DE3937920A1 - DEVICE FOR AUTOMATICALLY CONTROLLING MOTOR VEHICLE WIPERS - Google Patents

Abstract

An automatic control device for motor vehicle windscreen wipers comprises a windscreen wiper motor (19) and a sensor (10) for detecting moisture on the windscreen. An electronic device has means (12-18, 21, 22) which switch on the windscreen wiper motor (19) for a given time-interval when a sensor signal is emitted and means (24) which suppress sensor signals emitted when the windscreen wiper motor (19) is moving. The evaluation of the sensor signals is therefore not affected by the actual wiping operation, and any variations in the wetting of the windscreen can be detected precisely by means of consecutive sensor signals. In addition, one sensor is sufficient for controlling a given wiping interval, and therefore signals for switching on the windscreen wiper motor are superfluous.

Description

State of the art
The invention relates to a device for the automatic control of motor vehicle wipers according to the preamble of the main claim.

A device known from DE-OS 33 14 770 is detected a possible wetting of the window to be wiped. The sensor signals become continuous Lich supplied to an electronic control device that Control signals for the wiper motor generated, if the sensor signals indicate wetting of the window. By painting over the surface of the window Wiper blades become the continuously recorded sensor signal heavily adulterated. In particular, with aged wiping scroll as well as streaks if the window surface is dirty arise, which in turn falsify the measurement result contribute. Due to this interference, the sensor signals are predominantly falsified, so that the evaluation the sensor signals overall is very difficult. The discs wiper itself can cause additional damage if the sensor is run over lead false signals.

Advantages of the invention

The inventive method with the characteristic In contrast, features of the main claim have the advantage  that the evaluation of the sensor signals is not by the actual Lichen wiping is affected by during the movement of the wiper motor no sensor signals can be used for control. Capturing the sensor Rather, signals occur after the wiping process is complete at a precisely defined time within the wipe intervals, so that any newly added moisture de Finished can be recorded. An impairment from the windshield wiper itself is excluded anyway. The successive sensor signals can therefore be a precisely detect any changes in the wetting of the window, without fear of interferences that are difficult to calculate are. Another advantage is that a sensor signal for controlling a definable wiping interval is sufficient so that unnecessary switch-on signals for the Windscreen wiper motor is not required. This leads to an increase the lifespan of the electronic components involved and the control disc of the control wiper motor.

By the measures listed in the subclaims are advantageous developments and improvements to device specified in the main claim possible.

The definable interval comprises at least one complete one Wiper movement. As a result, the switch-off signal on End of a wiper movement for easy control of the next measuring process.

The sensor is used to set the definable interval expediently with the control input of a timing element connected that during his holding period over a performance control element actuates the wiper motor. To do this the wiper motor with a known stop device for maintaining its operation during a complete wiper movement. A such known holding device is usually one  control disc coupled to the wiper motor. The holding time of the timer can be chosen to be short be that this timer just barely holds device triggers. This triggers the sensor signal only one wiper movement during the wiper movement runs itself in a known manner.

The means for suppressing the sensor signals point in in terms of circuit simplicity to the sensor output or another point in the tax connection between the Sensor and the wiper motor with one the sensor signal ineffective potential connecting switch on. This potential is expediently the mass potential tial, so that the sensor signal during the operation of the Wiper motor remains short-circuited. Hereby is an effective suppression of the sensor signals with very simple circuit means possible.

For safe suppression of the sensor signal during the Operation of the wiper motor is in particular Control input of the switch with the output signal of the Timing element and / or with the control signal of the holding device device can be acted upon, the switch when it occurs of such a signal closes. A particularly cheap one Solution is that the control input of the switch both signals are applied to one hand immediately after the start signal for the wiper motor one Suppression of further sensor signals to prevent this suppression is then during the second signal operation is maintained.

To the control signal of the holding device, i.e. the tax windshield wiper motor on the signal level Reducing the suppression electronics is one multiple executable signal level adjusting device is provided, which can be designed in particular as a Zener diode to the line carrying the control signal of the holding device connected.

drawing

An embodiment of the invention is in the drawing shown. The only figure shows the embodiment in the block diagram.

Description of the embodiment

In the embodiment shown in the single figure, for example, the output signal of a sensor 10 for detecting the wetness or wetting on a not shown window of a motor vehicle, for. B. the front or rear window, connected via a resistor 11 to the control input of a timer 12 designed as a monostable multivibrator. The only schematically shown sensor 10 can be, for example, the optical sensor arrangement with a downstream evaluation device according to the prior art specified at the beginning. However, it is also possible to use other known physical sensor principles for detecting moisture or moisture deposits on panes. For example, resistive, acoustic, capacitive or other suitable principles can be used for this.

The output of the timer 12 is connected to the base of a power transistor 15 via a resistor 13 and a diode 14 connected in series therewith. The emitter of this power transistor 15 is connected to ground and the collector gate via a relay winding 16 to the positive pole of a supply voltage Ub. This positive pole is also connected via a switching path 17 controllable by the relay winding 16 of a relay 18 to a windshield wiper motor 19 , the second connection of which is connected to ground. This windshield wiper motor 19 drives a windshield wiper 20 , as is symbolically represented by a dashed line. Of course, this can also involve several windshield wipers that are mechanically coupled to one another.

