Retainer for ball bearing, and ball bearing

The invention claimed is: 1. A retainer for a ball bearing, comprising two annular members that face each other in an axial direction thereof, the two annular members having opposed surfaces each comprising hemispherical pockets that are formed at a plurality of positions in a circumferential direction of each of the two annular members and configured to receive balls, the opposed surfaces being snap-fitted to each other so as to couple the two annular members to each other, wherein the hemispherical pockets each have an inner peripheral surface including a ball contact surface and a ball non-contact surface, wherein the ball contact surface is formed at a central portion in a pocket circumferential direction of the inner peripheral surface and at least at a central portion in a pocket axial direction of the inner peripheral surface, the pocket circumferential direction of the inner peripheral surface being different from the circumferential direction of a corresponding one of the two annular members and the pocket axial direction of the inner peripheral surface being different from the axial direction of the two annular members, wherein the ball non-contact surface comprises a recess that is recessed to an opposite side to a corresponding one of the balls across the ball contact surface, wherein the recess is opened in at least one of pocket axial ends, wherein the ball contact surface comprises an oblong portion formed at the central portion in the pocket circumferential direction of the inner peripheral surface so as to reach both the pocket axial ends, wherein the ball non-contact surface comprises circular-arc recesses provided on both sides of the ball contact surface in the pocket circumferential direction of the inner peripheral surface, and wherein the circular-arc recesses are each opened in both the pocket axial ends. 2. A retainer for a ball bearing according to claim 1 , further comprising coupling portions for coupling the two annular members to each other by snap-fitting the opposed surfaces to each other, wherein the coupling portions are provided at both end portions in the pocket circumferential direction of the inner peripheral surface of each of the hemispherical pockets, and wherein the two annular members each have a back surface located on an opposite side to a corresponding one of the opposed surfaces and formed into a flat shape over an entire periphery thereof. 3. A retainer for a ball bearing according to claim 2 , wherein the coupling portions each comprise: a radially outer projection formed by extending, in the axial direction of the two annular members, a radially outer side of the end portion in the pocket circumferential direction of the inner peripheral surface of each of the hemispherical pockets of a first of the two annular members so as to allow the inner peripheral surface of each of the hemispherical pockets thereof to abut against the corresponding one of the balls; a radially inner recess formed by recessing a radially inner side of the end portion in the pocket circumferential direction of the inner peripheral surface of each of the hemispherical pockets of the first of the two annular members; a radially inner projection formed by extending, in the axial direction of the two annular members, a radially inner side of the end portion in the pocket circumferential direction of the inner peripheral surface of each of the hemispherical pockets of a second of the two annular members so as to allow the inner peripheral surface of each of the hemispherical pockets thereof to abut against the corresponding one of the balls; and a radially outer recess formed by recessing a radially outer side of the end portion in the pocket circumferential direction of the inner peripheral surface of each of the hemispherical pockets of the second of the two annular members, wherein the radially outer projection and the radially inner projection are engaged with each other in the axial direction of the two annular members by inserting the radially outer projection into the radially outer recess and by inserting the radially inner projection into the radially inner recess, and wherein an engagement surface of the radially outer projection and an engagement surface of the radially inner projection are inclined with respect to the axial direction of the two annular members such that the radially outer projection and the radially inner projection are each thicker on a distal end side than on a proximal end side.