Bearing and medical device

What is claimed is: 1. A medical device for cutting an object in a biological lumen, the medical device comprising: a rotatable drive shaft; a cutting portion configured to be positioned in the biological lumen, the cutting portion being on a distal side of the drive shaft and being rotatable together with the drive shaft so that rotation of the drive shaft rotates the cutting portion to cut the object in the biological lumen; an outer tube rotatably accommodating the drive shaft; an inner ring disposed on a cutting portion side; an outer ring disposed on an outer tube side; a plurality of rolling elements positioned between the inner ring and the outer ring; one of the inner ring or the outer ring including a raceway surface on which the rolling elements roll, the other of the inner ring or the outer ring including a facing surface that faces the raceway surface; a plurality of receiving portions individually rotatably accommodating the rolling elements, the plurality of receiving portions being provided on a side of the inner ring or the outer ring facing the raceway surface; and a radial distance between the raceway surface and the facing surface at locations circumferentially between the receiving portions being greater than the radial distance between the raceway surface and the facing surface at the receiving portions so that axially extending gaps exist between the inner ring and the outer ring, the gaps defining axially extending flow paths that allow a fluid or an object to flow through the axially extending gaps during operation of the medical device. 2. The medical device according to claim 1 , wherein the inner ring is fixed to the cutting portion so that rotation of the cutting portion results in rotation of the inner ring. 3. The medical device according to claim 1 , wherein the inner ring includes a plurality of axially extending and circumferentially spaced-apart slits that define a plurality of circumferentially spaced-apart support portions, each support portion being located between two of the slits, each support portion including a plurality of the receiving portions. 4. The medical device according to claim 1 , wherein the outer ring is fixed to a distal end of the outer tube. 5. The medical device according to claim 1 , wherein the inner ring includes a cylindrically-shaped and axially extending inner ring main body that protrudes distally beyond a distal end of the outer ring, the inner ring also including three circumferentially spaced-apart and axially extending projection portions that protrude proximally beyond a proximal end of the outer ring, each projection portion including a plurality of the receiving portions each of which includes a concave sliding surface. 6. A bearing having opposite axial ends, the bearing comprising: an inner ring that includes an axially extending through hole; an outer ring that includes an axially extending through hole; a plurality of rolling elements between the inner ring and the outer ring; one of the inner ring or the outer ring including a raceway surface in contact with the rolling elements and on which the rolling elements roll, the other of the inner ring or the outer ring including a facing surface that faces the raceway surface; a plurality of receiving portions each rotatably accommodating one of the rolling elements, the receiving portions being provided on a side of the inner ring or the outer ring facing the raceway surface; a plurality of circumferentially spaced-apart gaps each located between the inner ring and the outer ring and each positioned between circumferentially adjacent ones of the rolling elements, each of the gaps extending axially between the opposite axial ends of the bearing and being open at opposite axial ends of the gap to define a flow path that allows a fluid or an object to flow through the axially extending gaps; and a radial distance between the raceway surface and the facing surface in the axially extending gaps being greater than the radial distance between the raceway surface and the facing surface at the receiving portions. 7. The bearing according to claim 6 , wherein the receiving apportions are convex-shaped receiving portions that protrude toward the raceway surface. 8. The bearing according to claim 7 , wherein the inner ring and the outer ring are relatively rotatable about a rotation axis of the bearing, the convex receiving portion has, on a side surface on a rotation direction side, a slope inclined with respect to the rotation axis. 9. The bearing according to claim 7 , wherein a cutting projection portion protruding toward the convex-shaped receiving portion is provided on a side of the inner ring or the outer ring facing the convex-shaped receiving portion. 10. The bearing according to claim 6 , wherein a friction coefficient of a sliding surface of the receiving portion in contact with the rolling elements is smaller than a friction coefficient of the raceway surface. 11. The bearing according to claim 6 , wherein the receiving portion includes a sliding surface in contact with the rolling elements, the sliding surface of the receiving portion being made of a material different from a material of which the raceway surface is made. 12. The bearing according to claim 6 , wherein the receiving portion includes a sliding surface in contact with the rolling elements, the sliding surface of the receiving portion having a surface microstructure different from a surface microstructure of the raceway surface. 13. The bearing according to claim 6 , wherein the receiving portion includes a sliding surface in contact with the rolling elements, the receiving portion including a through hole through which a lubricating fluid flows to the sliding surface of the receiving portion in contact with the rolling element. 14. The bearing according to claim 6 , wherein the receiving portion has a first wall portion located on a first axial side of the bearing with respect to the rolling elements, the raceway surface has a second wall portion located on a second axial side of the bearing with respect to the rolling elements, the first and second axial sides being opposite axial sides of the bearing, and the rolling elements being interposed and supported in the axial direction between the first wall portion and the second wall portion. 15. The bearing according to claim 14 , wherein the inner ring and the outer ring are relatively rotatable about a rotation axis of the bearing; the receiving portion including a further wall portion located on the second axial side of the bearing, the raceway surface including an additional wall portion located on the first axial side of the bearing; the first wall portion and the further wall portion terminating at respective ends, a perpendicular distance between the end of the first wall portion and the rotation axis being greater than the perpendicular distance between the end of the further wall portion and the rotation axis, and the second wall portion and the additional wall portion terminating at respective ends, a perpendicular distance between the end of the second wall portion and the rotation axis being less than the perpendicular distance between the end of the additional wall portion and the rotation axis. 16. A bearing having opposite axial ends, the bearing comprising: a first ring that includes an axially extending through hole; a second ring that includes an axially extending through hole; a plurality of spherical rolling elements positioned between the first ring and the second ring; the first ring including a plurality of circumferen