CN204401123U - A kind of electrolytic manganese negative plate mechanize discrepancy tank systems - Google Patents

Abstract

The utility model discloses a kind of electrolytic manganese negative plate mechanize discrepancy tank systems, comprise an overhead traveling crane, go out groove mechanical hand, enter groove mechanical hand, heavy metal cuts down mobile platform, guide rail, negative plate take-off equipment, negative plate input unit, No. two overhead traveling cranes, a transportation manipulator, No. two transportation manipulators, electrolyzer, whole groove negative plate, track girder, peel-off device and storage racks.Of the present utility model go out groove mechanical hand with enter groove mechanical hand complete out separately separately groove with enter groove function, cooperatively interact, to control electrolyzer the vacant time with all favourable to whole electrolysis process flow process.The utility model adopts stepped start-stop system chain conveyor, continuable by old plate output or new plate input, completes to ensure out groove mechanical hand or to enter groove mechanical hand continuous print groove function of coming in and going out.And avoid day vehicle-mounted running negative plate operating mode round at a high speed, therefore safer, reliable.The utility model is exported by negative plate and input unit is placed on the ground, is conducive to safeguarding, takes up room little.

Description

A kind of electrolytic manganese negative plate mechanize discrepancy tank systems

Technical field

The utility model relates to the electrolytic manganese industry in metallurgy industry, relates to a kind of mechanised equipment of electrolytic manganese industry, particularly a kind of electrolytic manganese negative plate mechanize discrepancy tank systems.

Background technology

Electrolytic manganese product is one of indispensable important source material such as iron and steel, chemical industry, but China's electrolytic manganese industry still belongs to labour-intensive, and production technique is relatively backward.After electrolysis completes, negative plate needs through going out groove, passivation, cleaning, oven dry, stripping, immersion liquid and entering the flow processs such as groove.Existing electrolytic manganese enterprise completes going out groove and entering groove of negative plate by manual operation driving lifting negative plate, go out groove by auxiliary driving manually simple lifting tool by negative plate repeatedly or single electrolyzer is proposed, enter groove by manually by negative plate monolithic, insert in electrolyzer one by one.Due to existing technique, to limit the groove time of coming in and going out shorter, and need a large amount of manpowers to go to complete the discrepancy groove work of negative plate within the time limited, labour intensity is very large, and heavy metal liquid in production process and acid mist etc. have stronger damage to the health of people.

Chinese patent CN 103590068 A discloses " mobile platform technological action and decomposition are cut down in a kind of manganese electrolysis flow process heavy metal contamination ", mechanize and the automatization of electrolytic manganese negative plate discrepancy groove can be realized, but it is transported by overhead traveling crane, therefore have loading and unloading capacity complexity and the problem that can not transport continuously.

Summary of the invention

For solving the problems referred to above that prior art exists, the utility model will design a kind of loading and unloading capacity simply tank systems and the electrolytic manganese negative plate mechanize that can transport continuously is come in and gone out.

To achieve these goals, the technical solution of the utility model is as follows: a kind of electrolytic manganese negative plate mechanize discrepancy tank systems, comprises an overhead traveling crane, goes out groove mechanical hand, enters groove mechanical hand, heavy metal cuts down mobile platform, guide rail, negative plate take-off equipment, negative plate input unit, No. two overhead traveling cranes, a transportation manipulator, No. two transportation manipulators, electrolyzer, whole groove negative plate, track girder, peel-off device and storage racks.

