DE102019108995A1 - Lighting device for vehicles - Google Patents

Abstract

The invention relates to a lighting device for vehicles with a light source (1) and a reflector (3, 3 ') associated therewith, a reflective surface (4) of the reflector (3, 3') at least partially covered with pigments (7) from an afterglow Material is provided, the pigments (7) being arranged distributed over the entire reflective surface (4), a first surface segment (8, 8 ', 8 ") provided with pigments (7) of second surface segments without pigments (7) (6, 6 ', 6 ") is surrounded.

Description

The invention relates to a lighting device for having a light source and a reflector associated therewith, a reflective surface of the reflector being at least partially provided with pigments made of an afterglow material.

From the US 2015/0153014 A1 a lighting device for vehicles with a light source and a reflector is known, which are arranged in a common housing. Areas of the housing are made of a luminescent material in order to improve the quality of the lighting function.

From the FR 2 933 167 A1 a lighting device for vehicles with a light source and a reflector associated with the same is known, a reflective surface of the reflector being at least partially provided with pigments made from an afterglow material (phosphorous material). The luminescent material is injection molded onto the surface of the reflector in the form of strips, so that the vehicle can be identified even when the lighting device is switched off.

Furthermore, from the EP 3 112 742 A1 a lighting device for vehicles with a light source and a reflector associated therewith is known, a reflective surface of the reflector being at least partially provided with pigments made of afterglowing material. The pigments are applied in the form of a luminescent layer on the surface of the reflector. The visual appearance is thus maintained even after the lighting device has been switched off. The disadvantage of the known lighting device is that further optical components are required to ensure the predetermined light distribution when the light source is switched on. A light guide, for example, is provided as a further optical component.

The object of the present invention is to develop a lighting device for vehicles in such a way that, in a space-saving and material-saving manner, on the one hand a light function and on the other hand an afterglow function is guaranteed after the light source has been switched off.

To solve this problem, the invention in connection with the preamble of claim 1 is characterized in that the pigments are arranged distributed over the entire reflective surface, a first surface segment provided with pigments being surrounded by second surface segments containing no pigments.

The particular advantage of the invention is that a light source and a reflector are provided as essential optical components. The reflector has a double function due to its surface structure. On the one hand, when the light source is switched on, it is used to generate a specified light distribution and light signature. For this purpose, the reflector has, for example, a parabolic basic shape or surface. On the other hand, the reflector is provided with pigments in such a way that it enables afterglow at least in some areas when the light source is switched off. For this purpose, the pigments consisting of an afterglow material (of phosphorescent material) are arranged distributed over the entire reflective surface of the reflector, so that the reflective surface has a homogeneous surface structure. The pigments form a first surface segment which is always surrounded by a second surface segment which does not have any pigments. The reflective surface thus has a multiplicity of first surface segments which each span in the same size range, for example a surface area of 500 μm to 5 mm.

According to a preferred embodiment of the invention, the first surface segments are arranged aperiodically or periodically distributed over the reflective surface. If the first surface segments are arranged aperiodically distributed over the reflective surface, there may be a local concentration of first surface segments based on an area. The inhomogeneity of the afterglow resulting from this is accepted. If the first surface segments are arranged periodically distributed over the reflective surface, which results in increased manufacturing costs, the afterglow can take place homogeneously.

According to a further development of the invention, the reflective surface is produced by injection molding, the pigments being added to a plastic compound forming the base material. In this way, the distribution of the pigments over the reflective surface can advantageously be provided in a simple manner in terms of production technology.

According to a further development of the invention, the pigments are contained in an additional coating which is applied to the reflective surface of the reflector. In addition to the pigments, the additional coating also contains a transparent and / or reflective material, so that the effect of the reflective surface is not impaired.

According to a further development of the invention, the pigments are arranged flat or raised from the reflective surface of the reflector. The surface of the reflector can thus have a different degree of roughness. In this way, a high degree of efficiency can be achieved.

According to a further development of the invention, the first surface segments and the second surface segments form a structure surface for diffuse light scattering. In this way, functional light scattering takes place for a signal function. The structure surface can be designed, for example, as an erosion, etching or laser structure.

When the light source is switched on or when the lighting device is activated, the reflector serves as a light-shaping optical component, by means of which the predetermined light distribution can be generated. When the light source is switched off or when the lighting device is deactivated, the pigments cause the reflector to afterglow.

