IMMOBILIZER ARRANGEMENT FOR A MOTOR VEHICLE, MOTOR VEHICLE AND METHOD FOR ACTUATING AN IMMOBOLIZER ARRANGEMENT

Abstract

An immobilizer arrangement for a motor vehicle includes a brake that can be electrically actuated by at least one motor. The motor is controlled by a brake control, and with an immobilizer control that serves for activating and deactivating the immobilizer of the motor vehicle. The immobilizer control is configured to receive an authorization for deactivating the immobilizer from a user identification device. With the brake serving as the immobilizer, at least one current path is provided for actuating the motor, which is coupled to the immobilizer control.

Claims

13. An immobilizer arrangement for a motor vehicle comprising: a motor configured to actuate a brake having a brake caliper; a brake control configured to operate the motor; and an immobilizer control operable to activate and deactivate an immobilizer, wherein the brake serves as the immobilizer, the immobilizer control configured to receive an authorization for deactivating the immobilizer from a user identification device; at least one current path for actuating the motor, which is coupled to the immobilizer control; and a filter circuit operably coupled to at least one of the brake caliper or the motor.

14. The immobilizer arrangement according to claim 13, wherein the filter circuit comprises the filter circuit which is coupled to the immobilizer control for distinguishing between a first current path for actuating the motor in the disengaging direction of the brake and a second current path for actuating the motor in the engaging direction of the brake.

15. The immobilizer arrangement according to claim 14, wherein the filter circuit blocks the first current path for actuating the motor in the disengaging direction of the brake when the immobilizer is activated.

16. The immobilizer arrangement according to claim 14, wherein the filter circuit does not block the second current path for actuating the motor in the engaging direction.

17. The immobilizer arrangement according to claim 14, wherein the filter circuit comrises a blocking diode for distinguishing between the first current path and the second current path.

18. The immobilizer arrangement according to claim 14, wherein the filter circuit comprises a microprocessor.

19. The immobilizer arrangement according to claim 14, further comprising a bus system connectiong the filter circuit to the brake control.

20. The immobilizer arrangement according to claim 13, wherein wherein the brake comprises a parking brake.

21. A motor vehicle comprising with an immobilizer arrangement according to claim 13.

22. A method for actuating an immobilizer arrangement comprising providing an immobilizer arrangement according to claim 13 and releasing the current path for actuating the motor in the disengaging direction of the brake when the immobilizer is deactivated by the immobilizer control.

23. The method according to claim 22, further comprising blocking the current path for actuating the motor in the disengaging direction when the immobilizer arrangement is activated.

24. The method according to claim 22, further comprising deactivating the immobilizer arrangement with the immobilizer control.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] The present disclosure will hereinafter be described in conjunction with the following drawing figures, wherein like numerals denote like elements.

[0026] FIG. 1 shows a block diagram of the immobilizer arrangement in the deactivated and activated state of the immobilizer;

[0027] FIG. 2 shows a circuit diagram of a filter circuit;

[0028] FIG. 3 shows a cross section through a brake with the filter circuit, and

[0029] FIG. 4 shows a circuit diagram according to the prior art.

DETAILED DESCRIPTION

[0030] The following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any theory presented in the preceding background of the invention or the following detailed description.

[0031] Fig. 1a shows a block diagram of an immobilizer arrangement 2 (framed with broken lines). The immobilizer arrangement 2 features a brake 4 with a motor 6 for electrically actuating the brake 4. The motor 6 is arranged on the brake 4 and mechanically coupled to a not-shown brake piston of a not-shown brake caliper of the brake 4.

[0032] The motor 6 is equipped with a filter circuit 8 that distinguishes between current paths for actuating the motor 6 in the disengaging direction L and in the engaging direction F. The motor 6 is connected to a brake control 10, by which the motor 6 can be actuated in a disengaging direction L and the opposite engaging direction F. The brake control 10 causes these oppositely directed actuations due to a voltage reversal of an actuating or control voltage.

[0033] The immobilizer arrangement 2 furthermore features an immobilizer control 12, wherein immobilizer functions of a motor vehicle 14, which are installed in the immobilizer arrangement 2, can be activated with the aid of this immobilizer control. Such immobilizer functions may be realized, for example, by deactivating an ignition or a starter. The immobilizer control 12 is connected to the filter circuit 8 such that the filter circuit 8 can release or block a current path for actuating the motor 6 in the disengaging direction L. The filter circuit 8 is described in greater detail below with reference to FIG. 2.

[0034] The immobilizer control 12 is actuated by a user identification device 16 such that the immobilizer can be deactivated in the presence of the user identification device 16. If the user identification device 16 is not located within the transmission range of the motor vehicle 14, the immobilizer remains activated and the motor 6 cannot be actuated in the engaging direction F.

[0035] A check for the presence of the user identification device 16 is carried out at several points in time such as, for example, when a door of the motor vehicle 14 is actuated, when the engine status changes (starting or shutting off the engine of the motor vehicle 14), when the doors are closed (displaced) and, depending on the respective design, regularly during the operation of the motor vehicle.

[0036] FIG. 2 shows a circuit diagram of the filter circuit 8. The filter circuit 8 features a connection 20 to a bus system 21 with several pins 20.1-20.6. The pins are allocated differently. The filter circuit is connected to the (not-shown) brake control 10 by the pins 20.1, 20.2. The motor 6 is inserted into the thusly formed current path. The aforementioned current paths are formed by a diode 22 that only conducts a current in one direction. A first current path 24 is formed from the pin 20.1 to the pin 20.2 via the motor 6 and the diode 22. A second current path 26 is formed from the pin 20.1 to the pin 20.2 via the motor 6 and a switch 28.

[0037] The switch 28 is opened and closed by a microprocessor 30, wherein the microprocessor 30 is connected to the immobilizer control 12 via the pins 20.5 and 20.6. When the switch 28 is in the open position, no current can flow along the second current path 26 and the motor 6 cannot be actuated in the disengaging direction L. Vice versa, the motor 6 can be actuated in the engaging direction F along the current path 24 at any time regardless of the state of the immobilizer. The communication between the microprocessor 30 and the immobilizer control 12 may take place in encrypted form.

[0038] FIG. 3 shows a cross section through a brake caliper 36 that can be used as a parking brake. The motor 6 is arranged on the brake caliper 36. The motor 6 can actuate a brake piston 40, which presses friction linings 42 against a brake rotor 44, by a shaft 38. This can serve for activating the parking brake. The filter circuit 8 is integrated into the brake caliper 36 and cannot be bypassed. The filter circuit 8 can be prevented from being bypassed due to the encrypted transmission of information from the immobilizer control 12 to the filter circuit 8. The filter circuit 8 likewise cannot be bypassed because it is embedded in the brake caliper 36.

[0039] FIG. 4 shows a parking brake 42 according to the prior art. In this case, a motor 6′ is connected to a brake control 10′ via a connection 20′, wherein the same current path 24′ is used for both actuating directions.

[0040] While at least one exemplary embodiment has been presented in the foregoing detailed description, it should be appreciated that a vast number of variations exist. It should also be appreciated that the exemplary embodiment or exemplary embodiments are only examples, and are not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the foregoing detailed description will provide those skilled in the art with a convenient road map for implementing an exemplary embodiment, it being understood that various changes may be made in the function and arrangement of elements described in an exemplary embodiment without departing from the scope of the invention as set forth in the appended claims and their legal equivalents. cm 1-12. (canceled)