Slitter

The invention claimed is: 1. A slitter comprising: an upper knife disposed above an electrode plate, thereby configured to cut the electrode plate; a lower knife disposed below the electrode plate to partially overlap the upper knife, thereby configured to cut the electrode plate together with the upper knife; wherein the upper knife comprises: a first inner surface extending at an incline from a tip formed at a lowermost end to contact an inner surface of the lower knife; and an outer circumferential surface extending at an incline from the tip to a side opposite the lower knife; wherein the incline of the first inner surface has a first angle from a vertical line (V) that is perpendicular to a rotation axis that serves as a rotation center of the upper knife; wherein the incline of the outer circumferential surface has a second angle from the vertical line; wherein the upper knife and the lower knife are rotary knives; wherein an outer surface of the lower knife is planar and a thickness of the lower knife is constant; and wherein the second angle ranges from 80° to less than 90°, wherein the tip extends radially further from the rotation axis of the upper knife than both the first inner surface and the outer circumferential surface of the upper knife, and wherein the tip is disposed between the first inner surface and the outer circumferential surface in a width direction of the upper knife. 2. The slitter of claim 1 , wherein the first angle ranges from 0.6° to 1.1°. 3. The slitter of claim 2 , wherein the first angle ranges from 0.9° to 1.0°. 4. The slitter of claim 1 , wherein the second angle ranges from 85° to 90°. 5. The slitter of claim 1 , wherein, in the upper knife, a horizontal distance from the tip to a contact point with the lower knife ranges from 0.01 mm to 0.5 mm. 6. The slitter of claim 5 , wherein, in the upper knife, the horizontal distance from the tip to the contact point with the lower knife ranges from 0.1 mm to 0.4 mm. 7. The slitter of claim 1 , wherein the upper knife has a total thickness of 3 mm to 5 mm. 8. The slitter of claim 1 , wherein the lower knife comprises a flat outer circumferential surface on which the electrode plate is seated. 9. A slitter comprising: an upper knife disposed above an electrode plate, thereby configured to cut the electrode plate; a lower knife disposed below the electrode plate to partially overlap the upper knife, thereby configured to cut the electrode plate together with the upper knife, wherein the upper knife comprises: a first inner surface extending at an incline from a tip formed at a lowermost end to contact an inner surface of the lower knife; an outer circumferential surface extending at an incline from the tip to a side opposite the lower knife; and a support surface, wherein the incline of the first inner surface has a first angle from a vertical line (V) that is perpendicular to a rotation axis that serves as a rotation center of the upper knife, wherein the incline of the outer circumferential surface has a second angle from the vertical line, wherein the upper knife and the lower knife are rotary knives, wherein an outer surface of the lower knife is planar and a thickness of the lower knife is constant, wherein the upper knife further comprises a second inner surface extending inward from the first inner surface, and wherein the second inner surface is inclined at a third angle from the vertical line, the third angle being an acute angle, the second inner surface extending toward an inner side of the upper knife to define a stepped portion with respect to the support surface of the upper knife. 10. The slitter of claim 9 , wherein the third angle ranges from 2.6° to 3.1°. 11. The slitter of claim 10 , wherein the third angle ranges from 2.8° to 3.0°. 12. The slitter of claim 9 , wherein the upper knife is in line contact with the lower knife.