Compressor with a discharge muffler

What is claimed is: 1. A compressor, comprising: a casing defining a chamber; a piston disposed within the chamber of the casing, the piston reciprocable within the chamber of the casing along an axial direction; a discharge valve assembly comprising an outer shell defining an interior volume; a valve head positioned within the outer shell adjacent the chamber of the casing; a spring coupled to the valve head such that the spring urges the valve head towards the casing; and an inner sleeve positioned within the outer shell, a side wall of the inner sleeve spaced from a side wall of the outer shell along a radial direction, a distal end of the side wall of the inner sleeve spaced from an end wall of the outer shell by a gap along the axial direction, wherein the inner sleeve dividing the interior volume into a first muffler cavity and a second muffler cavity, the side wall of the inner sleeve positioned between the first muffler cavity and the second muffler cavity along the radial direction, the first muffler cavity contiguous with the second muffler cavity at the gap between the distal end of the side wall of the inner sleeve and the end wall of the outer shell, and wherein the spring is coupled to the end wall of the outer shell and the valve head, the spring extends from the end wall of the outer shell to the valve head within the outer shell, and the spring is compressed between the end wall of the outer shell and the valve head within the outer shell. 2. The compressor of claim 1 , wherein the gap between the distal end of the side wall of the inner sleeve and the end wall of the outer shell is no greater than a quarter of an inch along the axial direction. 3. The compressor of claim 1 , wherein an inner surface of the end wall of the outer shell is concave. 4. The compressor of claim 1 , wherein the side wall of the outer shell has a thickness along the radial direction, the side wall of the inner sleeve has a thickness along the radial direction, the thickness of the side wall of the outer shell being greater than the thickness of the side wall of the inner sleeve. 5. The compressor of claim 1 , wherein a flange of the inner sleeve is positioned on the casing, the flange of the inner sleeve positioned opposite the distal end of the side wall of the inner sleeve. 6. The compressor of claim 5 , wherein a flange of the outer shell is positioned over the flange of the inner sleeve. 7. The compressor of claim 1 , wherein the discharge valve assembly further comprises an additional muffler casing and a connecting conduit, the additional muffler casing separate from the outer shell and defining a third muffler cavity, the connecting conduit extending between the outer shell and the additional muffler casing. 8. The compressor of claim 7 , wherein the connecting conduit extends through the outer shell such that one end of the connecting conduit is positioned at the second muffler cavity, another end of the connecting conduit positioned at the third muffler cavity. 9. The compressor of claim 1 , wherein the second muffler cavity extends around the first muffler cavity along a circumferential direction. 10. A discharge valve assembly for a compressor, comprising: an outer shell defining an interior volume; a valve head positioned within the outer shell; a spring positioned within the outer shell and coupled to the valve head; and an inner sleeve positioned within the outer shell, a side wall of the inner sleeve spaced from a side wall of the outer shell along a radial direction, an open distal end of the side wall of the inner sleeve spaced from an end wall of the outer shell by a gap along the axial direction, wherein the inner sleeve dividing the interior volume into a first muffler cavity and a second muffler cavity, the side wall of the inner sleeve positioned between the first muffler cavity and the second muffler cavity along the radial direction, the first muffler cavity contiguous with the second muffler cavity at the gap between the open distal end of the side wall of the inner sleeve and the end wall of the outer shell, and wherein the spring extends from the end wall of the outer shell to the valve head within the outer shell. 11. The discharge valve assembly of claim 10 , wherein the gap between the open distal end of the side wall of the inner sleeve and the end wall of the outer shell is no greater than a quarter of an inch along the axial direction. 12. The discharge valve assembly of claim 10 , wherein an inner surface of the end wall of the outer shell is concave. 13. The discharge valve assembly of claim 10 , wherein the side wall of the outer shell has a thickness along the radial direction, the side wall of the inner sleeve has a thickness along the radial direction, the thickness of the side wall of the outer shell being greater than the thickness of the side wall of the inner sleeve. 14. The discharge valve assembly of claim 10 , wherein a flange of the inner sleeve is positioned opposite the open distal end of the side wall of the inner sleeve. 15. The discharge valve assembly of claim 14 , wherein a flange of the outer shell is positioned on the flange of the inner sleeve. 16. The discharge valve assembly of claim 10 , wherein the discharge valve assembly further comprises an additional muffler casing and a connecting conduit, the additional muffler casing separate from the outer shell and defining a third muffler cavity, the connecting conduit extending between the outer shell and the additional muffler casing. 17. The discharge valve assembly of claim 16 , wherein the connecting conduit extends through the outer shell such that one end of the connecting conduit is positioned at the second muffler cavity, another end of the connecting conduit positioned at the third muffler cavity. 18. The discharge valve assembly of claim 10 , wherein the second muffler cavity extends around the first muffler cavity along a circumferential direction. 19. The discharge valve assembly of claim 10 , wherein the side wall of the inner sleeve is imperforate.