DE19718335A1 - Universal headlamp for vehicle - Google Patents

Abstract

The headlamp has separate filaments for main beam and dipped beam and with a baffle to shape the dipped beam. The lamp unit is rotated by about 15 degrees to switch from right-hand traffic to left-hand traffic. No other adjustments or fittings are required. The reflector is structured with different reflecting elements to shape the main beam and the two versions of the dipped beam. No additional baffles are required, ensuring a maximum light output.

Description

The invention relates to a reflector for a vehicle headlight, the one universal photo image that can be adjusted for right-hand or left-hand traffic.

Because of the difference between right-hand and left-hand traffic, it is so far different headlights for right-hand and left-hand traffic to build. When using a headlight for right-hand traffic in a country with Left-hand traffic, for example, must cover the headlight Diffuser certain areas to be taped around the not to dazzle oncoming traffic. However, this is at Spreading discs without optical scattering effect practically not possible. From DE 43 07 109 A1 a reflector for a low beam headlight is known, the by rotating the reflector around its optical axis Can convert vehicle headlights between right and left-hand traffic. Of the Known reflector has the disadvantage that when the entire reflector rotates the photo on one side undesirably falls below the light / dark limit, so that the photo can only be optimally aligned for one type of traffic.

From DE 43 07 110 A1 a reflector is known which has a double-sided Has light fingers for right and left-hand traffic, one side of the Light fingers by shielding a selected reflector area with the help a shielding device arranged between the reflector and the lamp is hidden. The hidden area can be the Dipped beam distribution no longer contribute. The shielding device is either designed as an opaque screen that is spaced around the lamp is pivoted around, or it consists of fixed Umbrellas with changeable light transmission. This is relative complex and expensive.

The object of the present invention is therefore to develop a reflector which is optimal for both right-hand and left-hand traffic Low beam distribution and is easily and inexpensively adjustable or is switchable.

This object is achieved in that the universal Photo has a low beam distribution for right-hand traffic through Rotation of a lamp shadowed vertically downwards around its lamp optical axis gives a low beam distribution for left-hand traffic.

By rotating the lamp shaded vertically downwards around its optical axis can be changed to an additional one Shielding device can be dispensed with. By turning the lamp the The position of the light finger changes, the size of that of the light finger illuminated area remains practically intact.

According to a preferred embodiment of the invention, the reflector is as one Open space reflector for a combination headlight with an H4 lamp, which, in addition to a dipped-beam lamp shaded downwards, is one High-beam filament, trained. The open space reflector has one Plurality of partial areas on and generated when switched on Low beam a complete ECE low beam and when switched on High beam coil a complete ECE high beam. For switching from right the H4 lamp is turned by about 15 ° on left-hand traffic. Through the Using a conventional H4 lamp and rotating it about 15 ° is one particularly simple and inexpensive switch from right to Left-hand traffic or vice versa possible.

According to a further preferred embodiment of the invention, the Reflector on an upper area in the vertical direction, in particular on the low beam distribution is matched and a diffused Basic light distribution generated. The upper area is in the vertical direction  adjoined below by a left sector and a right sector, whereby in Right-hand traffic the left sector has an asymmetrical 15 ° rise and right generates the symmetrical side of the light finger with 0 ° in left-hand traffic on the right, and the right sector in right-hand traffic left the symmetrical side of the Light fingers with approx. 0 ° and an asymmetrical 15 ° on the left in left-hand traffic -Rise generated. A lower area or a lower area closes at the bottom Area in connection with the lower parts of the sectors a High beam distribution generated. This division is an optimal one Low beam distribution and high beam distribution for both right-hand traffic and also reached for left-hand traffic.

Further details of the invention emerge from the following detailed description and the accompanying drawings, in which exemplified preferred embodiments of the invention are.

