Lighting apparatus for vehicles

Abstract

A lighting apparatus for vehicles with a housing sealed by a transparent covering panel, containing a light source unit and an optical unit for producing a predetermined light function, wherein the optical unit has a hologram element and/or diffractive element in which diffraction information for producing the light function is contained, wherein optics are disposed downstream of the hologram element and/or the diffractive element in the light beam path, so that light of different orders of diffraction emerging from the hologram element and/or the diffractive element produce different light functions.

Claims

1. A lighting apparatus for vehicles, the lighting apparatus comprising: a housing at least partially sealed by a transparent covering panel; a light source unit arranged in the housing; an optical unit arranged in the housing for producing a predetermined light function, the optical unit comprising a hologram element or a diffractive element, in which diffraction information for the production of the light function is contained; and optics disposed downstream of the hologram element or the diffractive element in the light beam path, so that light of different orders of diffraction emerging from the hologram element or the diffractive element produces different light functions, wherein the optics are designed such that the light of a first diffraction order is used for bright light functions and the light of a second or higher diffraction order is used for dim light functions.

2. The lighting apparatus according to claim 1, wherein the light source unit, the hologram element or the diffractive element and the covering panel are elongated.

3. The lighting apparatus according to claim 1, wherein a height of the hologram element or the diffractive element is smaller than a height of the covering panel.

4. The lighting apparatus according to claim 1, wherein at least one of two opposite side walls of the covering panel extends in a protruding manner from a plane of a vehicle body opening.

5. The lighting apparatus according to claim 1, wherein the covering panel is formed to be monochrome red.

6. The lighting apparatus according to claim 1, wherein the covering panel is multi-colored.

7. The lighting apparatus according to claim 6, wherein the covering panel is red and white, red and light red or red and gray.

8. A lighting apparatus for vehicles, the lighting apparatus comprising: a housing at least partially sealed by a transparent covering panel; a light source unit arranged in the housing; an optical unit arranged in the housing for producing a predetermined light function, the optical unit comprising a hologram element or a diffractive element, in which diffraction information for the production of the light function is contained; and optics disposed downstream of the hologram element or the diffractive element in the light beam path, so that light of different orders of diffraction emerging from the hologram element or the diffractive element produces different light functions, wherein the hologram element or the diffractive element is formed such that the light of a first diffraction order strikes in the direction of a front wall of the covering panel and that the light of a second or higher diffraction order strikes a side wall of the covering panel, the side wall extending in a range between the hologram element or the diffractive element and the front wall.

9. The lighting apparatus according to claim 8, wherein the front wall and the side wall of the covering panel are provided with a scattering optic as the optics.

10. A lighting apparatus for vehicles, the lighting apparatus comprising: a housing at least partially sealed by a transparent covering panel; a light source unit arranged in the housing; an optical unit arranged in the housing for producing a predetermined light function, the optical unit comprising a hologram element or a diffractive element, in which diffraction information for the production of the light function is contained; and optics disposed downstream of the hologram element or the diffractive element in the light beam path, so that light of different orders of diffraction emerging from the hologram element or the diffractive element produces different light functions, wherein the optics are designed such that the light of a first diffraction order is used for a main illumination range and the light of a second or higher diffraction order is used for a side illumination range.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:

(2) FIG. 1 illustrates a vertical section through a lighting apparatus according to the invention; and

(3) FIG. 2 illustrates a side view of a conventional hologram element with different orders of diffraction.

DETAILED DESCRIPTION

(4) A lighting apparatus according to the invention for vehicles can be used in particular as a tail light. Alternatively, the lighting apparatus can also be arranged in a headlight in a front area of the vehicle. Where appropriate, the lamp can also be arranged inside the vehicle for animation purposes.

(5) The lighting apparatus has a housing 1 in which a light source unit 2 and an optical unit 3 are arranged so as to produce a plurality of light functions. A front opening of the housing 1 is sealed by a covering panel 4 colored in red.

