CN108166022B - A kind of electrolyte feeding device - Google Patents
A kind of electrolyte feeding device Download PDFInfo
- Publication number
- CN108166022B CN108166022B CN201810074702.2A CN201810074702A CN108166022B CN 108166022 B CN108166022 B CN 108166022B CN 201810074702 A CN201810074702 A CN 201810074702A CN 108166022 B CN108166022 B CN 108166022B
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- Prior art keywords
- agitating shaft
- electrolyte
- driven gear
- gear
- bung
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25C—PROCESSES FOR THE ELECTROLYTIC PRODUCTION, RECOVERY OR REFINING OF METALS; APPARATUS THEREFOR
- C25C7/00—Constructional parts, or assemblies thereof, of cells; Servicing or operating of cells
- C25C7/06—Operating or servicing
-
- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25C—PROCESSES FOR THE ELECTROLYTIC PRODUCTION, RECOVERY OR REFINING OF METALS; APPARATUS THEREFOR
- C25C1/00—Electrolytic production, recovery or refining of metals by electrolysis of solutions
- C25C1/12—Electrolytic production, recovery or refining of metals by electrolysis of solutions of copper
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/20—Recycling
Abstract
The invention discloses a kind of electrolyte feeding devices, for producing copper foil, comprising: electrolyte agitator, buffer storage bucket, electrolytic cell, controller;First pump is extracted the electrolyte in electrolyte agitator by pipeline, is sent by passing liquid pipeline into buffer storage bucket;Electrolyte in buffer storage bucket is pumped in electrolytic cell by flow;It is provided with liquid angular sensor in a cell, the liquid angular sensor is mainly used for the concentration of the copper sulphate in real-time measurement electrolytic cell.The present invention is intended to provide a kind of electrolyte feeding device, be able to solve how auto feed electrolyte the problem of.
Description
Technical field
It feeds field the present invention relates to electrolyte, more specifically more particularly to a kind of electrolyte feeding device.
Background technique
It is described in CN205856623U, in cupric electrolysis production process, needs that glue or surface are added into electrolyte
The additives such as active material, still, conventional blender, it may appear that " closer to stirring shaft position, wheel speed is smaller, is easy
It is formed immediately below dead angle in agitating shaft, and then additive is caused to be deposited at this " the technical issues of.And stir it is uniform with it is fine or not
It is directly related to the quality of subsequent baths solution.
Meanwhile the concentration in electrolytic cell is also in constant changes, how to control electrolyte to the flow direction of electrolytic cell is also
One technical problem urgently to be resolved.
Summary of the invention
The purpose of the present invention is to provide a kind of electrolyte feeding device, enable to the stirring of electrolyte it is more uniform,
Automation is realized in the charging of electrolyte.
The technical scheme of the present invention is realized as follows: a kind of electrolyte feeding device, for producing copper foil, comprising: electricity
Solve liquid agitator, buffer storage bucket (12), electrolytic cell (13), controller;First pump (9) will be in electrolyte agitator by pipeline
Electrolyte extract, by pass liquid pipeline (10-1) send into buffer storage bucket (12);It is set on passing liquid pipeline (10-1)
It is equipped with solenoid valve, the solenoid valve is connect with the controller;
Electrolyte in buffer storage bucket (12) is sent by flow pump (14) into electrolytic cell (13);The flow pump (14)
Also it is connect with controller;Liquid angular sensor (15) are provided in electrolytic cell (13), the liquid angular sensor is mainly used for
The concentration of copper sulphate in real-time measurement electrolytic cell (13);
The electrolyte agitator, comprising: staving (5-1), bung (5-2), the second agitating shaft (7), it is fixed on bung
Have driving motor (1), the shaft of driving motor is sequentially connected: shaft coupling, retarder, driving gear (2) drive gear and second
Transmission gear (3-2) engagement, the second transmission gear (3-2) are engaged with the second driven gear (4-2), and driving gear (2), second pass
Moving gear (3-2) and the second driven gear (4-2) are arranged in hollow bung;The inside of second driven gear (4-2)
It is provided with hollow hole;Second agitating shaft (7) be hollow agitating shaft, across the second driven gear (4-2) hollow hole and
It protrudes from bung (5-2), the second agitating shaft (7) and the second driven gear (4-2) are affixed;Second agitating shaft (7) be "" shape,
Include: the first vertical portion, first horizontal portion, the second vertical portion, be respectively provided with stirring blade on the first vertical portion and the second vertical portion,
The first vertical portion and the second vertical portion of second agitating shaft (7) are provided with stirring blade;Second agitating shaft and charge pipe
Connection.
