CN202705501U - Electrolytic copper anode plate structure - Google Patents

Abstract

The utility model discloses an electrolytic copper anode plate structure, which comprises a graphite plate (2), wherein upper parts of two vertical end surfaces of the graphite plate (2) are respectively provided with an insulation slab (1) and a copper bar (5), the graphite plate (2), the insulation slab (1) and the copper bar (5) are connected into an integral structure through studs (4), the left end and the right end of the copper bar (5) extend outwards, the extension part of the left end is an installation end (3), the extension part of the right end of the copper bar (5) is a fixed end (6), the fixed end (6) is connected with a right-angle copper bar (7), and the right-angle copper bar (7) is provided with an installation clamping groove (8). The electrolytic copper anode plate structure has advantage that the conductivity is good and stable.

Description

The electrolytic copper anode plate structure

Technical field

The utility model relates to a kind of electrode plate structure of electrolyzer, specifically refers to a kind of electrolytic copper anode plate structure.

Background technology

In the modern hydrometallurgy, one of most important component are exactly electrolytic pole board, pole plate is divided into again positive plate and negative plate, and extracts the electrolytic pole board that produces specially again heterogeneity for different electrolytic etching of metal, if any pole plate of electrolysis, electrolytic zinc, electrolytic nickel and electrolytic manganese etc.

Present electrolytic copper anode plate adopts simple conducting objects to make mostly, along with the increase of duration of service, its conductivity can reduce, simultaneously when the conductive ion of electrolytic solution inside changes, the electroconductibility of positive plate also can be affected, thereby affects electrolytic efficiency.

The utility model content

Problem to be solved in the utility model provides a kind of electrolytic copper anode plate, has solved Electrolytic copper anode plate poorly conductive, stable not problem.

The technical scheme that the utility model provides is: the electrolytic copper anode plate structure, comprise graphite cake, two vertical end face tops of described graphite cake are respectively equipped with insulation lath and copper bar, graphite cake, insulation lath and copper bar are structure as a whole by Stud connection, two ends, the described copper bar left and right sides are protruding, and the left end extension is installation end, and copper bar right-hand member extension is inboardend, inboardend is connected with the right angle copper bar, and the right angle copper bar is provided with the installation draw-in groove.Installation end is put on the electrolyzer mounting face when placing positive plate in electrolyzer, plays the effect of a supporting and location.

Described right angle copper bar is provided with at least one draw-in groove is installed.Draw-in groove is installed is used for chucking negative plate or positive plate, consist of series connection or wiring board in parallel.

The upper surface height of described graphite cake, insulation lath and copper bar flushes.Described graphite cake, insulation lath and copper bar upper end flush when not only being convenient to install mutually positioning, also can avoid the short circuit that may bring because of being uneven simultaneously or contact the problem such as generation electric leakage with foreign object, have improved practicality and security.

Described graphite cake and insulation width of sheet equate.If thereby the mounting face of not only wasting material when insulation lath width is wide but also may touching positive plate causes short circuit or electric leakage, affect electrolysis or burn out device.

The utility model has the advantage of: the utility model designs this electrolytic copper anode plate, conduct electricity very well and conductivity stable.

Description of drawings

Fig. 1 is orthographic plan of the present utility model.

Fig. 2 is front view of the present utility model.

Fig. 3 is side-view of the present utility model.

Label among the figure is expressed as respectively: 1, insulation lath; 2, graphite cake; 3, installation end; 4, double-screw bolt; 5, copper bar; 6, inboardend; 7, right angle copper bar.

Embodiment

Embodiment 1

Referring to Fig. 1, Fig. 2 and Fig. 3, the electrolytic copper anode plate structure, comprise graphite cake 2, two vertical end face tops of described graphite cake 2 are respectively equipped with insulation lath 1 and copper bar 5, and graphite cake 2, insulation lath 1 and copper bar 5 connect as one structure by double-screw bolt 4, and two ends, described copper bar 5 left and right sides are protruding, the left end extension is installation end 3, copper bar 5 right-hand member extensions are inboardend 6, and inboardend 6 is connected with right angle copper bar 7, and right angle copper bar 7 is provided with installs draw-in groove 8.

Above-mentioned right angle copper bar 7 is provided with at least one draw-in groove 8 is installed.

The upper surface height of above-mentioned graphite cake 2, insulation lath 1 and copper bar 5 flushes.

Above-mentioned graphite cake 2 and insulation lath 1 width equate.

In use, positive plate is positioned over first in the electrolyzer, first that right angle copper bar 7 is fixing, inboardend 6 with copper bar 5 is installed on the right angle copper bar 7 again, the installation end 3 of copper bar 5 is placed on the mounting face of electrolyzer and gets final product, this moment, most of structure of graphite cake 2 stretched in the interior electrolytic solution of electrolyzer, and copper bar 5 does not contact with electrolytic solution with insulation lath 1; After 7 energisings of right angle copper bar, coupled copper bar 5 is also switched on, because of graphite, so the time graphite cake 2 had electroconductibility, the negatively charged ion of electrolytic solution inside loses electronics generation oxidizing reaction at the anode graphite plate, reduction reaction then occurs the internal copper ion is reduced into copper in the negative electrode of electrolytic copper, has namely finished work.

The adding of graphite cake 2 is so that the electroconductibility increase of positive plate, and the electroconductibility of graphite cake 2 can not weaken, can not produce conduction difference because content of copper ion in the electrolytic solution changes yet, can not have influence on electrolytic efficiency, greatly guarantee electroconductibility and the stability of electrolysis.

Can well realize the utility model as mentioned above.

Claims (4)

1. electrolytic copper anode plate structure, it is characterized in that: comprise graphite cake (2), two vertical end face tops of described graphite cake (2) are respectively equipped with insulation lath (1) and copper bar (5), graphite cake (2), insulation lath (1) and copper bar (5) connect as one structure by double-screw bolt (4), described copper bar (5) two ends, the left and right sides are protruding, the left end extension is installation end (3), copper bar (5) right-hand member extension is inboardend (6), inboardend (6) is connected with right angle copper bar (7), and right angle copper bar (7) is provided with installs draw-in groove (8).

2. electrolytic copper anode plate structure according to claim 1 is characterized in that: described right angle copper bar (7) is provided with at least one draw-in groove (8) is installed.

3. electrolytic copper anode plate structure according to claim 1 is characterized in that: the upper surface height of described graphite cake (2), insulation lath (1) and copper bar (5) flushes.

4. electrolytic copper anode plate structure according to claim 1 is characterized in that: described graphite cake (2) equates with insulation lath (1) width.

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