CN203855668U - Anode structure used for electrolytic manganese - Google Patents
Anode structure used for electrolytic manganese Download PDFInfo
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- CN203855668U CN203855668U CN201420014733.6U CN201420014733U CN203855668U CN 203855668 U CN203855668 U CN 203855668U CN 201420014733 U CN201420014733 U CN 201420014733U CN 203855668 U CN203855668 U CN 203855668U
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- electrolytic manganese
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- anode posts
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Abstract
The utility model relates to manganese electrolytic equipment and in particular relates to an anode used for electrolytic manganese and aiming to overcome the defects that current traditional platy anodes have short service lives and poorer corrosion resistance. The utility model provides an anode structure used for electrolytic manganese. The anode structure comprises a conducting bar and anode columns, wherein the conducting bar is formed by wrapping a copper bar with a conducting shell; the anode columns are columnar and connected onto the conducting shell of the conducting bar; protective jackets are also arranged at one ends, connected with the conducting shell, of the anode columns; the anode columns are sleeved with the protective jackets. The anode structure has the beneficial effects that traditional porous anode plates are replaced by the anode columns in a columnar structure and the protective jackets are arranged on the anode columns, thus improving the electrolytic manganese production efficiency; the problems of corrosion and plate breakage caused by corrosion are thoroughly solved, so that the service lives of lead alloy anode plates for electrolytic manganese used in high fluorine and chlorine electrolyte are prolonged from 2-5 months to 20-26 months.
Description
Technical field
The present invention relates to electrolytic manganese equipment, be specifically related to a kind of anode construction for electrolytic manganese.
Background technology
At present, in traditional electrolytic manganese production, electrolytic manganese is all to use by the alloy lead anode pole plate of current conducting rod, perforate to form with anode.The plate of perforate is first cast as plate and is then rolled into thin plate punching and forms, this positive plate, and thickness is generally 8 millimeters, relatively book, work-ing life is short, and traditional plate-shaped anode work-ing life was at 18-24 month; Surface-area is large, and current density low (generally 600-700 ampere/every square metre), is easy to produce anode slag when electrolytic manganese, wasted resource, has affected the output of electrolytic efficiency and manganese, has increased the workload of cleaning anode slag.In addition, along with the exhaustion of domestic interior ground manganese resource, in recent years use in a large number the manganese ore in Imported Manganese Ore and Xinjiang, these manganese ore raw materials self are with more fluorine chlorine component, these fluorine chlorine components are difficult to remove before electrolysis, entering in electrolytic solution in the time of electrolysis fluorine chlorion loses electronics at anode and forms fluorine, chlorine and hydrochloric acid and react with lead, accelerate the corrosion of anode, especially especially obvious in this corrosion in three phase boundary position of anode and electrolytic solution, air, positive plate is etched into many pittings and groove in this position, finally causes positive plate fracture failure.The work-ing life of the conventional anode plate using in high fluorine chlorine electrolytic solution was at 2-5 month.
Summary of the invention
The present invention is that the work-ing life in order to overcome current conventional platy anode is not long, the problem that preservative property are poor, the Novel anode structure that provides a kind of electrolytic manganese to use.
The solution of the present invention is; a kind of anode construction for electrolytic manganese; comprise current conducting rod; current conducting rod is that the coated copper bar of conductive shell forms; also comprise anode posts, anode posts is column, is connected on the conductive shell of current conducting rod; also be provided with protective sleeve in the anode posts one end being connected with conductive shell, protective sleeve is enclosed within anode posts.The present invention adopts the anode posts of columnar structure to substitute traditional porous anode plate, and the same anode posts of material and the contact area rate conventional anode plate of electrolytic solution are less, are conducive to improve the current density of electrolysis, reduce the generation of anode slag, have improved electrolytic manganese output.Current conducting rod is that the coated copper bar of lead alloy housing forms.Adopt the structure of the coated copper bar of lead alloy housing, conductivity loss is little, and save energy ensures that electrolysis is stable simultaneously.One end cover being connected with current conducting rod in anode posts has protective sleeve, stops electrolytic solution in air, anode posts, electrolytic solution three intersection interface place corrosion anode posts, has greatly reduced the speed that is corroded of anode posts, the work-ing life of having improved anode.
Another preferred version is, described protective sleeve adopts flexible boot, and flexible boot is easy to use, and can be enclosed within tightly in anode posts, effectively anode posts and air and electrolytic solution isolated, and reaches better preservative effect.
