JPWO2017187357A5 - - Google Patents

Description

1 is a side view of a conventional anode showing a horizontal current supply bar, a vertical distribution bar, and two coated or uncoated titanium anode plates associated with the vertical distribution bar; FIG. 1A and 1B are front and top views, respectively, of a conventional attachment by welding a coated or uncoated titanium anode plate to a vertical bar; 1A and 1B are front and top views, respectively, of a conventional attachment by welding a coated or uncoated titanium anode plate to a vertical bar; FIG. 10 is a front and top view, respectively, of mounting a coated or uncoated titanium anode plate to a vertical distribution bar through an adapter element with a current limiter assembly; FIG. 10 is a front and top view, respectively, of mounting a coated or uncoated titanium anode plate to a vertical distribution bar through an adapter element with a current limiter assembly; Front view and respectively of the attachment of a coated or uncoated titanium anode plate to a vertical distribution bar through an adapter element with a titanium strip and current limiter assembly as specified in the first practical embodiment. It is a top view. Front view and respectively of the attachment of a coated or uncoated titanium anode plate to a vertical distribution bar through an adapter element with a titanium strip and current limiter assembly as specified in the first practical embodiment. It is a top view. FIG. 3 is a front view of an adapter element constructed from a titanium strip and attached to a vertical distribution bar with respective current limiter assemblies at its ends; Fig. 10 is a plan view of an embodiment in which the adapter element according to the second practical embodiment comprises a titanium strip and two current limiter assemblies; 4A-4C are respective cross-sectional views of the connection of the current limiter assembly to the end of the titanium strip, according to two practical embodiments; 4A-4C are respective cross-sectional views of the connection of the current limiter assembly to the end of the titanium strip, according to two practical embodiments; FIG. 10 is a front view of the attachment of an adapter element composed of a titanium strip and two current limiter assemblies to a vertical bar, and a plan view of the respective anode plates attached to the current limiter assemblies; FIG. 10 is a front view of the attachment of an adapter element composed of a titanium strip and two current limiter assemblies to a vertical bar, and a plan view of the respective anode plates attached to the current limiter assemblies; Titanium forming part of an adapter element having a tubular configuration and incorporating at least one current limiter inside thereof associated with an elongated sheet bent at right angles and with a corresponding anode plate attached to the sheet. FIG. 4 is a plan view of a first variant of the practical embodiment of the strip; The current limiter itself is embedded in a block of epoxy resin or similar material, the aforementioned titanium strips are divided by the limiter, and the titanium strips are attached at one end to the vertical bar and at the other to the corresponding anode plate. FIG. 10 is a plan view of a second variant of the practical embodiment of the titanium strip forming part of the adapter element, shown in FIG. 4A-4B are front, side and top views, respectively, of a practical embodiment in which the anode plate is mounted at a slight angle to the vertical plane; 4A-4B are front, side and top views, respectively, of a practical embodiment in which the anode plate is mounted at a slight angle to the vertical plane; 4A-4B are front, side and top views, respectively, of a practical embodiment in which the anode plate is mounted at a slight angle to the vertical plane; A series of coated or uncoated series showing how the anode plate has a slight angle that increases from the lower part to the upper part, in other words from the bottom to the top, creating a chimney effect. 1 is a front and top view of a working embodiment of a titanium anode plate attached to a second vertical distribution bar; FIG. A series of coated or uncoated series showing how the anode plate has a slight angle that increases from the lower part to the upper part, in other words from the bottom to the top, creating a chimney effect. 1 is a front and top view of a working embodiment of a titanium anode plate attached to a second vertical distribution bar; FIG. FIG. 4B is a side view of the embodiment of the previous figure showing the path followed by the air bubbles as a result of the chimney effect produced by the angled configuration of the anode plate; A current limiter assembly having a current limiter and an inner frame which is a titanium strip having a U-shape and attached to a vertical bar, the titanium strip within an outer frame which is a box shaped as a U-shaped vessel. FIG. 10 is a front view of the mounting of the adapter elements received and a plan view with the respective anode plates attached to the current limiter assemblies; A current limiter assembly having a current limiter and an inner frame which is a titanium strip having a U-shape and attached to a vertical bar, the titanium strip within an outer frame which is a box shaped as a U-shaped vessel. FIG. 10 is a front view of the mounting of the adapter elements received and a plan view with the respective anode plates attached to the current limiter assemblies;

In one practical embodiment, further illustrated in Figures 22 and 23 of the drawings, the current limiter assembly (7) comprises at least one outer frame which is a box (12) containing insulating material (13) and a titanium strip (8), wherein the at least one inner frame is partially or completely contained within the at least one outer frame , and the at least one outer frame and the at least one inner frame are at least One inner frame is attached and has a U-shaped profile so as to partially enclose at least one portion of one or more vertical distribution bars (3), at least one outer frame is attached to at least one anode plate ( 4) associated with or attached to;

