Illumination Apparatus for a Motor Vehicle Headlight

Abstract

The invention relates to an illumination device (10) for a motor vehicle headlight, which illumination device (10) has at least one projection device (100), which projection device (100) is arranged on a support frame (50) of the illumination device (10), wherein the at least one projection device (100) comprises the following: at least one micro-optics array (200), which has a plurality of micro-optics (210) arranged in a matrix-like manner in a plane orthogonal to a main emission direction (X) of the projection device (100), at least one substrate layer (300), on which the at least one micro-optics array (200) is arranged, wherein the at least one micro-optics array (200) is arranged on an optically active section (310) of the substrate layer (300), which optically active section (310) is at least partially light-permeable, at least one light source (400), which is designed to emit light beams, wherein the light beams are coupled into the optically active section (310) of the substrate layer (300) and coupled out through the at least one micro-optics array (200) in front of the illumination device (10) as light distribution, wherein the substrate layer (300) comprises an edge section (320) surrounding the optically active section (310) and projecting in a partially planar extension of the optically active section (310), wherein the edge section (320) is attached to the support frame (50) at least in sections by means of an adhesive (500).

Claims

1. An illumination device (10) for a motor vehicle headlight, the illumination device (10) comprising: a support frame; and at least two projection devices (100) arranged on the support frame (50), wherein the at least two projection devices (100) comprise: at least one micro-optics array (200), which has a plurality of micro-optics (210) arranged in a matrix-like manner in a plane orthogonal to a main emission direction (X) of the projection device (100); at least one substrate layer (300) on which the at least one micro-optics array (200) is arranged, wherein the at least one micro-optics array (200) is arranged on an optically active section (310) of the substrate layer (300), which optically active section (310) is at least partially light-permeable; and at least one light source (400), which is designed to emit light beams, wherein the light beams are coupled into the optically active section (310) of the substrate layer (300) and coupled out through the at least one micro-optics array (200) in front of the illumination device (10) as light distribution, wherein: the substrate layer (300) comprises an edge section (320) surrounding the optically active section (310) and projecting in a partially planar extension of the optically active section (310), wherein the edge section (320) is attached to the support frame (50) at least in sections by means of an adhesive (500), and the support frame (50) comprises an opening (51) associated with each projection device (100), wherein the openings (51) have a peripheral edge region (52), wherein the edge region (52) corresponds to the edge section (320) of the at least one substrate layer (300) and the edge section (320) can be attached to the edge region (52) of the opening (51) by means of the adhesive (500).

2. The illumination device as claimed in claim 1, wherein the at least one substrate layer (300) is made of glass.

3. The illumination device as claimed in claim 1, wherein the at least one micro-optics array (200) is made of silicone.

4. The illumination device as claimed in claim 1, wherein the at least one micro-optics array (200) is composed of micro-optics (210) formed integrally with one another.

5. The illumination device as claimed in claim 1, wherein the edge section (320) of the substrate layer (300) is not optically active.

6. The illumination device as claimed in claim 1, wherein the edge section (320) of the substrate layer (300) is opaque.

7-8. (canceled)

9. The illumination device as claimed in claim 1, wherein the extension of the opening (51) corresponds at least to the extension of the optically active section (310) of the substrate layer (300).

10. The illumination device as claimed in claim 1, wherein the edge section (320) completely surrounds the optically active section (310) of the substrate layer (300).

11. The illumination device as claimed in claim 1, wherein the edge section (320) projects beyond the optically active section (310) of the substrate layer (300) in the radial direction with respect to the main emission direction (X) of the at least one projection device (100).

Description

[0026] The invention is explained below in more detail based on exemplary drawings. In the drawings,

[0027] FIG. 1 shows a cross-section of an exemplary illumination device having two projection devices, which respectively comprise a micro-optics array on a substrate layer and are arranged on a support frame of the illumination device,

[0028] FIG. 2 shows a cross-section of an exemplary micro-optics array on a substrate layer, wherein the micro-optics array is arranged on an optically active section of the substrate layer, and wherein the substrate layer furthermore has an edge section surrounding and projecting from the optically active section, and

[0029] FIG. 3 shows a plan view of the exemplary micro-optics array on the substrate layer from FIG. 2.

[0030] FIG. 1 shows an exemplary illumination device 10 for a motor vehicle headlight, which illumination device 10 has two projection devices 100 in the example shown, wherein the projection devices 100 are arranged on a support frame 50 of the illumination device 10.

[0031] The projection devices 100 respectively comprise a micro-optics array 200, which has a plurality of micro-optics 210 arranged in a matrix-like manner in a plane orthogonal to a main emission direction X of the projection device 100.

[0032] The micro-optics arrays 200 are respectively arranged on a substrate layer 300 of the respective projection device 100, wherein the micro-optics array 200 is arranged on an optically active section 310 of the respective substrate layer 300, which optically active section 310 is at least partially light-permeable.

[0033] Furthermore, a projection device 100 comprises a light source 400, which is designed to emit light beams, wherein the light beams are coupled into the optically active section 310 of the substrate layer 300 and coupled out through the micro-optics array 200 in front of the illumination device 10 as light distribution.

[0034] Each substrate layer 300 further comprises an edge section 320 completely surrounding the optically active section 310 and projecting in a planar extension of the optically active section 310, wherein the edge section 320 is attached to the support frame 50 at least in sections by means of an adhesive 500. The edge section 320 is above or in front of the optically active section 310 of the substrate layer 300, i.e. in the radial direction with respect to the main emission direction X of the respective projection device 100.

[0035] As shown in FIG. 1, the support frame 50 has an opening 51 associated with each projection device 100, wherein the opening 51 has a peripheral edge region 52, which edge region 52 corresponds to the edge section 320 of the respective substrate layer 300, wherein the edge section 320 can be attached to the edge region 52 of the opening 51 by means of the adhesive 500. In this case, the extension of the opening 51 corresponds to the extension of the optically active section 310 of the substrate layer 300.

[0036] FIG. 2 shows an exemplary substrate layer 300 with an optically active section 310 and an edge section 320 projecting from the optically active section 310, wherein a micro-optics array 200 is arranged on or attached to the optically active section 320. The edge section 320 is not optically active in general and can be opaque, i.e. the substrate layer 300 can be manufactured from two different materials or in at least two work steps. The substrate layer can be made of glass in the examples shown, wherein the micro-optics array 200 is made of silicone.

[0037] FIG. 3 shows the exemplary substrate layer 300 with the micro-optics array 200 from FIG. 2 in a view from above. In the example shown, the micro-optics array 200 is composed of micro-optics 210 formed integrally with one another.

TABLE-US-00001 REFERENCE LIST Illumination device 10 Support frame 50 Opening 51 Edge region (opening) 52 Projection device 100 Micro-optics array 200 Micro-optics 210 Substrate layer 300 Optically active section 310 Edge section 320 Light source 400 Adhesive 500 Main emission direction X

Illumination Apparatus for a Motor Vehicle Headlight

Inventors

Cpc classification

Classification Explorer

F21S41/143

MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

Classification Explorer

F21S41/275

MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

Classification Explorer

F21S41/295

MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

Classification Explorer

F21S41/153

MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

International classification

Classification Explorer

F21S41/29

MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

Classification Explorer

F21S41/143

MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

Classification Explorer

F21S41/153

MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING

Abstract

Claims

Description