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 to transmit or cut transmitting of a torque, the lock-up device comprising: a piston disposed between the front cover and the turbine, the piston being axially slidable by operating oil; a clutch part configured to transmit or cut transmitting of the torque from the front cover to the turbine by actuation of the piston; a first hydraulic chamber formed on a piston side of the front cover; a second hydraulic chamber formed independently from the first hydraulic chamber, an entirety of the second hydraulic chamber being disposed between the first hydraulic chamber and the piston in an axial direction substantially parallel to an axis of rotation of the torque converter; an axially immovable compartment plate disposed between the first and second hydraulic chambers; a first hydraulic port being in communication with the first hydraulic chamber; and a second hydraulic port being formed independently from the first hydraulic port, a portion of the second hydraulic chamber being in communication with the second hydraulic port; the first hydraulic chamber being sealed with the exception of a portion of the first hydraulic chamber which is in communication with the first hydraulic port; and the second hydraulic chamber being sealed with the exception of the portion of the second hydraulic chamber which is in communication with the second hydraulic port. 2. The lock-up device of claim 1 , further comprising a tubular member fixed to an inner peripheral portion of the front cover; the compartment plate being fixed to an outer peripheral portion of the tubular member; the first hydraulic chamber being formed of the front cover and the piston; and the second hydraulic chamber being formed of the piston and the compartment plate. 3. The lock-up device of claim 2 , wherein the compartment plate has an annular shape; and the inner peripheral portion is fixed to the outer peripheral surface of the tubular member. 4. The lock-up device of claim 2 , wherein the compartment plate has an annular shape, and a sealing portion is formed between the compartment plate and the piston. 5. A lock-up device for a torque converter, the lock-up device being disposed between a front cover and a turbine to transmit or cut transmitting of a torque, the lock-up device comprising: a piston disposed between the front cover and the turbine, the piston being axially slidable by operating oil; a clutch part configured to transmit or cut transmitting of the torque from the front cover to the turbine by actuation of the piston; a first hydraulic chamber formed on a turbine side of the piston; a compartment plate which is axially immovable and formed on the turbine side of the piston; a second hydraulic chamber formed independently of the first hydraulic chamber, the second hydraulic chamber being formed between the piston and the compartment plate; a first hydraulic port in communication with the first hydraulic chamber; and a second hydraulic port formed independently of the first hydraulic port, a portion of the second hydraulic chamber being in communication with the second hydraulic port; the second hydraulic chamber being sealed except for the portion of the second hydraulic chamber which is in communication with the second hydraulic port. 6. The lock-up device of claim 5 , wherein a portion of the piston is positioned between the front cover and the compartment plate. 7. The lock-up device of claim 6 , wherein the piston is formed by an annular plate, a circular protruding portion of the annular plate protrudes towards a portion of the front cover; and a compartment plate side of the protruding portion formed as a part of the second hydraulic chamber. 8. The lock-up device of claim 5 , wherein the piston has a tubular portion; the compartment plate has an annular shape; and a sealing portion is arranged between the tubular portion of the piston and an outer peripheral portion of the compartment plate. 9. The lock-up device of claim 5 , further comprising a third hydraulic chamber formed independently from the first hydraulic chamber and the second hydraulic chamber; the third hydraulic chamber being formed between the front cover and the piston; and a first portion of the third hydraulic chamber being in communication with the third hydraulic port. 10. The lock-up device of claim 9 , wherein the front cover has a protruding portion protruding away from the piston and positioned to face a protruding portion of the piston; and a piston side of the front cover protruding portion forms a second portion of the third hydraulic chamber. 11. The lock-up device of claim 9 , wherein the third hydraulic chamber is sealed except for the first portion of the third hydraulic chamber being in communication with the third hydraulic port. 12. The lock-up device of claim 5 , wherein the first hydraulic chamber further includes a damper mechanism. 13. The lock-up device of claim 5 , further comprising a bias member restricting movement of the piston in an axial direction.