Continuously variable planetary gear set
First Claim
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1. A hybrid vehicle power distribution system, comprising:
- an internal combustion engine;
an electric motor;
a transmission, the transmission further comprising;
a plurality of balls distributed radially and in a plane about a longitudinal transmission axis, each ball having a tiltable ball axis about which it rotates;
a rotatable input disc positioned adjacent to the balls and in contact with each of the balls;
a rotatable output disc positioned adjacent to the balls on a side opposite the input disc and also in contact with each of the balls;
an idler that is coaxial with and rotatable about the transmission axis and that is positioned radially inward of and in contact with each of the balls;
at least a first convex curved shift guide located adjacent to at least a first end of the idler;
a second convex curved shift guide located adjacent a second end of the idler, wherein the first and second convex curved shift guides are adapted to move in unison and wherein the ball axes are collectively responsive in their tilted alignment to an axial movement of the first and second convex curved shift guides;
a support cage adapted to maintain the angular distribution of the balls about the transmission axis and further adapted to guide the ball axes as they tilt; and
a ball-leg assembly for each ball, each ball-leg assembly comprising;
a plurality of ball axles, each ball axle running through a hole bored through a respective ball and extending at both ends beyond the surface of the ball;
a plurality of ball legs, two ball legs for each ball axle, each ball leg attached at a first end to a respective end of a respective axle and having a second end extending radially inward toward and in operable contact with one of the first or second convex curved shift guides;
wherein the transmission is adapted to accept torque from at least one of the internal combustion engine and the electric motor and to distribute that torque to an output drive train,wherein the transmission is further adapted to provide output torque to a planetary drive comprising;
a plurality of planets distributed in a plane about a planetary axis, each planet having a tiltable planet axis about which it rotates;
a rotatable input disc adjacent to and in contact with each of the planets;
a rotatable output disc adjacent to and in contact with each of the planets;
a rotatable planetary idler coaxial with and rotatable about the planetary axis; and
at least one convex curved shift guide coaxial about the planetary axis and adjacent a first side of the planetary idler, wherein the planet axes are adapted to collectively tilt as a function of the axial position of the shift guide.
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Abstract
A continuously variable planetary gear set is described having a generally tubular idler, a plurality of balls distributed radially about the idler, each ball having a tiltable axis about which it rotates, a rotatable input disc positioned adjacent to the balls and in contact with each of the balls, a rotatable output disc positioned adjacent to the balls opposite the input disc and in contact with each of the balls such that each of the balls makes three-point contact with the input disc, the output disc and the idler, and a rotatable cage adapted to maintain the axial and radial position of each of the balls, wherein the axes of the balls are oriented by the axial position of the idler.
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Citations
20 Claims
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1. A hybrid vehicle power distribution system, comprising:
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an internal combustion engine; an electric motor; a transmission, the transmission further comprising; a plurality of balls distributed radially and in a plane about a longitudinal transmission axis, each ball having a tiltable ball axis about which it rotates; a rotatable input disc positioned adjacent to the balls and in contact with each of the balls; a rotatable output disc positioned adjacent to the balls on a side opposite the input disc and also in contact with each of the balls; an idler that is coaxial with and rotatable about the transmission axis and that is positioned radially inward of and in contact with each of the balls; at least a first convex curved shift guide located adjacent to at least a first end of the idler; a second convex curved shift guide located adjacent a second end of the idler, wherein the first and second convex curved shift guides are adapted to move in unison and wherein the ball axes are collectively responsive in their tilted alignment to an axial movement of the first and second convex curved shift guides; a support cage adapted to maintain the angular distribution of the balls about the transmission axis and further adapted to guide the ball axes as they tilt; and a ball-leg assembly for each ball, each ball-leg assembly comprising;
a plurality of ball axles, each ball axle running through a hole bored through a respective ball and extending at both ends beyond the surface of the ball;
a plurality of ball legs, two ball legs for each ball axle, each ball leg attached at a first end to a respective end of a respective axle and having a second end extending radially inward toward and in operable contact with one of the first or second convex curved shift guides;wherein the transmission is adapted to accept torque from at least one of the internal combustion engine and the electric motor and to distribute that torque to an output drive train, wherein the transmission is further adapted to provide output torque to a planetary drive comprising; a plurality of planets distributed in a plane about a planetary axis, each planet having a tiltable planet axis about which it rotates; a rotatable input disc adjacent to and in contact with each of the planets;
a rotatable output disc adjacent to and in contact with each of the planets;a rotatable planetary idler coaxial with and rotatable about the planetary axis; and
at least one convex curved shift guide coaxial about the planetary axis and adjacent a first side of the planetary idler, wherein the planet axes are adapted to collectively tilt as a function of the axial position of the shift guide. - View Dependent Claims (2, 3, 4, 5, 17, 18)
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6. A hybrid power management system comprising:
