The present invention provides methods and mechanisms to selectively fix or free a planetary carrier of a epicyclic gearbox, thereby allowing dual modal operation of the gearbox and facilitating selective operation of a device, such as a winch, having capacity to safely and efficiently operate in a high load heavy lifting utility mode and a low load light lifting personnel mode.

A shift on the fly transmission is provided. The shift on the fly transmission includes a continuously variable transmission portion, a discrete transmission portion, at least one input shaft and a disconnect clutch. The continuously variable transmission portion is operationally coupled to receive torque from an engine. The discrete transmission portion includes a gear assembly. The at least one input shaft is operationally coupled to an output of the continuously variable transmission portion. The disconnect clutch operationally couples the at least one input shaft to the discrete transmission portion. The disconnect clutch is further configured to selectively decouple torque from the at least one input shaft to the discrete transmission portion during a range ratio shift of the discrete transmission portion.

A multi-mode, power-split hybrid transmission system having two planetary gear (PG) sets connected to one engine, two electric motors, one output shaft, and each other by several clutches, brakes, and direct connection elements. Depending on the specific location and actuation of the various clutch and brake elements, the multi-mode, power-split hybrid transmission system can be run in one of several modes (e.g. electric drive, power-split, parallel hybrid, series hybrid, electronic continuously variable transmission (eCVT), generator, neutral, and the like).

A gear box includes an output shaft defining multiple output drivers and includes a plurality of gear sets having the same diametral pitch. A common input shaft is operatively attached to each of the plurality of gear sets such that the gear sets rotate continuously and concurrently with rotation of the input shaft. Each of the output drivers is operatively attached to the output shaft and rotatably driven by a respective one of the plurality of gear sets. The multiple output drivers share a common axis of rotation with the output shaft. The output speed of the gear box may be changed by disconnecting one of the output drivers from a driven device and reconnecting another one of the output drivers to the driven device. The output speed of the gear box may be changed without having to disengage and/or change out any of the gears in the gear box.

The present invention provides methods and mechanisms to selectively fix or free a planetary carrier of a epicyclic gearbox, thereby allowing dual modal operation of the gearbox and facilitating selective operation of a device, such as a winch, having capacity to safely and efficiently operate in a high load heavy lifting utility mode and a low load light lifting personnel mode.

An actuator (1) including an engageable manual drive shaft (2) for the manual drive and a manual operating element (3), wherein the manual operating element (3) can be detachably connected to a housing (4) of the actuator (1). The manual operating element (3), in a position connected to the housing (4), forces the coupling of the manual drive shaft (2) to a gear (5) of the actuator (1). Also shown is an actuator (20) including a stacked structure (15) arranged in a housing (4) and a connecting element (21) for connecting the stacked structure (15) to the housing (4), wherein the connection between the housing (4) and the stacked structure (15) has an axial degree of freedom.

A shift on the fly transmission is provided. The shift on the fly transmission includes a continuously variable transmission portion, a discrete transmission portion, at least one input shaft and a disconnect clutch. The continuously variable transmission portion is operationally coupled to receive torque from an engine. The discrete transmission portion includes a gear assembly. The at least one input shaft is operationally coupled to an output of the continuously variable transmission portion. The disconnect clutch operationally couples the at least one input shaft to the discrete transmission portion. The disconnect clutch is further configured to selectively decouple torque from the at least one input shaft to the discrete transmission portion during a range ratio shift of the discrete transmission portion.