SE542768C2 - Device at cathode plate - Google Patents

Abstract

The present invention relates to an edge protection (7) intended for use in electrolytes for purifying copper where an anode and a cathode are immersed in an electrolyte solution (2) and where current is supplied to the cathode (1) which is then a negative pole and the anode is a positive pole with impure copper , after retrieval of electrons, becomes pure copper and adheres to the cathode (1) which is a surface-wide plate formation where the edge guard (7) in use is placed over and around an edge (9) at at least one free side (5,6) of the cathode plate (1). The edge guard (7) comprises at least one elongate first part (11) mounted on the cathode plate (1) for receiving and holding at least one second elongate part (12) covering the edge of the cathode at a surface area (10) on each side (5,6). of the cathode plate (1), on each side (19,20) of the edge of the cathode plate (1), and an edge surface (9), arranged substantially perpendicular to the surface areas (10).

Description

TECHNICAL FIELD The invention relates to a device for use with a cathode sheet in a process for recovering metal, for example copper, by electrolysis as defined in the preamble of the independent claim 1.

BACKGROUND Copper is most often found in copper ore and sulphide ores. Silicate, sulphate and carbonate ores also contain copper. The low content of copper in these ores makes it necessary to concentrate them before electrolysis. The methods used to concentrate copper ore include heating in an oven or reacting them with sulfuric acid.

Electrolysis improves the properties of copper as an electrical conductor. Electrical equipment often contains electrolytic copper. Copper is also easy to pull and form into wires. Electrolytic copper has undergone refining or purification by electrolysis. Purification by electrolysis is the simplest method of obtaining pure copper.

In electrolysis, a current source is used to drive a redox reaction in a, for the electrodes, common electrolyte solution, a solution that can conduct current. The electrolyte solution comprises, for example, copper sulphate, copper mixed with sulfuric acid. Electrons are supplied through the cathode, the negative pole. The cathode includes, for example, stainless steel, pure copper or titanium, or a similar substance that is not affected by the current. Positive ions migrate here, which are reduced by receiving electrons from the surface of the cathode, whereby pure copper attaches to the cathode. At the anode, which comprises impure copper and is the positive pole, an oxidation correspondingly takes place when the negative ions deliver electrons there.

SUMMARY OF THE INVENTION The invention more particularly relates to a device for use in electrolysis of copper to prevent the copper solution adhering to the cathode plate from growing around the edges of the plate. An edge guard is placed at the free sides of the cathode plate to prevent the growth of a copper layer around the edge portions and facilitate the release of copper from the cathode plate. A known device comprises an edge strip with a groove between two lips at one side adapted to the thickness of the cathode plate. The other side of the strip is provided with a groove for an expanding or exploding strip. After the edging has been placed on the edge of the cathode plate, the blasting strip is pressed onto the strip. The blasting press presses the lips of the edging against the sides of the cathode plate, whereby the edging is retained, FIGURE DESCRIPTION In the following, the invention will be described with reference to the accompanying figures, of which Figure 1 schematically shows a cathode plate immersed in an electrolyte bath. OF EMBODIMENTS The cathode plate 1 shown in the figures comprises a surface-wide plate formation. Figure 1 schematically shows a cathode plate 1 immersed in an electrolyte bath 2 for producing copper in a known manner. The cathode plate 1 can be made of, for example, titanium, stainless steel or copper. Arranged at one edge 3 of the cathode plate is a suspension device 4 in which the cathode plate can be suspended to assume an upright position. The other edges 5, 6 of the cathode plate, from an upright position seen the side edges, are provided with edge protection or edge strips 7. The bottom edge 8 can also be provided with an edge strip, but this edge can also only be provided with a release agent, for example wax or similar means. The edge guards 7 are designed to comprise and enclose the edge surfaces 9 of the cathode plate, and extend at least around the side edges 10 of the cathode plate which in an active position are located in the electrolyte bath to prevent copper from adhering and building on around and over the edge 9 of the cathode plate 1 .

The edge protection 7 comprises two parts, a first 11 and a second 12 part, respectively. It is designed so that the first part (s) 11 comprises a first formation 11.1 and the second part / parts 12 comprises a second formation 11,2 where the formations when the edge guard 7 is in active working position are in locked engagement with each other . The first formation and the second formation are elongate and run along the first part / parts 11 and the second part / parts 12, respectively.

