Parking mechanism

The invention claimed is: 1. A parking mechanism to be used in a vehicle, the parking mechanism comprising: a parking gear configured to be coupled to a drive shaft; a parking piston configured to be moved between a parking position to shift the vehicle to a parking range and a non-parking position to shift the vehicle to a non-parking range, the parking piston comprising a locking groove with first and second opposing side walls; a parking rod configured to be moved in conjunction with movement of the parking piston; a parking pawl comprising an engagement portion engageable with the parking gear, the parking pawl being configured to engage with and stop engaging with the parking gear in accordance with a move position of the parking rod; and a locking lever comprising a first engagement portion positioned at a first free end of the locking lever and configured to engage with the first opposing side wall of the locking groove when the parking piston is moved to the parking position, and a second engagement portion positioned at an opposite, second free end of the locking lever and configured to engage with the second opposing side wall of the locking groove when the parking piston is moved to the non-parking position, the locking lever being configured to selectively lock the parking piston in the parking position and the non-parking position. 2. The parking mechanism according to claim 1 , wherein the locking lever is rotatable in a first rotating direction to engage the first engagement portion with the locking groove and in a second rotating direction to engage the second engagement portion with the locking groove, the second rotating direction being reverse to the first rotating direction, the parking mechanism further comprising: an urging spring configured to urge the locking lever in the first rotating direction. 3. The parking mechanism according to claim 2 , wherein the parking piston comprises an inclined surface where the first engagement portion is slidable while the parking piston is being moved from the non-parking position to the parking position. 4. The parking mechanism according to claim 3 , further comprising: a spring member configured to apply force to the parking piston to move the parking piston from the parking position to the non-parking position, the parking piston being configured to be moved from the non-parking position to the parking position by stopping application of hydraulic pressure. 5. The parking mechanism according to claim 2 , further comprising: a spring member configured to apply force to the parking piston to move the parking piston from the parking position to the non-parking position, the parking piston being configured to be moved from the non-parking position to the parking position by stopping application of hydraulic pressure. 6. The parking mechanism according to claim 1 , wherein the locking lever has a boomerang shape with the first and second engagement portions provided at the opposite free ends of the locking lever and to opposite sides of an intermediate angled portion. 7. The parking mechanism according to claim 1 , wherein the locking lever has a central pivot portion and the first and second engagement portions are respectively arranged at opposite free ends of the locking lever as to have the pivot portion positioned between the opposite free ends. 8. A parking mechanism to be used in a vehicle, the parking mechanism comprising: a parking gear configured to be coupled to a drive shaft; a parking piston configured to be moved between a parking position to shift the vehicle to a parking range and a non-parking position to shift the vehicle to a non-parking range, the parking piston comprising a locking groove; a parking rod configured to be moved in conjunction with movement of the parking piston; a parking pawl comprising an engagement portion engageable with the parking gear, the parking pawl being configured to engage with and stop engaging with the parking gear in accordance with a move position of the parking rod; and a locking lever comprising a first engagement portion configured to engage with the locking groove when the parking piston is moved to the parking position, and a second engagement portion configured to engage with the locking groove when the parking piston is moved to the non-parking position, the locking lever being configured to selectively lock the parking piston in the parking position and the non-parking position, and wherein the locking lever is rotatable in a first rotating direction to engage the first engagement portion with the locking groove and in a second rotating direction to engage the second engagement portion with the locking groove, the second rotating direction being reverse to the first rotating direction, the parking mechanism further comprising: an urging spring configured to urge the locking lever in the first rotating direction; and the parking mechanism, further comprising: an actuator configured to apply driving force in the second rotating direction to the locking lever, the driving force applied by the actuator causing the second engagement portion to engage with the locking groove. 9. The parking mechanism according to claim 8 , wherein the parking piston comprises an inclined surface where the first engagement portion is slidable while the parking piston is being moved from the non-parking position to the parking position. 10. The parking mechanism according to claim 9 , further comprising: a spring member configured to apply force to the parking piston to move the parking piston from the parking position to the non-parking position, the parking piston being configured to be moved from the non-parking position to the parking position by stopping application of hydraulic pressure. 11. The parking mechanism according to claim 8 , further comprising: a spring member configured to apply force to the parking piston to move the parking piston from the parking position to the non-parking position, the parking piston being configured to be moved from the non-parking position to the parking position by stopping application of hydraulic pressure. 12. A parking mechanism to be used in a vehicle, the parking mechanism comprising: a parking gear configured to be coupled to a drive shaft; a parking piston configured to be moved between a parking position to shift the vehicle to a parking range and a non-parking position to shift the vehicle to a non-parking range, the parking piston comprising a locking groove; a parking rod configured to be moved in conjunction with movement of the parking piston; a parking pawl comprising an engagement portion engageable with the parking gear, the parking pawl being configured to engage with and stop engaging with the parking gear in accordance with a move position of the parking rod; and a locking lever comprising a first engagement portion configured to engage with the locking groove when the parking piston is moved to the parking position, and a second engagement portion configured to engage with the locking groove when the parking piston is moved to the non-parking position, the locking lever being configured to selectively lock the parking piston in the parking position and the non-parking position, and the parking mechanism further comprising: a spring member configured to apply force to the parking piston to move the parking piston from the parking position to the non-parking position, the parking piston being configured to be moved from the non-parking position to the parking position by stopping application of hydraulic pressure.