DE4439556A1 - Dynamic control of motor vehicle headlamp beam-width - Google Patents

Abstract

The dynamic control of the beam width of a car headlamp has a sensor(2) to ascertain the distance of a vehicle in front, travelling in the same or opposite directions, working on the transmitter/receiver principle. This distance is used as a control variable for adjusting the headlamp without the need for an imaging screen within a certain range of the initial adjustment. The speed and acceleration or deceleration of the vehicle in front are also determined. Further sensors measure other relevant vehicle parameters and which can be used as disturbance variables for the control signal. The unit producing this signal is linked by a serial data bus(7) to other control systems i.e. electronic accelerator pedal, braking unit and engine management (8 to 10).

Description

The present invention relates to a dynamic Headlight range adjustment, especially with headlight equipped with a gas discharge lamp Motor vehicle, which with a Measured value determination device and at least one Evaluation device is equipped, which of the Measured value determination device fed measured values in Control signals for controlling headlight actuators converts.

To increase road safety is legal required that new registrants nowadays Motor vehicles are equipped so that the light range of the Headlights adapted to the current condition of the vehicle so that other road users, especially the oncoming and driving ahead not be blinded. This adjusted setting of the Headlight range is necessary because the Headlight range depending on the load or through change relatively strong acceleration or deceleration. The resulting movements are in the Vehicle technology as pitch, roll and lift vibrations designated.

To the changing light range depending on the To be able to adjust the load, the vehicles with a mechanical headlamp leveling equipped. in the A setpoint device is installed for this purpose in the valve area attitude based on an estimated burden in allows several, for example in four stages. The Actuators are electrical or pneumatic actuators or hydraulic pressure control elements.  

The setting is made by the driver who is relatively unsafe because it is naturally common will be forgotten. This mechanical adjustment of the Headlight range does not allow regulation, since only the Angle of inclination of the light beam relative to the motor vehicle is set. The changing distances remain the headlight from the road as a result of a load or a strong acceleration or a strong one Braking not taken into account. Because of the angular relationship For example, the lighting range is increased by 10 m if the distance between the headlights and the road is 10 cm increase.

The newly registered vehicles are increasing equipped with headlights with gas discharge lamps are equipped. Because of the much higher light output compared to the most commonly used so far However, halogen headlights are an optimal adjustment of the Headlights or the headlight reflectors for the Road safety extremely important.

It is therefore to adjust the inclination of the Low beam within a tolerance range been proposed in the front and rear areas of the Vehicle at the bottom one Install the measuring device that from Ultrasonic sensors is formed and the distances to Determine road surface (automotive engineering magazine 95/1993 / pages 466 to 469). The measured values are in a Evaluation device fed in and after appropriate implementation as control signals for the control of stepper motors Trained actuators used to turn the headlights on adjust.

DE 38 27 149 is a headlight for motorcycles known in which the headlight setting at Cornering is corrected by a Measured value determination device is installed, which also  responsive to the road surface. The Measured value determination device is as Vehicle tilt sensor device formed, making it it is possible to decrease the incline during cornering determine. A regulation of the light range is also with this System not possible.

An adjusting device is known from WO 83/01231, in the side of the in a headlight housing A reflector for focusing the light rays is arranged. There are several behind the lens Photodiodes installed one above the other. Depending on the inclination of the The light beam falls on one of the photodiodes. Using a control system designed accordingly, the Adjustment of the headlight controlled by an actuator. With this facility is a regulation of Headlight range is possible, but the measuring distance and the The pitch angle of the photodiodes is extremely small, so that the Setting is also extremely imprecise. Furthermore, this includes accordingly designed headlight housing necessary to to install the lens and photodiodes.

