A hydrokinetic torque-coupling device includes an impeller wheel, a turbine wheel, a stator, a casing, a stationary shaft operatively coupled to the stator so that a driven shaft axially extends through the stationary shaft, a first fluid passage formed axially through the driven shaft, a second fluid passage formed between the stationary shaft and the driven shaft, a third fluid passage formed radially adjacent to the stationary shaft, and a lock-up clutch including a piston housing member non-moveably attached to a center hub of the casing, and a lockup piston mounted to the center hub so as to be axially movable along the center hub. The first fluid passage hydraulically connected to a first hydraulic chamber. The second fluid passage hydraulically connected to a second hydraulic chamber. The third fluid passage hydraulically connected to a torus chamber defined between the impeller shell and the turbine shell.

A control device for a lock-up clutch includes a control unit, an abnormality determination unit, a release control unit and a prohibition unit. The control unit is configured to control an engagement state of a lock-up clutch, and to perform a slip lock-up control by performing a feedback control of an engagement hydraulic pressure to be a first slip amount during coasting. The abnormality determination unit is configured to determine an abnormality when a state continues with a slip amount being equal to or greater than a second slip amount. The release control unit is configured to release the lock-up clutch when the abnormality is determined. The prohibition unit is configured to allow the control unit to raise the engagement hydraulic pressure by a prescribed pressure, and to prohibit determination by the abnormality determination unit, when the transmission ratio is downshifted during coasting while the slip lock-up control is performed.

A torque converter includes a front cover, an impeller having an outer shell non-rotatably connected to the front cover, and a turbine. A lock-up clutch is disposed axially between the front cover and the turbine. The lock-up clutch includes a piston axially displaceable and having a first opening extending from a first axial side facing the front cover to a second axial side facing the turbine. A seal ring is fixed to the front cover and sealed to the piston. A first fluid chamber is formed at least in part by the piston and the turbine, and a second fluid chamber is formed at least in part by the front cover, the seal ring, and the piston. A valve is connected to the piston and is configured to seal the first opening in response to a pressure difference in the first and second fluid chambers.

A torque converter includes a case and a bypass clutch having a plate rotationally fixed to the case and a friction disk having a friction material configured to engage with the plate to rotationally couple the friction disk to the plate when the bypass clutch is engaged. The friction disk includes a first circumferential connection surface having a plurality of alternating convex and concave arcuate segments. A drive plate includes a second circumferential connection surface having a plurality of alternating convex and concave arcuate segments. The first and second connection surfaces are in meshing engagement with the convex segments of the friction disk meshing with the concave segments of the drive plate and with the concave segments of the friction disk meshing with the convex segments of the drive plate.

A torque converter, including: an impeller supported for rotation around an axis of rotation and including an impeller shell and at least one impeller blade non-rotatably connected to the impeller shell; a cover arranged to receive a rotational torque and including a distal portion including an interior surface in contact with the impeller shell, and an expanded radius portion extending from the distal portion in an axial direction and including an interior surface facing at least partly in a radially inner direction pointing toward the axis of rotation; and a turbine in fluid communication with the impeller and including a turbine shell and at least one turbine blade non-rotatably connected to the turbine shell. The interior surface of the expanded radius portion is located further in a radially outer direction than the interior surface of the distal portion.

A torque converter comprising a cover arranged to receive torque, an impeller having an impeller shell non-rotatably connected to the cover, and a turbine in fluid communication with the impeller and including a turbine shell is provided. In embodiments, the torque converter includes a lock-up clutch including a piston plate, an output hub connected to the turbine shell and arranged to non-rotatably connect to a transmission input shaft, and a seal plate disposed, at least partially, axially between the piston plate and the turbine shell, wherein the seal plate is connected to the cover and the piston plate. A flow plate may be connected to the seal plate and disposed axially between the seal plate and the turbine shell. A through-bore may be bounded in first and second opposite radial directions by the seal plate.

A torque converter comprising a front cover, an impeller having an impeller shell connected to the front cover, a turbine having a turbine shell, and a lock-up clutch configured to selectively couple the turbine shell to the impeller shell for torque transmission therebetween is disclosed. In embodiments, the lock-up clutch comprises a flange connected to the turbine shell that extends radially outward therefrom, a piston disposed axially between the front cover and the turbine, and a piston actuation plate connected to the piston. The piston may be connected to the front cover and configured to actuate the piston actuation plate to press the flange against the impeller shell to connect the turbine shell to the impeller shell for torque transmission therebetween.

A torque converter comprising a front cover, an impeller having an impeller shell connected to the front cover, a turbine having a turbine shell and at least one blade attached thereto, and a lock-up clutch configured to selectively couple the turbine shell to the impeller shell for torque transmission therebetween is provided. In embodiments, the lock-up clutch comprises a clutch plate connected to the turbine shell and extending radially outward therefrom. The clutch plate may include a first end, a second end, and a slot defined between the first and the second ends. The lock-up clutch further may include a piston connected to the front cover, and a piston actuation plate connected to the piston, wherein the piston is configured to actuate the piston actuation plate to close the lock-up clutch to connect the turbine shell to the impeller shell.

A torque converter, including: an impeller supported for rotation around an axis of rotation and including an impeller shell and at least one impeller blade non-rotatably connected to the impeller shell; a cover arranged to receive a rotational torque and including a distal portion including an interior surface in contact with the impeller shell, and an expanded radius portion extending from the distal portion in an axial direction and including an interior surface facing at least partly in a radially inner direction pointing toward the axis of rotation; and a turbine in fluid communication with the impeller and including a turbine shell and at least one turbine blade non-rotatably connected to the turbine shell. The interior surface of the expanded radius portion is located further in a radially outer direction than the interior surface of the distal portion.

Sealed piston apparatus and related systems for use with vehicle torque converters are disclosed. A disclosed vehicle torque converter includes a housing and a clutch including a piston in the housing. The piston has a first side partially defining a first chamber and a second side, opposite the first side, partially defining a second chamber. The vehicle torque converter also includes a first seal operatively coupled to the piston and a second seal operatively coupled to the piston. The vehicle torque converter also includes an orifice positioned on the piston radially inward relative to a clutch pack of the clutch. The orifice is configured to provide a flow of a fluid between the first and second chambers during a lockup on operation of the vehicle torque converter to lubricate the clutch. The first seal is a one-way seal.