One-way clutch and one-way clutch unit for wind power generation device

1 . A one-way clutch for a wind power generation device, comprising: an inner ring provided on one rotating body out of an input rotating body provided so as to be integrally rotatable with the output shaft of a speed-up gear of a wind power generation device and an output rotating body provided so as to be integrally rotatable with a drive shaft of a power generator to which the rotation of the output shaft is transmitted and coaxially disposed radially inside or outside the input rotating body; an outer ring provided on the other rotating body and disposed radially outside the inner ring; and a plurality of engaging elements individually disposed in a plurality of spaces formed between both raceway faces of the inner ring and the outer ring, wherein, in a state in which a rotation speed of the input rotating body is higher than a rotation speed of the output rotating body, the engaging elements engage with both the raceway faces of the inner ring and the outer ring to connect the input rotating body to the output rotating body so that the rotors are integrally rotatable, and in a state in which the rotation speed of the input rotating body is lower than the rotation speed of the output rotating body, the engaging elements release the engagement to cut off connection between the input rotating body and the output rotating body, and wherein the plurality of engaging elements or the inner ring and the outer ring are made of a base material obtained by subjecting a martensitic stainless steel material to soft nitriding treatment, and Vickers hardness of a portion up to 20 μm from a surface of a contact portion where the base material contacts a mating member due to the sliding or engagement between the base material and the mating member is 1000 to 1500 Hv. 2 . The one-way clutch for a wind power generation device according to claim 1 , wherein an internal hardness of the contact portion is 54 HRC or more. 3 . The one-way clutch for a wind power generation device according to claim 1 , wherein the Vickers hardness of the portion up to 20 μm from the surface of the contact portion is 1150 to 1500 Hv. 4 . The one-way clutch for a wind power generation device according to claim 1 , wherein the engaging elements are cylindrical rollers or sprags, and a clearance is provided between the tip end portion of the input rotating body in an axial direction and an opposing face of the drive shaft opposing the tip end portion of the input rotating body in the axial direction and another clearance is provided between the tip end portion of the output rotating body in the axial direction and an opposing face of the input rotating body opposing to the tip end portion of the output rotating body in the axial direction, whereby the inner ring and the outer ring are allowed to move relatively in the axial direction, and wherein Vickers hardness of a portion up to 20 μm from a surface of a portion with which the engaging element relatively slides or engages when the input rotating body or the output rotating body expands or contracts in the axial direction due to temperature change is 1000 to 1500 Hv. 5 . A one-way clutch unit for a wind power generation device, comprising: the one-way clutch according to claim 1 , and a rolling bearing which is provided adjacent to the one-way clutch and between the input rotating body provided so as to be integrally rotatable with the output shaft of the speed-up gear of the wind power generation device and the output rotating body provided so as to be integrally rotatable with the drive shaft of the power generator to which the rotation of the output shaft is transmitted and coaxially disposed radially inside or outside the input rotating body, and which supports the input rotating body and the output rotating body so that the rotating bodies are rotatable relatively to each other. 6 . The on-way clutch unit for a wind power generation device according to claim 5 , wherein the engaging elements are cylindrical rollers or sprags, and a clearance is provided between the tip end portion of the input rotating body in an axial direction and an opposing face of the drive shaft opposing the tip end portion of the input rotating body in the axial direction and another clearance is provided between the tip end portion of the output rotating body in the axial direction and an opposing face of the input rotating body opposing to the tip end portion of the output rotating body in the axial direction, whereby the inner ring and the outer ring are allowed to move relatively in the axial direction, and wherein Vickers hardness of a portion up to 20 μm from a surface of a portion with which the engaging element relatively slides or engages when the input rotating body or the output rotating body expands or contracts in the axial direction due to temperature change is 1000 to 1500 Hv. 7 . The one-way clutch for a wind power generation device according to claim 2 , wherein the Vickers hardness of the portion up to 20 μm from the surface of the contact portion is 1150 to 1500 Hv. 8 . The one-way clutch for a wind power generation device according to claim 2 , wherein the engaging elements are cylindrical rollers or sprags, and a clearance is provided between the tip end portion of the input rotating body in an axial direction and an opposing face of the drive shaft opposing the tip end portion of the input rotating body in the axial direction and another clearance is provided between the tip end portion of the output rotating body in the axial direction and an opposing face of the input rotating body opposing to the tip end portion of the output rotating body in the axial direction, whereby the inner ring and the outer ring are allowed to move relatively in the axial direction, and wherein Vickers hardness of a portion up to 20 μm from a surface of a portion with which the engaging element relatively slides or engages when the input rotating body or the output rotating body expands or contracts in the axial direction due to temperature change is 1000 to 1500 Hv.