CN202359216U - Anode plate for copper electrolysis - Google Patents

Abstract

The utility model relates to an anode plate for copper electrolysis, and belongs to the technical field of structure members of an electrolytic bath. The anode plate comprises a lead-calcium-tin alloy plate head, a lead-calcium-tin alloy plate surface and copper lifting lugs, wherein the lead-calcium-tin alloy plate head and the lead-calcium-tin alloy plate surface have an integrated structure, the lead-calcium-tin alloy plate head is positioned on the lead-calcium-tin alloy plate surface, the copper lifting lugs are arranged at two sides of the lead-calcium-tin alloy plate head and are connected with the lead-calcium-tin alloy plate head in a welding way, and the upper part of the lead-calcium-tin alloy plate head is concave; five or more than five rows of small circular through holes distributed uniformly in diamond shape are formed in the lead-calcium-tin alloy plate surface; and the parts of the copper lifting lugs, close to the lead-calcium-tin alloy plate head, have a composite layer structure of lead-calcium-tin alloy and copper. The anode plate has the advantageous effects of improving the flowing property of electrolyte, improving the effect and quality of electrolytic copper collection, and avoiding the defect of touch to the anode plate when a portable cathode lifting frame is used for lifting a cathode plate.

Description

A kind of cupric electrolysis is used positive plate

Technical field

The utility model is that positive plate is used in a kind of electrolysis, and particularly a kind of cupric electrolysis is used positive plate, belongs to the structure unit technical field of electrolyzer.

Background technology

At present, positive plate is indispensable in electrolytic copper, like Fig. 1-1 to shown in Fig. 1-2; The effect of positive plate directly affects the quality and the efficient of electrolytic copper; In the electrolytic copper collection process, former positive plate is in the electrolytic copper use, and the electrolyte flow performance is bad; The quality of electrolytic copper can't further be improved, and production efficiency can't further improve.Former positive plate also has very big defective in operation: when portable negative electrode suspension bracket anticathode plate lifts by crane, through regular meeting's touching positive plate, be unfavorable for firm being placed in the electrolytic bath of positive plate, increased the workload that need arrange positive plate because of copper again.

The utility model content

The purpose of the utility model is to be directed against above-mentioned cupric electrolysis with in the positive plate prior art, and the electrolyte flow performance is bad, has influence on effect and quality that electrolytic copper is collected; And the structure design of positive plate is unreasonable; When portable negative electrode suspension bracket anticathode plate lifts by crane,, provide a kind of cupric electrolysis to use positive plate through regular meeting's touching anodic board defect; Can reach and improve the electrolyte flow performance, improve the effect of electrolytic copper collection and the purpose of quality; And avoid portable negative electrode suspension bracket when the anticathode plate lifts by crane, the defective of touching positive plate.

The technical scheme taked of the utility model is to achieve these goals: a kind of cupric electrolysis is used positive plate; Comprise lead-calcium-tin alloy wrench, lead-calcium-tin alloy plate face and copper hanger; Said lead-calcium-tin alloy wrench and lead-calcium-tin alloy plate face are structure as a whole, and the lead-calcium-tin alloy wrench is above lead-calcium-tin alloy plate face, and said copper hanger is in lead-calcium-tin alloy wrench both sides; Be welded to connect with the lead-calcium-tin alloy wrench, said lead-calcium-tin alloy wrench top is spill; Said lead-calcium-tin alloy plate face is provided with the equally distributed little round tube hole of the shape that assumes diamond in shape, said little round tube hole have 5 row or 5 row more than; It partly is the lamination layer structure of lead-calcium-tin alloy and copper that said copper hanger leans on the lead-calcium-tin alloy wrench.

Said little round tube hole has 9 rows.

The lead-calcium-tin alloy of said copper hanger and the lamination layer structure of copper are: middle is the copper layer, and the two sides is the lead-calcium-tin alloy layer, and intermediary copper layer is connected for coating with the lead-calcium-tin alloy layer on two sides.Because the surface of lamination layer structure is the lead-calcium-tin alloy layer; So just increased the electrode usable floor area; Remedied because of lead-calcium-tin alloy wrench top is spill and lead-calcium-tin alloy plate face and be provided with little round tube hole and cause the electrode usable floor area to reduce the influence that cupric electrolysis is produced, guaranteed electrolysis effectiveness.

Extreme difference≤5 that said lead-calcium-tin alloy plate face each point and vertical are faced directly millimeter.

