Scroll compressor having separate flow paths in communication with different back pressure chambers

What is claimed is: 1. A scroll compressor comprising: a fixed scroll; an orbiting scroll configured to orbit with respect to the fixed scroll and including an orbiting end plate; a main frame to which the orbiting scroll is coupled to orbit; a compression chamber formed between the fixed scroll and the orbiting scroll; a first back pressure chamber formed by the main frame and the orbiting scroll; a first flow path provided to allow the first back pressure chamber and the compression chamber to communicate with each other; a second back pressure chamber formed by the main frame and the orbiting scroll and provided to be separated from the first back pressure chamber in response to an orbital motion of the orbiting scroll; a second flow path provided to allow the second back pressure chamber and the compression chamber to communicate with each other; and a first sealing member mounting groove formed between the orbiting end plate and the main frame, wherein the main frame comprises a first outer wall, and a first inner wall inwardly spaced apart from the first outer wall so as to form the first sealing member mounting groove, and wherein a height of the first outer wall is greater than a height of the first inner wall. 2. The scroll compressor of claim 1 , wherein a pressure of the first back pressure chamber is different from a pressure of the second back pressure chamber. 3. The scroll compressor of claim 2 , wherein the pressure of the first back pressure chamber is less than the pressure of the second back pressure chamber. 4. The scroll compressor of claim 1 , further comprising: a first sealing member arranged in the first sealing member mounting groove. 5. The scroll compressor of claim 4 , wherein the first sealing member floats in the first sealing member mounting groove in response to driving of the scroll compressor, and wherein the first sealing member separates the first back pressure chamber from the second back pressure chamber. 6. The scroll compressor of claim 4 , wherein the orbiting scroll further comprises a shaft coupler extending downwardly from the orbiting end plate, and wherein the second back pressure chamber is formed by the shaft coupler and the main frame. 7. The scroll compressor of claim 6 , further comprising: a second sealing member mounting groove formed by a rear surface of the shaft coupler and the main frame; and a second sealing member arranged in the second sealing member mounting groove. 8. The scroll compressor of claim 7 , wherein the main frame further comprises; a second outer wall provided to support a bottom of the shaft coupler; and a second inner wall inwardly spaced apart from the second outer wall so as to form the second sealing member mounting groove. 9. The scroll compressor of claim 8 , wherein a height of the second outer wall is greater than a height of the second inner wall. 10. The scroll compressor of claim 7 , wherein the second sealing member floats in the second sealing member mounting groove in response to driving of the scroll compressor, and wherein the second sealing member separates the second back pressure chamber from a high pressure region inside a body of the scroll compressor. 11. The scroll compressor of claim 1 , further comprising: an Oldham ring provided to allow the orbiting scroll to orbit while preventing the orbiting scroll from pivoting. 12. The scroll compressor of claim 11 , wherein the Oldham ring is accommodated in the first back pressure chamber. 13. The scroll compressor of claim 1 , wherein the scroll compressor is configured to prevent wrap breakage caused by liquid compression by retracting the orbiting scroll when liquid is introduced into the orbiting scroll. 14. The scroll compressor of claim 1 , further comprising: an electric mechanism configured to provide a driving force to the orbiting scroll, the electric mechanism comprising: a stator, a rotor rotating inside the stator, and a rotary shaft mounted inside of the rotor and configured to rotate with the rotor to transmit a rotational force to the orbiting scroll. 15. The scroll compressor of claim 1 , wherein an internal pressure of the compression chamber acts in a direction in which the orbiting scroll moves away from the fixed scroll. 16. A scroll compressor comprising: a fixed scroll; an orbiting scroll configured to orbit with respect to the fixed scroll and including an orbiting end plate; a main frame to which the orbiting scroll is coupled to orbit; a compression chamber formed between the fixed scroll and the orbiting scroll; a first back pressure chamber formed by the main frame and the orbiting scroll; a first flow path provided to allow the first back pressure chamber and the compression chamber to communicate with each other; a second back pressure chamber formed by the main frame and the orbiting scroll and provided to be separated from the first back pressure chamber in response to an orbital motion of the orbiting scroll; and a second flow path provided to allow the second back pressure chamber and the compression chamber to communicate with each other, wherein the main frame comprises a first outer wall and a first inner wall having different heights, and wherein a height of the first outer wall is greater than a height of the first inner wall.