CN207862453U - Electrolytic manganese metal graphite anode - Google Patents
Electrolytic manganese metal graphite anode Download PDFInfo
- Publication number
- CN207862453U CN207862453U CN201721166530.9U CN201721166530U CN207862453U CN 207862453 U CN207862453 U CN 207862453U CN 201721166530 U CN201721166530 U CN 201721166530U CN 207862453 U CN207862453 U CN 207862453U
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- Prior art keywords
- graphite
- conducting beam
- anode
- electrode
- castingin
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Abstract
A kind of electrolytic manganese metal graphite anode, it is related to a kind of electrolytic metal manganese anode, including conducting beam, conductive anode and conductive contact, conductive contact is connected to one end of conducting beam, the conductive anode is graphite electrode, which is linked together with conducting beam by castingin.The graphite electrode is grating graphite electrode, which includes the graphite bar of multiple equidistant parallel arrangements, and the top of each graphite bar is linked together with conducting beam by castingin.The graphite electrode is plate graphitic electrode, which includes graphite cake, is provided with the hollow hole of multiple equidistant regular arrays on graphite cake, and the top of graphite cake and conducting beam are linked together by castingin or inlay.The utility model has the characteristics that at low cost, environmentally protective, structure is reliable, simple processing, current efficiency are high, manganese recovery ratio, use easy to spread can be improved.
Description
Technical field
The utility model is related to a kind of electrolytic metal manganese anode, especially a kind of electrolytic manganese metal graphite anode.
Background technology
Currently, electrolytic metal manganese anode continues to use always alloy lead anode, this alloy lead anode consumes a large amount of lead, no
It is only of high cost, while also resulting in larger environmental pollution.In addition, electrolytic metal manganese anode, because of manganese ion concentration height, use is board-like
When anode, anode precipitation manganese dioxide is more, affects manganese recovery ratio, has also seriously affected current efficiency.
Invention content
The technical problems to be solved in the utility model is:A kind of electrolytic manganese metal graphite anode is provided, to solve existing skill
The problem of larger environmental pollution is caused existing for art.
Solving the technical solution of above-mentioned technical problem is:A kind of electrolytic manganese metal graphite anode, including conducting beam, conductive sun
Pole and conductive contact, conductive contact are connected to one end of conducting beam, and the conductive anode is graphite electrode, the graphite electrode
It is linked together by castingin or inlay with conducting beam.
The further technical solution of the utility model is:The graphite electrode is grating graphite electrode, the grating graphite
Electrode includes the graphite bar of multiple equidistant parallel arrangements, and the top of each graphite bar and conducting beam are connected to by castingin or inlay
Together.
The further technical solution of the utility model is:The graphite electrode is plate graphitic electrode, the plate graphitic
Electrode includes graphite cake, and the hollow hole of multiple equidistant regular arrays, the top of graphite cake and conducting beam are provided on graphite cake
It is linked together by castingin or inlay.
The further technical solution of the utility model is:The conducting beam is made of copper, aluminium, lead material.
The further technical solution of the utility model is:The conductive contact uses copper-aluminium joint.
Due to using the above structure, the electrolytic manganese metal graphite anode of the utility model compared with prior art, have with
Lower advantageous effect:
1. at low cost
Since the utility model includes conducting beam, conductive anode and conductive contact, conductive contact is connected to conducting beam
One end, the conductive anode are graphite electrode, and the graphite electrode and conducting beam are linked together by castingin or inlay.Cause
This, the utility model is to replace alloy lead anode using graphite electrode, avoids wasting the metal as non-renewable resources, at
This relatively low, use easy to spread.
2. environmentally protective
Since the utility model replaces alloy lead anode using graphite electrode, the pollution of lead heavy metal is avoided, it is greener
Colour circle is protected.
3. structure is reliable, simple processing
The utility model includes conducting beam, conductive anode and conductive contact, and conductive contact is connected to one end of conducting beam,
Wherein, conductive anode is graphite electrode, and the graphite electrode and conducting beam are by castingin or or inlay and link together.Due to conduction
Anode belongs to nonmetallic materials, and conducting beam belongs to metal material, and the utility model is to keep graphite electric by castingin or mosaic mode
Pole links together with conducting beam, and not only structure is reliable, use easy to produce, and also avoids through the complicated company such as riveting
Mode is connect, processing is easier.
4. current efficiency is high:
Since the graphite electrode and conducting beam of the utility model are linked together by castingin or inlay, which can
To reduce contact resistance, current efficiency is improved.
In addition, the graphite electrode of the utility model or be grating graphite electrode, the grating graphite electrode include it is multiple it is equal between
The top of graphite bar away from parallel arrangement, each graphite bar is linked together with conducting beam by castingin;Or be plate graphitic electrode,
The plate graphitic electrode includes graphite cake, and the hollow hole of multiple equidistant regular arrays, the top of graphite cake are provided on graphite cake
Portion is linked together with conducting beam by castingin.Therefore, the utility model is by using grating graphite electrode or on graphite cake
Hollow out can reduce anode effective area, to reduce the manganese dioxide of precipitation, improve current efficiency.
Furthermore the conducting beam of the utility model is made of copper, aluminium, lead material, and conductive contact is connect using copper aluminium
Head also can further improve current efficiency.
