Planetary gear transmission systems or components – Planet pinion is friction gear
Reexamination Certificate
2000-07-28
2002-06-18
Marmor, Charles A. (Department: 3681)
Planetary gear transmission systems or components
Planet pinion is friction gear
C475S197000, C475S336000
Reexamination Certificate
active
06406399
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
None.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
Not applicable.
BACKGROUND OF THE INVENTION
This invention relates in general to transmissions and, more particularly, to a planetary traction drive transmission having, at critical surfaces, pure rolling contact which is characterized by the absence of spinning.
Planetary transmissions typically rely on meshing gears to transfer power—indeed, several planet gears between a sun gear and a ring gear. This arrangement distributes the load through the several planet gears, enabling the system to accommodate higher loads, and further provides several speed ratios, depending on where power is supplied to the system and where it is delivered from the system. But gear systems inherently contain backlash, are somewhat noisy, and set up vibrations. Moreover, the meshing gear teeth slide across each other, and the friction generated detracts from the efficiency of the system.
Planetary friction or traction drives, which rely solely on friction between rotating components to transfer power, do not have backlash and further operate with less noise and less vibration than planetary gear systems, and in that sense they are superior to planetary gear systems. Furthermore, they have the capacity to operate at high velocity and with high efficiency. Even so, many planetary systems of current design experience slipping in the form of spinning at critical surfaces where torque is transmitted, or to minimize this they may rely on narrow regions of contact where loads are heavily concentrated.
Actually, two types of slippage may exist along a line of contact between two critical surfaces in a traction drive transmission. One is characterized by pure sliding in which the difference in velocity between the two surfaces at the line of contact remains the same along the entire line of contact. Lubrication will accommodate this type of slippage, and indeed this type of slippage inherently exists when lubrication is present. Insofar as this discussion is concerned, this type of slippage constitutes pure rolling contact. The other type of slippage is characterized by spinning along the line of contact. Here the difference in velocity between the two critical surfaces varies along the line of contact. It may be in the same direction, in which case the pivot point is at or beyond the end of the line contact, or it may be in two directions, in which event the pivot point is between the ends of the line of contact.
Spinning wastes energy and produces heat that may diminish the effectiveness of lubricants in the transmission. It also promotes wear which affects the reliability of the transmission and likewise limits the torque transmitted by it. When narrow regions of contact are used to minimize slippage, the concentration of loads so produced may cause early failure of the metal in the regions where the loads are concentrated and further reduces the capacity of the transmission to transmit torque.
Moreover, traction drives of current design cannot achieve high speed ratios without being excessively large. Thus, they are not suited for use in confined spaces when high speed ratios and equivalent torque ratios are required.
SUMMARY OF THE INVENTION
The present invention resides in a planetary traction drive transmission having a sun roller provided with first and second inner raceways that taper downwardly from each other. The transmission also has first and second outer raceways which are presented toward the first and second inner raceways, respectively, and likewise have their large ends presented toward each other. First and second planet rollers are located between the first and second raceways, respectively, where they are organized in pairs, with each pair including a first roller and a second roller. Moreover, the rollers of each pair back each other and thus axially position each other between the raceways. Either the inner raceways or the outer raceways may be locked against rotation relative to each other.
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Marmor Charles A.
Pang Roger
Polster Lieder Woodruff & Lucchesi L.C.
The Timken Company
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