Control system for a vehicle
First Claim
1. A control system for a train, composed of at least a towing vehicle and a trailer, and having an electronically actuatable drive train which includes at least one of a steering system, a brake system and a drive assembly, said control system comprising:
- an operator control device for receiving driver requests input by a vehicle driver, and generating a standardized movement vector based on the drive request;
a controller arranged on the train, which controller generates control signals based on an input movement vector in order to actuate the drive train, and is coupled to the drive train, which processes the control signals in order to implement the driver request;
a reversing device which can be switched between an active state and a passive state, and in said active state is operative to control a reverse movement of the train;
a steering angle actual value sensor for determining a trailer actual steering angle of a wheel axle that steers the trailer, said steering angle actual value sensor being coupled to the reversing device in order to transmit the trailer actual steering angle; and
a trailer steering angle setpoint value sensor by which the driver of the vehicle inputs a trailer setpoint steering angle, and which is coupled to the reversing device in order to transmit the trailer setpoint steering angle;
wherein,the reversing device determines, from the trailer actual steering angle and the trailer setpoint steering angle, a modified towing vehicle setpoint steering angle for a wheel axle that steers the towing vehicle;
in the active state of the reversing device, the modified towing vehicle setpoint steering angle takes the place of a present towing vehicle setpoint steering angle in forming a modified movement vector;
said modified towing vehicle setpoint steering angle is determined such that, when the train travels, movement of the towing vehicle causes the trailer actual steering angle to conform to the trailer setpoint steering angle;
the operator control device includes a towing vehicle steering angle setpoint value sensor by which the driver inputs the present towing vehicle setpoint steering angle which is included in a present movement vector, at least in the passive state of the reversing device;
in the active state before the formation of the movement vector, the reversing device replaces the present towing vehicle setpoint steering angle with the modified towing vehicle setpoint steering angle, so that only the modified towing vehicle setpoint steering angle is included in the movement vector;
orin the active state, the reversing device extracts the present towing vehicle setpoint steering angle from the present movement vector, and instead integrates the modified towing vehicle setpoint steering angle, so that only the movement vector which is modified in this way is generated.
3 Assignments
0 Petitions
Accused Products
Abstract
In a control system for a train composed of a towing vehicle and a trailer, the towing vehicle is equipped with an electronically actuatable drive train. A trailer steering angle actual value sensor determines a trailer actual steering angle of a wheel axle which steers the trailer. The driver of the vehicle can input a trailer setpoint steering angle via a trailer steering angle setpoint value sensor. A reversing device is provided which determines, from the trailer actual steering angle and the trailer setpoint steering angle, a modified towing vehicle setpoint steering angle of a wheel axle which steers the towing vehicle. In the active state of the reversing device, the modified towing vehicle setpoint steering angle takes the place of the present towing vehicle setpoint steering angle in a modified movement vector; and when the train is moving, it changes the trailer actual steering angle into the trailer setpoint steering angle when the modified movement vector is processed.
