DE19822149C2 - Device for controlling and / or regulating the light range of a headlight of a motor vehicle - Google Patents

Description

The invention relates to a device for control and / or regulation of the light range of a headlight Motor vehicle, with a light source for generating Light for irradiating those in front of the motor vehicle Roadway, with an adjustment device for adjusting the Beam range of the generated light, with a Transmitting device for emitting a light beam onto the roadway lying in front of the motor vehicle, with a Measuring device for detecting that of the transmitting device broadcast and reflected from the road Rays of light, and with an evaluation device with the adjusting device and the measuring device coupled is, and which the adjusting device depending on affects the detected light rays.

Such a device is from the German Publication DE 43 41 409 A1 known. There is a Headlights for a motor vehicle described by means of a light bulb an area on the road ahead  Motor vehicle illuminates. With the help of a control device the headlight range is affected in such a way that even when the inclination of the motor vehicle changes Headlight range remains approximately constant. A transmitter shines to it for example visible light coming off in a particular Distance in front of the motor vehicle occurs on the road. A sensor is provided to detect the light that radiated by the transmitter and from the road to the sensor is reflected back. For example, from the angle with the light reflected from the road onto the sensor strikes, it can be determined whether this is from the transmitter emitted light at a desired distance before Motor vehicle hits the road. This one wanted Distance corresponds to the desired light range of the Headlights. Does not correspond to the actual distance the desired distance, this is from the Control device recognized. Then the headlight so adjusted in inclination until the actual distance and the desired distance approximately correspond to each other. The headlight thus creates the desired light range.

In the German patent application DE 43 41 409 A1 as a transmitter completely from the headlight bulb independent light source provided. For example, the Transmitter of a light guide element, in particular one Fiber optic cable formed from which the light to be emitted exit.

From the German patent application DE 195 30 008 A1 a lighting device known in which Beam path of light arranged a deflection device which is a multitude of individual reflective elements having. The elements can be independent of each other  be moved back and forth between two positions. In the a position of the elements will be on the elements incident light is reflected in such a way that it Illumination of the roadway in front of the motor vehicle contributes. In its other position, however, carries from light reflected from the elements does not illuminate the Lane at. In this way it is possible to Characteristic of the light emerging from the headlight to change. In particular, in German Disclosure period DE 195 30 008 A1 as described by a corresponding switching of the elements between the Low beam and the high beam of the headlights back and forth can be switched down.

The object of the invention is a device for Control and / or regulation of the light range of a Headlights of a motor vehicle of the type mentioned Kind with a view to reducing the required To improve components.

This task is the beginning of a device mentioned type in that the transmitting device a A plurality of deflecting elements which can be moved independently of one another has that in the beam path of the light source generated light are arranged.

In contrast to the prior art, the device according to the invention no separate transmitter required. So there is no need for an additional transmitter be provided with a beam of light on the front of the Motor vehicle lying roadway is sent out.

Instead, the one already in the headlight is Sufficient light source to generate this light beam. The light generated by the light source hits it  Purpose on the deflection elements. With the help of this Deflection elements, the light is influenced such that a A beam of light is created that is generated by the transmitter The light beam corresponds to the state of the art.

According to the invention, the transmission device is thereby realizes that the light generated by the light source by means of the deflection elements in the desired manner being affected.

It is therefore only the deflection elements mentioned required to the transmission device according to the invention form. An additional light source or the like is not in the transmission device according to the invention required. This represents a significant simplification the structural design of the invention Headlights. In particular, this is the Component effort for the production of the invention Headlights significantly reduced.

This component effort can also be further reduced if the deflection elements are not only within the scope of the Transmitter used to generate a light beam be, but if the deflection elements in addition to general influence of what is generated by the headlight Light can be used. So it is possible with help of the deflecting elements the characteristic of the Headlights emerging light, for example in the sense an asymmetrical low beam or the like influence. If this is the case, then the additional one Use of the deflection elements in the context of Transmitting device without any additional Realize component costs.

In an advantageous development of the invention  the deflection elements individually from the evaluation device controllable. This makes it possible for the deflecting elements are specifically controlled by the evaluation device can, if this is necessary, especially if a Control and / or regulation of the light range of the Headlights to be performed. So it's not required, the deflecting elements continuously To assign sending facility, but instead it is possible, the deflection elements for other measures to be used, for example for the general Influencing the light generated by the light source. Should then a control and / or regulation of the light range of the Headlights are performed, for example in predetermined time intervals or if there is one certain boundary conditions may be the case, controls the evaluation device on the deflection elements in such a way that the deflection elements work as a transmitting device and the desired light beam on the front of the motor vehicle Send out the lying lane.

