Apparatus for continuous electrolytic treatment of steel sheet and method for producing surface-treated steel sheet using the same

The invention claimed is: 1. An apparatus for continuous electrolytic treatment of a steel sheet, the apparatus comprising N pairs of tabular electrodes having a length L being arranged to respectively face two surfaces of a steel sheet, each electrode including n sections arranged in the longitudinal direction of the electrode and disposed on the surface of the electrode facing the steel sheet surface, each section being constituted by a conductive portion including an electrode portion having a length T 1 and a nonconductive portion made by making an electrode portion having a length T 2 nonconductive, wherein n×N≧10, 0.96≧T 2 /(T 1 +T 2 )≧0.05, and 0.9≧T 1 /L≧0.1, wherein the nonconductive portion is arranged between conductive portions of the electrode in the longitudinal direction of the electrode, wherein the nonconductive portion includes an electrode portion extending in the longitudinal direction of the electrode that is covered with an insulator having water resistance and acid resistance. 2. A method for producing a surface-treated steel sheet, the method comprising forming a corrosion-resistant film that includes at least one layer selected from a Ni layer, a Sn layer, an Fe—Ni alloy layer, an Fe—Sn alloy layer, and an Fe—Ni—Sn alloy layer on at least one surface of a steel sheet; and then forming an adhesive film by performing a cathode electrolytic treatment using the apparatus for continuous electrolytic treatment of a steel sheet according to claim 1 , in an aqueous solution containing 0.008 to 0.07 mol/l (l: liter) of Ti and at least one metal element selected from Co, Fe, Ni, V, Cu, Mn, and Zn, the total molar ratio of the at least one metal element being 0.01 to 10 relative to Ti. 3. The method for producing a surface-treated steel sheet according to claim 2 , wherein the Ti content of the adhesive film is 3 to 200 mg/m 2 per surface of the steel sheet. 4. A method for producing a surface-treated steel sheet, the method comprising forming a corrosion-resistant film that includes at least one layer selected from a Ni layer, a Sn layer, an Fe—Ni alloy layer, an Fe—Sn alloy layer, and an Fe—Ni—Sn alloy layer on at least one surface of a steel sheet; and forming an adhesive film by performing a cathode electrolytic treatment using the apparatus for continuous electrolytic treatment of a steel sheet according to claim 1 , in an aqueous solution containing 0.008 to 0.07 mol/l (l: liter) of Zr. 5. The method for producing a surface-treated steel sheet according to claim 4 , wherein the aqueous solution further contains at least one metal element selected from Co, Fe, Ni, V, Cu, Mn, and Zn, the total molar ratio of the at least one metal element being 0.01 to 10 relative to Zr. 6. The method for producing a surface-treated steel sheet according to claim 4 , wherein the aqueous solution further contains at least one substance selected from phosphoric acids and phenolic resins, the total molar ratio of the at least one substance being 0.01 to 10 relative to Zr. 7. The method for producing a surface-treated steel sheet according to claim 4 , wherein the Zr content of the adhesive film is 3 to 200 mg/m 2 per surface of the steel sheet. 8. The apparatus for continuous electrolytic treatment of a steel sheet according to claim 1 , further comprising a treatment bath, the N pairs of tabular electrodes provided within the treatment bath. 9. The method for producing a surface-treated steel sheet according to claim 6 , wherein the aqueous solution further contains at least one metal element selected from Co, Fe, Ni, V, Cu, Mn, and Zn, the total molar ratio of the at least one metal element being 0.01 to 10 relative to Zr; and the aqueous solution further contains at least one substance selected from phosphoric acids and phenolic resins, the total molar ratio of the at least one substance being 0.01 to 10 relative to Zr.