The wiper motor 19 drives a control disk 21 in a known manner, by means of which a control switch 22 is closed after the start of the rotary movement, remains closed during a complete wiping interval (a back and forth movement) and is then opened again. Such a control disk 21 is provided in almost all wiper motors 19 used today. The closed control switch 22 leads the wiper motor 19 to the supply voltage Ub, so that it works even with the relay 18 open during the wiping interval mentioned.

The control input of the timer 12 can be connected to ground via a diode 23 and a short-circuit switch 24 connected in series with it. The short-circuit switch 24 can be designed, for example, as a switching transistor. The output of the timing element 12 is connected via an OR gate 25 to the control input of the short-circuit switch 24 , a connection 26 of the wiper motor 19 which can be acted upon by the control disc 21 with the supply voltage being connected via a resistor 27 to a second input of the OR gate 25 connected is. This connection is connected to ground via a Z diode 28 .

Through the Z diode 28 and the resistor 27 , the supply voltage Ub is limited to the Z voltage of the Zener diode 28 , which is selected such that the supply voltage Ub is reduced to the required control voltage for the OR gate 25 .

If sensor 10 detects wetting of the window to be wiped as a result of precipitation, the sensor signal generated thereby triggers the timing element 12 . During its hold time of 100 ms, for example, an output-side control signal for the power transistor 15 is generated. Here by the relay 18 is actuated, and the wiper motor 19 begins to rotate. At the same time, the short-circuit switch 24 is closed by this output signal of the timer 12 , so that the following sensor signals of the sensor 10 are short-circuited and the timer 12 cannot trigger again. Shortly after the start of the rotary movement of the wiper motor 19 , the control switch 22 is closed by the control disc 21 , so that the wiper motor 19 continues its rotary movement, even if the relay 18 drops again after 100 ms. During a complete wiping movement, the short-circuit switch 24 is kept closed via the signal at the connection 26 .

After a complete wiping movement has elapsed, the control switch 22 opens again and a new start depends on whether a sensor signal from the sensor 10 is present again or is still present at this point in time. At this time, the short-circuit switch 24 is open again.

The holding time of the timer 12 is selected so that a safe start of the wiper motor 19 is ensured, that is to say that the time until the control switch 22 closes (approximately 20 ms) is safely bridged.

This arrangement ensures that sensor signals are always only detected in the end position of the windshield wiper 20, that is to say not during its movement, in order to prevent or hide falsified sensor signals through the wiper blade, through streaks or the like.

In a simpler embodiment, the connection line between the output of the timer 12 and the short-circuit switch 24 and the OR gate 25 can also fall ent. It is accepted that sensor signals can still be effective at the start of the movement of the wiper motor 19 .

If the hold time of the timer 12 is set so that it lasts longer than a wiping interval, then two or more wiping intervals can be detected by a sensor signal, that is, at least two complete wiping movements are carried out by a sensor signal until a new sensor signal is requested. If a timer with a variably adjustable hold time is used, the number of wiping intervals can also be set individually.

Claims (11)

1. Device for the automatic control of motor vehicle windshield wipers, with a windshield wiper motor and with a sensor for detecting moisture on a windshield to be wiped, wherein the windshield wiper motor is provided in dependence on the speed of the sensor signal electronic device, characterized in that the electronic device Means ( 12-18 , 21 , 22 ) for switching on the windshield wiper motor ( 19 ) for a definable interval when a sensor signal occurs and means ( 24 ) for suppressing sensor signals occurring during the movement of the windshield wiper motor ( 19 ). 2. Device according to claim 1, characterized in that the definable interval is at least a complete one Wiper movement includes. 3. Apparatus according to claim 2, characterized in that the sensor ( 10 ) is connected to the control input of a timing element ( 12 ) which actuates the wiper motor ( 19 ) via a power control element ( 15 , 18 ) during its holding time, the wiper motor ( 19 ) is provided with a known holding device ( 21 , 22 ) for maintaining its operation during a complete wiper movement. 4. The device according to claim 3, characterized in that the holding time is chosen so short that the timer ( 12 ) just safely triggers the holding device ( 21 , 22 ). 5. Apparatus according to claim 3 or 4, characterized in that the power control member ( 15 , 18 ) contains a power transistor and / or a relay. 6. Device according to one of the preceding claims, characterized in that the means for suppressing the sensor signals a the sensor output or another point of the control connection between the sensor ( 10 ) and the wiper motor ( 19 ) with a switch connecting the sensor signal ineffective potential ( 24 ) have. 7. The device according to claim 6, characterized in that this potential is the ground potential. 8. The device according to claim 6 or 7, characterized in that the control input of the switch ( 24 ) with the output signal from the timer ( 12 ) and / or with the control signal of the holding device ( 21 , 22 ) can be acted upon, the switch ( 24 ) closes when such a signal occurs. 9. The device according to claim 8, characterized in that a control signal of the holding device ( 21 , 22 ) reducing signal level adjusting device ( 27 , 28 ) is seen easily. 10. The device according to claim 9, characterized in that the signal level adjusting device ( 27 , 28 ) is designed as a Z-diode connected to the control signal of the holding device ( 21 , 22 ) leading line. 11. Device according to one of the preceding claims, characterized in that the sensor ( 10 ) is designed as an optical, resistive, acoustic or capacitive sensor.