Method of assembling tapered roller bearing, and jig for use in the method

What is claimed is: 1. A method of assembling a tapered roller bearing that includes an inner ring, an outer ring, a plurality of tapered rollers interposed between the inner ring and the outer ring, and an annular cage in which pockets that hold the tapered rollers are formed in a circumferential direction, the method comprising: the steps of (a) constituting a cage assembly in which the tapered rollers are temporarily housed in the pockets so as not to slip off radially outward; (b) constituting an inner ring assembly by moving the cage assembly in an axial direction to approach the inner ring from a side near a cone front face rib portion of the inner ring, and causing the tapered rollers of the cage assembly to climb over the cone front face rib portion to be fitted on an inner raceway surface of the inner ring; and (c) assembling the inner ring assembly and the outer ring to each other to obtain the tapered roller bearing, wherein: a jig is provided adjacent to the cone front face rib portion in step (b), the jig having an outer peripheral shape that is continuous with an outer peripheral surface of the cone front face rib portion, and including recessed grooves that are formed in an outer peripheral portion of the jig and that enable contact of the respective tapered rollers, the recessed grooves each having an inclined shape in which a groove bottom extends radially outward as the recessed groove extends toward one side in the axial direction, which is a cone front face rib portion side, and having a recessed arcuate shape in cross section; and in step (b), further, the cage assembly is relatively moved toward one side in the axial direction between the inner ring and the jig to increase a diameter of the cage by sliding the tapered rollers of the cage assembly radially outward along the recessed grooves so that the tapered rollers climb over the cone front face rib portion to be fitted on the inner raceway surface. 2. The method of assembling a tapered roller bearing according to claim 1 , wherein: the jig has a temporary assembly shaft portion provided on the other side in the axial direction with respect to the recessed grooves, the temporary assembly shaft portion having an outer peripheral surface that is concentric with the outer peripheral portion in which the recessed grooves are formed, and allowing a small annular portion of the cage to be externally fitted to the temporary assembly shaft portion via a gap; and in step (a), the small annular portion is externally fitted to the temporary assembly shaft portion to establish a temporary assembly state, an annular space into which the tapered rollers are inserted is formed between the outer peripheral portion of the jig and the cage, and the tapered rollers which are inserted into the annular space are temporarily housed in the pockets of the cage from a radially inner side to obtain the cage assembly. 3. The method of assembling a tapered roller bearing according to claim 2 , wherein the recessed grooves each have a guide surface provided on the other side in the axial direction, and shaped along a virtual surface extended radially inward from an axially inner side surface of the small annular portion which is externally fitted to the temporary assembly shaft portion. 4. The method of assembling a tapered roller bearing according to claim 1 , wherein the recessed grooves each have a first groove portion shaped along a conical surface in which a radius of curvature of the recessed arcuate shape becomes smaller toward the other side in the axial direction, and a second groove portion shaped along a cylindrical surface and provided on one side in the axial direction with respect to the first groove portion to be continuous with the first groove portion. 5. The method of assembling a tapered roller bearing according to claim 4 , wherein an inclination angle of the second groove portion with respect to the axial direction is smaller than an inclination angle of the first groove portion with respect to the axial direction. 6. The method of assembling a tapered roller bearing according to claim 1 , wherein the jig is made of steel. 7. A jig that is used to assemble a tapered roller bearing that includes an inner ring, an outer ring, a plurality of tapered rollers interposed between the inner ring and the outer ring, and an annular cage in which pockets that hold the tapered rollers are formed in a circumferential direction, the tapered roller bearing being assembled by moving a cage assembly, in which the tapered rollers are temporarily housed in the pockets so as not to slip off radially outward, in an axial direction along the jig to approach the inner ring from a side near a cone front face rib portion of the inner ring, constituting an inner ring assembly by causing the tapered rollers of the cage assembly to climb over the cone front face rib portion to be fitted on an inner raceway surface of the inner ring, and assembling the inner ring assembly and the outer ring to each other to obtain the tapered roller bearing, the jig comprising: an outer peripheral shape that (1) is continuous with an outer peripheral surface of the cone front face rib portion and (2) includes recessed grooves that are formed in an outer peripheral portion of the jig and that enable contact of the respective tapered rollers, wherein: the recessed grooves each having an inclined shape in which a groove bottom extends radially outward as the recessed groove extends toward one side in the axial direction, which is a cone front face rib portion side, and having a recessed arcuate shape in cross section; each of the recessed grooves having first and second groove portions; and the first groove portion and the second groove portion have different inclination angles. 8. The jig according to claim 7 , wherein the jig is made of steel.