It is particularly advantageous if each of the deflection elements is provided with a mirror. That way it is possible, that generated by the light source of the headlight Light through the deflection elements in the desired directions forward. The deflection elements can in the simplest case assume two end positions in which the reflected light emitted in different directions becomes. It is also possible that the deflecting elements additionally in a variety of intermediate positions can be adjusted so that the reflected Light beam emitted in almost any direction can be.

In an advantageous development of the invention  the deflection elements are part of a so-called Digital mirror device. Such a digital mirror device consists of a large number of deflection elements that are flat are arranged. All deflection elements are independent movable and controllable from each other. Such a thing Digital mirror device is used, for example, to measure the characteristics of the light generated by the light source of the headlamp change. For this purpose, the individual Deflection elements of the digital mirror device in this way controlled that the desired characteristic arises. For those intended for the transmitter Deflection elements can either be a part of the total deflection elements available or in extreme cases even deal with all deflection elements. This, as Transmitting elements acting deflection elements - like described - controlled by the evaluation device. In addition, it is possible that these deflection elements - such also described - used for other functions become.

In an advantageous embodiment of the invention gives way the measuring device a plurality of photosensitive Surface elements on the detected light beam are exposed. Strikes the light on one of the Surface elements on, this has the consequence that the electrical state of the surface element changes. In Dependency on such changes can then be recognized be, if and how and where of the Road reflected light beam from the measuring device is detected. Based on this information, you can then the headlight range controlled and / or be managed.  

In an advantageous development of the invention the surface elements individually with the evaluation device coupled. This makes it possible for the Evaluation device can be recognized in which of the surface elements due to the electrical condition changed or not by incident light. In Depending on this, the evaluation device can determine whether and where where that reflected from the road Light beam strikes the measuring device. As before mentioned, this can be used to change the lighting range to control and / or regulate the headlight.

It is particularly advantageous if each of the Surface elements has a photodiode or the like. Such photodiodes are special inexpensive light-sensitive surface elements that too due to their small size are suitable in the Measuring device to be used.

In an advantageous development, the Surface elements are part of a so-called batch Coupled device. With such a Charge Coupled Device are ultimately capacitors that are under the Exposure to light can be charged. This represents one electrical change of the respective capacitor, which can be represented in the form of an electrical signal. At a Charge Coupled Device are a variety of such Capacitors arranged flat. So the light falls for example only on a certain part of the Measuring device, so only those arranged there Charge Coupled Device capacitors electrical States changed. By evaluating the individual It is electrical signals associated with capacitors thus possible for the evaluation device, an exact one  To generate an image of those capacitors whose electrical state has changed. This image corresponds exactly to that part of the measuring device that the light falls on.

It is particularly expedient if the deflection elements are added are provided, a low beam and a high beam produce. As already mentioned, it is possible the deflection elements not only in the sense of the transmitter to use, but also for other functions. As additional functions are the low beam and that High beam is particularly important. Another advantage results resulting from the switch between the low beam and the high beam by means of the deflection elements in particular can be done easily and quickly. Additional components are not required, so that a Reduction of component costs is achieved.

Other features, applications and advantages of the Invention result from the following description of embodiments of the invention shown in the figures the drawing are shown. Thereby everyone described or illustrated features for themselves or in any combination the subject of the invention, regardless of their summary in the Patent claims or their relationship and independently from their formulation or representation in the description or in the drawing.

Fig. 1 shows a schematic block diagram of an embodiment of an inventive device for controlling and / or regulation of the headlight range of a headlight of a motor vehicle,

FIG. 2 shows a schematic illustration of a measuring screen onto which the light generated by the device according to the invention of FIG. 1 impinges.

In FIG. 1, a headlamp 1 is shown, which is intended for installation in a motor vehicle. In the headlight 1 , a reflector 2 is housed, in which a light source 3 is inserted. The light source 3 can be, for example, an incandescent lamp, a gas discharge lamp or the like. The reflector 2 and the light source 3 are firmly connected to the headlight 1 .

