CN202124666U - Copper-aluminum composite conductive energy-conservation negative plate - Google Patents
Copper-aluminum composite conductive energy-conservation negative plate Download PDFInfo
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- CN202124666U CN202124666U CN2011201423471U CN201120142347U CN202124666U CN 202124666 U CN202124666 U CN 202124666U CN 2011201423471 U CN2011201423471 U CN 2011201423471U CN 201120142347 U CN201120142347 U CN 201120142347U CN 202124666 U CN202124666 U CN 202124666U
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- negative plate
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Abstract
A copper-aluminum composite conductive energy-conservation negative plate relates to an electrolysis device and comprises a negative plate main body and a conductive beam wrapped at one end of the negative plate main body, wherein one end of the conductive beam is provided with a conductive head; the conductive beam comprises an aluminum layer and a stainless steel covering sleeve that are wrapped outside one end of the negative plate main body in sequence; and the negative plate main body, the aluminum layer and the stainless steel covering sleeve are formed into a whole through casting. The conductive head mainly comprises a copper conductive bar arranged at the inner part, and a conductive head aluminum layer and a conductive head stainless steel covering sleeve that are wrapped outside the copper conductive bar in sequence; and the copper conductive bar, the conductive head aluminum layer and the conductive head stainless steel covering sleeve are respectively casted with the negative plate main body, the aluminum layer and the stainless steel covering sleeve of the conductive beam into a whole. The copper-aluminum composite conductive energy-conservation negative plate has the advantages of good conduction, difficult heating, low power consumption, low production cost and stable connection, and is applicable to be promoted and used in the electrolytic manganese industry.
Description
Technical field
The utility model relates to a kind of electrolyzer, the energy-conservation negative plate of copper aluminium composite conducting that particularly a kind of electrolytic manganese is special-purpose.
Background technology
The used negative plate of electrolytic manganese industry generally all is to adopt copper conducting beam and negative plate main body to be formed by connecting through screw now, and wherein, the negative plate main body is a stainless-steel sheet, and copper conducting beam is to adopt the red copper copper bar to process.Get rusty owing to this copper conducting beam is corroded in use easily, cause the conductivity of copper conducting beam bad, be prone to heating and power consumption than higher, and whole conducting beam all adopt the red copper copper bar to process, its price comparison is high; In addition, because copper conducting beam and negative plate main body are same material and can't being fixed together through welding process not, can only be through the screw connection, be easy to generate loosening in use.
Summary of the invention
The technical problem that the utility model will solve is: a kind of energy-conservation negative plate of copper aluminium composite conducting is provided, with solve poor electric conductivity that prior art exists, be prone to heating, power consumption is high, price is high and connect unsettled weak point.
The technical scheme that solves the problems of the technologies described above is: the energy-conservation negative plate of a kind of copper aluminium composite conducting; Comprise negative plate main body and the conducting beam that is wrapped in negative plate main body one end; Conducting beam one end is provided with conductive head; Described conducting beam comprises aluminium lamination, the stainless steel jacket that is wrapped in successively outside negative plate main body one end, and described negative plate main body, aluminium lamination and stainless steel jacket form an integral body through casting.
The further technical scheme of the utility model is: described conductive head is mainly by being positioned at inner copper bus, being wrapped in copper bus outer conductive head aluminium lamination, conductive head stainless steel jacket successively and constituting, and described copper bus, conductive head aluminium lamination, conductive head stainless steel jacket form an integral body with aluminium lamination, the stainless steel jacket of negative plate main body, conducting beam through casting respectively.
Because adopt said structure, the energy-conservation negative plate of copper aluminium composite conducting of the utility model is compared with existing electrolytic manganese negative plate, has following beneficial effect:
1, conduct electricity very well, be difficult for heating, power consumption is low:
Because comprising, the conducting beam of the utility model is wrapped in negative plate main body one end outer aluminium lamination, stainless steel jacket successively; This negative plate main body, aluminium lamination and stainless steel jacket form an integral body through casting; Therefore this conducting beam is not easy to be corroded in use; The surface is difficult for getting rusty, thereby can improve the conductivity of negative plate, has reduced power consumption cost.In addition; Because the conductive head of the utility model is made up of the conductive head aluminium lamination, the conductive head stainless steel jacket that are positioned at inner copper bus, be wrapped in outside the copper bus successively; Described copper bus, conductive head aluminium lamination, conductive head stainless steel jacket form an integral body with the aluminium lamination of negative plate main body, conducting beam, stainless steel jacket through casting respectively; It also can further improve the conductivity of negative plate, prevents heating, has further reduced power consumption cost.
2, production cost is low:
Because the conducting beam of the utility model is provided with conductive head at the one of which end; And conducting beam constitutes by being wrapped in negative plate main body one end outer aluminium lamination, stainless steel jacket successively; It is compared with whole copper conducting beam by red copper copper bar formation; The red copper consumption can be reduced significantly, thereby its production cost can be reduced.
3, connect firmly:
Because negative plate main body, conducting beam and the conductive head of the utility model all are to form an integral body through casting; Its connection is very solid and reliable; No matter beaten in use or shaken, can not produce between conducting beam and the negative plate main body loosening, thereby further improved conductivity.