Another preferred version is, described flexible sleeve is thermal shrinkable casing pipe, and thermal shrinkable casing pipe is enclosed within anode posts.Sheath shrinkable sleeve tube material is macromolecular material, packages length is as the criterion can cover perishable position completely and not affect electrolysis, wrap up after thermal shrinkable casing pipe, the position that meets boundary with electrolytic solution and air mixed in anode posts is wrapped up, stop anode posts corrosion, greatly improved the work-ing life of anode, be 36-48 month general work-ing life, and the work-ing life using in high fluorine chlorine electrolytic solution is also up to 20-26 month.And thermal shrinkable casing pipe has good temperature applicable range, in anode posts electrolytic process, after heating, thermal shrinkable casing pipe can be enclosed within anode posts tightly, plays a very good protection.
Another preferred version is; the cross section of anode posts is circular; be that anode posts is right cylinder; be arranged to right cylinder; protective sleeve can more easily be installed, and more easily sealing between protective sleeve and anode posts, and right cylinder can reduce specific surface area simultaneously; thereby electrolytic current density increases (current density can bring up to 900-1100 ampere/every square metre), improve electrolytic efficiency.
Another preferred version is that the cross section of anode posts is ellipse or Polygons.Anode posts is made to difform cylindricality, be conducive to reach the highest efficiency for different production environments.
Another preferred version is that described anode posts is more than two or two; Further, more than two or two anode posts can vertically be connected on current conducting rod, and anode posts is parallel to each other.
Another preferred version, also has plastic plate to connect between anode posts, on plastic plate, corresponding anode posts is provided with hole, and every anode posts is inserted in corresponding hole.Utilize plastic plate to be connected, this plastic plate jointed anode post with holes, connects with respect to metallic substance, has reduced electrodeposition surface-area, increases current density, improves electrolytic efficiency, also can save 2/3rds material cost simultaneously.
Another preferred version is between anode posts, to also have connecting strip to connect.Between anode posts, be provided with connecting strip and connect, can antianode between distance position, strengthen the steadiness of anode posts simultaneously.
Another preferred version is that described connecting strip is connected to India-rubber strip or plastic strip binding; Or for metal strip is welded to connect.
Another preferred version is that anode posts and current conducting rod are for being welded to connect.
Another preferred version is that current conducting rod is that the coated copper bar of lead alloy housing forms.Adopt the structure of the coated copper bar of lead alloy housing, conductivity loss is little, and save energy ensures that electrolysis is stable simultaneously.
Another preferred version is that anode posts is lead alloy material.Anode posts also adopts the lead alloy material identical with current conducting rod housing, like this, can adopt welding process that anode posts is connected with current conducting rod, and same material is more easily welded, and stable connection.
The present invention makes the positive plate of original flat-plate pore-opening into anode posts, the fence profile being formed by columnar structure, and utilize perforated plastic plate to connect many anode posts, in the situation that weight is identical, increase (thickness is increased to 15 millimeters by 8 millimeters) than the plate gauge of plate with opening, shadow area reduces.Gauge is increased under the condition that corrosion speed is certain, improves anode life (when anode thickness is reduced to 4 millimeters, anode is scrapped); Shadow area reduces; anode posts surface-area reduces; electrolytic current density increases; reduce the oxidation of mn ion; reduce anode slag (anode slag reduces 50%); improve electrolytic manganese output (output improves 1-3%); near anode posts protective sleeve parcel anode posts, air, electrolytic solution three phase boundary; completely cut off fluorine chlorine contacting of position and anode posts therewith; the disconnected plate that has thoroughly solved corrosion herein and caused thus, makes bring up to 20-26 by 2-5 month the work-ing life of the electrolytic manganese alloy lead anode plate using in high fluorine chlorine electrolytic solution
Month.
Brief description of the drawings
Fig. 1 is structural representation of the present invention.
Fig. 2 is that the C of Fig. 1 is to view.
Fig. 3 is the cross-sectional structure enlarged diagram of an anode posts in A point position.
Embodiment
Below in conjunction with specific embodiment, the present invention is further illustrated, but protection scope of the present invention is not limited in these embodiment.
As shown in Figure 1; anode construction for electrolytic manganese of the present invention; comprise current conducting rod 1; current conducting rod 1 forms for conductive shell 6 is coated copper bar 2; also comprise anode posts 4, anode posts 4 is column, is connected on the conductive shell 6 of current conducting rod 1; also be provided with protective sleeve 3 in anode posts 4 one end that are connected with conductive shell 6, protective sleeve 3 is enclosed within anode posts 4.The present embodiment anode posts 4 and conductive shell 6 are for being welded to connect.