5. manganese recovery ratio can be improved:
Due to the utility model graphite electrode or be grating graphite electrode, the grating graphite electrode include it is multiple equidistantly
The top of the graphite bar of parallel arrangement, each graphite bar is linked together with conducting beam by castingin;Or be plate graphitic electrode, it should
Plate graphitic electrode includes graphite cake, and the hollow hole of multiple equidistant regular arrays, the top of graphite cake are provided on graphite cake
It is linked together by castingin with conducting beam.Therefore, the utility model is engraved by using grating graphite electrode or on graphite cake
Sky can reduce anode effective area, to reduce the manganese dioxide of precipitation, improve manganese recovery ratio.
In the following, in conjunction with the accompanying drawings and embodiments making the technical characteristic of the electrolytic manganese metal graphite anode of the utility model into one
The explanation of step.
Description of the drawings
Fig. 1:The structural schematic diagram of the electrolytic manganese metal graphite anode of the utility model described in embodiment one,
Fig. 2:The structural schematic diagram of the electrolytic manganese metal graphite anode of the utility model described in embodiment two.
In above-mentioned attached drawing, each the reference numerals are as follows:
1- conducting beams,
2- conductive anodes, 201- graphite bars, 202- graphite cakes, 2021- hollow holes,
3- conductive contacts.
Specific implementation mode
Embodiment one:
It is a kind of electrolytic manganese metal graphite anode, including conducting beam 1, conductive anode 2 and conductive contact disclosed in Fig. 1
3, wherein:
The conducting beam 1 is made of copper product.
The conductive anode 2 is graphite electrode, which is grating graphite electrode, and grating graphite electrode includes more
The graphite bar 201 of a equidistant parallel arrangement, top and the conducting beam 1 of each graphite bar 201 are linked together by castingin.
The conductive contact 3 uses copper-aluminium joint, the conductive contact 3 to be connected to one end end of conducting beam 1.
When the graphite bar 201 of the utility model is with 1 castingin of conducting beam, graphite bar 201 is first placed on 1 model of conducting beam
In, and cast together with conducting beam 1, it is allowed to be closely joined together.Contact resistance can be reduced by castingin mode, improves electricity
Flow efficiency.
Embodiment two:
It is another electrolytic manganese metal graphite anode disclosed in Fig. 2, including conducting beam 1, conductive anode 2 and conduction connect
First 3, wherein:
The conducting beam 1 is made of aluminum material.
The graphite electrode is plate graphitic electrode, which includes graphite cake 202, on graphite cake 202
It is provided with the hollow hole 2021 of multiple equidistant regular arrays, top and the conducting beam 1 of graphite cake 202 are connected to one by castingin
It rises.
The conductive contact 3 uses copper-aluminium joint, the conductive contact 3 to be connected to one end end of conducting beam 1.
When the graphite cake 202 of the utility model is with 1 castingin of conducting beam, graphite cake 202 is first placed on 1 model of conducting beam
In, and cast together with conducting beam 1, it is allowed to be closely joined together.Contact resistance can be reduced by castingin mode, improves electricity
Flow efficiency.
As a kind of transformation of above-described embodiment one, it can also be and pass through between the top and conducting beam 1 of each graphite bar 201
Mosaic mode links together.
As a kind of transformation of above-described embodiment two, it can also be between the top and conducting beam 1 of graphite cake 202 and pass through edge
Embedding mode links together.
As another transformation of above-described embodiment one to embodiment two, copper, aluminium, lead may be used in the conducting beam 1
Material is made.
Claims (5)
1. a kind of electrolytic manganese metal graphite anode, including conducting beam(1), conductive anode(2)And conductive contact(3), conduction connects
Head(3)It is connected to conducting beam(1)One end, it is characterised in that:The conductive anode(2)For graphite electrode, the graphite electrode
With conducting beam(1)It is linked together by castingin or inlay.
2. electrolytic manganese metal graphite anode according to claim 1, it is characterised in that:The graphite electrode is grating stone
Electrode ink, the grating graphite electrode include the graphite bar of multiple equidistant parallel arrangements(201), each graphite bar(201)Top
With conducting beam(1)It is linked together by castingin or inlay.
3. electrolytic manganese metal graphite anode according to claim 1, it is characterised in that:The graphite electrode is board-like stone
Electrode ink, which includes graphite cake(202), graphite cake(202)On be provided with multiple equidistant regular arrays
Hollow hole(2021), graphite cake(202)Top and conducting beam linked together by castingin or inlay.
4. electrolytic manganese metal graphite anode according to claim 1, it is characterised in that:The conducting beam(1)Using copper,
Aluminium, lead material are made.
5. electrolytic manganese metal graphite anode according to claim 1 or 2 or 3 or 4, it is characterised in that:The conduction connects
Head(3)Using copper-aluminium joint.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721166530.9U CN207862453U (en) | 2017-09-08 | 2017-09-08 | Electrolytic manganese metal graphite anode |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721166530.9U CN207862453U (en) | 2017-09-08 | 2017-09-08 | Electrolytic manganese metal graphite anode |
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CN207862453U true CN207862453U (en) | 2018-09-14 |
Family
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CN201721166530.9U Expired - Fee Related CN207862453U (en) | 2017-09-08 | 2017-09-08 | Electrolytic manganese metal graphite anode |
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CN (1) | CN207862453U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110938841A (en) * | 2019-12-19 | 2020-03-31 | 新邵辰州锑业有限责任公司 | Novel plate-shaped graphite anode |
-
2017
- 2017-09-08 CN CN201721166530.9U patent/CN207862453U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110938841A (en) * | 2019-12-19 | 2020-03-31 | 新邵辰州锑业有限责任公司 | Novel plate-shaped graphite anode |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180914 Termination date: 20190908 |