Battery cell with improved weldability and apparatus for processing the same

The invention claimed is: 1. A battery cell processing apparatus, the battery cell processing apparatus being configured to process a battery cell, the battery cell processing apparatus comprising: a base portion having a seating die provided on an upper surface thereof, the seating die being configured to support a cell case and a pair of electrode leads; a vertical fixing portion fixed to a predetermined region of one side of the base portion so as to be perpendicular to the base portion; a block portion connected by a first connection portion to the vertical fixing portion so as to be movable upwards and downwards relative to the vertical fixing portion; a pair of cutters located at a bottom surface of the block portion, the pair of cutters being configured to cut a negative electrode lead and a positive electrode lead respectively, the pair of cutters being spaced apart from each other by a predetermined distance; and a pair of support portions located at the bottom surface of the block portion, the pair of support portions being located parallel to the pair of cutters in a horizontal direction, respectively, wherein: one of the pair of support portions is provided on a bottom surface thereof with protrusions configured to form one or more embossed portions in the negative electrode lead, wherein the battery cell comprising: an electrode assembly received in the cell case; and the pair of electrode leads constituted by the negative electrode lead and the positive electrode lead protruding outwards from the cell case, wherein the negative electrode lead comprises a nickel material and is provided with the one or more embossed portions, and wherein the positive electrode lead comprises an aluminum material and is provided with no embossed portion. 2. The battery cell processing apparatus according to claim 1 , further comprising: a second connection portion configured to connect the block portion and the pair of cutters; and a third connection portion configured to connect the block portion and the pair of support portions, wherein the third connection portion is constituted by an elastic member capable of being expanded and contracted in a vertical direction, and wherein the second connection portion is not capable of being expanded and contracted in the vertical direction. 3. The battery cell processing apparatus according to claim 2 , wherein the third connection portion comprises a spring. 4. The battery cell processing apparatus according to claim 3 , wherein: one side surface of each of the pair of cutters is moved along one side surface of the seating die in the vertical direction, and each of the pair of support portions is moved above an upper surface of the seating die in the vertical direction. 5. The battery cell processing apparatus according to claim 4 , wherein a distance between the one side surface of the seating die and the one side surface of each of the pair of cutters is greater than 0 mm to less than 0.05 mm. 6. The battery cell processing apparatus according to claim 2 , wherein: the pair of cutters comprises a first cutter and a second cutter, the pair of support portions comprises a first support portion and a second support portion, and the first cutter and the first support portion are located adjacent to each other while the second cutter and the second support portion are located adjacent to each other. 7. The battery cell processing apparatus according to claim 1 , wherein each of the pair of cutters has a polyhedral shape. 8. The battery cell processing apparatus according to claim 7 , wherein each of the pair of cutters has a hexahedral shape. 9. The battery cell processing apparatus according to claim 7 , wherein: each of the pair of cutters comprises a front portion, a rear portion, a bottom portion configured to connect lower parts of the front portion and the rear portion to each other, a pair of edge portions formed at a position at which the front portion and the bottom portion join each other and a position at which the rear portion and the bottom portion join each other, and a pair of side portions configured to connect side parts of the front portion and the rear portion to each other, and each of the pair of side portions is further provided with an extension portion extending a predetermined length in a downward direction. 10. The battery cell processing apparatus according to claim 9 , wherein each of the pair of edge portions forms a right angle. 11. The battery cell processing apparatus according to claim 9 , wherein the pair of edge portions of each of the pair of cutters align with an edge of the seating die to cut the negative electrode lead and the positive electrode lead. 12. The battery cell processing apparatus according to claim 9 , wherein the pair of edge portions are recessed relative to the pair of side portions. 13. The battery cell processing apparatus according to claim 1 , wherein, in the battery cell, the negative electrode lead and the positive electrode lead are not bent, but are straight. 14. The battery cell processing apparatus according to claim 1 , wherein the protrusions are hemispherical. 15. A battery cell processing method using the battery cell processing apparatus according to claim 2 , the battery cell processing method comprising: a first operation of placing a battery cell to be processed on the upper surface of the seating die of the base portion; a second operation of moving the seating die forwards; a third operation of moving the block portion downwards in the vertical direction to cut the negative electrode lead and the positive electrode lead to a predetermined length and at the same time to form the one or more embossed portions in the negative electrode lead; and a fourth operation of separating the battery cell that is processed from the seating die, the first, second, third and fourth operations being repeatedly performed, wherein after a predetermined number of battery cells including the battery cell, are processed, the pair of cutters are rotated 180 degrees in a clockwise direction or in a counterclockwise direction, and the first, second, third and fourth operations are repeatedly performed.