Wind power generator device and rotation transmission device used in same

1 . A wind power generator device comprising: a windmill which rotates by receiving wind power; a power generator comprising a rotor; and a rotation transmission device which transmits rotation of the windmill to the rotor without a speed increase, wherein the rotation transmission device comprises a one-way clutch which makes a connection integrally and rotatably between the windmill and the rotor in a state in which a rotation speed of the windmill is higher than a rotation speed of the rotor, and which releases the connection in a state in which the rotation speed of the windmill is lower than the rotation speed of the rotor. 2 . The wind power generator device according to claim 1 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; and an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring, and wherein at least one of the inner ring and the outer ring is formed of a plurality of divisional elements divided in a circumferential direction. 3 . The wind power generator device according to claim 2 , wherein a plurality of cam surfaces which form wedge-shaped spaces between the inner ring and the outer ring are formed on the inner ring or the outer ring, and wherein the inner ring or the outer ring comprising the cam surfaces is divided by each of the cam surfaces. 4 . The wind power generator device according to claim 1 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring; and a cage which holds the engagement element, and wherein the cage is formed of a plurality of divisional elements divided in a circumferential direction. 5 . The wind power generator device according to claim 1 , wherein an outside diameter of the one-way clutch is equal to or larger than 1 meter. 6 . A rotation transmission device which transmits a rotation of a windmill which rotates by receiving wind power to a rotor of a power generator without a speed increase, said rotation transmission device comprising: a one-way clutch which makes connection integrally and rotatably between the windmill and the rotor in a state in which a rotation speed of the windmill is higher than a rotation speed of the rotor, and which releases the connection in a state in which the rotation speed of the windmill is lower than the rotation speed of the rotor. 7 . The rotation transmission device according to claim 6 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; and an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring, and wherein at least one of the inner ring and the outer ring is formed of a plurality of divisional elements divided in a circumferential direction. 8 . The rotation transmission device according to claim 7 , wherein a plurality of cam surfaces which form wedge-shaped spaces between the inner ring and the outer ring are formed on the inner ring or the outer ring, and wherein the inner ring or the outer ring comprising the cam surfaces is divided by each of the cam surfaces. 9 . The rotation transmission device according to claim 6 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring; and a cage which holds the engagement element, and wherein the cage is formed of a plurality of divisional elements divided in a circumferential direction. 10 . The rotation transmission device according to claim 6 , wherein an outside diameter of the one-way clutch is equal to or larger than 1 meter. 11 . The wind power generator device according to claim 2 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring; and a cage which holds the engagement element, and wherein the cage is formed of a plurality of divisional elements divided in a circumferential direction. 12 . The wind power generator device according to claim 3 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring; and a cage which holds the engagement element, and wherein the cage is formed of a plurality of divisional elements divided in a circumferential direction. 13 . The rotation transmission device according to claim 7 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring; and a cage which holds the engagement element, and wherein the cage is formed of a plurality of divisional elements divided in a circumferential direction. 14 . The rotation transmission device according to claim 8 , wherein the one-way clutch comprises: an inner ring and an outer ring which are disposed to face each other in a radial direction; an engagement element which is disposed between the inner ring and the outer ring, and which engages the inner ring and the outer ring to integrally rotatably connect the inner ring and the outer ring; and a cage which holds the engagement element, and wherein the cage is formed of a plurality of divisional elements divided in a circumferential direction.