A double pedal system for an industrial truck, comprising a first spring-reset pedal, a second spring-reset pedal. The first and the second spring-reset pedals are provided so as to be mechanically independent of one another, and are each provided with a device for electronically capturing the current actuation path of the corresponding pedal. A control unit which is operatively coupled to the devices for electronically capturing the actuation paths of the two pedals, and is designed to determine a travel target value from the current actuation paths of the two pedals. The invention furthermore relates to an industrial truck comprising a double pedal system of this kind, and to a method for operating the double pedal system.

A double pedal system for an industrial truck, comprising a first spring-reset pedal, a second spring-reset pedal. The first and the second spring-reset pedals are provided so as to be mechanically independent of one another, and are each provided with a device for electronically capturing the current actuation path of the corresponding pedal. A control unit which is operatively coupled to the devices for electronically capturing the actuation paths of the two pedals, and is designed to determine a travel target value from the current actuation paths of the two pedals. The invention furthermore relates to an industrial truck comprising a double pedal system of this kind, and to a method for operating the double pedal system.

A redundant mechanical control system incorporates a jam override subsystem to enable a breakout or break-away feature of the redundant mechanical control system. The jam override subsystem includes a spring and detent system to apply an axial force to a portion of an interconnect. The interconnect mechanically links a first portion of the redundant mechanical control system with a second portion. When a failure occurs, rendering inoperable the first portion or the second portion of the redundant mechanical control system, the axial force of the spring and detent system is overridden by a compression or extension force of the operable portion of the redundant mechanical control system.

An assistance System for a vehicle for providing an emergency stop assistance function that includes an execution device to execute the emergency stop assistance function using at least one of a plurality of activation stages; a detection device for automatic detection of driver inactivity, in order to activate the emergency stop assistance function using a first stage selection of the activation stages; a triggering device for monitoring an operating element of an electrical parking brake or a parking lock of a transmission of the vehicle, in order to activate the emergency assistance function using a second stage selection of the activation stages, which differs from the first stage selection, in the case of a manual activation of the operating element.

Aspects of the present disclosure relate to a vehicle for maneuvering a passenger to a destination autonomously. The vehicle includes a computing system and a set of user input buttons for communicating requests to stop the vehicle and to initiate a trip to the destination with the computing system The vehicle has no steering wheel and no user inputs for the steering, acceleration, and deceleration of the vehicle other than the set of user input buttons. In order to safely test the vehicle, a removable manual control system may be used. The system may include a housing having an electronic connection to a computing system of the vehicle. The housing includes a steering input configured to allow a passenger to control the direction of the vehicle. The system also includes one or more computing devices configured to receive input from the steering input and send instructions the computing system.

Aspects of the present disclosure relate to a vehicle for maneuvering a passenger to a destination autonomously. The vehicle includes a computing system and a set of user input buttons for communicating requests to stop the vehicle and to initiate a trip to the destination with the computing system The vehicle has no steering wheel and no user inputs for the steering, acceleration, and deceleration of the vehicle other than the set of user input buttons. In order to safely test the vehicle, a removable manual control system may be used. The system may include a housing having an electronic connection to a computing system of the vehicle. The housing includes a steering input configured to allow a passenger to control the direction of the vehicle. The system also includes one or more computing devices configured to receive input from the steering input and send instructions the computing system.

A pedal mechanism for an aircraft. The pedal mechanism includes: a pedal arm connectable to a pedal at a pedal connection point, the pedal arm rotatable about a pedal arm rotation point on translation of the pedal; and a stature adjustment mechanism, the stature adjustment mechanism actuatable, during a stature adjustment process, to move the pedal arm rotation point.

A pedal mechanism for an aircraft. The pedal mechanism includes: a pedal arm connectable to a pedal at a pedal connection point, the pedal arm rotatable about a pedal arm rotation point on translation of the pedal; and a stature adjustment mechanism, the stature adjustment mechanism actuatable, during a stature adjustment process, to move the pedal arm rotation point.

An auxiliary brake stabilizing support carries an instructor's brake in a given car. The support interacts with both the floor section and the firewall section of a car in front of the passenger seat, without necessarily being secured to these sections by penetrating fasteners. The brake support fits against a firewall of a car and is elevated with respect to the firewall to carry the brake over a passage with open lateral edges and supporting standoffs at top and bottom edges of the platform. A massive anchor plate rests against the floor at the base of the firewall to resist slippage. A hinged connection between the platform and anchor plate allow precise fit with the configuration of the car, while allowing the stabilizing support to fold into a compact shipping configuration.

An auxiliary brake stabilizing support carries an instructor's brake in a given car. The support interacts with both the floor section and the firewall section of a car in front of the passenger seat, without necessarily being secured to these sections by penetrating fasteners. The brake support fits against a firewall of a car and is elevated with respect to the firewall to carry the brake over a passage with open lateral edges and supporting standoffs at top and bottom edges of the platform. A massive anchor plate rests against the floor at the base of the firewall to resist slippage. A hinged connection between the platform and anchor plate allow precise fit with the configuration of the car, while allowing the stabilizing support to fold into a compact shipping configuration.