Finally, from DE 33 25 713 Distance control system for motor vehicles known at the distance to the vehicle in front by a Radar system is determined. When exceeding one the vehicle is at a predetermined safety distance accelerates, the vehicle becomes moderate when falling short braked so that the driver realizes that he is in a Danger zone is located and intensify the braking process can. This distance control system is used for compliance a minimum distance to avoid rear-end collisions or Avoid mass collisions. A regulation of Headlight range is not addressed there either.

Based on dynamic headlamp leveling according to the article in the automotive magazine the invention has for its object a headlamp leveling  of the type explained in more detail in a structurally simple manner and cost-effective way to create one manual setting of a setpoint generator can be dispensed with and what the driver of a vehicle in front or oncoming vehicle despite optimal illumination the lane within the legally permitted minimum and maximum lighting range for the following or oncoming driver is not dazzled.

The task is solved by the Measured value determination device at least one after the Transmitter / receiver principle working range sensor for Determination of the distance of a possibly preceding or has oncoming vehicle, so that the determined Distance as a parameter for glare-free adjustment of the Headlight range within a basic setting containing area is usable.

For the respective adjustment of the lighting range is now by contactless measurement of the distance between two Vehicles used as a parameter. In comparison to conventional headlamp leveling (compensation of Nodding vibrations of the vehicle, with the aim of To regulate the light range so that the light beam after 10 m 10 cm from the horizontal is lowered) furthermore the distance between the vehicle in front and the oncoming vehicle Vehicle used to adjust the headlight range. If the range sensor is not a preceding or the oncoming vehicle is recognized, the headlight range is opened the basic setting is set. The headlamp leveling can be designed so that pitch, roll or Stroke vibrations are compensated.

In a further embodiment it is provided that Range sensor additionally the speed of a preceding or oncoming vehicle and if necessary whose acceleration is determined. This allows the Setting takes into account the changing conditions  be so that an over-regulation is avoided, which too would cause a "flutter" of the light.

So that roll, pitch and / or stroke vibrations are compensated are, it is provided that by means of further sensors Vehicle-related measured values determined and into the evaluation device be fed. For passenger cars and Trucks can then determine and roll when adjusting the headlight range, for a left and a right headlight separately, are taken into account. In trucks, sensors can also be installed on the axles to determine the deflection of the structure. By these additional sensors will be setting the Headlight range further improved.

So that the determination of the distance can be used optimally can, it is also provided that the evaluation device by a assigned serial data bus with other control systems the vehicle is capable of communication. This will make the Optimized headlight range setting. In addition, you can further security measures can be derived from this. So it is conceivable, for example, that the evaluation device with the so-called electronic accelerator pedal, the brake system or the engine regulation becomes communicative.

The invention is illustrated in the figure Block diagram still explained.

In Fig. 1 the rear ( 1 ) of a vehicle in front is shown. The following vehicle, not shown, is equipped in the front area with headlamp leveling. The measured value determination device contains a range sensor ( 2 ), for example in the form of a radar or infrared sensor, for determining the distance between the two vehicles. The range sensor ( 2 ), which in the present exemplary embodiment provides, for example, the range in formation as an indication of the transit time of the emitted electromagnetic waves until they return, is conductively connected to a range determination device ( 3 ) that uses this range in formation to indicate a range in Meters distance to the preceding or oncoming vehicle.

This range is made available to various control devices and control systems of the motor vehicle via a preferably serial data bus ( 7 ), which can be designed as a CAN bus or as an A bus. These various control systems can be a so-called electronic accelerator pedal ( 8 ), which regulates the vehicle speed and vehicle acceleration on the basis of the determined distance from the vehicle in front and, above that, the distance to the vehicle in front.

The systems connected to the serial data bus ( 7 ) can also be a traction control system or an electronic braking system ( 9 ) of the motor vehicle, which, depending on the measured distance from the preceding or oncoming vehicle, reduces the engine power or automatically applies the brakes.

For the same reason, a system connected to the serial data bus can also be an engine control ( 10 ) of the motor vehicle, by means of which the engine output is reduced in the event of a risk of collision with a preceding or oncoming vehicle.

