IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0305887
(2002-11-27)
|
우선권정보 |
JP-0397602 (2001-12-27); JP-0033043 (2002-02-08) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Tochigi Fuji Sangyo Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
18 인용 특허 :
6 |
초록
▼
Differential apparatus which includes input and output members rotatable relative to each other, a clutch mechanism for interconnecting them, an actuator and a cam mechanism. The clutch mechanism includes first and second clutch members rotating with the input and output members, respectively. The a
Differential apparatus which includes input and output members rotatable relative to each other, a clutch mechanism for interconnecting them, an actuator and a cam mechanism. The clutch mechanism includes first and second clutch members rotating with the input and output members, respectively. The actuator limits rotation of the second clutch member relative to the input member to angularly displace the second clutch member relative to the output member. The cam mechanism is provided between the second clutch member and the output member, and includes first and second cam faces rotating with the second clutch member and the output member, respectively. When the actuator operates, these cam faces cooperate to axially displace the second clutch member away from the output member, whereby the second clutch member is axially displaced to engage with the first clutch member.
대표청구항
▼
1. A mechanism for interconnecting a rotary input member and a rotary output member within the input member, rotatable relative to the input member, the mechanism comprising:first and second engaging members provided within the input member and engageable with each other, the first engaging member r
1. A mechanism for interconnecting a rotary input member and a rotary output member within the input member, rotatable relative to the input member, the mechanism comprising:first and second engaging members provided within the input member and engageable with each other, the first engaging member rotatable together with the input member, the second engaging member rotatable together with the output member, and axially and angularly displaceable relative to the output member;an electromagnet provided outside the input member, for having the first and second engaging members provide the second engaging member with a first tendency to be angularly displaced relative to the output member, as the output member rotates relative to the input member; anda cam mechanism provided between the second engaging member and the output member, for providing the second engaging member with a second tendency to be axially displaced relative to the output member, as the first tendency is provided by the electromagnet. 2. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 1, wherein:the second engaging member is axially displaced and pressed against the first engaging member by the electromagnet to generate a frictional force as the first tendency. 3. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 1, wherein:a rotor is provided on the input member in the vicinity of the electromagnet, and the second engaging member is axially displaced relative to the rotor. 4. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 1, further comprising:a biasing member for biasing the second engaging member in a direction of disengaging from the first engaging member. 5. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 1, wherein:the cam mechanism includes a first cam face to be rotated together with the second engaging member and a second cam face to be rotated together with the output member, wherein the first and second cam faces cooperate to axially displace the second engaging member away from the output member, as the second engaging member is provided with the first tendency. 6. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 1, wherein:the first and second engaging members have a self-lock function. 7. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 1, wherein:the first and second engaging members collectively constitute a friction clutch. 8. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 1, wherein:the first and second engaging members collectively constitute a multiple plate clutch. 9. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 8, wherein:the first engaging member has an outer plate connected to a spline portion formed on the input member, and the second engaging member has an inner plate for engagement with the outer plate, connected to a spline portion formed on a part of the second engaging member. 10. A differential apparatus provided with a mechanism for interconnecting a rotary input member and a rotary output member thereof according to claim 1. 11. A mechanism for interconnecting a rotary input member and a rotary output member within the input member, rotatable relative to the input member, the mechanism comprising:a first clutch member rotatable together with the input member;a second clutch member rotatable together with the output member and engageable with the first clutch member;an actuator member within the input member, for providing the second clutch member with a first tendency to be angularly displaced relative to the output member, as the output member rotates relative to the input member;an electromagnet provid ed outside the input member, for having the actuator member provide the first tendency; anda cam mechanism provided between the second clutch member and the output member, for providing the second clutch member with a second tendency to engage with the first clutch member, as the first tendency is provided by the actuator member. 12. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 11, wherein:the actuator member comprises an armature to be pressed against a part of the input member between the armature and the electromagnet. 13. The mechanism, for interconnecting a rotary input member and a rotary output member according to claim 12, wherein:the armature is rotatable relative to the input and output members, and is axially displaced and pressed against the part of the input member by the electromagnet to generate a frictional force as the first tendency. 14. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 13, wherein:the actuator member further comprises a transmission mechanism for transmitting the frictional force to the second clutch member, connected to the armature thereof and the second clutch member. 15. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 14, wherein:the transmission mechanism of the actuator member comprises:a first gear portion formed on the armature;a second gear portion formed on the second clutch member;a first pinion gear engaged with the first gear portion;a second pinion gear engaged with the second gear portion; anda shaft member connecting the first and second pinion gears. 16. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 11, further comprising:a biasing member for biasing the second clutch member in a direction of disengaging from the first clutch member. 17. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 11, wherein:the cam mechanism includes a first cam face to be rotated together with the second clutch member and a second cam face to be rotated together with the output member, wherein the first and second cam faces cooperate to axially displace the second clutch member away from the output member, as the second clutch member is provided with the first tendency. 18. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 11, wherein:the first and second clutch members have a self-lock function. 19. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 11, wherein:the first and second clutch members collectively constitute a friction clutch. 20. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 11, wherein:the first and second clutch members collectively constitute a cone clutch. 21. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 11, wherein:the first and second clutch members collectively constitute a multiple plate clutch. 22. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 21, wherein:the first clutch member has an outer plate connected to a spline portion formed on the input member, and the second member has an inner plate for engagement with the outer plate, connected to a spline portion formed on a part of the second clutch member. 23. The mechanism for interconnecting a rotary input member and a rotary output member according to claim 21, wherein:the first clutch member has an outer plate connected to the spline portion formed on the input member, and the second clutch member has an inner plate for engagement with the outer plate, connected to a spline portion formed on the output member. 24. A differential apparatus provided with a mechanism for interconnecting a rotar y input member and a rotary output member thereof according to claim 11.
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