A device for the internal actuation of a gearbox includes a main axle mounted such that it can slide through a housing, and has a transverse extension capable of acting on an intermediate arm which is designed to conduct a gearshift fork. The intermediate longitudinal member is mounted translationally with respect to the housing.

A device for the internal actuation of a gearbox includes a main axle mounted such that it can slide through a housing, and has a transverse extension capable of acting on an intermediate arm which is designed to conduct a gearshift fork. The intermediate longitudinal member is mounted translationally with respect to the housing.

A two-speed transmission system for an electric vehicle is disclosed. The system includes a housing, a one-way clutch assembly adapted to be mounted on an input shaft and to be coupled with a first gear drive assembly, a multi-plate friction clutch assembly adapted to be mounted on the input shaft and having a clutch hub disposed in the housing and mounted on the input shaft, a second gear drive assembly freely mounted on the input shaft and having external spline on an outer diameter adapted to be engaged with the clutch hub of the multi-plate friction clutch assembly. The one-way clutch assembly is adapted to rotate to operate the vehicle in the first gear drive when the input shaft is rotated in a drive direction, and the multi-plate friction clutch assembly is in a disengaged state when the vehicle is operated in the first gear drive.

A power transmission apparatus includes a shift drum, a clutch, a clutch lifter, and a transmission body. The shift drum makes a dowel be extracted/inserted between a shifter and a shift gear. The clutch has first friction plates and second friction plates. The first friction plates rotate around a main shaft by receiving power from a crankshaft. The second friction plates are disposed alternately with the first friction plates and are relatively non-rotatably supported by the main shaft. The clutch lifter is displaced between a connection position at which power is transmitted by the clutch and a disconnection position at which the transmission of the power is disconnected. The transmission body transmits a driving force to the shift drum while the clutch lifter moves from the connection position to the disconnection position, in accordance with rotation of a shift spindle that rotates in accordance with a driving force.

An actuator unit for a shiftable transmission, in particular a transmission of an electrically driven utility vehicle, has an actuating element which is designed to adjust at least two shift positions in the transmission. The actuator unit is designed to be provided as a separate unit at least partially within the transmission. A transmission having such an actuator unit is disclosed.

A transmission includes a first shaft with two gears adapted for connecting to a motor and a second shaft with two corresponding gears adapted for connecting to a driveshaft; a shift drum selectively controlling torque transfer between the shafts and defining therein two grooves; a shift rod translatable along a rod axis with a driving member fixedly connected thereto and engaging one groove, at least a portion of the groove causing the driving member and the shift rod to translate along the rod axis upon rotation of the shift drum; an engagement dog disposed on the second shaft for selectively engaging the gears of the second shaft; two biasing members disposed around the shift rod; a fork rod supporting a shift fork slidably connected to the fork rod and the shift rod, the shift fork being engaged in another groove of the shift drum.

A transmission includes a first shaft with two gears adapted for connecting to a motor and a second shaft with two corresponding gears adapted for connecting to a driveshaft; a shift drum selectively controlling torque transfer between the shafts and defining therein two grooves; a shift rod translatable along a rod axis with a driving member fixedly connected thereto and engaging one groove, at least a portion of the groove causing the driving member and the shift rod to translate along the rod axis upon rotation of the shift drum; an engagement dog disposed on the second shaft for selectively engaging the gears of the second shaft; two biasing members disposed around the shift rod; a fork rod supporting a shift fork slidably connected to the fork rod and the shift rod, the shift fork being engaged in another groove of the shift drum.

A transmission system, including: a first input shaft (1) that is arranged to receive drive directly from a drive source (80); a second input shaft (3) that is arranged to receive drive from the drive source (80) via a drive interruption means (86), such as a friction clutch device; a first lay shaft (5); a gear element (19) rotatably mounted on the first input shaft (1); a gear element (15) mounted on the first lay shaft (5); a first selector assembly (29) arranged to selectively lock the gear element (19) rotatably mounted on the first input shaft (1) for rotation with the first input shaft (1) and to selectively lock the gear element (15) mounted on the first lay shaft (5) for rotation with the first input shaft (1), the first selector assembly (29) comprising a single engagement ring (35) that includes a first side (35a) having a first set of engagement elements (28a), wherein each engagement element (28a) has a drive face (43a) arranged to drivingly engage in a first rotational direction a first set of drive formations (20a) associated with the gear element (19) rotatably mounted on the first input shaft (1) and a non-driving face (45a), such as a ramp, that is arranged to slip with respect to the first set of drive formations (20a) in a second rotational direction, thereby preventing driving engagement with the first set of drive formations (20a), and a second side (35b) having a second set of engagement elements (28b), wherein each engagement element (28b) has a drive face (43b) arranged to drivingly engage in the second rotational direction a second set of drive formations (20b) associated with the gear element (15) mounted on the first lay shaft (5) and a non-driving face (45b), such as a ramp, that is arranged to slip with respect to the second set of drive formations (20b) in the first rotational direction, thereby preventing driving engagement the second set of drive formations (20b).

A transmission system, including: a first input shaft (1) that is arranged to receive drive directly from a drive source (80); a second input shaft (3) that is arranged to receive drive from the drive source (80) via a drive interruption means (86), such as a friction clutch device; a first lay shaft (5); a gear element (19) rotatably mounted on the first input shaft (1); a gear element (15) mounted on the first lay shaft (5); a first selector assembly (29) arranged to selectively lock the gear element (19) rotatably mounted on the first input shaft (1) for rotation with the first input shaft (1) and to selectively lock the gear element (15) mounted on the first lay shaft (5) for rotation with the first input shaft (1), the first selector assembly (29) comprising a single engagement ring (35) that includes a first side (35a) having a first set of engagement elements (28a), wherein each engagement element (28a) has a drive face (43a) arranged to drivingly engage in a first rotational direction a first set of drive formations (20a) associated with the gear element (19) rotatably mounted on the first input shaft (1) and a non-driving face (45a), such as a ramp, that is arranged to slip with respect to the first set of drive formations (20a) in a second rotational direction, thereby preventing driving engagement with the first set of drive formations (20a), and a second side (35b) having a second set of engagement elements (28b), wherein each engagement element (28b) has a drive face (43b) arranged to drivingly engage in the second rotational direction a second set of drive formations (20b) associated with the gear element (15) mounted on the first lay shaft (5) and a non-driving face (45b), such as a ramp, that is arranged to slip with respect to the second set of drive formations (20b) in the first rotational direction, thereby preventing driving engagement the second set of drive formations (20b).

Proposed is a transmission of a working vehicle. The transmission of a working vehicle includes an ultra-low speed gearbox having an ultra-low speed shift rod which moves axially and an ultra-low speed shift fork coupled to the ultra-low speed shift rod, a sub-gearbox which operates by receiving power shifted from the ultra-low speed gearbox and has two sub-shift rods and two sub-shift forks, and a stopper which is disposed between the ultra-low speed gearbox and the sub-gearbox and limits an ultra-low speed shift stage engagement of the ultra-low speed gearbox when the sub-gearbox is engaged in a specific stage (a sub-shift highest stage), thereby preventing damage or breakage to parts of an associated transmission due to the rapid rotation of the sub-gearbox during an ultra-low speed and high load operation.