Further, the buffer storage bucket (12) includes: staving, bung, third agitating shaft, in buffer storage bucket (12)
Driving motor also is provided on bung, the shaft of driving motor is sequentially connected: shaft coupling, retarder, driving gear, driving gear with
The engagement of third transmission gear, third transmission gear (3-1) are engaged with third driven gear;In the staving of buffer storage bucket (12)
It is provided with heating module in side wall and bottom, to keep the temperature of electrolyte;The third driven gear is internally provided with
Hollow hole;The third agitating shaft is the hollow agitating shaft of bottom end closure, upper end opening, passes through the hollow of third driven gear
Hole and bung is protruded from, third agitating shaft and third driven gear are affixed;The surface of third agitating shaft is provided with several holes;Institute
The top for stating third agitating shaft is connect with liquid pipeline (10-1) is passed, and electrolyte flows into buffering storage from the hole on the surface of third agitating shaft
It deposits in bucket (12).
Further, the quantity of second agitating shaft and charge pipe is multiple, and the number of the second agitating shaft and charge pipe
It measures identical.
Further, further includes: the first agitating shaft (6), driving gear are engaged with the first transmission gear (3-1), the first transmission
Gear (3-1) is engaged with the first driven gear (4-1);The driving gear (2), the first transmission gear (3-1), the first driven tooth
(4-1) is taken turns to be arranged in hollow bung;First driven gear (4-1) is internally provided with hollow hole;First stirring
Axis (6) is the hollow agitating shaft that top and bottom end are open, and passes through the hollow hole of the first driven gear (4-1) and protrudes from bucket
It covers (5-2), the first agitating shaft (6) and the first driven gear (4-1) are affixed;
First pump (9) is extracted the electrolyte in electrolyte agitator by pipeline, then passes through circulation line again
(10-2) is sent to the first agitating shaft (6), and the circulation line (10-2) is connected with the first agitating shaft (6) by bearing jointing
It connects.
Further, the circulation line (10-2) is provided with solenoid valve, and solenoid valve is connect with controller.
Further, the first agitating shaft (6) be "" shape, comprising: the first vertical portion, first horizontal portion, second are vertically
Stirring blade is respectively provided on portion, the first vertical portion and the second vertical portion, the first vertical portion of the first agitating shaft (6) and second is vertically
Portion is provided with stirring blade, and the region of the stirring blade of the second vertical portion will be compared with the stirring of the stirring blade of the first vertical portion
Region is wider.
Further, further includes: heating module (8) is provided with several heated moulds in the side wall of the staving and bottom
Block (8), to keep the temperature of electrolyte;The heating module (8) connect with controller.
Further, hole is provided on the surface of the first agitating shaft (6) and the second agitating shaft (7);The first driven gear,
Tooth is arranged in the inside of the hollow hole of second driven gear, be respectively equipped on the outside of the first agitating shaft (6), the second agitating shaft (7) with
First driven gear, the second driven gear hollow hole inside be arranged the mutually matched tooth of tooth.
Further, the first agitating shaft (6), the second agitating shaft (7) protrude from and are installed with disk body at the top of bung, under disk body
Portion is provided with scroll wheel, is provided with and the mutually matched rolling sliding slot of scroll wheel in the upper surface of bung.
Further, support plate is set in the bottom of electrolyte agitator, multiple rows of idler wheel is arranged in the downside of support plate, wherein
Every row's idler wheel includes multiple idler wheels;Rolling shaft is connected between the idler wheel of every row's idler wheel, the multiple rolling shaft is kept
It is parallel to each other, it is used to limit;At least 1 group of connection sleeve assembly, the connection sleeve group are provided in each rolling shaft
Part by first connection sleeve, second connection sleeve, third connection sleeve, the 4th connection sleeve form, and first connection sleeve with
The axial direction of second connection sleeve is parallel, and third connection sleeve, the axial direction of the 4th connection sleeve are parallel, the first connector sleeve
Cylinder, the second connection sleeve, third connection sleeve, the 4th connection sleeve are distributed in square shape and roll in shaft;Each company
The inner surface of female connector cylinder is provided with screw thread, and the outer surface of rigid limit bar is provided with screw thread.
