Linear compressor

What is claimed is: 1. A linear compressor comprising: a piston configured to reciprocate along an axial direction of the linear compressor, the piston comprising: a piston body having a cylindrical shape and extending in the axial direction, and a piston flange extending in a radial direction from the piston body; a resonance spring configured to elastically support the piston along the axial direction; a motor assembly configured to provide a driving force to the piston, the motor assembly comprising a magnet that is disposed radially outside the piston body; a magnet frame having a cylindrical shape that extends in the axial direction, the magnet frame being disposed radially outside the piston body and surrounding the piston body, and the magnet being attached to an outer side of the magnet frame; and a supporter configured to be coupled to the piston, the magnet, and the resonance spring, wherein the supporter comprises: a piston coupler coupled with the piston flange, the piston coupler having a circular plate shape that extends in the radial direction and supports a rear surface of the piston flange, a magnet coupler that is coupled with the magnet frame and receives a rear end of the magnet frame in an inner side of the magnet coupler, the magnet coupler having a ring shape and extending forward in the axial direction from an outer side of the piston coupler, a spring coupler coupled with the resonance spring, and a plurality of bridges that connect the piston coupler, the magnet coupler, and the spring coupler to one another, wherein the piston coupler, the magnet coupler, the spring coupler, and the plurality of bridges are integrally formed by aluminum die casting, wherein a size of the inner side of the magnet coupler corresponds to a size of the outer side of the magnet frame, and wherein the rear end of the magnet frame received inside the magnet coupler is axially supported on the piston coupler. 2. The linear compressor of claim 1 , wherein the piston coupler defines: a muffler hole configured to receive a suction muffler; and piston holes that are arranged radially outside the muffler hole, and that are configured to receive piston fasteners for coupling the piston. 3. The linear compressor of claim 2 , wherein the piston coupler is configured to contact the piston flange and to couple with the piston flange by the piston fasteners. 4. The linear compressor of claim 1 , further comprising: a magnet-fixing member that surrounds the outer side of the magnet frame, and that is configured to fix the magnet to the magnet frame. 5. The linear compressor of claim 4 , wherein the magnet frame is at least partially bonded to the inner side of the magnet coupler, and wherein at least a portion of the magnet-fixing member surrounds the outer side of the magnet coupler. 6. The linear compressor of claim 1 , wherein the spring coupler is axially spaced from the piston coupler and the magnet coupler, and protrudes in the radial direction further than the piston coupler and the magnet coupler. 7. The linear compressor of claim 1 , wherein the plurality of bridges comprise: spring bridges configured to connect a plurality of spring couplers; and body bridges configured to connect the spring bridges, the piston coupler, and the magnet coupler. 8. The linear compressor of claim 7 , wherein the spring bridges have a ring shape connecting the spring couplers that are circumferentially spaced from each other. 9. The linear compressor of claim 8 , wherein the plurality of bridges further comprise: assistant bridges that extend in the radial direction outward from the spring couplers, and that each connects a respective pair of the spring couplers. 10. The linear compressor of claim 9 , wherein an axial length of the assistant bridges is larger than an axial length of the spring couplers. 11. The linear compressor of claim 8 , wherein the body bridges extend in the axial direction from the spring couplers to the piston coupler and to the magnet coupler. 12. The linear compressor of claim 1 , wherein the plurality of bridges further comprise: assistant bridges configured to connect a plurality of spring couplers, wherein an axial length of the assistant bridges is larger than an axial length of the spring couplers. 13. The linear compressor of claim 12 , wherein the axial length of the assistant bridges is twice the axial length of the spring couplers. 14. The linear compressor of claim 12 , wherein the spring couplers are composed of a plurality of pairs of spring couplers that are circumferentially spaced from each other, and wherein the assistant bridges each connects a respective pair of the spring couplers. 15. The linear compressor of claim 1 , wherein the magnet coupler surrounds an outer circumferential surface of the piston coupler. 16. The linear compressor of claim 1 , wherein the piston coupler extends radially inward from an inner circumferential surface of the magnet coupler. 17. The linear compressor of claim 1 , wherein the rear surface of the piston faces the supporter and is in contact with a front surface of the piston coupler. 18. The linear compressor of claim 1 , wherein the rear end of the magnet frame is in contact with a front surface of the piston coupler. 19. The linear compressor of claim 1 , wherein a front surface of the piston coupler is disposed rearward relative to the rear surface of the piston flange and in contact with the rear surface of the piston flange.