Scroll compressor

What is claimed is: 1. A scroll compressor, comprising: a casing having an accommodation space therein, a suction port configured to suction refrigerant into the accommodation space, and a discharge port configured to discharge refrigerant from the accommodation space; a motor accommodated in the accommodation space; a fixed scroll accommodated in the accommodation space and disposed closer to the discharge port than to the motor; an orbiting scroll disposed between the motor and the fixed scroll and engaged with the fixed scroll to form a compression chamber; and a back pressure chamber disposed between the fixed scroll and the discharge port and pressurizing the fixed scroll using intermediate-pressure refrigerant, wherein a center of the back pressure chamber is eccentrically disposed relative to a center of the fixed scroll. 2. The scroll compressor of claim 1 , wherein the center of the back pressure chamber is the same as a center of the compression chamber at a time of discharge. 3. The scroll compressor of claim 1 , wherein the center of the back pressure chamber is disposed eccentrically towards a center of the orbiting scroll at a time of discharge. 4. The scroll compressor of claim 3 , wherein an eccentric distance of the center of the back pressure chamber with respect to the center of the orbiting scroll at the time of discharge is 0.25 to 0.75 times an orbit radius of the orbiting scroll. 5. The scroll compressor of claim 3 , further comprising: a main frame disposed between the orbiting scroll and the motor; and a self-rotation preventer disposed between the orbiting scroll and the main frame and configured to prevent self-rotation of the orbiting scroll. 6. The scroll compressor of claim 1 , wherein the back pressure chamber is provided therein with a back pressure space having a ring shape and configured to accommodate refrigerant having the intermediate pressure. 7. The scroll compressor of claim 6 , wherein an outer diameter of the back pressure space is disposed further outward than ends of wraps of the orbiting scroll and the fixed scroll in a radial direction. 8. The scroll compressor of claim 1 , wherein the intermediate pressure has a value between values of a suction pressure and a discharge pressure of the compression chamber. 9. The scroll compressor of claim 1 , further comprising a coupler disposed between the fixed scroll and the back pressure chamber and configured to fix the center of the back pressure chamber at a position eccentrically located from the center of the fixed scroll. 10. The scroll compressor of claim 9 , wherein the coupler comprises a bolt. 11. The scroll compressor of claim 9 , wherein the fixed scroll comprises a fixed scroll end plate having a circular plate shape, the fixed scroll end plate comprises at least one scroll-side back pressure hole configured to communicate with an area in the compression chamber having the intermediate pressure, and the back pressure chamber comprises at least one plate-side back pressure hole configured to communicate with the at least one scroll-side back pressure hole. 12. The scroll compressor of claim 11 , wherein the at least one scroll-side back pressure hole and the at least one plate-side back pressure hole comprise a plurality of scroll-side back pressure holes and a plurality of plate-side back pressure holes. 13. The scroll compressor of claim 11 , wherein the back pressure chamber comprises a back pressure plate including a support plate having a ring shape and configured to contact the fixed scroll end plate, and wherein the at least one plate-side back pressure hole is configured to pass through the support plate in an axial direction. 14. The scroll compressor of claim 13 , wherein the back pressure chamber comprises first and second ring-shaped walls disposed on an upper surface of the support plate and configured to surround an inner circumferential surface and an outer circumferential surface of the support plate, and a floating plate disposed at an upper surface of the back pressure chamber in an axial direction of the back pressure chamber, and wherein an outer circumferential surface of the first ring-shaped wall and an inner circumferential surface of the second ring-shaped wall, an upper surface of the support plate, and a lower surface of the floating plate form a ring-shaped back pressure space. 15. The scroll compressor of claim 14 , wherein the back pressure chamber comprises a sealing end disposed at an upper end of a space inside of the floating plate. 16. The scroll compressor of claim 14 , further comprising a high/low pressure separating plate disposed between the back pressure chamber and the discharge port. 17. The scroll compressor of claim 14 , wherein the coupler couples the fixed scroll and the back pressure plate. 18. The scroll compressor of claim 14 , wherein the coupler couples the fixed scroll and the floating plate. 19. A scroll compressor, comprising: a casing having an accommodation space therein, a suction port configured to suction refrigerant into the accommodation space, and a discharge port configured to discharge refrigerant from the accommodation space; a motor accommodated in the accommodation space; a first scroll accommodated in the accommodation space and disposed closer to the discharge port than to the motor; a second scroll disposed between the motor and the first scroll and engaged with the first scroll to form a compression chamber; and a back pressure chamber disposed between the first scroll and the discharge port and pressurizing the first scroll using intermediate-pressure refrigerant, wherein a center of the back pressure chamber is eccentrically disposed relative to a center of the first scroll, and wherein the center of the back pressure chamber is the same as a center of the compression chamber at a time of discharge. 20. A scroll compressor, comprising: a casing having an accommodation space therein, a suction port configured to suction refrigerant into the accommodation space, and a discharge port configured to discharge refrigerant from the accommodation space; a motor accommodated in the accommodation space; a first scroll accommodated in the accommodation space and disposed closer to the discharge port than to the motor; a second scroll disposed between the motor and the first scroll and engaged with the first scroll to form a compression chamber; and a back pressure chamber disposed between the first scroll and the discharge port and pressurizing the fixed scroll using intermediate-pressure refrigerant, wherein a center of the back pressure chamber is eccentrically disposed relative to a center of the fixed scroll, wherein the center of the back pressure chamber is disposed eccentrically towards a center of the second scroll at a time of discharge, and wherein an eccentric distance of the center of the back pressure chamber with respect to the center of the second scroll at the time of discharge is 0.25 to 0.75 times an orbit radius of the second scroll.