Methods, systems, and vehicles that control the temperature of a device included in the vehicle are presented herein. The temperature of the device is controlled by ventilating the device with drivetrain air, such as transmission cooling air. In some embodiments, the device is at a greater temperature than the drivetrain air, which cools the device. In other embodiments, the device is at a lesser temperature than the drivetrain air, which heats the device. The drivetrain air is provided to the device through an exhaust duct coupled to the vehicle’s transmission. The drivetrain exhaust air is preferably circulated by the transmission. The transmission may be a continuously variable transmission. The device may be an oxygen sensor that is coupled to an engine exhaust pipe. The oxygen sensor is thermally coupled to the engine exhaust and the engine exhaust pipe, which are at greater temperatures than the transmission exhaust air.

Methods, systems, and vehicles that control the temperature of a device included in the vehicle are presented herein. The temperature of the device is controlled by ventilating the device with drivetrain air, such as transmission cooling air. In some embodiments, the device is at a greater temperature than the drivetrain air, which cools the device. In other embodiments, the device is at a lesser temperature than the drivetrain air, which heats the device. The drivetrain air is provided to the device through an exhaust duct coupled to the vehicle’s transmission. The drivetrain exhaust air is preferably circulated by the transmission. The transmission may be a continuously variable transmission. The device may be an oxygen sensor that is coupled to an engine exhaust pipe. The oxygen sensor is thermally coupled to the engine exhaust and the engine exhaust pipe, which are at greater temperatures than the transmission exhaust air.

A drive clutch for a continuously variable transmission is provided. A movable sheave assembly is slidably mounted on a post. The movable sheave assembly includes a housing with an interior chamber. Spaced sheave ramps are positioned within the interior chamber. A spider is received within the housing of the moveable sheave and is statically mounted on the post. The spider includes spaced radially extending spider ramp arms. Each spider ramp arm includes at least one spider ramp. Roller centrifugal elements are received within the interior chamber of the housing of the movable sheave. Each roller centrifugal element includes a sheave ramp roller and at least one spider ramp roller. The sheave ramp roller is configured to engage one of an associated sheave ramp and associated spider ramp and the spider ramp roller is configured to engage the other of the associated sheave ramp and associated spider ramp.

A drive clutch for a continuously variable transmission is provided. A movable sheave assembly is slidably mounted on a post. The movable sheave assembly includes a housing with an interior chamber. Spaced sheave ramps are positioned within the interior chamber. A spider is received within the housing of the moveable sheave and is statically mounted on the post. The spider includes spaced radially extending spider ramp arms. Each spider ramp arm includes at least one spider ramp. Roller centrifugal elements are received within the interior chamber of the housing of the movable sheave. Each roller centrifugal element includes a sheave ramp roller and at least one spider ramp roller. The sheave ramp roller is configured to engage one of an associated sheave ramp and associated spider ramp and the spider ramp roller is configured to engage the other of the associated sheave ramp and associated spider ramp.

A belt-type transmission includes a drive pulley, a driven pulley, and a V-belt. In at least a certain range of a low-speed layout, a pulley-groove V angle of a portion of a drive pulley where the V-belt is wrapped is larger than an average belt V angle when the V-belt is bent at a curvature corresponding to a wrapping diameter of the V-belt with respect to the drive pulley, and a pulley-groove V angle of a portion of a driven pulley where the V-belt is wrapped is larger than an average belt V angle when the V-belt is bent at a curvature corresponding to the wrapping diameter of the V-belt with respect to the driven pulley.

A pulley assembly having a body, a shaft mount and a plurality of bolts is disclosed. The body is aligned to the shaft mount by providing a tight tolerance between a shoulder portion of the bolt and a neck portion of a counter sunk hole formed in the body. Additionally, an outer surface of the body may have a pattern of friction lines or patches formed by fusing particulate matter to the outer surface with heat generated by a laser beam.

A pulley assembly having a body, a shaft mount and a plurality of bolts is disclosed. The body is aligned to the shaft mount by providing a tight tolerance between a shoulder portion of the bolt and a neck portion of a counter sunk hole formed in the body. Additionally, an outer surface of the body may have a pattern of friction lines or patches formed by fusing particulate matter to the outer surface with heat generated by a laser beam.

Embodiments of the present disclosure describe a drive pulley for a continuously variable transmission including a stationary sheave with a stationary shaft, a movable sheave axially movable relative to the stationary sheave and in contact with the stationary shaft; a spider in contact with at least the moveable sheave and stationary shaft; a spring member, biasing the movable sheave axially away from the stationary sheave; at least one centrifugal actuator including an arm pivotally connected to one of the movable sheave and the spider, the arm pivoting away from the one of the movable sheave and the spider as a speed of rotation of the drive pulley increases, the arm pushing against another one of the movable sheave and the spider as the arm pivots away from the one of the movable sheave and the spider, thereby moving the movable sheave axially toward the stationary sheave, the at least one centrifugal actuator being disposed radially outward of the stationary sheave shaft; and a torque transfer assembly operatively connected to at least one of the spider and the movable sheave, the torque transfer assembly transferring torque between the spider and the movable sheave, the torque transfer assembly including, a torque bearing assembly and at least one roller assembly, positioned on a helixed torque pin, the torque pin connected to the spider; wherein as the roller assembly wears, the at least one roller assembly tracks along a helixed path of the torque pin in a distal direction from the bearing assembly.

A continuously variable transmission for a vehicle includes: a variator including; a primary pulley, a secondary pulley, and an endless annular member wound around the primary pulley and the secondary pulley, the secondary pulley being provided with an urging member configured to generate an urging force in a direction in which a groove width of the secondary pulley is decreased, and a transmission gear ratio of the variator being brought to a high side of a lowest transmission gear ratio by a centrifugal hydraulic operation of an oil stored in a pulley pressure receiving chamber of the primary pulley when a vehicle speed becomes equal to or greater than a predetermined vehicle speed when the vehicle is towed.

A multi-component idler or pulley that may be used with a belt and pulley system of an automobile is disclosed. The multi-component idler may have an external idler housing coupled to a mounting hub that is designed to be connected to a mounting surface of the belt and pulley system. The axial position of the external idler housing may be adjustable relative to the mounting hub using a threaded engagement or a plurality of shims between the components. The external idler housing and the mounting hub may be fastened to each other by bolts once their positions are adjusted relative to each other. Different types of external idler housing may also be used with the mounting hub. In this way, the serpentine belt of the belt and pulley system may be adjusted based on the user's needs.