CN205035476U - Electrolytic manganese liquid supplementation device - Google Patents

Abstract

The utility model discloses an electrolytic manganese liquid supplementation device, the knockout bottom is connected through the backward flow solenoid valve and is joined in marriage the liquid bath, joins in marriage the liquid bath and is equipped with the stirring rake, joins in marriage the liquid bath and connects the knockout inlet through qualified manganese solution transfer pump, join in marriage the liquid bath and connect the high -order pond of high concentration manganese solution through high concentration manganese solution solenoid valve, having the flotation pontoon in the knockout, having the guide pile of symmetry on the flotation pontoon, the knockout inner wall is equipped with upper and lower locating piece, the sleeve that the knockout top was fixed with the symmetry passes the slide -bar and connects the flotation pontoon in, the knockout bottom is a plurality of quantitative cup's structure side by side, below link flow tube and electrolysis trough, the stripper bar is connected to the flotation pontoon below, electrolysis trough yin, anode chamber all is equipped with the overflow mouth, and the catholyte overflow mouth is connected through negative pole liquid pump, duplex filtration ware, cooling tower and is joined in marriage the liquid bath, the overflow mouth is equipped with to be connected for overflow control valve plate whole, that control the removal. The utility model provides an electrolyte that exists among electrolytic manganese rehydration process homogeneous not, a great deal of technical problem such as inefficiency, application prospect is wide.

Description

A kind of electrolytic manganese liquid supply device

Technical field

The utility model relates to a kind of electrolytic manganese liquid supply device.

Background technology

Constantly supplement toward electrolyzer the necessary processing step that qualifying liquid to be electrolysed is electrolytic manganese production, the object of fluid infusion makes the processing parameter needed for electrolysis be stabilized in certain scope, as the concentration, temperature etc. of electrolytic solution, is conducive to the carrying out of electrolysis.Fluid infusion is completed by special fluid infusion system, and existing fluid infusion system is adopt feed flow supervisor to add the mode of branching valve toward electrolyzer fluid infusion mostly, and branching valve mainly adopts manually operated mode.

Generally there are up to a hundred electrolyzers in electrolytic manganese production workshop, thus need to complete fluid infusion manipulation to up to a hundred electrolyzers simultaneously, due to the defect of the difference of operating experience, the difference of electric tank working parameter and change, manual control valve, the electrolyzer of substantial amounts cannot keep more consistent efficient electrolysis state, makes electrolytic efficiency decline, power consumption improves, benefit reduces.

Utility model content

The technical problems to be solved in the utility model overcomes the deficiencies in the prior art exactly, provides a kind of defect that can make up the fluid infusion of manual control branching valve, and the electrolyzer of substantial amounts is consistent the fluid infusion system of efficient electrolysis state.

For overcoming the deficiencies in the prior art, the utility model takes following technical scheme:

A kind of electrolytic manganese liquid supply device, comprises skimmer, it is characterized in that: connect dosing pond through return flow solenoid valve bottom skimmer, dosing pond is provided with stirring rake, and dosing pond connects skimmer fluid inlet through qualified manganese solution transferpump; Dosing pond connects high concentration manganese solution feed coefficient through high concentration manganese solution electromagnetic valve; Have floating drum in skimmer, floating drum has symmetrical spud, skimmer inwall is provided with upper and lower preset pieces, and floating drum floats and declines and limits by upper and lower preset pieces; Be fixed with symmetrical sleeve above skimmer, pass slide-bar in sleeve and connect floating drum; Be the side by side configuration of multiple Measuring glass bottom skimmer, connect a choker-line below each Measuring glass, below each choker-line, be provided with an electrolyzer; The multiple cleaning rods corresponding with Measuring glass are connected below floating drum; Electrolyzer is common the anode chamber and the cathode chamber diaphragm electrolytic cell, each electric tank cathode room is provided with an overflow port, overflow port connects catholyte collecting tray, and catholyte collecting tray connects dosing pond through negative electrode liquid pump, duplex strainer, water cooling tower, and each electrolyzer anode chamber is also provided with an overflow port; Catholyte overflow port, anolyte overflow port are equipped with the overflow control valve plate that overflow controls mouth and moves left and right, and cathode and anode hydrorrhea current control valve plate is connected for overall by connecting rod.

Described cleaning rod front end is provided with hairbrush.

Be provided with hose connection below described choker-line, supplement qualified manganese solution by connecting hose to corresponding electrolyzer.

