Lock-up device for torque converter

What is claimed is: 1 . A lock-up device for a torque converter, the lock-up device being disposed between a front cover and a turbine in the torque converter to mechanically connect the front cover and the turbine, the lock-up device comprising: a clutch part disposed in a power transmission path from the front cover to the turbine, the clutch part being configured to be in a clutch-on state of transmitting a power from the front cover to the turbine in a set posture; and a release part configured to be actuated by a hydraulic pressure being increased in a space on a turbine-side of the piston to turn the clutch part from the clutch-on state to a clutch-off state and to block transmission of the power from the front cover to the turbine, the clutch part including an input-side member coupled to the front cover while being non-rotatable relative thereto, an output-side member coupled to the turbine while being non-rotatable relative thereto, a friction member being mounted to either the input-side member or the output-side member, and a pressing member configured to press the friction member between the input-side member and the output-side member when the hydraulic pressure is not being applied to the release part, and the release part including a piston configured to release pressing of the pressing member when the hydraulic pressure is applied to the release part. 2 . The lock-up device for a torque converter recited in claim 1 , wherein the input-side member includes first, second and third annular plates, the first, second and third annular plates being coupled to the front cover while being axially movable and non-rotatable relative thereto. 3 . The lock-up device for a torque converter recited in claim 2 , wherein the output-side member includes first and second output plates, a first outer peripheral part of the first output plate being disposed between the first and second annular plates and a second outer peripheral part of the second output plate being disposed between the second and third annular plates. 4 . The lock-up device for a torque converter recited in claim 3 , wherein the friction member includes first and second friction members fixed to the first outer peripheral part of the first output plate in opposition to the first and second annular plates, and third and fourth friction members fixed to the second outer peripheral part of the second output part in opposition to the second and third annular plates. 5 . The lock-up device for a torque converter recited in claim 4 , wherein the first and second output plates are axially movable. 6 . The lock-up device for a torque converter recited in claim 5 , wherein a stop member is coupled to the front cover, the pressing member being configured to press the first, second and third annular plates and the first and second output plates toward the stop member. 7 . The lock-up device for a torque converter recited in claim 6 , wherein the piston is axially movable by the hydraulic pressure in a direction opposite to a direction of a pressing force of the pressing member. 8 . The lock-up device for a torque converter recited in claim 1 , further comprising a damper mechanism disposed between the clutch part and the turbine in the power transmission path. 9 . The lock-up device for a torque converter recited in claim 1 , wherein the pressing member is disposed between the front cover and the piston. 10 . The lock-up device for a torque converter recited in claim 1 , wherein the piston is disposed between the pressing member and the input-side member. 11 . The lock-up device for a torque converter recited in claim 2 , wherein the piston is disposed between the pressing member and the first annular plate.