A pedal assembly for use in a motorized vehicle comprises a horizontal member, a pedal connected to the horizontal member at a first position, and a spring having a first end and a second end. The spring is connected at the first end to the pedal, and is connected at the second end to the horizontal member at a second position. Depressing the pedal within a first range of angles causes the spring to exert a reactive force within a first range of values increasing at a rate having a first maximum slope. Depressing the pedal within a second range of angles causes the spring to exert a reactive force within a second range of values increasing at a rate having a second maximum slope.

The present invention relates to a construction machine, said construction machine comprising a brake assembly for braking the machine, as well as an operator platform. The operator platform comprises at least one operator seat with a total of at least two operating positions for a machine operator at opposite ends of the operator platform, and an actuation device for foot actuation of the brake assembly. According to essential aspects of the present invention, the actuation device for the brake assembly comprises a brake beam which extends transversely to the working direction of the construction machine and which can be operated by foot from said two operating positions, and the actuation device further comprises an actuator for the brake beam, which is arranged below the brake beam.

The present invention relates to a construction machine, said construction machine comprising a brake assembly for braking the machine, as well as an operator platform. The operator platform comprises at least one operator seat with a total of at least two operating positions for a machine operator at opposite ends of the operator platform, and an actuation device for foot actuation of the brake assembly. According to essential aspects of the present invention, the actuation device for the brake assembly comprises a brake beam which extends transversely to the working direction of the construction machine and which can be operated by foot from said two operating positions, and the actuation device further comprises an actuator for the brake beam, which is arranged below the brake beam.

A vehicle system and method for remote start operation in the vehicle system are provided. The method includes responsive to receiving a remote start request and while the vehicle is stationary, automatically engaging a wheel-arresting device coupled to a wheel in the vehicle. The method also includes when an electronically actuated clutch is automatically disengaged and subsequent to the automatic engagement of the wheel-arresting device, implementing remote start operation in an engine, where the wheel-arresting device is distinct from a secondary vehicle brake.

A vehicle system and method for remote start operation in the vehicle system are provided. The method includes responsive to receiving a remote start request and while the vehicle is stationary, automatically engaging a wheel-arresting device coupled to a wheel in the vehicle. The method also includes when an electronically actuated clutch is automatically disengaged and subsequent to the automatic engagement of the wheel-arresting device, implementing remote start operation in an engine, where the wheel-arresting device is distinct from a secondary vehicle brake.

An organ-type pedal device includes a housing, a shaft, a pedal pad, and a sensor unit. The housing is attached to a vehicle body. The shaft is rotatably supported around a center of a shaft receiving portion provided in the housing as a rotation axis. The pedal pad is fixed to the shaft and rotates about a same rotation axis as the shaft. The pedal pad has a structure in which a portion to be stepped on by a driver is arranged above the rotation axis in a vertical direction when being mounted on the vehicle. The sensor unit has a rotating portion provided at the shaft and a signal output portion provided at the housing for outputting a signal corresponding to a phase of the rotating portion, and detects a rotation angle of the pedal pad and the shaft.

A method for operating an electric parking brake includes feeding a timing sequence of changes in current to terminals of an interface for an operator control element for the parking brake. The method further includes performing at least one current measurement at at least one terminal of the interface during the feeding of one of the changes in current. The method further includes determining a driver's request as a function of the at least one current measurement. The method further includes operating the electric parking brake as a function of the determined driver's request.

A method for operating an electric parking brake includes feeding a timing sequence of changes in current to terminals of an interface for an operator control element for the parking brake. The method further includes performing at least one current measurement at at least one terminal of the interface during the feeding of one of the changes in current. The method further includes determining a driver's request as a function of the at least one current measurement. The method further includes operating the electric parking brake as a function of the determined driver's request.

An electronically controllable brake system, in particular electronically controllable pneumatic brake system, for a utility vehicle, in particular utility vehicle, includes: at least one service brake circuit with service brakes and a service brake control module, a service-brake pressure being feedable to the service brakes, the service-brake control module generating a service-brake control signal as a function of a braking specification, the service-brake pressure being generatable as a function of the service-brake control signal and specified to the service brakes, for implementation of the braking specification via the at least one service brake circuit, under electrical control by the service-brake control module; and a parking brake circuit with spring-loaded brakes, a parking-brake brake pressure being feedable to the spring-loaded brakes, the parking-brake brake pressure being generatable as a function of the braking specification and specified to the spring-loaded brakes, in order to implement the braking specification.

A system for parking control of a vehicle in which a transmission parking configuration is omitted is provided. The system includes a shift by wire device that requests a parking control of the vehicle when a parking stage is input by an operation of a driver. An electronic parking brake operates a brake installed on a drive wheel via a relay which is connected to be in a parking brake state when the electronic parking brake receives the parking control request from the shift by wire device. The shift by wire device switches the relay to directly operate the brake to be in the parking brake state when the shift by wire device receives a failure event, which indicates that a normal operation of the electronic parking brake is impossible, from the electronic parking brake.