CN204211841U - Embossing leveling strengthens the electrolytic pole board of rigidity - Google Patents
Embossing leveling strengthens the electrolytic pole board of rigidity Download PDFInfo
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- CN204211841U CN204211841U CN201420543688.3U CN201420543688U CN204211841U CN 204211841 U CN204211841 U CN 204211841U CN 201420543688 U CN201420543688 U CN 201420543688U CN 204211841 U CN204211841 U CN 204211841U
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- embossing
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Abstract
The utility model relates to the electrolytic pole board that a kind of embossing leveling strengthens rigidity, comprise pole plate, the surface of pole plate is provided with embossing groove and forms concavoconvex pattern, improves pole plate plate face intensity and bending resistance, and the cathode-anode plate being applicable to non-ferrous metal electrolytic refining or electrodeposition extraction field makes.Embossing groove forms M shape structure by many horizontal embossing grooves and oblique embossing groove, pole plate is formed by the bulge-structure that forms of triangle convex and lower triangle convex.The beneficial effects of the utility model are: for dissimilar pole plate, the enhancing striped of design different size, shape, increase the bending resistant section modulus of pole plate, pole plate rigidity is significantly strengthened, eliminate internal stress simultaneously, reach the object improving pole plate plate face planeness, reduce bending deformation quantity, strengthen pole plate bending resistance, avoid the short circuit phenomenon of anode and cathode in electrolytic process, the power consumption of electrolysis or electroplating process is effectively reduced, improve cathode product quality, reduce manual work intensity, enhance productivity.
Description
Technical field
The utility model relates to electrolysis, electrodeposition or field of electroplating, particularly relates to the electrolytic pole board that a kind of embossing leveling strengthens rigidity.
Background technology
At present in electrolysis, electrodeposition field, the permanent cathode-anode plate base material material used is stainless steel, titanium, aluminium, lead alloy etc., and its shape is rectangle substantially, and plate face thickness is 0.2-15mm.In order to reduce pole plate manufacturing cost, people reduce electrode thickness as far as possible, to reduce Master Cost, thus cause pole plate easily to produce distortion.Meanwhile, in actual production, in order to improve industrial scale, its plate dimensions increases gradually, and the pole plate physical dimension that current most enterprise uses all reaches more than 1000mm, due to the increase of polar plate area, pole plate practical distortion amount is increased.In addition, in electrolysis production process, due to effect and the electrolytic deposit stress of electromagnetic field, pole plate is made easily to produce secondary stress distortion.Due to anode and cathode distortion in actual production process, anode and cathode short circuit scene in electrolytic process is increased, and the lighter causes current efficiency to reduce, and severe one then can cause electrolytic process to interrupt.In order to solve pole plate problem on deformation, current most enterprise all adopts raising electrode thickness, and to strengthen pole plate rigidity, but the method had both increased pole plate manufacturing cost, cannot thoroughly solve pole plate problem on deformation again.Therefore, in actual production, most of enterprise has to arrange more operator, in electrolytic process between anode and cathode short circuit phenomenon frequently check and process, not only increase production cost, and poor effect.
Utility model content
The purpose of this utility model is the deficiency overcoming prior art existence, and provide a kind of embossing leveling to strengthen the electrolytic pole board of rigidity, for copper, zinc, nickel, manganese, plumbous, the non-ferrous metal electrolytic refinings such as cobalt or electrodeposition extract the tender flat enhancing rigidity of anode plate cathode plate, mainly by carrying out embossing shaping to pole plate, make pole plate rigidity reinforced, eliminate part internal stress simultaneously, increase the bending resistant section modulus of pole plate, pole plate plate face planeness is improved to reach, reduce bending deformation quantity, strengthen the object of pole plate bending resistance, thus avoid the short circuit phenomenon that anode and cathode in electrolytic process causes because of distortion, the power consumption of electrolysis or electroplating process is effectively reduced, improve cathode product quality simultaneously, reduce manual work intensity, enhance productivity.
The purpose of this utility model has been come by following technical solution.This embossing leveling strengthens the electrolytic pole board of rigidity, mainly comprise pole plate, the surface of described pole plate is provided with several embossing grooves and forms concavoconvex pattern, adopt embossing technique, improve pole plate plate face intensity and bending resistance, the cathode-anode plate being applicable to non-ferrous metal electrolytic refining or electrodeposition extraction field makes.
Described embossing groove forms M shape structure by many horizontal embossing grooves and oblique embossing groove, pole plate is formed by the bulge-structure that forms of triangle convex and lower triangle convex.
