Power transmission belt and method for fabricating the same

What is claimed is: 1. A power transmission belt comprising: a belt body; a mark provided on a surface of the belt body; and a transparent or semitransparent sheet material covering a portion of the surface of the belt body including the mark, wherein at least a portion of the belt body covered with the sheet material is made of a rubber composition vulcanized with sulfur, the sheet material is made of a rubber material containing syndiotactic 1,2-polybutadiene rubber, and the sheet material is vulcanized with sulfur together with the rubber composition forming the portion of the belt body covered with the sheet material such that the sheet material is connected to the belt body. 2. The power transmission belt of claim 1 , wherein the sheet material has a total light transmittance, which is measured according to JIS K7361-1, of higher than or equal to 40%. 3. The power transmission belt of claim 1 , wherein the sheet material has a thickness of 20-80 μm. 4. The power transmission belt of claim 1 , wherein no difference in level is created between a surface of the belt body and a surface of the sheet material. 5. The power transmission belt of claim 1 , wherein a difference in level between a surface of the belt body and a surface of the sheet material is equal to or less than 15 μm. 6. The power transmission belt of claim 1 , wherein a rubber component in the rubber composition forming at least the portion of the belt body covered with the sheet material is ethylene-α-olefin elastomer. 7. The power transmission belt of claim 1 , wherein the mark is made of chlorosulfonated polyethylene rubber containing a pigment. 8. The power transmission belt of claim 1 , wherein the belt body is a V-ribbed belt body. 9. The power transmission belt of claim 1 , wherein the surface of the belt body including the mark is a back surface of the belt. 10. A method for fabricating a power transmission belt, the method comprising: a belt formation body formation step of placing, on a surface of an unvulcanized rubber composition containing sulfur as a crosslinker for forming at least one portion of a belt body, a mark-printed sheet including a transparent or semitransparent sheet material made of a rubber material containing syndiotactic 1,2-polybutadiene rubber and a mark printed on a surface of the sheet material to form a belt formation body, the surface of the sheet material near the printed mark being in contact with the unvulcanized rubber composition; and a vulcanization step of vulcanizing the unvulcanized rubber composition with sulfur by heating and pressing the belt formation body formed in the belt formation body formation step to form a belt body, and simultaneously vulcanizing also the sheet material of the mark-printed sheet with sulfur such that the sheet material is connected to the belt body. 11. The method of claim 10 , wherein the sheet material of the mark-printed sheet is sulfur-free. 12. The method of claim 10 , wherein in the belt formation body formation step, the mark-printed sheet is placed on the unvulcanized rubber composition before the unvulcanized rubber composition is placed on a molding tool for forming the belt formation body. 13. The method of claim 10 , wherein in the belt formation body formation step, the mark-printed sheet is placed on a surface of a molding tool for forming the belt formation body such that a surface of the mark-printed sheet remote from the printed mark is in contact with the molding tool, the mark-printed sheet is placed on the surface of the molding tool, and the unvulcanized rubber composition is placed on the mark-printed sheet. 14. A power transmission belt comprising: a belt body; a mark provided on a surface of the belt body; and a transparent or semitransparent sheet material covering a portion of the surface of the belt body including the mark, wherein at least a portion of the belt body covered with the sheet material is made of a rubber composition vulcanized with sulfur, the sheet material is made of a rubber material containing a diene rubber, the sheet material is vulcanized with sulfur together with the rubber composition forming the portion of the belt body covered with the sheet material such that the sheet material is connected to the belt body, and no difference in level is created between a surface of the belt body and a surface of the sheet material. 15. A method for fabricating a power transmission belt, the method comprising: a belt formation body formation step of placing, on a surface of an unvulcanized rubber composition containing sulfur as a crosslinker for forming at least one portion of a belt body, a mark-printed sheet including a transparent or semitransparent sheet material made of a rubber material containing a diene rubber and a mark printed on a surface of the sheet material to form a belt formation body, the surface of the sheet material near the printed mark being in contact with the unvulcanized rubber composition; and a vulcanization step of vulcanizing the unvulcanized rubber composition with sulfur by heating and pressing the belt formation body formed in the belt formation body formation step to form a belt body, and simultaneously vulcanizing also the sheet material of the mark-printed sheet with sulfur such that the sheet material is connected to the belt body, no difference in level being created between a surface of the belt body and a surface of the sheet material. 16. A power transmission belt comprising: a belt body; a mark provided on a surface of the belt body, and made of chlorosulfonated polyethylene rubber containing a pigment; and a transparent or semitransparent sheet material covering a portion of the surface of the belt body including the mark, wherein at least a portion of the belt body covered with the sheet material is made of a rubber composition vulcanized with sulfur, the sheet material is made of a rubber material containing a diene rubber, and the sheet material is vulcanized with sulfur together with the rubber composition forming the portion of the belt body covered with the sheet material such that the sheet material is connected to the belt body. 17. A method for fabricating a power transmission belt, the method comprising: a belt formation body formation step of placing, on a surface of an unvulcanized rubber composition containing sulfur as a crosslinker for forming at least one portion of a belt body, a mark-printed sheet including a transparent or semitransparent sheet material made of a rubber material containing a diene rubber and a mark printed on a surface of the sheet material to form a belt formation body, the surface of the sheet material near the printed mark being in contact with the unvulcanized rubber composition, the mark being made of chlorosulfonated polyethylene rubber containing a pigment; and a vulcanization step of vulcanizing the unvulcanized rubber composition with sulfur by heating and pressing the belt formation body formed in the belt formation body formation step to form a belt body, and simultaneously vulcanizing also the sheet material of the mark-printed sheet with sulfur such that the sheet material is connected to the belt body.