Piston compressor including a suction throttle

What is claimed is: 1. A piston compressor including a suction throttle, the piston compressor comprising: a housing including a cylinder block having a plurality of cylinder bores, the housing having a discharge chamber, a swash plate chamber, and an axial hole; a drive shaft rotatably supported in the axial hole; a fixed swash plate rotatable in the swash plate chamber by rotation of the drive shaft, wherein an inclination angle of the fixed swash plate with respect to a plane perpendicular to an axis of the drive shaft is constant; a plurality of pistons forming a plurality of compression chambers in the respective cylinder bores and coupled to the fixed swash plate; a discharge valve discharging refrigerant gas in the compression chambers into the discharge chamber; a rotating body provided on the drive shaft and rotatable integrally with the drive shaft and movable in a direction of the axis of the drive shaft with respect to the drive shaft based on a control pressure; and a control valve configured to control the control pressure, wherein the cylinder block has a plurality of first communication passages communicating with the respective cylinder bores, wherein the rotating body has a second communication passage that communicates with the first communication passages intermittently by the rotation of the drive shaft, wherein a flow rate of refrigerant gas discharged from the compression chambers into the discharge chamber decreases when a communication angle around the axis, at which the second communication passage communicates with the first communication passages, increases per one rotation of the drive shaft depending on a position of the rotating body in the direction of the axis, wherein the piston compressor includes the suction throttle that decreases a flow rate of refrigerant gas into the compression chambers when the communication angle increases based on the control pressure, wherein the housing has a suction port that opens to an outside of the housing, and wherein the suction throttle is disposed in a passage from the suction port to the second communication passage, and the suction throttle is operable to change a communicating area of the passage. 2. The piston compressor according to claim 1 , wherein the housing has a suction chamber, a suction passage communicating with the suction chamber, and a communication chamber communicating with the suction passage, wherein a suction valve is provided in the housing and movable based on the control pressure, wherein the rotating body has a first radial passage extending in a radial direction of the rotating body and communicating with the communication chamber and a first axial passage extending in the direction of the axis and communicating with the first radial passage, wherein the drive shaft has a second axial passage extending in the direction of the axis and communicating with the first axial passage and a second radial passage extending in a radial direction of the drive shaft and communicating with the second axial passage and the second communication passage, and wherein the suction throttle is constituted by the suction passage and the suction valve. 3. The piston compressor according to claim 1 , wherein the suction throttle decreases the flow rate of refrigerant gas into the compression chambers when the communication angle increases based on movement of the rotating body in the direction of the axis. 4. The piston compressor according to claim 3 , wherein the housing has a suction passage formed in the axial hole, wherein the rotating body has a first valve body fixed to the drive shaft and a second valve body having the second communication passage and movable with respect to the first valve body in the direction of the axis based on the control pressure, wherein the second valve body has a valve main body rotatable integrally with the first valve body and movable in the axial hole in the direction of the axis and a valve hole that is formed integrally with the valve main body and through which the first valve body is inserted, wherein the valve main body has an annular passage communicating with the second communication passage and communicating with the suction passage through the valve hole, and wherein the suction throttle is constituted by the first valve body and the valve hole. 5. The piston compressor according to claim 3 , wherein the rotating body is provided on an outer circumferential surface of the drive shaft, wherein the drive shaft has a supply passage and a connecting passage communicating with the second communication passage, wherein a moving body is provided in the supply passage and is movable in the direction of the axis based on the control pressure, wherein the moving body has a through passage communicating with the supply passage and the connecting passage, and wherein the suction throttle is constituted by the connecting passage and the through passage. 6. The piston compressor according to claim 3 , wherein the housing has a suction chamber and a boss portion extending in the suction chamber in the direction of the axis, wherein the rotating body has a first radial passage extending in a radial direction of the rotating body and communicating with the suction chamber and a first axial passage extending in the direction of the axis and communicating with the first radial passage, wherein the drive shaft has a second axial passage extending in the direction of the axis and communicating with the first axial passage and a second radial passage extending in the radial direction of the drive shaft and communicating with the second axial passage and the second communication passage, and wherein the suction throttle is constituted by the first radial passage and the boss portion. 7. The piston compressor according to claim 3 , wherein the rotating body is provided on an outer circumferential surface of the drive shaft, wherein the second communication passage has a first radial passage that opens to an inner circumferential surface of the rotating body and extends in a radial direction of the rotating body and a main body passage that is recessed on an outer circumferential surface of the rotating body and communicates with the first radial passage, wherein the drive shaft has an axial passage that extends in the direction of the axis and a second radial passage that communicates with the axial passage and extends in a radial direction of the drive shaft and opens to the outer circumferential surface of the drive shaft, and wherein the suction throttle is constituted by the first radial passage and the second radial passage.