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Citations
11 Claims
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1. A control system for a train, composed of at least a towing vehicle and a trailer, and having an electronically actuatable drive train which includes at least one of a steering system, a brake system and a drive assembly, said control system comprising:
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an operator control device for receiving driver requests input by a vehicle driver, and generating a standardized movement vector based on the drive request; a controller arranged on the train, which controller generates control signals based on an input movement vector in order to actuate the drive train, and is coupled to the drive train, which processes the control signals in order to implement the driver request; a reversing device which can be switched between an active state and a passive state, and in said active state is operative to control a reverse movement of the train; a steering angle actual value sensor for determining a trailer actual steering angle of a wheel axle that steers the trailer, said steering angle actual value sensor being coupled to the reversing device in order to transmit the trailer actual steering angle; and a trailer steering angle setpoint value sensor by which the driver of the vehicle inputs a trailer setpoint steering angle, and which is coupled to the reversing device in order to transmit the trailer setpoint steering angle;
wherein,the reversing device determines, from the trailer actual steering angle and the trailer setpoint steering angle, a modified towing vehicle setpoint steering angle for a wheel axle that steers the towing vehicle; in the active state of the reversing device, the modified towing vehicle setpoint steering angle takes the place of a present towing vehicle setpoint steering angle in forming a modified movement vector; said modified towing vehicle setpoint steering angle is determined such that, when the train travels, movement of the towing vehicle causes the trailer actual steering angle to conform to the trailer setpoint steering angle; the operator control device includes a towing vehicle steering angle setpoint value sensor by which the driver inputs the present towing vehicle setpoint steering angle which is included in a present movement vector, at least in the passive state of the reversing device; in the active state before the formation of the movement vector, the reversing device replaces the present towing vehicle setpoint steering angle with the modified towing vehicle setpoint steering angle, so that only the modified towing vehicle setpoint steering angle is included in the movement vector;
orin the active state, the reversing device extracts the present towing vehicle setpoint steering angle from the present movement vector, and instead integrates the modified towing vehicle setpoint steering angle, so that only the movement vector which is modified in this way is generated. - View Dependent Claims (2, 4, 5, 7, 10)
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3. A control system for a train, composed of at least a towing vehicle and a trailer, and having an electronically actuatable drive train which includes at least one of a steering system, a brake system and a drive assembly, said control system comprising:
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an operator control device for receiving driver requests input by a vehicle driver, and generating a standardized movement vector based on the drive request; a controller arranged on the train, which controller generates control signals based on an input movement vector in order to actuate the drive train, and is coupled to the drive train, which processes the control signals in order to implement the driver request; a reversing device which can be switched between an active state and a passive state, and in said active state is operative to control a reverse movement of the train; a steering angle actual value sensor for determining a trailer actual steering angle of a wheel axle that steers the trailer, said steering angle actual value sensor being coupled to the reversing device in order to transmit the trailer actual steering angle; and a trailer steering angle setpoint value sensor by which the driver of the vehicle inputs a trailer setpoint steering angle, and which is coupled to the reversing device in order to transmit the trailer setpoint steering angle;
wherein,the reversing device determines, from the trailer actual steering angle and the trailer setpoint steering angle, a modified towing vehicle setpoint steering angle for a wheel axle that steers the towing vehicle; in the active state of the reversing device, the modified towing vehicle setpoint steering angle takes the place of a present towing vehicle setpoint steering angle in forming a modified movement vector; said modified towing vehicle setpoint steering angle is determined such that, when the train travels, movement of the towing vehicle causes the trailer actual steering angle to conform to the trailer setpoint steering angle; said control system further comprises a remote control device which is operable at points that are remote from the train, receives driver requests and generates the movement vector based on the driver request; and
a transceiver arrangement which connects the remote control device to a drive train interface arrangement to which the operator control device, the reversing device and the controller are also connected; andthe remote control device has one of a towing vehicle steering angle setpoint value sensor which the reversing device uses in the active state as a trailer steering angle setpoint value sensor, and a trailer steering angle setpoint value sensor.
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6. A control system for a train, composed of at least a towing vehicle and a trailer, and having an electronically actuatable drive train which includes at least one of a steering system, a brake system and a drive assembly, said control system comprising:
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an operator control device for receiving driver requests input by a vehicle driver, and generating a standardized movement vector based on the drive request; a controller arranged on the train, which controller generates control signals based on an input movement vector in order to actuate the drive train, and is coupled to the drive train, which processes the control signals in order to implement the driver request; a reversing device which can be switched between an active state and a passive state, and in said active state is operative to control a reverse movement of the train; a steering angle actual value sensor for determining a trailer actual steering angle of a wheel axle that steers the trailer, said steering angle actual value sensor being coupled to the reversing device in order to transmit the trailer actual steering angle; and a trailer steering angle setpoint value sensor by which the driver of the vehicle inputs a trailer setpoint steering angle, and which is coupled to the reversing device in order to transmit the trailer setpoint steering angle;
