A vehicle shifter mechanism comprises a shift control member configured with an outer threaded portion proximate an upper end, and an inwardly tapered bore proximate the upper end. A shift lever is configured with an outwardly extending annular shoulder proximate a lower end. The annular shoulder has a tapered lower portion configured to register with the tapered bore of the shift control member. A locking nut is configured to fit over the shift lever and to mate with the threaded portion of the shift control member to compress the tapered lower portion of the annular shoulder to the tapered bore to fix the shift control member to the shift lever.

A shift lever device is provided with retention frames at a front side and rear side of a lever, and a plate is provided with blocks at the front side and rear side of the lever. Even if the plate and the lever are installed to a vehicle with the front side and rear side of the plate and the lever reversed, changing the retention frame that retains a detent rod enables the block on the side of the detent rod to restrict swinging of the detent rod, enabling swinging of the lever to be restricted. This thereby enables the plate and the lever to be commonly employed.

A transmission includes an input shaft coupled to a prime mover, a countershaft, main shaft, and an output shaft, with gears between the countershaft and the main shaft. A shift actuator selectively couples the input shaft to the main shaft by rotatably coupling gears between the countershaft and the main shaft. The shift actuator is mounted on an exterior wall of a housing including the countershaft and the main shaft. An integrated actuator housing includes a single external power access for the shift actuator. A controller interprets a shaft displacement angle, determines if the transmission is in an imminent zero or zero torque region, and performs a transmission operation in response to the transmission in the imminent zero or zero torque region.

A vehicle includes an powerplant, a manual transmission, and a clutch. A vehicle controller is programmed to automatically control operation of the clutch allowing the driver to shift gears by just operating the gear shifter. The vehicle also includes an input allowing the driver to override the controller and operate the clutch. The input is located on the gear shifter and is in electric communication with the controller. The controller is programmed to, inter alia, command the clutch to reduce clutch capacity responsive to receiving a signal from the sensor indicating grasping of the shifter.

A medical device drive system can include a rotational input, a coupling member engaged with the rotational input, a first gear having an engagement feature sized and shaped to engage with the coupling member, and a second gear coupled with the first gear, the second gear coupled to a movable element. The system can have a first system state and a second system state. In the first system state the coupling member is not engaged with the engagement feature and the first gear rotates without moving the coupling member. In the second system state the coupling member is engaged with the engagement feature of the first gear and rotation of the rotational input turns the coupling member, the first gear, and the second gear to move the movable element.

A medical device drive system can include a rotational input, a coupling member engaged with the rotational input, a first gear having an engagement feature sized and shaped to engage with the coupling member, and a second gear coupled with the first gear, the second gear coupled to a movable element. The system can have a first system state and a second system state. In the first system state the coupling member is not engaged with the engagement feature and the first gear rotates without moving the coupling member. In the second system state the coupling member is engaged with the engagement feature of the first gear and rotation of the rotational input turns the coupling member, the first gear, and the second gear to move the movable element.

A hydrostatic transmission pedal stroke limiter includes a stop connected through a linkage to a range shift lever for limiting the travel of the hydrostatic transmission actuator arm when the range shift lever is in the low gear range, and reducing sound significantly when operating in the low gear range.

A vehicle shifter device for ensuring high safety by suppressing misoperation by a driver. The vehicle shifter device includes a shift lever and a lock plate. The shift lever has a cylindrical lever body, a rod movable in an axial direction in a cylinder of the lever body, and a first lock lever and a second lock lever connected to the rod. The first lock lever is substantially L-shaped in plan view. The lock plate has a first extension portion extending in an X-direction and a second extension portion, integrally formed with the first extension portion, that extends in a Y-direction. In addition, the lock plate has a plurality of concave parts. In the lock plate, the projection height of a convex part between the concave part and the concave part is larger than the projection height of a convex part between the concave part and the concave part.

In one embodiment, a vehicle includes a steering wheel, one or more vehicle drive systems, one or more driving mode paddler shifters coupled to the steering wheel, an output device, and an electronic control unit. The electronic control unit is communicatively coupled to the one or more driving mode paddle shifters, the one or more vehicle drive systems, and the output device. The electronic control unit is configured to receive a drive mode shifting signal from the one or more driving mode paddle shifter indicative of a desire to change a driving mode of the vehicle, change one or more parameters of the one or more vehicle drive systems in order to change the driving mode in response to the driving mode shifting signal, and provide a notification related to the change in the driving mode with the output device.

In one embodiment, a vehicle includes a steering wheel, one or more vehicle drive systems, one or more driving mode paddler shifters coupled to the steering wheel, an output device, and an electronic control unit. The electronic control unit is communicatively coupled to the one or more driving mode paddle shifters, the one or more vehicle drive systems, and the output device. The electronic control unit is configured to receive a drive mode shifting signal from the one or more driving mode paddle shifter indicative of a desire to change a driving mode of the vehicle, change one or more parameters of the one or more vehicle drive systems in order to change the driving mode in response to the driving mode shifting signal, and provide a notification related to the change in the driving mode with the output device.