Vane compressor having a second discharge port that includes an opening portion to a compression space

The invention claimed is: 1. A vane compressor comprising: a cylinder including a cylindrical inner circumferential surface that defines a hole having opposite openings; a cylinder head that covers one of the openings; a frame that covers another one of the openings; a cylindrical rotor portion configured to rotate about a rotation axis displaced from a central axis of the inner circumferential surface inside the cylinder; a rotating shaft portion configured to transmit a rotational force to the rotor portion; and a vane disposed inside the rotor portion, held rotatably about a center of the cylinder inner circumferential surface of the cylinder, and partitioning a compression space formed between the cylinder and the rotor portion into at least a suction space and a discharge space; wherein each of the frame and the cylinder head includes a recess or a ring-shaped groove in an end face near the cylinder, the recess or the ring-shaped groove having an outer circumferential surface concentric with the inner circumferential surface of the cylinder, a vane aligner having a partial ring-shape and configured to support the vane is provided, the vane aligner being configured to freely slide and rotate along the outer circumferential surface, and integrally attached to the vane or integrally formed with the vane so as to keep a gap between a tip of the vane and the inner circumferential surface of the cylinder, a first discharge port communicating with the compression space and a second discharge port communicating with the compression space are provided, the first discharge port configured to allow gas compressed in the compression space to be discharged therethrough, the second discharge port being provided at a location upstream from the first discharge port in a compression stroke, the second discharge port includes an opening portion to the compression space, the opening portion having a width equal to or smaller than a width of the vane, and the second discharge port has a cross-sectional area larger than a cross-sectional area of the first discharge port. 2. The vane compressor of claim 1 , wherein the second discharge port is open to the inner circumferential surface of the cylinder, and the opening portion in the second discharge port to the compression space has a width in a circumferential direction, the width being equal to or smaller than a width of a tip of the vane. 3. The vane compressor of claim 2 , wherein the second discharge port is one of a plurality of second discharge ports disposed at locations having different phase angles. 4. The vane compressor of claim 3 , wherein each of the first discharge port and the second discharge ports has a cross-sectional area increasing with a decrease in the phase angle at which each of the first discharge port and the second discharge ports communicates with the compression space. 5. The vane compressor of claim 1 , wherein the second discharge port is open to at least one of the frame and the cylinder head, and the opening portion in the second discharge port to the compression space has a width in a circumferential direction, the width being equal to or smaller than a width of the vane. 6. The vane compressor of claim 1 , wherein the second discharge port is one of a plurality of second discharge ports disposed at locations having different phase angles and opened to the inner circumferential surface of the cylinder and at least one of the frame and the cylinder head, the opening portion in the second discharge port that is open to the inner circumferential surface of the cylinder has a width in a circumferential direction, the width being equal to or smaller than a width of the tip of the vane, and the opening portion in the second discharge port that is open to the at least one of the frame and the cylinder head has a width in the circumferential direction, the width being equal to or smaller than the width of the vane. 7. The vane compressor of claim 1 , wherein the tip of the vane has an outwardly curved arc shape, and the arc shape has a radius equal to a radius of the inner circumferential surface of the cylinder. 8. The vane compressor of claim 1 , wherein the vane is supported such that the vane rotates and slides with respect to the rotor portion. 9. The vane compressor of claim 8 , wherein the rotor portion includes a cylindrical bush holding section axially extending therethrough, the bush holding section receives a pair of bushes having a semicylindrical shape therein, and the vane is supported such that the vane rotates and slides with respect to the rotor portion by being supported between the bushes.