A so-called digital mirror device (DMD) 4 is accommodated in the headlight 1 . The DMD 4 has a large number of deflection elements. These deflection elements are mirrors which are arranged on a flat surface. With the help of micromechanical methods, it is possible to make the individual deflection elements very small. Each of the deflection elements can be moved individually. In particular, the deflection elements can be pivoted about axes parallel to one another. Appropriate micromechanical measures can be used to electrically control each of the deflection elements. This control can be carried out individually for each deflection element. Overall, the deflection elements of the DMD 4 can thus be controlled and moved independently of one another.

The DMD 4 is arranged in the beam path of the light generated by the headlight 1 in such a way that the light from the light source 3 , which may have previously been reflected by the reflector 2 , strikes the deflection elements. The consequence of this is that the incident light is reflected by the mirrors of the deflecting elements. The DMD 4 or the deflection elements are arranged such that the reflected light emerges from the headlight 1 .

The DMD 4 can be provided to generate a low beam and a high beam. For this purpose it is possible that the deflecting elements of the DMD 4 can assume two end positions. For example, it is possible that in the one end position of the deflection elements, the light reflected by the DMD 4 makes no contribution to the light emerging from the headlight 1 . This end position could then be assigned to the low beam in which only the region of the roadway lying directly in front of the motor vehicle is illuminated by the light source 3 . In the other end position of the deflection elements, the light could be reflected by the DMD 4 in such a way that it makes a contribution to the light emerging from the headlight 1 . In this case, it could be the high beam, in which the light reflected by the DMD 4 is directed into the far area in front of the motor vehicle.

Irrespective of the use of the DMD 4 mentioned in connection with the low beam and the high beam, either all the deflection elements of the DMD 4 or a plurality of the deflection elements or, in extreme cases, a single deflection element are provided to serve as the transmitting device. For this purpose, the DMD 4 reflects the light impinging on the mirror of the deflection elements from the light source 3 in such a way that a light beam 5 is generated. This light beam 5 is oriented in such a way that it strikes the road at a certain desired distance in front of the motor vehicle. This point of impact is identified in FIGS . 1 and 2 with the reference number 6 .

In FIG. 2, a measuring screen 7 is shown on which the light produced by the spotlight impinges. The measuring screen 7 is provided with a vertical center plane VV and a horizontal center plane HH. Furthermore, a road projection 8 is shown on the measuring screen 7 , which should represent the road ahead of the motor vehicle.

The area in which the light emerging from the headlight 1 strikes the measuring screen 7 is shown hatched in FIG. 2 and identified by the reference number 9 . The area 9 shown represents the low beam of the headlight 1. With this low beam, a light / dark boundary 10 is provided, which in some cases runs approximately parallel to the horizontal central plane HH and then extends asymmetrically beyond this horizontal central plane HH.

As can be seen from FIG. 2, the point of incidence 6 of the light beam 5 is arranged in front of the motor vehicle in the region of the carriageway, specifically in advance in front of the motor vehicle.

A so-called charge coupled device (CCD) 11 is accommodated in the headlight 1 . The CCD 11 has a plurality of photosensitive surface elements which are arranged in one plane. Each of the surface elements is provided, for example, with a capacitor or a photodiode or the like. If light strikes one of the surface elements, the electrical state of the surface element changes. If, for example, the surface element is provided with a photodiode, the incidence of the light has the result that a diode current flows in the surface elements. This diode current represents an electrical signal that represents the change in the electrical state of the surface element.

The CCD 11 is arranged such that the light of the light beam 5 reflected by the impact point 6 strikes the CCD 11 . The reflected light beam from the point of incidence 6 to the CCD 11 is identified in FIG. 1 by the reference number 12 .

Depending on the inclination of the headlight 1 , the light beam 5 strikes the roadway at a further or closer distance in front of the motor vehicle. The distance of the point of impact 6 in front of the motor vehicle thus changes depending on the inclination of the headlight 1 .

The course of the reflected light beam 12 also changes accordingly. The result of this is that the light beam 12 strikes the CCD 11 in different areas depending on the inclination of the headlight 1 . The result of this is that, depending on the inclination of the headlight 1, different surface elements are acted upon by the reflected light beam 12 . The CCD 11 thus represents a measuring device with which it can be determined where the light beam 12 impinges on the CCD 11 .

