Pulley structure, sliding bearing, and production method for sliding bearing

The invention claimed is: 1. A pulley structure comprising: a cylindrical outer rotation body around which a belt is to be wound and which is rotated around a rotation axis by a torque applied from the belt; an inner rotation body which is provided radially inward of the outer rotation body, and is relatively rotatable with respect to the outer rotation body around the rotation axis; and a pair of bearings which is disposed between the outer rotation body and the inner rotation body at each of one end side and the other end side in an axial direction along the rotation axis, and connects the outer rotation body and the inner rotation body to make the rotation bodies rotatable with respect to each other, wherein, of the pair of bearings, one bearing is a sliding bearing, and the other bearing is a rolling bearing, wherein the sliding bearing is made of a thermoplastic resin and is formed into an ended ring shape, and wherein a thickness of the sliding bearing at each of both circumferential end portions is smaller than a reference dimension of a thickness of the sliding bearing. 2. The pulley structure according to claim 1 , wherein an inner circumferential surface of the sliding bearing is in contact with the inner rotation body in a state where a diameter of the sliding bearing is increased so that the sliding bearing is in close contact with the inner rotation body due to a self-elastic restoring force of the sliding bearing in a diameter decreasing direction, wherein a diameter of the inner circumferential surface of the sliding bearing is constant over an entire circumference in a circumferential direction, and wherein outer circumferential surfaces of the both circumferential end portions of the sliding bearing form chamfered portions extending to a radial inner side as approaching respective ends in the circumferential direction. 3. A sliding bearing constituting a pulley structure, the pulley structure comprising: a cylindrical outer rotation body around which a belt is to be wound and which is rotated around a rotation axis by a torque applied from the belt; an inner rotation body which is provided radially inward of the outer rotation body, and is relatively rotatable with respect to the outer rotation body around the rotation axis; and a pair of bearings which is disposed between the outer rotation body and the inner rotation body at each of one end side and the other end side in an axial direction along the rotation axis, and connects the outer rotation body and the inner rotation body to make the rotation bodies rotatable with respect to each other, in which, of the pair of bearings, one bearing is the sliding bearing, and the other bearing is a rolling bearing, wherein the sliding bearing is made of a thermoplastic resin, wherein the sliding bearing is formed into an ended ring shape, and wherein a thickness at each of both circumferential end portions of the sliding bearing is smaller than a reference dimension of a thickness of the sliding bearing. 4. The sliding bearing according to claim 3 , in which an inner circumferential surface of the sliding bearing is in contact with the inner rotation body in a state where a diameter of the sliding bearing is increased so that the sliding bearing is in close contact with the inner rotation body due to a self-elastic restoring force of the sliding bearing in a diameter decreasing direction, wherein a diameter of the inner circumferential surface is constant over an entire circumference in a circumferential direction, and wherein outer circumferential surfaces of the both circumferential end portions form chamfered portions extending to a radial inner side as approaching respective ends in the circumferential direction. 5. A method for producing a sliding bearing constituting a pulley structure, the pulley structure comprising: a cylindrical outer rotation body around which a belt is to be wound and which is rotated around a rotation axis by a torque applied from the belt; an inner rotation body which is provided radially inward of the outer rotation body, and is relatively rotatable with respect to the outer rotation body around the rotation axis; and a pair of bearings which is disposed between the outer rotation body and the inner rotation body at each of one end side and the other end side in an axial direction along the rotation axis, and connects the outer rotation body and the inner rotation body to make the rotation bodies rotatable with respect to each other, in which, of the pair of bearings, one bearing is the sliding bearing having an ended ring shape, and the other bearing is a rolling bearing, the method comprising injection-molding a thermoplastic resin by using a mold having a cavity with an ended ring shape, to prepare the sliding bearing, wherein a radial width of the cavity at each of both circumferential end portions is smaller than a reference dimension of a radial width of the cavity. 6. The method for producing a sliding bearing according to claim 5 , in which an inner circumferential surface of the sliding bearing is in contact with the inner rotation body in a state where a diameter of the sliding bearing is increased so that the sliding bearing is in close contact with the inner rotation body due to a self-elastic restoring force of the sliding bearing in a diameter decreasing direction, wherein a diameter of a wall surface on a radial inner side of the cavity is constant over an entire circumference in the circumferential direction, and wherein in the both circumferential end portions of the cavity, wall surfaces on a radial outer side of the cavity extend to the radial inner side as approaching respective ends in the circumferential direction.