Cage for rolling bearing and rolling bearing

The invention claimed is: 1. A cage for a rolling bearing retaining rolling elements of said rolling bearing, wherein of an entire outermost surface of said cage, a tin alloy film consisting of tin and a metal other than said tin is formed on at least a sliding-contact surface of said cage to be subjected to sliding contact with said rolling elements and a sliding-contact surface thereof to be subjected to sliding contact with other members; said metal other than said tin has a lower surface free energy than iron; in said tin alloy film, as a weight ratio (wt %) between said tin and said metal other than said tin, (tin: metal other than tin)=(65:35) to (95:5); and a thickness of said tin alloy film is set to more than 5 μm and less than 30 μm. 2. A cage for a rolling bearing according to claim 1 , wherein said metal other than said tin is at least one metal selected from among bismuth, gold, silver, zinc, indium, cobalt, nickel, and antimony. 3. A cage for a rolling bearing according to claim 2 , wherein said metal other than said tin is said zinc. 4. A cage for a rolling bearing according to claim 1 , wherein a body of said cage consists of an iron-based metal material selected from among bearing steel, carburized steel, carbon steel for machine structural use, cold rolled steel, and hot rolled steel. 5. A cage for a rolling bearing according to claim 1 , wherein when three specimens in which said tin alloy film has been formed on an entire surface of a base material consisting of SCM415 having a dimension of 3 mm×times 3 mm×times 20 mm (surface area: 258 mm 2 ) are immersed in 2.2 g of poly-α-olefin oil containing 1 wt % of zinc dithiophosphate at 150° C. for 200 hours, an amount of components of said films which elute from said specimens into said poly-α-olefin oil is not more than 500 ppm (0.05 wt %) when said amount is measured by an X-ray fluorescence measuring instrument. 6. A rolling bearing comprising a plurality of rolling elements and a cage retaining said rolling elements, wherein said cage is a cage for a rolling bearing as claimed in claim 1 . 7. A rolling bearing according to claim 6 , which supports a crankshaft outputting a rotational motion and is mounted on an engaging hole formed at an end portion of a connecting rod converting a linear reciprocating motion to said rotational motion. 8. A cage for a rolling bearing according to claim 1 , wherein said tin alloy film is formed directly on a surface of a base material of said cage without an undercoating film being formed on said surface of said base material thereof. 9. A cage for a rolling bearing according to claim 1 , wherein in said tin alloy film, as a weight ratio (wt %) between said tin and said metal other than tin, (tin: metal other than tin)=(790:30) to (95:5).