Described track girder is arranged on the column in workshop, electrolyzer both sides, and a described overhead traveling crane is arranged on the track girder of both sides above electrolyzer, can along track girder longitudinal translation; Described go out groove mechanical hand and enter groove mechanical hand respectively on the parallel girder being installed on an overhead traveling crane, going out groove mechanical hand and enter groove mechanical hand can respectively along the girder direction translation of an overhead traveling crane; Described guide rail, negative plate take-off equipment and negative plate input unit are arranged on the ground of side of electrolyzer from inside to outside successively, the longitudinal axis of guide rail, negative plate take-off equipment and negative plate input unit respectively with the longitudinal axis parallel of electrolyzer; Described heavy metal is cut down mobile platform and is arranged on guide rail, can along guide rail translation; Described heavy metal is cut down on mobile platform and is arranged a deactivation slot and a water glass groove respectively; No. two described overhead traveling cranes are also arranged on the track girder of both sides above electrolyzer, can along workshop longitudinal translation; A described transportation manipulator and No. two transportation manipulators are respectively on the parallel girder being installed on No. two overhead traveling cranes, and a transportation manipulator and No. two transportation manipulators can respectively along the girder direction translations of No. two overhead traveling cranes; The rear side ground of electrolyzer is furnished with storage rack, in order to deposit band manganese or the whole groove negative plate without manganese temporarily; The rear side ground of storage rack is provided with peel-off device, in order to be stripped down by the manganese sheet on negative plate.

Described heavy metal is cut down mobile platform and is comprised platform, wheel, baffle plate, deactivation slot, water glass groove and fast quick change liquid joint, and wheel is arranged on platform lower, can along track translation; Deactivation slot and water glass groove are placed on table top, hold passivating solution and water glass liquid respectively, go out groove or enter the pre-treatment before groove to have assisted negative plate; Deactivation slot, Relative sliding between water glass groove and platform when baffle plate runs to stop is provided with around platform; Deactivation slot and water glass trench bottom are provided with fast quick change liquid joint, to change the waste liquid of heavy metal; Deactivation slot and water glass groove can both can be placed by parallel orbit on platform, also can place by vertical track.

Described negative plate take-off equipment comprises ittransfer gantry, conveyor chain, chain rail and roller, and ittransfer gantry fixes on the ground, is bilayer structure form; Ittransfer gantry bilayer is all provided with chain rail, and chain rail top is provided with groove; Conveyor chain both sides are provided with roller, and the top of conveyor chain is provided with draw-in groove; Conveyor chain is arranged on chain rail top, and upper strata chain rail is for removing journey chain rail, and lower floor's chain rail is return chain rail; The roller of conveyor chain bilateral is just in time pressed in the groove of chain rail, to ensure the smooth running of conveyor chain; Whole groove negative plate is placed in the draw-in groove of conveyor chain, along with the operation of conveyor chain, is fed forward by whole groove negative plate.

Described negative plate take-off equipment is identical with the structure formation of negative plate input unit, and just traffic direction is contrary.

Deactivation slot described in the utility model and water glass groove are parallel to track and place or place perpendicular to track on platform.

Method of work of the present utility model, comprises the following steps:

A, go out groove

A1, go out groove mechanical hand whole for the old plate of band manganese of ground electrolyzer groove is captured;

A2, go out groove mechanical hand and old for whole groove plate is transported to heavy metal and cuts down the deactivation slot of mobile platform and carry out passivation;

A3, go out groove mechanical hand whole for the old plate of deactivation slot groove is proposed;

A4, go out groove mechanical hand old for whole groove plate is transported to negative plate take-off equipment;

A5, negative plate take-off equipment are transported to No. two overhead traveling cranes by going out the old plate of whole groove that groove mechanical hand delivers to;

Old for whole groove plate captures, is transported to storage rack or peel-off device by A6, a transportation manipulator;

B, enter groove

B1, No. two transportation manipulators capture storage rack or peel-off device without the whole groove of the new plate of manganese;

New for whole groove plate is transported to negative plate input unit by B2, No. two transportation manipulators;

The new plate that No. two transportation manipulators are delivered to is transported to an overhead traveling crane by B3, negative plate input unit;

B4, enter the new plate of whole groove that negative plate input unit delivers to by groove mechanical hand and capture;

B5, enter groove mechanical hand and new for whole groove plate is transported to heavy metal and cuts down the water glass drill traverse liquid of mobile platform;

B6, enter groove mechanical hand whole for the new plate in water glass groove groove is proposed;

B7, enter groove mechanical hand new for whole groove plate is transported to vacant electrolyzer and inserts electrolyzer.

