Screw compressor having a discharging passage with enlarged cross section area

The invention claimed is: 1. A screw compressor comprising: a male rotor and a female rotor each including a rotor tooth section that has a plurality of helical teeth, the male rotor and the female rotor rotating in engagement with each other; a casing including a main casing having a bore formed in such a manner as to accommodate the male rotor and the female rotor, and a discharge-side casing closing a discharge side of the bore; and a discharge passage including a discharge port that opens from a compressed gas inlet port with a shape set in response to a tooth shape and a compression ratio of the male and female rotors to a compressed gas outlet port with a substantially circular shape in a rotational axis direction of the male rotor and the female rotor on a surface of the discharge-side casing close to the bore, compressed gas flowing from the discharge port circulating in the discharge passage, wherein the male rotor and the female rotor are each configured such that a discharge-side end surface of the rotor tooth section serves as a discharge-side distal end of the male rotor or the female rotor in the rotational axis direction, and the discharge passage includes an enlarged flow passage section formed such that the enlarged flow passage section extends from the discharge port in the rotational axis direction of the male rotor and the female rotor and that a flow passage cross-sectional area of the enlarged flow passage section is gradually enlarged from the discharge port to a downstream side in a compressed gas flow direction. 2. The screw compressor according to claim 1 , wherein the discharge passage further includes branch flow passage sections that diverge the compressed gas flowing via the enlarged flow passage section into a plurality of flows. 3. The screw compressor according to claim 2 , wherein the branch flow passage sections are branched in such a manner as to spread outward. 4. The screw compressor according to claim 3 wherein each of the branch flow passage sections is formed such that a flow passage cross-sectional area is gradually enlarged outward. 5. The screw compressor according to claim 1 , wherein the discharge-side casing is constituted integrally with a part of a device to which the compressed gas is discharged via the discharge passage. 6. The screw compressor according to claim 1 , wherein the male rotor and the female rotor are each rotatably supported by a discharge-side bearing and a suction-side bearing, the male rotor and the female rotor each include a recessed discharge-side bearing chamber that is provided on the discharge-side end surface of the rotor tooth section and that holds the discharge-side bearing, and the discharge-side casing includes a male-side journal section fitted into the discharge-side bearing held in the discharge-side bearing chamber of the male rotor, and a female-side journal section fitted into the discharge-side bearing held in the discharge-side bearing chamber of the female rotor. 7. The screw compressor according to claim 1 , wherein the male rotor and the female rotor are each rotatably supported only by a suction-side bearing. 8. A screw compressor comprising: a male rotor and a female rotor each including a rotor tooth section that has a plurality of helical teeth, the male rotor and the female rotor rotating in engagement with each other; a casing including a main casing having a bore formed in such a manner as to accommodate the male rotor and the female rotor, and a discharge-side casing closing a discharge side of the bore; and a discharge passage including a discharge port that opens in a rotational axis direction of the male rotor and the female rotor on a surface of the discharge-side casing close to the bore, compressed gas flowing from the discharge port circulating in the discharge passage, wherein the male rotor and the female rotor are each configured such that a discharge-side end surface of the rotor tooth section serves as a discharge-side distal end of the male rotor or the female rotor in the rotational axis direction, the discharge passage includes an enlarged flow passage section formed such that the enlarged flow passage section extends from the discharge port in the rotational axis direction of the male rotor and the female rotor and that a flow passage cross-sectional area of the enlarged flow passage section is gradually enlarged from the discharge port to a downstream side in a compressed gas flow direction, the discharge passage further includes branch flow passage sections that diverge the compressed gas flowing via the enlarged flow passage section into a plurality of flows, the branch flow passage sections are branched in such a manner as to spread outward, and the branch flow passage sections are branched in a spiral fashion.