A transmission device for a work vehicle includes an auxiliary transmission including forward gear shift stages for the work vehicle to move forward and a reverse gear shift stage for the work vehicle to move backward. The forward gear shift stages include a low-speed gear shift stage with a largest gear ratio among the plurality of forward gear shift stages, and a medium-speed gear shift stage with a gear ratio closest to a gear ratio of the reverse gear shift stage among the forward gear shift stages.

A steering column assembly includes a jacket assembly. The steering column assembly also includes a transmission shift assembly operatively connected to the jacket assembly. The steering column assembly further includes a brake transmission shift interlock (BTSI) device comprising an inhibitor pin translatable between an extended position and a retracted position, the inhibitor pin preventing shifting of the transmission shift assembly out of a PARK position when the inhibitor pin is in the extended position. The steering column assembly yet further includes an inhibitor pin monitoring system. The inhibitor pin monitoring system includes a sensor operatively coupled to a stationary portion of the BTSI device, relative to the inhibitor pin. The inhibitor pin monitoring system also includes a magnetic ring operatively fixed coupled to the inhibitor pin, the sensor detecting when the inhibitor pin is in the extended position.

A strength of an outer side portion in a second direction of a shift body is increased. In a shift device, when a lever is placed in an ‘M’ position, a right avoidance hole of the lever avoids interference with a right restricting portion, rotational movement of a left restricting surface of the lever is restricted by a left restricting portion, and an operation to rotationally move the lever towards the right side is restricted. Furthermore, when the lever is placed in a ‘D’ position, a left avoidance hole of the lever avoids interference with the left restricting portion, rotational movement of a right restricting surface of the lever is restricted by the right restricting portion, and an operation to rotationally move the lever towards the left side is restricted. The right avoidance hole and the left avoidance hole can be made smaller, so that the strength of both outer side portions in a lateral directions of the lever can be increased.

This work vehicle (tractor), which is provided with an engine and an accelerator pedal capable of changing the operational state of the engine, and is configured to be free to travel by means of an operation of the accelerator pedal by an operator, is equipped with a display near an operator's seat, said display being configured to be capable of displaying a screen (travel customization screen) for selecting whether or not to allow travel in conjunction with the accelerator.

This work vehicle (tractor), which is provided with an engine and an accelerator pedal capable of changing the operational state of the engine, and is configured to be free to travel by means of an operation of the accelerator pedal by an operator, is equipped with a display near an operator's seat, said display being configured to be capable of displaying a screen (travel customization screen) for selecting whether or not to allow travel in conjunction with the accelerator.

In a shift device, the placement of magnets relative to sensors can be changed by rotating a ball shaft of a lever. The sensors detect magnetic fields generated by the magnets in order to detect a shift position of the lever. Shields suppress a magnetic field outside the ball shaft from reaching the sensors. The magnets, the sensors, and the shields are disposed on the ball shaft. This enables a reduction in the size of the shift device.

A structure can be used for mounting a driving device and a steering device on a vehicle body of a vehicle. The structure includes a gear box of a steering device mounted on a subframe, a roll mount, a mounting bracket coupled to the roll mount, and a motor/speed reducer assembly fastened to and supported by the gear box by the roll mount and the mounting bracket coupled to the roll mount.

A structure can be used for mounting a driving device and a steering device on a vehicle body of a vehicle. The structure includes a gear box of a steering device mounted on a subframe, a roll mount, a mounting bracket coupled to the roll mount, and a motor/speed reducer assembly fastened to and supported by the gear box by the roll mount and the mounting bracket coupled to the roll mount.

The electrical vehicle includes a shift lever and a clutch pedal for pseudo-realizing the manual gear change operation of the MT vehicle, and a controller for controlling the operation of the electric vehicle. The shift lever is operated by the driver to select an arbitrary virtual gear stage mode from among a plurality of virtual gear stage modes in which torque characteristics with respect to the rotational speed of the electric motor are stepwise different. The clutch pedal is operated by the driver when the shift lever is operated. The controller calculates the virtual engine speed of the virtual engine based on the virtual gear stage mode selected by the shift lever and the operation amount of the clutch pedal, and displays the virtual engine speed on the display.

Transmission control mechanism 100 in a power transmission system of a vehicle a transmission shift lever 102, a shifter arm 106, an input ratchet shifting assembly 108, an input shift ratchet and cam assembly 110, a drive shaft 112, a plurality of keys 113, a driven shaft 114, a coupler 115, a driven shaft drive gear 116, a driven shaft driven gear 118, a plurality of rail shifting means 120, a plurality of bushes 121, a plurality of rail shifter support members 122, a plurality of pawl assemblies 124, a plurality of pawl kicker means 126, a lever position control valve assembly 136, an active detent control valve assembly 138, a detent control valve assembly 140, a clutch selection control valve assembly 142, a gear shift lever position valve lever 144 and a master clutch control valve assembly 100M.