Compared with prior art, the utility model has following beneficial effect:

1. of the present utility model go out groove mechanical hand with enter groove mechanical hand complete out separately separately groove with enter groove function, cooperatively interact, to control electrolyzer the vacant time with all favourable to whole electrolysis process flow process.

2. the utility model adopts stepped start-stop system chain conveyor, continuable by old plate output or new plate input, completes to ensure out groove mechanical hand or to enter groove mechanical hand continuous print groove function of coming in and going out.And avoid day vehicle-mounted running negative plate operating mode round at a high speed, therefore safer, reliable.

3. negative plate take-off equipment and negative plate input unit are placed on the ground by the utility model, are conducive to safeguarding, and cost lower, take up room little.

3. in the utility model, heavy metal is cut down mobile platform and be arranged in ground, be conducive to the maintenance of apparatus body, be also conducive to collection and the emergency disposal of waste liquid.

4. mechanize discrepancy tank systems of the present utility model is equipped with PLC control system, improves its automatization efficiency.

Accompanying drawing explanation

The utility model has 4, accompanying drawing, wherein:

Fig. 1 is structural representation of the present utility model.

Fig. 2 is negative plate take-off equipment structural representation.

Fig. 3 is that heavy metal cuts down mobile platform schematic diagram.

Fig. 4 is case study on implementation discrepancy groove precedence diagram.

In figure: 1, an overhead traveling crane, 2, go out groove mechanical hand, 3, enter groove mechanical hand, 4, heavy metal cuts down mobile platform, 5, guide rail, 6, negative plate take-off equipment, 7, negative plate input unit, 8, No. two overhead traveling cranes, 9, a transportation manipulator, 10, No. two transportation manipulators, 11, electrolyzer, 12, whole groove negative plate, 13, track girder, 14, peel-off device, 15, storage rack, 41, platform, 42, wheel, 43, baffle plate, 44, deactivation slot, 45, water glass groove, 46, fast quick change liquid joint, 61, ittransfer gantry, 62, conveyor chain, 63, chain rail, 64, roller.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described further.As Figure 1-3, a kind of electrolytic manganese negative plate mechanize discrepancy tank systems, comprises an overhead traveling crane 1, goes out groove mechanical hand 2, enters groove mechanical hand 3, heavy metal cuts down mobile platform 4, guide rail 5, negative plate take-off equipment 6, negative plate input unit 7, No. two overhead traveling cranes 8, transportation manipulator 9, No. two transportation manipulators 10, electrolyzer 11, whole groove negative plate 12, track girder 13, peel-off device 14 and storage rack 15.

Described track girder 13 is arranged on the column in workshop, electrolyzer 11 both sides, and a described overhead traveling crane 1 is arranged on the track girder 13 of both sides above electrolyzer 11, can along track girder 13 longitudinal translation; Described go out groove mechanical hand 2 and enter groove mechanical hand 3 respectively on the parallel girder being installed on an overhead traveling crane 1, going out groove mechanical hand 2 and enter groove mechanical hand 3 can respectively along the girder direction translation of an overhead traveling crane 1; Described guide rail 5, negative plate take-off equipment 6 and negative plate input unit 7 are arranged on the ground of side of electrolyzer 11 from inside to outside successively, the longitudinal axis of guide rail 5, negative plate take-off equipment 6 and negative plate input unit 7 respectively with the longitudinal axis parallel of electrolyzer 11; Described heavy metal is cut down mobile platform 4 and is arranged on guide rail 5, can along guide rail 5 translation; Described heavy metal is cut down on mobile platform 4 and is arranged a deactivation slot and a water glass groove respectively; No. two described overhead traveling cranes 8 are also arranged on the track girder 13 of both sides above electrolyzer 11, can along workshop longitudinal translation; A described transportation manipulator 9 and No. two transportation manipulators 10 are respectively on the parallel girder being installed on No. two overhead traveling cranes 8, and a transportation manipulator 9 and No. two transportation manipulators 10 can respectively along the girder direction translations of No. two overhead traveling cranes 8; The rear side ground of electrolyzer 11 is furnished with storage rack 15, in order to deposit band manganese or the whole groove negative plate 12 without manganese temporarily; The rear side ground of storage rack 15 is provided with peel-off device 14, in order to be stripped down by the manganese sheet on negative plate.

