Torque converter and hydrokinetic torque coupling device having turbine-piston lockup clutch with flow restrictor, and related methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16H-045/02
F16H-045/00
출원번호
US-0522393
(2014-10-23)
등록번호
US-9541181
(2017-01-10)
발명자
/ 주소
Depraete, Alexandre
출원인 / 주소
Valeo Embrayages
대리인 / 주소
Berenato & White, LLC
인용정보
피인용 횟수 :
5인용 특허 :
9
초록▼
A torque converter features an impeller including an impeller shell and impeller blades, a turbine-piston including a turbine-piston shell and turbine blades, and a restrictor. The turbine-piston shell is axially displaceable relative to the impeller shell to position the torque converter (or a hydr
A torque converter features an impeller including an impeller shell and impeller blades, a turbine-piston including a turbine-piston shell and turbine blades, and a restrictor. The turbine-piston shell is axially displaceable relative to the impeller shell to position the torque converter (or a hydrokinetic torque coupling device containing the torque converter) into and out of lockup mode. The restrictor positioned radially outward of the impeller blades and the turbine blades at an opening of a fluid passage connecting the torus chamber to an environment outside the torque converter.
대표청구항▼
1. A torque converter rotatable about a rotational axis and having a torus chamber, comprising: an impeller coaxially aligned with the rotational axis and comprising an impeller shell and a plurality of impeller blades;a turbine-piston coaxially aligned with and hydrodynamically drivable by the impe
1. A torque converter rotatable about a rotational axis and having a torus chamber, comprising: an impeller coaxially aligned with the rotational axis and comprising an impeller shell and a plurality of impeller blades;a turbine-piston coaxially aligned with and hydrodynamically drivable by the impeller to rotate about the rotational axis, the turbine-piston comprising a turbine-piston shell and a plurality of turbine blades, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of a lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the impeller; anda restrictor positioned radially outward of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber to an environment outside the torque converter, the restrictor constructed and arranged to restrict the fluid passageway;the impeller shell having a first surface and the turbine-piston shell comprising a turbine-piston flange having a second surface facing the first surface and axially displaceable toward and away from the first surface to position the torque converter into and out of lockup mode;the restrictor comprising an annular restrictor plate extending radially outwardly between the first surface of the impeller shell and the second surface of the turbine-piston flange of the turbine-piston shell and having at least one passage restricting hydraulic fluid flow between the torus chamber and the environment outside the torque converter. 2. The torque converter of claim 1, wherein in the lockup mode the first and second surfaces frictionally engage one another and wherein out of the lockup mode the first and second surfaces are spaced from one another. 3. The torque converter of claim 2, wherein the first surface or the second surface comprises a frictional lining for establishing the frictional engagement in the lockup mode. 4. The torque converter of claim 1, wherein the at least one passage comprises a plurality of passages spaced from one another circumferentially about the annular restrictor plate. 5. The torque converter of claim 1, wherein the at least one passage comprises a plurality of passages uniformly spaced from one another circumferentially about the annular restrictor plate. 6. The torque converter of claim 1, wherein the annular restrictor plate comprises a radially outer leg press-fit to the turbine-piston flange, and a radially inner leg having the at least one passage, and wherein the radially inner second leg is located radially inside of the radially outer first leg. 7. The torque converter of claim 6, further comprising a frictional lining configured to provide frictional engagement in the lockup mode. 8. The torque converter of claim 6, wherein the radially inner leg is received in an impeller shell recess of the impeller shell in the lockup mode. 9. A torque converter rotatable about a rotational axis and having a torus chamber, comprising: an impeller coaxially aligned with the rotational axis and comprising an impeller shell and a plurality of impeller blades;a turbine-piston coaxially aligned with and hydrodynamically drivable by the impeller to rotate about the rotational axis, the turbine-piston comprising a turbine-piston shell and a plurality of turbine blades, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the impeller; anda restrictor positioned radially outwardly of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber to an environment outside the torque converter, the restrictor configured to restrict the fluid passageway;the restrictor comprising an annular restrictor plate with at least one passage;the annular restrictor plate comprising a substantially flat ring having opposite edges, wherein in the lockup mode the opposite edges are received in an impeller shell recess of the impeller shell and a recess of the turbine-piston shell, respectively. 