IMPROVEMENTS IN HANGER BARS

Abstract

A hanger bar for an electrowinning cell, wherein hanger bar includes a bar portion and one or more contact portions adapted, in use, to be brought into contact with an electrical conductor. The contact portions are fabricated from an electrically conductive material, and a welded seal is formed between the bar portion and the contact portions in order to minimize corrosion.

Claims

1.-16. (canceled)

17. A hanger bar for an electrowinning cell, the hanger bar comprising: a bar made from a first material, the bar having a recessed and open region formed at a lower side of each end of the bar, each of the recessed and open regions extending inwardly from an end of the bar; and a contact member comprising a second material, the contact member extending between opposed ends of the bar, wherein respective ends of the contact member are exposed at the recessed and open end regions at either end of the bar, the second material having a higher electrical conductivity than the first material, with the exposed ends of the second material being welded to a peripheral portion of the recessed and open regions of the bar, wherein a welded seal is formed between the bar portion and the contact portions in order to minimize corrosion.

18. A hanger bar according to claim 17, wherein the welded seal is an aluminum bronze weld.

19. A hanger bar according to claim 18, wherein the weld is formed using an aluminum bronze welding rod or wire.

20. A hanger bar according to claim 17, wherein the bar is fabricated from stainless steel.

21. A hanger bar according to claim 17, wherein the second material comprises copper.

22. An electrowinning cathode assembly comprising a hanger bar as claimed in claim 17, and a cathode portion connected to the hanger bar by an aluminum bronze joint.

23. An electrowinning cathode assembly according to claim 22, wherein the joint comprises a fillet weld.

24. An electrowinning cathode assembly according to claim 23, wherein the fillet weld is formed using an aluminum bronze welding rod or wire.

25. An electrowinning cathode assembly according to claim 22, wherein the electrically conductive material is copper.

26. An electro winning cathode assembly according to claim 22, wherein the cathode portion comprises a cathode plate.

27. A hanger bar according to claim 17, which includes one or more shorting frame contacts located thereon, and wherein a welded seal is formed between the hanger bar and the one or more shorting frame contacts in order to minimize corrosion.

28. A hanger bar according to claim 27, wherein the welded seal is an aluminum bronze weld.

29. A hanger bar according to claim 27, wherein the weld is formed using an aluminum bronze welding rod or wire.

30. A hanger bar according to claim 27, wherein the shorting frame contacts are fabricated from copper.

31. A hanger bar according to claim 22, wherein, in use, the shorting frame contacts are located on an upper surface of the hanger bar.

32. A hanger bar according to claim 31, wherein, in use, the shorting frame contacts extend to cover at least a portion of an end of the hanger bar.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0087] Preferred features, embodiments and variations of the invention may be discerned from the following Detailed Description which provides sufficient information for those skilled in the art to perform the invention. The Detailed Description is not to be regarded as limiting the scope of the preceding Summary of the Invention in any way. The Detailed Description will make reference to a number of drawings as follows:

[0088] FIG. 1 illustrates a hanger bar for an electrowinning cell according to an embodiment of the present invention.

[0089] FIG. 2 illustrates hanger bars for an electrowinning cell according to an embodiment of the present invention.

[0090] FIG. 3 illustrates details of an electrowinning cathode assembly according to an embodiment of the present invention.

[0091] FIG. 4 illustrates hanger bars for an electrowinning cell according to an embodiment of the present invention.

[0092] FIG. 5 illustrates a hanger bar for an electrowinning cell according to an embodiment of the present invention.

DESCRIPTION OF EMBODIMENTS

[0093] In FIG. 1 there is illustrated a hanger bar 10 for an electrowinning cell according to an embodiment of the present invention. The hanger bar 10 comprises a bar portion 11 that extends between opposed sides of an electrowinning cell (not shown). A cathode plate 12 is connected to and supported by the bar portion 11. In use, the bar portion 11 is located above the electrowinning cell (not shown) while the cathode plate 12 is suspended within the solution in the cell so that metal ions in the solution are deposited onto the cathode plate 12.

[0094] The solution in an electrowinning cell is typically strongly acidic, and acid vapour is generated, thereby creating a hostile environment within a tankhouse. In the embodiment of the invention illustrated in FIG. 1, the bar portion 11 is fabricated from stainless steel in order to minimise or eliminate corrosion of the bar portion 11 in this hostile environment.