According to a further development of the invention, by setting a distribution density of the pigments over the reflective surface of the reflector, on the one hand a degree of light shaping in the activated state of the lighting device and on the other hand a degree of afterglow in the deactivated state of the lighting device can be determined. The higher the distribution density of the pigments over the reflective surface, the more intense the afterglow and the lower the luminous flux reflected by the reflector in the activated state of the lighting device. If the distribution density of the pigments over the reflective surface is relatively low, the luminous flux reflected by the reflector is relatively high in the activated state of the lighting device, while the afterglow intensity is relatively low. Depending on the distribution density of the pigments and / or a different distribution density over the surface of the reflective surface, for example concentration of the pigments on certain sections of the reflector, certain light signatures can be set in the activated state of the lighting device and afterglow signatures in the deactivated state of the lighting device.

According to a further development of the invention, the pigments can be arranged in a partial surface area of the reflector with a comparatively high distribution density, so that the partial surface area has a predetermined geometric circumferential contour and thus an afterglow signature. Depending on the design requirements, different light and / or afterglow signatures can thus be generated.

According to a further development of the invention, the reflector is designed in the shape of a channel and has an elongated base surface, from which reflector sections with arcuate cross-section adjoin on opposite sides. The reflector sections are used to generate the predetermined light distribution in the activated state of the lighting device. The elongated base area has a surface layer provided with afterglow pigments so that an elongated afterglow signature can be generated.

According to a further development of the invention, pigments of different afterglow colors can be partially or completely embedded in the surface layer, so that afterglow signatures of different colors can be generated. Special colors are red for rear taillights or brake lights, yellow for side direction indicators and white for front position and daytime running lights. Furthermore, other colors such as cyan (turquoise) for identification in autonomous vehicles or blue or green for special applications can be provided.

Further advantages of the invention emerge from the further subclaims.

Exemplary embodiments of the invention are explained in more detail below with reference to the drawings.

• 1 perspektivische Vorderansicht einer Beleuchtungsvorrichtung mit einem Reflektor und einer Reihe von Lichtquellen nach einer ersten Ausführungsform,
• 2 eine schematische Darstellung einer Oberflächenstruktur des Reflektors,
• 3 einen schematischen Querschnitt durch eine Oberflächenschicht des Reflektors,
• 4 eine Vorderansicht einer Beleuchtungsvorrichtung nach einer zweiten Ausführungsform,
• 5 eine vergrößerte Darstellung eines Teils der Vorderansicht der Beleuchtungsvorrichtung gemäß 4-und.
• 6 eine Draufsicht auf einen Teilbereich einer reflektierenden Oberfläche mit einer periodischen Verteilung der Pigmente über die reflektierende Oberfläche und
• 7 eine Draufsicht auf einen Teilbereich einer reflektierenden Oberfläche mit einer aperiodischen Verteilung der Pigmente über die reflektierende Oberfläche.

Show it:

• 1 perspective front view of a lighting device with a reflector and a number of light sources according to a first embodiment,
• 2 a schematic representation of a surface structure of the reflector,
• 3 a schematic cross section through a surface layer of the reflector,
• 4th a front view of a lighting device according to a second embodiment,
• 5 an enlarged representation of a part of the front view of the lighting device according to FIG 4th -and.
• 6th a plan view of a portion of a reflective surface with a periodic distribution of the pigments over the reflective surface and
• 7th a plan view of a portion of a reflective surface with an aperiodic distribution of the pigments over the reflective surface.

A lighting device for vehicles is preferably arranged as a signal light in the front and rear areas of a vehicle. A light distribution can be generated as the lighting device, which can serve as position, tail or delimitation light.

According to a first embodiment of the invention 1 the lighting device has a plurality of light sources arranged in a row 1 on that on a common carrier 2 are arranged. The plurality of light sources 1 is a reflector 3 assigned that has a reflective surface 4th disposes. The reflector 3 is elongated. The shape of the reflector 3 or the arrangement of the light sources 1 can follow a predetermined signature, by means of which an appearance of the lighting device is fulfilled in accordance with the design requirements of the vehicle manufacturer.