Described anolyte overflow port jointed anode liquid collecting tray, anolyte collecting tray is through anode liquid pump jointed anode liquid pond for recovering.

The major parts of fluid infusion system is skimmer, skimmer is square container mostly, floating drum is had in skimmer, floating drum there is symmetrical spud, floating drum floats and declines owing to being subject to upper and lower preset pieces barrier effect, spud stroke is limited between preset pieces, thus controls floating and the descending stroke of floating drum; Symmetrical sleeve and slide-bar ensure that the accuracy that floating drum moves up and down.

Floating drum arranges corresponding cleaning rod with Measuring glass in addition, and form one-to-one relationship, there is hairbrush cleaning rod front end, and floating drum can be with electric brush repeatedly to scrub choker-line up and down, and make choker-line keep unimpeded, choker-line controls speed and the flow of fluid infusion.Be provided with hose connection below choker-line, supplement qualified manganese solution by connecting hose to corresponding electrolyzer.

Manganese solution qualified in dosing pond can be inputted skimmer by pipeline and fluid inlet by qualified manganese solution transferpump fast, floating drum floats to upper extreme position, qualifying liquid transferpump is closed by travel switch, open return flow solenoid valve simultaneously, liquid quick backflow in skimmer is allowed to enter dosing pond, now floating drum drops to lower limit position with liquid level, qualified manganese solution in Measuring glass is then transported to corresponding electrolyzer by choker-line and flexible pipe, realize electrolyzer quantitative, suitable speed supplements qualified manganese solution, liquid in Measuring glass can open qualifying liquid transferpump after exporting once again automatically, carry out going up liquid and supply once again, and realize floating drum band electric brush and move up and down, scrub choker-line, ensure unimpeded.

Electrolyzer is common diaphragm electrolytic cell, in the design, newly-increased catholyte overflow port is concentrated by catholyte collecting tray, by catholyte pump delivery, trace impurity is removed through duplex strainer, dispelled the heat by water cooling tower again and complete circulation into dosing pond, water cooling tower can the catholyte of effective temperature-reducing backflow, and evaporates wherein water in a large number, effectively avoids the liquid expansion issues of electrolytic manganese production.

Dosing pond has stirring rake to keep the homogeneity of liquid in pond, simultaneously mn ion content in good time reasonable analysis liquid, then by high concentration manganese solution electromagnetic valve UNICOM high concentration manganese solution feed coefficient, keeps dosing pond mn ion content in moderate scope.

Though electrolyzer has barrier film to isolate, due to law of connected vessels, the liquid level of the anode chamber and the cathode chamber is consistent.Newly-increased anolyte overflow control valve plate and catholyte overflow control valve plate, be linked as overall by connecting rod and can move left and right, and control anolyte overflow control mouth and catholyte overflow control the relative discharge of mouth respectively, satisfy the demands.

Compared with prior art, the beneficial effects of the utility model are also:

Measuring glass in skimmer can be arranged more, multiple row is arranged, reliable to multiple electrolyzer quantitative liquid feeding; Choker-line can keep unimpeded by repeatedly scrubbing up and down, thus obtains reliable flow velocity supply, and regulates to realize amount infused by controlling fluid infusion cup number per hour; Catholyte overflow allotment supply pump circulation, effectively can realize the liquid phase homogeneity of electrolyzer, and be convenient to effectively improve electrolysis electricity effect, less anolyte spillway discharge effectively can improve acidity, reduces later stage sulfuric acid input amount; Catholyte can temperature with high efficiency evaporate large quantity of moisture by water cooling tower, and greatly alleviate the liquid expansion ring packing pressure of electrolytic manganese production, direct radiating and cooling is also more efficient than the heat radiation of traditional calandria partition water cycle a lot; Valve plate type anode and cathode hydrorrhea flow modulation device is effectively simple especially, is convenient to manipulation.

In sum, the utility model solve exist in electrolytic manganese fluid infusion process electrolytic solution heterogeneity, many technical problems such as efficiency is low, have a extensive future.

Accompanying drawing explanation

Fig. 1 is the two dimensional structure schematic diagram of the utility model at floating drum upper limit.

Fig. 2 is the two dimensional structure schematic diagram of the utility model in floating drum lower limit.

Fig. 3 is overflow control principle drawing of the present utility model.

