Synchronizer and transmission

What is claimed is: 1. A synchronizer comprising: a hub configured to rotate together with a rotating shaft, and including a first outer circumferential surface and first external splines on the first outer circumferential surface; a sleeve including, on an inner circumferential surface thereof, internal splines to be slidably engaged with the first external splines, and configured to move in an axial direction between a neutral position and an operation position by a shift operation; a transmission gear adjacent to the hub, relatively rotatably supported by the rotating shaft, having a friction surface on a side of the hub, and including a second outer circumferential surface and second external splines on the second outer circumferential surface; a blocking ring arranged between the hub and the transmission gear, including a third outer circumferential surface and dog teeth on the third outer circumferential surface to be slidably engaged with the internal splines, and movable in an axial direction so as to be able to frictionally engage with the friction surface; and a synchronous spring attached on the third outer circumferential surface of the blocking ring, when the sleeve is moved in the axial direction from the neutral position to the operation position, the blocking ring being moved in the axial direction and frictionally engaged with the transmission gear, and the internal splines of the sleeve being engaged with the dog teeth of the blocking ring, thereby the rotation of the hub being synchronized with the rotation of the transmission gear, and the internal splines moving to the transmission gear and engaging with the second external splines, thereby the rotating force of the hub being transmitted to the transmission gear via the sleeve, wherein the blocking ring comprises: a notch formed in the third outer circumferential surface; and a preceding projecting member accommodated in the notch, configured to project toward the second external splines, and supported by the synchronous spring, and after the rotation of the hub and the rotation of the transmission gear are synchronized by the movement of the sleeve, the preceding projecting member is pressed by the internal splines, and engaged with the second external splines before the internal splines are engaged with the second external splines. 2. The synchronizer according to claim 1 , wherein the preceding projecting member includes an elastic portion, and the preceding projecting member projects toward the second external splines when the internal splines press the elastic portion. 3. The synchronizer according to claim 2 , wherein the internal splines include, at a distal end, at least one of distal end projections which projects inward in a radial direction, the preceding projecting member includes a preceding chamfered portion connected to the elastic portion and configured to engage with the second external splines, the elastic portion configured to be a mountain shape projecting outward in the radial direction and including a pair of inclined surfaces, and when the sleeve passes through the blocking ring, and the distal end projection of the internal splines presses the elastic portion of the preceding projecting member in the axial direction and inward in the radial direction, the preceding chamfered portion projects toward the second external splines. 4. The synchronizer according to claim 3 , wherein the preceding projecting member further includes a holding hook held by the blocking ring, the holding hook formed by returning a part of the preceding projection member from a lower portion thereof and hooked by the synchronous spring, and the elastic portion is arranged between the holding hook and the preceding chamfered portion. 5. The synchronizer according to claim 4 , wherein the preceding projecting member is movable in the axial direction with respect to the blocking ring. 6. The synchronizer according to claim 3 , wherein the preceding projecting member is movable in the axial direction with respect to the blocking ring. 7. The synchronizer according to claim 3 , wherein the distal end projection includes, at a distal end thereof, a first inclined surface inclining inward in the radial direction, a horizontal surface connected to the first inclined surface, and a second inclined surface connected to the horizontal surface and inclining outward in the radial direction. 8. The synchronizer according to claim 7 , wherein the preceding chamfered portion projects toward the second external splines at least while the horizontal surface of the distal end projection is pressing the elastic portion, and after the internal splines engage with the second external splines, the horizontal surface of the distal end projection releases the elastic portion from pressing, and the preceding chamfered portion returns toward the blocking ring. 9. The synchronizer according to claim 2 , wherein the preceding projecting member is movable in the axial direction with respect to the blocking ring. 10. The synchronizer according to claim 1 , wherein the preceding projecting member is movable in the axial direction with respect to the blocking ring. 11. The synchronizer according to claim 1 , wherein the notch comprises a plurality of notches arranged at a predetermined interval in a circumferential direction of the blocking ring, and the internal splines include a spline formed in a portion of the sleeve corresponding to the notch and formed smaller than another splines in height. 12. A transmission comprising a synchronizer cited in claim 1 .