WO1999028151A1

WO1999028151A1 - Process and device for controlling the lighting range of vehicle headlights

Info

Publication number: WO1999028151A1
Application number: PCT/DE1998/003482
Authority: WO
Inventors: Rochus BÖSHERZ
Original assignee: Boesherz Rochus
Priority date: 1997-11-26
Filing date: 1998-11-25
Publication date: 1999-06-10
Also published as: AU1959699A; DE29720961U1; DE19881818D2; DE29824081U1

Abstract

A process and device are disclosed for controlling the lighting range of a vehicle headlight (3). Depending on the own speed of the vehicle, the lighting range is increased at high speed values and reduced at low speed values. The lighting range of the vehicle headlight (3) is further controlled depending on at least another ambient parameter (distance and/or backlight (11) from another vehicle and/or ambient light (15)). For that purpose, the distance from another vehicle driving in the same direction is sensed by a distance sensor (7) and the lighting range is automatically reduced when the distance falls below a predetermined minimum distance value, and backlight (11) from another vehicle driving in the opposite direction is determined by a backlight sensor (8) and the lighting range is automatically reduced after a backlight signal is detected.

Description

Method and device for controlling the light range of a vehicle headlight

The invention relates to a method and a device for controlling the light range of a vehicle headlight.

It is known to measure the headlight range of a vehicle headlight, i.e. adjust the geometric range for different headlamp inclinations according to the load of the vehicle either manually operated by the driver or automatically by means of level sensors and control elements installed in the vehicle.

From DE 30 01 394 AI a control circuit with a photo amplifier is known, which automatically fades the vehicle's headlight on and off as soon as a third-party vehicle comes from the opposite direction or approaches the vehicle from behind in the same direction.

The previously known regulations for the headlight range of vehicle headlights have several disadvantages:

- the low beam is not always optimally adjusted;

- dazzling light from oncoming traffic is not taken into account in the driver's actual viewing angle;

- The high beam is switched on very differently, regardless of oncoming traffic and street lighting;

- with manual control, the switchover is delayed or it is simply forgotten, in the case of oncoming traffic this

Turn off high beam;

- At dusk, the drivers turn on the headlights subjectively according to their own feelings, without taking into account the actual lighting of the streets.

These disadvantages can have serious consequences. A variety of traffic accidents at dusk or at night follows the driver solely because of incorrect light setting and glare. Manual adjustment is not always sufficient or correct, or is often done too late. The known manually operable headlamp leveling devices also have ergonomic disadvantages, since they have to be operated by hand and may distract the driver from traffic.

The invention is therefore based on the object of providing a method and a device for controlling the headlight range of a vehicle, which contributes to an increase in safety in road traffic and enables an automatic, needs-based and correct headlamp adjustment in driving operation.

This object is achieved by a method according to claim 1. A device according to the invention is specified in claim 9.

According to the invention, it is provided that, depending on the vehicle's own speed, the headlight range is increased at high speed values and reduced at low speed values, and the control of the headlight range of the vehicle headlight is also dependent on at least one further environmental parameter (distance and / or backlight of a third-party vehicle and / ambient light).

In adapting the headlight range to the actual need of the driver, the headlight range is increased at higher speeds according to the invention, thereby increasing the field of view.

When the vehicle is stationary or moving at walking speed, the principle of the invention becomes a minimal one

Headlight range adjusted to avoid unnecessary glare for other road users eat. When the vehicle is stationary or moving at walking speed, higher lighting ranges are normally not necessary. As soon as the vehicle has reached a speed of approximately 20 km / h, the control circuit according to the invention receives signals from the speed detector about the actual speed of the vehicle, and a higher headlight range is set in accordance with the speed actually driven. Typically, the light range in this speed range is from at least 15% to 25% of the permissible maximum value up to the approximate maximum value of the light range. The control of the headlight range takes place in a speed range that is typically driven within closed towns, i.e. from about 20 km / h to about 60 km / h (although the maximum speed in Germany is currently limited to 50 km / h within closed towns) usually driven a little faster, taking into account tolerances and accuracies of the speed to be measured). A value of approximately 60 km / h is therefore assumed as the upper limit for the speed-dependent increase in the lighting range; if there is a permissible maximum value other than 50 km / h within a built-up area, the corresponding maximum value of the speed range to be controlled should be selected accordingly. The example values shown therefore relate to the conditions in Germany with a currently permissible speed of 50 km / h within built-up areas.