10. A torque converter rotatable about a rotational axis and having a torus chamber, comprising: an impeller coaxially aligned with the rotational axis and comprising an impeller shell and a plurality of impeller blades;a turbine-piston coaxially aligned with and hydrodynamically drivable by the impeller to rotate about the rotational axis, the turbine-piston comprising a turbine-piston shell and a plurality of turbine blades, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of a lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the impeller; anda restrictor positioned radially outward of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber to an environment outside the torque converter, the restrictor constructed and arranged to restrict the fluid passageway;the restrictor comprising an annular restrictor plate with at least one passage;the impeller shell having a first surface;the turbine-piston shell comprising a turbine-piston flange having a second surface facing the first surface and axially displaceable toward and away from the first surface to respectively position the torque converter into and out of the lockup mode;the annular restrictor plate being bonded or welded to the turbine-piston flange. 11. A torque converter rotatable about a rotational axis and having a torus chamber, comprising: an impeller coaxially aligned with the rotational axis and comprising an impeller shell and a plurality of impeller blades;a turbine-piston coaxially aligned with and hydrodynamically drivable by the impeller to rotate about the rotational axis, the turbine-piston comprising a turbine-piston shell and a plurality of turbine blades, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of a lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the impeller; anda restrictor positioned radially outward of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber to an environment outside the torque converter, the restrictor constructed and arranged to restrict the fluid passageway;the restrictor comprising an annular restrictor plate having a radially inner, axially extending leg without any passage or passages therethrough, the leg having an edge movable axially toward and away from a first edge of an impeller shell recess, the leg further having a radially outer surface facing and spaced from a second edge of the impeller shell recess to restrict the fluid passageway. 12. The torque converter of claim 11, wherein the impeller shell has a first surface, wherein the turbine-piston shell comprises a turbine-piston flange having a second surface facing the first surface and axially displaceable toward and away from the first surface to position the torque converter into and out of the lockup mode, and wherein the annular restrictor plate is welded to the turbine-piston flange. 13. A torque converter rotatable about a rotational axis and having a torus chamber, comprising: an impeller coaxially aligned with the rotational axis and comprising an impeller shell and a plurality of impeller blades;a turbine-piston coaxially aligned with and hydrodynamically drivable by the impeller to rotate about the rotational axis, the turbine-piston comprising a turbine-piston shell and a plurality of turbine blades, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of a lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the impeller; anda restrictor positioned radially outwardly of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber to an environment outside the torque converter, the restrictor configured to restrict the fluid passageway;the restrictor comprising an annular restrictor plate with at least one passage;the impeller shell having a first surface;the turbine-piston shell comprising a turbine-piston flange having a second surface facing the first surface and axially displaceable toward and away from the first surface to respectively position the torque converter into and out of the lockup mode;the annular restrictor plate having a radially outer hook-shaped leg engaging the turbine-piston flange. 14. The torque converter of claim 13, further comprising a frictional lining secured to a surface of the annular restrictor plate facing the first surface. 15. The torque converter of claim 13, further comprising a first frictional lining secured to a first surface of the annular restrictor plate facing the first surface, and a second frictional lining secured to an opposite second surface of the annular restrictor plate facing the turbine-piston flange. 16. A torque converter rotatable about a rotational axis and having a torus chamber, comprising: an impeller coaxially aligned with the rotational axis and comprising an impeller shell and a plurality of impeller blades, the impeller shell having a first surface;a turbine-piston coaxially aligned with and hydrodynamically drivable by the impeller to rotate about the rotational axis, the turbine-piston comprising a turbine-piston shell and a plurality of turbine blades, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the impeller;the turbine-piston shell comprising a turbine-piston flange having a second surface facing the first surface and axially displaceable toward and away from the first surface to position the torque converter into and out of the lockup mode;a restrictor positioned radially outward of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber to an environment outside the torque converter, the restrictor configured to restrict the fluid passageway, the restrictor comprising an annular restrictor plate with at least one passage; andrivets securing the annular restrictor plate to the turbine-piston flange. 