CN207685358U - Magnesium eletrolysis assembly line electrolytic cell - Google Patents
Magnesium eletrolysis assembly line electrolytic cell Download PDFInfo
- Publication number
- CN207685358U CN207685358U CN201721548161.XU CN201721548161U CN207685358U CN 207685358 U CN207685358 U CN 207685358U CN 201721548161 U CN201721548161 U CN 201721548161U CN 207685358 U CN207685358 U CN 207685358U
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- magnesium
- tank house
- electrolytic cell
- assembly line
- eletrolysis
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Abstract
The utility model magnesium eletrolysis assembly line electrolytic cell includes the pot shell of rectangular parallelepiped structure, and the upper end of pot shell is capping, and the electrolytic cell setting is formed in magnesium eletrolysis pipelined front side, the tank house that electrolytic cell is separately positioned on collection magnesium room both sides by collection magnesium room and two;Multiple anode and cathodes arranged in parallel are equipped in tank house, anode is inserted into tank house from the upper end of tank house, and cathode is inserted into tank house from the side of tank house;The one side that each tank house connects with collection magnesium room leads magnesium hole and arcuate socket equipped with multiple, leads the middle and upper part that magnesium hole is located at tank house, arcuate socket is located at the lower part of tank house.The utility model can effectively improve electrolytic efficiency by multiple cycles for leading magnesium hole and arcuate socket for carrying out electrolyte of setting;Anode is inserted into tank house from the upper end of tank house, and anode can be replaced easily, can effectively improve the service life of electrolytic cell, while not interfering with the work of electrolytic cell, can guarantee the stable operation of entire magnesium eletrolysis assembly line.
Description
Technical field
The utility model is related to magnesium eletrolysis technical field, especially a kind of magnesium eletrolysis assembly line electrolytic cell.
Background technology
The technology of assembly line magnesium eletrolysis at present is used widely at home, and magnesium eletrolysis assembly line is by multiple in the technology
Electrolytic cell is connected in series, and in magnesium eletrolysis line flow procedure, impurity content is higher in the electrolyte of pipelined front side, can add
The removal of impurities task of weight front end electrolytic cell, it is larger to the damage of front end electrolytic cell accordingly, the service life of electrolytic cell can be shortened.
Utility model content
Technical problem to be solved in the utility model is:There is provided that a kind of electrolytic efficiency is high, magnesium eletrolysis with long service life
Assembly line electrolytic cell.
Technical solution used by the utility model is to solve above-mentioned technical problem:Magnesium eletrolysis assembly line electrolytic cell,
Pot shell including rectangular parallelepiped structure, the upper end of pot shell are capping, and the electrolytic cell setting is described in magnesium eletrolysis pipelined front side
The tank house that electrolytic cell is separately positioned on collection magnesium room both sides by collection magnesium room and two forms;It is equipped in the tank house multiple parallel
The anode and cathode of arrangement, anode are inserted into tank house from the upper end of tank house, and cathode is inserted into tank house from the side of tank house;Respectively
The one side that a tank house connects with collection magnesium room leads magnesium hole and arcuate socket equipped with multiple, leads the middle and upper part that magnesium hole is located at tank house,
Arcuate socket is located at the lower part of tank house.
It is further:The lower face of the anode and cathode is in sustained height.
It is further:The upper edge of the arcuate socket is higher than the lower face of anode, leads the position in magnesium hole higher than cathode
Upper surface.
It is further:Partition wall is equipped between the tank house sum aggregate magnesium room.
It is further:The partition wall is built by refractory brick.
It is further:Interface channel is arranged in the both ends of the collection magnesium room, and interface channel is connected to collection magnesium room.
It is further:It is steel construction outside the interface channel, is internally provided with the liner of refractory material composition.
It is further:Chlorine tap is designed in the capping of the tank house, the capping of collection magnesium room is equipped with tail gas
Tap.
It is further:The width of the tank house is collect magnesium room width 1.8~2.3 times.
It is further:The anode is graphite anode, and the cathode is steel cathode.
