A kind of electrolyte agitator and its method of work
Technical field
The present invention relates to rabbling mechanism technical field, more specifically more particularly to a kind of electrolyte agitator and its work
Make method.
Background technology
It is recorded in CN205856623U, in cupric electrolysis production process, needs to add in glue or surface into electrolyte
The additives such as active material, still, conventional blender, it may appear that " closer to stirring shaft position, wheel speed is smaller, easily
Dead angle is formed immediately below, and then additive is caused to be deposited at this in agitating shaft " the technical issues of.
Invention content
The purpose of the present invention is to provide a kind of electrolyte agitator and its method of works, can solve additive and be deposited on
The problem of shaft bottom.
The technical proposal of the invention is realized in this way:A kind of electrolyte agitator, including:Staving(5-1), bung(5-
2), the first agitating shaft(6);
Driving motor is installed on bung(1), the shaft of driving motor is sequentially connected:Shaft coupling, retarder, drive gear
(2), drive gear and the first transmission gear(3-1)Engagement, the first transmission gear(3-1)With the first driven gear(4-1)Engagement;
The drive gear(2), the first transmission gear(3-1), the first driven gear(4-1)It is arranged in hollow bung;
First driven gear(4-1)Be internally provided with hollow hole;First agitating shaft(6)It is opened with bottom end for top
The hollow agitating shaft of mouth passes through the first driven gear(4-1)Hollow hole and protrusion and bung(5-2), the first agitating shaft(6)
With the first driven gear(4-1)It is affixed;
The top of first agitating shaft is connect with pipeline;
First agitating shaft(6)For "" shape, including:First vertical portion, first horizontal portion, the second vertical portion, the first vertical portion
With stirring blade, the first agitating shaft are respectively provided on the second vertical portion(6)The first vertical portion and the second vertical portion be both provided with and stir
Blade is mixed, and the region of the stirring blade of the second vertical portion is wider compared with the stirring region of the stirring blade of the first vertical portion.
Further, the second agitating shaft is further included(7), drive gear and the second transmission gear(3-2)Engagement, the second driving cog
Wheel(3-2)With the second driven gear(4-2)Engagement, the second transmission gear(3-2)With the second driven gear(4-2)It is also disposed at sky
In heart bung;Second driven gear(4-2)Be internally provided with hollow hole;Second agitating shaft(7)For hollow stirring
Axis passes through the second driven gear(4-2)Hollow hole and protrusion and bung(5-2), the second agitating shaft(7)With the second driven tooth
Wheel(4-2)It is affixed;
It is additionally provided with pump(9), pump(9)The electrolyte in bucket is extracted by pipeline, then passes through circulation line again(10-2)It send
To the first agitating shaft(6), the circulation line(10-2)With the first agitating shaft(6)It is connected by bearing jointing;Described
Two agitating shafts are connect with charge pipe.
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, the second agitating shaft(7)For "" shape, including:First vertical portion, first horizontal portion, the second vertical portion,
Stirring blade, the second agitating shaft are respectively provided on first vertical portion and the second vertical portion(7)The first vertical portion and the second vertical portion
Stirring blade is both provided with, and the region of the stirring blade of the second vertical portion will be compared with the stirring area of the stirring blade of the first vertical portion
Domain is wider.
Further, it further includes:Heating module(8)With controller, it is provided in the side wall of the staving and bottom several
A heating module(8), to keep the temperature of electrolyte;The heating module(8)It is connect with controller, will pass through controller
The heating effect of staving is accurately controlled.
Further, in the first agitating shaft(6)With the second agitating shaft(7)Surface be both provided with hole.
Further, tooth, the first agitating shaft are set in the inside of the first driven gear, the hollow hole of the second driven gear(6)、
Second agitating shaft(7)Outside be respectively equipped with the inside setting tooth phase of hollow hole with the first driven gear, the second driven gear
The tooth mutually coordinated.
Further, the first agitating shaft(6), the second agitating shaft(7)It protrudes from and disk body is installed at the top of bung, under disk body
Portion is provided with scroll wheel, and the rolling sliding slot to cooperate with scroll wheel is provided in the upper surface of bung.
Further, support plate is set in the bottom of electrolyte agitator, the downside of support plate sets multiple rows of idler wheel, wherein,
Often 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 mutually parallel, it is used to limit;At least 1 group of branch sleeve component, the branch sleeve group are provided in each rolling shaft
Part is made of the first branch sleeve, the second branch sleeve, third branch sleeve, the 4th branch sleeve, and the first branch sleeve with
The axial direction of second branch sleeve is parallel, and third branch sleeve, the axial direction of the 4th branch sleeve are parallel, the first connector sleeve
Cylinder, the second branch sleeve, third branch sleeve, the 4th branch sleeve are distributed in square shape and roll in shaft;It is described each to connect
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.
Further, the method for work of electrolyte agitator, includes the following steps:After driving motor rotation, driving wheel drives
Nutating gear rotates, transmission gear and then driving the first driven gear rotation, the interior table that the first driven gear passes through hollow hole
The tooth of the outside of the tooth in face and matched first agitating shaft, the first agitating shaft also rotate, the first agitating shaft rotation when,
Scroll wheel rolls in sliding slot is rolled;
Meanwhile transmission gear drive the second driven gear rotation, the tooth for the inner surface that the second driven gear passes through hollow hole and
The tooth of the outside of matched second agitating shaft, the second agitating shaft also rotate, and in rotation, scroll wheel is rolling the second agitating shaft
It is rolled in sliding slot;
Pump(9)Pass through circulation line(10-2)Electrolyte in agitator is constantly sent into the first agitating shaft, a line electrolyte
Continuous cycle so that the electrolyte in agitator is more uniform;Meanwhile the material in charge pipe passes through the second agitating shaft
It is sent into electrolyte agitator.