17. A hydrokinetic torque coupling device for coupling together a driving shaft and a driven shaft, the hydrokinetic torque coupling device rotatable about a rotational axis and comprising: a casing comprising an impeller shell and a casing shell interconnected to and non-rotatable relative to the impeller shell, the casing being rotatable about the rotational axis and having a damper chamber;torque converter coaxially aligned with and rotatable about the rotational axis, the torque converter having a torus chamber and comprising an impeller comprising the impeller shell and a plurality of impeller blades;a turbine-piston hydrodynamically drivable by the impeller and comprising a turbine-piston shell, a plurality of turbine blades, and a drive component, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of a lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the casing; anda restrictor positioned radially outward of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber and the damper chamber, the restrictor constructed and arranged to restrict the fluid passageway; anda damper assembly located in the damper chamber and comprising an input part operatively connected to the drive component of the turbine-piston and an output part operatively connectable to an output hub;the impeller shell having a first surface and the turbine-piston shell comprising a turbine-piston flange having a second surface facing the first surface and axially displaceable toward and away from the first surface to position the torque converter into and out of the lockup mode;the restrictor comprising an annular restrictor plate extending radially outwardly between the first surface of the impeller shell and the second surface of the turbine-piston flange of the turbine-piston shell and having at least one passage restricting hydraulic fluid flow between the torus chamber and the environment outside the torque converter. 18. The hydrokinetic torque coupling device of claim 17, further comprising a drive member interconnecting the turbine-piston shell to the damper assembly, wherein the damper assembly comprises an intermediate member, a first set of circumferentially extending elastic damping members drivingly coupling the drive member to the intermediate member, a driven member connected to and non-rotatable relative to the output hub, a second set of circumferentially extending elastic damping members drivingly coupling the intermediate member to the driven member, and a centrifugal pendulum oscillator mounted to the intermediate member. 19. The hydrokinetic torque coupling device of claim 17, further comprising a drive member interconnecting the turbine-piston shell to the damper assembly, wherein the damper assembly comprises an intermediate member, a first set of circumferentially extending elastic damping members drivingly coupling the drive member to the intermediate member, a driven member connected to and non-rotatable relative to the output hub, a second set of circumferentially extending elastic damping members drivingly coupling the intermediate member to the driven member, and a spring mass system coupled to the intermediate member. 20. The hydrokinetic torque coupling device of claim 17, further comprising a stator situated between the impeller and the turbine-piston. 21. A method of assembling a hydrokinetic torque coupling device for coupling a driving shaft and a driven shaft together, comprising: providing a torque converter rotatable about a rotational axis and having a torus chamber, the torque converter comprising an impeller comprising an impeller shell and a plurality of impeller blades;a turbine-piston hydrodynamically drivable by the impeller and comprising a turbine-piston shell, a plurality of turbine blades, and a drive component; anda restrictor positioned radially outward of the impeller blades and the turbine blades at an opening of a fluid passageway connecting the torus chamber and a damper chamber, the restrictor constructed and arranged to restrict the fluid passageway;the impeller shell having a first surface and the turbine-piston shell comprising a turbine-piston flange having a second surface facing the first surface and axially displaceable toward and away from the first surface to position the torque converter into and out of the lockup mode;the restrictor comprising an annular restrictor plate extending radially outwardly between the first surface of the impeller shell and the second surface of the turbine-piston flange of the turbine-piston shell and having at least one passage restricting hydraulic fluid flow between the torus chamber and the environment outside the torque converter;operatively connecting the torque converter to a damper assembly so that an input part of the damper assembly is connected to the drive component of the turbine-piston; andoperatively connecting a casing shell to the impeller shell of the torque converter to form a casing that is rotatable about the rotational axis and has a damper chamber in which the damper assembly is located, the turbine-piston being axially displaceable relative to the impeller shell to position the torque converter into and out of a lockup mode in which the turbine-piston is mechanically locked to and non-rotatable relative to the casing.
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