EP2526448A1

EP2526448A1 - Optical waveguide plate comprising phosphorus containing structure elements

Info

Publication number: EP2526448A1
Application number: EP11701370A
Authority: EP
Inventors: Rebekka Wimmer
Original assignee: Zumtobel Lighting GmbH Austria
Current assignee: Zumtobel Lighting GmbH Austria
Priority date: 2010-01-20
Filing date: 2011-01-17
Publication date: 2012-11-28
Also published as: US20130021822A1; CN102770790A; WO2011089097A1; DE202010001155U1

Abstract

The invention relates to an optical waveguide plate having a first flat side (2), a second flat side (4), which is parallel to the first flat side, and an end face (6). The end face (6) is provided for coupling in light, and the second flat side (4) is provided for coupling out the light coupled in via the end face (6). The first flat side (2) has structure elements (8) that serve for coupling out the light and comprise phosphorus. In this way, the phosphorus can be arranged at such a spatial distance from a corresponding light source (10), serving for coupling in the light via the end face (6), that heating of the phosphorus that possibly has an adverse effect, caused by the operation of the light source (10), can be avoided. Moreover, this makes it possible to provide, at different locations of the first flat side (2), structure elements (8) which differ in their phosphorus composition, such that, in this way, light having different spectral compositions, that is to say different white hues, for example, is coupled out at the different locations of the optical waveguide plate.

Description

Light guide plate with phosphorus-containing structural elements

The invention relates to a light guide plate having a first flat side and a second flat side parallel thereto and a front side, wherein the end face to

Coupling of light is provided and the second flat side for decoupling the light. The first flat side has structural elements which serve to decouple the light. Furthermore, the invention relates to a lighting arrangement with such a light guide plate and a lamp with such

Lighting arrangement.

A corresponding light guide plate is known from a lighting arrangement in which light from an LED (light emitting diode) is used for coupling, which emits blue light; the blue light is converted into white light by a light-influencing element comprising phosphorus before being coupled into the light guide plate.

In the known arrangement, there is a risk that the phosphorus of the light influencing element is adversely affected by heat generated by the operation of the LED. In addition, in the event that the spectral composition of the white light before decoupling from the light guide plate is still to be modified, a separate additional light influencing element is required.

The invention has for its object to provide a light guide plate, with an improved coupling of white light is possible. In addition, a corresponding lighting arrangement and a corresponding light to be specified.

This object is achieved according to the invention with the objects mentioned in the independent claims. Particular embodiments of the invention are specified in the dependent claims. According to the invention, a light guide plate is provided, which has a first flat side, a second flat side parallel to the first flat side and an end face, wherein the end face is provided for coupling light and the second

Flat side is provided for coupling out the coupled via the front side light. The first flat side has structural elements which serve to decouple the light. The structural elements have phosphorus.

In this way, the phosphor can be so spatially remote from a corresponding light source, which serves to couple the light over the front side, are arranged so that a possibly negative-acting heating of the phosphorus caused by the operation of the light source can be avoided. In addition, it is possible to provide at different points of the first flat side structural elements that differ in their phosphor composition, so that in this way at the different points of the light guide plate light

different spectral compositions, so beispielswiese

different white tones, is decoupled.

Preferably, the structural elements are made of phosphor. This allows a particularly high efficiency with respect to the spectral change of the light in the interaction with the structural elements.

Advantageously, with regard to the production, the structural elements are printed on the first flat side of the light guide plate, preferably by means of a screen-cracking method.

It is also advantageous if the first flat side has recesses in which the structural elements are arranged. In this way, the diffuse

Effectively influence or increase the scattering behavior of the structural elements. Advantageously, the structural elements are arranged unevenly on the first flat side and / or of different sizes. In this way, the distribution of the light that is emitted from the light guide plate on the second flat side, specifically affect. For example, in this way, a relatively uniform radiation can be achieved by the structural elements with increasing distance from the corresponding light source are denser or formed with increasing area.