The first formation comprises grooves 13 and the second formation comprises projections or wedge formations 14, or vice versa, which after assembly and in interaction with each other using the edge guard 7 are in reading locked engagement / interaction with each other. The groove 13 and the projection 14 each comprise a first surface 15 and a second surface 16, respectively, where the first surface and the second surface abut each other when the edge guard is in working position, and prevent the second part from moving from the first part, and with by means of the clamping force obtained / occurring between the first part and the cathode plate in a sealing manner prevents copper solution adhering to the cathode plate from growing around the edge of the cathode plate.

The edge protection comprises said first elongate part 11 mounted on the cathode plate 1 and a second elongate part 12 covering the edge 5.6 of the cathode at a surface area on each side 5.6 of the cathode plate 1. The first part 11 comprises an elongate strip 11 which with its one longitudinal edge 17 is fixed in the cathode plate 1, adjacent to the edge 5,6 of the cathode plate. The first part 11 is of a material which allows it to be attached to the cathode plate by welding with or without filler material, welding with points or full welding, or soldering, as indicated by the reference numeral 18 in the figures. The weld can advantageously be applied to the position on the first part which gives the greatest clamping force when the first part is attached to the cathode plate. The weld can also be applied in several positions along the edge 17 of the first part which abuts against the cathode plate. It should be understood here that a first part 11 is mounted on both sides 19 and 20, respectively, of the cathode plate 1, as a reflection from the opposite side. The elongate strip 11 is bent in its longitudinal direction so that its second edge 17b is spaced from the cathode plate. Advantageously, the elongate first part 11 is laser welded to the cathode plate along the entire one longitudinal edge. The advantage of laser welding is that the risk of the cathode plate being deformed or settling due to the heat development is very small, thanks to the heat development being concentrated in the welding area. One edge of the first part 11 is advantageously fully welded, in order to avoid that copper adhering to the cathode plate 1 can find its way between the side 10 of the cathode plate and the first part 11. If this happens, the detachment of the pure copper is made difficult when the process is complete.

The second edge 17b of the elongate first part 11 forms a stop lug 21 or engaging edge cooperating with the second elongate part 12 of the edge protection for receiving and holding the second part.

The second part 12 of the edge protection comprises a material which is advantageously not electrically conductive, for example various plastic materials, rubber or composite, or a combination of these. The material must be dimensionally stable, but allow a certain suspension, elasticity, to facilitate assembly and to facilitate the loosening of the copper layer. When the copper layer is to be detached, the cathode plate 1 changes shape, and due to this, the second part 12 of the edge protection must follow the deformation of the cathode plate.

A variant of edge protection is shown in Figures 2 -4 and Figure 8. In this variant, the first elongate part comprises a stop lug in the form of a hook formation 21 or projections formed in its free edge. The hook formation has a projecting part, a tumor 22 or a barb 23, which is intended to engage in blocking engagement with the second part 12 of the edge protection. The second part 12 of the edge protection is formed with a groove 24 between two wedge formations 14, which project from a main part 25 The wedge formations 14 have been given a shape corresponding to the space formed between the hook formation 22,23 and the side 19,20 of the cathode plate. The wedge formation 14 is forced into the space to its active position by the hook formation 22,23 or the projection can spring outwards, away from the side 19,20 of the cathode plate. When the wedge 14 has passed the hook formation 22,23 and this spring has been held back, the wedge 14 is retained by means of the hook formation 22,23 which engages with said wedge 14, the second part 12 being prevented from coming loose from the edge 9 of the cathode plate 1.

Another variant of edge protection is shown in Figures 5 - 7. In this variant, the elongate first part 11 is welded to! the edge surface 9 of the cathode plate, substantially arranged perpendicularly in relation to the cathode plate surfaces 19,20. The first elongate part 11 may in this variant comprise two identical parts 11a, 11b which are welded to the edge 9 of the cathode plate mirror-in-relation with respect to each other. Said first part 11 may comprise sub-sections 11z which are attached to the cathode plate, which sub-sections form an elongate first part. To further prevent copper from finding its way between the plate and the first part, the second edge of the first part can be provided with a piast coating or rubber which is vulcanized firmly after the welding. This further breaks the conductive contact path between the two side surfaces of the cathode plate so that copper is prevented from adhering. The clamping force of the first part 11 can be of such a size that a tool, hydraulically, pneumatically or otherwise mechanically active, must be used when mounting the edge guard. Said tool helps to prevent the plastic or rubber coating from being damaged when mounting the other part.

