Linear compressor

What is claimed is: 1. A linear compressor, comprising: a shell; a suction pipe connected to the shell and configured to supply refrigerant to an inside of the shell; a cylinder that is disposed in the shell and that defines a compression space therein configured to receive the refrigerant; a piston configured to reciprocate in the cylinder along an axial direction and configured to compress the refrigerant in the compression space; and a muffler configured to supply the refrigerant received through the suction pipe to the compression space, wherein the piston comprises an inner wall that defines an internal space that accommodates at least a portion of the muffler, and the muffler is in contact with the inner wall of the piston, and wherein the muffler partitions the internal space of the piston into: a first space inside the muffler, the first space being configured to receive the refrigerant suctioned through the suction pipe, and a second space outside the muffler, the second space being configured to receive the refrigerant in the shell. 2. The linear compressor of claim 1 , wherein the piston defines a suction channel that communicates the internal space of the piston with the compression space of the cylinder, and wherein the inner wall of the piston comprises: a first inner wall that defines an inner circumferential surface of the piston; and a second inner wall that defines an inlet end of the suction channel and that is in contact with the muffler. 3. The linear compressor of claim 2 , wherein the muffler has an axial front end that is in contact with the second inner wall, the axial front end being configured to block the refrigerant that is suctioned through the suction pipe and moves to the first inner wall. 4. The linear compressor of claim 3 , wherein the axial front end of the muffler has a ring shape, and wherein an outer diameter of the axial front end of the muffler corresponds to a diameter of the second inner wall of the piston. 5. The linear compressor of claim 3 , wherein the axial front end of the muffler has a circular plate shape facing the second inner wall of the piston, and defines a suction opening corresponding to the inlet end of the suction channel. 6. The linear compressor of claim 3 , further comprising a sealing member that is disposed between the axial front end of the muffler and the second inner wall of the piston, the sealing member being configured to block leakage of the refrigerant. 7. The linear compressor of claim 2 , wherein the muffler comprises a muffler case that extends along the first inner wall, the muffler case being configured to block the refrigerant that is suctioned through the suction pipe and that moves to the first inner wall. 8. The linear compressor of claim 7 , wherein the muffler defines a flow opening that is configured to receive the refrigerant in the shell and to supply the refrigerant to a flow space defined between the muffler case and the first inner wall. 9. The linear compressor of claim 8 , wherein the flow opening comprises a plurality of flow openings that are defined at an axial rear end of the muffler case and that are circumferentially arranged along an outside of the axial rear end of the muffler case. 10. The linear compressor of claim 1 , wherein the internal space comprises a flow space defined between the muffler and the inner wall of the piston. 11. The linear compressor of claim 1 , wherein the muffler comprises: a first muffler that is disposed in the internal space, the first muffler comprising a muffler case that extends along the inner wall of the piston in the axial direction; and a second muffler and a third muffler that are coupled to the first muffler and that are disposed axially rearward relative to the piston. 12. The linear compressor of claim 11 , wherein the first muffler comprises a flow pipe that is disposed radially inside the muffler case, that is spaced apart from the muffler case, and that extends in the axial direction. 13. The linear compressor of claim 12 , wherein the muffler case further extends in the axial direction than the flow pipe and is in contact with the inner wall of the piston. 14. The linear compressor of claim 12 , wherein an outer diameter of the flow pipe increases along a flow direction of refrigerant from the suction pipe toward the compression space. 15. A linear compressor comprising: a shell; a suction pipe connected to the shell and configured to supply refrigerant to an inside of the shell; a cylinder that is disposed in the shell and that defines a compression space therein configured to receive the refrigerant; a piston configured to reciprocate in the cylinder along an axial direction and configured to compress the refrigerant in the compression space; and a muffler configured to supply the refrigerant received through the suction pipe into the compression space, wherein the piston comprises an inner wall that defines an internal space that accommodates at least a portion of the muffler, wherein the muffler comprises a muffler case that extends along the inner wall, the muffler case being configured to block the refrigerant that is suctioned through the suction pipe and moves to the inner wall, and wherein the muffler partitions the internal space of the piston into: a first space inside the muffler, the first space being configured to receive the refrigerant suctioned through the suction pipe, and a second space outside the muffler, the second space being configured to receive the refrigerant in the shell. 16. The linear compressor of claim 15 , wherein the internal space comprises a flow space defined between the muffler case and the inner wall of the piston. 17. The linear compressor of claim 15 , wherein the muffler further comprises a flow pipe that is disposed radially inside the muffler case, that is spaced apart from the muffler case, and that is configured to guide the refrigerant suctioned through the suction pipe. 18. The linear compressor of claim 15 , wherein the muffler case divides the internal space of the piston into two spaces that are configured to carry refrigerants having different properties, respectively.