CN203582992U - Telescopic current-conducting plate for electrolytic furnace - Google Patents

Abstract

The utility model discloses a telescopic current-conducting plate for an electrolytic furnace. The telescopic current-conducting plate comprises anode current-conducting plates, a handle connecting piece, a handle and an elongated handle, wherein the lower parts of the anode current-conducting plates are connected with anode electrolytic materials, and the upper parts of the anode current-conducting plates are connected with the handle by the handle connecting piece; the elongated handle is in a lathy concave shape and semi-covers the external surface of the handle; the external surface of the elongated handle is fixed on other external members; a slide chute is formed in the middle part of the elongated handle; a sliding guide rail is arranged in the lower part of the handle and placed in the slide chute. According to the telescopic current-conducting plate for the electrolytic furnace disclosed by the utility model, the anode current-conducting plates can be used for driving the anode electrolytic materials to have radial movement by sliding the handle, thus the distance of the anode electrolytic materials is changed and a normal current density is kept, so that electrolysis can be performed continuously.

Description

A kind of telescopic electrolytic furnace conducting plates

Technical field

The utility model designs a kind of conducting plates, relates in particular to a kind of re metal electrolyzing stove conducting plates.

Technical background

Current known technology is in the electrolytic process of electrolytic furnace, and current density is being arranged the dissolution rate of metal and the ratio of speed of separating out.During electrolysis, conducting plates jointed anode, generation current density, the thickness degree of anode affects current density.But anode will constantly consume in electrolytic process, in order to guarantee the continuity of electrolysis, guarantee to produce and carry out reposefully smoothly, after certain hour, the anode that must the anode of attenuation be taken off and more be renewed from conducting plates, therefore this method comparatively wastes time and energy, and the rate of utilization of antianode material is not high, makes production cost higher.This utility model is for after the attenuation of electrolytic process Anodic, by the texture improvement of conducting plates, changes the distance between anode, keeps normal current density, reaches the object that reduces anode consumption.

Summary of the invention

To achieve these goals, the utility model specifically adopts following technical scheme:

A kind of telescopic electrolytic furnace conducting plates, is characterized in that, comprising:

Anode conducting plate, there are three to five fixed orificess its one end along edge spaced set;

Handle connector, is arranged on the top of the described anode conducting plate the other end;

Handle, is arranged on the upper end of described handle connector, by described handle connector, is connected with described anode conducting plate;

Prolonging handle, is coated on described handle outer.

Preferred scheme is: described telescopic electrolytic furnace conducting plates, it is characterized in that, and the metal sheet that described anode conducting plate is dome-shaped, has 5 fixed orificess at its Inner arch abutment edge spaced set, wherein interspersed set screw corresponding to quantity.

Preferred scheme is: described telescopic electrolytic furnace conducting plates, it is characterized in that, and after being stitched together by four described anode conducting plate levels, can form a cake, in the middle of described cake, be circular hole.

Preferred scheme is: described telescopic electrolytic furnace conducting plates, it is characterized in that, and described extension rod is long matrix and is partly coated on described handle outer, and described extension rod middle part offers chute, and its external stability is on other external members.

Preferred scheme is: described telescopic electrolytic furnace conducting plates, it is characterized in that, and described handle bottom is provided with rail plate, and described sliding rail is arranged in the chute of described extension rod.

The beneficial effects of the utility model:

The telescopic electrolytic furnace conducting plates of one of the present utility model, can regulate inner annular anode spacing by radial extension, after making anode be consumed attenuation in electrolytic process, still can keep normal current density, guaranteed the continuity of electrolysis, guarantee to produce and carry out reposefully smoothly, and the utilization ratio that has improved anode material, has reduced production cost.

Accompanying drawing explanation

Fig. 1 is front view of the present utility model;

Fig. 2 is vertical view of the present utility model;

Fig. 3 is right view of the present utility model;

Fig. 4 is the combination vertical view of four conducting platess of the present utility model.

Embodiment

A kind of telescopic electrolytic furnace conducting plates, comprising: anode conducting plate (1), handle connector (2), handle (3) and prolonging handle (4).

As shown in Figure 2, described telescopic electrolytic furnace conducting plates, is characterized in that, the metal sheet that described anode conducting plate (1) is dome-shaped has 5 fixed orificess (8) at its Inner arch abutment edge spaced set.

As shown in Figure 1, be interspersed with set screw (5) in described fixed orifices (8), described set screw (5) below is connected (6) with anode graphite member; Described handle connector (2) is arranged on the top at the outer arch of described anode conducting plate (1) edge, and is positioned at middle part, outer arch edge; Described handle connector (2) upper end is connected with described handle (3), and described handle (3) prolonging direction is contrary with described anode conducting plate (1) prolonging direction.

As shown in Figure 2, described handle (3) outside surface is provided with described prolonging handle (4), described prolonging handle (4) is long spill, partly be coated on described handle (3) below, described prolonging handle (4) middle part is provided with chute (7); As shown in Figure 3, described handle (3) bottom is provided with rail plate (9), and described rail plate (9) is placed in the chute of described extension rod (7); Described prolongation external stability is on other external members.

As shown in Figure 4, after being stitched together by four blocks of described anode conducting plates (1) level, can form a cake, in the middle of described cake, it is circular hole, described anode conducting plate (1) lower end jointed anode graphite component, described anode graphite member is positioned at outer anode (10), when anode graphite member is consumed and during attenuation in electrolytic process, can make described anode conducting plate (1) drive described anode graphite member to radially move by the described handle (3) that slides, change the spacing of anode graphite member, keep normal current density, make electrolysis continue to carry out.

Although embodiment of the present utility model is open as above, but it is not restricted to listed utilization in specification sheets and embodiment, it can be applied to the various fields of the present utility model that are applicable to completely, for those skilled in the art, can easily realize other modification, therefore do not deviating under the universal that claim and equivalency range limit, the utility model is not limited to specific details and illustrates here and the legend of describing.

Claims (5)

1. a telescopic electrolytic furnace conducting plates, is characterized in that, comprising:

Anode conducting plate, there are three to five fixed orificess its one end along edge spaced set;

Handle connector, is arranged on the top of the described anode conducting plate the other end;

Handle, is arranged on the upper end of described handle connector, by described handle connector, is connected with described anode conducting plate;

Prolonging handle, is coated on described handle outer.

2. telescopic electrolytic furnace conducting plates according to claim 1, is characterized in that, the metal sheet that described anode conducting plate is dome-shaped has 5 fixed orificess at its Inner arch abutment edge spaced set, wherein interspersed set screw corresponding to quantity.

3. telescopic electrolytic furnace conducting plates according to claim 1 and 2, is characterized in that, after being stitched together, can form a cake by four described anode conducting plate levels, in the middle of described cake, is circular hole.

4. telescopic electrolytic furnace conducting plates according to claim 1, is characterized in that, described extension rod is long matrix and is partly coated on described handle outer, and described extension rod middle part offers chute, and its external stability is on other external members.

5. according to the telescopic electrolytic furnace conducting plates described in claim 1 or 4, it is characterized in that, described handle bottom is provided with rail plate, and described sliding rail is arranged in the chute of described extension rod.

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