The utility model has the beneficial effects that:The utility model is by multiple magnesium hole and arcuate sockets of leading of setting for carrying out
The cycle of electrolyte can effectively improve electrolytic efficiency;Anode is inserted into tank house from the upper end of tank house, and anode can be carried out easily
It replaces, the service life of electrolytic cell can be effectively improved, while not interfering with the work of electrolytic cell, can guarantee entire magnesium eletrolysis flowing water
The stable operation of line.
Description of the drawings
Fig. 1 is the shaft side figure of the utility model;
Fig. 2 is the side sectional view of the utility model;
In figure label for:1- pot shells, 2- collection magnesium room, 3- tank houses, 4- anodes, 5- cathodes, 6- lead magnesium hole, 7- arcuate sockets,
8- partition walls, 9- interface channels.
Specific implementation mode
The utility model is further detailed below in conjunction with the accompanying drawings for the ease of understanding the utility model,.
As shown in Figure 1 and Figure 2, the utility model magnesium eletrolysis assembly line electrolytic cell includes the pot shell 1 of rectangular parallelepiped structure, slot
The upper end of shell 1 is capping, and the electrolytic cell is arranged in magnesium eletrolysis pipelined front side, and the electrolytic cell is by collection magnesium room 2 and two
The tank house 3 for being separately positioned on 2 both sides of collection magnesium room forms, and the bottom of collection magnesium room 2 is less than 50~100mm of bottom of tank house 3;Institute
It states and is equipped with multiple anodes 4 and cathode 5 arranged in parallel in tank house 3, anode 4 is inserted into tank house 3 from the upper end of tank house 3, cloudy
Tank house 3 is inserted into pole 5 from the side of tank house 3;The one side that each tank house 3 connects with collection magnesium room 2 leads magnesium hole 6 equipped with multiple
With arcuate socket 7, the middle and upper part that magnesium hole 6 is located at tank house 3 is led, arcuate socket 7 is located at the lower part of tank house 3.Anode 4 and cathode 5
Lower face is in sustained height;The upper edge of arcuate socket 7 is higher than the lower face of anode 4, leads the position in magnesium hole 6 higher than cathode 5
Upper surface.In the utility model, anode 4 is graphite anode, and cathode 5 is steel cathode.Since anode 4 uses in the utility model
The mode of insertion is mounted in tank house 3, therefore the replacement of anode 4 is convenient.
As shown in Fig. 2, being equipped with partition wall 8 between 3 sum aggregate magnesium room 2 of tank house, magnesium hole 6 and arc are led described in the above
Hole 7 is arranged on partition wall 8, leads magnesium hole 6 and is arranged in the middle and upper part of partition wall 8, arcuate socket 7 is arranged in the lower part of partition wall 8;Electrolytic cell
Temperature is higher when inside is electrolysed, therefore partition wall 8 is built by refractory brick, likewise, the inner surface of pot shell 1 is also by refractory material
Composition, partition wall 8 and pot shell 1 can all bear 750 DEG C of high temperature.
As shown in Figure 1, interface channel 9 is arranged in the both ends of collection magnesium room 2, interface channel 9 is connected to collection magnesium room 2, to be electrolysed
Electrolyte melt in slot can be kept being connected to the electrolyte melt in other electrolytic cells;The following table of 9 inner passage of interface channel
Face is less than the upper end of cathode 5, while upper surface is higher than 5 150~350mm of upper end of cathode.Due to the electrolyte that circulates in interface channel 9
Melt, internal temperature is higher, therefore the liner for being internally provided with refractory material composition of interface channel 9, while interface channel 9 is outer
Portion is made of steel construction.
In order to ensure electrolytic efficiency, the continuity of magnesium eletrolysis the flow work is improved, is designed in the capping of tank house 3
The capping of chlorine tap, collection magnesium room 2 is equipped with tail gas tap.
Depending on electrolytic efficiency by magnesium eletrolysis assembly line electrolytic cell described in the utility model, the width of tank house 3 is collection
1.8~2.3 times of 2 width of magnesium room.
