NL8004808A - VEHICLE LAMP SYSTEM. - Google Patents

Description

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VO 902

Subject: Vehicle lamp system. *

The invention relates to a vehicle lamp system comprising a light-collecting reflector and a light plate, which directs both the light reflected from the reflector and the light emanating directly from the light source, the light source being in or at least close to the focal point of the reflector and the light plate.

In the known lamp systems of this type, the reflector is designed as a spherical reflector. As a result, the rays reflected by the reflector are collected in or almost in the filament and these rays heat this filament additionally. As a result, the life of the light bulb is considerably reduced. On this basis, it has already been proposed to position the filament slightly outside the focus of the spherical reflector.

However, this embodiment has the drawback that the rays incident directly from the filament at a certain point of the light plate strike them at a different angle than the rays reflected by the reflector, so that the light plate is not optimally on both types light can be centered. The use of a spherical reflector furthermore has the drawback that the rays emanating from the filament and reflected by the reflector must pass three times through the glass bulb of the incandescent lamp, so that in the first place the accuracy of the beam path is reduced and secondly, the bulb of the light bulb is heated more strongly.

Despite these known drawbacks of reflectors, which collect the light in or near the light source, they are often used, more particularly in those cases when the light output surface of the lamp assembly is very small and the lamp assembly. must have high illumination intensity.

The object of the invention is to provide a lamp system of the type described above, in which both the light reflected from the reflector and the light striking the light plate directly from the incandescent lamp are used without the light reflected from the reflector again through the filament or the balloon from the light bulb is sent. To this end, according to the invention, the reflector is trough-shaped and is provided with a large number of reflecting surfaces, which collect the light in a focal line passing through the light source, wherein y. the light plate is equipped with prisms that deflect the light to a surface extending along 8004808 -2-> the trend line. A vehicle lamp assembly designed in such a manner emits a strongly bundled light in one direction and a strongly scattered light in a direction perpendicular thereto.

This meets very strongly. the light-5 distribution desired for vehicle lamp systems.

In a particular embodiment according to the invention, the prisms in the light plate are formed as cylindrical bars, which run parallel to the focal line of the reflector. These prisms change the beam path of the light only in cross-sectional planes perpendicular to the focal line 10 of the reflector, but not in cross-sectional planes extending parallel to the focal line of the reflector.

For the use of the lamp system as a signal lamp system, it is preferable to design and position the reflector such that the focal line runs horizontally. As a result, the lamp system has a light distribution which has the form of a wide fan in the horizontal direction, while it is strongly bundled in the vertical direction.

A reflector to be used according to the invention can consist of a metallic material and be manufactured according to an injection molding method.

However, the reflector can also consist of a transparent plastic and. 20 are manufactured by an injection molding method. When using a transparent plastic reflector, it is preferable to obtain the reflecting effect by having prisms with total reflection.

These are designed as horizontally extending roof prisms which, viewed from the light source, are tapered outwards and therefore have a prismatic effect directed towards the optical axis. According to the invention, so that the roof prisms do not have to have a great thickness as a result of the prismatic effect just described, they are divided into small sections in the manner of a stepped lens. Due to this prismatic effect of the roof prisms, the light directed by the reflector is also bundled in the cross-sectional areas running along the focal line of the reflector. The advantage of this bundling of light is that the light exiting in the direction of the optical axis from the lamp system is amplified.

The invention will be explained in more detail below under reference 8004808. Λ 9 * -3- ϊ sing to the drawing. In the drawing: Fig. 1 shows a front view in the reflector; Fig. 2 shows a section along line A-B of the lamp system; and Fig. 3 shows a section along the line C-D of the lamp system.

The trough-shaped reflector 1 forms a section of a circular-shaped hollow cylinder made of a transparent plastic material, which is provided on the outside with prisms 2 with total reflection. These prisms 2 are roof prisms extending in the longitudinal direction of the hollow cylinder. The reflector 1 therefore has no focal point, but a focal line 3. In the immediate vicinity of this focal line 3, the incandescent lamp with its filament Ij- is arranged. The cross-sectional planes of rays reflected by the reflector, which run perpendicularly to the focal line 3, intersect in the focal line 3 and strike the light plate 6 at substantially the same angle with respect to the horizontal plane, such as the light rays emanating directly from the filament k. This light plate 6 is provided with cylindrical prisms 7 extending in the direction of the focal line 3, which direct the light towards the cross-sectional plane running along the focal line 3.

The roof prisms 2 narrow from the optical axis 8 outwardly, so that they also direct the light towards cross-sectional planes perpendicular to the focal line 3. Since the reflector in the central area must not have too great a wall thickness, which could lead to spraying problems, the roof prisms 2 are divided along the longitudinal dimension into separate small sections in the manner of a stepped lens. This prism action ensures that the lamp system in the direction of the optical axis 8 has a greater illumination intensity. The prisms 7 in the light plate 6 do not deflect the light striking the plate 10, 11 in the horizontal direction. In order to obtain a greater scattering effect in the cross-sectional area running along the focal line 3, which generally runs horizontally in signal lamp systems, a further light plate 12 is provided behind the light plate 6, which is provided with lenses 13. The lenses 13 cause a scattering in the horizontal direction, as indicated at I.

35 8004808

Claims (7)

1. Vehicle lamp system comprising a light reflecting reflector and a light plate, which directs both the light reflected from the reflector and the light incident directly from the light source, the light source being in or at least near the focal point of the reflector 5 and the light plate is arranged, characterized in that the reflector. (l) is trough-shaped and is provided with a number of reflective surfaces (2, 9), which collect the light (5) in a focal line (3) passing at least approximately through the light source (k), the light plate (6) is provided with prisms (7) »that bend the light (5) to a surface (15) running along the fire line 10 (3). Vehicle lamp system according to claim 1, characterized in that the prisms (7) in the light plate (6) are cylindrical and extend parallel to the focal line (3) of the reflector. Vehicle lamp system according to claim, characterized in that the reflector (1) is designed and arranged such that the focal line (3) runs horizontally. U. Vehicle lamp system according to one of the preceding claims, characterized in that the reflector (1) is made of transparent plastic and is provided with prisms (2) with total reflection. Vehicle lamp system according to claim k, characterized in that the prisms (2) consist of roof prisms extending horizontally with total reflection. Vehicle lamp system according to claim 5, characterized in that the roof prisms (2), viewed from the optical axis (8), extend outwardly in a narrowing manner and therefore a prismatic effect directed towards the optical axis (8). to own. Vehicle lamp system according to claim 6, characterized in that the roof prisms (2) are divided into small sections (9) in the manner of a stepped lens. Vehicle lamp system according to one of the preceding claims, characterized in that behind the prism disk (6) there is a lens disk (12) which scatters the light. 35 800 * 808