An input drum of an automotive transmission for motor vehicles is formed from a plurality of components assembled together. The input drum has a hub having outwardly extending tabs, and a clutch cylinder having internal grooves for receiving the tabs when the hub is assembled to the clutch cylinder. The hub and the clutch cylinder are arranged such that openings in the hub and openings in an inwardly extending circumferential flange of the clutch cylinder are in axial alignment when the tabs of the hub are received in the internal grooves of the clutch cylinder. The hub and clutch cylinder are assembled together by connecting elements extending through the aligned openings in the hub and clutch cylinder. An input shaft is permanently or removably attached to the hub.

A device and method for allowing a powertrain gear in an off-road vehicle to be changed to a second powertrain gear having a different number of drive teeth without changing the number of reluctor teeth, by replacing the first powertrain gear with a second powertrain gear having a different number of drive teeth but the same number of reluctor teeth.

A device and method for allowing a powertrain gear in an off-road vehicle to be changed to a second powertrain gear having a different number of drive teeth without changing the number of reluctor teeth, by replacing the first powertrain gear with a second powertrain gear having a different number of drive teeth but the same number of reluctor teeth.

A system and method for modifying a stock transmission is provided. The stock transmission includes an existing ring gear and main shaft. A modified gearset is provided, wherein the modified gearset is capable of replacing a stock gearset that includes at least a stock sun gear and at least a stock pinion gear. The modified gearset includes a replacement sun gear, the replacement sun gear having an increased tooth count and an increased diameter as compared to the stock sun gear. The modified gearset further includes a replacement pinion gear, the replacement pinion gear having a decreased tooth count and a decreased diameter as compared to the stock pinion gear. The replacement sun gear and the replacement pinion gear are capable of meshing with the existing ring gear. Accordingly, the stock transmission performance can be modified with minimal modifications to the stock transmission itself.

A kit for modifying an OE vehicle transmission includes a replacement forward piston housing, forward clutch hub and a forward clutch and a replacement direct piston housing, direct clutch hub and a direct clutch. A drum extends between and operably connects the replacement forward piston housing and direct piston housing. The kit includes a replacement sprag shaft. The forward clutch hub and forward clutch and the direct clutch hub and direct clutch are positioned between the forward piston housing and the direct piston housing. At least a portion of the forward clutch and at least a portion of the direct clutch are operably mounted to the drum. The forward piston housing and direct piston housing do not counter rotate relative to one another. A power flow module for an OE vehicle automatic transmission is disclosed.

An outboard motor for a marine vessel application, transmission devices for such an outboard motor, and related methods of making, operating, and modifying attributes of same, are disclosed herein. In at least one embodiment, the motor includes a horizontal-crankshaft engine in an upper portion of the motor, positioned substantially above a trimming axis of the motor. In at least another embodiment, first, second and third transmission devices are employed to transmit rotational power from the engine to propeller(s). In at least a further embodiment, the motor is made to include a rigid interior assembly formed by the engine, multiple transmission devices, and a further structural component. In further embodiments, the motor includes numerous cooling, exhaust, and/or oil system components, and/or other transmission features. In at least some additional embodiments, a transmission device of the motor is configured to facilitate gear ratio variation and/or includes an integrated oil pump.

A transmission is provided including a splitter shaft having a concentric cavity defined in a distal end thereof and an outer wall surrounding the cavity. The outer wall has an increased thickness in order to reduce failure and fracturing in the outer wall area. A bearing hub adapted for supporting a larger bearing is also provided. The improved transmission may include a system for utilizing existing lubrication lines in order to lubricate a center section of the transmission. The components of the present invention may be provided as part of a kit for retrofitting an existing transmission in order to reduce failures and increase lifespan.

A power flow module for a vehicle automatic transmission. The power flow module includes a direct piston housing, a direct clutch hub, and a direct clutch. A sprag shaft is splined to the direct clutch hub. A bushing support is positioned between the direct piston housing and the sprag shaft to provide at least one of alignment, rigidity, and support thereto.

A vehicle differential assembly comprising: a casing; a rotatable carrier provided within the casing; a pair of side gears, each side gear being meshingly engaged with one or more pinion gears rotatably coupled to the carrier, wherein the side gears are integrally formed with respective stub shafts that extend beyond both the carrier and casing, the stub shafts being solid and comprising radially external splines that are configured to engage respective drive shaft assemblies.

A filter configured to replace an original filter disposed in a cavity in a transmission, increases fluid flow rate through the filter. An example filter includes a bottom structure configured to mate with the bottom portion of the cavity, and the bottom structure defines an outlet through which oil passes from the cavity to the outlet of the housing. The filter also includes a filter media having a bottom portion and an opposite top portion, the bottom portion being coupled to the bottom structure of the filter. In the example filter system, the outer diameter of the bottom portion of the filter media is greater than the outer diameter of the top portion of the filter media.