Multi-stage reciprocating compressor

The invention claimed is: 1. A multi-stage reciprocating compressor, comprising: a working fluid inlet port; a working fluid reservoir disposed in a crank case of the reciprocating compressor in fluid communication with the working fluid inlet port for housing of low pressure working fluid drawn into the reciprocating compressor, the crank case further including a crank shaft, the crank shaft is located in the working fluid reservoir; a cylinder block defining at least two low stage cylinder and a high stage cylinder, each of the low stage cylinders having a low stage piston disposed therein and operably connected to the crank shaft, the high stage cylinder having a high stage piston disposed therein and operably connected to the crank shaft; a cylinder head secured to the cylinder block overlying the low and high stage cylinders, the cylinder head defining an upper mid-stage plenum fully enclosed by a side wall of the cylinder head in fluid communication with the low stage cylinders and the high stage cylinder for communicating a working fluid discharged from the low stage cylinder to the high stage cylinder; and a valve plate disposed between the cylinder block and cylinder head; the cylinder block defining a lower mid-stage plenum in fluid communication with the upper mid-stage plenum defined by the cylinder head via a valve plate port; the cylinder block and the cylinder head together defining a low stage plenum in fluid communication with the working fluid reservoir, the working fluid drawn from the working fluid reservoir and into the low stage plenum and from the low stage plenum through the valve plate into the low stage cylinders during a suction stroke of the low stage pistons; the working fluid remaining in the compressor when flowing from the low stage cylinders into the high stage cylinder, a discharge port of each of the low stage cylinders and a suction port of the high stage cylinder disposed on a same lateral side of a plane defined by and axis of symmetry of the valve plate and a rotational axis of the crank shaft. 2. The multi-stage compressor of claim 1 , wherein a suction port of the low stage cylinder and a discharge port of the high stage cylinder are disposed on a same side of an axis extending through a center of each of the low and high stage cylinders. 3. The multi-stage compressor of claim 1 , further comprising a discharge valve disposed within the mid-stage plenum for selectively impinging fluid communication from the low stage cylinder. 4. The multi-stage compressor of claim 1 , wherein the cylinder block defines a second low stage cylinder in fluid communication with the mid-stage plenum. 5. The multi-stage compressor of claim 1 , wherein a discharge port of the low stage cylinder and a suction port of the high stage cylinder extend through the valve plate and are disposed on a same side of an axis of symmetry of the valve plate. 6. The multi-stage compressor of claim 1 , wherein a suction port of the low stage cylinder and a discharge port of the high stage cylinder extend through the valve plate and are disposed on a same side of an axis of symmetry of the valve plate. 7. The multi-stage compressor of claim 1 , wherein a discharge port of the low stage cylinder and a discharge port of the high stage cylinder have a minor symmetry with respect to an axis extending through a center of each of the low and high stage cylinders such that one of the discharge ports is disposed on one side of the axis and the other discharge port is disposed on an opposite side of the axis. 8. A multi-stage reciprocating compressor, comprising: a working fluid inlet port; a working fluid reservoir disposed in a crank case of the reciprocating compressor in fluid communication with the working fluid inlet port for housing of low pressure working fluid drawn into the reciprocating compressor, the crank case further including a crank shaft, the crank shaft is located in the working fluid reservoir; a cylinder block defining at least two low stage cylinders and a high stage Cylinder, each of the low stage cylinders having a low stage piston disposed therein and operably connected to the crank shaft, the high stage cylinder having a high stage piston disposed therein and operably connected to the crank shaft; a cylinder head secured to the cylinder block overlying the low and high stage cylinders and defining a mid-stage plenum; and a valve plate disposed between the cylinder head and the cylinder block and defining a discharge port of each the low stage cylinders and a suction port of the high stage cylinder therethrough, the discharge port of the low stage cylinders and the suction port of the high stage cylinder allow a working fluid discharged from the low stage cylinders to be communicated through the upper mid-stage plenum fully enclosed by a side wall of the cylinder head to the high stage cylinder; the cylinder block defining a lower mid-stage plenum in fluid communication with the upper mid-stage plenum defined by the cylinder head via a valve plate port; the cylinder block and the cylinder head together defining a low stage plenum in fluid communication with the working fluid reservoir, the working fluid drawn from the working fluid reservoir and into the low stage plenum and from the low stage plenum through the valve plate into the low stage cylinders during a suction stroke of the low stage pistons; the working fluid remaining in the compressor when flowing from the low stage cylinders into the high stage cylinder, the discharge ports of each of the at least two low stage cylinders and a suction port of the high stage cylinder disposed on a same lateral side of a plane defined by and axis of symmetry of the valve plate and a rotational axis of the crank shaft. 9. The multi-stage compressor of claim 8 , wherein a suction port of the low stage cylinder and a discharge port of the high stage cylinder are generally aligned on a same side of an axis extending through a center of each of the low and high stage cylinders. 10. The multi-stage compressor of claim 8 , further comprising a discharge valve disposed within the upper mid-stage plenum for selectively impinging fluid communication from the low stage cylinder. 11. The multi-stage compressor of claim 8 , wherein the cylinder block defines a second low stage cylinder in fluid communication with the mid-stage plenum through a second discharge port in the valve plate. 12. The multi-stage compressor of claim 8 , wherein the discharge port of the low stage cylinder and a discharge port of the high stage cylinder have a minor symmetry with respect to an axis extending through a center of each of the low and high stage cylinders such that one of the discharge ports is disposed on one side of the axis and the other discharge port is disposed on an opposite side of the axis. 13. The multi-stage compressor of claim 8 , wherein the discharge port of the low stage cylinder and the suction port of the high stage cylinder are disposed on a same side of an axis of symmetry of the valve plate. 14. A multi-stage reciprocating compressor, comprising: a working fluid inlet port; a working fluid reservoir disposed in a crank case of the reciprocating compressor in fluid communication with the working fluid inlet port for housing of low pressure working fluid drawn into the reciprocating compressor, the crank case further including a crank shaft, the crank shaft is located in the working fluid reservoir; a cylinder block defining at least two low stage cylinders and a high stage cylinder, each of the low stage cylinders having a low stage piston disposed therein and operably connect