Described heavy metal is cut down mobile platform 4 and is comprised platform 41, wheel 42, baffle plate 43, deactivation slot 44, water glass groove 45 and fast quick change liquid joint 46, and wheel 42 is arranged on platform 41 bottom, can along track translation; Deactivation slot 44 and water glass groove 45 are placed on platform 41 top, hold passivating solution and water glass liquid respectively, go out groove or enter the pre-treatment before groove to have assisted negative plate; Deactivation slot 44, Relative sliding between water glass groove 45 and platform 41 when baffle plate 43 runs to stop is provided with around platform 41; Fast quick change liquid joint 46 is provided with, to change the waste liquid of heavy metal bottom deactivation slot 44 and water glass groove 45; Deactivation slot 44 and water glass groove 45 can both can be placed by parallel orbit on platform 41, also can place by vertical track;

Described negative plate take-off equipment 6 comprises ittransfer gantry 61, conveyor chain 62, chain rail 63 and roller 64, and ittransfer gantry 61 fixes on the ground, is bilayer structure form; Ittransfer gantry 61 bilayer is all provided with chain rail 63, and chain rail 63 top is provided with groove; Conveyor chain 62 both sides are provided with roller 64, and the top of conveyor chain 62 is provided with draw-in groove; Conveyor chain 62 is arranged on chain rail 63 top, and upper strata chain rail 63 is for removing journey chain rail 63, and lower floor's chain rail 63 is return chain rail 63; The roller 64 of conveyor chain 62 bilateral is just in time pressed in the groove of chain rail 63, to ensure the smooth running of conveyor chain 62; Whole groove negative plate 12 is placed in the draw-in groove of conveyor chain 62, along with the operation of conveyor chain 62, is fed forward by whole groove negative plate 12;

Described negative plate take-off equipment 6 is identical with the structure formation of negative plate input unit 7, and just traffic direction is contrary.

Deactivation slot 44 described in the utility model is parallel to track with water glass groove 45 and places or place perpendicular to track on platform 41.

Concrete implementation step of the present utility model is as follows:

The utility model is mainly and solves going out groove and entering groove of negative plate in the technical process of electrolytic manganese industry.According to existing electrolysis process, for saving working time, electrolyzer 11 being carried out coming and going numbering according to horizontal four row, specifically as shown in Figure 4, namely drafting groove of coming in and going out sequentially as follows: D1 → D2 → D3 → D4 → D5 → D6 → D7 → D8 → D9 ... Dn.Detailed step decomposes as follows:

[S1] No. two transportation manipulators 10 are by storage rack 15 or peel-off device 14 is ready captures without the whole groove of the new plate of manganese;

New for whole groove plate is placed on negative plate input unit 7 by [S2] No. two transportation manipulators 10;

[S3] negative plate input unit 7 stepping one grade forward, distance is N1;

[S4] repeats above-mentioned steps [S1] to [S3], is equally spacedly successively placed on negative plate input unit 7 by whole for new plate groove; And be transported to electrolysis zone, until the new plate of the first groove moves to overhead traveling crane 1 position;

[S5] enters the new plate crawl of whole groove that negative plate input unit 7 is delivered to by groove mechanical hand 3;

[S6] negative plate input unit 7 stepping one grade forward, distance is N1;

