Reciprocating compressor

The invention claimed is: 1. A reciprocating compressor including a crank mechanism which generates a driving force for reciprocating a piston in a cylinder so that gas flowing into the cylinder is compressed by using the piston reciprocating in the cylinder, the reciprocating compressor comprising: a piston rod extending along a predetermined central axis across an opening formed in an end of the cylinder, the piston rod being coupled to the piston and the crank mechanism to transmit the driving force from the crank mechanism to the piston; a rear head through which the piston rod extends, the rear head being configured to close the opening of the cylinder; and a rod ring portion configured to prevent the gas in the cylinder from leaking from a gap between the rear head and the piston rod, wherein the piston rod includes an outer circumferential surface on which an annular groove portion is formed to surround the central axis of the piston rod, the rod ring portion includes: an inner circumferential portion which is fit into the groove portion; and an outer circumferential portion in sliding contact with an inner circumferential surface of the rear head while the piston rod reciprocates in an extension direction of the central axis together with the piston, and the rod ring portion is configured to cause an outward bias force to allow a gas to act outward on the inner circumferential portion of the rod ring portion. 2. The reciprocating compressor according to claim 1 , wherein the piston rod includes: a first rod portion; and a second rod portion extending between the first rod portion and the piston, the second rod portion being identical in diameter to the first rod portion, and the groove portion is formed on the second rod portion. 3. The reciprocating compressor according to claim 2 , further comprising an annular rod packing portion including an inner circumferential edge in sliding contact with an outer circumferential surface of the first rod portion of the piston rod reciprocating together with the piston. 4. The reciprocating compressor according to claim 3 , wherein the rod ring portion includes rod rings arranged at intervals in the extension direction of the central axis, the groove portion includes annular grooves formed on the outer circumferential surface of the piston rod in correspondence to the rod rings, and the rod packing portion includes fewer rod packings than the rod rings, the rod packings being arranged along the first rod portion. 5. The reciprocating compressor according to claim 1 , wherein the piston is larger in diameter than the piston rod, and the rod ring portion prevents the gas from leaking from a variable capacity space surrounded by the cylinder, the piston and the rear head to a gap between the piston rod and the rear head. 6. The reciprocating compressor according to claim 1 , further comprising a cooling mechanism configured to cool the inner circumferential surface of the rear head in a stroke section of the rod ring portion reciprocating together with the piston. 7. The reciprocating compressor according to claim 6 , wherein the cooling mechanism includes a feeding device which feeds a coolant for cooling the rear head to a flow path formed in the rear head in the stroke section.