Torque fluctuation inhibiting device, torque converter and power transmission device

The invention claimed is: 1. A torque fluctuation inhibiting device for inhibiting torque fluctuations in a rotor into which a torque is inputted, the torque fluctuation inhibiting device comprising: a mass body disposed in alignment with the rotor in an axial direction, the mass body rotatable with the rotor, the mass body rotatable relative to the rotor; a centrifugal element disposed to receive a centrifugal force to be generated by rotation of the rotor and the mass body; and a cam mechanism including a cam and a cam follower configured to move along the cam, the cam mechanism configured to convert the centrifugal force that acts on the centrifugal element into a circumferential force when a relative displacement occurs between the rotor and the mass body in a rotational direction due to the centrifugal force, the circumferential force directed to reduce the relative displacement, wherein the cam is a recessed portion of a radially outer surface of the centrifugal element, the recessed portion being recessed radially inwardly from the radially outer surface of the centrifugal element, the cam follower is provided on either of the rotor and the mass body, the centrifugal element has a shape extending in the rotational direction, the centrifugal element including a guide part on both ends thereof in the rotational direction, the guide part making contact with a member adjacent thereto so as to guide movement of the centrifugal element, the cam and the cam follower make contact with each other at a first contact point before the relative displacement occurs between the rotor and the mass body in the rotational direction, and the cam and the cam follower make contact with each other at a second contact point after the relative displacement occurs between the rotor and the mass body in the rotational direction, the second contact point being different from the first contact point, and the guide part of the centrifugal element makes contact with the member adjacent thereto in an opposite position to the second contact point relative to a center of gravity of the centrifugal element. 2. A torque fluctuation inhibiting device for inhibiting torque fluctuations in a rotor into which a torque is inputted, the torque fluctuation inhibiting device comprising: a mass body disposed in alignment with the rotor in an axial direction, the mass body rotatable with the rotor, the mass body rotatable relative to the rotor; a centrifugal element disposed to receive a centrifugal force to be generated by rotation of the rotor and the mass body; and a cam mechanism including a cam and a cam follower configured to move along the cam, the cam mechanism configured to convert the centrifugal force that acts on the centrifugal element into a circumferential force when a relative displacement occurs between the rotor and the mass body in a rotational direction due to the centrifugal force, the circumferential force directed to reduce the relative displacement, wherein the cam is provided on the centrifugal element, the cam follower is provided on either of the rotor and the mass body, the centrifugal element has a shape extending in the rotational direction, the centrifugal element including a guide part on both ends thereof in the rotational direction, the guide part making contact with a member adjacent thereto so as to guide movement of the centrifugal element, the cam and the cam follower make contact with each other at a first contact point before the relative displacement occurs between the rotor and the mass body in the rotational direction, and the cam and the cam follower make contact with each other at a second contact point after the relative displacement occurs between the rotor and the mass body in the rotational direction, the second contact point being different from the first contact point, the guide part of the centrifugal element makes contact with the member adjacent thereto in an opposite position to the second contact point relative to a center of gravity of the centrifugal element, and the mass body includes a first inertia ring and a second inertia ring, the first and second inertia rings disposed in opposition through the rotor. 3. The torque fluctuation inhibiting device according to claim 2 , wherein the mass body further includes a pin, the pin penetrates the rotor in the axial direction, the pin coupling the first inertia ring and the second inertia ring such that the first inertia ring and the second inertia ring are non-rotatable relative to each other, the centrifugal element is disposed on an outer peripheral part of the rotor and on an inner peripheral side of the pin and disposed between the first inertia ring and the second inertia ring in the axial direction, the cam follower is a cylindrical roller, the cylindrical roller including a hole in an inner part thereof, the hole penetrated by the pin in the axial direction, and the cam is provided on the centrifugal element so as to make contact with the cam follower, the cam having a shape making the circumferential force vary in accordance with an amount of the relative displacement between the rotor and the mass body in the rotational direction. 4. The torque fluctuation inhibiting device according to claim 1 , wherein the rotor includes a protruding part on an outer peripheral surface thereof, the centrifugal element includes a first member and a second member, the first and second members disposed to interpose the protruding part therebetween in the axial direction, the guide part of the centrifugal element couples the first member and the second member, and the guide part makes contact with both lateral surfaces of the protruding part of the rotor. 5. The torque fluctuation inhibiting device according to claim 4 , wherein the guide part is a pair of rollers, the pair of rollers rotatably supported by both ends of the centrifugal element in a rotational direction, the pair of rollers configured to roll on both lateral surfaces of the protruding part of the rotor. 6. The torque fluctuation inhibiting device according to claim 2 , wherein the mass body further includes a pin, the pin penetrates the rotor in the axial direction, the pin coupling the first inertia ring and the second inertia ring such that the first inertia ring and the second inertia ring are non-rotatable relative to each other, the centrifugal element is disposed on an inner peripheral side of the pin and disposed between the first inertia ring and the second inertia ring in the axial direction, the cam follower is a cylindrical roller, the cylindrical roller including a hole in an inner part thereof, the hole penetrated by the pin in the axial direction, and the cam is provided on the centrifugal element so as to make contact with the cam follower, the cam having a shape making the circumferential force vary in accordance with an amount of the relative displacement between the rotor and the mass body in the rotational direction. 7. The torque fluctuation inhibiting device according to claim 6 , wherein the rotor includes a protruding part protruding to the inner peripheral side, the centrifugal element includes a first member and a second member, the first member and the second member disposed to interpose the protruding part therebetween in the axial direction, the guide part of the centrifugal element couples the first member and the second member, and the guide part makes contact with both lateral surfaces of the protruding part of the rotor. 8. The torque fluctuation inhibiting device according to claim 1 , wherein the mass body has a continuous annular shape. 9. A torque converter disposed between an engine and a transmission, and having a turbine connected to the transmis