DE19941308A1 - Circuit for automatic switch-off of vehicle's manually switched-on flashing light, deactivates flashing lights depending on sensor-detected steering movements in a given direction - Google Patents

Abstract

Automatic cancellation/deactivation of a vehicle flashing light at the correct point in time has several diverse advantages, particularly at the completion of cornering, and the automatic deactivation circuit is supplied with sensor values concerning the instantaneous vehicle speed, and deactivation of the flashing light (3;4) follows according to steering movement, speed-dependent variable magnitudes.

Description

The invention relates to a circuit arrangement with the in the preamble of claim 1 specified features. Circuits of this type for deactivation Four of a vehicle's turn signal lights are an example example from DE 195 08 426 C2 or from EP 0 203 396 A2 knows. Compared to older devices where flashing lights are automatically switched off mechanically given various advantages here. Activated turn signals will be at the end of a cornering by evaluation is detected by steering angle sensor signals, switched off. The desired deactivation steering angle can be via Software can be specified so that the system is flexible is to be adapted to changing requirements. In the opposite No mechanical wear occurs. The disadvantage, however, is that deactivating on did not switch flashing lights in all traffic situations done at the right time.

It is an object of the invention to provide a circuit for Deactivating turn signals to create the acti fourth flashing lights in an improved way to traffic safety switches off the correct time depending on the situation. It should be necessary in as few traffic situations as possible, deactivate the flashing lights by hand.  

To solve this task, he excels Circuit according to the invention by the in claim 1 specified characteristics. More details emerge themselves from the claims 2-7.

The circuit for deactivating the direction indicators In addition to steering angle signals, sensor values are also transmitted via the Vehicle speed forwarded and the flashing lights are ver depending on the speed different steering angle deactivated. In particular, be the flashing lights already increase with increasing speed deactivated at smaller steering angles. Starting from the Fact that at high speeds no extreme This makes sense if the curve radius can be driven. If the speed is low, the flashing will be activated light turned off, for example, when a steering strike a relatively large angle and correspond back steering was registered (example: turning at an intersection). Is the vehicle speed ever but it is not high (e.g. over 100 km / h) sensible, a turn signal only after 60 ° steering angle to deactivate. Deactivation can already take place here for example, 10 ° steering angle and back turn follow what the vehicle driver when changing lanes would relieve on the highway.

Speed-dependent switch-off steering angle values are stored in an electronic memory and then used in the turn signal deactivation. So the traffic situation is switched off Flashing lights at the right time.

In addition, it can be advantageous if the described circuit values of a timer and switching off the flashing lights additionally still delayed. It is also an advantage here if  the deceleration is variable depending on the speed, so that flashing lights after a variable time after performing a variable steering angle, who is deactivated the. At high speeds the flashing lights should turn on have a slightly longer "flashing time" than with ge wrestle speeds.

It is particularly advantageous if the Differentiate "flashing times" - depending on whether the Flashing lights on the right or left side of the vehicle are activated. In the case of right-hand traffic, the "Flashing time" on the right longer than on the left and vice versa for left-hand traffic. This makes sense because when arranging for exits, for example, a longer one Blinking is more useful than just changing lanes (at Right-hand traffic to the left).

The circuit requires very little on wall, since signals are preferably already in the vehicle whose sensors are used. Both a steering angle sensor as well as speed sensors and timers present in modern vehicles for other purposes. Even the circuit can be part of an existing one electronic control unit, to which the sensor values can be supplied via a vehicle bus.

Details of the invention emerge from the fol ing description of an embodiment. Of the associated drawings shows:

Figure 1 shows the structure of a circuit for Deactivating the turn signals in a schematic representation.

Fig. 2 is a characteristic curve from the speed-dependent deactivation Lenkwin angle can be read;

Fig. 3 curves from which speed-dependent deactivation after run times can be read.

