CN207159365U - The multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell - Google Patents
The multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell Download PDFInfo
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- CN207159365U CN207159365U CN201720966483.XU CN201720966483U CN207159365U CN 207159365 U CN207159365 U CN 207159365U CN 201720966483 U CN201720966483 U CN 201720966483U CN 207159365 U CN207159365 U CN 207159365U
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Abstract
A kind of multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell, including the multiple anode units being arranged in aluminium cell, each anode unit includes the multiple anodes for being connected to same anode rod, the anode unit is transversely arranged into multiple rows of, along longitudinal arrangement into multiple row, wherein being provided with first passage between adjacent two rows anode unit, the first blanking point is provided with the first passage, second channel is provided between the adjacent two row anode unit in part, the second blanking point is provided with the second channel.The first blanking point is set in the first passage of transverse direction, the second blanking point is set in the second channel of longitudinal direction, the number of blanking point can be increased, aluminum oxide is added in electrolytic cell evenly, is advantageous to electrolysis production.
Description
Technical field
Technical field of aluminum electrolysis is the utility model is related to, more particularly under a kind of multiple rows of aluminum oxide of ultra-large type aluminium cell
Shots arrangement.
Background technology
In aluminum electrolysis, multiple anodes of typically being arranged in aluminium cell, arrange when in current most aluminium cells
Two row's anodes, then row's blanking point is set, by blanking point by aluminum oxide or fluoride salt in the middle seam between two row's anodes
It is added in electrolyte, the method to set up of this blanking point can cause the skewness of aluminum oxide in electrolyte, influence to be electrolysed
Production.
Utility model content
The problem of existing for prior art, the utility model provide a kind of increase blanking point, are uniformly added into aluminum oxide
The multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell of electrolytic cell.
To achieve these goals, the utility model adopts the following technical scheme that:
A kind of multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell, including be arranged at multiple in aluminium cell
Anode unit, each anode unit include the multiple anodes for being connected to same anode rod, and the anode unit is transversely arranged into
It is multiple rows of, along longitudinal arrangement into multiple row, the is provided with wherein be provided with first passage between adjacent two rows anode unit, in the first passage
One blanking point, second channel is provided between the adjacent two row anode unit in part, the second blanking point is provided with the second channel.
Further, second blanking point is relative to the first passage center line symmetrical setting.
Further, the anode unit includes four anodes, forms two rows two and arranges, wherein being provided with the between the two row anodes
Two blanking points.
Further, one second blanking point transversely is set at interval of anode unit described in four groups.
Further, the width of the second channel is more than the adjacent two row anode unit for being not provided with second blanking point
The distance between.
Further, it is 40mm to be not provided with the distance between described anode unit of adjacent two row of second blanking point, described
The width of second channel is 120-180mm.
Further, the anode unit forms two rows, often arranges 16 groups, the first blanking point at five is set in the first passage,
Often arrange and the second blanking point everywhere is provided with the anode unit.
Further, multiple first blanking points are provided with the first passage, the multiple first blanking point is equidistantly set
Put.
The beneficial effects of the utility model:
The first blanking point is set in the first passage of transverse direction, the second blanking point is set in the second channel of longitudinal direction, can
To increase the number of blanking point, aluminum oxide is added in electrolytic cell evenly, be advantageous to electrolysis production.
Brief description of the drawings
Fig. 1 is the schematic diagram of the multiple rows of alumina blanking point arrangement of the utility model ultra-large type aluminium cell;
In figure, 1-anode unit, 2-anode, 3-first passage, the 4-the first blanking point, 5-second channel, 6-the second
Blanking point.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only part of the embodiment of the present utility model, rather than all
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise
Lower obtained every other embodiment, belong to the scope of the utility model protection.
Such as Fig. 1, the utility model provides a kind of multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell, including sets
The multiple anode units 1 being placed in aluminium cell, each anode unit 1 include the multiple anodes 2 for being connected to same anode rod, at this
In embodiment, an anode unit 1 includes four anodes 2, and in other embodiments, anode unit 1 can be single anode or double anode,
Can also be that multianode is set.Anode unit 1 be transversely arranged into it is multiple rows of, along longitudinal arrangement into multiple row, wherein adjacent two rows anode
Be provided with first passage 3 between group 1, be provided with the first blanking point 4 in first passage 3, provided with the between the adjacent two row anode unit 1 in part
Two passages 5, second channel 5 is interior to be provided with the second blanking point 6.
