DE2643567B2 - CONTROL DEVICE FOR A WIPER MOTOR - Google Patents

Description

The invention relates to a control device for a windshield wiper motor with limit switch in which the motor can be connected to the supply voltage source via the normally open contact of a relay and the Excitation current of the relay from a particular transistorized amplifier as a function of the Time constants of a timing element located at the input of the amplifier switched on and synchronized with the limit switch located at the input of the amplifier is switched off.

Such control devices are known. They are used to switch on a pause between each wiping process (interval switching). An embodiment of such a control circuit is shown in FIG. A timing element consisting of a capacitor c and a resistor r is arranged at the input of an amplifier with a transistor a. The output of the amplifier supplies a coil b of a relay which controls a normally open contact via which the windshield wiper motor M can be connected to the positive terminal of a supply voltage source. As long as the normally open contact of the relay is in the rest position, the motor M can keep turning because it is still supplied with power via the limit switch / operated by it.

A main disadvantage of these control devices is that after the main switch / the windshield wiper motor does not start up immediately. This gives the operator a feeling of insecurity. The delayed start-up is due to the fact that the transistorized amplifier has a minimum voltage Ui; needed to be able to amplify and, as a result, to be able to supply the relay coil b with power. The minimum voltage LZ ^ is a function of the transistors used. In the case of silicon transistors, it is between 0.5 and 0.8 volts. A further disadvantage is that after closing the main switch / the capacitor c of the timing element, which is connected to a ground, is initially charged in reverse before the minimum voltage Ui; is achieved. The start-up delay of the wiper motor M is further increased by the fact that, for safety reasons, the sound has a diode d at the input of the amplifier u , the voltage drop of which must be compensated for by an additional charge on the capacitor c ·.
The invention is based on the object of creating a circuit in which there is no noticeable start-up delay of the windshield wiper motor and no incorrectly polarized charging which is detrimental to the capacitor of the timer.

This object is achieved according to the invention with a control device of the type mentioned at the beginning solved that the amplifier is fed back via the timing element and that between the limit switch and the A capacitor is provided at the amplifier input.

A further, in particular transistorized, amplifier, to whose input the output of the first amplifier is fed back, is preferably provided between the amplifier and the capacitor.
In the following, the invention is based on one shown in FIG. 2 illustrated circuit diagrams explained in more detail. A windshield wiper motor 1 is connected to the positive terminal of a voltage source via a main switch 2 and a contact 3 in the working position 3.1 of a relay with a coil 4. The motor 1 is assigned a limit switch 5 which, with each revolution of the motor in a certain rotational position, assumes the rest position 5.2, in which it is connected to the ground. The normally open contact 5.1 of the limit switch is connected to the positive terminal of the voltage source.

A voltage divider with two resistors R \, Ri is located between the negative terminal of the voltage source and the normally closed contact 3.2 of the relay contact 3. A capacitor C \ low capacitance is located between the center of the voltage divider R \, Ri and the base of a transistor Ti of the NPN type. The collector of the transistor Ti is at its base with a transistor T ₂ of the PNP type via a resistor / ?? tied together. The emitter of the resistor Ti is connected to the negative terminal of the voltage source.

The emitter of the transistor Ti is connected to the normally open contact 3.1, while its collector is connected to one end of the coil 4 of the relay, the other end of which is connected to the negative terminal of the voltage source.

A timer consisting of a capacitor Ci and a resistor Rt is located between the normally open contact 3.1 and a point A between the transistor Ti and the coil 4. A resistor Ra with a small resistance value is provided between the resistor Ri and the capacitor Ci to increase its charging current to limit. A point B between the resistors Ri and Ra is connected via a diode D \ to a point C between the capacitor Q and the transistor Ti. A diode Eh is parallel to the coil 4. The base of the transistor Ti is connected to the normally open contact 3.1 via a resistor R _h.

The function of the circuit device according to the invention is as follows:

After closing the main switch 2, its potential arises at the point, which, as long as the transistors Ti, Ti are blocked, the value of the voltage divider

Rj + i? 4 + relay

is proportional. This potential is applied to the base of the transistor Ti via the diode D \, so that in

Depending on the resistance values of Rt and Ra / between the emitter and the base of the transistor 7 ~ i, a voltage arises which is not always sufficient to make the transistor conductive immediately.

Since the collector current of the transistor Ti is equal to the base current of the transistor Tj, the collector currents of the two transistors increase proportionally to each other. The increase in the collector current of the transistor Tj produces a voltage drop across the coil 4, which in turn produces an increase in the voltage at the base of the transistor Ti via the capacitor Cj and the resistor R ^. As a result, any change in the intensity, however small, increases immediately in the collector of the transistor Ti and adds to the excitation current of the relay, whereby the start-up delay of the motor 1 is suppressed. A feedback is thus achieved.

The value of the resistor R _A is chosen so that the exponential. Charging of the capacitor Ci has ended during one revolution of the motor at approximately 99% of the theoretical limit value. If shortly afterwards the motor starts up as a result of the position of the relay contact 3 at 3.1, the limit switch 5 moves into position 5.1, in which the voltage divider R], R> is set. The capacitor Ci, whose capacitance is much smaller than that of the capacitor C? is charged accordingly.

The motor 1 is stopped in the end position in that the limit switch 5 leaves its normally open contact 5.1 and lies on the normally closed contact 5.2. The voltage at the voltage divider R \, Ri becomes zero. The capacitor Ci transfers the voltage jump to the base of the transistor Ti, which is blocked as a result.

The value of the voltage divider R \, Ri is chosen in this way.

that the voltage jump does not exceed the Emilter breakdown voltage Ui nodes transistor Ti.

By blocking the transistor Ti, the transistor T _{2 is also} blocked at the same time. The -> missing collector current means that the voltage drop at coil 4 of the relay is zero. The diode D ₁ protects the transistor Tj from overvoltages.

The change in polarity at point A caused by

ι "the elimination of the voltage drop" n of the coil 4 occurs, the voltage shifts between the connections of the charged capacitor 2 in such a way that the point B is strongly negative with respect to the ground. This way you make sure that both transistors

υ remain blocked. The contact of the relay remains fallen off and the wiper motor stops.

The end of the pause is achieved in that the capacitor Cj across the resistance of the coil 4 and the resistors /? j and /? 4 discharges. Through this

2 (i reaches the potential at point B exponentially positive values, so that after a certain time both transistors become conductive again and the described functional sequence begins again.

The value of the resistance /? I allows the time of the Adjust the rest period between two revolutions of the motor within large limits.

Another special feature of the invention is that the length of the control pulses for the Windshield wiper motor correspond to the duration of one revolution of the same. However long that Rotation lasts, the motor is completely over the relay contact 3 and the main switch and not Supplied with power via the limit switch, so that premature wear of the limit switch is avoided

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1 sheet of drawings

Claims (1)

Patent claims: 1. Control device for a windshield wiper motor with limit switch, in which the motor can be connected to the supply voltage source via the normally open contact of a relay and in which the excitation current of the relay is switched on and synchronously by a transistorized amplifier in particular as a function of the time constant of a timing element located at the input of the amplifier is switched off with the limit switch arranged at the input of the amplifier, characterized in that the amplifier (T)) is fed back via the timing element (Ci, Ri, R *) and that a capacitor (Ci ) is provided. ?. Control device according to Claim 1, characterized in that a further, in particular transistorized, amplifier (Ti) is provided between the amplifier (Ti) and the capacitor (Q) , to whose input the output of the first amplifier (Ti) is fed back.