阅读说明：本技术 用于交通运输工具的光照系统 (Illumination system for a vehicle ) 是由 A-K.恩克 M.格里洛 于 2019-05-20 设计创作，主要内容包括：本发明涉及一种用于交通运输工具的光照系统,所述光照系统具有用于窗户和/或顶部模块的玻璃面并且具有内部空间的衬里,其中,所述玻璃面至少在一侧至少部分地被陶瓷凝胶覆盖,其中,所述陶瓷凝胶具有反射的颗粒。(The invention relates to an illumination system for a vehicle, having a glass surface for a window and/or roof module and having a lining of an interior, wherein the glass surface is at least partially covered on at least one side by a ceramic gel, wherein the ceramic gel has reflective particles.)

1. An illumination system for a vehicle having a glass face for a window and/or roof module and having a lining of an interior space, wherein the glass face is at least partially covered on at least one side by a ceramic gel, wherein the ceramic gel has reflective particles.

2. An illumination system according to claim 1, characterized in that differently designed ceramic gels are applied.

3. An illumination system according to claim 1 or 2, characterized in that said glass surface is flat or adapted to the contour of a vehicle.

4. An illumination system according to claims 1-3, characterized in that said glass panes consist of composite glass, whereby a ceramic gel is applied between the two composite glass panes.

5. An illumination system according to claims 1 to 4, characterized in that said glass surface is at least partially bordered by at least one illumination module.

6. An illumination system according to claims 1 to 5, characterized in that said illumination module is arranged directly on the edge of the glass surface.

7. An illumination system according to claims 1 to 4, characterized in that said illumination module is installed in an inner lining of a vehicle surrounding a glass face.

Technical Field

The invention relates to an illumination system for a vehicle having a glass pane for a window and/or roof module and having a lining of an interior, wherein the glass pane is at least partially covered on at least one side by a ceramic gel or ceramic paste (Keramikpast).

Background

In the automotive industry, there is an increasing desire to personalize transportation vehicles and to give consumers the possibility of achieving personalized preferences. The design of colors and lighting is of increasing importance here.

It is known from the prior art to dye the glass surface in vehicles by means of ceramic gels. EP 1712529 a1 describes a vehicle glazing which is treated with a coloured ceramic gel in order to design the vehicle glazing accordingly as aesthetically pleasing or opaque in colour.

Here, a part of the window or the entire window is treated with a ceramic gel. The gel is applied and optionally baked on the glass by various extrusion processes.

A solution for the illumination of an interior is known from DE 102009055427 a 1. The interior lining of the motor vehicle is provided with a light source, wherein in the exemplary solution light is transmitted through the thinned plastic surface.

Disclosure of Invention

The object of the present invention is to provide an illumination system for a vehicle, which allows a personalized design by means of the design possibilities of the glass elements of the vehicle and the functionality of the illumination elements.

The object is achieved according to the invention by an illumination system for a vehicle having a glass surface for a window and/or roof module and having a lining of an interior space, wherein the glass surface is at least partially covered on at least one side by a ceramic gel, wherein the ceramic gel has reflective particles.

The reflective particles of the ceramic gel are illuminated with sunlight in a simple basic design of the illumination system. This produces a sparkling effect for increasing the grade of the glass surface.

Differently designed ceramic gels are advantageously applied, which results in different designs of the glass surface of the vehicle.

The illumination system is advantageously used for glass surfaces that are flat or that are adapted to the contour of the vehicle.

If the glass surfaces are composed of composite glass, a ceramic gel is applied between the two composite or joined (superstrenden) glass surfaces.

In an advantageous embodiment, the glass surface is at least partially bordered by at least one lighting module. By using the lighting module, the combination of the glass surface and the lighting module is independent of sunlight and can achieve the desired flickering effect at any time.

Advantageously, the illumination module is arranged directly on the edge of the glass surface. The light of the illumination module is thus incident directly on the edge of the glass pane.

