Automatic electrode supply apparatus for manufacture of secondary battery and automatic electrode supply method using the same

The invention claimed is: 1. An automatic electrode supply apparatus configured to automatically supply an electrode in various processes for manufacturing a secondary battery, the automatic electrode supply apparatus comprising: a first chuck splicing unit comprising a splicing portion having a traveling electrode located thereon; and a second chuck splicing unit comprising a splicing portion having a standby electrode located thereon, wherein each of the first and second chuck splicing units comprises an edge position control (EPC) sensor configured to measure a position of a lateral edge of a corresponding one of the traveling electrode and the standby electrode, the lateral edge extending in a traveling direction of the traveling electrode. 2. The automatic electrode supply apparatus according to claim 1 , wherein each splicing portion comprises a splicing plate and an electrode cutter, and wherein each splicing portion is movable in a direction parallel to a floor surface to laterally adjust the lateral edge of the corresponding one of the traveling electrode and the standby electrode. 3. The automatic electrode supply apparatus according to claim 2 , wherein each splicing plate comprises: an upper plate and a lower plate, each of the upper plate and the lower plate having a suction hole, configured to suction the corresponding one of the traveling electrode and the standby electrode in order to fix the corresponding one of the traveling electrode and the standby electrode, formed in a surface thereof contacting the corresponding one of the traveling electrode and the standby electrode; and an incision recess provided between the upper plate and the lower plate, the incision recess being configured to allow the electrode cutter to be moved therein. 4. An automatic electrode supply apparatus configured to automatically supply an electrode in various processes for manufacturing a secondary battery, the automatic electrode supply apparatus comprising: a first chuck splicing unit comprising a splicing portion having a traveling electrode located thereon; and a second chuck splicing unit comprising a splicing portion having a standby electrode located thereon, wherein each of the first and second chuck splicing units comprises an edge position control (EPC) sensor configured to measure a position of an edge of a corresponding one of the traveling electrode and the standby electrode, and wherein each of the first and second chuck splicing units further comprises: a lower support member configured to support the chuck splicing unit; an upper support member located above the lower support member, the upper support member being configured to support the splicing portion; and a rotary shaft located between the lower support member and the upper support member, the rotary shaft being configured to rotate the upper support member. 5. The automatic electrode supply apparatus according to claim 4 , wherein each upper support member comprises a horizontal portion and a vertical portion. 6. The automatic electrode supply apparatus according to claim 5 , wherein each of the first and second chuck splicing units further comprises a splicing portion support member located on the vertical portion of the upper support member, the splicing portion support member being configured to support the splicing portion. 7. The automatic electrode supply apparatus according to claim 6 , wherein each EPC sensor is fixed to the vertical portion of the upper support member or to the splicing portion support member of the corresponding first and second chuck splicing units. 8. An automatic electrode supply method for automatically supplying an electrode using the automatic electrode supply apparatus according to claim 1 , the automatic electrode supply method comprising: (i) preparing the traveling electrode on a splicing plate of the first chuck splicing unit; (ii) preparing the standby electrode on a splicing plate of the second chuck splicing unit; (iii) rotating the second chuck splicing unit to move the splicing plate of the second chuck splicing unit having the standby electrode prepared thereon so as to face the splicing plate of the first chuck splicing unit having the traveling electrode prepared thereon; (iv) measuring a position of an edge of the standby electrode using the EPC sensor of the second chuck splicing unit; (v) calculating positional deviation between an edge of the traveling electrode and the edge of the standby electrode; (vi) moving the splicing plate of the second chuck splicing unit having the standby electrode prepared thereon to correct the positional deviation; and (vii) laminating the splicing plate of the second chuck splicing unit having the standby electrode prepared thereon and the splicing plate of the first chuck splicing unit having the traveling electrode prepared thereon with each other to connect the traveling electrode and the standby electrode to each other. 9. The automatic electrode supply method according to claim 8 , wherein step (i) comprises: allowing the splicing plate of the first chuck splicing unit to suction the traveling electrode; and cutting a portion of the suctioned traveling electrode under an upper plate of the splicing plate of the first chuck splicing unit using an electrode cutter of the first chuck splicing unit. 10. The automatic electrode supply method according to claim 8 , wherein step (ii) comprises: attaching a connection tape to one surface of an end of the standby electrode; and allowing the standby electrode having the connection tape attached thereto to be suctioned to a lower plate of the splicing plate of the second chuck splicing unit. 11. The automatic electrode supply method according to claim 8 , further comprising (viii) separating the connected traveling electrode and the standby electrode from the splicing plates of the first and second chuck splicing units after step (vii).