the periphery of the distribution means (22) in a regular spatial period and a symmetry of revolution, the distribution means (22) effecting a mixture of lights and / or colors. Lighting device according to claim 1, characterized in that it comprises diffusion means (26) for diffusing outgoing light beams (24) distributed by the distribution means (22). Lighting device according to claim 2, characterized in that the diffusion means (26) are arranged between the distribution means (22) and the light scattering zone (25). Lighting device according to claim 2, characterized in that the diffusion means (26) are associated with the distribution means (22) to form the same element. Lighting device according to any one of claims 1 to 4, characterized in that it comprises reflecting means (27) disposed close to the distribution means (22) opposite the area (25) light scattering. Lighting device according to any one of claims 1 to 5 characterized in that it comprises at least one light emitting diode (20) with a power supply diode greater than one watt or with a luminous power greater than ten lumens . Lighting device according to any one of claims 1 to 6 characterized in that the distribution means comprise a narrow portion (28) receiving at least one incident light beam (21) and a wide portion (29) for distributing the beams outgoing luminaires (24) for illumination. Lighting device according to Claim 7, characterized in that the axis of at least one incident beam (21) is substantially perpendicular to the narrow portion (28). Lighting device according to one of claims 7 or 8 characterized in that it comprises at least one local reflector (30) for receiving an incident beam (21) and directing it in a direction where its axis is substantially perpendicular to the narrow part (28). Lighting device according to any one of claims 7 to 9, characterized in that the distribution means (22) comprise a series of prisms (31, 32, 33). Lighting device according to any one of claims 7 to 10 characterized in that the distribution means (22) is a circular or elliptical shape. Lighting device according to any one of claims 1 to 11 characterized in that it comprises electronic control means (40) connected between a power supply line (41) and the emitters (20, 34, 35) light-emitting diode light to control lighting. Lighting device according to Claim 12, characterized in that the control means (40) comprise control means (46) for controlling the color temperature and / or the light intensity. Lighting device according to one of claims 12 or 13, characterized in that it comprises a presence detector (49) connected to the control means (46) for controlling the lighting control as a function of the presence of a nobody in a detection zone. Lighting device according to any one of claims 12 to 14 characterized in that it comprises communication means (50) controlling light emitting diodes (20, 34, 35) to emit an optical signal. Lighting device according to any one of claims 12 to 15 characterized in that the control means (46) comprise means for regulating the light as a function of the ambient light flux and / or the time. Lighting device according to any one of claims 12 to 16 characterized in that it comprises means of memory (48) of light cycle connected to the control means (46) of the light.

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