Rotary type valve plate compressor

What is claimed is: 1. A rotary type valve plate compressor, comprising; a shaft; a housing through which the shaft passes; a plurality of cylinders mounted in the housing; a piston received in each cylinder of the cylinders and configured to move forward and rearward in response to rotational operation of a swash plate; a rotary type valve plate configured to receive a rotational force of the shaft and formed with a plurality of refrigerant passage holes through which refrigerant passes, wherein refrigerant passage holes of the plurality of refrigerant passage holes are selectively open or closed based on a phase of the piston; a hole guide coupled to one side of the rotary type valve plate; and an end cover coupled to one side of the hole guide, wherein: the refrigerant passage holes include: a low-temperature low-pressure gas-suctioning hole, and a high-temperature high-pressure gas-discharging hole which is disposed at a different radial position from the low-temperature low-pressure gas-suctioning hole, the low-temperature low-pressure gas-suctioning hole has an arc shape greater than an arc shape of the high-temperature high-pressure gas-discharging hole, a radius of curvature of the high-temperature high-pressure gas-discharging hole is different from a radius of curvature of the low-temperature low-pressure gas-suctioning hole, the hole guide includes a plurality of refrigerant-flowing holes formed at regular intervals at different radial positions which are opened and closed by the rotary type valve plate, and the plurality of refrigerant-flowing holes includes: outer refrigerant-flowing holes configured to communicate with the low-temperature low-pressure gas-suctioning hole, and inner refrigerant-flowing holes configured to communicate with the high-temperature high-pressure gas-suctioning hole. 2. The rotary type valve plate compressor of claim 1 , wherein the rotary type valve plate sucks, discharges and compresses the refrigerant based on the phase of the piston. 3. The rotary type valve plate compressor of claim 2 , wherein the rotary type valve plate comprises: a suction angle range in which low-pressure refrigerant is sucked, a discharge angle range in which high-pressure refrigerant is discharged, and a compression angle range in which the refrigerant is compressed. 4. The rotary type valve plate compressor of claim 1 , wherein the radius curvature of the low-temperature low-pressure gas-suctioning hole is greater than the radius of curvature of the high-temperature high-pressure gas-discharging hole. 5. The rotary type valve plate compressor of claim 1 , wherein the radius curvature of the high-temperature high-pressure gas-discharging hole is greater than the radius of curvature of the low-temperature low-pressure gas-suctioning hole. 6. The rotary type valve plate compressor of claim 1 , wherein the rotary type valve plate has a rotational force-transmitting hole formed in a central portion thereof and having a shape corresponding to a shape of the shaft. 7. A rotary type valve plate compressor, comprising; a shaft; a housing surrounding the shaft; a plurality of cylinders mounted in the housing; a piston received in a corresponding cylinder of the plurality of cylinders and configured to be moved forward and rearward in response to rotational operation of a swash plate; and a rotary type valve plate configured to receive a rotational force of the shaft and formed with a plurality of refrigerant passage holes through which refrigerant passes, wherein refrigerant passage holes of the plurality of refrigerant passage holes are selectively open or closed based on a phase of the piston; a hole guide coupled to one side of the rotary type valve plate; and an end cover coupled to one side of the hole guide, wherein the refrigerant passage holes comprise: a low-temperature low-pressure gas-suctioning hole through which low-temperature low-pressure gas is sucked, and a high-temperature high-pressure gas-discharging hole through which high-temperature high-pressure gas is discharged, wherein the high-temperature high-pressure gas-discharging hole is disposed at a different radial position from the low-temperature low-pressure gas-suctioning hole, wherein a radius of curvature of the low-temperature low-pressure gas-suctioning hole is smaller than a radius of curvature of the high-temperature high-pressure gas-discharging hole, wherein: the hole guide includes a plurality of refrigerant-flowing holes formed at regular intervals at different radial positions which are opened and closed by the rotary type valve plate, and the plurality of refrigerant-flowing holes includes: outer refrigerant-flowing holes configured to communicate with the low-temperature low-pressure gas-suctioning hole, and inner refrigerant-flowing holes configured to communicate with the high-temperature high-pressure gas-suctioning hole. 8. The rotary type valve plate compressor of claim 7 , wherein the rotary type valve plate includes a first angle range in which the low-temperature low-pressure gas is sucked, a second angle range in which the high-temperature high-pressure gas is discharged, and a third angle range in which gas is compressed. 9. The rotary type valve plate compressor of claim 8 , wherein the first angle range is greater than the second angle range, and the third angle range is greater than the first angle range. 10. The rotary type valve plate compressor of claim 8 , wherein the first angle range is formed to be spaced apart from the second angle range, and the third angle range is greater than the first angle range.