Advantageously, the structural elements comprise a first structural element and a wide structural element, wherein the first structural element comprises a phosphor of a first type and the wide structural element comprises a phosphor of a second type which differs from the first type. This can be achieved by the

Light guide plate is emitted via the first structural element, a light of a different spectral composition than over the second structural element. In this way, a light output of the light guide plate can be effected, which - over the region of the second flat side - at different points is spectrally different.

The structural elements are advantageously connected to one another via a carrier element. The carrier element may in particular be a metal plate. This allows a particularly effective cooling of the structural elements. In addition, the metal plate may be made reflective, thereby increasing the efficiency of the light guide plate. According to a second aspect of the invention, a lighting arrangement is provided which has a light guide plate according to the invention.

Preferably, the lighting arrangement further comprises a light source for coupling the light over the front side.

Preferably, the light source is designed such that it can emit blue light. By interacting with phosphorus, blue light can be converted into white light. In particular, the light source may comprise at least one LED that can emit blue light.

Furthermore, in the case of lighting arrangement advantageously has a flat-shaped reflector. which is arranged adjacent to the first flat side of the light guide plate. The reflector may in particular be a metal plate: in this way, a particularly effective cooling of the structural elements is made possible. According to a third aspect of the invention, a luminaire is provided which has a lighting arrangement according to the invention. The invention is explained in more detail below with reference to an embodiment and with reference to the drawings. Show it:

1 is a cross-sectional diagram of a Ausiuhrungsbeispiel a

Lighting arrangement according to the invention and

Fig. 2 is a sketch of a variant with respect to the training of

Structural elements on the first flat side of the light guide plate.

Fig. 1 shows a cross-sectional diagram of an exemplary embodiment of a

Lighting arrangement according to the invention with an inventive

Light guide plate. The optical waveguide plate has a first flat side 2 and a second flat side 4 parallel to the first flat side 2 and an end face 6. The front side 6 is provided for coupling light. For this purpose, the illumination arrangement can in particular have a light source 10, which is designed such that it can emit blue light. For example, the light source 10 may be an LED or a plurality of LEDs arranged along the end face 6 in a row. To decouple the coupled via the light source 10 in the light guide plate light, the second flat side 4 is provided. For this purpose, the first flat side 2 structural elements 8. For this purpose, the structural elements 8 can in particular be designed in such a way that they diffuse the light coupled in via the end face 6 in such a way that the light scattered in the further course at least partially leaves the light guide plate via the second flat side 4.

The structural elements 8 have phosphorus or consist of phosphorus. By interacting with phosphorus, blue light can be converted into white light. In this meadow is made possible that of the light guide plate or of the

B Illumination arrangement white light on the second flat side 4 is discharged.

In the design according to the invention, the phosphor of the structural elements 8 can be arranged so far away from the light source 10 that heating caused by the operation of the light source 10 can not negatively affect the phosphor.

The structural elements 8 thus fulfill a dual function according to the invention. They not only serve to decouple the light from the light guide plate, but also cause a spectral change in the light.

The structural elements 8 can be formed, for example, by the fact that phosphorus is printed on the first flat side 2 of the light guide plate. For example, a printing method is suitable for this purpose.

As shown in the sketch of FIG. 2, it may alternatively or additionally also be provided that the first flat side 2 of the light guide plate has recesses or depressions 20 in which the structural elements 8 are arranged. The recesses 20 can be designed such that they further require the coupling of the light, which has been coupled via the end face 6. The phosphorus-containing

Structural elements 8 can be arranged within the depressions 20, for example at a slight distance. The structural elements 8 can furthermore be connected to one another via a carrier element. The carrier element may be, for example, a

Metal plate 12 act. It can be achieved with the metal plate 12 that the surface of the metal plate 12 facing the first flat side 2 of the light guide plate has a reflective effect, so that the efficiency of the illumination arrangement can be increased as a whole. In addition, can be achieved by appropriate dimensioning that metal plate 12 acts as a heat sink for the structural elements 8.