The set location and number of first blanking point 4 or/and the second blanking point 6 are according to aluminium cell capacity, 1 group of anode unit
Count, riser bus bar quantity, position, aluminium cell feeding box position, the condition such as melt liquid condition is come true in aluminium cell
Fixed, those skilled in the art determine according to the actual requirements.
Preferably, the second blanking point 6 is relative to the center line symmetrical setting of first passage 3 so that the blanking of two row's anode units 1
Situation is identical, ensures the uniformity of alumina blanking.Multiple first blanking points 4, multiple first blanking points are provided with first passage 3
4 can be placed equidistant.
In the present embodiment, anode unit 1 forms two rows, often arranges 16 groups, i.e., totally 32 groups of anode units 1, each anode unit 1 include
Four anodes 2, form two rows two and arrange, wherein alumina blanking point is had altogether at 13, as in Fig. 1 1. extremelyPointed position, the
First blanking point 4 at five is set in one passage 3, often arranges and the second blanking point 6 everywhere is provided with anode unit 2, the second blanking point 6 is along horizontal stroke
One is set at interval of four groups of anode units 1.In other embodiments, the second blanking point 6 can also be arranged on an anode unit 1
In adjacent two row anode 2 between.
Preferably, the width of second channel 5 be more than be not provided between the adjacent two row anode unit 2 of the second blanking point 6 away from
From so that second channel 5 can be for blanking cylinder blanking.In the present embodiment, adjacent the two of second blanking point 6 are not provided with
The distance between row anode unit 1 is 40mm, and the width of second channel 5 is 120-180mm.
The utility model is only laterally setting blanking point by increasing by the second blanking point 6 in the vertical, relative to tradition
Structure, the number of blanking point can be increased, aluminum oxide is added in electrolytic cell evenly, be advantageous to electrolysis production.
Above example is only to illustrate the technical solution of the utility model and unrestricted, although with reference to preferred embodiment pair
The utility model is described in detail, it will be appreciated by those skilled in the art that can enter to the technical solution of the utility model
Row modification or equivalent substitution, without departing from the objective and scope of the technical program, it all should cover in power of the present utility model
In sharp claimed range.
Claims (8)
- A kind of 1. multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell, it is characterised in that including:It is arranged at aluminium electroloysis Multiple anode units in groove, each anode unit include the multiple anodes for being connected to same anode rod, the anode unit edge Laterally it is arranged into multiple rows of, along longitudinal arrangement into multiple row, wherein be provided with first passage between adjacent two rows anode unit, described first leads to The first blanking point is provided with road, second channel is provided between the adjacent two row anode unit in part, second is provided with the second channel Blanking point.
- 2. the multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell according to claim 1, it is characterised in that:Institute The second blanking point is stated relative to the first passage center line symmetrical setting.
- 3. the multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell according to claim 1, it is characterised in that:Institute State anode unit and include four anodes, form two rows two and arrange, wherein being provided with the second blanking point between the two row anodes.
- 4. the multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell according to claim 1, it is characterised in that:Edge One second blanking point laterally is set at interval of anode unit described in four groups.
- 5. the multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell according to claim 1, it is characterised in that:Institute The width of second channel is stated more than the distance between described anode unit of adjacent two row for being not provided with second blanking point.
- 6. the multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell according to claim 5, it is characterised in that:Not It is 40mm to set the distance between described anode unit of adjacent two row of second blanking point, and the width of the second channel is 120-180mm。
- 7. the multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell according to claim 1, it is characterised in that:Institute State anode unit and form two rows, often arrange 16 groups, the first blanking point at five is set in the first passage, often arranges and is set in the anode unit There is the second blanking point everywhere.
- 8. the multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell according to claim 1, it is characterised in that:Institute State in first passage and be provided with multiple first blanking points, the multiple first blanking point is placed equidistant.
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CN201720966483.XU CN207159365U (en) | 2017-08-04 | 2017-08-04 | The multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell |
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CN201720966483.XU CN207159365U (en) | 2017-08-04 | 2017-08-04 | The multiple rows of alumina blanking point arrangement of ultra-large type aluminium cell |
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