The drawings show:

See Fig. 1 A reflector division in the direction from the rear,

Fig. 2 is a schematic illustration of the helical arrangement of an H4 lamp,

A schematic representation of an H4 lamp in the direction seen from behind Fig. 3,

Fig. 4 is a representation of the distribution of the light, by the rectors left and right finger generated light for the low beam for right-hand traffic on a 25 m distant gaging

Fig. 5 illustrates the light distribution of, from the sectors to the left and right finger generated light for the low beam for left-hand traffic on a 25 m distant gaging

Fig. 6 is a representation of a basic light distribution on a 25 m remote metering wall,

Fig. 7 is a representation of a low beam for right-hand traffic on a gaging wall 25 meters away,

Fig. 8 is an illustration of a low beam for left-hand traffic on a gaging wall 25 meters away, and

Fig. 9 is an illustration of a remote light distribution on a remote metering wall 25 m.

Fig. 1 shows the distribution of a reflector, which is designed as an open space reflector ( 1 ) for a combination headlight for generating a low beam and a high beam with an H4 lamp ( 2 ) arranged according to FIG. 2. The usual H4 lamp ( 2 ) has two filaments lying axially one behind the other, a high beam filament ( 3 ) and a low beam filament ( 4 ). The low beam filament ( 4 ) is shaded downward in the range from phi = -15 ° to phi = -180 ° by shading ( 28 ), see Fig. 3. The free-space reflector ( 1 ) has a plurality of partial areas ( 5 ), which produces a complete ECE low beam ( 25 , 29 ) according to FIG. 7 or FIG. 8 when the low beam lamp ( 4 ) is switched on and a complete ECE high beam ( 24 ) according to FIG. 9 when the high beam lamp ( 3 ) is switched on.

As can be seen from Fig. 1, the open space reflector ( 1 ) is divided in the vertical direction into an upper region ( 6 ) and a lower region ( 7 ). A left sector ( 8 ) is arranged on the left and a right sector ( 9 ) is arranged on the right between the upper region ( 6 ) and the lower region ( 7 ). The upper region ( 6 ) comprises a central partial surface ( 10 ), a left inner surface ( 11 ) adjacent to the left, a right inner surface ( 12 ) adjacent to the central partial surface ( 10 ) on the right and a left outer surface adjacent to the left inner surface ( 11 ) ( 13 ) and a right outer surface ( 14 ) adjacent to the right inner surface ( 12 ) on the right. In the middle, the open-space reflector ( 1 ) has a through opening ( 30 ) for the socket of the H4 lamp ( 2 ).

The upper region ( 6 ) produces a scattered basic light distribution ( 15 ), see FIG. 6. The central partial surface ( 10 ) generates a basic scatter for the low beam or the low beam distribution ( 25 , 29 ). The left inner surface ( 11 ) and the right inner surface ( 12 ) generate a middle divergent light image. The left outer surface ( 13 ) and the right outer surface ( 14 ) converge to create the light finger (hot spot). The outside areas are designed to be concentrated so that trimming only affects the intensities and not the shape of the photograph.

The left sector ( 8 ) and the right sector ( 9 ) are arranged in mirror symmetry. They perform different tasks in low beam operation for right-hand traffic (ESH) and in low beam operation for left-hand traffic (LESH). In ESH mode, the left sector ( 8 ) on the right creates an asymmetrical approx. 15 ° rise ( 16 ) in the light finger ( 18 ). In LESH mode, the symmetrical side (17) of the light finger ( 18 ) is generated at 0 ° on the right. The left sector ( 8 ) thus forms a 15 ° light / dark boundary ( 19 ) and a 0 ° light / dark boundary ( 17 ). In order to achieve both, cropped helix images must "dive" at the break point ( 31 ) of the light distribution in the LESH mode so that the uncircumcised shape does not exceed the 15 ° light / dark limit ( 19 ). The right sector ( 9 ) generates a symmetrical side (21) with 0 ° in ESH mode on the left and an asymmetrical approx. 15 ° rise ( 22 ) in LESH mode on the left. The lower part of the left sector ( 8 ) is in LSH mode, and the lower part of the right sector ( 9 ) is only effective in high beam mode in ESH mode. The sectors ( 8 , 9 ) together with a lower surface ( 23 ) of the lower area ( 7 ) form a high beam finger ( 32 ) which overlaps the basic light distribution ( 15 ') of the upper area ( 6 ), so that a complete ECE High beam with a high beam distribution ( 24 ) is generated, as can be seen from Fig. 9.

