Planetary gear transmission systems or components – Nonplanetary variable speed or direction transmission... – Nonplanetary transmission is friction gearing
Reexamination Certificate
2001-03-22
2003-02-18
Schwartz, Christopher P. (Department: 3683)
Planetary gear transmission systems or components
Nonplanetary variable speed or direction transmission...
Nonplanetary transmission is friction gearing
Reexamination Certificate
active
06520884
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a toroidal type continuously variable transmission (CVT) formed by using a toroidal mechanism, and more particularly to a torque-split type continuously variable transmission formed by combining together a toroidal type continuously variable transmission mechanism, a planetary gear mechanism and clutches.
BACKGROUND OF THE INVENTION
A toroidal type continuously variable transmission using a toroidal transmission unit formed by providing in a cavity, which is formed between input and driven discs disposed in a mutually opposed state, with power rollers so that the power rollers are engaged with and held between these disks has already been known. A double-cavity toroidal type continuously variable transmission formed by arranging such toroidal transmission units in parallel with each other in the axial direction, connecting both of driving discs of the two sets of toroidal transmission units to an input member, and connecting both of driven discs thereof to an output member has also already been known.
A torque-split type continuously variable transmission formed by combining a torque-split mechanism with a toroidal type continuously variable transmission mechanism, and adapted to transmit an engine output wholly to the continuously variable transmission mechanism when the obtainment of a high reduction gear ratio is desired, and use a planetary mechanism-carrying torque-split mechanism when the obtainment of a low reduction gear ratio is allowed. The related art torque-split type continuously variable transmissions include torque-split type continuously variable transmissions disclosed in Japanese Patent Laid-Open Nos. 196759/1998 and 236955/1999.
In the torque-split continuously variable transmission disclosed in Japanese Patent Laid-Open No. 196759/1998 mentioned above, a starting clutch is mounted on an input shaft. When the starting clutch is disengaged with a vehicle stopped, the rotation of the toroidal type continuously variable transmission mechanism is stopped, and a speed changing operation cannot be carried out. In the case of the torque-split type continuously variable transmission disclosed in Japanese Patent Laid-Open No. 236955/1999 mentioned above, a clutch is provided closer to an output shaft than to a toroidal type continuously variable transmission mechanism, so that a speed changing operation can be carried out even when a vehicle is stopped. Therefore, this continuously variable transmission has an excellent speed change controllability.
Both of these torque-split type continuously variable transmissions are formed by using a single cavity type toroidal continuously variable transmission mechanism made by using a single toroidal transmission unit, and the construction of these transmissions is therefore comparatively simple. However, in the case of a double-cavity type toroidal continuously variable transmission formed by using a pair of toroidal transmission units, the number of the toroidal transmission units increases double to cause the construction of the transmission to become liable to be complicated. Especially, when a torque-split type continuously variable transmission is formed by using a double-cavity type toroidal continuously variable transmission mechanism, the construction of the transmission becomes liable to be complicated.
SUMMARY OF THE INVENTION
The invention has been made in view of the above-mentioned circumstances, and provides a torque-split type continuously variable transmission capable of being formed simply and compactly to as great an extent as possible when the transmission is made by using a double-cavity type toroidal continuously variable transmission mechanism.
The invention also provides a torque-split type continuously variable transmission formed so that the transmission can carry out a speed change control operation in a range of a comparatively large change gear ratio with a high transfer efficiency retained.
According to an aspect of the invention, the torque-split type continuously variable transmission includes a toroidal type continuously variable transmission mechanism (for example, a toroidal type continuously variable transmission mechanism
10
in a mode of embodiment) mounted coaxially on and connected to an input shaft (for example, an input shaft
1
of the transmission in the mode of embodiment) adapted to receive a driving force from a driving power source, a first power transmission mechanism (for example, a first power transmission mechanism
20
in the mode of embodiment) adapted to carry out the transmission of a rotational force between this input shaft and a countershaft (for example, a countershaft
2
of the transmission in the mode of embodiment) provided so as to extend in parallel with the input shaft, an output shaft (for example, an output shaft
3
of the transmission in the mode of embodiment) provided so as to extend in parallel with the input shaft and coaxially with the countershaft, a single pinion type planetary gear mechanism (for example, planetary gears
50
mounted on this output shaft coaxially therewith, a second power transmission mechanism (for example, a second power transmission mechanism
30
in the mode of embodiment) adapted to carry out the transmission of a rotational force between output members (for example, driven discs
15
a,
15
b
) in the mode of embodiment) of the toroidal type continuously variable transmission mechanism and single pinion type planetary gear mechanism, a torque split clutch device (for example, a torque split clutch
40
in the mode of embodiment) capable of engaging and disengaging a carrier member (for example, a carrier
52
in the mode of embodiment) of the single pinion type planetary gear mechanism and countershaft with and from each other, a reversing brake device (for example, a reversing brake
43
in the mode of embodiment) capable of fixedly holding the carrier member, and a starting clutch device (for example, a starting clutch
46
in the mode of embodiment) capable of engaging and disengaging a sun gear member (for example, a sun gear
51
in the mode of embodiment) of the single pinion type planetary gear mechanism and output shaft with and from each other, the toroidal type continuously variable transmission mechanism being formed of a double-cavity type toroidal continuously variable transmission mechanism in which a pair of driven discs (for example, the driven discs
15
a,
15
b
in the mode of embodiment) are positioned in an adjacent side opposed state in an axially central portion of the toroidal type continuously variable transmission mechanism, both a driving gear (for example, a driving gear
31
in the mode of embodiment) held between and connected to these two driven discs and a driven gear (for example, a driven gear
32
in the mode of embodiment) meshed with the driving gear and joined to the sun gear member constituting a second power transmission mechanism, a ring gear member of the single pinion type planetary gear mechanism being joined to the output shaft.
According to the torque-split type continuously variable transmission of such a construction, an output from the toroidal type continuously variable transmission mechanism is transmitted from the driving gear held between a pair of driven discs provided in an adjacent side opposed state in an axially central portion of the double-cavity type toroidal continuously variable transmission mechanism to the sun gear member via the driven gear meshed with the driving gear. Therefore, the torque-split type continuously variable transmission uses the double-cavity type toroidal continuously variable transmission mechanism, and, moreover, can be formed simply and compactly as a whole. Especially, as is clearly understood from the construction of the embodiments, an inner space of the transmission is effectively utilized by providing the planetary gear mechanism between the first and second power transmission mechanisms, this enabling the transmission as a whole to be formed to small dimensions, i.e., compactly.
The tor
Armstrong Westerman & Hattori, LLP
Honda Giken Kogyo Kabushiki Kaisha
Kramer Devon
Schwartz Christopher P.
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