[0095] The bar portion 11 is provided with a contact portion 13 at an end thereof (a second contact portion is provided at the opposite end of the bar portion). The contact portion 13 is fabricated from a material having a greater electrical conductivity than that of the bar portion 11. In this embodiment of the invention, the contact portion 13 is fabricated from copper.

[0096] In use, the contact portion 13 is placed on an edge of the electrowinning cell (not shown) along which an electrical busbar (not shown) extends. The contact portion 13 will be placed so as to contact the busbar (not shown) so that an electrical current passes through the hanger bar and cathode plate 12 and into the solution, thereby creating favourable conditions for the reduction of metal ions in the solution and the electrodeposition of metal on the cathode plate 12.

[0097] The contact portion 13 is a copper plate that is welded to the bar portion 11. However, in prior art hanger bars, significant corrosion takes places in the weld, due to weld porosity or galvanic corrosion (due to the different galvanic potential of the materials used in the weld and the hanger bar). In these situations, corrosion of the weld leads to a reduction in the performance of the cathode (i.e. a reduced deposition of metal on the cathode plate) due to a reduction in the electrical connection between the contact portion and the bar portion. In addition, corrosion can reduce the structural integrity of the hanger bar, with the possibility of the contact portion becoming detached from the bar portion.

[0098] In the embodiment of the invention shown in FIG. 1, a seal 14 is formed between the contact portion 13 and the bar portion 11. The seal 14 is a weld that extends about the entire boundary between the contact portion 13 and the bar portion 11, including onto the end 15 of the hanger bar 10.

[0099] In FIG. 1, the bar portion 11 is formed from 316 grade stainless steel, while the contact portion 13 is formed from 99.6 wt % pure copper. The seal 14 is formed by TIG welding in an argon atmosphere using an A2 aluminium bronze welding rod comprising approximately 88 wt % copper, 9 wt % aluminium and 1 wt % iron.

[0100] In FIG. 2, a detailed view of the end 15 of a hanger bar 10 according to an embodiment of the invention is illustrated. In this Figure, the copper contact portions the welded seal 14 formed between the copper contact portions 13 and the stainless steel bar portions 11 may be clearly seen. It may also be seen that the seal 14 extends onto the ends 15 of the hanger bars 10.

[0101] FIG. 3 illustrates details of an electrowinning cathode assembly 17 according to an embodiment of the present invention. The cathode assembly 17 comprises a hanger bar 18 and a cathode plate 19 extending therefrom.

[0102] In this embodiment of the invention, the hanger bar 18 is formed from copper (and, in particular, 99.9 wt % pure copper) while the cathode plate 19 is formed from stainless steel (and, in particular, 316 grade stainless steel).

[0103] Although not illustrated in FIG. 3, the ends of the hanger bar 18 extend beyond the sides 20 of the cathode plate 19 so that the hanger bar 18 may be brought into contact with busbars (not shown) located on edges of the electrowinning cell (not shown) in which the cathode assembly 17 is used. In use, the hanger bar 18 will be suspended above the electrowinning cell (not shown), while the cathode plate 19 will be at least partially submerged within the electrolyte solution within the cell so that metal may be electrodeposited onto the cathode plate 19.

[0104] The cathode plate 19 is connected to the hanger bar 18 via a continuous fillet weld 21 that extends along the entire width of both faces of the cathode plate 19. As shown in FIG. 3, the fillet weld 21 also extends along the point at which the edges 20 of the cathode plate 19 meet the hanger bar 18. The fillet weld 21 is formed by TIG welding in an argon atmosphere using an A2 aluminium bronze welding rod comprising approximately 88 wt % copper, 9 wt % aluminium and 1 wt % iron.

[0105] The fillet weld 21 reduces or eliminates corrosion in the cathode assembly 17 (particularly galvanic corrosion caused by the different materials used in the cathode assembly 17 by providing a seal between the cathode plate 19 and the hanger bar 18. In addition, the fillet weld 21 provides the cathode assembly 17 with structural strength: it is not unusual for 200 kg of metal to be electrodeposited onto a cathode plate 19, meaning that the fillet weld 21 must be of sufficient strength to support the weight of the cathode plate 19 and deposited metal without fracturing or breaking so that the cathode plate 19 separates from the hanger bar 18.

[0106] In FIG. 4, a hanger bar 22 for an electrowinning cell according to an embodiment of the present invention is illustrated. The hanger bar 22 includes a bar portion 23 provided with contact portions (obscured) at opposed ends thereof and on what, in use, would be the lower surface of the hanger bars 22.

