DE4121673A1 - HEADLIGHT SYSTEM FOR VEHICLES - Google Patents

Abstract

A motor vehicle headlight system uses as light source (15) an electric discharge lamp (short arc lamp) the light of which is transmitted to the headlamps (13, 13') by optical fibres (11-11'''). The light source (15) is mounted in a lamp housing (10, 10') in which mirror-lenses (14, 14') channel the light of the light source (15) into the optical fibres (11-11'''), which are provided at their input with a lens (17, 17'). As switching arrangement for generating the low beam and the high beam an optical switch (12) with at least two switching positions is provided. When the high beam is switched off, its light stream can be reflected back to reinforce the low beam. Transparent mouldings (20, 20') are coupled to the output ends of the optical fibres (11-11''') in order to distribute the light.

Description

The invention relates to a headlight system for vehicles, in particular special motor vehicles, with at least one gas discharge spotlight as a light source and an optical system containing Lamp house, at least one spotlight to illustrate the light source in a room to be illuminated and a switching device Control of the light emission from the headlight.

Known headlight systems use one in a lamp housing orderly light source, the lamp housing optical components such as mirrors and lenses as an optical system, which by a Light exit opening to be in one by means of a switching device luminous room a fixed predetermined luminance distribution (distant and low beam). So-called halogen is the light source lamps (H4 lamps) are common, their luminance in the case of small Light exit areas are often not sufficient. High luminance are using gas discharge lamps or so-called Höchst pressure lamps or short-arc lamps. The long start-up period to achieve the correct vapor pressure as well as the insufficient one Switchability (high beam / low beam) have a use of this Lamps as light sources in headlight systems for vehicles in generally prevented.

The invention has for its object a headlight system to create the kind mentioned above, on the one hand the high luminosity seal short arc lamps known per se as a headlight system from Vehicles without problems and on the other hand a change from the amount of light emerging from the headlight system within the individual Switching modes (low beam / high beam) allows the exit area with overall smaller headlight dimensions is reduced.

According to the invention, this task with the characteristic features of claim 1 solved. Advantageous configurations and further windings result from the subclaims.  

Due to the transmission of the luminous flux from the light source to Headlights using optical fibers and the arrangement of an optical Switch can be the highest use of a gas discharge lamp Luminous efficacy (short arc lamp) in headlight systems for vehicles will be realized. The light source is used during commissioning of the vehicle, generally when the engine is started switches. Because the headlight system in three units is divided and a flexible assignment using the light guide the same can be undertaken, for example, the lamp house almost anywhere in the vehicle.

Associated with this is a small volume of the actual bill thrower, which consists essentially of only one lens and the Light exit ends of the light guide is formed and its off footprint can be kept much smaller.

According to an advantageous embodiment of the invention, it suffices only one headlight, two opposite lights on the lamp housing provide head couplings for low and high beam, where a reflection back into the lamp house when the high beam is switched off and coupling into the light guide for the low beam takes place, if the light guide for the high beam with an appropriate optical switch is provided. In this way, the low beam be reinforced if necessary. It is understood that another Light guide pair of the lamp house for another headlight in can be used in the same way.

Fiber optic on / off or changeover switches with two switch positions are provided as optical switches. Either the light is transmitted from the input to the output (switch position 1) or reflected back from the input (switch position 2), or alternatively outputs 1 and 2 are coupled to the input.

With a second lamp house, the safety of the headlights can systems can be increased if the light guide described in the above Way in the second lamp house. If a lamp fails  the headlights only get a little dark, but both shine still light off.

Cold light mirrors are preferably used as mirror lenses; there is achieved by a significant portion of that from the light source emitted IR radiation is not focused on the light guide.

According to an advantageous development of the invention, before Exit end of the light guide to transparent molded parts on the same be coupled, the light exit of which is a focal point of the lens. This results in a certain light distribution in the one to be illuminated Room. This leads to the coupling of an approximately trapezoidal shaped part an elliptical cone of light with symmetrical light distribution. Ge wanted asymmetry in the shape of the light cone or the light beam point can be formed by suitably trained molded parts and / or Easily create fiber optic couplings.

The invention is shown schematically in two embodiments in the drawing examples and is explained below.

Show it

Fig. 1 is a schematic representation of a headlamp system according to the invention with two lamp housings,

Fig. 2 is a simplified view of a lamp housing in longitudinal section;

Fig. 3a shows a schematic representation of a first optical switch,

FIG. 3b is a schematic representation of a second optical switch,

Fig. 4 is a schematic representation of another form of execution of a headlamp system according to the invention with a lamp house,

FIG. 5a is a molded part in a perspective view;

Fig. 5b another molded part in a perspective view, and

Fig. 5c is a formation of a molded part coupling in schematic plan view.

