Patent ID: 8117959
Filing Date: 2012-02-21
Classification: F04B

Abstract:
1. A swash plate type compressor, comprising: a housing, which defines a swash plate chamber inside the housing, the swash plate chamber containing refrigerant gas; a drive shaft rotatably supported by the housing, the drive shaft defining an axial direction, a circumferential direction and a radial direction; a cylinder block included in the housing, the cylinder block having a shaft bore, through which the drive shaft extends, a plurality of cylinder bores arranged about the shaft bore at intervals from one another, and a plurality of guide passages, the guide passages each connecting the associated cylinder bore to the shaft bore; a plurality of pistons, each piston of the plurality of pistons being disposed in a corresponding cylinder bore of the plurality of cylinder bores; a swash plate accommodated in the swash plate chamber, the swash plate including a boss, which is mounted on the drive shaft, and a plate portion, which extends from a circumferential surface of the boss to be inclined with respect to the drive shaft, the plate portion being coupled to the pistons, and the swash plate rotates integrally with the drive shaft causing each piston to reciprocate in the corresponding cylinder bore; a rotary valve, which rotates in synchronization with the drive shaft, the rotary valve including a suction passage, which sequentially communicates with the cylinder bores in a suction stroke via the associated guide passage; and a plurality of introduction guides, each of which communicates with the shaft bore to introduce the refrigerant gas in the swash plate chamber to the rotary valve, the introduction guides facing the boss and extending in the radial direction from the shaft bore beyond the boss, wherein the suction passage is adapted to include a communication section, which communicates with the introduction guides, wherein each introduction guide is adapted to include an opening end to communicate with the suction passage, the opening end being adapted to face inside along the radial direction, wherein, when the drive shaft is at any rotational position, the communication section is adapted to constantly face at least one of the opening ends, wherein the suction passage includes a first communication section, which corresponds to the introduction guides in the axial direction, and a second communication section, which corresponds to one of the guide passages in the axial direction, and wherein the dimension of the first communication section in the circumferential direction is greater than the dimension of the second communication section in the circumferential direction, the first communication section and the second communication section are formed in the shape of steps, and the cut-out depth of the drive shaft at the suction passage changes stepwise.