In an alternative embodiment, the illumination module is installed in a lining of the vehicle surrounding the glass surface. The angle of the incident light can be determined very well and the flashing effect can be optimized by the arrangement of the illumination modules at a distance from the glass surface.

Drawings

The invention is exemplarily described below with reference to the accompanying drawings. In the drawings:

fig. 1 shows a schematic view of an exemplary embodiment;

fig. 2 shows a further embodiment;

fig. 3 shows a third embodiment.

Detailed Description

Fig. 1 shows a schematic view of a glass pane which can be used in a vehicle as a window of a vehicle, as a windshield or as part of a sliding roof or roof module. In the exemplary embodiment, the glass surface 1 is shown as a flat component. In a real embodiment, the glass surface is adapted to the contour of the vehicle and has an arcuate, curved or arched or other structured surface.

The glass surface 1 is at least partially provided with a ceramic coating 2. The ceramic coating 2, which in the exemplary embodiment is embodied as an edge, can be designed in a planar manner or have a structure such as strips, dots, etc.

In the sectional view along the section a-a, the rear-side coating 3 is shown by way of example in addition to the frame-shaped ceramic coating 2. Such a rear-side coating 3 can additionally change the color of the entire glazing unit 1 and can, for example, comprise a sun protection.

This embodiment can only be realized by sunlight, which is reflected by the reflective particles in the ceramic gel of the ceramic coating 2.

The ceramic coating 2 can be installed in the interior of the vehicle or on the outside of the glass surface, which contributes to the appearance of the vehicle.

Fig. 2 shows an embodiment of the illumination system with an additional artificial light source. The glass surface in turn has a ceramic coating 2 designed as a frame.

The glass pane 1 is surrounded in a frame-like manner by a lighting means strip 5. In the described embodiment, the strip of illuminating devices extends along the entire edge of the glass surface 1. The lighting device strips are contacted by electrical contacts 4. The lighting device strip may be constituted by a strip of Light Emitting Diodes (LEDs) mounted along the edge of the glass face 1. One possibility for mounting the lighting device strip consists in integrating the lighting device strip directly into a sealing strip 8, by means of which the glass surface 1 is fixedly mounted in a vehicle or is inserted into a movable frame.

However, it is also possible to mount individual light-emitting diodes (LEDs) directly on the glass surface 1, which emit light directly into the glass surface via the glass edge.

For the glass surface of the vehicle, which is not fixedly connected to the vehicle body or has no frame, it is difficult to mount the lighting means strip 5 or the individual lighting means directly on the glass surface.

Fig. 3 shows a solution for a glass pane illuminated by an illumination module 7, which is inserted fixedly into a vehicle, specifically into the interior lining 6 of the vehicle. In the exemplary illustration of fig. 3, on the right side, an illumination strip is shown as illumination module 7, which in turn has electrical connections.

The individual lighting modules 7 can also be seen exemplarily above the glass surface 1. The illumination modules are arranged along the longitudinal axis of the exemplary glass surface 1, but are designed independently of one another as individual light sources. In the embodiment shown, the glass pane 1 with the ceramic coating can also be seen, wherein in this example two different configurations are selected for the edge and the inner pane.

In the embodiment shown in fig. 3, the glass surface 1 and the inner space lining 6 are shown on one plane.

In transport vehicles, however, other possibilities arise from the three-dimensional design, in which the illumination module is arranged at a distance from the glass pane and is not arranged in the same plane, and the glass pane is illuminated by the illumination module.

One example is a glass sliding roof, which can be guided in the roof of the vehicle body in a longitudinally sliding manner on both sides. In the interior space, the glass sliding roof is laterally enclosed by an interior space lining 6, the roof ceiling. The glass sliding roof can thus be illuminated by an illumination module 7 installed in the ceiling of the vehicle roof.

List of reference numerals

1 glass surface

2 ceramic coating

3 coating of the backside

4 electric connector

5 Lighting device strip

6 inner space lining

7 light module

8 sealing tape