Below, in conjunction with accompanying drawing and embodiment the technical characterictic of the energy-conservation negative plate of copper aluminium composite conducting of the utility model is further described.
Description of drawings
Fig. 1~Fig. 3: the structural representation of the energy-conservation negative plate of copper aluminium composite conducting of example one said the utility model,
Fig. 1: front view, the A-A sectional view of Fig. 2: Fig. 1, the B-B sectional view of Fig. 3: Fig. 1;
Among the figure,
1-negative plate main body, the 2-conducting beam, the 201-aluminium lamination, 202-stainless steel jacket,
The 3-conductive head, 301-copper bus, 302-conductive head aluminium lamination, 303-conductive head stainless steel jacket.
Embodiment
Embodiment one:
Disclosed among Fig. 1~Fig. 3 is the energy-conservation negative plate of a kind of copper aluminium composite conducting; This negative plate is made up of negative plate main body 1 and the conducting beam 2 that is wrapped in negative plate main body 1 one ends; Conducting beam 2 one ends are provided with conductive head 3; Described conducting beam 2 comprises aluminium lamination 201, the stainless steel jacket 202 that is wrapped in successively outside negative plate main body 1 one ends, and this negative plate main body 1, aluminium lamination 201 and stainless steel jacket 202 form an integral body through casting; Described conductive head 3 is by being positioned at inner copper bus 301, being wrapped in copper bus 301 outer conductive head aluminium lamination 302, conductive head stainless steel jackets 303 successively and constituting, and described copper bus 301, conductive head aluminium lamination 302, conductive head stainless steel jacket 303 form an integral body with aluminium lamination 201, the stainless steel jacket 202 of negative plate main body 1, conducting beam 2 through casting respectively.
As a kind of conversion of present embodiment one, described conducting beam 2 also can also include the resist of being processed by other material between negative plate main body 1 and stainless steel jacket 202.
As another conversion of present embodiment one, described conductive head 3 also can also include the resist of being processed by other material between copper bus 301 and stainless steel jacket 303.
Claims (2)
1. energy-conservation negative plate of copper aluminium composite conducting; Comprise negative plate main body (1) and be wrapped in the conducting beam (2) of negative plate main body (1) one end; It is characterized in that: described conducting beam (2) one ends are provided with conductive head (3); Conducting beam (2) comprises aluminium lamination (201), the stainless steel jacket (202) that is wrapped in successively outside negative plate main body (1) one end, and described negative plate main body (1), aluminium lamination (201) and stainless steel jacket (202) form an integral body through casting.
2. the energy-conservation negative plate of copper aluminium composite conducting according to claim 1; It is characterized in that: described conductive head (3) mainly by be positioned at inner copper bus (301), be wrapped in the outer conductive head aluminium lamination (302) of copper bus (301) successively, conductive head stainless steel jacket (303) constitutes, described copper bus (301), conductive head aluminium lamination (302), conductive head stainless steel jacket (303) form an integral body with aluminium lamination (201), the stainless steel jacket (202) of negative plate main body (1), conducting beam (2) through casting respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011201423471U CN202124666U (en) | 2011-05-06 | 2011-05-06 | Copper-aluminum composite conductive energy-conservation negative plate |
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CN2011201423471U CN202124666U (en) | 2011-05-06 | 2011-05-06 | Copper-aluminum composite conductive energy-conservation negative plate |
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CN202124666U true CN202124666U (en) | 2012-01-25 |
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CN2011201423471U Expired - Fee Related CN202124666U (en) | 2011-05-06 | 2011-05-06 | Copper-aluminum composite conductive energy-conservation negative plate |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103668320A (en) * | 2013-11-18 | 2014-03-26 | 广西南宁市蓝天电极材料有限公司 | Conducting device of electrolytic manganese |
CN105543890A (en) * | 2015-12-10 | 2016-05-04 | 沈阳弘圣鑫电解技术研发有限公司 | Copper paste filling type cathode plate conductive rod for copper electrolysis and nickel electrolysis and manufacturing method of copper paste filling type cathode plate conductive rod |
CN105862076A (en) * | 2016-06-06 | 2016-08-17 | 杭州帝洛森科技有限公司 | Electrolytic zinc cathode conductive beam and preparation method thereof |
-
2011
- 2011-05-06 CN CN2011201423471U patent/CN202124666U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103668320A (en) * | 2013-11-18 | 2014-03-26 | 广西南宁市蓝天电极材料有限公司 | Conducting device of electrolytic manganese |
CN105543890A (en) * | 2015-12-10 | 2016-05-04 | 沈阳弘圣鑫电解技术研发有限公司 | Copper paste filling type cathode plate conductive rod for copper electrolysis and nickel electrolysis and manufacturing method of copper paste filling type cathode plate conductive rod |
CN105862076A (en) * | 2016-06-06 | 2016-08-17 | 杭州帝洛森科技有限公司 | Electrolytic zinc cathode conductive beam 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 | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120125 Termination date: 20130506 |