The beneficial effects of the present invention are:
(1) electrolyte is by liquid angular sensor, carrys out the concentration of real-time monitoring wherein copper sulphate;Then by controller, come
Flow pump and solenoid valve are controlled, realizes the automatic addition of cell bath.
(2) agitating shaft uses hollow agitating shaft, upper part and piping connection, and its shape is using bent and lower part
Agitating shaft region is wider compared with the stirring region on top, so that the bottom of agitating shaft is constantly in rotation in stirring, meanwhile,
Down big up small stirring region can form upward suction;To solve, " overhead rabbling mechanism, additive are deposited on
The problem of agitating shaft lower part ".
(3) agitating shaft is using hollow agitating shaft and its bottom is constantly in rotation process, can make circulation line,
The solution of charge pipe is more uniform to be flowed back into agitator;
(4) agitator bottom be arranged idler wheel, then using rigid limit bar with connect sleeve assembly by the way of solve
The fixed problem of agitator.
Detailed description of the invention
The present invention is described in further detail for embodiment in reference to the accompanying drawing, but does not constitute to of the invention
Any restrictions.
Fig. 1 is the structural schematic diagram of the electrolyte agitator in embodiment one.
Fig. 2 is that gear, the first transmission gear, the second transmission gear, the first driven gear, second driven gear is driven to set
Count schematic diagram.
Fig. 3 is the design diagram of the first driven gear and the first agitating shaft.
Fig. 4 is the design diagram of heating module.
Fig. 5 is the design diagram at the top that the first agitating shaft, the second agitating shaft protrude from bung.
Fig. 6 is the structural schematic diagram of the electrolyte agitator in embodiment two.
Fig. 7 is the schematic diagram of the agitating shaft stirring region in embodiment two.
Fig. 8 is rigid limit bar in embodiment three and the connection schematic diagram that connect sleeve assembly.
Fig. 9 is the schematic diagram of one of example IV production copper foil electrolyte feeding device.
In figure: driving motor 1, driving gear 2, the first transmission gear 3-1, the second transmission gear 3-2, the first driven gear
4-1, the second driven gear 4-2, staving 5-1, bung 5-2, the first agitating shaft 6, the second agitating shaft 7, heating module 8, first pump
9, liquid pipeline 10-1, circulation line 10-2, rigid limit bar 11, buffer storage bucket 12, electrolytic cell 13, flow pump 14, electrolysis are passed
Liquid sensor 15.
Specific embodiment
Embodiment one, as shown in Figs. 1-5, produce copper foil electrolyte agitator, comprising: staving (5-1), bung (5-2),
First agitating shaft (6);
Driving motor (1) is installed on bung, the shaft of driving motor is sequentially connected: shaft coupling, retarder, sliding tooth
It takes turns (2), driving gear is engaged with the first transmission gear (3-1), and the first transmission gear (3-1) is nibbled with the first driven gear (4-1)
It closes;The driving gear (2), the first transmission gear (3-1), the first driven gear (4-1) are arranged in hollow bung;
First driven gear (4-1) is internally provided with hollow hole;First agitating shaft (6) is top and bottom end
The hollow agitating shaft being open passes through the hollow hole of the first driven gear (4-1) and protrudes from bung (5-2), the first stirring
Axis (6) and the first driven gear (4-1) are affixed;The surface of first agitating shaft (6) is provided with hole.
It further include the second agitating shaft (7), driving gear is engaged with the second transmission gear (3-2), the second transmission gear (3-2)
It is engaged with the second driven gear (4-2), the second transmission gear (3-2) and the second driven gear (4-2) are also disposed at hollow bung
It is interior;Second driven gear (4-2) is internally provided with hollow hole;Second agitating shaft (7) is hollow agitating shaft, is worn
It crosses the hollow hole of the second driven gear (4-2) and protrudes from bung (5-2), the second agitating shaft (7) and the second driven gear (4-2)
It is affixed, the surface of the second agitating shaft (7) is provided with hole.