wherein,the reversing device determines, from the trailer actual steering angle and the trailer setpoint steering angle, a modified towing vehicle setpoint steering angle for a wheel axle that steers the towing vehicle; in the active state of the reversing device, the modified towing vehicle setpoint steering angle takes the place of a present towing vehicle setpoint steering angle in forming a modified movement vector; said modified towing vehicle setpoint steering angle is determined such that, when the train travels, movement of the towing vehicle causes the trailer actual steering angle to conform to the trailer setpoint steering angle; the train is an articulated train in which, the wheel axle which steers the trailer has a live ring that is connected to a trailer coupling of the towing vehicle via a shaft, by which the live ring is rotatable; the trailer steering angle actual value sensor determines an angle between a longitudinal axis of the trailer and a longitudinal axis of the shaft; a shaft angle actual sensor is provided which determines an actual shaft angle between the longitudinal axis of the shaft and a longitudinal axis of the towing vehicle, and transmits the actual shaft angle to the reversing device; and the reversing device initially determines a shaft setpoint angle from the trailer actual steering angle and the trailer setpoint steering angle, and then determines the modified towing vehicle setpoint steering angle from the actual shaft angle and the shaft setpoint angle. - View Dependent Claims (9)
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8. A control system for a train, composed of at least a towing vehicle and a trailer, and having an electronically actuatable drive train which includes at least one of a steering system, a brake system and a drive assembly, said control system comprising:
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an operator control device for receiving driver requests input by a vehicle driver, and generating a standardized movement vector based on the drive request; a controller arranged on the train, which controller generates control signals based on an input movement vector in order to actuate the drive train, and is coupled to the drive train, which processes the control signals in order to implement the driver request; a reversing device which can be switched between an active state and a passive state, and in said active state is operative to control a reverse movement of the train; a steering angle actual value sensor for determining a trailer actual steering angle of a wheel axle that steers the trailer, said steering angle actual value sensor being coupled to the reversing device in order to transmit the trailer actual steering angle; and a trailer steering angle setpoint value sensor by which the driver of the vehicle inputs a trailer setpoint steering angle, and which is coupled to the reversing device in order to transmit the trailer setpoint steering angle;
wherein,the reversing device determines, from the trailer actual steering angle and the trailer setpoint steering angle, a modified towing vehicle setpoint steering angle for a wheel axle that steers the towing vehicle; in the active state of the reversing device, the modified towing vehicle setpoint steering angle takes the place of a present towing vehicle setpoint steering angle in forming a modified movement vector; said modified towing vehicle setpoint steering angle is determined such that, when the train travels, movement of the towing vehicle causes the trailer actual steering angle to conform to the trailer setpoint steering angle; the reversing device continuously determines a maximum speed for the train, based on at least one of the actual trailer steering angle and a shaft angle; and the speed of the train is limited to the maximum speed.
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11. A control system for a train, composed of at least a towing vehicle and a trailer, and having an electronically actuatable drive train which includes at least one of a steering system, a brake system and a drive assembly, said control system comprising;
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an operator control device for receiving driver requests input by a vehicle driver, and generating a standardized movement vector based on the drive request; a controller arranged on the train, which controller generates control signals based on an input movement vector in order to actuate the drive train, and is coupled to the drive train, which processes the control signals in order to implement the driver request; a reversing device which can be switched between an active state and a passive state, and in said active state is operative to control a reverse movement of the train; a steering angle actual value sensor for determining a trailer actual steering angle of a wheel axle that steers the trailer, said steering angle actual value sensor being coupled to the reversing device in order to transmit the trailer actual steering angle; and a trailer steering angle setpoint value sensor by which the driver of the vehicle inputs a trailer setpoint steering angle, and which is coupled to the reversing device in order to transmit the trailer setpoint steering angle;
wherein,the reversing device determines, from the trailer actual steering angle and the trailer setpoint steering angle, a modified towing vehicle setpoint steering angle for a wheel axle that steers the towing vehicle; in the active state of the reversing device, the modified towing vehicle setpoint steering angle takes the place of a present towing vehicle setpoint steering angle in forming a modified movement vector; said modified towing vehicle setpoint steering angle is determined such that, when the train travels, movement of the towing vehicle causes the trailer actual steering angle to conform to the trailer setpoint steering angle; and an optical destination-detection device is provided which detects a destination of the train from a distance and which, in the active state of the reversing device, permanently supplies the trailer setpoint steering angle in such a way that the train reaches the destination with reversing.
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Specification