A vehicle gear shift assembly includes a gear shift lever. The vehicle gear shift assembly also includes a shift boot assembly that at least partially defines an interior section and receives a portion of the gear shift lever therethrough. The shift boot assembly includes a frame. The shift boot assembly also includes a flexible section formed of a material having a first durometer. The shift boot assembly further includes a protective shield operatively coupled to the frame and the flexible section, the protective shield formed of a material having a second durometer that is harder than the first durometer of the flexible section.

A hydraulic pump is driven by an engine. A hydraulic motor is driven by hydraulic fluid discharged from the hydraulic pump thereby causing a vehicle to travel. A controller controls a rotation speed of the engine and a displacement of the hydraulic pump. The controller acquires a tractive force of the vehicle. The controller changes the rotation speed of the engine to a low speed side in accordance with a reduction in the tractive force.

An electronic control system for a motor vehicle comprising an automatic transmission operable to assume different operating modes, comprising a reverse mode, a neutral mode, a park mode, a drive mode and a manual mode, in response to a manual operation of a selector with at least one control switch and mounted to assume a stable central neutral position when the selector is not operated, and to be movable in opposite selection directions from the stable central neutral position to reach two instable end-of-travel selection positions arranged on opposite sides of the stable central neutral position. The automotive electronic control system is configured to detect operation of the selector and of the control switch and cause the transmission to switch from drive mode to reverse mode in response to operation of the selector in a first selection direction and with the control switch pressed, and from reverse mode to drive mode in response to operation of the selector in a second selection direction opposite to the first selection direction and with the control switch pressed.

A pushbutton shifter interface is provided that includes a movable assembly supporting a plurality of pushbutton keys. The pushbutton shifter interface also includes a proximity sensor arrangement configured to sense a user proximate the pushbutton keys and interfacing with one of the keys and an actuator actuating the movable assembly to a use position in response to sensing the user proximate the pushbutton keys. The pushbutton shifter interface further includes a display showing a sensed position of the user relative to the plurality of pushbutton keys.

A shifter interface is provided that includes a user interface panel. The shifter interface also includes a plurality of proximity sensors arranged to provide proximity switches on the panel, wherein the proximity switches form fixed input keys that are selectable by a user to enter an operating mode of the vehicle. The shifter interface further includes a controller processing signals generated by the proximity sensors to detect activation of one or more of the proximity sensors.

The repair of shift cable ends in various motor vehicles without the replacement of the entire shift cable is accomplished using a specialized bushing that operably couples the shift lever and shift cable end. In particular embodiments, the shift cable end is seated in an installation tool and a specialized bushing is inserted into the shift cable end by applying a compressive force to the bushing and the installation tool. The installation tool is removed and the shift lever is inserted into the bushing. The bushing has a coupling means to simulate the factory installed coupling mechanism, a securing means for maintaining the bushing's alignment and securing it within the shift cable end, and a pressure-relief means for relieving pressure within the bushing as the lever is inserted into the bushing. In some embodiments, the hushing has a compression means for allowing the bushing to be easily compressed into the shift cable end without deformation.

A shift lever for a vehicle is provided that includes a knob and a rod which is detachably coupled to the knob in a one touch manner. A first connector and a second connector are disposed at the knob and the rod, respectively, and electrically connected to each other when the knob and the rod are coupled. The first connector is installed in the knob, and the second connector is detachably fixed at a tip side of the rod. A connector housing detachably fixes the second connector at the tip side of the rod, and a conductive member which has a first end fixed to the second connector, and is inserted and accommodated into the rod.

A detecting device includes a shift selector, a magnet disposed in the shift selector, four or more sensors arranged at positions facing the magnet and an ECU. The ECU is configured to (i) determine a shift position based on signals output from the four or more sensors when the magnet is relatively displaced with respect to the four or more sensors in response to an operation of the shift selector, (ii) determine the shift position based on signals output from three or more of the four or more sensors determined to be normal when any one of the four or more sensors is abnormal, and (iii) determine the abnormality based on whether or not the three or more sensors output, during the traveling of the vehicle, a signal to a shift position pertaining to a case of traveling in the direction opposite to a traveling direction of the vehicle.

A detecting device includes a shift selector, a magnet disposed in the shift selector, four or more sensors arranged at positions facing the magnet and an ECU. The ECU is configured to (i) determine a shift position based on signals output from the four or more sensors when the magnet is relatively displaced with respect to the four or more sensors in response to an operation of the shift selector, (ii) determine the shift position based on signals output from three or more of the four or more sensors determined to be normal when any one of the four or more sensors is abnormal, and (iii) determine the abnormality based on whether or not the three or more sensors output, during the traveling of the vehicle, a signal to a shift position pertaining to a case of traveling in the direction opposite to a traveling direction of the vehicle.

A shifter assembly for a motor vehicle includes a housing, a detent gate connected to the housing, a shifter lever moveable between at least a park position and a neutral position, a locking button movably supported by the shifter lever that contacts the detent gate when in a first position and that spaces apart from the detent gate when depressed to a second position, and a pawl moveable between an unlock position and a lock position. The pawl prevents the shifter lever from moving out of the park or neutral positions and prevents the locking button from being depressed when in the lock position.