Roller bearing

What is claimed is: 1. A roller bearing comprising: an inner ring having an inner-ring raceway surface on an outer periphery of the inner ring; an outer ring arranged concentric with and peripherally outside the inner ring and having, on an inner periphery of the outer ring, an outer-ring raceway surface that faces the inner-ring raceway surface; a plurality of rollers interposed between the inner-ring raceway surface and the outer-ring raceway surface in a rollable manner; and a cage that holds the rollers at predetermined intervals along a circumferential direction, the cage being provided with a plurality of cage bars, wherein at least one end portion of the outer-ring raceway surface in an axial direction serves as a guide surface on which rotation of the cage is guided, and on an outer periphery of the cage, a slidable contact surface is formed which slidably contacts the guide surface and which is arranged to face the guide surface across a labyrinth clearance, axially opposite end portions of the outer-ring raceway surface respectively serve as a first guide surface and a second guide surface on which rotation of the cage is guided, an axially-first-side slidable contact surface of the cage slidably contacting the first guide surface, and an axially-second-side slidable contact surface of the cage slidably contacting the second guide surface, a recessed portion that is recessed inward in the radial direction is formed on a radially outer side of each of the plurality of cage bars, and a diameter of a radially outer surface of at least one of the plurality of cage bars expands axially from the axially-first-side slidable contact surface to the axially-second-side slidable contact surface, crowning is applied to the outer-ring raceway surface, and the guide surface is formed away from a crowning center on the outer-ring raceway surface in the axial direction. 2. The roller bearing according to claim 1 , wherein, on an outer periphery of the inner ring, an outer-peripheral cylindrical surface is formed on a first side of the inner-ring raceway surface in the axial direction, and on an inner periphery of the cage, an inner-peripheral cylindrical surface is formed which is arranged to face the outer-peripheral cylindrical surface of the inner ring across a labyrinth clearance. 3. The roller bearing according to claim 1 , wherein the cage is formed of a resin material that has a Rockwell hardness of R110 to R120. 4. The roller bearing according to claim 2 , wherein the cage is formed of a resin material that has a Rockwell hardness of R110 to R120. 5. The roller bearing according to claim 1 , wherein the cage includes a small-diameter annular portion, and on an inner periphery of the small-diameter annular portion, a first inner-peripheral cylindrical surface is centered around an axis formed in an outer portion in the axial direction, and a second inner-peripheral cylindrical surface is centered around an axis formed in an inner portion in the axial direction, the second inner-peripheral cylindrical surface having a larger diameter than the first inner-peripheral cylindrical surface.