Damper device

What is claimed is: 1. A damper device for transmitting power from a power source therethrough to an output-side member, the damper device comprising: an input-side rotor to which the power from the power source is inputted, the input-side rotor disposed to be rotatable; an output-side rotor rotatable relative to the input-side rotor; a plurality of elastic members configured to elastically couple the input-side rotor and the output-side rotor in a circumferential direction; an intermediate rotor configured to actuate at least two of the plurality of elastic members in series, the intermediate rotor rotatable relative to the input-side rotor and the output-side rotor; and a hysteresis generating mechanism configured to generate a hysteresis torque in elastic deformation of the plurality of elastic members, the hysteresis generating mechanism including a friction member, the friction member slidable in contact with the input-side rotor, the output-side rotor and the intermediate rotor. 2. The damper device according to claim 1 , wherein the friction member of the hysteresis generating mechanism includes an annular disc plate configured to make contact with a lateral surface of the output-side rotor and a lateral surface of the intermediate rotor, and a friction plate configured to make contact with a lateral surface of the annular disc plate and a lateral surface of the input-side rotor, and the hysteresis generating mechanism further includes an urging member, the urging member configured to press the annular disc plate onto the lateral surface of the output-side rotor and the lateral surface of the intermediate rotor, the urging member further configured to press the friction plate onto the lateral surface of the annular disc plate. 3. The damper device according to claim 2 , wherein the annular disc plate is fixed to the output-side rotor, and the friction plate is fixed to the input-side rotor. 4. The damper device according to claim 1 , wherein the output-side rotor includes a hub coupled to the output-side member, and a plurality of flanges provided to extend radially outward from the hub, the plurality of flanges disposed at predetermined intervals in the circumferential direction, the intermediate rotor includes an annular portion, and at least one intermediate flange configured to actuate the at least two of the plurality of elastic members in series, the at least one intermediate flange provided to extend radially outward from the annular portion, the at least one intermediate flange disposed in at least one of circumferential spaces between the plurality of flanges of the output-side rotor, and the friction member makes contact with lateral surfaces of the plurality of flanges and a lateral surface of the at least one intermediate flange. 5. The damper device according to claim 4 , wherein the hysteresis generating mechanism is disposed radially between the hub of the output-side rotor and the plurality of elastic members. 6. A damper device for transmitting power from a power source therethrough to an output-side member, the damper device comprising: an input-side rotor to which the power from the power source is inputted, the input-side rotor disposed to be rotatable; an output-side rotor rotatable relative to the input-side rotor; a plurality of elastic members configured to elastically couple the input-side rotor and the output-side rotor in a circumferential direction; an intermediate rotor configured to actuate at least two of the plurality of elastic members in series, the intermediate rotor rotatable relative to the input-side rotor and the output-side rotor; and a hysteresis generating mechanism configured to generate a hysteresis torque in elastic deformation of the plurality of elastic members, the hysteresis generating mechanism including a friction member, the friction member slidable in contact with the input-side rotor, the output-side rotor and the intermediate rotor, the friction member including an annular disc plate configured to make contact with a lateral surface of the output-side rotor and a lateral surface of the intermediate rotor, and a friction plate configured to make contact with a lateral surface of the annular disc plate and a lateral surface of the input-side rotor, the friction plate being rotatable relative to the annular disc plate.