Claims (13)

An anode for an electrochemical cell of the vertical anode type with a suspended structure, comprising:
- a horizontal current supply conductor bar;
- one or more vertical distribution bars connected to the horizontal current supply conductor bars,
a core of conductive elements selected from the group consisting of copper, aluminum, lead, and alloys thereof; and a material selected from the group consisting of titanium or alloys thereof, valve metals or alloys thereof, and lead or alloys thereof. a vertical distribution bar with an outer layer or skin of
- at least one coated or uncoated titanium anode plate mounted on a vertical distribution bar;
the anode (1) incorporates an adapter element (6) positioned between at least one of the vertical distribution bars (3) and at least one of the coated or uncoated titanium anode plates (4);
the adapter element (6) comprises at least one current limiter assembly (7) having a current limiter (10);
Said current limiter assembly (7) comprises at least one vertical distribution bar (3) and at least one coating so as to connect the vertical distribution bar (3) to a coated or uncoated titanium anode plate (4). mounted on a coated or uncoated titanium anode plate (4),
Anode for electrochemical cells. Anode for electrochemical cells according to claim 1, wherein the adapter element (6) is attached to the vertical distribution bar (3) and the anode plate (4) coated with titanium. The anode adapter element (6) comprises a titanium strip (8), said titanium strip (8) to at least one current limiter assembly (7), said titanium strip (8) to said vertical distribution bar (3). 2. An anode for an electrochemical cell according to claim 1, mounted and holding said current limiter assembly (7) to be attached to a corresponding coated or uncoated titanium anode plate (4). said adapter element (6) of said anode comprising a titanium strip (8) having two ends, said titanium strip (8) carrying two current limiter assemblies (7), one at each end; such that said titanium strips (8) are attached to said vertical distribution bars (3) and said pairs of current limiter assemblies (7) are attached to corresponding said coated or uncoated titanium anode plates (4). 2. The anode for an electrochemical cell of claim 1, wherein the anode is held at . An adapter element (6) of the anode is attached to the vertical distribution bar (3) such that the coated or uncoated titanium anode plate (4) attached to the current limiter assembly (7) also has the same angle. An anode for an electrochemical cell according to claim 1, mounted on said vertical distribution bar (3) defining an angle of 3.25 degrees or less with respect to the vertical plane. said anode comprising two or more adapter elements (6),
Each adapter element (6) is angled 3.0 to the vertical plane of the vertical distribution bar (3) such that the titanium anode plate (4) attached to the current limiter assembly (7) also has the same angle. attached to said vertical distribution bar (3) defining an angle of 25 degrees or less;
Anode for electrochemical cells according to claim 5, wherein each adapter element (6) has a different size. the magnitude of the angle defined by said adapter element (6) with respect to said vertical plane of said vertical distribution bar (3) increases from bottom to top along the length of said vertical distribution bar (3); An anode for an electrochemical cell according to claim 6. 4. For an electrochemical cell according to claim 3, wherein the current limiter (10) of the adapter element (6) is embedded in a block (15) of epoxy resin provided on a titanium strip (8). anode. Said current limiter assembly (7) comprises a box (12) having insulating material (13) containing a titanium strip (8), said insulating material (13) being attached to said titanium strip (8) by terminals. , and another terminal to said box (12), incorporating two current limiters (10). a current limiter assembly (7) comprising a pair of bimetallic titanium/copper pieces (9);
a pair of bimetallic titanium/copper pieces (9) with copper surfaces facing each other and a current limiter (10) inserted between them;
there are depressions in the middle and at both ends in the lateral direction corresponding to the width of both opposing bimetallic pieces (9),
Anode for electrochemical cells according to claim 1, characterized in that said recesses are filled with an epoxy resin (11) or an insulator. a current limiter assembly (7) comprising at least one outer frame being a box (12) containing insulating material (13) and at least one inner frame being a titanium strip (8);
said at least one inner frame being partially or completely contained within said at least one outer frame ;
said at least one outer frame and at least one inner frame are U-shaped such that said at least one inner frame is attached and partially encloses at least one portion of said one or more vertical distribution bars (3); having an outline,
10. Anode for electrochemical cells according to claim 9 , wherein said at least one shell is attached to at least one anode plate (4). Electrochemical cell for the electrowinning of metals, characterized in that it comprises at least one anode according to any one of claims 1-11 . 13. The electrochemical cell of Claim 12 , wherein the metal is a non-ferrous metal.