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an internal combustion engine; an electric motor; a torque distribution mechanism adapted to accept torque from the internal combustion engine and the electrical motor, the torque distribution mechanism having first and second rotational speed variators, each of the variators further comprising; a plurality of balls distributed radially and in a plane about a longitudinal transmission axis, each ball having a tiltable ball axis about which it rotates; a rotatable input disc positioned adjacent to the balls and in contact with each of the balls; a rotatable output disc positioned adjacent to the balls on a side opposite the input disc and also in contact with each of the balls; an idler that is coaxial with and rotatable about the transmission axis and that is positioned radially inward of and in contact with each of the balls; a first convex curved shift guide located adjacent to at least a first end of the idler; a second convex curved shift guide located adjacent to a second end of the idler, wherein the first and second convex curved shift guides are adapted to move in unison and wherein the ball axes are collectively responsive in their tilted alignment to an axial movement of the first and second convex curved shift guides; a support cage adapted to maintain the angular distribution of the balls about the transmission axis and further adapted to guide the ball axes as they tilt; and a ball-leg assembly for each ball, each ball-leg assembly comprising;
a plurality of ball axles, each ball axle running through a hole bored through a respective ball and extending at both ends beyond the surface of the ball;
a plurality of ball legs, two ball legs for each ball axle, each ball leg attached at a first end to a respective end of a respective axle and having a second end extending radially inward toward and in operable contact with one of the first or second convex curved shift guides;wherein the torque distribution mechanism is adapted to accept torque from at least one of the internal combustion engine and the electric motor and to distribute that torque to an output drive train and wherein the transmission is further adapted to provide output torque to a planetary drive comprising; a plurality of planets distributed in a plane about a planetary axis, each planet having a tiltable planet axis about which it rotates; a rotatable input disc adjacent to and in contact with each of the planets;
a rotatable output disc adjacent to and in contact with each of the planets;a rotatable planetary idler coaxial with and rotatable about the planetary axis; and
at least one convex curved shift guide coaxial about the planetary axis and adjacent a first side of the planetary idler, wherein the planet axes are adapted to collectively tilt as a function of the axial position of the shift guide. - View Dependent Claims (7, 8, 9, 19, 20)
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10. A vehicle power train, comprising:
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an electric motor having a rotor and a stator; at least one speed variator, the speed variator comprising; a plurality of balls distributed radially and in a plane about a longitudinal variator axis, each ball having a tiltable ball axis about which it rotates; an input disc coaxial with and rotatable about the variator axis and positioned adjacent to the balls and in contact with each of the balls; an output disc coaxial with and rotatable about the variator axis and positioned adjacent to the balls on a side opposite the input disc and also in contact with each of the balls; a cylindrical support idler that is coaxial with and rotatable about the variator axis and that is positioned radially inward of and in contact with each of the balls; and at least a first convex curved shift guide located adjacent to at least a first end of the idler, a second convex curved shift guide located adjacent to a second end of the idler, wherein the first and second convex curved shift guides are adapted to move in unison and wherein the ball axes arc collectively responsive in their tilted alignment to an axial movement of the first and second convex curved shift guides; a support cage adapted to maintain the angular distribution of the balls about the transmission axis and further adapted to guide the ball axes as they tilt; a ball-leg assembly for each ball, each ball-leg assembly comprising;
a plurality of ball axles, each ball axle running through a hole bored through a respective ball and extending at both ends beyond the surface of the ball;
a plurality of ball legs, two ball legs for each ball axle, each ball leg attached at a first end to a respective end of a respective axle and having a second end extending radially inward toward and in operable contact with one of the first or second convex curved shift guides; andwherein the rotor is integral with one of the input disc and the output disc and wherein the speed variator is coupled to a planetary gear set comprising; a plurality of planets distributed in a plane about a planetary axis, each planet having a tiltable planet axis about which it rotates; a rotatable input disc adjacent to and in contact with each of the planets;
a rotatable output disc adjacent to and in contact with each of the planets;a rotatable planetary idler coaxial with and rotatable about the planetary axis; and
at least one convex curved shift guide coaxial about the planetary axis and adjacent a first side of the planetary idler, wherein the planet axes are adapted to collectively tilt as a function of the axial position of the shift guide. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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Specification
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Current AssigneeEnviolo BV
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Original AssigneeFallbrook Technologies Incorporated
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InventorsAllen, David J., Smithson, Robert A., Miller, Donald C.
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Primary Examiner(s)Lewis; Tisha D.
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Application NumberUS10/949,741Publication NumberTime in Patent Office1,068 DaysField of Search475/215, 475/198, 475/189, 475/4, 475/5, 903/902, 476/40, 476/36, 476/38US Class Current475/215CPC Class CodesB62D 5/0409 Electric motor acting on th...B62D 5/0475 Controlling other elementsB62M 9/08 involving eccentrically- mo...F16H 15/28 with external friction surfaceF16H 15/52 in which a member of unifor...F16H 37/084 at least one power path bei...F16H 61/6649 characterised by the means ...Y10S 903/918 Continuously variableY10S 903/945 Characterized by control of...Y10S 903/951 Assembly or relative locati...Y10T 74/19251 Control mechanismY10T 74/19555 Varying speed ratioY10T 74/1956 Adjustable