The low beam distribution ( 25 ), which is generated by the upper region ( 6 ) and the sectors ( 8 , 9 ), has a spread width ( 26 ) of approximately 30 ° for both right-hand and left-hand traffic.

In high-beam operation, the high-beam distribution ( 24 ) has a high-beam spread ( 27 ) of approximately 25 °.

The open area reflector ( 1 ) generates a complete ESH low beam distribution ( 25 ) for right-hand traffic. By rotating the H4 lamp ( 2 ) around an optical axis (A) of the open area reflector ( 1 ) or the H4 lamp ( 2 ) by 15 °, the same open area reflector ( 1 ) generates a complete LESH low beam distribution ( 29 ) for left-hand traffic . By switching on the high beam filament ( 3 ), a high beam distribution ( 24 ) is generated which corresponds to a complete ECE high beam.

Claims (9)

1. A reflector for a vehicle headlight that generates a universal light image that is adjustable for right-hand or left-hand traffic, characterized in that the universal light image has a low beam distribution ( 25 ) for right-hand traffic, which by rotating a lamp shaded in the vertical direction down ( 2 ) around its optical axis (A) gives a low beam ( 29 ) for left-hand traffic. 2. Reflector according to claim 1, characterized in that the reflector is designed as an open-space reflector ( 1 ) for a combination headlight with a lamp ( 2 ) which, in addition to a downward shaded low-beam lamp ( 4 ), has a high-beam lamp ( 3 ) has a plurality of partial surfaces ( 5 ) and generates a complete ECE low beam ( 25 , 29 ) when the low beam lamp ( 4 ) is switched on and a complete ECE high beam ( 24 ) when the high beam lamp is switched on. 3. Reflector according to claim 1 or 2, characterized in that the lamp ( 2 ) is designed as an H4 lamp and can be rotated by about 15 ° to switch from right to left-hand traffic. 4. Reflector according to one of claims 1 to 3, characterized in that the reflector has an upper region in the vertical direction ( 6 ) which is matched in particular to the low beam distribution ( 25 , 29 ) and a scattered basic light distribution ( 15 , 15 ') generated. 5. A reflector according to claim 4, characterized in that the upper portion (6) has a central partial surface (10), generates a background scattering for the low beam (25, 29) and two of the central partial surface (10) adjacent inner surfaces (11, 12 ) for generating a medium divergent light image. 6. A reflector according to claim 5, characterized in that the inner surfaces ( 11 , 12 ) are adjacent in the horizontal direction from outer surfaces ( 13 , 14 ) which convergent part of a light finger ( 18 , 32 ). 7. Reflector according to one of claims 4 to 6, characterized in that the upper region ( 6 ) in the vertical direction downward from a left sector ( 8 ) and a right sector ( 9 ) is adjacent, the left sector in right-hand traffic ( 8 ) on the right an asymmetrical rise ( 16 ) of approx. 15 ° and in left-hand traffic on the right a symmetrical side ( 17 ) of a light finger ( 18 ) of approx. 0 ° and the right sector ( 9 ) in right-hand traffic the symmetrical side ( 21 ) of the light finger ( 18 ) with approximately 0 ° and in left-hand traffic on the left an asymmetrical rise ( 22 ) of approximately 15 ° of the light finger ( 18 ). 8. A reflector according to claim 7, characterized in that the lower part of the left sector ( 8 ) in left-hand traffic and the lower part of the right sector ( 9 ) in right-hand traffic is only effective in high beam operation. 9. A reflector according to claim 7 or 8, characterized in that the reflector has a lower region ( 7 ) in the vertical direction for generating a high beam distribution ( 24 ), which is formed by a lower surface ( 23 ) which the sectors ( 8 , 9 ) is adjacent.