The headlight system shown in Fig. 1 consists of two lamp houses 10 , 10 ', which are installed at any location of a vehicle not shown here. From each of the lamp houses 10 , 10 'emerge flexible light guides 11 , 11 ', which conduct light via an optical switch 12 in two headlights 13 , 13 '. Two further light guides 11 '', 11 '''supply additional headlights 13 '', 13 '''. Thus, the two main headlights 13 , 13 'for illuminating a room with high beam and the two additional headlights 13 '', 13 ''' can be provided for low beam. The number of lamp houses used depends on the amount of light required and the safety requirements.

The lamp housing 10 of FIG. 2 has a total of four mirror lenses 14, 14 'on which two vertically above and below the plane of lying of which are not shown. The light of the short arc lamp used as the light source 15 is coupled into four glass fibers 16 , 16 ', of which only two are shown here. These are provided at their end of the light source 15 each with a lens 17 , 17 '. In this way, the luminous spot of the light source 15 is shown enlarged in a ratio of 2: 1, as a result of which a solid angle of 2.7 sr can be coupled into each glass fiber that is located at the location of the image. The arrangement of the mirror lenses 14 , 14 'and the lenses 17 , 17 ' is such that a 1: 1 image from one optical fiber entrance lens to the opposite takes place.

The fiber optic switch 12 shown in Fig. 3a has two switching positions. In one switch position, the light is transferred from input E to output A. In the other switch position, the light from input E is reflected back into it. The switch according to Fig. 3b is a change-over switch are coupled to the input E to selectively output A 1 and A 2.

In the headlamp system shown in FIG. 4, two light guide couplings opposite one another are used for a headlamp 13 at the lamp house 10 . One light guide 18 leads directly to glare, the other 19 via the optical switch 12 of the type shown in Fig. 3a to high beam. When the main beam is switched off, the light directed there is reflected back into the lamp house and coupled there into the low-beam light guide 18 , so that the low-beam light is amplified.

To achieve a certain light distribution in the room to be illuminated, the exit end of the light guide 11 is advantageously provided with a transparent molded part 20 , 20 '( Fig. 5a and b). The light exits the same is in the headlight 13 at the exit end of the light guide 11 , in the lamp house 10 , 10 '. A trapezoidal shaped part 20 according to FIG. 5a is suitable for generating an elliptical light cone, while the shaped part 20 '( FIG. 5b) results in an asymmetrical light cone. The coupling of the molded parts to the light guide is shown schematically in FIG. 5c.

According to a further embodiment of the invention, the switchover of the optical switch 12 can also take place by means of a sensor (not shown here) instead of a switchover by the driver. This sensor can be attached to a point of the vehicle which preferably acts on the reflected light.

Claims (8)

1. Headlight system for vehicles, in particular motor vehicles, with at least one gas discharge lamp as a light source and an optical system containing lamp house, at least one headlamp with a lens for imaging the light source in a room to be illuminated and a switching device for regulating the light emission from the headlamp , characterized in that the lamp housing ( 10 , 10 ′) and the headlight ( 13 , 13 ′, 13 ′ ′, 13 ′ ′ ′) are arranged spatially separated from one another, in the lamp housing ( 10 , 10 ′) light guides ( 11 , 11 ', 11 '', 11 ''') for coupling light and for transmission to the headlights ( 13 , 13 ') are provided and an optical switch ( 12 ) with at least two defined switching positions is used as the switching device. 2. Headlight system according to claim 1, characterized in that in the lamp house ( 10 , 10 ') the light of the light source ( 15 ) via mirror lenses ( 14 , 14 ') in the entry side with a lens ( 17 , 17 ') ver seen light guide ( 11-11 ''') is coupled in and mirror lenses ( 14 , 14 ') and lenses ( 17 , 17 ') are arranged in such a way that the imaging scale from one optical fiber entrance lens to the opposite is 1: 1. 3. Headlight system according to claim 1, characterized in that for a single headlight ( 13 ) two on the lamp house ( 10 ) opposite light guide couplings are provided, the one light guide ( 18 ) low beam and the other ( 19 ) via the optical switch ( 12 ) high beam is generated and when the latter is switched off the luminous flux is reflected back into the lamp house ( 10 ) and is coupled into the light guide ( 18 ) for the low beam. 4. Headlight system according to claim 1, characterized in that two lamp houses ( 10 , 10 ') each with four mirror lenses ( 14 , 14 ') are provided, the light from the light source ( 15 ) in four light guides ( 11-11 ''') Couple and lead to the optical switch ( 12 ), which distributes the light over several light exit openings. 5. Headlight system according to claim 1, characterized in that the outlet end of the light guide ( 11-11 ''') is provided with a transparent shape part ( 20 , 20 '). 6. Headlamp system according to claim 2, characterized in that cold light mirrors are used as mirror lenses ( 14 , 14 '). 7. Headlight system according to claim 1, characterized in that flexible fiber bundles are used as light guides ( 11-11 '''). 8. Headlight system according to one or more of the preceding claims, characterized in that the switching of the optical switch ( 12 ) can be triggered by a sensor.