Method of changing speed and torque with a continuously variable vane-type machine
First Claim
1. A method of changing the speed and torque transmitted from an input shaft to an output shaft, comprising:
- driving a rotating vane pump rotor with said input shaft to sweep an interior swept volume within a pump cam ring surrounding said pump rotor with vanes projecting radially from said vane pump rotor;
pressurizing fluid in said cam ring by rotating said vanes into a pressurizing region having a decreasing volume in the direction of vane rotation;
passing fluid from said pressurizing region directly into an expanding region of a vane motor defined within a motor cam ring concentric to a motor vane stator, said motor cam ring being mechanically coupled to said pump cam ring and to said output shaft;
exerting torque on said output shaft from said pump and motor cam rings by torque exerted on said pump cam ring by said pump rotor, and by said pressurized fluid acting on and said pump cam ring and said motor cam ring;
decreasing the volume of said pressurizing region to decrease the displacement of said pump and increase the torque while decreasing the speed of said output shaft by exerting a radial force on said pump cam ring to change radial spacing of portions of said pump cam ring from said pump rotor, said radial force being axially symmetric over the axial width of said pump cam ring.
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Accused Products
Abstract
A continuously variable transmission comprises a housing, an input shaft, an output shaft. The input shaft is coupled to a vane rotor of a vane-type pump having radially extending pump vanes driven by the pump rotor around a pump working volume between two axially spaced pump side plates surfaces and within an inside surface of a flexible pump cam ring spaced radially from the pump rotor. The pump vanes each have a radial end edge remote from the pump rotor and in contact with the pump cam surface. A stator hub is fixed to the housing and has radially extending stator vanes projecting radially into a stator working volume between two axially spaced stator side plate surfaces and between a cam surface of a flexible stator cam ring and the radially spaced surface of the stator hub. The stator vanes each have a radial end edge remote from the hub and in contact with the stator cam surface. Torque is transmitted from the stator cam ring and the pump cam ring to the output shaft by a torque coupling. Fluid openings are provided for passing fluid pressurized in the pump directly from the pump working volume into the stator, and for passing fluid displaced from the stator directly from the stator working volume into suction sectors of the pump. A cam ring adjustment mechanism is mounted in the housing for changing the radial spacing of portions of the pump cam ring from the pump rotor, and for changing the radial spacing of portions of the stator cam ring from the stator hub. Rotation of the pump rotor by the input shaft pressurizes fluid in the pump working volume which acts against the pump cam ring to generate torque that is transmitted to the output shaft, and the pressurized fluid in the pump working volume communicates through the fluid openings to pressurize fluid in the stator working volume which acts against the stator cam ring to generate additional torque that is transmitted to the output shaft, and the cam adjustment mechanism is operated to reciprocally change the displacement of the pump and the stator to change the transmission ratio of the transmission.
20 Citations
8 Claims
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1. A method of changing the speed and torque transmitted from an input shaft to an output shaft, comprising:
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driving a rotating vane pump rotor with said input shaft to sweep an interior swept volume within a pump cam ring surrounding said pump rotor with vanes projecting radially from said vane pump rotor; pressurizing fluid in said cam ring by rotating said vanes into a pressurizing region having a decreasing volume in the direction of vane rotation; passing fluid from said pressurizing region directly into an expanding region of a vane motor defined within a motor cam ring concentric to a motor vane stator, said motor cam ring being mechanically coupled to said pump cam ring and to said output shaft; exerting torque on said output shaft from said pump and motor cam rings by torque exerted on said pump cam ring by said pump rotor, and by said pressurized fluid acting on and said pump cam ring and said motor cam ring; decreasing the volume of said pressurizing region to decrease the displacement of said pump and increase the torque while decreasing the speed of said output shaft by exerting a radial force on said pump cam ring to change radial spacing of portions of said pump cam ring from said pump rotor, said radial force being axially symmetric over the axial width of said pump cam ring. - View Dependent Claims (2, 3, 4, 5, 6, 8)
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7. A method as defined in claim 7, further comprising:
radially supporting said cam adjustment mechanism on both axial sides of said cam rings.
Specification
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- Resources
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Current AssigneeFolsom Technologies Inc.
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Original AssigneeFolsom Technologies Inc.
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InventorsTucker, Clive, Folsom, Lawrence R.
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Primary Examiner(s)NGUYEN, HOANG M
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Application NumberUS08/483,997Time in Patent Office804 DaysField of Search60/487, 60/490, 60/491, 60/492US Class Current60/491CPC Class CodesF04C 14/20 by changing the form of the...F16H 2039/105 at least one pair of motors...F16H 39/10 with cylinders arranged aro...F16H 39/32 with sliding vanes carried ...