How out 2 can be seen, the reflective surface exists 4th of the reflector 3 from a surface layer 5 made from a reflective base material 6th consists, and in the afterglow pigments 7th are embedded. The afterglow pigments 7th are designed as fluorescent and / or phosphorescent pigments which are in an afterglow state when the stimulating light source 1 the lighting device or an external light source is switched off. In particular, when the lighting device is switched off at the end of a night drive, the pigments occur 7th into an afterglow state, the afterglow of the surface 4th of the reflector 3 enables. A homogeneous afterglow of the reflector surface 3 is especially given when the pigments 7th evenly distributed over the surface 4th of the reflector 3 are arranged.

How out 2 can be seen are the afterglow pigments 7th such in the surface layer 5 or in the base material 6th embedded that part of the pigments 7th with a peripheral portion raised from the surface layer 5 the reflective surface 4th protrudes. The pigments 7th thus have one from the surface layer 5 outstanding raised volume section 8th as well as one within the surface layer 5 or base material 6th embedded volume section 9 on. The pigments 7th form a through the raised volume section 8th formed first surface segment of the reflective surface 4th whose contour is solely due to the pigments 7th is formed. The first surface segments 8th are each from by the base material 6th formed second surface segments 6th surrounded whose contour no pigments 7th having.

The pigments 7th have, for example, a prism-shaped or pyramid-shaped surface contour.

The raised volume section 8th and the embedded volume portion 9 can each be designed in the shape of a prism, pyramid or cone.

The raised volume section 8th can for example be made larger than the embedded volume section 9 so that most of the peripheral area of the pigments 7th can be used for afterglow. The raised volume section 8th forms the first surface segment of the surface of the reflector 3 and that the raised volume sections 8th surrounding base material 6th forms the second surface segments.

The raised volume sections 8th the pigments 7th each have a base area 10 on, which are in a plane of subsequently to the respective pigments 7th arranged surface sections 11 of the base material 6th runs. The larger the proportion of the base area 10 to the pigment-free surface sections 11 the surface layer 5 is, the greater the distribution density of the pigments 7th across the surface 4th of the reflector 3 . The ratio of the sum of the base areas 10 the pigments 7th and the sum of the pigment-free surface sections 11 the surface 4th of the reflector can be in a range from 0.25 to 4, for example. At a ratio of 0.25, 1/5 is the surface 4th of the reflector 3 with pigments 7th provided while 4/5 of the surface 4th is pigment-free. The pigment-free surface section 11 serves to generate the specified light distribution when the lighting device is switched on.

In the present exemplary embodiment, the pigments are 7th evenly distributed over the surface 4th of the reflector 3 arranged so that the surface 4th of the reflector 3 homogeneously afterglow.

According to an alternative embodiment of the invention, not shown, the pigments can 7th also only in a partial area of the surface 4th of the reflector 3 be arranged so that in the afterglow state a predetermined afterglow signature, for example a line-shaped and / or circular and / or arc-shaped afterglow signature, is created. The pigments 7th are in this embodiment only in a partial area of the reflector 3 arranged, wherein the partial surface area has a predetermined geometric circumferential contour. The circumferential contour can, for example, be polygonal or closed or open or arcuate.

According to one embodiment of the invention according to the 4th and 5 is a trough-shaped reflector 3 ' provided that has an elongated base surface 13 and on opposite sides of the same adjoining reflector sections arcuate in cross section 14th disposes. The base surface 13 has recesses in which light sources arranged at a distance from one another 1 are arranged.

The same components or component functions of the exemplary embodiments are provided with the same reference symbols.

The reflector 3 ' only points at its base 13 a surface layer 5 on that with pigments 7th is provided, for example as in the embodiment described above. The reflector sections 14th are pigment-free and are used exclusively for reflection from the light sources 1 emitted light in an operating state of the lighting device.

The light sources 1 are preferably designed as LED light sources.

According to an alternative embodiment of the invention (not shown), in the surface layer 5 of the reflector 3 , 3 ' also luminescent pigments 7th be arranged different afterglow color, so that different partial surfaces of the reflector 3 , 3 ' afterglow in different colors.

According to a further embodiment of the invention 6th are the pigments 7th so arranged and / or designed that the first surface segments 8th' periodically across the reflective surface 4th are arranged. The first surface segments 8th' are created by the second surface segments formed by the base material 6 ' surround.

