Patent ID: 7607900

Claim:
A multi-cylinder reciprocating compressor comprising: a cylinder block having a plurality of cylinder bores; a plurality of pistons received in the respective cylinder bores, for defining compression chambers in the respective cylinder bores; a cylinder head arranged adjacent to said cylinder block and defining therein a suction chamber and a discharge chamber both capable of communicating with the compression chambers, the suction chamber having an annular shape surrounding the discharge chamber and having a suction port for introducing working fluid into the suction chamber; a drive mechanism for sequentially reciprocating said pistons, to perform an introduction process for introducing the working fluid into each of the compression chambers from the suction chamber and a compression/discharge process for compressing the working fluid introduced into said each compression chamber and discharging the compressed working fluid from said each compression chamber to the discharge chamber; a valve plate interposed, along with a gasket, between said cylinder block and said cylinder head, said valve plate having suction holes associated with the respective compression chambers for connecting the respective compression chambers and the suction chamber to each other and discharge holes associated with the respective compression chambers for connecting the respective compression chambers and the discharge chamber to each other, a plurality of first throat elements located in the suction chamber, for reducing cross-sectional flow area of the suction chamber at a plurality of positions as viewed in a circumferential direction of said cylinder head, wherein each of said plurality of throat elements comprises a cross wall, wherein each of said cross walls is formed integrally with the gasket as a one-piece body, and extends in a direction away from said cylinder block toward an end face of the suction chamber; and a plurality of second throat elements disposed in the suction chamber, for reducing the cross-sectional flow area of the suction chamber in a width direction thereof along a radial direction of said cylinder head, wherein said cylinder head includes an annular partition wall separating the suction chamber and the discharge chamber from each other, and each of said second throat elements comprises protuberances protruding from the partition wall and an inner peripheral surface of said cylinder head, respectively, in a radial direction of said cylinder head.