DE10328215B4 - System for automatically switching on and off a vehicle lighting device - Google Patents

Abstract

System for automatically switching on and off a vehicle lighting device
With at least one light sensor for detecting the light conditions outside the vehicle,
With a light control device for switching on and off the vehicle lighting device as a function of the light sensor signal,
With at least one rain sensor,
Wherein the light control device receives the rain sensor signal as an input variable and the switching on and off of the vehicle lighting device additionally takes place in a rain-dependent manner,
characterized in that
The light control device has a switching hysteresis with a switch-on threshold (S _IN ) and a different switch-off threshold (S _out ),
- Wherein on the switch-on (S _EIN ) a first rain intensity-dependent threshold (.DELTA.I _rain ) is aufaddierbar, and
Wherein a second rain intensity-dependent threshold value (ΔII _rain ) can be added to the switch-off threshold (S _Off ),
- Where the rain intensity-dependent threshold values (ΔI _rain , ΔII _rain ) have the same or different values.

Description

The invention relates to a system for automatically switching on and off a vehicle lighting device with at least one light sensor for detecting the light conditions outside the vehicle and with a light control device, which switches on and off according to the light sensor signal, the lighting device. Such a system is for example from the DE 196 30 216C2 known. Thus, the switching on and off of the lighting device not only in response to the external light conditions, but also to other environmental conditions, especially rain, can be adjusted in the DE 196 30 216C2 proposed that the wiper time interval signal of the windshield wiper motor be used as a criterion for switching on and off the lighting device with. The same is true in the DE 199 57 210 A1 proposed.

From the DE 101 56 241 A1 Although a vehicle with a light sensor and a rain sensor is already known. However, the light sensor causes only the switching on and off of the vehicle lighting device, while the rain sensor only causes the activation of the windshield wiper motor.

From the DE 100 00 913 A1 discloses a system for automatically switching on and off a vehicle lighting device with a light sensor for detecting the light conditions outside the vehicle. Herein is shown a light control device to which a signal of a rain sensor is supplied. It is mentioned that a switch-on threshold and a switch-off threshold can be raised or lowered depending on the intensity of the precipitation. Furthermore, a hysteresis function is described in the light control device, whereby it is achieved that the vehicle lighting device is not constantly switched on and off at a signal that fluctuates around the respective switch-on or switch-off threshold values. However, this has the disadvantage that only a rigid change of the respective threshold values is possible, so that the on and off behavior of the vehicle lighting device can not be optimally adapted to the weather conditions, influenced both by the light intensity and influenced by the intensity of the precipitation.

From the DE 101 28 995 A1 Another system for automatically switching on and off a vehicle lighting device is disclosed. Also shown herein is a circuit hysteresis such that a turn-on threshold and a turn-off threshold of the light control device to be distinguished from it are provided. However, a rain sensor dependent change of the thresholds is not shown herein.

There the wiping time interval signal only with a time delay of Rain situation follows, is the rain-dependent adjustment of the inputs and Turn off the lighting device accordingly slow. Furthermore is a rain dependent Adjustment relating to the interrogation of the wiping interval level, rather inaccurate, since the gradations of the wiping intervals only very roughly are and not a nuanced adaptation to all rain situations from light rain to very heavy rain. A actual consideration the rain dependent visibility However, in systems according to the state the technology does not take place.

task The invention is therefore a system for automatic on and Turning off a vehicle lighting device to create in improved way adapted to different rain situations can be.

This object is achieved in that the light control means has a hysteresis with a threshold (S _A) and one of them different switch-off threshold (S _OUT), wherein the threshold (S _A), a first rain intensity-dependent threshold value (.DELTA.I _rain) is aufaddierbar and wherein on the switch-off threshold (S _OFF ) a second rain intensity-dependent threshold value (ΔII _rain ) is aufaddierbar, wherein the rain intensity-dependent threshold values (.DELTA.I _rain , .DELTA.II _rain ) have the same or different values.

There a rain sensor actually rain intensity-dependent signal which is preferably proportional to the rainfall intensity it is possible under Using the rain sensor signal a much finer to the various rain situations adapted on and off cause the illumination device. In addition, the system according to the invention reacts much faster to changing Rain situations, since the rain sensor signal - in contrast to the wiping time interval - immediately changes with the rain situation.