Furthermore, a headlamp range calculation device ( 4 ) is connected to the range determination device ( 3 ) via the serial data bus ( 7 ), so that the headlamp range calculation device ( 4 ) also receives the range signal measured by the range sensor ( 2 ) and processed by the range determination device ( 3 ). The headlight range calculation device ( 4 ) calculates a desired headlight range on the basis of the measured distance of the vehicle from a preceding or oncoming motor vehicle and forms a corresponding output signal which is fed to at least one, usually two headlight range adjusters ( 5 ) of the motor vehicle. The headlamp leveling device ( 5 ) is mechanically connected via a mechanical connection to a headlamp ( 6 ) or its headlamp reflector in such a way that the headlamp ( 6 ) or its headlamp reflector can be pivoted by the headlamp leveling device ( 5 ) and thus the exit angle of the light beam can be changed from the headlight ( 6 ) relative to the motor vehicle body.

The calculation of the desired headlight range by means of the headlight range calculation device ( 4 ) can also include the signals from sensors which measure the distance of the vehicle body from the road at different points and, based on known principles, the various pitch, roll and roll movements of the vehicle body relative to the street and can be taken into account when specifying the desired lighting range. The adjustment of the headlight range is carried out according to the invention in such a way that, in the absence of a preceding or oncoming motor vehicle, it is regulated to a value permissible within the regulations of the Road Traffic Regulations or StVZO of the Federal Republic of Germany in such a way that the road is illuminated as far in advance as possible in front of the motor vehicle.

However, as soon as a preceding or oncoming motor vehicle is detected by the range sensor ( 2 ) and its distance from one's own motor vehicle has been determined by the range determination device ( 3 ), the headlight range is set by the headlight range calculation device ( 4 ) in such a way that neither the driver of the oncoming vehicle after Driver of the preceding motor vehicle is blinded. This setting also takes place within the limits prescribed by law, but the headlight range is adjusted such that the apron in front of one's own motor vehicle is illuminated at a smaller distance than before.

This adjustment of the light range, depending on the The measured distance can slide depending on Measured distance changes take place, so that also relative Vehicle speed changes and relative Changes in vehicle acceleration recorded early to an undesired incorrect regulation of the light range to avoid. The information previously explained about pitch, roll and roll vibrations of your own Motor vehicle can in the specification of the desired Headlight range.

There is also the possibility that the Headlamp leveling in the form of an interface to others Systems, for example chassis control, supplementary can be inserted.

Reference list

1 stern
2 range sensor
3 range determination device
4 Headlamp range calculation device
5 headlamp levelers
6 headlights
7 data bus
8 electronic accelerator pedal
9 braking system
10 engine control

Claims (4)

1. Dynamic headlamp leveling of the headlights, in particular of the headlights of a motor vehicle equipped with a gas discharge lamp, which is equipped with a measured value determining device and at least one evaluation device which converts the measured values fed in by the measured value determining device into control signals for controlling headlight actuating drives, characterized in that the measured value determining device at least has a range sensor ( 2 ) working according to the transmitter / receiver principle for determining the distance of a vehicle that may be driving ahead or oncoming, so that the determined distance can be used as a measurement variable for glare-free adjustment of the light range within a range that includes a basic setting. 2. Dynamic headlamp leveling according to claim 1, characterized in that by means of the range sensor ( 2 ) for determining the distance to the preceding or oncoming vehicle its speed and possibly the acceleration or deceleration are determined. 3. Dynamic headlamp leveling according to claim 1, characterized characterized in that by means of further sensors vehicle-related measured values determined and in the Evaluation device are fed, and that this as Measured values measured by the signal conditioning instrument control signals output. 4. Dynamic headlamp leveling according to one or more of the preceding claims 1 to 3, characterized in that the evaluation device is capable of communication with an additional serial data bus ( 7 ) with further control systems ( 8-10 ).