CN205205252U - Whole insulation construction of electrolysis trough - Google Patents

Abstract

The utility model discloses a whole insulation construction of electrolysis trough, include: the electrolysis bank of cells, the electrolysis trough cell body that the electrolysis bank of cells was equipped with more than two sets up side by side, and the gap filling of cell body break joint has a resin concrete, electrolysis bank of cells outside wall and bottom are sealed up by the polyurethane plate that 20~50mm is thick and are bonded, and polyurethane plate still is equipped with the glass steel leak protection layer sealed package that 0.5~2mm of one deck is thick outward, it is sealed to be equipped with the thick glass steel leak protection layer of 0.5~2mm between the electrolysis trough cell body on the gap. The utility model discloses keep warm electrolysis bank of cells side by side as a whole to use the electrolysis bank of cells to set up heat preservation layer of polyurethane board and glass steel leak protection layer as the unit at its surface, make its heat preservation effect reach the best, but also the upper surface in gap adds that cover glass steel leak protection layer sealed between the electrolysis trough, prevents effectively that electrolyte from spattering the gap, avoids the heat loss simultaneously.

Description

A kind of electrolyzer integral insulation construction

Technical field

The utility model relates to a kind of electrolyzer integral insulation construction, particularly a kind of integral insulation construction of copper electrolysis cells.

Background technology

In electrolytic non-ferrous metal process for copper, electrolyte temperature controls there is positive effect to reduction energy consumption, raising electrolytic efficiency, the too low meeting of its electrolyte temperature causes electrolytic solution viscosity to increase, the velocity of diffusion of various ion slows down, and will increase the resistance of electrolytic solution, thus bath voltage is raised, power consumption increases, but electrolyzer is not provided with insulation construction in current copper electrolytic process, so its power consumption is high, and efficiency is low.

When not arranging insulation construction, electrolytic solution is transported to electrolyzer from source, easily run off in electrolyzer and overflow circulating process heat, and its temperature can reduce.

Meanwhile, in electrolyzer installation process, have gap between cell body, be easily splashed into electrolytic solution, not easy to clean in its gap, liquid accumulation causes destroying thermal insulation layer simultaneously.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of electrolyzer integral insulation construction.

Electrolyzer integral insulation construction of the present utility model comprises: electrolyzer group, described electrolyzer group is provided with plural electrolytic cell body and is arranged side by side, between cell body, gap is filled with resin concrete, outside described electrolyzer group, wall and bottom seal bonding by the polyurethane sheet that 20 ~ 50mm is thick, and the glass reinforced plastic application of anti-leakage layers that polyurethane sheet is also provided with one deck 0.5 ~ 2mm outward thick packs; Between described electrolytic cell body, gap is provided with the thick glass reinforced plastic application of anti-leakage layers sealing of 0.5 ~ 2mm.

Preferably, described polyurethane sheet is bonding with cell body by resin.

Electrolyzer group is done as a whole insulation by the utility model, adopts resin concrete to fill between electrolytic cell body, seals bonding, farthest reduce heat losses in electrolyzer at electrolyzer group wall and bottom by polyurethane sheet as thermal insulation layer; And glass reinforced plastic application of anti-leakage layers is set at polyurethane sheet skin, increase its intensity and erosion resistance, also have good fixed action to bonding polyurethane sheet.

Accompanying drawing explanation

Fig. 1 is the utility model front view schematic cross-section;

Fig. 2 is the utility model top view cross-sectional schematic diagram.

Embodiment

Below in conjunction with accompanying drawing and embodiment, the utility model is described in detail.

As shown in Figure 1, 2, electrolyzer integral insulation construction of the present utility model comprises electrolyzer group, and electrolyzer group is arranged side by side by multiple electrolytic cell body 1, by electrolytic cell body 1 installation in position side by side during installation, and potting resin concrete 2 between electrolytic cell body 1.

It is bonding that the present embodiment uses the thick polyurethane sheet 3 of 30mm to carry out sealing to wall and bottom outside the electrolyzer group be arranged side by side, and have exit at electrolytic cell body 1, carries out reserved outlet, electrolyzer is formed as a whole.When installing polyurethane sheet 3, first outside electrolyzer group, resin is smeared in wall and bottom, then above being pasted onto by polyurethane sheet 3, also adopts resin bonding between polyurethane sheet 3.Polyurethane sheet 3 not easily heat conduction, has good insulation effect, and its intensity is high, wear-resisting, radiation resistance is good, is good lagging material.

Finally add the thick glass reinforced plastic application of anti-leakage layers 4 of one deck 2mm again at the skin of polyurethane sheet 3, increase intensity and the erosion resistance of insulation construction, and glass reinforced plastic application of anti-leakage layers 4 is at the outer whole installation of polyurethane sheet 3, be conducive to the polyurethane sheet 3 of fixed bonding, prevent polyurethane sheet 3 from loosening because of loosely bonding, between electrolytic cell body 1, on gap, also sealing arranges the thick glass reinforced plastic application of anti-leakage layers 4 of one deck 2mm, and it is bonding with polyurethane sheet 3 outer field glass reinforced plastic application of anti-leakage layers 4, electrolytic solution is prevented to be splashed into gap between electrolytic cell body 1, cause needing to clear up electrolyzer, and destroy thermal insulation layer.

The utility model by permutation electrolyzer group integrally, does integral heat insulation, makes its heat insulation effect reach best.Carry out the Insulation of electrolyzer, greatly reduce the convection current of electrolyzer, radiation heat release, electrolyzer electrolyte inside temperature is made to control at 60 ~ 65 DEG C, be conducive to the viscosity reducing electrolytic solution, make the easy sedimentation of the floating anode sludge, increase the velocity of diffusion of various ion, reduce the resistance of electrolytic solution, thus improve the electric conductivity of electrolytic solution, reduce the power consumption that cupric electrolysis produces.

Claims (2)

1. an electrolyzer integral insulation construction, it is characterized in that, comprise: electrolyzer group, described electrolyzer group is provided with plural electrolytic cell body and is arranged side by side, between cell body, gap is filled with resin concrete, outside described electrolyzer group, wall and bottom seal bonding by the polyurethane sheet that 20 ~ 50mm is thick, and the glass reinforced plastic application of anti-leakage layers that polyurethane sheet is also provided with one deck 0.5 ~ 2mm outward thick packs; Between described electrolytic cell body, gap is provided with the thick glass reinforced plastic application of anti-leakage layers sealing of 0.5 ~ 2mm.

2. electrolyzer integral insulation construction according to claim 1, is characterized in that: described polyurethane sheet is bonding with cell body by resin.