The second elongate part of the edge protection according to the variant shown in Figure 5 · 7 has been shaped so as to enclose the edge 9, edge portion of the cathode plate, and is provided at its free edges with grooves 27 and hooks 28 projecting from a main part 29, cooperating with the hook formation 22,23 of the first part 11. According to this variant, the main part 29 has been designed so that in its active position, mounted on the edge of the cathode plate, a space A is formed between the edge 9 of the cathode plate and the main part 29. The space has a size which makes it possible to press the other part 12 over the edge 9 of the cathode plate, and with the free edges 30 of the second part further over the hook formations 22,23 of the first part 11. When the free edge 30 of the second part has passed over the edges of the first part 11, the free edges 30 of the second part 12 are pressed under the hook formation 22,23 of the first part 11 in such a way that the hook formation is placed in the groove 27 of the second part and engages in locking engagement. with the groove 27. Thereafter, the main part 29 springs out from the edge 9 of the cathode plate. In this way the second elongate part is prevented from coming loose from the edge of the cathode plate.

In a further variant shown in Figure 9, the first elongate part 11 forms grooves 13 into which the second elongate part 12 can be pushed into. The second part has a main part 25 from which a pair of wedge formations 14 protrude. The wedge formations 14 and the grooves 13 have substantially the same shape. The second part is mounted by fitting the wedge formations towards the grooves 13 at the end of the first elongate part which is adjacent to the bottom edge 8 of the cathode plate, and is pushed or threaded along the entire length of the cathode plate until the whole second part is occupied by the first part.

The present invention is not limited to that described above and shown in the drawings, but may be modified and modified in a variety of ways within the scope of the inventive concept set forth in the appended claims.

Claims (13)

An edge protection (7) intended for use in electrolysis for the purification of copper where an anode and a cathode are immersed in an electrolyte solution (2) and where current is supplied to the cathode (1) which is then a negative pole and the anode is a positive pole where the crude copper, after collecting electrons, becomes pure copper and adheres to the cathode (1) which is a surface-wide plate formation where the edge guard (7) in use is placed over and around an edge (9) at at least one free side (5,6) of the cathode plate ( 1) characterized in that the edge protection (7) comprises at least an elongate first part (II) made of metal and mounted on the cathode (1), attached to the cathode (1), by welding (18) or soldering to receive and hold at least one second elongate portion (12) covering the edge of the cathode at a surface area (10) on each side (5,6) of the cathode plate (1), on each side (19,20) of the edge of the cathode plate (1), and an edge surface (9 ), arranged substantially perpendicular to the surface areas (1.0). Edge protection according to claim 1, characterized by at least one elongate first part (11) mounted on the edge surface (9) of the cathode disk (1) at the edge (10) of the cathode disk for receiving and holding the second part (12). Edge protection according to claim 2, characterized by at least two elongate first parts (11) mounted on the edge surface (9) of the cathode disk at the edge (10) of the cathode disk for receiving and holding the second part (12). Edge protection according to claim 1, characterized by at least two elongate first parts (11) mounted on the flat opposite surfaces (19.20) of the cathode disk (1) at the edge (9) of the cathode disk for receiving and holding the second part (12). Edge protection according to one of Claims 1 to 4, characterized in that the part or parts (1.1.) Mounted on the cathode (1) are spot-welded to the cathode. Edge protection according to one of Claims 1 to 4, characterized in that the part or parts (11) mounted on the cathode (1) are fully welded to the cathode by laser welding. Edge protection according to one of Claims 1 to 6, characterized in that the second part (12) is made of a current-insulated material. Edge protection according to Claim 7, characterized in that the second part (12) is made of a plastic material which is dimensionally resilient. Edge protection according to one of Claims 1 to 8, characterized in that the first part (s) (11) comprises a first formation (11.1) and the second part (s) (12) comprises a second formation (11,2). where the formations (11.1,11.2) when the edge protection (7) is in working position are in read engagement with each other. Edge protection according to claim 9, characterized in that where the first formation (11.1) comprises grooves (13) and the second formation (11.2) comprises projections (14), or vice versa, which after assembly and in cooperation with each other when using the edge protection (7) are in locking locked engagement / interaction with each other. Edge protection according to one of Claims 9 or 10, characterized in that the first formation (11.1) and the second formation (11.2) are elongate and run along the first part (s) (11) and the second part (s), respectively. 12). Edge protection according to one of Claims 10 or 11, characterized in that the groove (13) and the projection (14) each comprise a first surface and a second surface (15, 16), respectively, where the first surface and the second surface abut one another, when the edge protection (7) is in working position, and locks the second part (12) from movement from the first part (11). Cathode (1) comprising an edge protection (7) according to any one of claims 1-12.