[S7] enters groove mechanical hand 3 and new for whole groove plate is transported to the water glass drill traverse liquid that heavy metal cuts down mobile platform 4; Meanwhile, go out groove mechanical hand 2 move to go out groove in advance electrolyzer D1 directly in place;

[S8] enters groove mechanical hand 3 and is proposed by whole for the new plate of water glass groove groove; Meanwhile, go out groove mechanical hand 2 the whole groove of the old plate of manganese that has of ground electrolyzer D1 is proposed;

[S9] enters groove mechanical hand 3 and is transported toward vacant electrolyzer D1 by new for whole groove plate; Meanwhile, go out groove mechanical hand 2 and transported toward deactivation slot by old for whole groove plate, two mechanical manipulators carry out translation, give another the right of way;

[S10] enters groove mechanical hand 3 and is carried out into groove at empty electrolyzer D1 by new for whole groove plate; Meanwhile, go out groove mechanical hand 2 and old for whole groove plate is carried out passivation at deactivation slot, propose from deactivation slot after completing;

[S11] enters groove mechanical hand 3 zero load and returns negative plate input unit 7; Meanwhile, go out groove mechanical hand 2 and the old plate of whole groove complete for passivation is placed on negative plate take-off equipment 6, and zero load returns;

[S12] negative plate take-off equipment 6 stepping one grade forward, distance is N1; Meanwhile, entering groove mechanical hand 3 zero load, to return negative plate input unit 7 in place, goes out groove mechanical hand 2 zero load and return directly over next electrolyzer D2 going out groove in advance in place;

After [S13] completes the negative plate discrepancy groove work of electrolyzer D2, D3, D4 successively according to above-mentioned steps [S1] to [S12], the heavy metal of the overhead traveling crane 1 and ground that are loaded with out groove mechanical hand 2 and enter groove mechanical hand 3 is cut down mobile platform 4 and is moved forward one grade, and distance is the width between centers N2 of two row electrolyzers 11;

[S14] negative plate take-off equipment 6 stepping one grade forward, distance is N2; Meanwhile, negative plate input unit 7 to backstepping one grade, distance N2;

After [S15] completes the negative plate discrepancy groove work of electrolyzer D5, D6, D7, D8 successively according to above-mentioned steps [S1] to [S12], the heavy metal of the overhead traveling crane 1 and ground that are loaded with out groove mechanical hand 2 and enter groove mechanical hand 3 is cut down mobile platform 4 and is moved forward one grade, and distance is the width between centers N2 of two row electrolyzers 11;

[S16] negative plate take-off equipment 6 stepping one grade forward, distance is N2; Meanwhile, negative plate input unit 7 to backstepping one grade, distance N2;

[S17] negative plate take-off equipment 6 is transported to back zone by equally spaced for old plate, until the first groove negative plate moves to No. two position of manipulator;

Whole for the old plate that negative plate take-off equipment 6 is sent here groove is captured transhipment, is placed on storage rack 15 or peel-off device 14 by [S18] transportation manipulator 9; Meanwhile, No. two transportation manipulators 10 capture the new plate transhipment of a groove from storage rack 15 or peel-off device 14, are placed on negative plate input unit 7;

[S19] negative plate take-off equipment 6 moves forward one grade, and spacing is N1; Meanwhile, negative plate input unit 7 moves forward one grade, and spacing is N1;

Electrolyzer D9 is completed successively to [S19] according to above-mentioned steps [S1] ... the negative plate discrepancy groove work of Dn, until all electrolyzers 11 of electrolysis zone complete.