First pump (9) is extracted the electrolyte in bucket by pipeline, is then sent by circulation line (10-2) to first and is stirred
It mixes axis (6), the circulation line (10-2) is connect with the first agitating shaft (6) by bearing jointing.
Second agitating shaft is connect with charge pipe.
Furthermore, further includes: heating module (8) and controller are provided with several in the side wall of the staving and bottom
Heating module (8), to keep the temperature of electrolyte;The heating module (8) connect with controller, will pass through controller pair
The heating effect of staving is accurately controlled.
As shown in figure 3, tooth, the first agitating shaft is arranged in the inside of the first driven gear, the hollow hole of the second driven gear
(6), the inside setting of the hollow hole with the first driven gear, the second driven gear is respectively equipped on the outside of the second agitating shaft (7)
The mutually matched tooth of tooth.
As shown in figure 5, the first agitating shaft (6), the second agitating shaft (7) protrude from and are installed with disk body at the top of bung, disk body
Lower part be provided with scroll wheel, be provided with and the mutually matched rolling sliding slot of scroll wheel in the upper surface of bung;Disk body, rolling
Wheel, the purpose for rolling sliding slot are for the first agitating shaft, the second agitating shaft to be suspended on bung.
The course of work of embodiment one are as follows: driving motor rotate when, drive wheel transmission gear rotation, transmission gear into
And the rotation of the first driven gear is driven, the first driven gear is by the tooth of the inner surface of hollow hole and what is matched first stir
The tooth of the outside of axis is mixed, the first agitating shaft also rotates, and in rotation, scroll wheel rolls the first agitating shaft in rolling sliding slot;The
One pump (9) is for constantly recycling the electrolyte in agitator, to make the electrolyte in agitator more uniform.
The material for having the technical effect that circulation pipe of embodiment one, charge pipe material from the first agitating shaft and the second agitating shaft
Into agitator, do not need that other feeding devices are arranged again on staving.
Embodiment two: as shown in fig. 6, the first agitating shaft (6) and the second agitating shaft (7) be "" shape, comprising: first is perpendicular
Straight portion, first horizontal portion, the second vertical portion are respectively provided with stirring blade on the first vertical portion and the second vertical portion;
End and table of the material from the second vertical portion of the first agitating shaft, the second agitating shaft of the material of circulation pipe, charge pipe
After the through-hole in face flows into agitator, since the second vertical portion of the first agitating shaft, the second agitating shaft is constantly located in agitator
In rotation, so that solution is more uniform in the distribution of staving.
In addition, as shown in fig. 7, the first agitating shaft (6), the first vertical portion of the second agitating shaft (7) and the second vertical portion are equal
It is provided with stirring blade, and the region of the stirring blade of the second vertical portion will be compared with the stirring region of the stirring blade of the first vertical portion
It is wider, it will form the situation similar to " up-small and down-big " helical blade, enable: the material for being deposited on staving bottom is smoked
Come, and then reduce depositional phenomenon, improves the uniformity of electrolysis liquid material.
Embodiment three: it as shown in figure 8, electrolyte agitator is in use for some time, needs periodically to be cleaned;Together
When, electrolyte agitator is in process of production, it is also desirable to according to actual production progress, often adjust its position.Embodiment three
Mainly: idler wheel is arranged in the bottom of electrolyte agitator, to meet above two actual demand.Meanwhile it is convenient using idler wheel
While carrying electrolyte agitator, a problem is also brought, agitator how is fixed and (during normal construction, stirs
Bucket is immovable).
Support plate is set in the bottom of electrolyte agitator, multiple rows of idler wheel is arranged in the downside of support plate, wherein every row's idler wheel
Including multiple idler wheels;It is connected with rolling shaft between the idler wheel of every row's idler wheel, the multiple rolling shaft keeps being parallel to each other,
It is used to limit;
At least 1 group of connection sleeve assembly is provided in each rolling shaft, the connection sleeve assembly is by the first connection
Sleeve, the second connection sleeve, third connection sleeve, the 4th connection sleeve composition, and the first connection sleeve connect sleeve with second
Axial direction it is parallel, third connect sleeve, the 4th connection sleeve axial direction it is parallel, first connection sleeve, second connection
Sleeve, third connection sleeve, the 4th connection sleeve are distributed in square shape and roll in shaft;The interior table of each connection sleeve
Face is provided with screw thread, and the outer surface of rigid limit bar is provided with screw thread;
The outer surface of rigid limit bar (11) is provided with screw thread, can will roll shaft by connecting sleeve using gag lever post
It is connected and fixed integrally, so that the idler wheel of electrolyte agitator can not move.