Claims (10)
1. magnesium eletrolysis assembly line electrolytic cell includes the pot shell (1) of rectangular parallelepiped structure, the upper end of pot shell (1) is capping, special
Sign is:The electrolytic cell is arranged in magnesium eletrolysis pipelined front side, and the electrolytic cell is separately positioned on by collection magnesium room (2) and two
Collect tank house (3) composition of magnesium room (2) both sides;Multiple anodes (4) and cathode arranged in parallel are equipped in the tank house (3)
(5), anode (4) is inserted into tank house (3) from the upper end of tank house (3), and cathode (5) is inserted into tank house from the side of tank house (3)
(3);The one side that each tank house (3) connects with collection magnesium room (2) leads magnesium hole (6) and arcuate socket (7) equipped with multiple, leads magnesium hole
(6) it is located at the middle and upper part of tank house (3), arcuate socket (7) is located at the lower part of tank house (3).
2. magnesium eletrolysis assembly line electrolytic cell as described in claim 1, it is characterised in that:The anode (4) and cathode (5)
Lower face is in sustained height.
3. magnesium eletrolysis assembly line electrolytic cell as described in claim 1, it is characterised in that:The upper edge of the arcuate socket (7)
Higher than the lower face of anode (4), the position for leading magnesium hole (6) is higher than the upper surface of cathode (5).
4. magnesium eletrolysis assembly line electrolytic cell as described in claim 1, it is characterised in that:Tank house (3) the sum aggregate magnesium room
(2) partition wall (8) is equipped between.
5. magnesium eletrolysis assembly line electrolytic cell as claimed in claim 4, it is characterised in that:The partition wall (8) is brick by fire resisting
At.
6. magnesium eletrolysis assembly line electrolytic cell as described in claim 1, it is characterised in that:The both ends of collection magnesium room (2) are set
Interface channel (9) is set, interface channel (9) is connected to collection magnesium room (2).
7. magnesium eletrolysis assembly line electrolytic cell as claimed in claim 6, it is characterised in that:It is outside the interface channel (9)
Steel construction is internally provided with the liner of refractory material composition.
8. magnesium eletrolysis assembly line electrolytic cell as described in claim 1, it is characterised in that:In the capping of the tank house (3)
It is designed with chlorine tap, the capping of collection magnesium room (2) is equipped with tail gas tap.
9. magnesium eletrolysis assembly line electrolytic cell as described in claim 1, it is characterised in that:The width of the tank house (3) is
Collect 1.8~2.3 times of magnesium room (2) width.
10. the magnesium eletrolysis assembly line electrolytic cell as described in claim 1 to 9 any one, it is characterised in that:The anode
(4) it is graphite anode, the cathode (5) is steel cathode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721548161.XU CN207685358U (en) | 2017-11-17 | 2017-11-17 | Magnesium eletrolysis assembly line electrolytic cell |
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CN201721548161.XU CN207685358U (en) | 2017-11-17 | 2017-11-17 | Magnesium eletrolysis assembly line electrolytic cell |
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CN207685358U true CN207685358U (en) | 2018-08-03 |
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CN201721548161.XU Active CN207685358U (en) | 2017-11-17 | 2017-11-17 | Magnesium eletrolysis assembly line electrolytic cell |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112522742A (en) * | 2020-11-17 | 2021-03-19 | 攀钢集团攀枝花钢铁研究院有限公司 | Electrolytic cell connecting channel and use method thereof |
-
2017
- 2017-11-17 CN CN201721548161.XU patent/CN207685358U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112522742A (en) * | 2020-11-17 | 2021-03-19 | 攀钢集团攀枝花钢铁研究院有限公司 | Electrolytic cell connecting channel and use method thereof |
CN112522742B (en) * | 2020-11-17 | 2022-07-08 | 攀钢集团攀枝花钢铁研究院有限公司 | Electrolytic cell connecting channel and use method thereof |
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