DE620209C - Method and device for the production of metal sheets as removable electrolytic deposits - Google Patents

Description

The invention relates to a method of manufacture suitable for large-scale operations of sheet metal as removable electrolytic deposits. Under removable precipitates are to be understood as those that do not grow onto the cathode or only attach to the edge of the cathode. The clinging of the Precipitation on the cathode is created by special intermediate layers between the Cathode area and the precipitate or by choosing one from the electrolyte Vulnerable building material for the cathode avoided.

It has already been suggested that on the long sides and on the lower edge of the in So-called mother plates used in copper refineries. To arrange furrows, which make it easier to remove the precipitate, as the precipitate is in the furrow breaks through. Instead of this groove, fluted wooden sticks were used elsewhere, which are pushed onto the mother plates. These known methods are only intended to peel off the on both sides of the Mother plates facilitate precipitates formed by breaking up the edges of the precipitate. If the growth of the precipitation on all three sides were prevented at all, so% are the precipitation due to the electrolysis occurring material stresses, z. B. as a result of the trapped hydrogen, flake off and do not allow regular operation.

It has been shown that only by facilitating the breaking through of the low blows Rapid work on the cathode edges, as required in large-scale operations cannot be guaranteed.

According to the invention it is therefore proposed, while largely avoiding Manual work, which can lead to irregular stress on the sheet metal, removal of the precipitates produced detachably by suitable measures by means of a suction effect. This suction can by means of suction cups pressed against the precipitation ο. be exercised. In order to facilitate the removal by suction, the Cathode plates, in particular only on two opposite edges, the overgrowth of precipitation prevented at all. When lifting the preferably in a vertical position Cathode plates guided through the electrolyte can be attached to circular knives are moved past such that; the left standing vertical edges of the Precipitation are cut open.

In one embodiment of the new method, the growth of the edges of the precipitation thereby avoided that the surface of the electrolyte with a non-conductive Layer z. B. from liquid paraffin at the operating temperature, is covered and in a groove-shaped Deepening of the tub through which the cathode plates are guided below

The electrolyte also has a non-conductive layer with a higher specific weight is. For this non-conductive layer, for. B. carbon tetrachloride can be used. Further details emerge from the description and drawing.

Fig. Ι shows schematically a cathode plate in the bath,

Fig. 2 a cathode plate between pairs of cutting blades,

Fig. 3 several cathode plates in a removal frame.

Fig. Ι shows one of the cathodes of rectangular shape. Electrolyte 4 is covered with a paraffin layer 2, and in a trough-shaped The well is a layer 3 of carbon tetrachloride below the electrolyte 4 arranged. Therefore, no metal from the electrolyte can form on the upper longitudinal edge 5 and lower longitudinal edge 6 precipitate so that only the edges 7 and 8 of the cathode plates overgrown by the precipitate can be.

The cutting of the precipitate takes place z. B. by pairs of circular knives 9, 10, 11, 12, between which the cathode plate 1 is pulled through in the vertical direction.

In order to facilitate detachment, the precipitates can be subjected to pressure or suction be set.

A suitable device for carrying out this process stage is shown in Fig. 3. The cathodes 1, to which the precipitates 14 still adhere, are interposed brought from sealing frame 15 into a frame 16. similar to that of a filter press and pressed together by means of the screws 17, 17 '. The air is then sucked in from the sealing frame. After loosening the clamping screws, the cathodes can are removed while the precipitates stick to the frame 15. Of course, instead of a screw 17, an abutment or the like can be arranged be, and the arrangement of the cathodes and sealing frames can also be different Way.

The pressing device is preferably built so that the individual cathode plates within of the scaffolding from the vertical position to the horizontal position, namely after both Pages can be tipped out so that the precipitate falls off and through tape running under the scaffolding can be conveyed away.

In order to prevent unintentional detachment of the edges of the precipitate at those points of the cathodes, Where overgrowth does not take place, these places can be prevented by the cathode be designed so that the precipitate adheres better to them, e.g. B. can the Cathodes get a rough surface in these places.

The method and the devices according to the invention make it possible to deposit electrolyte to manufacture in a continuous operation and for further processing to transport.

Claims (9)

Patent claims: 1. Process for the production of sheet metal as a removable electrolytic. Precipitates, characterized in that the electrolytic precipitates be detached from the cathode plates by means of suction. * " 2. The method according to claim 1, characterized in that for the purpose of relief the replacement by. Suction the overgrowth of electrolytic precipitation on part of the edges of the cathode plates, in particular only on two opposing edges of rectangular cathode plates, is prevented. 3. The method according to claim 2, characterized in that precipitates two sides of rectangular cathode plates are produced, whose on two each other 'Opposite sides overgrown edges are separated before the detachment takes place through negative pressure. 4. Arrangement for performing the method according to claim 2, characterized by a liquid surface layer at the temperature of the electrolyte, ζ. B. made of paraffin or another electrically non-conductive substance, and a likewise liquid at bath temperature, but in contrast to the surface layer specifically heavier dielectric layer, z. B. made of carbon tetrachloride, preferably in a trough-shaped recess on the bottom of the tub, the distance between the surface layer and the bottom layer being smaller than the height of the cathode plates which are guided through the bath in a vertical position. 5. Arrangement for performing the method according to claim 2, characterized in that that the upper edge of the vertical cathode plates protrudes above the electrolyte surface. 6. Device for performing the method according to claim 3, characterized in that that rotating circular knife (9, 10, II, 12) so above the Trough are arranged that the cathode plates run through the circular knives and when they are lifted out of the trough the precipitates are automatically cut open at the plate edges. 7. Device for carrying out the method according to claim ¹ , characterized by 1 sealing frame (15) which can be connected to a suction line and which are arranged in a press frame (16) in such a way that the cathode plates (1) to be freed from the precipitates are inserted between the press frames and after detachment of the precipitates by suction between the press frame can be lifted out again. 8. Apparatus according to claim 7, characterized in that the sealing frame of the press from its vertical Operating position in the horizontal position are tiltable and that below the press a conveyor belt for when the stop Suction from the frame sloping sheets is provided. 9. cathode for performing the method according to claim, characterized by roughening the areas where the overgrowth of the precipitate is avoided will. 1 sheet of drawings