The present disclosure relates to the technical field of metal smelting. Specifically, the present disclosure relates to an electrolytic cell loading/unloading platform and an electrolytic loading/unloading integrated system. The electrolytic cell loading/unloading platform comprises a supporting frame, a bottom plate, a washing device, a stripping device, and a loading/unloading robot; the bottom plate is arranged on the supporting frame, and is provided with a loading/unloading slot running through the bottom plate; the loading/unloading slot comprises a first loading/unloading slot and a second loading/a discharging slot; the first loading/unloading slot and the second loading/unloading slot are arranged at the two ends of the bottom plate in the length direction; the washing device is arranged on the surface of the bottom plate away from the supporting frame and is located between the first loading/unloading slot and the second loading/unloading slot; the stripping device is arranged on the surface of the bottom plate away from the supporting frame and is located between the first loading/unloading slot and the second loading/unloading slot; and the loading/unloading robot is arranged on the surface of the bottom plate away from the supporting frame and is adapted to grab electrode plates through the first loading/unloading slot and the second loading/unloading slot. The use of the electrolytic cell loading/unloading platform of the present invention achieves low logistics costs and a high electrolytic cell operation rate.
A casting and outputting system is provided. The system includes a casting machine, a disc body, a transfer device, a special fixture, a cooling tank, a collection device and a waste plate rack. The transfer device is configured to drive the special fixture to take out anode plates cast on the disc body, place a qualified one of the anode plates in the cooling tank, place an unqualified one of the anode plates on the waste plate rack, lift the anode plate cooled in the cooling tank, and place the cooled anode plate on the collection device for stacking.
A method for stripping and splitting a ductile and malleable metal attached and deposited on an electrolytic cathode, comprising: calendering an electrolytic deposition metal attached to a cathode plate of the electrolytic cathode, so that the electrolytic deposition metal attached to the cathode plate is ductile and/or has the adhesion changed, and separating, from the cathode plate, the deposition metal attached to an electrolyte surface of the cathode plate or loosening the deposition metal.
Disclosed is a casting output system. The casting output system comprises: a casting machine (10), a transfer robot (20), a special clamp (30), a cooling water tank (40), a gathering device (50) and a waste plate rack (60), wherein the transfer robot (20) is used for driving the special clamp (30) to take out cast anode plates, placing qualified anode plates in the cooling water tank, placing unqualified anode plates on the waste plate rack, and lifting out the cooled anode plates and then placing the cooled anode plates on the gathering device (50) for stacking.
Provided are an electrolytic cathode assembly and an electrolytic cell. The electrolytic cathode assembly therein comprises a cathode plate; a wrapping strip, which seals a side of the cathode plate; and an insulating clamp, which is located above the wrapping strip on one side and which sealedly clamps on the cathode plate.
A melting pot includes a pot body and a float salvaging apparatus. The pot body is provided with a melting chamber having an open upper end. The float salvaging apparatus includes a hanging bracket, a bearing plate, a rotating plate and a drive assembly configured to drive pivoting of the rotating plate. The hanging bracket is disposed above the melting chamber. The rotating plate is pivotably disposed on the bearing plate, and the bearing plate and the rotating plate are provided on the hanging bracket between an initial position and a first salvaging position in a manner of moving up and down. The drive assembly is connected to the rotating plate.
A melting pot (1), comprising a pot body (20) and a float salvaging apparatus (10). The pot body (20) is provided with a melting chamber (201) having an open upper end. The float salvaging apparatus (10) comprises a hanging bracket (101), a bearing plate (102), a rotating plate (103) and a drive assembly configured to drive pivoting of the rotating plate (103). The hanging bracket (101) is disposed above the melting chamber (201). The rotating plate (103) is pivotably disposed on the bearing plate (102), and the bearing plate (102) and the rotating plate (103) are provided on the hanging bracket (101) between an initial position and a first salvaging position in a manner of moving up and down. The drive assembly is connected to the rotating plate (103).
An apparatus and method for processing anode plate for electrolysis, the apparatus includes a transverse transmission device (3) for transmitting the anode plate in a transverse direction; a plate-flattening and thickness-measuring device (4) for flattening the anode plate and measuring a thickness of the anode plate; a hanger bottom milling device (6) configured to mill a bottom surface of a hanger of the anode plate, disposed at a first side of the transverse transmission device (3) and positioned downstream of the plate-flattening and thickness-measuring device (4) in the transverse direction; and a hanger side milling device (5) configured to mill a side surface of the hanger of the anode plate, disposed at a second side of the transverse transmission device (3) and positioned downstream of the plate-flattening and thickness-measuring device (4) in the transverse direction.
B21D 1/00 - Straightening, restoring form or removing local distortions of sheet metal or specific articles made therefromStretching sheet metal combined with rolling
B23Q 7/14 - Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting co-ordinated in production lines
C25C 1/12 - Electrolytic production, recovery or refining of metals by electrolysis of solutions of copper
B23P 23/06 - Metal-working plant comprising a number of associated machines or apparatus
9.
DEVICE AND METHOD FOR MACHINING ANODE PLATE FOR ELECTROLYSIS
A device and method for machining anode plate for electrolysis, comprising a transverse movement device (3), a panel-shaping press and thickness measuring device (4), a bottom milling device (6) and a lateral milling device (5). The bottom milling device (6) is arranged on one side of the transverse movement device (3), and downstream the panel-shaping press and thickness measuring device (4) in transverse direction. The lateral milling device (5) is arranged on the other side of the transverse movement device (3), and downstream the panel-shaping press and thickness measuring device (4) in transverse direction. The lateral milling device (5) and bottom milling device (6) can be operated individually, and the efficiency of anode plate machining is improved.
B23Q 7/14 - Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting co-ordinated in production lines
C25C 1/12 - Electrolytic production, recovery or refining of metals by electrolysis of solutions of copper
10.
Apparatus for stripping metal sheets from cathode blank
An apparatus for stripping metal sheets from a cathode blank includes: a frame; a stripping assembly disposed on the frame; and a receiving mechanism including at least one receiving platform which is disposed on the frame for receiving the deposited metal sheets. The stripping assembly includes: first and second clipping mechanisms for clipping a conductive member on an upper end of the cathode blank; first and second stripping mechanisms for stripping the deposited metal sheets from two surfaces of the cathode blank; a bottom positioning mechanism for positioning a lower end of the cathode blank; and first and second loosening mechanisms each including a push rod which is movably disposed on the frame in the transversal direction for pushing the cathode blank.
C25C 7/08 - Separating of deposited metals from the cathode
C25B 9/00 - Cells or assemblies of cellsConstructional parts of cellsAssemblies of constructional parts, e.g. electrode-diaphragm assembliesProcess-related cell features
A device for stripping a cathode plate includes a support frame and a stripping assembly. The said stripping assembly is mounted on the support frame, and it includes: clipping mechanisms, the said clipping mechanisms are arranged at the upper part of the support frame and separated from each other longitudinally; a stripping mechanism for stripping the deposited metal sheets from two sides of the cathode plate; a bottom location mechanism for locating the bottom end of the cathode plate; a loosening mechanism which is arranged at the bilateral of the support frame and has a pusher bar, wherein the said push bar can move along the transverse direction and it is mounted on the support frame to tip the cathode plate; and a plate-receiving mechanism including at least one receiving platform which can move vertically for receiving the deposited metal sheet.
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