The circuit structure is based on Fig 1 he explained. In the area of a steering wheel 1, a turn signal switch 2 is a vehicle, as known, arranged, which can be designed as a pushbutton. Flashing lights 3 on the right-hand side of the vehicle and flashing lights 4 on the left-hand side of the vehicle can be activated on it. This is done by a control unit 5 , the signals of the Blinklichtschal switch 2 are supplied. Furthermore, 5 signals from a steering angle sensor 6 are fed to the control device, which senses movements of the steering wheel 1 by angle α. In addition, the control unit 5 signals from a speed sensor 7 are fed so that the current speed V of the vehicle when the blinking lights 3 ; 4 can be used. Furthermore, time pulses of a timer 8 , which can also be part of the control unit 5, are transmitted to the control unit 5 . Characteristic curves are stored in a memory 9 of the control device 5 .

Now the blinking light is deactivated ter 3 ; 4 in the following way: After switching on the flashing lights 3 ; 4 of a side of the vehicle are monitored, the sensor values of the steering angle sensor. 6 From a characteristic curve 10 ( FIG. 2) in the memory 9 , a steering angle α belonging to the current driving speed V is read out. The angle α is approximately 45 ° at V = 40 km / h, for example. Flashing lights 3 ; 4 are deactivated when the steering wheel 1 is rotated by at least this angle α in the direction of the blinking vehicle side and back.

As can be seen from FIG. 2, the angle α decreases with increasing speed V. When driving at 100 km / h, flashing lights 3 ; 4 already deactivated after a steering angle α of approximately 17 °.

In addition, delay times T derived from characteristic curves 11 , 12 ( FIG. 3) can now be taken into account when deactivating. The delay times T are also variable depending on the speed - increasing with increasing speed V.

The timer value is read out or the timer 8 is started when the above-mentioned steering angle α has been completed, at which deactivation should actually take place. Deactivation is, however, delayed by the time T that can be read from the characteristic curves 11 , 12 . The characteristic curve 11 applies to a vehicle for right-hand traffic for the right turn signal lights 3 and the characteristic curve 12 for the left turn signal lights 4 . A delayed switch-off of the flashing lights 3 ; 4 takes place only at speeds V <50 km / h, the deceleration then being greater on the right than on the left. At speeds V from 120 km / h, the delay is 2 seconds on the right and 1 second on the left. The advantages mentioned at the outset can be achieved with very little effort. The exact characteristics 10-12 can be determined experimentally in detail and can differ from vehicle to country or from country to country.

Claims (7)

1. Circuit for automatically switching off a manually switchable flashing signal after completion of a cornering of a motor vehicle, the switching device being activated after receiving a switch-on command from a flashing signal generator ( 2 ), flashing lights ( 3 ; 4 ) on the right or left side of the vehicle and sensing them depending on the sensors Steering movements of a steering wheel ( 1 ) deactivated in a certain direction and size, characterized in that sensor values are supplied to the circuit via the current vehicle speed (V) and the turn signal lamps ( 3 ; 4 ) are deactivated after steering movements of variable size depending on the speed. 2. Circuit according to claim 1, characterized in that the deactivation of the flashing lights ( 3 ; 4 ) takes place with increasing speed (V) after steering movements of smaller size. 3. Circuit according to claim 1 or 2, characterized in that it comprises an electronic control ( 5 ) with memory ( 9 ), wherein in the memory ( 9 ) characteristics ( 10 ) are stored, from which speed-dependent deactivation steering angle ( α) can be read. 4. Circuit according to one of claims 1-3, characterized by an electronic timer ( 8 ), the deactivation of the flashing lights ( 3 ; 4 ) only after a speed-dependent variable time (T) after steering movements of a speed-dependent gig variable size. 5. A circuit according to claim 4, characterized in that it comprises an electronic controller (5) with SpeI cher (9) where in said memory (9) Kennli nien (11, 12) are stored, from which VELOCITY keitsabhängige deactivation times (T) are legible. 6. Circuit according to claim 4 or 5, characterized records that the deactivation time (T) at the same driving speed (V) depending on the steering direction is different. 7. Circuit according to one of claims 1-6, characterized in that the deactivation of the flashing lights ( 3 ; 4 ) in dependence on signals from the steering angle sensors ( 6 ), speed sensors ( 7 ) and / or timers present in the vehicle for other purposes ( 8 ) is done.