EP1798468A2 - Vehicle headlight - Google Patents

Abstract

The motor vehicle headlight has a reflector and a bulb and a movable mask (4) between the lens and reflector. The mask is mounted to a fixed support (5) and adjusted remotely (6) between two positions to give a dip and main beam adjustment. The mask can be further remotely adjusted to an additional position above the main beam position for a further masked light position.

Description

The invention relates to a headlamp for vehicles with a cup-shaped reflector, with a reflector associated with the light source, arranged between a lens and the reflector vertically adjustable aperture, which is attached to a fixed support member and by a remotely controllable adjustment at least in a first low-beam function resulting first position and a high beam resulting second position is adjustable.

From the EP-B-0862015 and the EP-B-0723108 For example, a headlight for vehicles with a projection module is known, which has an aperture device arranged between an elliptical reflector and a lens. The diaphragm device is assigned to an outer focal point of the elliptical reflector and has a plate-shaped carrier element attached to the reflector. The carrier element extends transversely to the light exit direction of the headlight and holds an adjustable aperture. The panel is designed as a one-armed lever and is pivotable about an axis extending in the light exit direction axis. The aperture is pivotable to a first and second position by a remotely operable adjuster mounted beneath the bezel on the support member. In the first position, the diaphragm is held by a spring device against a stop of the support member and a diaphragm edge produces a low beam with an asymmetric light distribution. For this purpose, the diaphragm edge on a higher and lower level extending diaphragm edge portion. The axis about which the aperture is pivotal is adjacent to the low level aperture edge portion. In the second position, the aperture is pivoted down and produces high beam. In this case, an aperture edge of the carrier element is arranged above the diaphragm. It is disadvantageous that with this system only two light functions can be generated remotely operated.

In the from the EP-B-0935728 known headlights for vehicles, has a diaphragm device of a projection module on a diaphragm shaft. The diaphragm shaft in addition to a first position for asymmetrical low beam and a second High-beam position further positions for different low-beam functions such as motorway light, bad weather light and city light. The necessary electrical control, the actuator and a switched between the actuator and the shutter shaft gear device are costly.

The object of the invention is to improve the described in the preamble of claim 1 headlights for vehicles such that cost at least one additional low beam function can be realized. This object is achieved according to the invention in that the aperture is adjustable by the remotely controllable adjustment above the second position for high beam in at least one additional position for a further low beam function. In this case, the adjustable diaphragm additionally assumes the function of at least one further dipped beam and the carrier element and the diaphragm are inexpensive to produce from sheet metal.

In a particularly advantageous embodiment of the invention, the diaphragm is arranged in the at least one additional position between the first and second position and is used to generate motorway light. To generate highway light, the aperture is only a small way down to move from the first position. In the case of motorway light, the light beam of the headlamp extends farther into the distance.

In another advantageous development, the diaphragm is arranged in the at least one additional position above the first position and serves to generate bad weather or city light. To generate these light functions, the diaphragm is only able to be moved a small distance upwards from the first position. In these light functions, the dimmed light beam of the headlight is directed further down. The additional position of the aperture can also serve to switch between right and left traffic.

In a particularly advantageous embodiment of the invention, the adjustable diaphragm is arranged with a diaphragm edge adjacent to the upper edge region of the carrier element, is pivotable about a running in the light exit direction axis as a one-armed lever and has at least two at different levels extending diaphragm edge portions, of which in the first position of the diaphragm of the higher level extending diaphragm edge portion of the section of the light / dark boundary for the opposite lane side and the lower level diaphragm edge portion generates the section of the light / dark boundary for the own lane side, wherein the Axis is arranged at a distance from the vertical center plane of the reflector adjacent to the higher level extending diaphragm edge portion of the diaphragm. As a result, the aperture is only to pivot downwards by a small acute angle and, because of the asymmetrical light distribution, the light on the own roadway then extends further into the distance.

Furthermore, it is advantageous if the adjustable diaphragm is arranged in the second position for high beam at least with a portion of the running at a lower level diaphragm edge portion below a diaphragm edge for high beam of the support element. As a result, there is a large range of the high beam at the smallest possible pivot angle of the aperture.