[0107] The upper surfaces 24 of the bar portions 23 are provided with shorting frame contacts 25, with a shorting frame contact 25 provided at or adjacent opposed ends of the bar portions 23. In use, a shorting frame (not shown) is placed onto each cathode assembly within an electrowinning cell on either side of an electrowinning cell in which maintenance is to be performed. The use of shorting frames isolates the electrowinning cell to be maintained without necessitating the shutting down of every cell in the electrical circuit.

[0108] The shorting frame contacts 25 are fabricated from copper (and, in particular, 99.9 wt % pure copper) while the bar portions 23 are formed from stainless steel (and, in particular, 316 grade stainless steel or duplex stainless steel).

[0109] The shorting frame contacts 25 are copper plates that are welded to the bar portions 23. It is envisaged that, without the aluminium bronze weld of the present invention, significant corrosion may take places at the interface between the shorting frame contacts 25 and the bar portions 23 due to chemical or galvanic corrosion (due to the different galvanic potential of the materials used in the weld and the hanger bar). In this situation, it is envisaged that corrosion would lead to a reduction in the performance of the cathode due to a reduction in the electrical connection between the shorting frame contacts and the bar portion. In addition, corrosion can reduce the structural integrity of the hanger bar, with the possibility of the shorting frame contacts becoming detached from the bar portion.

[0110] In the embodiment of the invention shown in FIG. 4, a seal 26 is formed between the shorting frame contacts 25 and the bar portions 23. The seal 26 is a weld that extends about the entire boundary between the shorting frame contact 25 and the bar portion 23.

[0111] In FIG. 4, the seal 14 is formed by TIG welding in an argon atmosphere using an A2 aluminium bronze welding rod comprising approximately 88 wt % copper, 9 wt % aluminium and 1 wt % iron.

[0112] In the embodiment of the invention illustrated in FIG. 4, contact portions (obscured) are located on the opposed face of the hanger bars 22 to the shorting frame contacts 25. In this embodiment of the invention, the contact portions (obscured) and the shorting frame contacts 25 do not comprise portions of the same copper rod extending through the hollow bar portion 23. Instead, the shorting frame contacts 25 comprise copper plates that are formed separately from the contact portions (obscured) and are maintained a distance therefrom by at least the wall thickness of the bar portion 23.

[0113] In FIG. 5, a hanger bar 22 for an electrowinning cell according to an embodiment of the present invention is illustrated. The hanger bar 22 is similar to that illustrated in FIG. 4, in that it comprises a bar portion 23 fabricated from stainless steel (and, in particular 316 grade stainless steel) and a contact portion 27 fabricated from copper (and, in particular 99.9 wt % pure copper) welded to, in use, a lower surface of the bar portion 23. In use, the contact portion 27 is brought into contact with an electrical conductor in the form of a busbar (not shown) that extends along an edge of the electrowinning cell.

[0114] The hanger bar 22 also includes a shorting frame contact 25 located on an upper surface 24 of the bar portion 23. The shorting frame contact 25 is fabricated from copper (and, in particular, 99.9 wt % pure copper), and, in use, a shorting frame (not shown) is placed on top of the shorting frame contact 25 in order to electrically isolate an adjacent electrowinning cell.

[0115] In contrast to the hanger bar 22 illustrated in FIG. 4, the shorting frame contact 25 of FIG. 5 is an L-shaped member that includes a first section 25A that extends along a portion of the upper surface 24 of the bar portion 22 and a second section 25B located at a right angle to the first portion 25A that extends so as to cover at least a portion of the end 28 of the bar portion 22.

[0116] Although not illustrated in FIG. 5, both the contact portion 27 and the shorting frame contact 25 are connected to the bar portion 22 using a seal that is provided at any location in which the contact portion 27 and the shorting frame contact 25 meet the bar portion 22. The seal is formed by TIG welding in an argon atmosphere using an A2 aluminium bronze welding rod comprising approximately 88 wt % copper, 9 wt % aluminium and 1 wt % iron.

[0117] In the present specification and claims (if any), the word comprising and its derivatives including comprises and comprise include each of the stated integers but does not exclude the inclusion of one or more further integers.

[0118] Reference throughout this specification to one embodiment or an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearance of the phrases in one embodiment or in an embodiment in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more combinations.

[0119] In compliance with the statute, the invention has been described in language more or less specific to structural or methodical features. It is to be understood that the invention is not limited to specific features shown or described since the means herein described comprises preferred forms of putting the invention into effect. The invention is, therefore, claimed in any of its forms or modifications within the proper scope of the appended claims (if any) appropriately interpreted by those skilled in the art.