Damper and operation unit

The invention claimed is: 1. A damper for damping rotation of a rotating shaft, comprising: a pair of cam members each having an inclined cam face inclined with respect to a rotation direction of the rotating shaft, upon a torque of the rotating shaft being transmitted to the cam members, the cam members rotating relative to each other about an axis of the rotating shaft and moving relative to each other in an axial direction of the rotating shaft with the inclined cam faces in sliding contact with each other; a housing part housing the pair of cam members and having an inner side surface, the pair of cam members moving and rotating relative to each other slide on the inner side surface; an elastic body placed within the housing part so as to be compressed in the axial direction of the rotating shaft by an increase of an amount of the relative movement of the pair of cam members in the axial direction, and biasing the pair of cam members in the axial direction of the rotating shaft; and at least two inclined areas formed in the inclined cam face of at least one of the pair of cam members, inclined at different angles from each other with respect to the direction of the relative rotation of the pair of cam members, and arranged in the direction of the relative rotation of the pair of cam members, wherein: the elastic body presses the pair of cam members in the axial direction of the rotating shaft against an end portion of the housing part in the axial direction of the rotating shaft so as to allow the pair of cam members to press against each other at the inclined cam faces and then to rotate relatively each other while changing the inclined areas; and the inclined areas have different increase rates of pushing depth of the elastic body in the axial direction of the rotating shaft according to the relative rotation of the pair of cam members, whereby, an increase rate of a friction resistance impeding relative rotation of the pair of cam members according to an increase of a relative rotation angle of the pair of cam members is changed stepwise by changing force of pressing the pair of cam members against the end portion of the housing part in a stepwise manner. 2. A damper for damping rotation of a rotating shaft, comprising: a pair of cam members each having an inclined cam face inclined with respect to a rotation direction of the rotating shaft, upon a torque of the rotating shaft being transmitted to the cam members, the cam members rotating relative to each other about an axis of the rotating shaft and moving relative to each other in an axial direction of the rotating shaft with the inclined cam faces in sliding contact with each other; a housing part housing the pair of cam members and having an inner side surface, the pair of cam members moving and rotating relative to each other slide on the inner side surface; and an elastic body placed within the housing part so as to be compressed in the axial direction of the rotating shaft by an increase of a relative moving amount of the pair of cam members in the axial direction, and biasing the pair of cam members in the axial direction of the rotating shaft by restoring force, wherein: the elastic body has an elastic coefficient increasing stepwise with an increase of a compression amount of the elastic body, and presses the pair of cam members in the axial direction of the rotating shaft against an end portion of the housing part in the axial direction of the rotating shaft so as to allow the pair of cam members to press against each other at the inclined cam faces and then to rotate relatively each other; and the inclined cam faces increase the compression amount of the elastic body by increasing a relative rotation angle of the pair of cam members, whereby, an increase rate of a friction resistance impeding relative rotation of the pair of cam members according to an increase of the relative rotation angle of the pair of cam members is changed stepwise by changing force of pressing the pair of cam members against the end portion of the housing part in a stepwise manner. 3. An operation unit for receiving a manual operation by a user at an operating part, the operation unit comprising: an arm having the operating part; a pivot pin to which the arm is fixed so that the operating part is located at a position away from an axis of the pivot pin; a bracket which holds the pivot pin rotatably about the axis of the pivot pin by force to be given to the operating part by the manual operation; and a damper damping rotation of the pivot pin, comprising: a pair of cam members each having an inclined cam face inclined with respect to a rotation direction of the pivot pin upon a torque of the pivot pin being transmitted to the cam members, the cam members rotating relative to each other about the axis of the pivot pin and moving relative to each other in an axial direction of the pivot pin with the inclined cam faces in sliding contact with each other; a housing part fixed to the bracket, housing the pair of cam members, and having an inner side surface on which the pair of cam members slide while moving and rotating relative to each other; an elastic body placed within the housing part so as to be compressed in the axial direction of the pivot pin by an increase of a relative moving amount of the pair of cam members in the axial direction, and biasing the pair of cam members in the axial direction of the pivot pin; and at least two inclined areas formed in the inclined cam faces of at least one of the pair of cam members, inclined at different angles from each other with respect to a direction of the relative rotation of the pair of cam members, and arranged in the direction of the relative rotation of the pair of cam members, wherein: the elastic body presses the pair of cam members in the axial direction of the rotating shaft against an end portion of the housing part in the axial direction of the rotating shaft so as to allow the pair of cam members to press against each other at the inclined cam faces and then to rotate relatively each other while changing the inclined areas; and the inclined areas have different increase rates of pushing depth of the elastic body in the axial direction of the rotating shaft according to the relative rotation of the pair of cam members, whereby, an increase rate of a friction resistance impeding relative rotation of the pair of cam members according to an increase of a relative rotation angle of the pair of cam members is changed stepwise by changing force of pressing the pair of cam members against the end portion of the housing part in a stepwise manner. 4. The operation unit of claim 3 , wherein: the arm has an accelerator pedal as the operating part; and the inclined cam face of at least one of the pair of cam members has as the at least two inclined areas: a first inclined area being in sliding contact with the inclined cam face of the other cam member until the accelerator pedal being pressed to a prescribed position; and a second inclined area having an inclination angle larger than an inclination angle of the first inclined area with respect to the direction of the relative rotation, and starting sliding contact with the inclined cam face of the other cam member on the accelerator pedal when the accelerator pedal is pressed to the prescribed position. 5. The operation unit of claim 4 , wherein: the inclined cam face of the other cam member is in contact with the second inclined area at a larger area than a contact area with the first inclined area. 6. An operation unit for receiving a manual operation by a user at an operating part, the operation unit comprising: an arm having the operating part; a pivot pin, the arm being fixed to the pivot pin so that the operating part is located at