A stator support device for supporting a stator of a torque converter includes a one-way coupling device including an outer race disposed radially inwardly of the stator, and an inner race disposed radially outwardly of a rotation axis of the torque converter, an end bearing that holds a spacing between the outer race and the inner race, a thrust bearing race disposed adjacent to an end face of the outer race and arranged to restrict movements of the end bearing in a direction of the rotation axis, and a thrust bearing disposed at a transfer surface of the thrust bearing race and adapted to bear a load applied to the one-way coupling device.

A torque converter including a stator rotatable about an axis and having a stator hub, and a thrust bearing mounted to the stator hub. The stator hub has a recessed portion that is recessed from one axial end face of the stator hub. The thrust bearing includes a bearing race received by the recessed portion of the stator hub. A coupling connects the bearing race with the stator hub. The coupling includes a first engaging part disposed on an outer periphery of the bearing race and a second engaging part engaged with the first engaging part and disposed on an outer periphery of the recessed portion in opposed relation to the outer periphery of the bearing race. The first and second engaging parts cooperate to prevent a relative rotation between the bearing race and the stator.

A vehicle torque converter for forming a circulation path of an oil and transmitting a rotary torque is provided which includes an impeller, turbine and stator, each having a plurality of blades. Each blade of the stator is divided into a radially inner half portion and a radially outer half portion in a radial direction of the circulation path. The radially inner half portion has a front edge that is set back from a front edge of the radially outer portion, and is inclined with respect to a direction of a rotation axis of the torque converter by a larger angle than the radially outer half portion.

A stator for a hydrodynamic torque converter which is produced by injection molding with axially drawn dies. The stator hub has stator blades produced by use of a thermoplastic material to fill the dies in the injection molding process. The stator blades are positioned relative to one another on the stator hub in such a way that the flow outlet of every stator blade is arranged at an offset of only the width of a gap relative to the flow inlet of the subsequent stator blade in the circumferential direction.

A stator disposed between an impeller and a turbine of a torque converter including: an annular shell; an annular core disposed radially outside the shell; and a plurality of stator blades connecting the shell and the core. Each blade comprises a leading edge adjacent to the turbine, a trailing edge adjacent to the impeller, a streamlined concave surface extending from the leading edge to the trailing edge and substantially facing the turbine, and a streamlined convex surface extending from the leading edge to the trailing edge and substantially facing the impeller. A cross-sectional area of the stator blade increases as it approaches the shell. A predetermined gap is formed between the neighboring stator blades such that the neighboring stator blades do not overlap with one another.