DE1107521B - Control device for an electromagnetically operated motor vehicle clutch - Google Patents

Description

Control device for an electromagnetically operated motor vehicle clutch The invention relates to a control device for an electromagnetic actuated motor vehicle clutch, in which a special, arranged by the drive motor driven generator with variable external excitation is.

In a known control device of this type is in the excitation circuit of the generator a switch is switched on, which only works at a certain engine speed is closed by a centrifugal governor, but is interrupted when idling. Although the centrifugal governor is connected to the accelerator pedal by a spiral spring, by which a certain dependence of the governor on the position of the Accelerator pedal is effected. However, this only has the consequence that the switching process is delayed is, that namely when depressing the accelerator pedal the excitation current later, d. H. is switched on at a higher speed. An increase in the excitation current and thus the clutch force with increasing torque is not achieved.

What is desirable, however, is a coupling process that allows the various Adapted to driving circumstances and thus of the amount of torque to be transmitted is dependent. Such a characteristic of a clutch is known by another Control device achieved in which the electromagnet by the normal vehicle generator is fed. With this device, the feed current of the electromagnet is in Controlled depending on the position of the accelerator pedal. For this purpose is in the A rheostat is switched on and its resistance increases as the pressure increases the accelerator pedal decreases. However, this means that the largest in the idle position Part of the feed flow generated by the generator is destroyed with a large amount of heat generated and will also cause sparking in the circuit.

The object of the invention is to avoid these disadvantages, so one To create control device through which it is made possible to control the torque of the motor adapted clutch force to control by such weak currents, the cannot give rise to undesirable heat or sparking. The solution to this problem was based on the knowledge that by changing of the excitation current, the output variable of a generator can be controlled and that with a control arrangement in the excitation circuit only very weak currents are regulated need to become.

The control device according to the invention is therefore characterized in that that to change the clutch force depending on the torque of the drive motor A potentiometer is switched on in the excitation circuit, which is dependent on controlled by the position of the accelerator pedal.

In the drawings, the control device according to the invention is shown in FIG three modified embodiments shown schematically.

The coupling of any design, not shown, is actuated by the electromagnet 7, which, depending on the design of the coupling, can be combined with it to form a unit. The electromagnet receives the feed current from the special generator 4, which in turn is excited by the alternator of the vehicle or, as shown, by the battery 1 and driven by the vehicle engine. A rheostat 2 is built into the excitation circuit of the generator 4 in order to enable basic setting and control of the clutch. The change in the clutch force is brought about by the potentiometer 3 which is switched on in the exciter circuit and which in turn is controlled by the accelerator pedal 11 in such a way that the exciter circuit becomes larger the deeper the accelerator pedal is depressed. The potentiometer 3 is expediently controlled mechanically, for example by means of a cable 3 ″ which is connected to the potentiometer on one side and to the accelerator pedal 11 on the other.

However, the voltage of the electricity generated by the generator 4 also depends on the speed of the generator. However, since this is proportional to the engine speed is, the supply current and thus the tightening force of the clutch is also dependent on the engine speed addicted. The generator 4 is expediently designed so that it is only from a certain Minimum speed from a current sufficient to operate the electromagnet supplies. This has the consequence that the clutch is automatically switched off when the engine drops below this minimum speed. The engine can therefore no longer stall will.

An interrupter 6 is provided with the gearshift lever (not shown) permanently connected, which interrupts the circuit as soon as the gearshift lever is operated will. This breaker can be in the supply circuit or in the excitation circuit, as FIGS. 1 and 2 show. The gearshift lever can create additional resistance 12 can be switched on in the circuit to enable certain gear shift positions, For example, in 1st gear and reverse gear, to achieve a smoother clutch engagement.

For this purpose, the breaker 6 has three branch lines. In the Drawn position, which corresponds to the position of the gearshift lever, if no Gear is switched on, the circuit is interrupted. When a gear is engaged is, the contact 6, through the breaker 6 either with the contact 61 or the contact 6, connected and the circuit closed. In the latter case it is the resistor 12 switched into the circuit.

So that the clutch can also be operated when the engine is not running, an auxiliary circuit 14 is connected in parallel to the circuit fed by the generator 4, which is preferably fed by the battery 1. The activation of the auxiliary circuit 14 comes into consideration if the parked vehicle is switched on by engaging a gear should be blocked. For this purpose, a switch is in the auxiliary circuit 14 built-in, which can be operated from the vehicle seat. One embodiment shows for example Fig. 3, in which a switch designated 13 via a pressure element 15 can be operated by the button 9 located on the dashboard.

Another embodiment is shown in FIG. 1, in which the activation of the auxiliary circuit can also be done automatically, in addition to by hand, if the vehicle engine should be started by the rolling vehicle. This automatic activation of the auxiliary circuit is according to the invention dependent on the position of the accelerator pedal made. For this purpose, the accelerator pedal 11 is provided with a contact piece 81 of a switch 8 provided that only from a certain position of the accelerator pedal onwards with the other Contact piece 8, the switch 8 comes into conductive contact. In the-drawn Position, the accelerator pedal has already been depressed a little. The circuit will however only connected when the pedal is depressed further and the contact piece 81 exceeds position 83. This position is chosen so that this Position corresponding engine speed and the generator speed proportional to it is high enough to provide a sufficient supply current. To with standing The vehicle to be able to switch on the clutch is here the button 9 by a pulling element 15 connected to the accelerator pedal 11.

To prevent both the circuit and the auxiliary circuit are switched on, is according to a further feature of the invention In the supply circuit a relay 5 or the like. Switched on, which the auxiliary circuit interrupts as soon as the current flows through it. When the engine is rolling by If the vehicle is to be started, the relay 5 and the auxiliary circuit are initially de-energized connected to the supply circuit.

The connection to the battery 1 is through the switch 8 when depressed Accelerator pedal manufactured. The electromagnet is therefore fed by the auxiliary circuit. After starting, when the engine and the generator have a sufficient speed have, the generator current flows through the relay 5 and feeds the electromagnet, whereby the relay interrupts the auxiliary circuit, even if the switch 8 is closed is. The conversion of the supply through the auxiliary circuit to the supply through the circuit is therefore fully automatic.

Claims (3)

PATENT CLAIMS: 1. Control device for an electromagnetically operated Motor vehicle clutch, in which to feed the electromagnet a special, from Drive motor driven generator with variable external excitation arranged is, characterized in that for changing the clutch force as a function a potentiometer (3) from the torque of the drive motor to the excitation circuit is switched on. controlled depending on the position of the accelerator pedal (1?) will. 2. Control device according to claim 1, characterized in that the from Generator (4) fed the feed circuit of the electromagnet, preferably from a the battery-powered auxiliary circuit (14) is connected in parallel, the automatic controlled by the accelerator pedal by means of a contact piece (81) of a switch (8) is that only from a certain position of the accelerator pedal with the other contact piece (8,) comes into contact. 3. Control device according to claims 1 and 2, characterized in that a relay (5) is arranged in the feed circuit fed by the generator (4) which interrupts the auxiliary circuit (14) when current flows through. Documents considered: French Patent Nos. 1 043 520, 1090 146, 1108 993, 1111275; British Patent Nos. 617 405, 732 513.