The present invention relates to a rotary drive (100) comprising: an output shaft (330); a motor (20), acting on the output shaft (330) via a downstream gear mechanism (30); an energy-store module with a linear line of action and with transmission elements (32, 326) to apply pressure circumferentially to an eccentric cam disk (331) arranged on the output shaft (330) for conjoint rotation therewith; and an intermediate shaft (320), being offset in relation said line of action and being provided between the motor (20) and the output shaft (330). The transmission elements (32, 326) comprise a roller lever (32), having a cam-follower roller (326) spaced apart from the intermediate shaft (320), wherein the cam-follower roller (326), pressed circumferentially against the eccentric cam disk (331), interacts with the output shaft (330). The energy-store module is arranged on the motor side in relation to the intermediate shaft (320).

An adjustable pedal block is an apparatus that limits the maximum travel speed of a vehicle. The apparatus may also require additional tools to disable the apparatus. The apparatus includes a block body, a pedal-receiving slot, a stopper assembly, and at least one spacer. The block body engages with a pedal and connects the stopper assembly with the pedal. The pedal-receiving slot allows the pedal to traverse into the block body while preserving the structural integrity of the block body. The stopper assembly offsets the pedal from the floor of the vehicle and limits the actuation of the pedal. The at least one spacer tightens the pedal with the block body and secures the position of the pedal within the pedal-receiving slot. The pedal and the at least one spacer are secured within the block body with a left clamp assembly and a right clamp assembly of the apparatus.

An adjustable pedal block is an apparatus that limits the maximum travel speed of a vehicle. The apparatus may also require additional tools to disable the apparatus. The apparatus includes a block body, a pedal-receiving slot, a stopper assembly, and at least one spacer. The block body engages with a pedal and connects the stopper assembly with the pedal. The pedal-receiving slot allows the pedal to traverse into the block body while preserving the structural integrity of the block body. The stopper assembly offsets the pedal from the floor of the vehicle and limits the actuation of the pedal. The at least one spacer tightens the pedal with the block body and secures the position of the pedal within the pedal-receiving slot. The pedal and the at least one spacer are secured within the block body with a left clamp assembly and a right clamp assembly of the apparatus.

A brake control system and method for autonomous vehicle control that includes a first brake pedal connected to a first brake arm, the first brake arm is connected to a first brake shaft, the first brake shaft extends a length between an upper end and lower end and includes a first actuator that expands and contracts in length. The lower end of the first brake shaft is operably connected to a first brake mechanism. An autonomous control system having a controller with microprocessor, memory and instructions is connected and controls operation of the first actuator. When the first brake shaft expands in length the first brake mechanism is engaged by the lower end of the first brake shaft thereby applying the brakes. The first brake mechanism is operable by depressing the first brake pedal in manual operation mode as well as by controlling the first actuator in autonomous operation mode.

A brake control system and method for autonomous vehicle control that includes a first brake pedal connected to a first brake arm, the first brake arm is connected to a first brake shaft, the first brake shaft extends a length between an upper end and lower end and includes a first actuator that expands and contracts in length. The lower end of the first brake shaft is operably connected to a first brake mechanism. An autonomous control system having a controller with microprocessor, memory and instructions is connected and controls operation of the first actuator. When the first brake shaft expands in length the first brake mechanism is engaged by the lower end of the first brake shaft thereby applying the brakes. The first brake mechanism is operable by depressing the first brake pedal in manual operation mode as well as by controlling the first actuator in autonomous operation mode.

A lever (3) for the temporary disengagement of a parking lock (2) of a vehicle drive unit (1). The lever (3) comprises a fixing piece (31) for fitting the lever (3) onto a parking lock shaft (26), which extends inside the vehicle drive unit (1) and serves to actuate the parking lock (2). The lever (3) is a hand lever with a gripping handle (32). The gripping handle (32) is designed to enable a user to apply a manual force for manual actuation of the lever (3). When the lever (3) is fitted on the parking lock shaft (26) and moved, the parking lock shaft (26) is moved from an engagement position to a disengagement position. In the disengagement position, by further movement of the gripping handle (32) into a locking position, the lever (3) is blocked against a reverse movement out of the disengagement position.

A lever (3) for the temporary disengagement of a parking lock (2) of a vehicle drive unit (1). The lever (3) comprises a fixing piece (31) for fitting the lever (3) onto a parking lock shaft (26), which extends inside the vehicle drive unit (1) and serves to actuate the parking lock (2). The lever (3) is a hand lever with a gripping handle (32). The gripping handle (32) is designed to enable a user to apply a manual force for manual actuation of the lever (3). When the lever (3) is fitted on the parking lock shaft (26) and moved, the parking lock shaft (26) is moved from an engagement position to a disengagement position. In the disengagement position, by further movement of the gripping handle (32) into a locking position, the lever (3) is blocked against a reverse movement out of the disengagement position.

An accelerator pedal device according to the present invention is provided with: a pedal arm (30) having an accelerator pedal; a resin housing (10) for supporting the pedal arm such that the pedal arm is swivelable about a prescribed axial line (S) between a rest position and a maximum stepping position; and a return spring (40) that applies a biasing force for returning the pedal arm to the rest position. The housing includes: a boss section (11i) through which a bolt (B) for fixing the housing to a vehicle body is made to pass; and a full open stopper (11n) for specifying the maximum stepping position in the vicinity of the boss section.

A latch mechanism for a pivoting bicycle rack provides a pivot release actuator on an extension that is added on to the bicycle rack. The latch mechanism comprises a connector body that is attached to the bicycle rack, and that may have an actuator for operating the pivot release. The rack extension assembly has an actuator and a linkage that connects to the connector body in the bicycle rack so that the actuator in the extension can release the pivot on the bicycle rack. The connector body may be shaped to guide the linkage during the process of attaching the extension assembly to the bicycle rack. The mechanism may be provided with a means for disconnecting the linkage from the connector body.

A latch mechanism for a pivoting bicycle rack provides a pivot release actuator on an extension that is added on to the bicycle rack. The latch mechanism comprises a connector body that is attached to the bicycle rack, and that may have an actuator for operating the pivot release. The rack extension assembly has an actuator and a linkage that connects to the connector body in the bicycle rack so that the actuator in the extension can release the pivot on the bicycle rack. The connector body may be shaped to guide the linkage during the process of attaching the extension assembly to the bicycle rack. The mechanism may be provided with a means for disconnecting the linkage from the connector body.