In order to further increase the limit of electrolyte agitator, can also a pre-buried channel steel on the ground, stirred in electrolyte
The support plate side for mixing bucket is also provided with a vertical plate, and the channel steel and vertical plate are fixed up by bolt-nut.
Example IV: as shown in figure 9, a kind of production copper foil electrolyte feeding device, comprising: electrolyte as the aforementioned
Agitator, buffer storage bucket (12), electrolytic cell (13), the first pump (9) will be in electrolyte agitators by passing liquid pipeline (10-1)
Electrolyte send to buffer storage bucket (12), be provided with solenoid valve passing liquid pipeline (10-1) and circulation line (10-2), institute
Solenoid valve is stated to connect with controller;
The buffer storage bucket (12) includes: staving, bung, third agitating shaft, on the bung of buffer storage bucket (12)
Also is provided with driving motor, the shaft of driving motor is sequentially connected: shaft coupling, retarder, driving gear, driving gear and third pass
Moving gear engagement, third transmission gear (3-1) are engaged with third driven gear;The staving of buffer storage bucket (12) side wall with
And heating module is provided in bottom, to keep the temperature of electrolyte;The third driven gear is internally provided with hollow hole;
The third agitating shaft is the hollow agitating shaft of bottom end closure, upper end opening, passes through the hollow hole of third driven gear and dashes forward
For bung, third agitating shaft and third driven gear are affixed;The surface of third agitating shaft is provided with several holes;The third
The top of agitating shaft is connect with liquid pipeline (10-1) is passed, and electrolyte flows into buffer storage bucket from the hole on the surface of third agitating shaft
(12) in;
Electrolyte in electrolyte agitator is sent by the first pump (9) to buffer storage bucket (12);It is described first pump (9) with
Controller connection;
Electrolyte in buffer storage bucket (12) is sent by flow pump (14) into electrolytic cell (13);The flow pump (14)
Also it is connect with controller;
Liquid angular sensor (15) are provided in electrolytic cell (13), the liquid angular sensor is mainly used for real-time measurement
The concentration of copper sulphate in electrolytic cell (13).
Produce the working principle of copper foil electrolyte feeding device are as follows: electrolytic cell, can be in titanium roller in normal use process
Upper constantly deposition copper foil;It is constantly flowed into electrolytic cell simultaneously as washing foil water;Above-mentioned double factor causes the concentration of copper sulphate
Constantly changing, and if the concentration of copper sulphate deviate normal operating range, will cause the bad serious consequence of the quality of copper foil.
The present invention be it is according to liquid angular sensor (15) as a result, it is real-time adjustment agitator flow into buffer storage bucket (12) flow,
And adjustment buffer storage bucket (12) flows into the flow of electrolytic cell.
The concentration of copper sulphate in the buffer storage bucket (12) is higher than the concentration model of electrolytic cell (14) normal copper sulphate
It encloses.
Embodiment provided above is better embodiment of the invention, only is used to facilitate to illustrate the present invention, not to this hair
It is bright to make any form of restriction, any those of ordinary skill in the art, if not departing from the proposed skill of the present invention
In the range of art feature, using the equivalent embodiment for locally changing or modifying made by disclosed technology contents, and
Without departing from technical feature content of the invention, in the range of still falling within the technology of the present invention feature.