(6) The lighting apparatus is elongated. For this purpose, the light source unit 2 has a plurality of light sources 5 and primary optics 6 assigned to them, which extend in the direction of extension of the lighting apparatusessentially perpendicular to the sheet level of FIG. 1. The light sources 5 are designed as semiconductor-based light sources, in particular as LED light sources. The light sources 5 can be arranged on a common printed circuit board.

(7) Alternatively, the light source unit can also have an elongated light guide in the direction of extension of the lighting apparatus, on the end faces of which the light sources 5 are arranged. This light guide has decoupling elements so that the light coupled in from the light sources can be coupled out in the main emission direction H.

(8) The optical unit 3 essentially comprises a hologram element 7, which is arranged at a distance from the light source unit 2. The hologram element 7 is elongated and extends essentially in the direction of extension of the lighting apparatus, specifically parallel to the light source unit 2.

(9) The hologram element 7 can be designed as a volume hologram element, for example in the form of an emulsion or a film. For example, the hologram element 7 can be pre-formed by deep drawing, so that it is overmolded as an insert in an injection molding tool with a transparent material that forms the flat and transparent carrier. The carrier is transparent, for example in the form of a lens. The carrier of the hologram element 7 can be attached, for example, to a holder of the housing 1, not shown.

(10) In the present exemplary embodiment, the hologram element 7 is designed as a volume transmission hologram element. According to an alternative embodiment of the invention, the hologram element 7 can also be designed as a volume reflection hologram element. To this end, the optical unit 3 has a corresponding reflector, which is positioned such that the light emerging from the hologram element 7 can extend in the main emission direction H.

(11) The covering panel 4 is trough-shaped with a front wall 8 at the front in the main emission direction H and with side walls 9 which project substantially perpendicularly from the front wall 8 and which extend in particular up to an opening edge 10 of the housing 1. The covering panel 4 is elongated. The side walls 9 are arranged in a region remote from the front wall 8, directly adjacent to an opening edge of the vehicle body. The covering panel 4 is thus raised to the vehicle body. It rises from a plane of the body opening of the vehicle, so that it has a three-dimensional contour course outside the vehicle. In the area of the opening edge of the vehicle body or the opening edge 10 of the housing 1, the covering panel 4 has a height h.sub.A, which is larger in comparison to a height h.sub.B of the hologram element 7. The covering panel 4 surrounds an inner space 11, which can be used to produce one or more light functions.

(12) In the present exemplary embodiment, the front wall 8 associated with the hologram element 7 downstream of the luminous flux direction has a scattering optic 12 as optics, such that light 13 of the first diffraction order is scattered from the hologram element 7 at the scattering optics 12 to produce a brake light function in a main illumination range. To this end, the hologram element 7 is structured such that the light 13 of a first diffraction order is radiated substantially in the main emission direction H or in the direction of the front wall 8. Furthermore, the hologram element 7 is structured such that light 14 of a second diffraction order is emitted laterally downwards toward a lower side wall 9. This side wall 9 of the covering panel 4 has, as optics, a scattering optic 15 on which the light 14 is scattered in such a way that it serves to produce a side marking light function in a side illumination range.

(13) Alternatively, a homogeneous, virtually-floating holographic light signature can also be formed as a second light function within the covering panel 4.

(14) If the lighting apparatus is used to produce the brake light and tail light functions, the light 13 of the first diffraction order is assigned a glare device that absorbs the light 13 or allows it to pass through as a function of the presence of a brake actuator.

(15) According to an alternative embodiment, not shown, a diffractive element can also be arranged instead of the hologram element 7, which also has structures of the magnitude of the light wavelength so that light can be diffracted from these structures.

(16) A diffraction structure is impressed in the hologram element 7 in accordance with a predetermined spectral geometric intensity distribution function. The diffraction information can be produced by interference of the laser beams (object and reference beam) when writing the hologram element 7 due to slight differences in the refraction time. Molecules or molecular chains in the photopolymer layer are definedly aligned in accordance with the desired holographic light graphic.

(17) According to an alternative embodiment of the invention, the covering panel 4 can also be multi-colored, in particular red and white on the one hand, red and light red or red and gray on the other.

(18) The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.