Described embossing groove forms three-back-shaped or matrix pattern structure by many horizontal embossing grooves and vertical embossing groove.
Described embossing groove forms radial shape structure by many radial embossing grooves.
The frame of described pole plate is provided with multiple edge strip beading, and the reverse side protruding in compacting is provided with corresponding circular slotted eye.
The degree of depth of described embossing groove is 0.1mm to 50mm, and width is 2-20mm.
The utility model, by carrying out embossed to pole plate, increases the bending resistant section modulus of pole plate, eliminates part stress, reaches the object strengthening pole plate rigidity.Thus improve the vertical planeness of pole plate, make can keep good parallel vertical distance between anode and cathode in electrolytic process, reduce because pole plate is out of shape the short circuit phenomenon caused.Also add the actual conductive area of pole plate simultaneously, pole plate actual current density is reduced, thus reduce bath voltage, realize the target reducing power consumption.
The beneficial effects of the utility model are the yielding problem of electrolytic pole board that uses for non-ferrous metal electrolytic refining or electrodeposition field of extracting, respectively for dissimilar pole plate, design different size, difform enhancing striped, and by carrying out embossing shaping to it, increase the bending resistant section modulus of pole plate, pole plate rigidity is significantly strengthened, eliminate part internal stress simultaneously, thus reach raising pole plate plate face planeness, reduce bending deformation quantity, strengthen the object of pole plate bending resistance, with the short circuit phenomenon avoiding anode and cathode in electrolytic process to cause because of distortion, the power consumption of electrolysis or electroplating process is effectively reduced, improve cathode product quality simultaneously, reduce manual work intensity, enhance productivity.
Accompanying drawing explanation
Fig. 1 is embodiment 1 M shape structural representation of the present utility model.
Fig. 2 is the A place edge strip beading enlarged diagram of embodiment 1 of the present utility model.
Fig. 3 is the three-back-shaped structural representation of embodiment 2 of the present utility model.
Fig. 4 is embodiment 3 radiation structural representation of the present utility model.
Fig. 5 is matrix pattern structural representation of the present utility model.
Description of reference numerals: pole plate 1, embossing groove 2, upper triangle convex 3, lower triangle convex 4, edge strip beading 5, circular slotted eye 6.
Embodiment
Below in conjunction with accompanying drawing, detailed introduction is done to the utility model:
The cathode-anode plate used in the electrolytic etching of metal such as copper, zinc, nickel, manganese, lead, cobalt, electrodeposition field is at present rectangle, in electrolyting precipitation process, ion migration processes is there is between anode and cathode, even for the ease of galvanic deposit, parallel vertical between general requirement anode and cathode, and keep certain spacing.Therefore, require that cathode-anode plate has certain planeness, and not yielding.In order to strengthen pole plate rigidity, ensure its preferably vertical planeness, the utility model adopts the method for striped of suppressing different shapes, specification on pole plate, increases the bending resistant section modulus of pole plate, eliminates part stress, reach the object strengthening pole plate rigidity.The embossed shapes of pole plate is different according to pole plate material, thickness and shape, carries out different designs.Such as be coated with anode of lead dioxide for titanium, first before plating plumbic oxide, meshed polar plate is carried out the shape embossings such as " rice " font, " returning " font, sphere of movements for the elephants shape, radiation, then titanium edges of boards frame is carried out " erecting " bar shaped embossing, then weld; And for lead anode, then adopting the method for direct embossing to carry out embossing enhancing, embossed shapes is sphere of movements for the elephants shape, " returning " font, " rice " font, radiation, vertical bar shape or horizontal stripe type.Fringe depths is generally 0.5 to 5mm.
Embodiment 1: the method improving netted titanium plating anode of lead dioxide plate surface evenness: this embossing leveling strengthens the electrolytic pole board of rigidity, and mainly comprise pole plate 1, the surface of described pole plate 1 is provided with several embossing grooves 2 and forms concavoconvex pattern.Adopt titanium endoplasmic reticular board making insoluble anode plate, its sheet metal thickness is 1mm to 3mm, first netted sheet material is carried out cutting according to certain size, platen-press is adopted to carry out striped compacting again, described embossing groove 2 forms M shape structure by many horizontal embossing grooves and oblique embossing groove, pole plate 1 is formed by the bulge-structure that forms of triangle convex 3 and lower triangle convex 4.Compacting fringe depths is 2.5mm, and whole plate noodles line is continuous striped.Plate face after compacting is smooth, and rigidity significantly strengthens.Then, surrounding welding in reticular lamina face is pressed with the edge strip beading 5 of nicking, the reverse side protruding in compacting is provided with corresponding circular slotted eye 6.Plate strength is strengthened further.Like this, the titanium net anode plate plate face intensity produced significantly strengthens, and plate face planeness increases substantially.
