公开(公告)号：US20170036264A1

公开(公告)日：2017-02-09

申请号：US15301113

申请日：2015-04-07

Applicant: ASESORIAS Y SERVICIOS INNOVAXXION SPA

Inventor： Pablo SUAREZ LOIRA

IPC: B22C9/12 ,  B05D1/00 ,  B05B13/04 ,  B22C23/02 ,  B05B5/03

CPC classification number: B22C9/12 ,  B05B5/032 ,  B05B13/04 ,  B05B13/0431 ,  B05D1/007 ,  B22C23/02 ,  B22D5/02 ,  B22D25/04

Abstract: The present invention relates to a process of forming copper anodes (6) in a casting wheel (I) from the stage in which the copper is in liquid molten state (5) in a dumping chute (3) and is transferred to a ladle (4) until the anode (6) of solid copper is transformed into an anode (6) and is discharged from a mould (2) located in said casting wheel (I) wherein said process prevents the liquid molten copper (5) from being adhered to the edge of the ladle (4) and in the interstice (14) generated between the surfaces of the ejector rod (13) and the passing through bore (12) located on the mould (2) comprising the stages of: pouring the molten liquid copper from a distributing dumping chute (3) towards a ladle (4); (b) connecting the metallic components of the ladle (4) to the ground in order to produce positive charge (17); (c) spraying towards the edge (lip) of the ladle (4) an air jet (19) with dry dusting release agent (20) which is expelled by a nozzle (21) charging the particles of said dry dusting (20) with high voltage and negative charge the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mould (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of the casting wheel (I); (h) driving the ejector rod (13) to expel the anode (6) from the cavity (II) of the mould (2); and (i) removing the anode (6) from the mould (2) by means of cranes. The nozzle (21) is moved over the ladle zone (4) and mould zone (2) by means of a robotic arm (22) which is mounted on a cart (24) suspended above the casting wheel (I).(18); (b) connecting the metallic components of the mould (2) to the ground in order to produce a positive charge (17); (e) spraying towards the cavity (II) of the mould (2) and towards the location zone of the ejector rod (13) dry dusting release agent (20) through an air jet (19) which passes through a nozzle (21) which charges the particles of said dry dusting release agent (20) with high voltage and negative charge (18); (f) pouring the molten liquid copper (5) from the ladle (4) towards the cavity (II) of a mould (2) of anodes; (g) waiting until the copper gets cold in order to form the anode (6) by means of the turn of the casting wheel (I); (h) driving the ejector rod (13) to expel the anode (6) from the cavity (II) of the mould (2); and (i) removing the anode (6) from the mould (2) by means of cranes. The nozzle (21) is moved over the ladle zone (4) and mould zone (2) by means of a robotic arm (22) which is mounted on a cart (24) suspended above the casting wheel (I).

公开(公告)号：US20160060780A1

公开(公告)日：2016-03-03

申请号：US14768022

申请日：2013-05-06

Applicant: Pablo SUAREZ LOIRA ,  Daniel CUCHACOVICH MIKENBERG ,  ASESORIAS Y SERVICIOS INNOVAXXION SPA

Inventor： Pablo SUAREZ LOIRA ,  Daniel CUCHACOVICH MIKENBERG

IPC: C25C7/02 ,  C25C1/12

CPC classification number: C25C7/02 ,  B22D25/04 ,  C25C1/12 ,  Y02P10/212

Abstract: A reusable anode system for electrorefining processes allows eliminating the excess or scrap and generating a continuous electrorefining process having an increased contact surface between the anode and the electrolyte which comprises: a container (10) which is made of stainless steel and having the shape of a straight thin rectangular parallelepiped which on its front and rear faces has a plurality of holes (11) allowing the communication between the outside and inside in such a way the electrolyte is able to enter the container (10) wherein the upper portion of the container (10) is projecting higher than the position of the electrical contact bars (12, 13) by means of projections (16) extending the inside (15) of the container (10) to form an unloading and loading zone and (b) a plurality of copper bars (14) coming from an extrusion and wire drawing process is grouped inside (15) of the container.

Abstract translation: 用于电解精炼工艺的可重复使用的阳极系统允许消除过量或废料并产生具有增加的阳极和电解质之间的接触表面的连续的电解精炼工艺，其包括：容器（10），其由不锈钢制成并具有 直的薄的长方体，其前表面和后表面具有多个孔（11），允许外部和内部之间的连通，使得电解质能够进入容器（10），其中容器的上部 10）通过延伸容器（10）的内部（15）的突起（16）突出地高于电接触杆（12,13）的位置，以形成卸载和装载区域，并且（b）多个 来自挤出和拉丝工艺的铜条（14）被分组在容器的内部（15）内。