At vehicle speeds above 60 km / h, i.e. typically when driving outside of built-up areas, the maximum beam range of the low beam is set, since better illumination of the road is required at higher speeds. If a third-party vehicle comes with light, this is detected by the sensor device and the headlight range is immediately delayed by a certain amount of approximately 25% of the maximum value. borrowed reduced to avoid glare for other road users due to the maximum beam range of the low beam. At the same time, the lighting range is adjusted as a function of at least one further environmental parameter, in particular with regard to a third-party vehicle, in order to increase safety in traffic, in particular to prevent dazzling oncoming traffic or someone driving ahead in the same direction.

According to the principle of the invention, it can therefore be provided that the control of the headlight range of the vehicle headlight takes place as a function of the further environmental parameter such that the distance of a third-party vehicle traveling in the same direction is detected by means of a distance sensor, and the headlight range is automatically reduced after falling below a predetermined minimum distance value becomes.

According to the principle of the invention, it can also be provided, in addition or in addition, that the control of the luminous range of the vehicle takes place as a function of the further environmental parameter of a third-party vehicle in such a way that the backlight of the oncoming third-party vehicle is detected by means of a backlight sensor, and the lighting range after a Backlight signal is automatically reduced.

In both cases, a speed-related increase in the headlight range is automatically reduced to such an extent that dazzling oncoming traffic or someone driving ahead in the same direction is excluded.

Expediently, the reduction in the headlight range can also include an immediate switching off of the high beam or switching to low beam.

In a particularly preferred embodiment, the backlight is detected by the backlight sensor in the driver's line of sight. The control of the headlight range is expediently carried out continuously as a function of the vehicle's own speed within a certain tolerance band, the entire adjustment of the headlight range being carried out within the tolerance band using the tolerance band. The lighting range is continuously changed in a linear dependence on the measured speed.

Further advantageous embodiments result from the subclaims.

A preferred embodiment according to the invention is explained below with reference to the drawing. It shows:

Figure 1 is a schematic diagram of a headlight range control according to the invention; and

Figure 2 is a schematic view of a vehicle with differently adjusted lighting ranges.

The exemplary embodiment of the invention shown in FIG. 1 comprises a device for controlling the headlight range of a vehicle headlight 3 which is pivotably mounted about a pivot axis 1 and which can be adjusted by means of an electrically controllable adjusting element 2, with a control circuit 4 which acts on the lamp adjustment and which is dependent on the speed detector 5 (Vehicle tachometer) measured, actual vehicle speed, the headlight range 3 is increased at high speed values and reduced at low speed values, and with a sensor device coupled to the control circuit 4, by means of which additional environmental parameters (distance and / or backlight of a third vehicle and / or ambient light ) are recorded. The sensor device has a distance sensor 7, which is electrically coupled to the control circuit 4, for detecting the distance of a third-party vehicle traveling in the same direction (not shown in the figures), the control circuit 4 regulating the headlight range of the vehicle headlight 3 as a function of the measured distance such that the headlight range after falling below a predetermined minimum distance value depends on the actual vehicle speed can depend, is automatically reduced. The sensor device also has a back-light sensor 8, which is electrically coupled to the control circuit 4 and has a photo diode 9 or the like, and has an imaging lens 10 for detecting the back-light 11 of an oncoming third-party vehicle (not shown in the figures), the control circuit 4 controlling the Controls the light range of the vehicle headlight 3 as a function of the backlight 11 of a third-party vehicle such that the headlight range is automatically reduced after a backlight signal has been detected. The sensor device furthermore has an ambient light sensor 12 electrically coupled to the control circuit 4, with a further photodiode 13 or the like light-sensitive component and with a further imaging lens 14, the control circuit 4 regulating the light range of the vehicle headlight 3 in dependence on the ambient light 15 such that the Headlight range is controlled when the ambient light 15 falls below a predetermined threshold value in the sense of an automatic switching on or off of the vehicle light. Finally, the sensor device has an inclination sensor 6 which is electrically coupled to the control circuit 4, which is coupled to a plurality of level sensors provided in the vehicle, and which supplies the control circuit 4 with a signal value corresponding to the load condition of the vehicle in such a way that the control of the light range of the vehicle headlight 3 is dependent the vehicle inclination is corrected automatically.