In a preferred development of the invention, the remotely controllable adjusting device is formed by a bidirectional drive arranged on the carrier element, for example a double-stroke magnet or electric motor, which has a plunger that is translationally adjustable transversely to the light exit direction and in a first end position with a freestanding first end section the adjustable diaphragm holds in its second position and in a second end position with another freestanding end portion of the adjustable aperture in its additional position for highway light, the aperture occupies the first position in a middle position of the plunger. A Doppelhubmagnet or an electromagnet is inexpensive available as a standardized electric actuator. In this context, it is also advantageous if the adjustable diaphragm has on its axis adjacent side a downwardly pointing adjusting arm, which rests in the first and second positions at a free end portion of the plunger by the force of a support member on Erten held first spring device under bias , And in the first position abuts against a stop of the carrier element. By the spring device, the aperture is held without play in the two positions. Furthermore, the diaphragm and the support element are inexpensive to produce from sheet metal.

The aperture is held without play in the additional position, if in the additional position of the aperture rotatably mounted on the support member Doppelarmiger lever with one arm with one of the two end portions of the plunger and with the other serving as a stop for the aperture arm with a freestanding Cooperates end portion of the diaphragm, wherein the plunger holds on the double-armed lever, the aperture in its additional position for highway light against the force of the first spring device.

After an electrical disturbance of the adjustment device, the shutter moves automatically to the second position for low beam when cooperating with the double-armed lever second spring device which is mounted on the support member, together with the first spring device, the plunger from the second or additional position in his Adjusted center position and thus holds the panel in its first position. The two spring devices may be formed by a one-piece spring. The second and additional position are realized by applying a vehicle electrical system voltage. The first position is preferably realized by spring return in the de-energized state. Furthermore, however, by an upstream electronics, the load of the drive can be reduced, a bearing feedback can be integrated and a coupling to the vehicle bus can be realized.

Fig. 1

in einem mittleren vertikalen Schnitt einen Scheinwerfer für Fahrzeuge mit einem Projektionsmodul, das ein Trägerelement für eine verstellbare Blende und eine fernbetätigbare Einstelleinrichtung aufweist,

Fig. 2

eine Ansicht aus Richtung X auf das Trägerelement, wobei die verstellbare Blende für asymmetrisches Abblendlicht eine erste Stellung,

Fig. 3

eine Ansicht aus Richtung X auf das Trägerelement, wobei die verstellbare Blende für Fernlicht eine zweite Stellung einnimmt, und

Fig. 4

eine Ansicht aus Richtung X auf das Trägerelement, wobei die verstellbare Blende eine zusätzliche Stellung für Autobahnlicht einnimmt.

Reference to the following embodiment, the invention is explained in detail. Showing:

Fig. 1

in a middle vertical section, a headlamp for vehicles with a projection module having an adjustable diaphragm support element and a remotely actuatable adjustment device,

Fig. 2

a view from the direction X on the support member, wherein the adjustable diaphragm for asymmetrical low beam a first position,

Fig. 3

a view from the direction X on the support member, wherein the adjustable aperture for high beam occupies a second position, and

Fig. 4

a view from the direction X on the support member, wherein the adjustable aperture occupies an additional position for motorway light.

The headlight for vehicles shown in Figure 1 has a pot-shaped headlamp housing 24, on the front edge of a cup-shaped, translucent lens 25 is placed. In the inside of the headlamp formed by the headlight housing 24 and the lens 25, a projection module is arranged adjustable, which consists of an elliptical reflector 1, a light source 2, an adjustable aperture 4 and a lens 3. In an internal focal point of the elliptical reflector 1, a light source 2 is arranged. As a light source 2 can serve a filament of an incandescent lamp or an arc of a gas discharge lamp. The lamp is inserted into a reflector opening 26 in the apex region of the reflector 1. The adjustable diaphragm 4 is arranged with its diaphragm edge 10 near an outer focal point of the elliptical reflector 1. A reflection surface of the elliptical reflector 1 may be a free-form surface, that is, at least areas of the reflection surface are not determined by a mathematical function.

The adjustable diaphragm 4 and a remotely controllable adjusting device 6 are attached to a plate-shaped support member 5. The plate-shaped support member 5 extends below the horizontal center plane of the reflector 1 to the front edge 27 of the reflector 1 and is fixed thereto. Therefore, the plate-shaped support member 5 extends in a surface through which the optical axis of the reflector 1 passes vertically. The plate-shaped support element 5 has both Side of the vertical center plane of the reflector 1 fastening means 28, through which the carrier element 5 can be fastened to the front edge 27 of the reflector 1. The aperture 4 is a one-armed lever, which is pivotable on the carrier element 5 about an axis 12 extending in the light exit direction into a first and second position 7 and 8 resulting in a dipped beam and main beam. The diaphragm 4 extends in its longitudinal extent adjacent to the upper edge region 11 of the carrier element fifth
In the first position 7 for dipped beam, the diaphragm edge 10 of the diaphragm 4 extends above the carrier element 5 and produces an asymmetrical dipped beam with shutter edge portions 13 and 14 extending at different levels. After pivoting the diaphragm 4 from the low-beam position to the high-beam position, the diaphragm 4 runs at least the lower edge portion 14 below a serving for high-beam diaphragm edge 15 of the support element 5. The serving for high-beam diaphragm edge 15 is through a recess in the upper edge region 11th the support member 5 is formed. The axis 12, about which the aperture is pivotable, is arranged near the upper edge region 11 of the support element 5, the front edge 27 of the reflector 1 and below the higher level extending diaphragm edge portion 13 of the diaphragm 4. The diaphragm 4 and the adjusting device 6 are mounted on the side facing away from the reflector of the support member 5, wherein the adjusting device 6 is fixed below the elongated diaphragm 4 at a portion 7 of the support element 5, which serves to shield light beams of the light source 2. The carrier element 5 and the parts held by it form a structural unit which is preassembled.

The remotely controllable adjusting device 6 shown in FIGS. 2 to 4 has a double-stroke magnet with a plunger 16. The plunger 16 extends horizontally and transversely to the light exit direction of the headlamp and thus parallel to the plate-shaped support member 5. With a free-standing end portion of the plunger 16 acts an adjustment 20 of the panel 4 together. The adjusting arm 20 extends downward in front of the axis 12 and extends to the diaphragm edge 10 of the diaphragm 4 at an acute angle. The adjusting arm 20 is in the first and second positions 7 and 8 by a first spring device 21 with a crowned end in a first end position of the plunger 16 at an end portion of the plunger 16 under prestress. As the first spring device 21 is a coil spring whose center line with the Axis 12 of the diaphragm 4 coincides and is held biased by two voltage applied between the panel 4 and the support member 5 freestanding leg. In the first position 7 for low beam, the first spring device 21 holds the panel 4 with a free end portion 31 against a stop 29 of the support member 5. In the second position 8 for high beam holds the first spring device 21, the shutter 4 rattling at an end portion of the plunger 16th the adjusting device 6.

By adjusting 6, the aperture 4 is adjustable in a lying between the first and second positions 7 and 8 additional position 9 for motorway light. Since the axis 12 of the higher level diaphragm edge portion 13 is adjacent, and thus the lower level diaphragm edge portion 14 is located lower than the other diaphragm edge portion 13 as the diaphragm 4 pivots to the additional position 9, the range of the asymmetrical light beam is in the additional one Position 9 for motorway light on the own road even with a small swivel angle of the aperture 4 particularly large. The adjustment of the diaphragm 4 in the additional position 9 is effected by the other end portion of the plunger 16, which cooperates via a double-armed lever 22 with a free end portion 31 of the aperture 4. The double-armed lever 22 is pivotally mounted on the carrier element 5 about a pivot axis 30 extending in the light exit direction and has two arms which are at an acute angle to each other. Of the double-armed lever 22 is a longer arm in the first and additional positions 7 and 9 with a crowned end by a second spring device 23 under pretension and a short arm is a stop 32 for a free end portion 31 of the panel 4. If the aperture 4 pivots from the first position 7 in the additional position 9 this is held against the force of the first spring device 21 without play on the stop 32 of the lever 22. The second spring device 23 is a helical spring whose center axis coincides with the pivot axis 30 of the double-armed lever 22 and which has two freestanding legs which bias the second spring device 23 by their abutment with the short arm of the lever 22 and the carrier element 9 hold. By the first and second spring device 21 and 23, it is ensured even in the case of a defect of the electrical adjusting device 6 that the plunger 16 automatically assumes its central position and thus the aperture 4 is automatically adjusted to its first position 7 for asymmetric low beam.

LIST OF REFERENCE NUMBERS

1.

reflector

Second

light source

Third

lens

4th

cover

5th

support element

6th

adjustment

7th

first position

8th.

second position

9th

additional position

10th

Aperture edge for dipped beam

11th

upper edge area

12th

axis

13th

Aperture edge section at a higher level

14th

Aperture edge section at a lower level

15th

Aperture edge for high beam

16th

tappet

17th

first end position of the plunger

18th

second end position of the plunger

19th

Middle position of the plunger

20th

Adjusting arm of the panel

21st

first spring device

22nd

double-armed lever

23rd

second spring device

24th

headlamp housing

25th

lens

26th

reflector opening

27th

edge

28th

fastener

29th

Stop of the carrier element

30th

swivel axis

31st

end

32nd

Stop of the lever

Claims (12)

Headlamp for vehicles with a dish-shaped reflector (1), with a light source (2) associated with the reflector (1), with a vertically adjustable aperture (4) arranged between a lens (3) and the reflector (1), which adjoins a stationary light source Carrier element (5) is mounted and by a remotely operable adjuster (6) at least in a first low-beam function resulting first position (7) and a high beam resulting second position (8) is adjustable, characterized in that the aperture (4) by the remotely operable adjuster (6) is adjustable above the second position (8) for high beam in at least one additional position (9) for a further low beam function. Headlamp according to claim 1, characterized in that the diaphragm (4) in the at least one additional position (9) between the first and second position (7 and 8) is arranged. Headlight according to claim 2, characterized in that the additional position (9) of the diaphragm (4) is used to generate motorway light. Headlamp according to claim 1 or 2, characterized in that the diaphragm (4) in the at least one additional position (9) above the first position (7) is arranged. Headlight according to Claim 4, characterized in that the diaphragm (4) in the at least one additional position (9) of the diaphragm (4) serves to produce bad weather light or city light. Headlamp for vehicles, the adjustable diaphragm (4) with an aperture edge (10) adjacent to the upper edge region (11) of the carrier element (5) is arranged about a axis extending in the light exit direction axis (12) is pivotable as a one-armed lever and at least two on different Level extending diaphragm edge portions (13 and 14), of which in the first position (7) of the diaphragm (4) extending at a higher level Aperture edge portion (13) the portion of the light / dark boundary for the opposite lane side and the lower level extending diaphragm edge portion (14) generates the portion of the light / dark boundary for own lane side, according to one of claims 1 to 6, characterized in that the Axis (12) at a distance from the vertical center plane of the reflector (1) adjacent to the higher level extending diaphragm edge portion (13) of the diaphragm (4) is arranged. Headlamp according to claim 6, characterized in that the adjustable diaphragm (4) in the second position (8) for high beam at least with a portion of the lower level diaphragm edge portion (14) below a diaphragm edge (15) for high beam of the support element (5). is arranged. Headlamp according to Claim 6 or 7, characterized in that the remotely actuatable adjusting device (6) is formed by a bidirectional electric drive arranged on the carrier element (5), which has a plunger (16) which can be displaced transversely to the light exit direction and has a first end position (17) with a freestanding first end portion of the adjustable aperture (4) in its second position (8) and in a second end position (18) with another freestanding end portion, the adjustable aperture (4) in its additional position (9) for highway light holds , wherein the diaphragm (4) in a central position (19) of the plunger (16) occupies the first position (7). Headlight according to claim 8, characterized in that the bidirectional drive of the adjusting device (6) is formed by a Doppelhubmagneten or electric motor. Headlamp according to claim 8 or 9, characterized in that the adjustable diaphragm (4) on its axis (12) adjacent side has a downwardly facing adjusting arm (20) in the first and second positions (7 and 8) on a free end portion of the plunger (16) by the force of a carrier element (5) content Erten first spring device (21) bears under prestress, and in the first position (8) on a stop (29) of the support element (5) is present. Headlamp according to one of claims 8 to 10, characterized in that in the additional position (9) of the diaphragm (4) on the support element (5) rotatably mounted double-armed lever (22) with the one arm with one of the two end portions of the plunger (16) and with the other a stop (32) for the diaphragm (4) having arm cooperates with a freestanding end portion (31) of the diaphragm (4), wherein the plunger (16) via the double-armed lever (22) the diaphragm ( 4) in its additional position (9) for motorway light against the force of the first spring device (21) holds. Headlamp according to claims 8 to 11, characterized in that cooperating with the double-armed lever (22) second spring device (23) which is mounted on the carrier element (5), together with the first spring device (21) the plunger (16) adjusted from the second or additional position (8 or 9) in its central position (19) and thus holds the diaphragm (4) in its first position (7).

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