Claims (10)
1. a kind of electrolyte feeding device, for producing copper foil characterized by comprising electrolyte agitator, buffer storage bucket
(12), electrolytic cell (13), controller;First pump (9) is extracted the electrolyte in electrolyte agitator by pipeline, is passed through
Liquid pipeline (10-1) is passed to send into buffer storage bucket (12);Solenoid valve, the solenoid valve are provided on passing liquid pipeline (10-1)
It is connect with the controller;
Electrolyte in buffer storage bucket (12) is sent by flow pump (14) into electrolytic cell (13);First pump (9) and stream
Amount pump (14) is also connect with controller;Liquid angular sensor (15), the liquid angular sensor are provided in electrolytic cell (13)
It is mainly used for the concentration of the copper sulphate in real-time measurement electrolytic cell (13);
The electrolyte agitator, comprising: staving (5-1), bung (5-2), the second agitating shaft (7) are installed with drive on bung
Dynamic motor (1), the shaft of driving motor are sequentially connected: shaft coupling, retarder, driving gear (2) drive gear and the second transmission
Gear (3-2) engagement, the second transmission gear (3-2) are engaged with the second driven gear (4-2), drive gear (2), the second driving cog
It takes turns (3-2) and the second driven gear (4-2) is arranged in hollow bung;The inside of second driven gear (4-2) is arranged
There is hollow hole;Second agitating shaft (7) is hollow agitating shaft;Its hollow hole and protrusion for passing through the second driven gear (4-2)
In bung (5-2), the second agitating shaft (7) and the second driven gear (4-2) are affixed;Second agitating shaft (7) be "" shape, packet
Include: the first vertical portion, first horizontal portion, the second vertical portion, the first vertical portion and the second vertical portion of the second agitating shaft (7) are all provided with
It is equipped with stirring blade, and the region of the stirring blade of the second vertical portion of the second agitating shaft is first vertical compared with the second agitating shaft
The stirring region of the stirring blade in portion is wider;Second agitating shaft is connect with charge pipe.
2. a kind of electrolyte feeding device according to claim 1, which is characterized in that buffer storage bucket (12) packet
Include: staving, bung, third agitating shaft also are provided with driving motor, the shaft of driving motor on the bung of buffer storage bucket (12)
Be sequentially connected: shaft coupling, retarder, driving gear, driving gear are engaged with third transmission gear, third transmission gear (3-1)
It is engaged with third driven gear;It is provided with heating module in the side wall of the staving of buffer storage bucket (12) and bottom, to protect
Hold the temperature of electrolyte;The third driven gear is internally provided with hollow hole;The third agitating shaft be bottom end closure, on
The hollow agitating shaft of end opening passes through the hollow hole of third driven gear and protrudes from bung, third agitating shaft and third from
Moving gear is affixed;The surface of third agitating shaft is provided with several holes;The top of the third agitating shaft and biography liquid pipeline (10-
1) it connects, electrolyte flows into buffer storage bucket (12) from the hole on the surface of third agitating shaft.
3. a kind of electrolyte feeding device according to claim 1, which is characterized in that second agitating shaft and charge pipe
Quantity be multiple, and the second agitating shaft is identical as the quantity of charge pipe.
4. a kind of electrolyte feeding device according to claim 1, which is characterized in that further include: the first agitating shaft (6),
Driving gear is engaged with the first transmission gear (3-1), and the first transmission gear (3-1) is engaged with the first driven gear (4-1);It is described
Gear (2), the first transmission gear (3-1), the first driven gear (4-1) is driven to be arranged in hollow bung;Described first is driven
Gear (4-1) is internally provided with hollow hole;First agitating shaft (6) is the hollow agitating shaft that top and bottom end are open,
Its across the first driven gear (4-1) hollow hole and protrude from bung (5-2), the first agitating shaft (6) and the first driven gear
(4-1) is affixed;
First pump (9) is extracted the electrolyte in electrolyte agitator by pipeline, then passes through circulation line (10- again
2) it send to the first agitating shaft (6), the circulation line (10-2) is connect with the first agitating shaft (6) by bearing jointing.
5. a kind of electrolyte feeding device according to claim 4, which is characterized in that circulation line (10-2) setting
There is solenoid valve, solenoid valve is connect with controller.
6. a kind of electrolyte feeding device according to claim 4, which is characterized in that the first agitating shaft (6) be "”
Shape, comprising: be respectively provided with paddle on the first vertical portion, first horizontal portion, the second vertical portion, the first vertical portion and the second vertical portion
Piece, the first vertical portion and the second vertical portion of the first agitating shaft (6) are provided with stirring blade, and the paddle of the second vertical portion
The region of piece is wider compared with the stirring region of the stirring blade of the first vertical portion.