Embodiment 2: improve the method that titanium is coated with noble metallic oxide anode plate surface evenness: adopt titanium lumber to make insoluble anode plate, its sheet metal thickness is 1mm to 3mm, first sheet material is carried out cutting according to certain size, dull and stereotyped graining machine is adopted to carry out striped compacting again, its shape of stripes is " returning " font or sphere of movements for the elephants shape (as Fig. 5) etc., compacting fringe depths is 2.5mm, and whole plate noodles line is continuous striped.Plate face after compacting is smooth, and rigidity significantly strengthens.
Embodiment 3: as Fig. 4, improve the method for alloy lead anode plate surface evenness: adopt lead alloy board making insoluble anode plate, its sheet metal thickness is 3mm to 10mm, first lead alloy sheet material is cast according to certain size, dull and stereotyped graining machine is adopted to carry out striped compacting again, its shape of stripes is radiation etc., and compacting fringe depths is 2.5mm, and whole plate noodles line is continuous striped.Like this, the alloy lead anode plate plate face intensity produced significantly strengthens, and plate face planeness increases substantially.
The utility model carries out striped compacting owing to adopting to pole plate, increases the bending resistant section modulus of pole plate, eliminates part stress, reaches the object strengthening pole plate rigidity.Not only increase pole plate rigidity, heightened the vertical planeness of pole plate, avoided the short circuit phenomenon caused because of punching shear between anode and cathode, but also add the actual useful area of pole plate, be conducive to reducing pole plate actual current density, thus reduce bath voltage, reduce unit product power consumption.
The utility model is not limited to above-mentioned embodiment; no matter do any change on its shape or material are formed; every employing structure design provided by the utility model, is all one distortion of the present utility model, all should thinks within the utility model protection domain.
Claims (6)
1. embossing leveling strengthens an electrolytic pole board for rigidity, mainly comprises pole plate (1), it is characterized in that: the surface of described pole plate (1) is provided with several embossing grooves (2) and forms cancavo-convex pattern.
2. embossing leveling according to claim 1 strengthens the electrolytic pole board of rigidity, it is characterized in that: described embossing groove (2) forms M shape structure by many horizontal embossing grooves and oblique embossing groove, above form the bulge-structure be made up of upper triangle convex (3) and lower triangle convex (4) at pole plate (1).
3. embossing leveling according to claim 1 strengthens the electrolytic pole board of rigidity, it is characterized in that: described embossing groove (2) forms three-back-shaped or matrix pattern structure by many horizontal embossing grooves and vertical embossing groove.
4. embossing leveling according to claim 1 strengthens the electrolytic pole board of rigidity, it is characterized in that: described embossing groove (2) forms radial shape structure by many radial embossing grooves.
5. the embossing leveling according to claim 1 or 2 or 3 or 4 strengthens the electrolytic pole board of rigidity, it is characterized in that: the frame of described pole plate (1) is provided with multiple edge strip beading (5), the reverse side protruding in compacting is provided with corresponding circular slotted eye (6).
6. the embossing leveling according to claim 1 or 2 or 3 or 4 strengthens the electrolytic pole board of rigidity, it is characterized in that: the degree of depth of described embossing groove (2) is 0.1mm to 50mm, and width is 2-20mm.
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CN201420543688.3U CN204211841U (en) | 2014-12-03 | 2014-12-03 | Embossing leveling strengthens the electrolytic pole board of rigidity |
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CN201420543688.3U CN204211841U (en) | 2014-12-03 | 2014-12-03 | Embossing leveling strengthens the electrolytic pole board of rigidity |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104328459A (en) * | 2014-12-03 | 2015-02-04 | 杭州帝洛森科技有限公司 | Embossed flattened rigidity-reinforced electrolytic electrode plate and preparation method thereof |
-
2014
- 2014-12-03 CN CN201420543688.3U patent/CN204211841U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104328459A (en) * | 2014-12-03 | 2015-02-04 | 杭州帝洛森科技有限公司 | Embossed flattened rigidity-reinforced electrolytic electrode plate and preparation method thereof |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150318 Effective date of abandoning: 20160831 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |