초록 ▼

A wind power generator includes: an input rotor provided so as to be rotatable together with an output shaft of a speed increaser; an output rotor provided so as to be rotatable together with a drive shaft of a generator; and a one-way clutch arranged between the input and output rotors. The one-way

A wind power generator includes: an input rotor provided so as to be rotatable together with an output shaft of a speed increaser; an output rotor provided so as to be rotatable together with a drive shaft of a generator; and a one-way clutch arranged between the input and output rotors. The one-way clutch connects the input rotor to the output rotor such that the input rotor and the output rotor are rotatable together with each other when a rotation speed of the input rotor exceeds a rotation speed of the output rotor, and that disconnects the input rotor from the output rotor when the rotation speed of the input rotor falls below the rotation speed of the output rotor. The one-way clutch has a rotation speed limiter that disconnects the input rotor from the output rotor when the rotation speed of the output shaft exceeds a predetermined value.

대표청구항 ▼

1. A power generating apparatus including: a main shaft that is rotated by external force; a speed increaser that has a rotation transmission mechanism that receives rotation of the main shaft and that increases a speed of the rotation and a roller bearing that supports an output shaft, which output

1. A power generating apparatus including: a main shaft that is rotated by external force; a speed increaser that has a rotation transmission mechanism that receives rotation of the main shaft and that increases a speed of the rotation and a roller bearing that supports an output shaft, which outputs rotary torque of the rotation transmission mechanism, such that the output shaft is rotatable; and a generator that has a drive shaft that rotates upon reception of rotation of the output shaft and that generates electric power due to rotation of a rotor that rotates together with the drive shaft, comprising: an input rotor provided so as to be rotatable together with the output shaft;an output rotor provided so as to be rotatable together with the drive shaft and arranged concentrically with and radially inward or radially outward of the input rotor;a one-way clutch that is arranged between the input rotor and the output rotor, that connects the input rotor and the output rotor to each other such that the input rotor and the output rotor are rotatable together with each other in a state where a rotation speed of the input rotor is higher than a rotation speed of the output rotor, and that disconnects the input rotor and the output rotor from each other in a state where the rotation speed of the input rotor is lower than the rotation speed of the output rotor; anda rotation speed limiter that disconnects the input rotor and the output rotor from each other when the rotation speed of the output shaft exceeds a predetermined value in a state where the input rotor and the output rotor are connected to each other. 2. The power generating apparatus according to claim 1, wherein: the one-way clutch includes: an inner ring outer periphery; an outer ring inner periphery; a plurality of rollers respectively arranged in a plurality of wedge-shaped spaces defined between the inner ring outer periphery and the outer ring inner periphery; and springs that urge the respective rollers in one direction to cause the rollers to engage with the inner ring outer periphery and the outer ring inner periphery, the one-way clutch connects the input rotor and the output rotor to each other such that the input rotor and the output rotor are rotatable together with each other through engagement of the rollers with the inner ring outer periphery and the outer ring inner periphery, the one-way clutch disconnects the input rotor and the output rotor from each other by disconnecting the rollers from the inner ring outer periphery and the outer ring inner periphery, and when the rotation speed of the output shaft exceeds the predetermined value in a state where the rollers of the one-way clutch are engaged with the inner ring outer periphery and the outer ring inner periphery, the rotation speed limiter disengages the rollers from the inner ring outer periphery and the outer ring inner periphery by moving the rollers due to centrifugal force against urging force of the springs. 3. The power generating apparatus according to claim 2, wherein the outer ring inner periphery of the one-way clutch is integrally formed with an inner periphery of the input rotor or the output rotor, which is arranged radially outward of the one-way clutch. 4. The power generating apparatus according to claim 3, wherein outer ring cam surfaces that respectively form the wedge-shaped spaces are formed in the outer ring inner periphery, and a maximum inside diameter of the outer ring cam surfaces is set smaller than or equal to an inside diameter of the inner periphery formed integrally with the outer ring inner periphery. 5. The power generating apparatus according to claim 3, wherein contact portions are formed in the outer ring inner periphery of the one-way clutch, and, in a state where one end portions of the springs are in contact with the respective rollers, the other end portions of the springs contact the respective contact portions. 6. The power generating apparatus according to claim 4, wherein contact portions are formed in the outer ring inner periphery of the one-way clutch, and, in a state where one end portions of the springs are in contact with the respective rollers, the other end portions of the springs contact the respective contact portions. 7. The power generating apparatus according to claim 2, further comprising a rolling bearing that is arranged between the input rotor and the output rotor and that supports the input rotor and the output rotor such that the input rotor and the output rotor are rotatable relative to each other. 8. The power generating apparatus according to claim 3, further comprising a rolling bearing that is arranged between the input rotor and the output rotor and that supports the input rotor and the output rotor such that the input rotor and the output rotor are rotatable relative to each other. 9. The power generating apparatus according to claim 4, further comprising a rolling bearing that is arranged between the input rotor and the output rotor and that supports the input rotor and the output rotor such that the input rotor and the output rotor are rotatable relative to each other. 10. The power generating apparatus according to claim 7, wherein the one-way clutch includes an annular cage that retains the rollers arranged at predetermined intervals in a circumferential direction, and a pair of the rolling bearings are arranged on respective axial sides of the one-way clutch such that respective axial end faces of the cage of the one-way clutch are allowed to contact axial end portions of the respective rolling bearings. 11. The power generating apparatus according to claim 8, wherein the one-way clutch includes an annular cage that retains the rollers arranged at predetermined intervals in a circumferential direction, and a pair of the rolling bearings are arranged on respective axial sides of the one-way clutch such that respective axial end faces of the cage of the one-way clutch are allowed to contact axial end portions of the respective rolling bearings. 12. The power generating apparatus according to claim 10, wherein each of the rolling bearings is a cylindrical roller bearing that has a plurality of cylindrical rollers and rib portions with which end faces of each cylindrical roller are in sliding contact, and axial end faces of the cage of the one-way clutch contact the rib portions of the respective cylindrical roller bearings. 13. The power generating apparatus according to claim 11, wherein each of the rolling bearings is a cylindrical roller bearing that has a plurality of cylindrical rollers and rib portions with which end faces of each cylindrical roller are in sliding contact, and axial end faces of the cage of the one-way clutch contact the rib portions of the respective cylindrical roller bearings. 14. The power generating apparatus according to claim 12, wherein the inner ring outer periphery of the one-way clutch is a cylindrical surface, each of the cylindrical roller bearings has an inner ring raceway surface on which the cylindrical rollers roll, the output rotor is arranged radially inward of the input rotor, and the inner ring outer periphery of the one-way clutch and the inner ring raceway surfaces of the cylindrical roller bearings are formed on an outer periphery of the output rotor. 15. The power generating apparatus according to claim 13, wherein the inner ring outer periphery of the one-way clutch is a cylindrical surface, each of the cylindrical roller bearings has an inner ring raceway surface on which the cylindrical rollers roll, the output rotor is arranged radially inward of the input rotor, and the inner ring outer periphery of the one-way clutch and the inner ring raceway surfaces of the cylindrical roller bearings are formed on an outer periphery of the output rotor. 16. The power generating apparatus according to claim 12, wherein the outer ring inner periphery of the one-way clutch is a cylindrical surface, each of the cylindrical roller bearings has an outer ring raceway surface on which the cylindrical rollers roll, the output rotor is arranged radially outward of the input rotor, and the outer ring inner periphery of the one-way clutch and the outer ring raceway surfaces of the cylindrical roller bearings are formed on an inner periphery of the output rotor. 17. The power generating apparatus according to claim 13, wherein the outer ring inner periphery of the one-way clutch is a cylindrical surface, each of the cylindrical roller bearings has an outer ring raceway surface on which the cylindrical rollers roll, the output rotor is arranged radially outward of the input rotor, and the outer ring inner periphery of the one-way clutch and the outer ring raceway surfaces of the cylindrical roller bearings are formed on an inner periphery of the output rotor. 18. The power generating apparatus according to claim 14, wherein the output rotor is detachably fixed to the drive shaft, and is arranged so as to be movable in an axial direction with respect to the input rotor. 19. The power generating apparatus according to claim 16, wherein the output rotor is detachably fixed to the drive shaft, and is arranged so as to be movable in an axial direction with respect to the input rotor.