7. a kind of electrolyte feeding device according to claim 1, which is characterized in that further include: heating module (8), institute
It states and is provided with several heating modules (8) in the side wall and bottom of the staving of electrolyte agitator, to keep the temperature of electrolyte
Degree;The heating module (8) connect with controller.
8. a kind of electrolyte feeding device according to claim 6, which is characterized in that in the first agitating shaft (6) and second
The surface of agitating shaft (7) is provided with hole;In the inside of the first driven gear, the hollow hole of the second driven gear, tooth is set, the
The hollow hole with the first driven gear, the second driven gear is respectively equipped on the outside of one agitating shaft (6), the second agitating shaft (7)
The mutually matched tooth of tooth is arranged in inside.
9. a kind of electrolyte feeding device according to claim 6, which is characterized in that the first agitating shaft (6), the second stirring
Axis (7), which protrudes from, is installed with disk body at the top of bung, the lower part of disk body is provided with scroll wheel, the upper surface of bung be provided with
The mutually matched rolling sliding slot of scroll wheel.
10. a kind of electrolyte feeding device according to claim 1, which is characterized in that in the bottom of electrolyte agitator
Support plate is set, and multiple rows of idler wheel is arranged in the downside of support plate, wherein every row's idler wheel includes multiple idler wheels;In the rolling of every row's idler wheel
It is connected with rolling shaft between wheel, the multiple rolling shaft keeps being parallel to each other, it is used to limit;In each rolling shaft
On be provided at least 1 group of connection sleeve assembly, the connection sleeve assembly is by the first connection sleeve, the second connection sleeve, third
Sleeve, the 4th connection sleeve composition are connected, and the first connection sleeve is parallel with the second connection axial direction of sleeve, third connection
Sleeve, the axial direction of the 4th connection sleeve are parallel, and the first connection sleeve, the second connection sleeve, third connection sleeve, the 4th connect
Female connector cylinder is distributed in square shape and rolls in shaft;The inner surface of each connection sleeve is provided with screw thread, rigid limit bar
Outer surface be provided with screw thread.
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CN201810074702.2A CN108166022B (en) | 2018-01-25 | 2018-01-25 | A kind of electrolyte feeding device |
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CN201810074702.2A CN108166022B (en) | 2018-01-25 | 2018-01-25 | A kind of electrolyte feeding device |
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CN108166022B true CN108166022B (en) | 2019-08-27 |
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CN108866571B (en) * | 2018-08-23 | 2019-09-20 | 大同新成新材料股份有限公司 | A kind of electrolyte feeding device |
CN110379649A (en) * | 2019-06-06 | 2019-10-25 | 邵阳学院 | A kind of processing unit of unleaded electrolytic capacitor etched foil |
CN110528025B (en) * | 2019-08-19 | 2021-06-18 | 西北矿冶研究院 | Copper electrolysis system and method capable of adjusting copper acid ratio |
CN111575747B (en) * | 2020-06-15 | 2021-10-01 | 赣州逸豪新材料股份有限公司 | Foil generation machine capable of effectively improving uniform density of copper foil surface |
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US6010610A (en) * | 1996-04-09 | 2000-01-04 | Yih; Pay | Method for electroplating metal coating(s) particulates at high coating speed with high current density |
WO2011048699A1 (en) * | 2009-10-23 | 2011-04-28 | トヨタ自動車株式会社 | Stirring device |
CN102094118A (en) * | 2011-01-25 | 2011-06-15 | 重庆大学 | Agitator blade for improving leaching rate of metal manganese electrolyte |
CN202151517U (en) * | 2011-06-20 | 2012-02-29 | 广东蓝宝制药有限公司 | Stirrer for pravastatin sodium crystallization technology |
CN204198475U (en) * | 2014-09-18 | 2015-03-11 | 丹阳市新光电子有限公司 | A kind of Zinc-containing electroplating waste water quick treatment device |
CN204384120U (en) * | 2014-12-24 | 2015-06-10 | 威海百合生物技术股份有限公司 | A kind of soft capsule content feed liquid storage tank |
CN204841506U (en) * | 2015-07-21 | 2015-12-09 | 镇江市建科工程质量检测中心有限公司 | Agitator |
CN106732273A (en) * | 2016-12-26 | 2017-05-31 | 江苏新宏大集团有限公司 | A kind of half water law phosphoric acid special agitating apparatus |
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