CN215628357U - High-strength energy-saving cathode plate for electrolytic manganese - Google Patents
High-strength energy-saving cathode plate for electrolytic manganese Download PDFInfo
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- CN215628357U CN215628357U CN202120683968.4U CN202120683968U CN215628357U CN 215628357 U CN215628357 U CN 215628357U CN 202120683968 U CN202120683968 U CN 202120683968U CN 215628357 U CN215628357 U CN 215628357U
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Abstract
The utility model discloses a high-strength energy-saving cathode plate for electrolytic manganese, which comprises a pole plate and a conducting rod connected with one side of the pole plate, wherein the conducting rod comprises a metal sleeve as an anticorrosive layer, a conducting copper core arranged in the metal sleeve and with one end extending out, and an alloy steel core rod arranged in the conducting copper core with the extending out end and extending into the metal sleeve, and a handle is arranged on the conducting rod. The conductive rod compounded by the metal sleeve, the conductive copper core and the alloy steel core rod has the advantages of high strength, bending resistance, corrosion resistance, maintenance-free performance and super-good conductivity, can bear a good conductive effect like pure copper, has the strength of steel, greatly saves the material cost, practically overcomes the defect that the contact part of a cathode plate and a mother copper bar is easy to deform, prolongs the service life of the polar plate, and can greatly reduce the cost for an electrolytic manganese enterprise.
Description
Technical Field
The utility model belongs to a negative plate, and particularly relates to a high-strength energy-saving negative plate for electrolytic manganese.
Background
The traditional electrolytic manganese cathode plate is generally formed by connecting a conductive copper core or two copper bars serving as conductive rods with a pole plate. In the production process, because the conductive part of the conductive copper core in contact with the mother copper bar of the electrolytic cell is impacted and abraded, and the copper material is soft, the size of the copper material has to be increased to achieve certain strength, so that the using amount of the copper material is greatly increased, the copper material belongs to precious metal, the manufacturing cost of the product is greatly increased, and the copper resource is wasted. But even so, in the use, still can cause the bending and the deformation of electrically conductive copper core and female copper bar contact site, serious influence the electric conductive property of negative plate, excessive bending deformation can directly lead to scrapping of polar plate. Not only causes the serious loss of the electricity consumption, but also reduces the yield, increases the endless maintenance workload while reducing the service life, and continuously increases the production cost of enterprises.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a high-strength energy-saving cathode plate for electrolytic manganese, which is difficult to deform and is provided with a conducting rod.
The technical scheme adopted for realizing the purpose of the utility model is as follows:
the utility model provides a high-strength energy-saving cathode plate for electrolyzing manganese, which comprises a pole plate and a conductive rod connected with one side of the pole plate, wherein the conductive rod comprises a metal sleeve as an anticorrosive layer, a conductive copper core arranged in the metal sleeve and with one end extending out, and an alloy steel core rod arranged in the conductive copper core with the extending out end and extending into the metal sleeve, and a handle is arranged on the conductive rod.
The bottom of the metal sleeve is a closed end.
And reinforcing sheets are arranged on two surfaces of one side of the polar plate connected with the conducting rod.
The handle comprises two support rods connected with the metal sleeves of the conducting rods and a cross rod connected with the two support rods.
The metal sleeve, the pole plate, the alloy steel core rod and the reinforcing sheet are all made of stainless steel.
The pole plate and the reinforcing sheet, the conducting rod, the pole plate and the reinforcing sheet, the supporting rod and the metal sleeve and the cross rod and the supporting rod are connected in a welding mode.
The cross section of the conductive copper core is rectangular.
Advantageous effects
The conductive rod compounded by the metal sleeve, the conductive copper core and the alloy steel core rod has the advantages of high strength, bending resistance, corrosion resistance, maintenance-free performance and super-good conductivity, can bear a good conductive effect like pure copper, has the strength of steel, greatly saves the material cost, practically overcomes the defect that the contact part of a cathode plate and a mother copper bar is easy to deform, prolongs the service life of the polar plate, and can greatly reduce the cost for an electrolytic manganese enterprise.
The technical scheme of the utility model is further explained by combining the attached drawings.
Drawings
Fig. 1 is a front view of the present invention.
Fig. 2 is a left side view of the present invention.
Detailed Description
Referring to fig. 1 and 2, the high-strength energy-saving cathode plate for electrolyzing manganese provided by the utility model comprises a pole plate 1 and a conductive rod 3 connected with one side of the pole plate 1, wherein the conductive rod 3 comprises a metal sleeve 301 serving as an anticorrosive layer, a conductive copper core 302 arranged in the metal sleeve 301 and with one end extending out, and an alloy steel core rod 303 arranged in the conductive copper core 302 with the extending out end and extending into the metal sleeve 301, and a handle 4 is arranged on the conductive rod 3; the bottom 304 of the metal sleeve 301 is a closed end, and the copper rod 302 is arranged at the open end 305 of the metal sleeve 301; the conductive copper core 302 is rectangular in cross-section.
Furthermore, reinforcing pieces 2 are arranged on two surfaces of one side of the polar plate 1 connected with the conducting rod 3; the handle 4 comprises two support rods 401 connected with the metal sleeve 301 of the conducting rod 3 and a cross rod 402 connected with the two support rods 401; the metal sleeve 301, the pole plate 1, the alloy steel core rod 303 and the reinforcing sheet 2 are all made of stainless steel; the pole plate 1 and the reinforcing sheet 2, the conducting rod 3, the pole plate 1 and the reinforcing sheet 2, the support rod 401, the metal sleeve 301 and the cross rod 402 are connected in a welding mode.
When the electrolytic cell is used, the conductive copper core 302 is used for being in contact with a mother copper bar of the electrolytic cell, the metal sleeve 301 can protect the conductive copper core 302 inside from being corroded, the alloy steel core rod 303 can improve the strength of the conductive copper core 302 and enable the conductive copper core 302 not to be prone to deformation, particularly the problem that the conductive copper core 302 is prone to deformation at the opening end 305 of the metal sleeve 301 is solved well, good contact between the conductive copper core 302 and the mother copper bar can be guaranteed, and further the conductive performance of a cathode plate is not affected.
Claims (7)
1. The high-strength energy-saving cathode plate for electrolyzing manganese comprises a pole plate and a conducting rod connected with one side of the pole plate, and is characterized in that the conducting rod comprises a metal sleeve as an anticorrosive layer, a conducting copper core arranged in the metal sleeve and with one end extending out, and an alloy steel core rod arranged in the conducting copper core with the extending out end and extending into the metal sleeve, wherein a handle is arranged on the conducting rod.
2. The high-strength energy-saving cathode plate for electrolyzing manganese according to claim 1, characterized in that the bottom of the metal sleeve is a closed end.
3. The high-strength energy-saving cathode plate for electrolyzing manganese as claimed in claim 2, wherein the reinforcing pieces are provided on both sides of one side of the cathode plate connected with the conductive rod.
4. The high-strength energy-saving cathode plate for electrolyzing manganese according to claim 3, characterized in that the handle comprises two support rods connected with the metal sleeves of the conducting rods and a cross rod connected with the two support rods.
5. The high-strength energy-saving cathode plate for electrolyzing manganese according to claim 4, characterized in that the metal sleeve, the pole plate, the alloy steel core rod and the reinforcing sheet are all made of stainless steel.
6. The high-strength energy-saving cathode plate for electrolyzing manganese according to claim 5, characterized in that the pole plate and the reinforcing plate, the conducting rod and the pole plate and the reinforcing plate, the supporting rod and the metal sleeve, and the cross rod and the supporting rod are connected by welding.
7. The high-strength energy-saving cathode plate for electrolyzing manganese according to claim 6, characterized in that the cross section of the conductive copper core is rectangular.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120683968.4U CN215628357U (en) | 2021-04-05 | 2021-04-05 | High-strength energy-saving cathode plate for electrolytic manganese |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120683968.4U CN215628357U (en) | 2021-04-05 | 2021-04-05 | High-strength energy-saving cathode plate for electrolytic manganese |
Publications (1)
Publication Number | Publication Date |
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CN215628357U true CN215628357U (en) | 2022-01-25 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202120683968.4U Active CN215628357U (en) | 2021-04-05 | 2021-04-05 | High-strength energy-saving cathode plate for electrolytic manganese |
Country Status (1)
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CN (1) | CN215628357U (en) |
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2021
- 2021-04-05 CN CN202120683968.4U patent/CN215628357U/en active Active
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