DE4113015A1 - METHOD FOR SOLVING IRON IN AN ELECTROLYTE FOR AN ELECTROCHEMICAL COATING OF COATED OR UNCOATED STEEL TAPES - Google Patents

Abstract

Proposed is a method of dissolving iron at an iron-dissolving station through which an electrolyte flows which is intended for the electroplating of coated or uncoated steel strip with iron or iron alloys. At this iron-dissolving station, electrolyte is allowed to flow through steel strip coiled up to form a coil with spaced windings or stacked to form spaced layers, the electrolyte passing longitudinally between the coil windings and thus dissolving the iron.

Description

The invention relates to a method for dissolving iron in a dissolving station by an electrolyte for a electrochemical coating of coated or un coated steel strips with iron or iron alloys is flowed through.

In such known electrochemical coating ver will drive the one loaded with the coating metal Electrolyte circulated. From this loaded electric lyt is in the corresponding electrolytic coating the coating metal in the form of iron  or iron alloys, such as iron zincver bonds, on the endlessly passed through the cell Steel tape applied electrochemically. The deposited Iron or the deposited iron alloys must each ent the electrolyte in an upstream dissolving station be fed speaking. It is known to do so in one Dissolving station iron or corresponding iron alloys feed in powder form. This powder is in the from corresponding electrolyte through dissolving station, in who usually also installed agitators are resolved. The content of coating metals or corresponding metal salts in the electrolyte controlled and monitored and in precisely predetermined Solution amount supplied to the coating cell.

The supply of the coating metal is in powder form expensive because of the high prices for iron powder. The dissolution requires a strong agitation of the electrolyte in the release station and the subsequent securing, that the powder is actually completely dissolved at Feeding the loaded electrolyte to the coating cell.

The object of the invention is an inexpensive method for dissolving iron in an electrolyte propose that for an electrochemical coating of coated or uncoated steel strips with Iron or iron alloys is suitable.

The invention task is solved with a method according to claim 1. In appropriate strip finishing plants often falls inferior coated or untreated layered steel band, which is either scrapped or must be given as a lower quality. The band finishing companies have winding devices, on which are responsible for carrying out the procedure  have the necessary coils manufactured in a simple manner from the usually existing steel strip. In addition to the Possibility to wind such steel strip body also suggested this body in layers S-shaped or layering similar. Here, too, are axial flowable steel strip body achieved.

The constant and even flow through the coils or the like with the corresponding electrolyte leads to a sufficiently quick release of the tape mat riales in the form of iron salts. The even through flow of the spaces between the windings or Layers with a correspondingly large surface area leads to a uniform and rapid dissolution of the used Steel strip. This steel band is also included the necessary treatment of the tape surfaces for Er targeting of the spacing spaces and the subsequently necessary compared to rewinding at significantly lower costs the use of iron powder. The dissolver driving also prevents undissolved iron particles how to be dragged along with the powder dissolving process.

According to the invention, the steel strip used is on it Surface, for example by embossing, so struc turiert that in its winding into the coil essentially Lichen axially parallel flow channels for performing the Electrolytes are formed. However, there is also Possibility to ent the entire steel strip by rolling to deform speaking.

To avoid additional rolling, you can also when winding the steel strip between the windings or layers of suitable spacers can be arranged  allow the axial flow between the windings. These spacers can also, for example, by themselves dissolving iron.

According to a preferred embodiment, in one Method according to claim 5 layered or Steel strips wound in a coil-like manner used with a central flow opening through which the electrolyte current supplied and after a deflection by the distance clear spaces between the windings or layers in one multiple or multiple pass is fed. Purpose moderately, such a coil becomes almost form-fitting inserted in a container forming the release station, in which the electrolyte flow is then forced accordingly is led.

Claims (5)

1. A method for dissolving iron in a dissolving station, which is flowed through by an electrolyte for an electrochemical coating of coated or uncoated steel strips with iron or iron alloys, characterized in that wound in the dissolving station to form a coil at a distance from the coil windings or with Distance layered layered steel strip is flowed through axially between the coil windings to the solution. 2. The method according to claim 1, characterized records that the steel strip used on his Surface is structured so that when it is open winding to the coil essentially axially parallel Flow channels for the passage of the electrolyte are formed. 3. The method according to claim 1, characterized records that the steel strip essentially is deformed transverse to the longitudinal direction of the strip by rolling, that when it is wound up essentially axially parallel Flow channels are formed. 4. The method according to claim 1, characterized records that when winding the steel strip spacers between the windings or layers be arranged, the axial flow allow between the windings.   5. Method according to one or more of the preceding Claims, characterized in that the layered or wound in layers Steel strip through an electrolyte stream centrally flows through a corresponding opening and the electrical lyt through the spaces between the windings or layers in a single or multiple pass is returned.