Rolling bearing

The invention claimed is: 1. A rolling bearing comprising: an inner race and an outer race rotatable relative to each other; a plurality of rolling elements interposed between the inner race and the outer race; a retainer arranged between the inner race and the outer race, for retaining the plurality of rolling elements equiangularly; a flange portion formed on at least one of a radially inner side and a radially outer side of an axial end portion of the retainer so as to extend radially; and a recessed groove formed in a region of the inner race corresponding to the flange portion or a region of the outer race corresponding to the flange portion so as to form a labyrinth together with the flange portion, wherein at least one of an inner side surface of the flange portion and an axial end surface of the recessed groove, which is opposed to the inner side surface of the flange portion, is inclined radially so as to generate a flow of lubricant, and wherein through the labyrinth formed by the flange portion and the recessed groove, the lubricant flowing from an outside of the rolling bearing into an inside of the rolling bearing and flowing out of the inside of the rolling bearing to the outside of the rolling bearing flows in such a direction that the lubricant flows into the rolling bearing from the radially inner side of the retainer and flows out of the rolling bearing to the radially outer side of the retainer. 2. The rolling bearing according to claim 1 , wherein the inner side surface of the flange portion positioned on the radially inner side of each axial end portion of the retainer is inclined so as to expand the labyrinth radially inward, and wherein the axial end surface of the recessed groove positioned at each axial end portion of the outer race is inclined so as to expand the labyrinth radially inward. 3. The rolling bearing according to claim 1 wherein the flange portion has an axial thickness of 0.15 mm or more, and wherein the axial thickness is set to 20% or less of a diameter of each of the plurality of rolling elements. 4. The rolling bearing according to claim 1 , wherein the retainer comprises two annular members that face each other in an axial direction of the rolling bearing and have opposing surfaces each comprising hemispherical pockets formed in a plurality of circumferential positions and configured to receive the plurality of rolling elements, and wherein the two annular members are coupled together so that the opposing surfaces are brought into abutment on each other. 5. The rolling bearing according to claim 1 , wherein the retainer is made of a synthetic resin. 6. The rolling bearing according to claim 1 , wherein the retainer is made of any one synthetic resin selected from among PPS, PA66, and PA46. 7. A rolling bearing comprising: an inner race and an outer race rotatable relative to each other; a plurality of rolling elements interposed between the inner race and the outer race; a retainer arranged between the inner race and the outer race, for retaining the plurality of rolling elements equiangularly; a flange portion formed on at least one of a radially inner side and a radially outer side of an axial end portion of the retainer so as to extend radially; and a recessed groove formed in a region of the inner race corresponding to the flange portion or a region of the outer race corresponding to the flange portion so as to form a labyrinth together with the flange portion, wherein at least one of an inner side surface of the flange portion and an axial end surface of the recessed groove, which is opposed to the inner side surface of the flange portion, is inclined radially so as to generate a flow of lubricant, and wherein through the labyrinth formed by the flange portion and the recessed groove, the lubricant flowing from an outside of the rolling bearing into an inside of the rolling bearing and flowing out of the inside of the rolling bearing to the outside of the rolling bearing flows in such a direction that the lubricant flows into the bearing from one axial end side of the retainer and flows out of the bearing to another axial end side of the retainer. 8. The rolling bearing according to claim 7 , wherein the inner side surface of the flange portion positioned on the radially inner side of one axial end portion of the retainer is inclined so as to expand the labyrinth radially inward, wherein the inner side surface of the flange portion positioned on the radially outer side of the one axial end portion of the retainer is inclined so as to expand the labyrinth radially inward, wherein the inner side surface of the flange portion positioned on the radially outer side of another axial end portion of the retainer is inclined so as to expand the labyrinth radially outward, and wherein the axial end surface of the recessed groove positioned at an axial end portion of the outer race is formed in a direction orthogonal to an axial direction of the rolling bearing. 9. The rolling bearing according to claim 7 , wherein the flange portion has an axial thickness of 0.15 mm or more, and wherein the axial thickness is set to 20% or less of a diameter of each of the plurality of rolling elements. 10. The rolling bearing according to claim 7 , wherein the retainer comprises two annular members that face each other in an axial direction of the rolling bearing and have opposing surfaces each comprising hemispherical pockets formed in a plurality of circumferential positions and configured to receive the plurality of rolling elements, and wherein the two annular members are coupled together so that the opposing surfaces are brought into abutment on each other. 11. The rolling bearing according to claim 7 , wherein the retainer is made of a synthetic resin. 12. The rolling bearing according to claim 7 , wherein the retainer is made of any one synthetic resin selected from among PPS, PA66, and PA46. 13. A rolling bearing comprising: an inner race and an outer race rotatable relative to each other; a plurality of rolling elements interposed between the inner race and the outer race; a retainer arranged between the inner race and the outer race, for retaining the plurality of rolling elements equiangularly; a flange portion formed on at least one of a radially inner side and a radially outer side of an axial end portion of the retainer so as to extend radially; and a recessed groove formed in a region of the inner race corresponding to the flange portion or a region of the outer race corresponding to the flange portion so as to form a labyrinth together with the flange portion, wherein at least one of an inner side surface of the flange portion and an axial end surface of the recessed groove, which is opposed to the inner side surface of the flange portion, is inclined radially so as to generate a flow of lubricant, wherein the retainer has structure in which two annular members having asymmetrical shapes are coupled together, and wherein the two annular members are colored differently. 14. The rolling bearing according to claim 13 , wherein the flange portion has an axial thickness of 0.15 mm or more, and wherein the axial thickness is set to 20% or less of a diameter of each of the plurality of rolling elements. 15. The rolling bearing according to claim 13 , wherein the retainer comprises two annular members that face each other in an axial direction of the rolling bearing and have opposing surfaces each comprising hemispherical pockets formed in a plurality of circumferential positions and configured to receive the plurality of rolling e