In figure, each label represents:

1, floating drum; 2, skimmer; 3, sleeve; 4, slide-bar; 5, spud; 6, upper preset pieces; 7, lower preset pieces; 8, cleaning rod; 9, Measuring glass; 10, hairbrush; 11, choker-line; 12, hose connection; 13, electrolyzer; 14, anode liquid pump; 15, anolyte overflow port; 16 anolyte collecting traies; 17, catholyte collecting tray; 18, catholyte overflow port; 19, negative electrode liquid pump; 20, duplex strainer; 21, skimmer fluid inlet; 22 return flow solenoid valves; 23, high concentration manganese solution feed coefficient; 24, water cooling tower; 25, stirring rake; 26, dosing pond; 27, qualified manganese solution transferpump; 28, high concentration manganese solution electromagnetic valve; 33, anolyte overflow controls mouth; 34, catholyte overflow controls mouth; 35, anolyte overflow control valve plate; 36, catholyte overflow control valve plate; 37, connecting rod.

Embodiment

Now by reference to the accompanying drawings, the utility model is illustrated further.

Electrolytic manganese liquid supply device, comprises skimmer as depicted in figs. 1 and 2, connects dosing pond 26 bottom skimmer 2 through return flow solenoid valve 22, and dosing pond 26 is provided with stirring rake 25, and dosing pond 26 connects skimmer fluid inlet 21 through qualified manganese solution transferpump 27; Dosing pond 26 connects high concentration manganese solution feed coefficient 23 through high concentration manganese solution electromagnetic valve 28; Have floating drum 1 in skimmer 2, floating drum 1 has symmetrical spud 5, skimmer 2 inwall is provided with upper and lower preset pieces 6,7, and floating drum floats and declines and limited by upper and lower preset pieces 6,7; Be fixed with symmetrical sleeve 3 above skimmer 2, pass slide-bar 4 in sleeve 3 and connect floating drum 1; Be the side by side configuration of multiple Measuring glass 9 bottom skimmer 2, connect a choker-line 11 below each Measuring glass 9, below each choker-line 11, be provided with an electrolyzer 13; The multiple cleaning rods 8 corresponding with Measuring glass are connected below floating drum 1; Electrolyzer 13 is common the anode chamber and the cathode chamber diaphragm electrolytic cell, each electric tank cathode room is provided with an overflow port 18, overflow port 18 connects catholyte collecting tray 17, catholyte collecting tray 17 connects dosing pond 26 through negative electrode liquid pump 19, duplex strainer 20, water cooling tower 24, and each electrolyzer anode chamber is also provided with an overflow port 15; Catholyte overflow port 18, anolyte overflow port 15 are equipped with the overflow control valve plate 36,35 that overflow controls mouth 34,33 and moves left and right, and cathode and anode hydrorrhea current control valve plate 36,35 is connected for overall by connecting rod 37.

Described cleaning rod 8 front end is provided with hairbrush 10.

Be provided with hose connection 12 below described choker-line 11, supplement qualified manganese solution by connecting hose to corresponding electrolyzer.

Described anolyte overflow port 15 jointed anode liquid collecting tray 16, anolyte collecting tray 16 is through anode liquid pump 14 jointed anode liquid pond for recovering.

The major parts of fluid infusion system is skimmer 2, skimmer 2 is square container mostly, floating drum 1 is had in skimmer, floating drum 1 there is symmetrical spud 5, floating drum 1 floats and declines owing to being subject to upper and lower preset pieces 6,7 barrier effect, spud 5 stroke is limited between preset pieces, thus controls floating and the descending stroke of floating drum 1; Symmetrical sleeve 3 ensure that with slide-bar 4 accuracy that floating drum 1 moves up and down.

Floating drum arranges corresponding cleaning rod 8 with Measuring glass 9 in addition, form one-to-one relationship, there is hairbrush 10 cleaning rod 8 front end, and floating drum can be with electric brush 10 repeatedly to scrub choker-line 11 up and down, make choker-line 11 keep unimpeded, choker-line 11 controls speed and the flow of fluid infusion.Be provided with hose connection 12 below choker-line 11, supplement qualified manganese solution by connecting hose to corresponding electrolyzer 13.

