A shifter assembly for a vehicle includes: a body; a shift lock; and a shift lock lever that is supported by the body such that the shift lock lever is movable between a first position and a second position to cause corresponding movement of the shift lock between a locked position, in which the vehicle is immovable, and an unlocked position, in which the vehicle is movable. The shift lock lever includes a first end portion, and an opposite second end portion that is configured for contact with the shift lock. The second end portion is generally L-shaped in configuration, and defines an interior region that is configured to receive the shift lock to inhibit (if not entirely prevent) contact between the shift lock and other components of the vehicle to reduce any likelihood of inadvertent disengagement of the shift lock and unintended movement of the vehicle.

Disclosed is a throttle quadrant arrangement utilizing a throttle lever mechanically connected to three Rotary Variable Differential Transformers (RVDTs). The signals from the RVDTs are monitored by a process where the processing component. More specifically, RVDT outputs are monitored by the engine control system to determine if they are outside a predetermined range of operability. If an RVDT is not operable, the engine control system establishes a thrust output using the signal from one of the functional two. If only one or none are within the range, the system moves on to a default mode.

In a shift device, as a result of a rotor cam being rotated in a positive direction, and transmitting surfaces of the rotor cam pressing rotation surfaces of an urging cylinder, the urging cylinder is rotated in the positive direction, and a lever is moved rotationally towards a front side. Here, in a case in which a load towards the rear side is applied to the lever, the rotation surfaces are rotated in an opposite direction relative to the transmitting surfaces. As a result, the load towards the rear side being applied to the lever can be released.

A gear seeking shifter including a housing containing a shift lever with a rotatable base and outer tube supporting a depressible inner push rod. A CAM shaft component is driven by a gear seeking motor. An upwardly biased gate pawl located in the inner push rod contacts with any of PRND shifter position gates configured along an opposing underside of the housing. At least one detent cartridge contains a pawl supported within the rotatable base of the shift lever in biasing contact with a detent plate profile configured upon an opposing inside surface of the housing. The CAM shaft component, upon being rotated by the motor, includes each of a first profile for retracting the gate pawl and a second profile for inwardly displacing the detent pawl away from the detent plate profile to permit the CAM component to rotate the shift lever to a desired gear position.

A gear seeking shifter having a housing containing a shift lever with a depressible inner push rod. A CAM component is rotatably supported to a base of the shift lever and is driven by a gear seeking motor. An upwardly biased gate pawl is secured to the inner push rod into contact with any of a PRND shifter position gates configured along an opposing underside of said housing. At least one detent pawl is supported within the housing in biasing contact with a detent plate configured upon an opposing inside surface of the housing. The CAM component, upon being rotated by the motor, includes each of a first profile for retracting the gate pawl and a second profile for engaging and inwardly displacing the detent pawl away from contact with the detent plate to permit the CAM component to rotate the shift lever to a desired gear position.

A gear seeking shifter having a housing containing a shift lever with a depressible inner push rod. A CAM component is rotatably supported to a base of the shift lever and is driven by a gear seeking motor. An upwardly biased gate pawl is secured to the inner push rod into contact with any of a PRND shifter position gates configured along an opposing underside of said housing. At least one detent pawl is supported within the housing in biasing contact with a detent plate configured upon an opposing inside surface of the housing. The CAM component, upon being rotated by the motor, includes each of a first profile for retracting the gate pawl and a second profile for engaging and inwardly displacing the detent pawl away from contact with the detent plate to permit the CAM component to rotate the shift lever to a desired gear position.

A method for operating a motor vehicle, in particular a passenger vehicle, having at least one drive engine and an automatic transmission. A motor vehicle with conventional shift transmission is imitated by providing a clutch pedal for separating the drive connection, a shift lever for the manual shifting of the gear ratios, and an electronic control unit, by which the functions of clutching and shifting are converted into corresponding control signals for the automatic transmission.

In a lever of a shift lever device, a button on the lever is press-operated such that the button swings to slide a link and slide a detent rod along an axial direction. When the button is press-operated, the link slides along the axial direction of the detent rod and presses the detent rod along the axial direction. Accordingly, the sliding resistance of the detent rod can be reduced.

A shifter for a transmission includes a shift member, a lock member and an actuator. The shift member is movable among at least a first and second positions corresponding to first and second transmission gears. The lock member is movable between first and second lock positions. The actuator has a first position when not actuated and a second position when actuated, and the actuator is coupled to the lock member to move the lock member relative to the shift member. When the shift member and actuator are in their first positions, the lock member is in its first lock position movement of the shift member out of the first position is prevented. When the shift member and actuator are in their second positions the lock member is in its second lock position and movement of the shift member out of the second position is prevented.

A gear lever for motor vehicles is provided, of the type including a lever body, a grip, a block and a rod. The lever body defines a main axis and is configured for being associated to a gearshift device of a motor vehicle. The block is arranged to be displaced between an operative position and an inoperative position, respectively, for blocking and releasing the lever in or from a given gearshift position. The rod is slidably mounted within the lever body, and connected to which is said lever block, and which is arranged to be governed via a control member positioned on the lever body or on the grip for shifting the block from the operative position to the inoperative position. The lever is also height-adjustable.