Bearing

The invention claimed is: 1. A bearing comprising: an inner ring case; an outer ring case disposed around the inner ring case; a plurality of first rollers adapted to roll between an outer periphery of the inner ring case and an inner periphery of the outer ring case; and a plurality of second rollers each disposed between adjacent first rollers, each of the second rollers being smaller in diameter than each of the first rollers and having a longer axial length along a rotation axis than each of the first rollers, wherein the outer ring case includes an annular guide groove, the guide groove housing an end of each of the plurality of second rollers, with the rotation axis of each of the second rollers being perpendicular to a radial direction and a circumferential direction of the bearing, a groove width representing a length of the guide groove along the radial direction of the bearing is greater than a diameter of each of the second rollers, and a first radius representing a distance from a bearing axis to an inner wall face of the guide groove that is a radially outermost wall face of the guide groove in the radial direction of the bearing is smaller than a distance from the bearing axis to an axial center of the first roller plus a radius of the second roller, wherein the radius of the second roller is greater than a first value and less than a second value, wherein the first value is defined as a size of the radius of the second roller that is set such that the first rollers are in contact with each other and the second roller is contacting with adjacent first rollers, and the second value is defined as a size of the radius of the second roller that is set such that a triangle formed by the center of the first roller, the center of the second roller adjacent to the first roller, and the bearing axis is a right triangle, wherein a distance from the bearing axis center to the axial center of the first roller equals to a distance from the bearing axis center to the outer periphery of the inner ring case plus a radius of the first roller, and the outer ring case includes a hole to allow insertion of the second rollers into the guide groove from outside the outer ring case. 2. The bearing according to claim 1 , wherein a second radius representing a distance from the bearing axis to the inner wall face of the guide groove that is a radially innermost wall face of the guide groove in the radial direction of the bearing is smaller than the first radius minus a diameter of each of the second rollers and is greater than the first radius minus a distance to an external face of the outer ring case that is closer to the inner ring case. 3. The bearing according to claim 1 , wherein the guide groove includes a pair of guide grooves housing one end of each of the second rollers and an opposite end of each of the second rollers. 4. The bearing according to claim 1 , wherein each of the plurality of first rollers has a cylindrical shape. 5. The bearing according to claim 1 , wherein each of the plurality of second rollers has a cylindrical shape. 6. The bearing according to claim 1 , wherein the guide groove is configured to prevent the second rollers from moving radially beyond the axial center of the first rollers. 7. The bearing according to claim 1 , wherein the bearing is a railroad bearing, the inner ring case having an inside diameter of 70 mm, the outer ring case having a diameter of 125 mm, each of the first rollers having a diameter of 12 mm and a length of 15 mm, and the second rollers move radially outward at an orbital speed of 15.14 rad/s or greater. 8. A bearing comprising: an inner ring case; an outer ring case disposed around the inner ring case; a plurality of first rollers adapted to roll between an outer periphery of the inner ring case and an inner periphery of the outer ring case; and a plurality of second rollers each disposed between adjacent first rollers, each of the second rollers being smaller in diameter than each of the first rollers and having a longer axial length along a rotation axis than each of the first rollers, wherein the outer ring case includes an annular guide groove, the guide groove housing an end of each of the plurality of second rollers, with the rotation axis of each of the second rollers being perpendicular to a radial direction and a circumferential direction of the bearing, a groove width representing a length of the guide groove along the radial direction of the bearing is greater than a diameter of each of the second rollers, and a first radius representing a distance from a bearing axis to an inner wall face of the guide groove that is a radially outermost wall face of the guide groove in the radial direction of the bearing is smaller than a distance from the bearing axis to an axial center of the first roller plus a radius of the second roller, wherein the guide groove houses only one of a plurality of the ends of each of the second rollers, wherein a distance from the bearing axis center to the axial center of the first roller equals to a distance from the bearing axis center to the outer periphery of the inner ring case plus a radius of the first roller, and the outer ring case includes a hole to allow insertion of the second rollers into the guide groove from outside the outer ring case. 9. The bearing according to claim 8 , wherein a second radius representing a distance from the bearing axis to the inner wall face of the guide groove that is a radially innermost wall face of the guide groove in the radial direction of the bearing is smaller than the first radius minus a diameter of each of the second rollers and is greater than the first radius minus a distance to an external face of the outer ring case that is closer to the inner ring case. 10. The bearing according to claim 8 , wherein each of the plurality of first rollers has a cylindrical shape, and each of the plurality of second rollers has a cylindrical shape. 11. The bearing according to claim 8 , wherein the guide groove is configured to prevent the second rollers from moving radially beyond the axial center of the first rollers. 12. A bearing comprising: an inner ring case; an outer ring case disposed around the inner ring case; a plurality of first rollers adapted to roll between an outer periphery of the inner ring case and an inner periphery of the outer ring case; and a plurality of second rollers each disposed between adjacent first rollers, each of the second rollers being smaller in diameter than each of the first rollers and having a longer axial length along a rotation axis than each of the first rollers, wherein the outer ring case includes an annular guide groove, the guide groove housing an end of each of the plurality of second rollers, with the rotation axis of each of the second rollers being perpendicular to a radial direction and a circumferential direction of the bearing, a groove width representing a length of the guide groove along the radial direction of the bearing is greater than a diameter of each of the second rollers, and a first radius representing a distance from a bearing axis to an inner wall face of the guide groove that is a radially outermost wall face of the guide groove in the radial direction of the bearing is smaller than a distance from the bearing axis to an axial center of the first roller plus a radius of the second roller, wherein when a radius of each of the second rollers is “b”, the radius “b” satisfies the following formula: L 2 +( R 2+ H ) 2 −2 L ( R 2+ H ))/2( a+L−R 2− H )< b ≤( a+R 2)cos(π/ n )−( H+R 2) wherein “a” is a radius of each of the first rollers, L is a distance betw