DE3151307A1 - Circuit arrangement for the electrical drive of a moving element, for example a motor vehicle window pane - Google Patents

Abstract

In a circuit arrangement for the electrical drive of a motor vehicle window pane, the electric motor is disconnected in the limit positions of the window pane in that a switch is arranged in one of the connecting leads of the motor which switch is held in its closed position by the alternating voltage induced when the motor is running. In the window pane limit positions, the electric motor stops so that no alternating voltage is induced and the switch is opened.

Description

Circuit arrangement for the electric drive

a movable element, for example a window of a motor vehicle The invention relates to a circuit arrangement for the electric drive a movable element, e.g. a pane, a sunroof or the like of a motor vehicle, with a DC motor that has an operating switch Can be connected to a DC voltage source and for one or the other direction of rotation can be switched and when an end position of the movable element is reached automatically by a switch arranged in a connecting line of the motor is turned off.

Switching off the motor when reaching an end position of the movable Elements is generally done with the help of limit switches in a connecting line of the motor are arranged and of the movable element in its end position be actuated and interrupt the power supply to the motor. Such limit switches require very precise positioning to ensure that the motor actually works is only switched off when the element is in its end position. Will the The motor is switched off too early, which is particularly important for the closing movement noticeable negatively, as the element does not quite reach its closed position, see above that both window panes and sunroofs make unpleasant wind noises occur and, moreover, the seal is not guaranteed. To this disadvantage To avoid it, it is also known to provide a timer that, after actuation the limit switch maintains the power supply to the motor for a certain period of time, so that the element is moved to its end position with certainty. Except for the The engine is at least temporarily more expensive with the high short-circuit current and the circuit elements are through a loaded with high current, whereby their service life is reduced. The same disadvantage have circuits in which the limit switch is dispensed with and instead the high power consumption when the end position is reached due to the blocking of the motor occurs, is used as a signal for a circuit breaker.

The invention is based on the object of a circuit arrangement to create the type mentioned above, in which there is no limit switch of the motor is guaranteed exactly in every end position of the movable element.

This object is achieved in that the in one Connection line of the motor arranged switch by a signal that is through the when the motor is running, induced alternating voltage is generated, in the closed position is held. Since this alternating voltage is a function of the engine speed and at When the motor comes to a standstill, the motor stops immediately when the end position is reached and the resulting stopping of the engine.

In the practical embodiment of the invention, in a connection line of the motor arranged an inductance and from the voltage drop across it the AC voltage is decoupled from the DC voltage by a capacitor, because amplified and rectified, and the signal generated in this way is used to hold the Switch used in the closed position.

The invention is described below with reference to the drawing described.

It shows: FIG. 1 a block diagram of the circuit arrangement according to the invention, and FIG. 2 shows the functional diagram for one direction of movement.

Reference is first made to FIG. 1, in which 1 is the drive motor a window of a motor vehicle is designated, the leads 2 and 3 through a changeover switch 4 either with the positive pole or with the negative pole of a Vehicle battery 5 can be connected. The changeover switch 4 is controlled by a changeover relay formed, the control voltage of which is supplied by a control and holding circuit, which in turn is operated by a manual switch 7. The switch 4 is from usual design and is in the neutral position shown when the coil is not energized held. When the manual switch 7 is moved up or down, the toggle switch 4 actuated accordingly to switch on the motor 1 in the desired direction of rotation. After releasing the hand switch 7, the switch 4 is controlled by the control and Holding circuit 6 held in the selected position. The structure of the tax and Holding circuit 6 is shown for one direction of movement in Fig. 2 and will be discussed later described in detail.

An inductance 9 is arranged in the negative line 8.

The voltage drop across this inductance 9 becomes the alternating voltage from the DC voltage by means of a capacitor 10 and decoupled by a Amplifier 11 is fed to control and hold circuit 6 in amplified form.

If the motor 1 is at a standstill, it will also be when the toggle switch 4 is in a working position, no alternating voltage is induced by the motor 1, so that in the line 8 no alternating current, but only a direct current flows and thus the holding and control circuit 6 due to the capacitor 10 no control signal is fed. This becomes the changeover switch previously activated by circuit 6 4 open.

Reference is now made to FIG. As you can see, that is what the amplifier 11 amplified AC voltage signal, which only when the engine is running 1 occurs, rectified in the circuit 6 by a diode 12. With the rectified Signal a transistor 13 is turned on, whereby the previously to start the Motor 1 actuated manual switch 7 bridged and thus the coil 4a of the switch 4 ', which corresponds to the changeover switch 4 in FIG. 1 for one direction of rotation, even after it has been released of the hand switch 7 is still activated, so that the disc in its end position As previously described in connection with Fig. 1, occurs only when the Motor 1 receives an AC voltage signal that activates coil 4a of switch 4 ', while no alternating voltage is induced when the motor is not running. So if the The end position is reached and the motor 1 stops, the transistor blocks 13 and the coil 4a of the switch 4 'is de-energized, so that this switch opens and the power supply to motor 1 is interrupted.

Claims (2)

Circuit arrangement for the electric drive of a movable Element, for example a disk of a motor vehicle, circuit arrangement for the electric drive of a movable element, for example a disk, a sunroof or the like of a motor vehicle, with a DC motor, which can be connected to a DC voltage source via an operating switch and can be switched for one or the other direction of rotation and when it is reached an end position of the movable element by one in a connecting line of the motor arranged switch is automatically switched off, d u r c h g e-k e n n -z e i c h n e t that the switch (4) by a signal that is transmitted by the when the motor (1) is running, induced alternating voltage is generated, in the closed position is held. 2. Circuit arrangement according to claim 1, characterized in that in a connecting line of the motor (1) an inductance (9) is arranged that from the voltage drop across this the alternating voltage from the direct voltage decoupled by a capacitor (10), then amplified and rectified, and the signal generated in this way is used to hold the switch (4) in the closed position will.