Power transmission device

What is claimed is: 1. A power transmission device comprising: a clutch member housed in a clutch housing that rotates together with an input member rotated by engine driving power of a vehicle and including a plurality of drive-side clutch plates, the clutch member including a plurality of driven-side clutch plates formed alternately with the drive-side clutch plates of the clutch housing and the clutch member coupled to an output member rotating a wheel of the vehicle; a weight member movable from a radially-inner position to a radially-outer position due to a centrifugal force generated as the clutch housing rotates; an interlocking member switching the drive-side clutch plates and the driven-side clutch plates from a non-operating state, where the press-contact force between the drive-side clutch plates and the driven-side clutch plates is released, to an operating state where the driving power of the engine is transmitted to the wheel by pressing the drive-side clutch plates and the driven-side clutch plates against each other as the weight member moves from the radially-inner position to the radially-outer position; the clutch member further comprising: a first clutch member coupled to the output member; a second clutch member attached to the driven-side clutch plates; a back-torque transmitting cam pressing the drive-side clutch plates and the driven-side clutch plates against each other by moving the second clutch member when a rotational force is input to the first clutch member via the output member; a cushioning member applying an urging force while enabling movement of the interlocking member in a process where the interlocking member moves and the drive-side clutch plates and the driven-side clutch plates switch from the non-operating state to the operating state; the back-torque transmitting cam includes a first portion including a first cam surface and a second portion including a second cam surface, the second cam surface facing the first cam surface when the first portion and the second portion are positioned to face each other, and the second portion extends in an axial direction of the output member and overlaps with the cushioning member when viewed from a radial direction of the output member. 2. The power transmission device according to claim 1 , wherein a length of the second portion is longer than a length of the cushioning member with respect to the axial direction of the output member. 3. The power transmission device according to claim 1 , wherein an accommodation recessed portion, formed in a surface where the first clutch member and the second clutch member face each other, accommodated the cushioning member. 4. The power transmission device according to claim 3 , wherein the accommodation recessed portion includes an annular groove and the cushioning member includes a spring with an annular shape conformed to a shape of the groove. 5. The power transmission device according to claim 4 , wherein the back-torque transmitting cam is formed in a plurality of annular shapes in the surface where the first clutch member and the second clutch member face each other, and the accommodation recessed portion is formed in a concentric circular shape at a position that is adjacent to the back-torque transmitting cam. 6. A power transmission device comprising: a clutch member housed in a clutch housing that rotates together with an input member rotated by engine driving power of a vehicle and including a plurality of drive-side clutch plates, the clutch member including a plurality of driven-side clutch plates formed alternately with the drive-side clutch plates of the clutch housing and the clutch member coupled to an output member rotating a wheel of the vehicle; a weight member movable from a radially-inner position to a radially-outer position due to a centrifugal force generated by rotation of the clutch housing; an interlocking member switching the drive-side clutch plates and the driven-side clutch plates from a non-operating state; where the press-contact force between the drive-side clutch plates and the driven-side clutch plates is released, to an operating state, where the driving power of the engine is transmitted to the wheel by pressing the drive-side clutch plates and the driven-side clutch plates against each other as the weight member moves from the radially-inner position to the radially-outer position; the clutch member further comprising: a first clutch member coupled to the output member; a second clutch member attached to the driven-side clutch plates; a back-torque transmitting cam pressing the drive-side clutch plates and the driven-side clutch plates against each other by moving the second clutch member when a rotational force is input to the first clutch member via the output member; a cushioning member applying an urging force while enabling movement of the interlocking member in a process where the interlocking member moves and the drive-side clutch plates and the driven-side clutch plates switch from the non-operating state to the operating state; the back-torque transmitting cam includes a first portion including a first cam surface and a second portion including a second cam surface, the second cam surface facing the first cam surface when the first portion and the second portion are positioned to face each other; the second portion extends in an axial direction of the output member; and an end portion of the cushioning member on a weight member side overlaps with the second portion when viewed from a radial direction of the output member. 7. A power transmission device comprising: a clutch member housed in a clutch housing that rotates together with an input member rotated by engine driving power of a vehicle and including a plurality of drive-side clutch plates, the clutch member including a plurality of driven-side clutch plates formed alternately with the drive-side clutch plates of the clutch housing and the clutch member coupled to an output member rotating a wheel of the vehicle; a weight member movable from a radially-inner position to a radially-outer position due to a centrifugal force generated by roration of the clutch housing; an interlocking member switching the drive-side clutch plates and the driven-side clutch plates from a non-operating state, where the press-contact force between the drive-side clutch plates and the driven-side clutch plates is released, to an operating state, where the driving power of the engine is transmitted to the wheel by pressing the drive-side clutch plates and the driven-side clutch plates against each other as the weight member moves from the radially-inner position to the radially-outer position; the clutch member further comprises: a first clutch member coupled to the output member; a second clutch member attached to the driven-side clutch plates; a back-torque transmitting cam pressing the drive-side clutch plates and the driven-side clutch plates against each other by moving the second clutch member when a rotational force is input to the first clutch member via the output member, a cushioning member applying an urging force while enabling movement of the interlocking member in a process where the interlocking member moves and the drive-side clutch plates and the driven-side clutch plates switch from the non-operating state to the operating state, the back-torque transmitting cam includes a first portion including a first cam surface and a second portion including a second cam surface, the second cam surface facing the first cam surface when the first portion and the second portion are positioned to face each other, the second portion extends in an axial direction of the output member, and an end portion of the cushioning member on an opposite side of th