At least the optical receiving part of the backlight sensor 8, that is to say the photodiode 9 and the imaging lens 10, is expediently arranged in the region of the driver's visual angle. net. The control circuit 4 is supplied with electrical energy from the alternator or vehicle battery via a relay 16. The filaments for low beam and high beam of the bulb 20 of the headlight are supplied with electrical current via further relays 17 and 18. The control circuit 4 is electrically coupled to the relays 17, 18.

To carry out the method according to the invention, a program for controlling all functions of the headlight range control is stored in the control circuit 4.

The method according to the invention for controlling the light range of the vehicle headlight 3 is explained in more detail with reference to FIG.

After the vehicle engine is started, the ambient lighting is first measured by means of the light sensor 12. If the ambient lighting is less than a predetermined limit value of, for example, 300 lx, the low beam 22c of the headlight 3 is switched on automatically, the light range initially being set to a minimum value Lc, taking into account the charge state of the vehicle measured by the inclination sensor 6 19. Likewise, when driving into underground garages, underpasses, tunnels, etc., the low beam of the headlamp is switched on automatically by means of the light sensor 12 and the control circuit 4.

It is now assumed that the vehicle 19 is driving with the low beam 22c switched on, that is, the high beam is off. According to the invention, the swivel angle α and thus the lighting range of the vehicle headlights 3 are set continuously as a function of the actually measured speed value of the vehicle 19 within an angular range with predetermined lower and upper limit values corresponding to the minimum and maximum lighting ranges Lc and La. For example, at a measured vehicle speed of 60 km / h and above this, according to the state “a” according to FIG. 2, a maximum beam range La of the low beam 22a of the headlights 3 is set, as a result of which the road is illuminated to a maximum. At speeds of less than 60 km / h, the beam range of the low beam 22b of the headlight 3 is conveyed the control circuit 4 is continuously reduced to an intermediate value Lb, for example the headlight range is set at an actual speed of 40 km / h according to the state “b” according to FIG. 2 to the value Lb corresponding to a value reduced by 35% of the maximum value La. At a speed of 20 km / h or less, the lower limit value Lc of the light range of, for example, about 15% to 25% of the maximum value of the light range is set in accordance with state “c” according to FIG The headlights 3 of the vehicle 19 are steplessly controlled between the two predetermined limit values of the headlight range as a function of the vehicle's own speed. A correction of the headlight range control can be proportional to the load of the vehicle 19 and accordingly the signals of the inclination sensor 6 are made.

The high beam 23 can be switched on automatically in accordance with the state “f” according to FIG. 2 if, cumulatively, all of the following conditions are met:

The backlight sensor 8 does not register any backlight, the distance sensor 7 does not register a third vehicle driving in front of the vehicle 19 within a predetermined distance range,

- The vehicle's own speed is at least 60 km / h, and - The ambient light sensor 12 has registered an "absolute" darkness of the surroundings. The high beam 23 is automatically switched off as soon as an oncoming vehicle is detected by the backlight sensor 8 or the vehicle 19 approaches a third vehicle in front so far that the specified minimum distance value is undershot. In both cases, in addition to the immediate switching off of the high beam, a reduction in the beam range of the low beam is carried out, depending on the vehicle's own speed. For example, at the vehicle's own speeds of more than 60 km / h, headlight range reductions of at least 25% of the total maximum permitted headlight range value La are carried out as soon as an oncoming or approaching third-party vehicle is registered.

The low beam is advantageously switched on automatically when the engine is running as soon as the ambient light sensor 12 detects a signal level of the ambient light which is below a predetermined twilight threshold value.

