Transmission

What is claimed is: 1. A brake mechanism for braking a target rotary member, the brake mechanism comprising: a lock member shiftable between a lock position, where the lock member engages with the target rotary member to brake the target rotary member, and an unlock position, where the lock member disengages from the target rotary member to unbrake the target rotary member; and a cam member rotatable centered on an axis so as to be shiftable between a brake operation position to locate the lock member at the lock position and an unbrake operation position to locate the lock member at the unlock position, wherein, when the cam member is disposed at the brake operation position, the lock member and the cam member contact each other at a contact point on a force activation line extending from the axis of the cam member, and wherein a direction of the force activation line coincides to a direction of a counterforce of the target rotary member against the lock member engaging with the target rotary member, so that a rotational force of the cam member is not applied to the lock member at the contact point. 2. The brake mechanism according to claim 1 , wherein the lock member is rotatable between the lock position and the unlock position, wherein the cam member has a cam hole surrounded by an edge surface of the cam member; wherein the lock member has a contact portion disposed in the cam hole to contact the edge surface of the cam member, wherein the cam hole is bent to have a braking area and an unbraking area, wherein, when the cam member is disposed at the unbrake operation position, the contact portion of the lock member is disposed in the unbraking area of the cam hole so as to locate the lock member at the lock position, and wherein, when the cam member is disposed at the brake operation position, the contact portion of the lock member contacts the edge surface of the cam member in the braking area of the cam hole at the contact point so as to hold the lock member at the unlock position. 3. The brake mechanism according to claim 1 , wherein the lock member is slidable along an axis of the target rotary member between the lock position and the unlock position, wherein the cam member has a protrusion extended in a radial direction from the axis of the cam member, wherein, when the cam member is disposed at the brake operation position, the protrusion of the cam member contacts a surface of the lock member at the contact point so as to hold the lock member at the lock position, and wherein, when the cam member is disposed at the unbrake operation position, the protrusion of the cam member does not contact the lock member so that the lock member is located at the unlock position. 4. The brake mechanism according to claim 1 , wherein the lock member is slidable in a radial direction of the target rotary member between the lock position and the unlock position, wherein the cam member has a protrusion extended in a radial direction from the axis of the cam member, wherein, when the cam member is disposed at the brake operation position, the protrusion of the cam member contacts a surface of the lock member at the contact point so as to hold the lock member at the lock position, and wherein, when the cam member is disposed at the unbrake operation position, the protrusion of the cam member does not contact the lock member so that the lock member is located at the unlock position.