Manganese solution qualified in dosing pond 26 can be inputted skimmer 2 by pipeline and fluid inlet 21 by qualified manganese solution transferpump 27 fast, floating drum 1 floats to upper extreme position (shown in Fig. 1), qualifying liquid transferpump 27 is closed by travel switch, open return flow solenoid valve 22 simultaneously, liquid quick backflow in skimmer 2 is allowed to enter dosing pond 26, now floating drum 1 drops to lower limit position (shown in Fig. 2) with liquid level, qualified manganese solution in Measuring glass 9 is then transported to corresponding electrolyzer 13 by choker-line 11 and flexible pipe, realize electrolyzer 13 quantitative, suitable speed supplements qualified manganese solution, liquid in Measuring glass 9 can open qualifying liquid transferpump 27 after exporting once again automatically, carry out going up liquid and supply once again, and realize floating drum 1 and be with electric brush 10 to move up and down, scrub choker-line 11, ensure unimpeded.

Electrolyzer 13 is common diaphragm electrolytic cell, in the design, newly-increased catholyte overflow port 18 is concentrated by catholyte collecting tray 17, carried by negative electrode liquid pump 19, trace impurity is removed through duplex strainer 20, dispelled the heat by water cooling tower 24 again and complete circulation into dosing pond 26, water cooling tower 24 can the catholyte of effective temperature-reducing backflow, and evaporates wherein water in a large number, effectively avoids the liquid expansion issues of electrolytic manganese production.

Dosing pond 26 has stirring rake 25 to keep the homogeneity of liquid in pond, simultaneously mn ion content in good time reasonable analysis liquid, then by high concentration manganese solution electromagnetic valve 28 UNICOM high concentration manganese solution feed coefficient 23, keeps dosing pond mn ion content in moderate scope.

Though electrolyzer 13 has barrier film to isolate, due to law of connected vessels, the liquid level of the anode chamber and the cathode chamber is consistent.Newly-increased anolyte overflow control valve plate 35 and catholyte overflow control valve plate 36, be linked as overall by connecting rod 37 and can move left and right, and control anolyte overflow control mouth 33 and catholyte overflow control the relative discharge of mouth 34 respectively, satisfy the demands.

Above-mentioned just preferred embodiment of the present utility model, not does any pro forma restriction to the utility model.Any those of ordinary skill in the art, when not departing from technical solutions of the utility model scope, the technology contents of above-mentioned announcement all can be utilized to make many possible variations and modification to technical solutions of the utility model, or be revised as the Equivalent embodiments of equivalent variations.Therefore, every content not departing from technical solutions of the utility model, according to the utility model technical spirit to any simple modification made for any of the above embodiments, equivalent variations and modification, all should drop in the scope of technical solutions of the utility model protection.

Claims (4)

1. an electrolytic manganese liquid supply device, comprises skimmer, it is characterized in that: connect dosing pond through return flow solenoid valve bottom skimmer, dosing pond is provided with stirring rake, and dosing pond connects skimmer fluid inlet through qualified manganese solution transferpump; Dosing pond connects high concentration manganese solution feed coefficient through high concentration manganese solution electromagnetic valve; Have floating drum in skimmer, floating drum has symmetrical spud, skimmer inwall is provided with upper and lower preset pieces, and floating drum floats and declines and limits by upper and lower preset pieces; Be fixed with symmetrical sleeve above skimmer, pass slide-bar in sleeve and connect floating drum; Be the side by side configuration of multiple Measuring glass bottom skimmer, connect a choker-line below each Measuring glass, below each choker-line, be provided with an electrolyzer; The multiple cleaning rods corresponding with Measuring glass are connected below floating drum; Electrolyzer is common the anode chamber and the cathode chamber diaphragm electrolytic cell, each electric tank cathode room is provided with an overflow port, overflow port connects catholyte collecting tray, and catholyte collecting tray connects dosing pond through negative electrode liquid pump, duplex strainer, water cooling tower, and each electrolyzer anode chamber is also provided with an overflow port; Catholyte overflow port, anolyte overflow port are equipped with the overflow control valve plate that overflow controls mouth and moves left and right, and cathode and anode hydrorrhea current control valve plate is connected for overall by connecting rod.

2. electrolytic manganese liquid supply device according to claim 1, is characterized in that: described cleaning rod front end is provided with hairbrush.

3. electrolytic manganese liquid supply device according to claim 1, is characterized in that: be provided with hose connection below described choker-line, supplements qualified manganese solution by connecting hose to corresponding electrolyzer.

4. electrolytic manganese liquid supply device according to claim 1, is characterized in that: described anolyte overflow port jointed anode liquid collecting tray, anolyte collecting tray is through anode liquid pump jointed anode liquid pond for recovering.