A corresponding plate-shaped reflector is also advantageously possible in the embodiment shown in FIG. 1 with respect to an improvement of the efficiency. The reflector can be arranged correspondingly adjacent to the first flat side 2 of the light guide plate. Also this reflector can be a

Act metal plate. If the reflector is arranged such that it

Structured elements 8 contacted so he can serve as a heat sink for the structural elements 8 in this case.

However, a corresponding retarder is not mandatory. In particular, it can be done that a light output of the light guide plate can also be done on the first flat side 2. In this case, accordingly, no such reflector is advantageously provided. For example, a luminaire can be provided with a lighting arrangement according to the invention, in which a light output for generating direct lighting is provided via the second flat side 4 and via the first

Flat side 2 another light output to produce an indirect lighting. As shown in the sketch of Fig. 1, it can be provided that the

Structural elements 8 are arranged unevenly on the first flat side 2 and / or are of different sizes. For example, therefore, the degree of printing can be location-dependent. In this way, the distribution of the light that is emitted via the second flat side 4 of the light guide plate can influence. In particular, in order to achieve as even a light emission as possible, the structural elements 8 are arranged to become denser with increasing distance from the light source 10 and / or each cover an increasingly larger area of the first flat side 2. As further indicated in FIG. 1, it can be provided that the structural elements 8 comprise a first structural element 81 and a second structural element 82, wherein the first structural element 81 comprises a phosphor of a first type and the second structural element 82 comprises a phosphor of a second type different from the first kind. For example, the first structural element 81 may have a first phosphor composition and the second structural element 82 may have a second phosphorus composition

Phosphor composition. Different phosphor compositions generally produce different white light upon interaction with blue light. Thus, it can be achieved that is emitted from the Lichfleiterplatte light that has different white tones at different locations. An advantage is a B el euehtun gsanordnung with an inventive

Lichtlcitcrplatte provided as part of a luminaire. In this case, in particular the second flat side 4 of the light guide plate can serve as a beam surface of the luminaire.

Claims

protection claims

Light guide plate, comprising

a first flat side (2),

- A to the first flat side (2) parallel second flat side (4) and

a front side (6),

wherein the end face (6) is provided for coupling light and the second flat side (4) is provided for coupling out the light coupled in via the end face (6) and

wherein the first flat side (2) has structural elements (8) which belong to the

Decoupling the light,

characterized,

the structural elements (8) comprise phosphorus.

Light guide plate according to claim 1,

in which the structural elements (8) consist of phosphorus.

Light guide plate according to claim 1 or 2,

in which the structural elements (8) are printed on the first flat side (2) of the light guide plate, preferably by means of screen printing.

Light guide plate according to one of the preceding claims,

in which the first flat side (2) has recesses in which the

Structural elements (8) are arranged.

Light guide plate according to one of the preceding claims,

in which the structural elements (8) are arranged unevenly on the first flat side (2) and / or are of different sizes.

6. light guide plate according to any one of the preceding claims, wherein the structural elements (8) comprise a first structural element (81) and a second structural element (82), wherein the first structural element (81) comprises a phosphor of a first kind and the second structural element ( 82) a phosphor of a second kind, which differs from the first kind.

Light guide plate according to one of the preceding claims,

in which the structural elements (8) via a carrier cm ent are interconnected.

Light guide plate according to claim 7,

wherein the carrier member is a preferably reflective metal plate (12).

9. Lighting arrangement comprising

- A light guide plate according to one of claims 1 to 8.

10. Lighting arrangement according to claim 9,

still having

- A light source (10) for coupling the light on the end face (6).

11. Lighting arrangement according to claim 10,

in which the light source (10) can emit blue light,

wherein the light source (10) preferably comprises at least one LED. 12. Lighting arrangement according to one of claims 9 to 11,

still having

- A plate-shaped reflector, the first flat side (2) of the

Light guide plate is disposed adjacent. 13. Lighting arrangement according to claim 12,

where the reflector is a metal plate.

14. Light, comprising

- A lighting arrangement according to one of claims 9 to 13.