IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0807634
(1999-10-15)
|
국제출원번호 |
PCT/CA99/00951
(2001-04-16)
|
§371/§102 date |
20010416
(20010416)
|
국제공개번호 |
WO00/23729
(2000-04-27)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
8 인용 특허 :
12 |
초록
▼
An infinitely-variable transmission comprises a rotational input member, a rotational output member, first and second non-circular driving gears coupled to one of the rotational members, and a plurality of variable velocity-ratio gear assemblies disposed about the one rotational member. Each gear as
An infinitely-variable transmission comprises a rotational input member, a rotational output member, first and second non-circular driving gears coupled to one of the rotational members, and a plurality of variable velocity-ratio gear assemblies disposed about the one rotational member. Each gear assembly comprises an intermediate shaft including first and second non-circular driven gears respectively meshing with the first and second non-circular driving gears. Each gear assembly also comprises a multi-directional coupling associated with the pair of first driven/driving gears and the pair of second driven/driving gears, and an actuator for coupling the first and second variable-ratio gear pairs to the rotational members. The transmission also includes a phase angle variator associated with the variable-ratio gear pairs for varying the rotational angular displacement between the first gear pairs and the second gear pairs of each gear assembly so as to vary the velocity ratio of the transmission as needed.
대표청구항
▼
1. An infinitely-variable transmission comprising:a rotational input member, and a rotational output member; a pair of variable velocity-ratio gear sets; a multi-directional coupling associated with the gear sets; an actuator associated with the coupling for coupling the gear sets to the rotational
1. An infinitely-variable transmission comprising:a rotational input member, and a rotational output member; a pair of variable velocity-ratio gear sets; a multi-directional coupling associated with the gear sets; an actuator associated with the coupling for coupling the gear sets to the rotational members over a common angular period for providing a uniform velocity ratio between the rotational members over the angular period, the actuator comprising a pair of shadow cams coupled to one of the rotational members, wherein each of the shadow cams is synchronized with a respective one of the gear sets for altering a coupling state of the coupling; and a phase angle variator associated with at least one of the gear sets for varying a rotational angular displacement between the gear sets for varying the uniform velocity ratio. 2. The transmission according to claim 1, wherein at least one of the shadow cams includes a lobe for coupling the respective gear set to the rotational members within the angular period.3. The transmission according to claim 1, wherein the shadow cams comprise a pair of bearing races, and a bearing communicating with the races, each said bearing race including a race portion for coupling the respective gear set to the rotational members within the angular period.4. The transmission according to claim 1, wherein the shadow cams comprise a pair of bearing half-races, the half-races together comprising a common race, and a bearing disposed within the common race, each said bearing half-race including a race portion for coupling the respective gear set to the rotational members within the angular period.5. The transmission according to claim 1, wherein the shadows cams comprise a pair of actuator gears coupled to one of the rotational members, each said actuator gear including a riser portion for coupling the respective gear set to the rotational members within the angular period.6. An infinitely variable transmission comprising:a rotational input member and a rotational output member; a pair of variable velocity-ratio gear sets; a multi-directional coupling associated with the gear sets; an actuator associated with the coupling for coupling the gear sets to the rotational members over a common angular period for providing a uniform velocity ratio between the rotational members over the angular period; and a phase angle variator associated with at least one of the gear sets for varying a rotational angular displacement between the &ear sets for varying the uniform velocity ration; wherein the multi-directional coupling comprises: a race including a first tubular friction surface, a tubular member including a first bearing surface, a tubular slipper including a second tubular friction surface for coupling to the first tubular friction surface, and a second bearing surface opposite the second friction surface, the second bearing surface being coaxial to the first bearing surface and, together with the first bearing surface, defining a channel disposed therebetween, and a plurality of roller elements disposed in the channel in abutment against the bearing surfaces, the channel including a pocket retaining at least one of the roller elements therein for coupling the race to the tubular member as the tubular member and the slipper rotate relative to one another, and the actuator is configured to prevent rotational movement of the slipper relative to the tubular member over the angular period. 7. The transmission according to claim 6, wherein the first friction surface comprises a conical friction surface, the second tubular friction surface being shaped to mate with the conical friction surface, and the actuator includes an actuator ring for moving the slipper axially relative to the race for altering a coupling state of the coupling.8. The transmission according to claim 6, wherein the first friction surface comprises a conical friction surface, the second tubular friction surface being shaped to mate with the conical friction surface, and the actuator includes an actuator ring for moving the race axially relative to the slipper for altering a coupling state of the coupling.9. An infinitely variable transmission comprising:a rotational input member and a rotational output member; a pair of variable velocity-ratio gear sets; a multi-directional coupling associated with the gear sets; an actuator associated with the coupling for coupling the gear sets to the rotational members over a common angular period for providing a uniform velocity ratio between the rotational members over the angular period; and a phase angle variator associated with at least one of the gear sets for varying a rotational angular displacement between the gear sets for varying the uniform velocity ratio; wherein the variable velocity-ratio gear sets are coupled to one of said rotational members, and the transmission includes a torque-splitter coupled to the other of the rotational members for conveying torque between the gear sets and the other rotational member. 10. The transmission according to claim 9, wherein the torque-splitter comprises a differential, the differential including a pair of bevel gears, a cage, and a pinion rotatably coupled to the cage and meshing with the bevel gears.11. The transmission according to claim 10, wherein the cage is coupled to one of the variable-ratio gear sets, a first of the bevel gears is coupled to the other of the variable-ratio gear sets, and a second of the bevel gears is coupled to the one rotational member.12. The transmission according to claim 10, where a first of the bevel gears is coupled to one of the variable-ratio gear sets, a second of the bevel gears is coupled to the other of the variable-ratio gear sets, and the cage is coupled to the one rotational member.13. The transmission according to claim 9, wherein the torque splitter comprises a planetary gear assembly.14. The transmission according to claim 9, wherein the torque splitter comprises a coplanar reverted gear-train loop, the coplanar reverted gear-train loop including a pinion, an annular internal gear disposed around the pinion and being coaxial thereto, and a cage assembly comprising a ring gear including an inner surface engaging the pinion and an outer surface engaging the annular gear, the cage assembly further comprising an eccentric guide for disposing the ring gear coplanar to and eccentrically with respect to the pinion and the annular gear.
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