Claims (2)

1. an electrolytic manganese negative plate mechanize discrepancy tank systems, is characterized in that: comprise an overhead traveling crane (1), go out groove mechanical hand (2), enter groove mechanical hand (3), heavy metal cuts down mobile platform (4), guide rail (5), negative plate take-off equipment (6), negative plate input unit (7), No. two overhead traveling cranes (8), a transportation manipulator (9), No. two transportation manipulators (10), electrolyzer (11), whole groove negative plate (12), track girder (13), peel-off device (14) and storage racks (15);

Described track girder (13) is arranged on the column in electrolyzer (11) workshop, both sides, a described overhead traveling crane (1) is arranged on the track girder (13) of both sides, electrolyzer (11) top, can along track girder (13) longitudinal translation; Described go out groove mechanical hand (2) and enter groove mechanical hand (3) respectively on the parallel girder being installed on an overhead traveling crane (1), going out groove mechanical hand (2) and enter groove mechanical hand (3) can respectively along the girder direction translation of an overhead traveling crane (1); Described guide rail (5), negative plate take-off equipment (6) and negative plate input unit (7) are arranged on the ground of the side of electrolyzer (11) from inside to outside successively, the longitudinal axis of guide rail (5), negative plate take-off equipment (6) and negative plate input unit (7) respectively with the longitudinal axis parallel of electrolyzer (11); Described heavy metal is cut down mobile platform (4) and is arranged on guide rail (5), can along guide rail (5) translation; Described heavy metal is cut down on mobile platform (4) and is arranged a deactivation slot and a water glass groove respectively; No. two described overhead traveling cranes (8) are also arranged on the track girder (13) of both sides, electrolyzer (11) top, can along workshop longitudinal translation; A described transportation manipulator (9) and No. two transportation manipulators (10) are respectively on the parallel girder being installed on No. two overhead traveling cranes (8), and a transportation manipulator (9) can respectively along the girder direction translation of No. two overhead traveling cranes (8) with No. two transportation manipulators (10); The rear side ground of electrolyzer (11) is furnished with storage rack (15), in order to deposit band manganese or the whole groove negative plate (12) without manganese temporarily; The rear side ground of storage rack (15) is provided with peel-off device (14), in order to be stripped down by the manganese sheet on negative plate;

Described heavy metal is cut down mobile platform (4) and is comprised platform (41), wheel (42), baffle plate (43), deactivation slot (44), water glass groove (45) and fast quick change liquid joint (46), wheel (42) is arranged on platform (41) bottom, can along track translation; Deactivation slot (44) and water glass groove (45) are placed on platform (41) top, hold passivating solution and water glass liquid respectively, go out groove or enter the pre-treatment before groove to have assisted negative plate; Deactivation slot (44) when platform (41) is around provided with baffle plate (43) to stop operation, Relative sliding between water glass groove (45) and platform (41); Deactivation slot (44) is provided with fast quick change liquid joint (46), to change the waste liquid of heavy metal with water glass groove (45) bottom; Deactivation slot (44) and water glass groove (45) can both can be placed by parallel orbit on platform (41), also can place by vertical track;

Described negative plate take-off equipment (6) comprises ittransfer gantry (61), conveyor chain (62), chain rail (63) and roller (64), ittransfer gantry (61) fixes on the ground, is bilayer structure form; Ittransfer gantry (61) bilayer is all provided with chain rail (63), and chain rail (63) top is provided with groove; Conveyor chain (62) both sides are provided with roller (64), and the top of conveyor chain (62) is provided with draw-in groove; Conveyor chain (62) is arranged on chain rail (63) top, and upper strata chain rail (63) is for removing journey chain rail (63), and lower floor's chain rail (63) is return chain rail (63); The roller (64) of conveyor chain (62) bilateral is just in time pressed in the groove of chain rail (63), to ensure the smooth running of conveyor chain (62); Whole groove negative plate (12) is placed in the draw-in groove of conveyor chain (62), along with the operation of conveyor chain (62), whole groove negative plate (12) is fed forward;

Described negative plate take-off equipment (6) is identical with the structure formation of negative plate input unit (7), and just traffic direction is contrary.

2. a kind of electrolytic manganese negative plate mechanize discrepancy tank systems according to claim 1, is characterized in that: described deactivation slot (44) and water glass groove (45) are parallel to track and place or place perpendicular to track on platform (41).