Sealing device for secondary battery

The invention claimed is: 1. A sealing device for a secondary battery, the sealing device configured to seal a battery case accommodating an electrode assembly therein to manufacture the secondary battery, the sealing device comprising: a sealing block configured to press a sealing portion of the battery case; a flatness adjusting part configured to adjust a flatness of a pressing surface of the sealing block, the flatness being closeness of a portion of the pressing surface to a plane defined by a remainder of the pressing surface; and a heater part configured to transfer heat to the sealing block to thermally fuse the sealing portion of the battery case when the sealing portion is pressed by the sealing block. 2. The sealing device of claim 1 , wherein the flatness adjusting part comprises a plurality of adjusting screws that are configured to move in opposite vertical directions perpendicular to a horizontal plane substantially coincident with the pressing surface of the sealing block so that an end of each of the plurality of adjusting screws is configured to press the sealing block to adjust the flatness of the pressing surface of the sealing block. 3. The sealing device of claim 2 , wherein the flatness adjusting part further comprises a support block to which each of the plurality of adjusting screws are coupled, and each of the plurality of adjusting screws is supported by the support block. 4. The sealing device of claim 3 , wherein the plurality of adjusting screws are coupled to the support block in a grid arrangement having plurality of rows and columns. 5. The sealing device of claim 3 , wherein, each of the plurality of adjusting screws is threadedly coupled to the support block, such that the sealing device is configured to move some or all of the adjusting screws in the vertical directions to selectively press respective locations on the sealing block to adjust the flatness of the pressing surface of the sealing block. 6. The sealing device of claim 5 , wherein the flatness adjusting part further comprises a plurality of support screws that are threadedly coupled to the support block, the plurality of support screws passing through the support block in the vertical directions, ends of the plurality of support screws being threadedly coupled to the sealing block to support the sealing block. 7. The sealing device of claim 5 , wherein the flatness adjusting part further comprises a plurality of support screws that pass through the support block in the vertical directions so as to be coupled to the support block, and ends of the plurality of support screws are threadedly coupled to the sealing block to support the sealing block. 8. The sealing device of claim 6 , wherein the flatness adjusting part further comprises a plurality of flatness adjusting members, each of the plurality of flatness adjusting members being provided on the end of each of the plurality of adjusting screws, respectively, and wherein each of the plurality of flatness adjusting members has an insertion groove formed in a first side thereof into which the end of a respective one of the plurality of adjusting screws is inserted, and a planar part formed in a second side thereof that is configured to surface-contact a surface of the sealing block to be pressed. 9. The sealing device of claim 1 , wherein the heater part is a plurality of heater parts, and the plurality of heater parts are disposed on first and second opposite sides of an inside of the sealing block. 10. The sealing device of claim 1 , wherein the heater part comprises a plurality of main heaters disposed in a first common plane and a plurality of auxiliary heaters disposed in a second common plane that is spaced apart from the first common plane by a predetermined distance, wherein the plurality of main heaters comprises a first main heater disposed over a central portion of a first lateral side of the sealing block and a second main heater disposed over a central portion of a second lateral side of the sealing block, and the plurality of auxiliary heaters comprises a first auxiliary heater disposed at the first lateral side of the sealing block and a second auxiliary heater disposed at the second lateral side of the sealing block. 11. A sealing assembly comprising first and second sealing devices, each of the first and second sealing devices being the sealing device of claim 1 , wherein the sealing block of the first sealing device and the second sealing block of the second sealing device are configured to move in the opposite vertical directions, respectively, the sealing block of the first sealing device and the sealing block of the second sealing device facing each other and configured to press opposite respective side surfaces of the sealing portion of the battery case. 12. The sealing device of claim 7 , wherein the flatness adjusting part further comprises a plurality of flatness adjusting members, each of the plurality of flatness adjusting members being provided on the end of each of the plurality of adjusting screws, respectively, and wherein each of the plurality of flatness adjusting members has an insertion groove formed in a first side thereof into which the end of a respective one of the plurality of adjusting screws is inserted, and a planar part formed in a second side thereof that is configured to surface-contact a surface of the sealing block to be pressed. 13. A method of sealing a battery case of a secondary battery, the battery case accommodating an electrode assembly therein, the method comprising: pressing a sealing block against a sealing portion of the battery case; adjusting a flatness of a pressing surface of the sealing block by moving a flatness adjusting part, the flatness being closeness of a portion of the pressing surface to a plane defined by a remainder of the pressing surface; and transferring heat from a heater part to the sealing block to thermally fuse the sealing portion that is pressed by the sealing block. 14. The method of claim 13 , further comprising moving a plurality of adjusting screws in opposite vertical directions perpendicular to a horizontal plane substantially coincident with the pressing surface of the sealing block so that an end of each of the plurality of adjusting screws presses the sealing block to adjust the flatness of the pressing surface of the sealing block. 15. The method of claim 14 , further comprising selectively pressing some or all of the plurality of adjusting screws to respective locations on the sealing block to adjust the flatness of the pressing surface of the sealing block. 16. The method of claim 15 , wherein the pressing of the some or all of the plurality of adjusting screws to the respective locations on the sealing block is performed by pressing a plurality of flatness adjusting members onto a surface of the sealing block that is pressed, each of the plurality of flatness adjusting members being coupled to a respective one of the plurality of adjusting screws and being disposed between the respective one of the plurality of adjusting screws and the respective location on the sealing block. 17. The method of claim 13 , wherein the sealing block comprises a first sealing block and a second sealing block, the method further comprising moving the first sealing block and the second sealing block towards one another in opposite vertical directions and pressing opposite respective side surfaces of the sealing portion of the battery case.