Belt drive mechanism, belt drive apparatus, and pulley

What is claimed is: 1. A belt drive mechanism, comprising: a plurality of pulleys; and a belt made from a metal material and wound around the plurality of pulleys, wherein the plurality of pulleys include a drive pulley and a driven pulley, the driven pulley has an outer peripheral surface around the entire circumference of which a swelling portion is formed to swell outward in a radial direction of the driven pulley, the swelling portion includes a first part having a larger swelling amount and second parts each having a smaller swelling amount, the first part having a larger linear expansion coefficient than each of the second parts, the driven pulley is made from a hard resin, the swelling portion has a crown shape, the crown shape is an arc shape in which the swelling portion swells most outward in the radial direction of the driven pulley at a central part of the swelling portion in a width direction of the outer peripheral surface of the driven pulley and a swelling amount of the swelling portion gradually reduces toward respective opposite end parts from the central part of the swelling portion, the first part is the central part of the swelling portion that includes an arc-shaped part, the second parts are the respective opposite end parts of the swelling portion that each include an arc-shaped part, coated portions to increase thermal resistance are disposed on the respective second parts, and the coated portions are line symmetrical with respect to an imaginary line passing through the center part of the swelling portion in the width direction of the driven pulley. 2. A belt drive mechanism according to claim 1 , wherein the swelling portion is formed across an entirety of the outer peripheral surface of the driven pulley in the width direction of the driven pulley. 3. A belt drive mechanism according to claim 1 , wherein the swelling portion is formed at a part of the outer peripheral surface of the driven pulley in the width direction of the driven pulley. 4. A belt drive mechanism according to claim 1 , wherein a width Y of the belt and a width B of the outer peripheral surface of the driven pulley on which the swelling portion is formed satisfy a relational expression, B>Y≧0.5 B. 5. A belt drive apparatus, comprising: a belt drive mechanism according to claim 1 . 6. A driven pulley having an outer peripheral surface around which a belt is wound, comprising: a swelling portion formed on the outer peripheral surface to swell outward in a radial direction of the driven pulley, wherein the swelling portion includes a first part having a larger swelling amount and second parts each having a smaller swelling amount, the first part having a larger linear expansion coefficient than each of the second parts, the driven pulley is made from a hard resin, the swelling portion has a crown shape, the crown shape is an arc shape in which the swelling portion swells most outward in the radial direction of the driven pulley at a central part of the swelling portion in a width direction of the outer peripheral surface of the driven pulley and a swelling amount of the swelling portion gradually reduces toward respective opposite end parts from the central part of the swelling portion, the first part is the central part of the swelling portion that includes an arc-shaped part, the second parts are the respective opposite end parts of the swelling portion that each include an arc-shaped part, coated portions to increase thermal resistance are disposed on the respective second parts, and the coated portions are line symmetrical with respect to an imaginary line passing through the center part of the swelling portion in the width direction of the driven pulley. 7. A belt drive mechanism according to claim 1 , wherein the coated portion is formed by fluororesin coating on the resin that forms a base material of the driven pulley. 8. A laser printer comprising: a belt drive mechanism according to claim 1 ; and an image forming section configured to form an image on a sheet of paper, wherein the image forming section includes a photosensitive drum, and the belt drive mechanism drives the photosensitive drum.