The present invention relates generally to improvements in automatic transmissions for motor vehicles. In particular, the present invention relates to novel improvements to power a transmission in hybrid vehicles.
A planetary gearset has three gear ratios and seven unique combinations of drive direction/ratio, including the direct drive. The gear ratios are determined by the gears in the set and are selected by changing the input element and output element while holding the third element. In practical applications, clutches and bands transmit power or arrest rotation of individual elements in the planetary gear set. But only two forward speeds and a reverse gear are achieved with a single planetary gear set. Automatic transmissions in vehicles traditionally use dual or compound planetary gear sets having one ring gear but with two sun and planetary gear sets each, and using two bands and four clutches to achieve at least three forward ratios ranging from underdrive to overdrive. This limitation arises from the input device, typically an internal combustion engine. Such rotation sources are capable of varying speed and torque, but not rotation direction. The gear ratios and output directions are selected to achieve the desired output torque and rotation based on a unidirectional input source.
The present invention is a three forward speed gearbox with reverse from a single planetary gearset. The forward speed ratios include a low gear, one to one, and overdrive. The reverse gear ratio is identical with the low gear. Forward rotation of the output shaft in first gear is accomplished by reversing the direction of the input motor. This is easily achieved from a bi-directional prime mover such as a hydraulic motor or electric motor. Another advantage of using a bi-directional prime mover is that the bi-directional rotation of the input shaft provides forward, reverse and back drive to accumulate energy in an accumulator.
A hydraulic drive motor works efficiently in either direction. Its torque output can be quickly reversed with directional control valves. Both clutch engagement and disengagement for ratio changes and valve sequencing for motor reversal is controlled by either mechanical or electrical means or a combination of controls. By coordinating these events, automatic shift events are possible with three forward ratios and reverse.
In one embodiment of the invention, a planetary gear set for use with a prime mover assembly comprises: a bi-directional prime mover for providing power to a planetary gear set; an input shaft connected at one end to the prime mover and driving a planetary gear set in either direction; the planetary gear set consisting of: one sun gear; one set of planet gears mounted on a carrier for rotating about the sun gear; two bands surrounding the planetary gear set; and two clutch packs for engaging the planetary gear set; an output shaft connected at an opposing end of the planetary gear set and receiving the power from the planetary gear set, wherein the output shaft is driven in one of first gear, reverse gear or backdriving.
The invention also provides methods for driving a planetary gearset by a bid-directional prime mover and providing three gear ratios, reverse and backdrive.
One method comprises the steps of: providing a bi-directional prime mover for powering an input shaft and driving a planetary gear set consisting of: one set of planet gears mounted on a planet carrier and meshing with a sun gear; two clutch packs for engaging the planetary gear set; and two bands for holding the planetary gear set; providing an output shaft for receiving the power from the bi-directional prime mover; engaging a clutch pack to drive the sun gear; holding the planet carrier with a band; and the prime mover rotating the input shaft in either direction to drive the output shaft direction in one of first gear, reverse gear or backdriving.
Another method comprises the steps of: providing a bi-directional prime mover for powering the planetary gear set; providing an input shaft connected to an end of a planetary gear set; providing an output shaft connected to an opposing end of the planetary gear set; the bi-directional prime mover rotating the input shaft in either direction powering the planetary gear set; and the planetary gear set driving an output shaft in either direction and providing three gear ratios and reverse.
The above as well as other advantages of the present invention will become readily apparent to those skilled in the art from the following detailed description of a preferred embodiment when considered in the light of the accompanying drawings in which:
The following detailed description and appended drawings describe and illustrate various exemplary embodiments of the invention. The description and drawings serve to enable one skilled in the art to make and use the invention, and are not intended to limit the scope of the invention in any manner. In respect of the methods disclosed, the steps presented are exemplary in nature, and thus, the order of the steps is not necessary or critical.
A preferred embodiment of this invention is shown in
With reference to
The band assembly 32 is illustrated in
With reference to
Traditionally, reverse gear engages the outer clutch 16 to drive the sun gear 20 and hold the planet carrier 18 with rear band 24. This results in a reduced ratio, and reversed rotation of the ring gear 26 relative to the input hub 12.
In a preferred method of the invention, both first gear and reverse transmit power when the outer clutch 16 engages the sun gear 20 and the planet carrier 18 is held with rear band 24. The bi-directional prime mover 11 rotates clockwise to drive reverse gear and reverses direction rotating counterclockwise to drive first gear. The gear ratio remains a reduction for both first and reverse, but the output direction can be either reverse or forward. While reverse gear is obtainable with any gear ratio when providing a bi-directional prime mover 11 to drive a planetary gear set 10, it is generally acceptable to travel in reverse at the lower speed provided by the reduction rotation. Second gear with a 1:1 direct drive engages both the inner clutch 14 and outer clutch 16. This locks the input hub 12 to the ring gear 26 and spins the entire gearset 10 in the same direction as the input. Overdrive engages the inner clutch 14 to drive the planet carrier 18 and arrests the sun gear 20 with rear band 24. The result is overdrive of the ring gear 26 in the same rotation direction as the input hub 12.
With reference to
in accordance with the provisions of the patent statutes, the present invention has been described in what is considered to represent its preferred embodiment. However, it should be noted that the invention can be practiced otherwise than as specifically illustrated and described without departing from its spirit or scope.
Number | Date | Country | |
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61359515 | Jun 2010 | US |