Chain guide and chain transmission device

What is claimed is: 1. A chain guide comprising: a guide base including an opposed pair of side plates and elongated in one direction, wherein the guide base is configured to be arranged along a portion of an outer periphery of a timing chain such that said one direction coincides with a direction in which the timing chain moves, and wherein the side plates have shaft engaging portions; a plurality of roller shafts having ends supported by the respective shaft engaging portions and spaced apart from each other in a longitudinal direction of the side plates; and rollers rotatably supported by the respective roller shafts and configured to guide the timing chain, wherein the roller shafts have cylindrical surfaces, respectively, for rotatably supporting the rollers; wherein the shaft engaging portions have first surface engaging portions; wherein the roller shafts further have second surface engaging portions at respective ends of the roller shafts separated by the respective cylindrical surfaces thereof; wherein the second surface engaging portions of the roller shafts have non-cylindrical shapes that are complementary in shape with and engaged with the first surface engaging portions of the shaft engaging portions so as to rotationally fix the roller shafts between the opposed pair of side plates; and wherein the guide base and the roller shafts are made of different materials that have different coefficients of linear expansion. 2. The chain guide of claim 1 , wherein each of the shaft engaging portions comprises a tapered groove section extending from a side surface of a corresponding side plate facing the timing chain in a width direction of the corresponding side plate, and a circular shaft supporting section connected to a narrow end of the tapered groove section and configured to support one end of one of the roller shafts, wherein the narrow end has a width smaller than outer diameters of the roller shafts and wherein the circular shaft supporting section includes the first surface engaging portions. 3. The chain guide of claim 2 , wherein the first surface engaging portions are first recessed or protruding surfaces formed on inner peripheries of the respective shaft supporting sections, and wherein the second surface engaging portions are second recessed or protruding surfaces formed on outer peripheries of the ends of the roller shafts and configured to be brought into surface engagement with the respective first recessed or protruding surfaces. 4. The chain guide of claim 3 , wherein two of the second recessed or protruding surfaces are formed on the outer periphery of each of the ends of the roller shafts so as to be diametrically opposed to each other and symmetrical to each other with respect to a plane including an axis of the roller shaft. 5. The chain guide of claim 2 , wherein the first surface engaging portions are first flat surfaces formed on inner peripheries of the respective shaft supporting sections, and wherein the second surface engaging portions are second flat surfaces formed on outer peripheries of the ends of the roller shafts and configured to be brought into surface engagement with the respective first flat surfaces. 6. A chain guide comprising: a guide base including an opposed pair of side plates and elongated in one direction, wherein the guide base is configured to be arranged along a portion of an outer periphery of a timing chain such that said one direction coincides with a direction in which the timing chain moves, and wherein the side plates have shaft engaging portions; a plurality of roller shafts having ends supported by the respective shaft engaging portions and spaced apart from each other in a longitudinal direction of the side plates; and rollers rotatably supported by the respective roller shafts and configured to guide the timing chain, wherein the shaft engaging portions have first surface engaging portions, and the roller shafts have second surface engaging portions at the respective ends of the roller shafts which are in surface engagement with the respective first surface engaging portions, thereby rotationally fixing the roller shafts, wherein each of the shaft engaging portions comprises a tapered groove section extending from a side surface of a corresponding side plate facing the timing chain in a width direction of the corresponding side plate, and a circular shaft supporting section connected to a narrow end of the tapered groove section and configured to support one end of one of the roller shafts, wherein the narrow end has a width smaller than outer diameters of the roller shafts; and wherein radial load supporting surfaces are formed on inner peripheries of the respective shaft supporting sections, wherein the first surface engaging portions comprise guide ribs extending from the respective load supporting surfaces to openings of the respective shaft engaging portions, wherein the end surfaces of the roller shafts are circular in shape, wherein the second surface engaging portions comprise guide grooves formed in the respective end surfaces of the roller shafts to extend in diametrical directions of the end surfaces of the roller shafts, and wherein each of the guide ribs has two side surfaces and is fitted in a corresponding one of the guide grooves with the two side surfaces in surface engagement with inner side walls of the corresponding one of the guide grooves. 7. The chain guide of claim 2 , wherein each of the first surface engaging portions comprises two mutually opposed first flat surfaces formed on an inner periphery of one of the shaft supporting sections, and wherein each of the second surface engaging portions comprises two mutually opposed second flat surfaces formed on an outer periphery of one of end portions of the roller shafts and kept in surface engagement with the corresponding two first flat surfaces. 8. The chain guide of claim 7 , wherein, for each of the shaft engaging portions, the two mutually opposed first flat surfaces are spaced apart from each other by a same distance as the width of the narrow end of the tapered groove section, an elastically deformable anti-separation protrusion is formed on a portion of a wall surface of the shaft engaging portion where a corresponding one of the end surfaces of the roller shafts is opposed such that the anti-separation protrusion is brought into engagement with an upper portion of the outer periphery of the roller shaft, thereby preventing separation of the roller shaft, and wherein the anti-separation protrusion is formed with an inclined guide surface on an inner surface of the anti-separation protrusion which faces the roller shaft. 9. The chain guide of claim 1 , wherein the guide base is formed of a synthetic resin, and the roller shafts are made of steel. 10. The chain guide of claim 9 , wherein gaps are defined between respective end surfaces of the roller shafts and wall surfaces of the shaft engaging portions facing the respective end surfaces of the roller shafts. 11. The chain guide of claim 9 , wherein each of the roller shafts has curved surface portions having a circular arc-shaped cross-section between an outer peripheral surface and respective end surfaces, of the roller shaft. 12. The chain guide of claim 9 , wherein each of the shaft engaging portions has a window formed in a wall surface of the shaft engaging portion facing a corresponding one of end surfaces of the roller shafts, and wherein the window is smaller than the end surfaces of the roller shafts, and extends to an outer side surface of a corresponding one of the side plates. 13. A chain transmission device comprising a driving sprocket, a driven spro