Gas compressor formed with a high-pressure supply hole

What is claimed is: 1. A gas compressor comprising: a compressor body comprising a rotor in a cylindrical shape to rotate integrally with a rotational shaft, having vane grooves, a cylinder with an inner circumference shaped to surround an outer circumference of the rotor, vanes plate-shaped, slidably inserted into the vane grooves, and abuttable at one ends on the inner circumference of the cylinder, upon receiving a back pressure from the vane grooves, front and rear side blocks to enclose both ends of the rotor and the cylinder, respectively, compression chambers partitioned by the outer circumference of the rotor, the inner circumference of the cylinder, inner faces of the front and rear side blocks, and the vanes, and supplied with a medium, to compress the medium to a high-pressure medium for discharge; an oil separator to separate, from the discharged high-pressure medium, oil to be used as the back pressure; an oil path through which the oil at a certain pressure is supplied to the vane grooves in a compression process of the medium in the compression chambers; and a high-pressure supply hole through which the oil at a pressure higher than the certain pressure is supplied to the vane grooves in a last stage of the compression process, the high-pressure supply hole formed in at least one of the side blocks by drilling, including a small diameter portion upstream of an oil flow direction and a large diameter portion downstream of the oil flow direction, larger in diameter than the small diameter portion, the small and large diameter portions being integrally formed along a length of the high-pressure supply hole; wherein the small diameter portion and the large diameter portion are integrally and coaxially formed; and wherein the at least one of the side blocks includes a shaft hole into which the rotational shaft is rotatably inserted and having an oil groove of a ring shape on an inner surface of the shaft hole, extending in a circumferential direction, to be supplied with the oil at a higher pressure than the certain pressure; and an upstream end of the small diameter portion is open to the oil groove. 2. A gas compressor comprising: a compressor body comprising a rotor in a cylindrical shape to rotate integrally with a rotational shaft, having vane grooves, a cylinder with an inner circumference shaped to surround an outer circumference of the rotor, vanes plate-shaped, slidably inserted into the vane grooves, and abuttable at one end on the inner circumference of the cylinder, upon receiving a back pressure from the vane grooves, front and rear side blocks to enclose both ends of the rotor and the cylinder, respectively, compression chambers partitioned by the outer circumference of the rotor, the inner circumference of the cylinder, inner faces of the front and rear side blocks, and the vanes, and supplied with a medium, to compress the medium to a high-pressure medium for discharge; an oil separator to separate, from the discharged high-pressure medium, oil to be used as the back pressure; an oil path through which the oil at a certain pressure is supplied to the vane grooves in a compression process of the medium in the compression chambers; and a high-pressure supply hole through which the oil at a pressure higher than the certain pressure is supplied to the vane grooves in a last stage of the compression process, the high-pressure supply hole formed in at least one of the side blocks by drilling, including a small diameter portion upstream of an oil flow direction and a large diameter portion downstream of the oil flow direction, larger in diameter than the small diameter portion, the small and large diameter portions being integrally formed along a length of the high-pressure supply hole; wherein the small diameter portion and the large diameter portion are integrally and coaxially formed.