Method for regenerating plating liquid, plating method, and plating apparatus

The invention claimed is: 1. A method for plating a steel wire with plating liquid containing Cu ions, the method comprising: performing electrolytic degreasing on the surface of the wire by applying electric current with the wire immersed in degreasing liquid, to obtain a pretreated wire; plating the pretreated wire by immersing the wire in a plating liquid comprising Cu ions to obtain a plated wire; washing the surface of the plated wire by immersing the plated wire in cleaning liquid comprising water as a major constituent; and drying the washed wire; wherein the plating liquid is regenerated by a method comprising (i), (ii), (iii) and (iv): (i) applying electric current between a plating waste liquid side taken as a cathode and an electrolytic solution side taken as an anode, such that the plating waste liquid and the electrolytic solution are connected through an anion exchanger, wherein the plating waste liquid comprises Fe ions and Cu ions; (ii) separating copper from the plating waste liquid by making a copper deposition electrode as a result of depositing copper on an electrode in contact with the plating waste liquid, to convert the plating waste liquid to a processed remaining liquid, wherein an anode in contact with the electrolytic solution is a copper deposition electrode formed previously; (iii) dissolving copper in the electrolytic solution to generate a copper ion-containing solution; and (iv) repeating (i), (ii) and (iii) one or more times; wherein the regeneration is performed while plating waste liquid produced from the plating liquid during the plating is made to contact the cathode, and waste liquid from the washing is made to contact the anode; the processed remaining liquid is added to the degreasing liquid for the degreasing, and the copper ion-containing solution is added to the plating liquid for the plating; Fe ions are removed from the degreasing liquid, to reduce an Fe ion concentration; and an amount of water added to the cleaning liquid during the washing is approximately equal to an amount of water vaporizing during the electrolytic degreasing. 2. The method of claim 1 , wherein the plating waste liquid further comprises stannous ions. 3. The method of claim 1 , further comprising: removing iron from the processed remaining liquid by depositing a substance containing iron by taking the processed remaining liquid as a cathode side and new electrolytic solution, connected to the processed remaining liquid through an anion exchanger, as an anode side and then by applying electric current; wherein a solution comprising water is present on the anode side as an electrolytic solution after the iron has been removed from the processed remaining liquid. 4. The method of 3 , further comprising, before the iron is removed from the processed remaining liquid, raising a pH by adding an oxygen-containing chemical compound comprising H 2 O 2 , O 3 or H 2 O. 5. The method of claim 1 , wherein the applied electric current is of an amount that corresponds to the greater of (a) a current amount corresponding to the amount of copper ions contained in the plating waste liquid and (b) a current amount corresponding to the amount of copper adhered to the copper deposition electrode. 6. The method of claim 1 , further comprising: removing iron from the processed remaining liquid by depositing a substance containing iron by taking the processed remaining liquid as a cathode side and new electrolytic solution, connected to the processed remaining liquid through an anion exchanger, as an anode side and then by applying electric current; wherein a solution comprising water is present on the cathode side as an electrolytic solution after the iron has been removed from the processed remaining liquid. 7. The method of claim 1 , further comprising, before the electrolytic degreasing, removing an oxide film from the surface of the wire; wherein: the removal of the oxide film is performed by a surface treatment device for a long wirelike article that performs a surface treatment on the long wirelike article movably passing through powder which is charged in an elastic tube to be supplied to, or discharged from, the tube; and the surface treatment device comprises a surface treatment unit, the surface treatment unit comprising: the tube charged with the powder which can be supplied to or discharged from the tube, and having the long wirelike article movably passing through the powder; a pressing device adapted to cyclically pressing and releasing the tube; and a feed device adapted to moving the long wirelike article passing through the powder.