Parking brake unit

The invention claimed is: 1. A parking brake unit of a brake device for braking a wheel as an output member of an actuator presses a brake lining against a brake disk rotating with the wheel by supply of hydraulic fluid, the parking brake unit comprising: a first piston formed in a cylindrical shape, the first piston having a first engaging part on an inner circumference thereof, the first piston being configured to move in first direction by pressure of the hydraulic fluid supplied to a pressure chamber defined in the back thereof; a first biasing member configured to bias the first piston in second direction, opposite to the first direction; a second piston slidably provided on the inner circumference of the first piston, the second piston having a second engaging part on an outer circumference thereof; and an engaging member configured to cause the first engaging part and the second engaging part to engage with each other, wherein the second piston causes the brake lining to move in direction bringing the wheel to be in a braking state, when the first piston moves in the second direction, wherein the first engaging part is a first engaging groove formed in an arc shape on the inner circumference of the first piston, wherein the second engaging part is a second engaging groove formed in an arc shape at a circumferential position corresponding to the first engaging groove on the outer circumference of the second piston, and wherein the engaging member, having a circular cross section, is formed in an arc shape corresponding to the first engaging groove and the second engaging groove. 2. The parking brake unit according to claim 1 , further comprising a releasing member slidably provided on an inner circumference of the second piston, the releasing member having a third engaging part on an outer circumference thereof, wherein the second engaging part is formed to penetrate the second piston in radial direction, and wherein the engaging member causes the second engaging part to engage with the third engaging part so that the engagement between the first engaging part and the second engaging part is released, when releasing operation is made. 3. The parking brake unit according to claim 2 , further comprising a second biasing member configured to bias the releasing member against the second piston in axial direction, wherein, when the releasing member is pressed into the second piston against biasing force of the second biasing member, the engaging member causes the second engaging part to engage with the third engaging part so that the engagement between the first engaging part and the second engaging part is released. 4. The parking brake unit according to claim 1 , wherein the brake device comprises a brake body supported by a vehicle body or a truck, a pair of link arms having support portions between first end portions and second end portions, the pair of the link arms being respectively provided to face both sides of the brake disk, the support portions being turnably supported relative to the brake body, the second end portions supporting the brake lining, a coupling member coupling the first end portions of the pair of link arms, a lever turnably coupled to the output member of the actuator, the lever being configured to turn by advancing and retreating movement of the output member, and an eccentric cam having a rotation part rotating around a rotation axis by the turning of the lever, and an eccentric part having a central axis at a position offset from the rotation axis, the eccentric part being configured to turn in an arc shape around the rotation axis by the turning of the lever, the eccentric part being configured to expand and contract distance between the first end portions of the pair of link arms, wherein the eccentric cam rotates by advancing and retreating movement of the second piston. 5. The parking brake unit according to claim 4 , wherein, when the first piston moves in the second direction, the second piston causes the output member to move in the direction bringing the wheel to be in the braking state. 6. The parking brake unit according to claim 5 , wherein the parking brake unit is provided to be opposed to the actuator with the coupling member therebetween. 7. The parking brake unit according to claim 4 , wherein the brake device further comprises a parking lever coupled to the eccentric cam, wherein the eccentric cam further comprises a second eccentric part coupled to one end portion of the parking lever, the second eccentric part having a central axis at a position offset from the central axis of the rotation part, and wherein, when the first piston moves in the second direction, the second piston turns the parking lever and rotates the eccentric cam in the direction bringing the wheel to be in the braking state. 8. The parking brake unit according to claim 2 , wherein the brake device comprises a brake body supported by a vehicle body or a truck, a pair of link arms having support portions between first end portions and second end portions, the pair of the link arms being respectively provided to face both sides of the brake disk, the support portions being turnably supported relative to the brake body, the second end portions supporting the brake lining, a coupling member coupling the first end portions of the pair of link arms, a lever turnably coupled to the output member of the actuator, the lever being configured to turn by advancing and retreating movement of the output member, and an eccentric cam having a rotation part rotating around a rotation axis by the turning of the lever, and an eccentric part having a central axis at a position offset from the rotation axis, the eccentric part being configured to turn in an arc shape around the rotation axis by the turning of the lever, the eccentric part being configured to expand and contract distance between the first end portions of the pair of link arms, wherein the eccentric cam rotates by advancing and retreating movement of the second piston. 9. The parking brake unit according to claim 3 , wherein the brake device comprises a brake body supported by a vehicle body or a truck, a pair of link arms having support portions between first end portions and second end portions, the pair of the link arms being respectively provided to face both sides of the brake disk, the support portions being turnably supported relative to the brake body, the second end portions supporting the brake lining, a coupling member coupling the first end portions of the pair of link arms, a lever turnably coupled to the output member of the actuator, the lever being configured to turn by advancing and retreating movement of the output member, and an eccentric cam having a rotation part rotating around a rotation axis by the turning of the lever, and an eccentric part having a central axis at a position offset from the rotation axis, the eccentric part being configured to turn in an arc shape around the rotation axis by the turning of the lever, the eccentric part being configured to expand and contract distance between the first end portions of the pair of link arms, wherein the eccentric cam rotates by advancing and retreating movement of the second piston.