In a further development of the invention, the control circuit 4 can also be assigned a receiving and transmitting unit 21, which has a further distance detector and detects the distance from following third-party vehicles traveling in the same direction and, if the value falls below a predetermined minimum distance value, immediately shuts off any switch on High beam of the third vehicle controls. For this purpose, the third vehicle also has a corresponding transmitting and receiving unit 21, the receiving part of which responds to the signal emitted by the transmitting part of the vehicle's own transmitting and receiving device 21 and independently controls a control of the high beam or headlight range of the headlight of the third vehicle. In this way, glare to the driver due to vehicles following on the rear can be prevented, which further improves safety in traffic.

Claims

claims

1. A method for controlling the headlight range of a vehicle headlight (3), thereby g e k e n n e i c h n e t that

- Depending on the vehicle's own speed, the headlight range is increased at high speed values and reduced at low speed values, and

- The control of the light range of the vehicle headlight (3) in addition depending on at least one other

Environmental parameters (distance and / or backlight (11) of a third-party vehicle and / or ambient light (15)) is carried out.

2. The method according to claim 1, characterized in that the lighting range is controlled as a function of the further environmental parameter in such a way that the distance of a third-party vehicle traveling in the same direction is detected by means of a distance sensor, and the lighting range is automatically reduced after falling below a predetermined minimum distance value.

3. The method according to claim 1 or 2, characterized in that the control of the lighting range of the vehicle (19) in dependence on the further environmental parameter takes place in such a way that the backlight (11) of an oncoming third-party vehicle is detected by means of a backlight sensor (8), and the Headlight range is automatically reduced after detection of a backlight signal.

4. The method according to any one of claims 1 to 3, characterized in that the control of the lighting range of the vehicle (19) is carried out in dependence on the further environmental parameter such that the ambient light (15) by means of an ambient light sensor (12) is detected, and the lighting range is controlled when the temperature falls below a predetermined threshold value (15) in the sense of an automatic switching on or off of the vehicle light.

5. The method according to any one of claims 1 to 4, characterized in that the reduction in the lighting range also includes an immediate shutdown of the main beam.

6. The method according to claim 3, 4 or 5, characterized in that the backlight (11) is registered by means of the backlight sensor (8) in the driver's viewing angle.

7. The method according to any one of claims 1 to 6, characterized in that the control of the headlight range takes place continuously as a function of the vehicle's own speed.

8. The method according to any one of claims 1 to 7, characterized in that the control of the light range as a function of the vehicle inclination is automatically corrected by means of an inclination sensor provided in the vehicle (19).

9. Device for controlling the headlight range of a vehicle headlight (3), characterized in that a control circuit (4) acting on the light adjustment of the vehicle headlight (3), which increases the headlight range at high speed values and decreases at low speed values depending on the vehicle's own speed, and A sensor device coupled to the control circuit (4) is provided, by means of which at least one further environmental parameter (distance and / or backlight (11) of a third-party vehicle and / or environment exercise light (15)) and processed by the control circuit (4) to control the light range.

10. The device according to claim 9, characterized in that the sensor device has a distance sensor (7) for detecting the distance of a third-party vehicle traveling in the same direction, and the control circuit (4) so the headlight range of the vehicle headlight (3) depending on the distance applies that the lighting range is automatically reduced after falling below a predetermined minimum distance value.

11. The device according to claim 9 or 10, characterized in that the sensor device has a backlight sensor (8) for detecting the backlight (11) of an oncoming third-party vehicle, and the control circuit (4) the light range of the vehicle headlight (3) depending on Controls the backlight (11) of the third vehicle in such a way that the headlight range is automatically reduced after a backlight signal is detected.

12. Device according to one of claims 9 to 11, characterized in that the sensor device has an ambient light sensor (12), and the control circuit (4) the light range of the

Vehicle headlight (3) regulates in dependence on the ambient light (15) in such a way that the headlight range is controlled when the ambient light (15) falls below a predetermined threshold in the sense of an automatic switching on or off of the vehicle light.

13. Device according to one of claims 9 to 12, characterized in that the reduction in the light range also includes an immediate shutdown of the high beam.

14. The device according to claim 13, characterized in that the backlight sensor (8) is arranged at the height of the driver.

15. The device according to one of claims 9 to 14, characterized in that the control of the headlight range is carried out continuously as a function of the vehicle's own speed.