Engagement-type clutch mechanism

The invention claimed is: 1. An engagement-type clutch mechanism comprising a first power transmission member supported on a rotating shaft so as to be capable of rotating integrally with the rotating shaft and moving in a direction of an axis of the rotating shaft, a second power transmission member supported on the rotating shaft adjacently to the first power transmission member so as to be capable of rotating relative to the rotating shaft and incapable of moving in the direction of the axis, a first projecting part provided on a face of the first power transmission member that opposes the second power transmission member, a first spline provided on an outer peripheral face of the first power transmission member, a second projecting part provided on a face of the second power transmission member that opposes the first power transmission member and being capable of engaging with the first projecting part, a second spline provided on an outer peripheral face of the second power transmission member, and a sleeve having on an inner peripheral face a to-be-engaged spline that can engage with each of the first spline and the second spline, and disposed so as to be capable of moving in the direction of the axis, when viewed in a peripheral direction of opposing faces of the first and second power transmission members, a ratio of a length of a portion between the first and second projecting parts to a width thereof being larger than a ratio of a length of a portion between teeth of each of the first and second splines relative to a tooth thickness, movement of the first power transmission member toward the second power transmission member side engaging the first projecting part with the second projecting part and making rotation of the second power transmission member be synchronized with rotation of the first power transmission member, engagement of the sleeve with the synchronized first power transmission member and second power transmission member linking the first spline and the second spline via the to-be-engaged spline, and rotation of one of the rotating shaft and the second power transmission member being transmitted to the other of the rotating shaft and the second power transmission member. 2. The engagement-type clutch mechanism according to claim 1 , wherein a phase at which the first spline and the second spline are linked via the to-be-engaged spline and a phase at which the first projecting part and the second projecting part are engaged are different from each other. 3. The engagement-type clutch mechanism according to claim 2 , wherein a recessed portion is formed in one of the opposing faces of the first and second power transmission members, one of the first and second projecting parts corresponding to the power transmission member is formed on an inner face of the recessed portion, and the other of the first and second projecting parts is formed on the other of the opposing faces so as to project toward the recessed portion side. 4. The engagement-type clutch mechanism according to claim 3 , further comprising a movement control device that can individually move the first power transmission member and the sleeve. 5. The engagement-type clutch mechanism according to claim 2 , further comprising a movement control device that can individually move the first power transmission member and the sleeve. 6. The engagement-type clutch mechanism according to claim 1 , wherein a recessed portion is formed in one of the opposing faces of the first and second power transmission members, one of the first and second projecting parts corresponding to the power transmission member is formed on an inner face of the recessed portion, and the other of the first and second projecting parts is formed on the other of the opposing faces so as to project toward the recessed portion side. 7. The engagement-type clutch mechanism according to claim 6 , further comprising a movement control device that can individually move the first power transmission member and the sleeve. 8. The engagement-type clutch mechanism according to claim 1 , further comprising a movement control device that can individually move the first power transmission member and the sleeve.