Compared with prior art, the beneficial effect of the utility model is:

(1) the utility model in use; Contain copper electrolyte and get into electrolyzer, electrolytic solution soaks completely whole positive plate face, electrolytic solution; Part flows through from positive plate top, bottom and side; Part flows through positive plate to negative plate through the through hole on the plate face, has improved the electrolyte flow performance, has improved effect and quality that electrolytic copper is collected;

(2) avoid portable negative electrode suspension bracket when the anticathode plate lifts by crane, the defective of touching positive plate.Positive plate top is spill; Similar containers bottom bulkhead shape, this shaped design have been strengthened the flowability of upper strata electrolytic solution in electrolytic bath, and in operation, very big advantage are arranged also; When portable negative electrode suspension bracket anticathode plate lifts by crane; Can not touch positive plate, help firm being placed in the electrolytic bath of positive plate, reduce the workload that to arrange positive plate because of copper again.

Description of drawings

Fig. 1-the 1st: former positive plate front view;

Fig. 1-2 is: former positive plate left view;

Fig. 2 is: the utility model front view;

Fig. 3 is: the utility model left view;

Fig. 4 is: the A-A of Fig. 2 analyses and observe enlarged diagram.

Description of reference numerals: 1 lead-calcium-tin alloy wrench, 2 lead-calcium-tin alloy plate faces, 201 little round tube holes, 3 bronze medal hangers, 31 lamination layer structures, 311 bronze medal layers, 312 lead-calcium-tin alloy layers.

Embodiment

Below in conjunction with accompanying drawing and specific embodiment the utility model is described further, but not as the qualification to the utility model.

Extremely shown in Figure 4 like Fig. 2; A kind of cupric electrolysis is used positive plate, comprises lead-calcium-tin alloy wrench 1, lead-calcium-tin alloy plate face 2 and copper hanger 3, and said lead-calcium-tin alloy wrench 1 is structure as a whole with lead-calcium-tin alloy plate face 2; Lead-calcium-tin alloy wrench 1 is above lead-calcium-tin alloy plate face 2; Said copper hanger 3 is welded to connect with lead-calcium-tin alloy wrench 1 in lead-calcium-tin alloy wrench both sides, and said lead-calcium-tin alloy wrench 1 top is spill; Said lead-calcium-tin alloy plate face 2 is provided with the equally distributed roundlet through hole 201 of the shape that assumes diamond in shape, and said roundlet through hole 201 has 9 rows; It is the lamination layer structure 31 of lead-calcium-tin alloy and copper that said copper hanger 3 leans on lead-calcium-tin alloy wrench 1 part.

The lead-calcium-tin alloy of said copper hanger 3 and the lamination layer structure of copper 31 are: middle is copper layer 311, and the two sides is a lead-calcium-tin alloy layer 312, and intermediary copper layer 311 is connected for coating with the lead-calcium-tin alloy layer 312 on two sides.

Extreme difference≤5 that said lead-calcium-tin alloy plate face 2 each points and vertical are faced directly millimeter.

Use the utility model copper electrolytic process: contain copper electrolyte and get into electrolyzer, positive plate and negative plate conduction, electrolytic solution soaks completely whole positive plate face, and the electrolytic solution part flows through positive plate through the through hole on the plate face; Part flows through from positive plate top, bottom and side, and through behind the negative plate, copper is adsorbed on the negative plate in the electrolytic solution; The remaining liq overflow is gone out, and after the copper coin absorption some amount, cloudy plate plate hangs out; Take off copper coin, negative plate reinstalls, and accomplishes electrolytic copper work.

Above-described embodiment, the utility model embodiment a kind of more preferably just, common variation that those skilled in the art carries out in the utility model technical scheme scope and replacement all should be included in the protection domain of the utility model.

Claims (4)

1. a cupric electrolysis is used positive plate; Comprise lead-calcium-tin alloy wrench, lead-calcium-tin alloy plate face and copper hanger; Said lead-calcium-tin alloy wrench and lead-calcium-tin alloy plate face are structure as a whole, and the lead-calcium-tin alloy wrench is above lead-calcium-tin alloy plate face, and said copper hanger is in lead-calcium-tin alloy wrench both sides; Be welded to connect with the lead-calcium-tin alloy wrench, it is characterized in that: said lead-calcium-tin alloy wrench top is spill; Said lead-calcium-tin alloy plate face is provided with the equally distributed little round tube hole of the shape that assumes diamond in shape, said little round tube hole have 5 row or 5 row more than; It partly is the lamination layer structure of lead-calcium-tin alloy and copper that said copper hanger leans on the lead-calcium-tin alloy wrench.

2. a kind of cupric electrolysis according to claim 1 is used positive plate, it is characterized in that: said little round tube hole has 9 rows.

3. a kind of cupric electrolysis according to claim 1 is used positive plate; It is characterized in that: the lead-calcium-tin alloy of said copper hanger and the lamination layer structure of copper are: middle is the copper layer; The two sides is the lead-calcium-tin alloy layer, and intermediary copper layer is connected for coating with the lead-calcium-tin alloy layer on two sides.

4. a kind of cupric electrolysis according to claim 1 is used positive plate, it is characterized in that: extreme difference≤5 that said lead-calcium-tin alloy plate face each point and vertical are faced directly millimeter.

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