According to a further embodiment of the invention 7th are the pigments 7th arranged and / or designed in such a way that first surface segments 8th" aperiodically across the reflective surface 4th arranged distributed are provided. The first surface segments 8th" are through the second surface segments 6 " formed by the reflective base material.

The reflective surface 4th can for example be produced by injection molding, with the pigments 7th one the basic material 6th forming plastic compound are added. This essentially results in an aperiodic arrangement of the first surface segments 8th" according to the 7th .

Alternatively, the pigments 7th also be included in an additional coating that is applied to the reflective surface 4th is upset. The additional coating not only has the pigments 7th , but also a transparent and / or reflective material, so that the reflective effect of the reflector 3 , 3 ' is guaranteed.

According to the first exemplary embodiment of the invention, the first are surface segments 8th sublime. According to the further exemplary embodiments 6th and 7th can the first surface segments 8th , 8th' or. 8th" also be designed flat. The pigments 7th or the first surface segments 8th , 8th' , 8th" form together with the second surface segments 6th , 6 ' , 6 " a structured surface for diffuse light control. This ensures functional light scattering for a signal function.

List of reference symbols

1

Light sources

2

carrier

3.3 '

reflector

4th

surface

5

Surface layer

6.6 ', 6 "

Base material

7th

Pigments

8.8 ', 8 "

Volume section

9

Volume section

10

Floor space

11

Surface section

13

Base surface

14th

Reflector section

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• US 2015/0153014 A1 [0002]
• FR 2933167 A1 [0003]
• EP 3112742 A1 [0004]

Claims (13)

Lighting device for vehicles with a light source (1) and a reflector (3, 3 ') associated therewith, a reflective surface (4) of the reflector (3, 3') being at least partially provided with pigments (7) made of an afterglowing material, characterized in that the pigments (7) are arranged distributed over the entire reflective surface (4), a first surface segment (8, 8 ', 8 ") provided with pigments (7) of second surface segments (7) containing no pigments (7) ( 6, 6 ', 6 ") is surrounded. Lighting device according to Claim 1 , characterized in that the first surface segment (8, 8 ', 8 ") is arranged aperiodically or periodically distributed over the reflective surface (4). Lighting device according to Claim 1 or 2 , characterized in that the reflective surface (4) is produced by injection molding, the pigments (7) being added to a plastic compound forming the base material (6, 6 ', 6 "). Lighting device according to Claim 1 or 2 , characterized in that the pigments (7) is contained in an additional coating which is applied to the reflective surface (4), the additional coating comprising the pigments (7) on the one hand and a transparent and / or reflective material on the other. Lighting device according to one of the Claims 1 to 4th , characterized in that the pigments (7) are arranged flat or raised above the reflective surface (4) of the reflector (3, 3 '). Lighting device according to one of the Claims 1 to 5 , characterized in that the first surface segments are formed by a raised volume section (8) protruding from the surface layer (5) of the reflective surface (4). Lighting device according to Claim 6 , characterized in that the raised volume section (8) is larger than a volume section (9) embedded within the surface layer (5). Lighting device according to one of the Claims 1 to 7th , characterized in that the pigments (7) are arranged distributed over the entire surface (4) of the reflector (3) or over a partial area (13) of the surface (4) of the reflector (3 '). Lighting device according to one of the Claims 1 to 8th , characterized in that the pigments (7) are arranged in a partial surface area (13) of the reflector (3 '), the partial surface area (13) having a predetermined geometric circumferential contour. Lighting device according to one of the Claims 1 to 9 , characterized in that the entire circumferential contour of the reflector (3) and / or of the partial surface area (13) of the reflector (3 ') is polygonal or closed or open arc-shaped. Lighting device according to one of the Claims 1 to 10 , characterized in that the reflector (3 ') is channel-shaped with an elongated base surface (13) and on opposite sides of the same adjoining reflector sections (14) with an arcuate cross-section, only one surface layer (5) of the elongated base surface (13) with the pigments (7) is provided. Lighting device according to Claim 11 , characterized in that the light source (1) is arranged in a recess in the base surface (13) of the reflector (3 '). Lighting device according to one of the Claims 1 to 12 , characterized in that the pigments (7) of different afterglow colors are arranged on the surface (4) of the reflector (3, 3 ').

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