Method and apparatus for electrolytically depositing a deposition metal on a workpiece

What is claimed is: 1 . An apparatus for electrolytically depositing a deposition metal on a workpiece, comprising: (I) in a first region of the apparatus: (a) an electrolytic depositing apparatus, which has at least one anode and at least one current feeding device with in each case one electrical contact element for making electrical contact with the workpiece, wherein the at least one anode and the at least one current feeding device can be brought into contact with a deposition electrolyte and the at least one contact element can be brought into contact with the workpiece in the apparatus; and (b) a device for electric current generation; (II) in a second region of the apparatus: (a) a stripping apparatus for removing the deposition metal, which has been deposited on the workpiece in the first region of the apparatus, from the at least one current feeding device, wherein the stripping apparatus comprises a stripping cathode; and (b) a current source which is designed so as to polarize the stripping cathode cathodically vis-à-vis the at least one current feeding device; (III) in a third region of the apparatus: (a) a contact coating apparatus for depositing the deposition metal on the electrical contact elements, in which contact coating apparatus the at least one electrical contact element is not in contact with the workpiece, wherein the contact coating apparatus comprises a contact coating anode; and (b) a current source which is designed so as to polarize the electrical contact elements cathodically vis-à-vis the contact coating anode. 2 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein the apparatus is a continuous apparatus for continuous electrolytic metal deposition with a plurality of current feeding devices, in which the current feeding devices are held on a holding device forming a circulation, wherein the continuous apparatus has, in the first region of the circulation in the apparatus, a transport path for the workpiece and a guide for the current feeding devices parallel to the transport path, such that the electrical contact elements can be brought into contact with the workpieces and deposition metal can be deposited on the workpieces, and wherein the continuous apparatus is designed, at the end of the first region, to release the contact between the workpieces and the electrical contact elements, wherein the stripping apparatus for removing the deposition metal deposited on the electrical contact elements furthermore forms the second region of the circulation in the apparatus, and wherein the contact coating apparatus for depositing the deposition metal on the electrical contact elements forms the third region of the circulation in the apparatus. 3 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein the transport path is horizontal. 4 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein the holding device is a continuously circulating transport belt or a continuously circulating transport chain. 5 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein the stripping apparatus is at least half as long and at most three times as long as the contact coating apparatus. 6 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein the at least one electrical contact element is made of a base metal which has a surface roughness having a roughness value Ra in a range of from 0.2 to 10 μm. 7 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein the at least one current feeding device is made in a form of a contact clamp. 8 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 7 , wherein the at least one contact clamp is designed so as to exert a clamping pressure per unit of a contact area on the workpiece which is from 0.15 to 2.5 N/mm 2 . 9 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 7 , wherein the at least one contact clamp has two electrical contact elements, wherein each one has a contact area and wherein the electrical contact elements are arranged parallel to one another and aligned in a manner situated parallel opposite one another. 10 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein the at least one electrical contact element is made of a metal selected from the group consisting of titanium, niobium, and high-grade steel. 11 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein the stripping cathode is arranged opposite the at least one current feeding device. 12 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein a contact coating anode is arranged between two contact elements of a respective current feeding device. 13 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein the contact coating anode is disposed in the contact coating apparatus with respect to the at least one current feeding device so as to deposit metal on areas of the at least one current feeding device which are adjacent to a respective contact area on the at least one electrical contact element. 14 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 1 , wherein the contact coating anode is made of titanium which is coated with platinum or with a mixed oxide. 15 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein the at least one electrical contact element is made of a base metal which has a surface roughness having a roughness value Ra in a range of from 0.2 to 10 μm. 16 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein the at least one current feeding device is made in a form of a contact clamp. 17 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 16 , wherein the at least one contact clamp is designed so as to exert a clamping pressure per unit of a contact area on the workpiece which is from 0.15 to 2.5 N/mm 2 . 18 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 16 , wherein the at least one contact clamp has two electrical contact elements, wherein each one has a contact area and wherein the electrical contact elements are arranged parallel to one another and aligned in a manner situated parallel opposite one another. 19 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein the at least one electrical contact element is made of a metal selected from the group consisting of titanium, niobium, and high-grade steel. 20 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein stripping cathode is arranged opposite the at least one current feeding device. 21 . The apparatus for electrolytically depositing a deposition metal on a workpiece according to claim 2 , wherein a contact coating anode is arran