The sleeve pipe 3 of the present embodiment is thermal shrinkable casing pipe.The flexible sleeve that as an alternative solution, also can adopt other to seal.
As depicted in figs. 1 and 2, the coated copper bar 2 of conductive shell 6 that current conducting rod 1 used is lead alloy forms;
As shown in Figure 1, the anode posts 4 of the present embodiment is lead alloy material; Be provided with thermal shrinkable casing pipe 3 in anode posts 4 one end that are connected with current conducting rod 1, thermal shrinkable casing pipe 3 is enclosed within anode posts 4.
Fig. 3 is the cross-sectional structure enlarged diagram of an anode posts in A point position, and as shown in Figure 3, the cross section of anode posts is circular, and protective sleeve 3 is enclosed within anode posts 4, and as an alternative, anode posts also can be other ellipse or Polygons.
As shown in Figure 1, the anode posts of the present embodiment is 11; Vertically be connected on current conducting rod, and anode posts is parallel to each other.Also can adopt as required the anode posts of other number.
As shown in Figure 1, between anode posts 4, also have connecting strip 5 to connect; Described connecting strip 5 adopts the lead alloy material identical with anode posts, is welded to connect with anode posts.As an alternative, also can adopt India-rubber strip or plastic strip binding.
As improvement project, between anode posts, also available plastic plate connects, and on plastic plate, corresponding anode posts is provided with hole, and every anode posts is inserted in corresponding hole, makes anode posts limited, can lateral oscillation.
After testing, the present invention is used in electrolytic manganese in high fluorine chlorine electrolytic solution, reaches 20-26 month its work-ing life, has significant advantage compared with existing electrolytic manganese anode plate.
Above-described embodiment is preferably embodiment of the present invention; but embodiments of the present invention are not restricted to the described embodiments; other any do not deviate from change, the modification done under spirit of the present invention and principle, substitutes, combination, simplify; all should be equivalent substitute mode, within being included in protection scope of the present invention.
Claims (8)
1. the anode construction for electrolytic manganese; comprise current conducting rod; current conducting rod is that the coated copper bar of conductive shell forms; it is characterized in that, also comprise anode posts, anode posts is column; be connected on the conductive shell of current conducting rod; also be provided with protective sleeve in the anode posts one end being connected with conductive shell, protective sleeve is enclosed within anode posts, and described protective sleeve is thermal shrinkable casing pipe.
2. according to claim 1 for the anode construction of electrolytic manganese, it is characterized in that, described anode posts cross section is circular.
3. according to claim 1 for the anode construction of electrolytic manganese, it is characterized in that, the cross section of anode posts is ellipse or Polygons.
4. according to claim 1 for the anode construction of electrolytic manganese, it is characterized in that, described anode posts is more than two or two, and anode posts is parallel to each other.
5. the anode construction of electrolytic manganese according to claim 4, is characterized in that, also has plastic plate to connect between anode posts, and on plastic plate, corresponding anode posts is provided with hole, and every anode posts is inserted in corresponding hole.
6. according to claim 4 for the anode construction of electrolytic manganese, it is characterized in that between anode posts, also having connecting strip to connect.
7. according to claim 6 for the anode construction of electrolytic manganese, it is characterized in that, described connecting strip is connected to India-rubber strip or plastic strip binding; Or for metal strip is welded to connect.
8. according to claim 1 for the anode construction of electrolytic manganese, it is characterized in that, anode posts and conductive shell are for being welded to connect.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420014733.6U CN203855668U (en) | 2014-01-02 | 2014-01-02 | Anode structure used for electrolytic manganese |
Applications Claiming Priority (1)
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CN201420014733.6U CN203855668U (en) | 2014-01-02 | 2014-01-02 | Anode structure used for electrolytic manganese |
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CN203855668U true CN203855668U (en) | 2014-10-01 |
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CN201420014733.6U Expired - Fee Related CN203855668U (en) | 2014-01-02 | 2014-01-02 | Anode structure used for electrolytic manganese |
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CN (1) | CN203855668U (en) |
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2014
- 2014-01-02 CN CN201420014733.6U patent/CN203855668U/en not_active Expired - Fee Related
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141001 Termination date: 20170102 |
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CF01 | Termination of patent right due to non-payment of annual fee |