Discharge valve cover for a linear compressor having a valve spring stopper and discharge pulsation reducing chambers

What is claimed is: 1. A linear compressor, comprising: a shell comprising a discharge; a cylinder provided in the shell to define a compression space for a refrigerant; a frame to fix the cylinder to the shell; a piston reciprocated within the cylinder in an axial direction; a discharge valve disposed at one side of the cylinder to selectively discharge the refrigerant compressed in the compression space; a discharge cover having at least one chamber to reduce pulsation of the refrigerant discharged through the discharge valve, and a discharge hole to guide the discharged refrigerant to the discharge of the shell; a valve spring installed on the discharge cover to allow the discharge valve to elastically move; a stopper coupled to the valve spring to restrict an opening degree of the discharge valve, wherein the stopper is installed inside of the discharge cover; and a first spacer provided between the stopper and the discharge cover to support the stopper, wherein the discharge cover comprises a seat, on which the first spacer is seated, the seat being configured to partition the at least one chamber into a plurality of chambers. 2. The linear compressor according to claim 1 , wherein at least one guide groove is defined in the discharge cover, and wherein the stopper is press-fitted into the at least one guide groove. 3. The linear compressor according to claim 1 , wherein the discharge cover comprises: a seat, on which the stopper is seated; and at least one coupling groove recessed from the seat and into which a coupling protrusion of the stopper is inserted. 4. A linear compressor, comprising: a shell; a cylinder provided in the shell to define a compression space for a refrigerant; a frame to fix the cylinder to the shell; a piston reciprocated within the cylinder in an axial direction; a discharge valve disposed at one end of the cylinder to selectively discharge the refrigerant compressed in the compression space; a discharge cover including a cover body having a discharge hole through which the refrigerant discharged through the discharge valve flows, a frame coupling portion coupled to the frame and at least one chamber to reduce pulsation of the refrigerant discharged through the discharge valve; a valve spring installed on the discharge cover to provide an elastic force to the discharge valve; and a stopper coupled to the valve spring to restrict deformation of the valve spring, wherein the cover body comprises: a first step recessed from the frame coupling portion and having the discharge hole; and a second step further recessed from the first step toward the at least one chamber, the second step having at least one first guide groove to guide coupling of the stopper, and wherein the stopper comprises: a stopper body that supports the valve spring; and at least one guide protrusion that protrudes from the stopper body to move along the at least first guide groove. 5. The linear compressor according to claim 4 , wherein the discharge cover further comprises: a guide passage defined in the cover body to guide at least a portion of the refrigerant discharged through the discharge valve into the at least one chamber. 6. The linear compressor according to claim 5 , wherein the guide passage comprises a second guide groove defined by recessing at least a portion of the cover body. 7. The linear compressor according to claim 5 , wherein the frame coupling portion extends outward from the cover body in a radial direction and is coupled to the frame. 8. The linear compressor according to claim 5 , wherein the guide passage is defined in the second step. 9. The linear compressor according to claim 4 , wherein the valve spring comprises a plate spring. 10. The linear compressor according to claim 9 , wherein the valve spring comprises: a spring body comprising a plurality of cutouts; and an insertion hole defined in the spring body and into which an insertion protrusion of the discharge valve is coupled. 11. The linear compressor according to claim 1 , further comprising a first spacer disposed between the valve spring and the stopper to space the valve spring from the stopper. 12. The linear compressor according to claim 11 , further comprising a second spacer installed between the stopper and the discharge cover to support the stopper. 13. The linear compressor according to claim 12 , wherein the discharge cover comprises a seat, on which the second spacer is seated, and wherein the seat partitions the at least one chamber into a plurality of chambers. 14. A linear compressor, comprising: a shell; a cylinder provided in the shell to define a compression space for a refrigerant; a frame to fix the cylinder to the shell; a piston reciprocated within the cylinder in an axial direction; a discharge valve disposed at one end of the cylinder to selectively discharge the refrigerant compressed in the compression space; a discharge cover coupled to the frame, the discharge cover having at least one chamber to reduce pulsation of the refrigerant discharged through the discharge valve; a valve spring installed on the discharge cover to provide an elastic force to the discharge valve; a stopper coupled to the valve spring to restrict deformation of the valve spring; and a first spacer disposed between the valve spring and the stopper to space the valve spring from the stopper, the first spacer including a spacer body having a ring shape and a spacer groove recessed from an outer circumferential surface of the spacer body; and a second spacer installed between the stopper and the discharge cover to support the stopper. 15. The linear compressor according to claim 14 , wherein the discharge cover comprises a seat, on which the second spacer is seated, and wherein the seat partitions the at least one chamber into a plurality of chambers.