Based the attached Drawings, the invention and advantageous embodiments will be explained in more detail. It shows:

1 a block diagram of the system according to the invention,

2 the switching state of the illumination device as a function of the light sensor signal, depending on the rain situation different switch-on threshold,

3 the switching state of the illumination device as a function of the light sensor signal, wherein a switching hysteresis exists,

4 the course of the light sensor signal with and without rain, wherein in the case of rain, a negative offset is added to the light sensor signal.

In 1 a block diagram of the system according to the invention is shown. The light sensor signal is supplied to the light control device, where a comparison of the light sensor signal is performed with an on / off threshold, wherein the vehicle lighting device is turned on or off in response to this comparison result. In this case, a single threshold (S ₀ ) is defined in the light control device (see 2 ), which is at the same time switch-on and switch-off threshold. If the light sensor signal falls below this threshold, the illumination device is automatically switched on. If the light sensor signal exceeds this threshold again, the lighting device is automatically switched off. Preferably, however, in the light control means comprises a switching hysteresis with a threshold (S _A) and a different switch-off thereof (S _out) is defined (see 3 ), since a switching hysteresis generates a more stable switching behavior in a known manner.

Besides a rain sensor is provided, which serves primarily to precipitate on the vehicle windshield. The rain sensor signal is fed to an evaluation circuit, wherein the output the evaluation circuit in turn the control of the wiper motor to operate the same controls. In the evaluation circuit, for example, a smoothing / filtering or a rainfall intensity calculation carried out become. The evaluation circuit can also be an integral part of the Be rain sensor.

In a first embodiment of the invention is (are) in the rain, the threshold (s) is increased by adding to the (the) threshold value (s) (S _0, S _A, S _From: values for the case with no rain) as a function of the rain sensor signal which is supplied to the light control device (see 1 ), An additional, rain-dependent threshold value (Δ _rain) is added, which is all the greater, the greater the rain sensor signal and thus the precipitate. Instead of the direct rain sensor signal, the light controller can also be supplied with the evaluated rain sensor signal (= output signal of the evaluation circuit) in order to effect a rain-dependent change of the threshold (s). As in 2 and 3 can be seen, the increase in the threshold (s) causes them to fall below even with comparatively higher light sensor signals, which would actually not lead to switching on the lighting device according to the prior art. In the presence of a switching hysteresis (see 3 ) ΔI _rain and ΔII _{rain may be the} same or different.

The switch-on then: light sensor signal <(S _A + .DELTA.I _rain). The switch-off condition is then: Light sensor signal> (S _Off + ΔII _Regen ).

In a second embodiment The invention will not be the threshold (s) in the Light control device changed, but the light sensor signal per se in response to the rain sensor signal changed by having a negative rain-dependent Offset and / or attenuation (gain <1) of the light sensor signal is effected. For this purpose, the light sensor becomes the rain sensor signal or supplied the evaluated rain sensor signal. In this case, the rain sensor signal for example about a potentiometer an offset change and / or a change the gain factor effect in the light sensor.

Of course it is also a combination of the two aforementioned embodiments conceivable.

The light sensor may be formed as a single optical sensor or as a combination of a front-light sensor and a global light sensor (see. DE 196 30 216 C2 ), wherein the global sensor has a wide detection cone, while the apron light sensor with a smaller detection cone looks primarily in the direction of travel.

there can be rain dependent threshold change and / or the rain dependent Offset or gain change the light sensor signal both the global light sensor signal and concern the apron light sensor signal. However, it is also planned this is the consideration according to the invention the rain intensity when switching on and off the lighting device only on the Threshold comparison of the global light sensor signal or the front light sensor signal or only to the offset / gain change one of the signals relates.

Claims (2)

System for automatically switching on and off a vehicle lighting device - with at least one light sensor for detecting the light conditions outside the vehicle, - with a light control device for switching on and off the vehicle lighting device in response to the light sensor signal, - with at least one rain sensor, - wherein the light control device as input the rain sensor signal is received and the is carried on and off of the vehicle lighting device additionally rain-dependent, characterized in that - the light control means has a hysteresis with a threshold (S _A) and one of them different switch-off threshold (S _out), - wherein the switch-on threshold (S _A), a first rain intensity-dependent threshold value (.DELTA.I _Regen ) is aufaddierbar, and - wherein on the switch-off threshold (S _Aus ), a second rain intensity-dependent threshold (.DELTA.II _rain ) can be added, - wherein the rain intensity-dependent threshold values (.DELTA.I _rain , .DELTA.II _rain ) have the same or different values. System according to claim 1, characterized in that the light sensor has a front-light sensor and a global light sensor which is rain dependent Switching the vehicle lighting device on and off in dependence from the signal of the global light sensor.