The large number of surface elements of the CCD 11 are coupled to an evaluation device 13 . This evaluation device 13 can be, for example, a microprocessor or the like. The electrical signals generated by the individual surface elements are recognized and processed by the evaluation device 13 . For this purpose, the evaluation device 13 has, for example, a memory in which at least one memory element is assigned to each of the surface elements.

If the reflected light beam 12 strikes the CCD 11 in an upper region, for example, the result is that the content of the associated storage elements differs from the content of the other storage elements. From this, the evaluation device 13 can determine this area of incidence of the light beam 12 on the CCD 11 . However, if the light beam 12 strikes the CCD 11 in the lower region, the contents of the storage elements there differ from the other storage elements. Again, the evaluation device 13 can determine from there where the area of incidence of the light beam 12 is arranged on the CCD 11 .

By means of corresponding previous setting and / or initialization measures, it is possible to determine an inclination of the headlamp 1 at which the light generated by the headlamp 1 has a desired lighting range. With this desired light range, the reflected light beam 12 strikes the CCD 11 in a specific area. This area can be stored by the evaluation device 13 as a setpoint.

If, in a later operation of the headlight 1, the area of incidence of the light beam 12 on the CCD 11 deviates from this target value, this means that the light generated by the headlight 1 does not have the desired beam range. This is recognized by the evaluation device 13 . As a countermeasure, it is then possible to adjust the inclination of the headlight 1 . For this purpose, the headlight 1 is arranged to be pivotable about an approximately horizontal axis and its inclination can be adjusted with the aid of an adjusting device. The inclination of the adjustment device is adjustable. The adjustment device is coupled to the evaluation device 13 , which is indicated by the arrow 14 in FIG. 1. To adjust the inclination of the headlamp 1 , the evaluation device 13 controls the adjusting device in such a way that the inclination of the headlamp 1 adjusts.

In this way it is possible to adjust the light range of the headlight 1 to the desired setpoint. The DMD 4 acting as a transmitting device, the CCD 11 acting as a measuring device and the evaluation device 13 either form a control circuit or a control circuit for controlling and / or regulating the light range of the headlight 1 .

If the DMD 4 serves not only to generate the light beam 5 , but also, as explained at the beginning, for example, to produce the low beam and the high beam, it is possible for the evaluation device 13 to be coupled to the DMD 4 . If the DMD 4 is used as a transmitting device, the evaluation device 13 controls the DMD 4 accordingly. The deflection elements of the DMD 4 provided for the generation of the light beam 5 are then influenced by the evaluation device 13 in such a way that the light beam 5 is produced. It is thus possible for the entire method for controlling and / or regulating the light range of the headlight 1 to be carried out by the DMD 4 as an additional function. Furthermore, it is thus possible for the evaluation device 13 to actively start the method mentioned and, accordingly, to end it again.

Claims (8)

1. Device for controlling and / or regulating the light range of a headlight ( 1 ) of a motor vehicle, with a light source ( 3 ) for generating light for irradiating the road ahead of the motor vehicle, with an adjusting device for adjusting the light range of the headlight ( 1 ) , with a transmitting device for emitting a light beam onto the road ahead of the motor vehicle, with a measuring device for detecting the light beams ( 12 ) emitted by the transmitting device and reflected from the driving lane, and with an evaluation device ( 13 ) connected to the adjusting device and the Measuring device is coupled, and which influences the adjusting device as a function of the detected light beams ( 12 ), characterized in that the transmitting device has a plurality of deflection devices which can be moved independently of one another and are arranged in the beam path of the light generated by the light source ( 3 ). 2. Device according to claim 1, characterized in that the deflection devices can be controlled individually by the evaluation device ( 13 ). 3. Device according to one of claims 1 or 2, characterized  characterized in that each of the deflection devices with is provided with a mirror. 4. Device according to one of claims 1 to 3, characterized in that the deflection devices are part of a so-called digital mirror device ( 4 ). 5. Device according to one of claims 1 to 4, characterized in that the measuring device has a plurality of optically sensitive surface elements which are exposed to the detected light beam ( 12 ). 6. The device according to claim 5, characterized in that the surface elements are individually coupled to the evaluation device ( 13 ). 7. Device according to one of claims 5 or 6, characterized characterized in that each of the surface elements a Has photodiode or the like. 8. Device according to one of claims 5 to 7, characterized in that the surface elements are part of a so-called charge coupled device ( 11 ).