Synchronizer of transmission

What is claimed is: 1. A synchronizer of a transmission, comprising: a bottom key disposed on a hub to be slidable in a radial direction of the hub; a top key disposed radially outside the bottom key to be slidable in an axial direction of the hub; a sleeve disposed outside the hub and sliding in the axial direction to slide the top key in the axial direction to press a synchro-ring; a key spring disposed between the bottom key and the hub to press the bottom key and the top key toward an internal side of the sleeve; and a motion converting portion converting relative motion generated in a circumferential direction of the hub between the top key and the bottom key into axial relative motion of the top key to the bottom key toward the synchro-ring. 2. The synchronizer of claim 1 , wherein a protruding-retracting structure is formed at first and second circumferential sides of the bottom key between the bottom key and the hub so that the bottom key radially slides with respect to the hub. 3. The synchronizer of claim 2 , wherein radial grooves are formed on the first and second circumferential sides of the bottom key and radial projections inserted into the radial grooves of the bottom key are formed on the hub, so that the protruding-retracting structure is formed by the radial grooves and the radial projections. 4. The synchronizer of claim 1 , wherein a groove is formed on a radial external side of the bottom key so that the top key axially slides therein, and the motion converting portion is formed according to shapes of the groove and the top key. 5. The synchronizer of claim 4 , wherein the groove includes a first groove closer to the hub, a second groove closer to the synchro-ring, and inclined groove surfaces connecting the first groove and the second groove to each other, the top key has top key-chamfered surfaces at first and second corners of an end portion facing the hub to come in contact with the inclined groove surfaces, and the motion converting portion is formed by the inclined groove surfaces and the top key-chamfered surfaces. 6. The synchronizer of claim 5 , wherein a top key-rotating groove is formed on the synchro-ring to cover first and second circumferential sides of the top key such that the top key-chamfered surfaces come in contact with the inclined groove surfaces by rotating the top key relative to the hub and the bottom key when the top key is rotated relative to the hub to press the synchro-ring by the sleeve. 7. The synchronizer of claim 6 , wherein an upper portion of the top key has a trapezoidal cross-section with a top portion narrower when the top key is cut in a radial direction thereof to be pressed radially inward when the sleeve axially slides. 8. The synchronizer of claim 6 , wherein the bottom key has bottom key-chamfered surfaces formed on first and second circumferential sides such that the sides narrow as going radially inwardly, and the synchro-ring has synchro-inclined surfaces being in contact with the bottom key-chamfered surfaces. 9. The synchronizer of claim 1 , wherein the key spring is a coil spring inserted into a bottom groove of the bottom key from the hub.