Retainer and tapered roller bearing

What is claimed is: 1. A retainer formed with pockets configured to each receive one of a plurality of tapered rollers, the retainer comprising: a plurality of crossbars separating circumferentially adjacent pairs of the pockets from each other; a first annular portion continuously connected to first axial ends of the crossbars; and a second annular portion having an outer diameter larger than an outer diameter of the first annular portion, and continuously connected to second axial ends of the crossbars which are opposite from the first axial ends of the crossbars, wherein each of the crossbars includes: guide surfaces configured to circumferentially contact a corresponding one of the tapered rollers; first recessed surfaces in the form of cutouts each located between a respective one of the guide surfaces and the first axial end of a corresponding one of the crossbars, and circumferentially recessed from the respective one of the guide surfaces; and second recessed surfaces in the form of cutouts each located between a respective one of the guide surfaces and the second axial end of a corresponding one of the crossbars, and circumferentially recessed from the respective one of the guide surfaces, wherein the guide surfaces are smoothly convex in a longitudinal direction of the tapered rollers, wherein each of the tapered rollers includes a rolling surface central portion located at a central portion of an entire length of a respective one of the tapered rollers, and having a straight generating line, and crowning portions each extending from an end of the rolling surface central portion such that a diameter of the crowning portion gradually decreases in a direction away from the end, and wherein each of the guide surfaces has a protruding portion having a maximum protruding amount protruding toward the rolling surface central portion of a corresponding one of the tapered rollers, the protruding portion being shorter, in the longitudinal direction of the corresponding one of the tapered rollers, than the rolling surface central portion of the corresponding one of the tapered rollers. 2. The retainer of claim 1 , wherein the first annular portion includes pocket end surfaces each configured to axially contact a respective one of the tapered rollers, and third recessed surfaces in the form of cutouts each axially recessed from a respective one of the pocket end surfaces, and wherein each of the third recessed surfaces is located at a circumferentially central portion between a respective circumferentially adjacent pair of the crossbars. 3. The retainer of claim 2 , wherein the crossbars have radially inner surfaces that lie in an imaginary conical surface, wherein the first annular portion has a straight portion flush with the radially inner surfaces of the crossbars, and a rounded corner surface bent in a radial direction from the straight portion, and wherein the third recessed surfaces have depths of 0.1 mm or greater, and are located within the straight portion. 4. The retainer of claim 3 , wherein the maximum protruding amount is not less than 1 micrometer and not more than 50 micrometers. 5. The retainer of claim 2 , wherein each of the guide surfaces is tapered and has a length which is not less than 5% and not more than 20% of an average diameter of a corresponding one of the tapered rollers, in a plane perpendicular to a center axis of the corresponding one of the tapered rollers. 6. The retainer of claim 5 , wherein each of the first recessed surfaces and the second recessed surfaces has a depth determined such that a ratio of a width of a corresponding one of the crossbars to a wall thickness of the corresponding one of the crossbars is equal to or higher than 1.05. 7. The retainer of claim 2 , wherein each of the first recessed surfaces and the second recessed surfaces has a depth determined such that a ratio of a width of a corresponding one of the crossbars to a wall thickness of the corresponding one of the crossbars is equal to or higher than 1.05. 8. The retainer of claim 2 , wherein the maximum protruding amount is not less than 1 micrometer and not more than 50 micrometers. 9. The retainer of claim 1 , wherein each of the guide surfaces is tapered and has a length which is not less than 5% and not more than 20% of an average diameter of a corresponding one of the tapered rollers, in a plane perpendicular to a center axis of the corresponding one of the tapered rollers. 10. The retainer of claim 9 , wherein each of the first recessed surfaces and the second recessed surfaces has a depth determined such that a ratio of a width of a corresponding one of the crossbars to a wall thickness of the corresponding one of the crossbars is equal to or higher than 1.05. 11. The retainer of claim 9 , wherein the maximum protruding amount is not less than 1 micrometer and not more than 50 micrometers. 12. The retainer of claim 1 , wherein each of the first recessed surfaces and the second recessed surfaces has a depth such that a ratio of a width of a corresponding one of the crossbars to a wall thickness of the corresponding one of the crossbars is equal to or higher than 1.05. 13. The retainer of claim 12 , wherein the maximum protruding amount is not less than 1 micrometer and not more than 50 micrometers. 14. The retainer of claim 1 , wherein the maximum protruding amount is not less than 1 micrometer and not more than 50 micrometers. 15. A tapered roller bearing comprising: an inner race having a raceway surface, a small flange, and a large flange; and the retainer of claim 1 , wherein a radial gap is defined between a radially inner surface of the first annular portion and a radially outer surface of the small flange, the radial gap being 2% or less of an outer diameter of the small flange. 16. A retainer formed with pockets configured to each receive one of a plurality of tapered rollers, the retainer comprising: a plurality of crossbars separating circumferentially adjacent pairs of the pockets from each other; a first annular portion continuously connected to first axial ends of the crossbars; and a second annular portion having an outer diameter larger than an outer diameter of the first annular portion, and continuously connected to second axial ends of the crossbars which are opposite from the first axial ends of the crossbars, wherein the crossbars have guide surfaces configured to circumferentially contact corresponding ones of the tapered rollers, wherein the first annular portion includes pocket end surfaces each configured to axially contact a respective one of the tapered rollers, and third recessed surfaces in the form of cutouts each axially recessed from a respective one of the pocket end surfaces, wherein each of the third recessed surfaces is located at a circumferentially central portion between a respective circumferentially adjacent pair of the crossbars, wherein the guide surfaces are smoothly convex in a longitudinal direction of the tapered rollers, wherein each of the tapered rollers includes a rolling surface central portion located at a central portion of an entire length of a respective one of the tapered rollers, and having a straight generating line, and crowning portions each extending from an end of the rolling surface central portion such that a diameter of the crowning portion gradually decreases in a direction away from the end, and wherein each of the guide surfaces has a protruding portion having a maximum protruding amount protruding toward the rolling surface central portion of a corresponding one of the tapered rollers, the pr