The beneficial effects of the present invention are:
(1)Agitating shaft uses hollow agitating shaft, and upper part is connect with pipeline, and its shape is using the stirring of bent and lower part
Axis region is wider compared with the stirring region on top so that and in stirring, the bottom of agitating shaft is constantly in rotation, meanwhile, it is lower big
Upper small stirring region, can form upward suction;So as to solve, " overhead rabbling mechanism, additive are deposited on stirring
The problem of axis lower part ".
(2)Agitating shaft is constantly in using hollow agitating shaft and its bottom in rotation process, can cause circulation line,
The solution of charge pipe is more uniformly flowed back into agitator;
(3)Idler wheel is set in the bottom of agitator, is then solved and stirred by the way of rigid limit bar and branch sleeve component
Mix the problem of bucket is fixed.
Description of the drawings
The present invention is described in further detail for embodiment in below in conjunction with the accompanying drawings, but does not form to the present invention's
Any restrictions.
Fig. 1 is the structure diagram of the electrolyte agitator in embodiment one.
Fig. 2 is that drive gear, the first transmission gear, the second transmission gear, the first driven gear, second driven gear are 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 structure 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 the connection diagram of the rigid limit bar in embodiment three and branch sleeve component.
Fig. 9 is a kind of schematic diagram for producing copper foil electrolyte feeding device in example IV.
In figure:Driving motor 1, drive gear 2, the first transmission gear 3-1, the second transmission gear 3-2, the first driven gear
4-1, it 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, pump 9, passes
Liquid pipeline 10-1, circulation line 10-2, rigid limit bar 11, buffer storage bucket 12, electrolytic cell 13, flow pump 14, electrolyte pass
Sensor 15.
Specific embodiment
Embodiment one as shown in Figs. 1-5, produces copper foil electrolyte agitator, including:Staving(5-1), bung(5-2)、
First agitating shaft(6);
Driving motor is installed on bung(1), the shaft of driving motor is sequentially connected:Shaft coupling, retarder, drive gear
(2), drive gear and the first transmission gear(3-1)Engagement, the first transmission gear(3-1)With the first driven gear(4-1)Engagement;
The drive gear(2), the first transmission gear(3-1), the first driven gear(4-1)It is arranged in hollow bung;
First driven gear(4-1)Be internally provided with hollow hole;First agitating shaft(6)It is opened with bottom end for top
The hollow agitating shaft of mouth passes through the first driven gear(4-1)Hollow hole and protrusion and bung(5-2), the first agitating shaft(6)
With the first driven gear(4-1)It is affixed;In the first agitating shaft(6)Surface be provided with hole.
Further include the second agitating shaft(7), drive gear and the second transmission gear(3-2)Engagement, the second transmission gear(3-2)
With the second driven gear(4-2)Engagement, the second transmission gear(3-2)With the second driven gear(4-2)It is also disposed at hollow bung
It is interior;Second driven gear(4-2)Be internally provided with hollow hole;Second agitating shaft(7)For hollow agitating shaft, wear
Cross the second driven gear(4-2)Hollow hole and protrusion and bung(5-2), the second agitating shaft(7)With the second driven gear(4-2)
It is affixed, in the second agitating shaft(7)Surface be provided with hole.
Pump(9)By pipeline, the electrolyte in bucket is extracted, then passes through circulation line(10-2)It send to the first agitating shaft
(6), the circulation line(10-2)With the first agitating shaft(6)It is connected by bearing jointing.
Second agitating shaft is connect with charge pipe.
In addition, it further includes:Heating module(8)With controller, several are provided in the side wall of the staving and bottom
Heating module(8), to keep the temperature of electrolyte;The heating module(8)It is 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 are set in the inside of the first driven gear, the hollow hole of the second driven gear
(6), the second agitating shaft(7)Outside be respectively equipped with the inside setting of hollow hole with the first driven gear, the second driven gear
The tooth that tooth cooperates.
As shown in figure 5, the first agitating shaft(6), the second agitating shaft(7)It protrudes from and disk body is installed at the top of bung, disk body
Lower part be provided with scroll wheel, the rolling sliding slot to cooperate with scroll wheel is provided in the upper surface of bung;Disk body, rolling
Wheel, the purpose for rolling sliding slot are the first agitating shaft, the second agitating shaft being suspended on bung.
The course of work of embodiment one is:Driving motor rotate when, drive wheel transmission gear rotation, transmission gear into
And the rotation of the first driven gear is driven, it the tooth for the inner surface that the first driven gear passes through hollow hole and matched first stirs
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 sliding slot is rolled;Pump
(9)For the electrolyte in agitator constantly to be recycled, so that the electrolyte in agitator is more uniform.
Embodiment one has technical effect that:The material of circulation pipe, the material of charge pipe are from the first agitating shaft and the second agitating shaft
Into agitator, do not need to set other feeding devices again on staving.
Embodiment two:As shown in fig. 6, the first agitating shaft(6)With the second agitating shaft(7)For "" shape, including: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;
The material of circulation pipe, the material of charge pipe are from the first agitating shaft, the end of the second vertical portion of the second agitating shaft and surface
After through-hole flows into agitator, turn since the second vertical portion of the first agitating shaft, the second agitating shaft is constantly in agitator
In dynamic so that solution is more uniform in the distribution of staving.
In addition, as shown in fig. 7, the first agitating shaft(6), the second agitating shaft(7)The first vertical portion and the second vertical portion it is equal
Stirring blade is provided with, 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, the situation similar to " up-small and down-big " helical blade can be formed so that:The material for being deposited on staving bottom can be smoked
Come, and then reduce depositional phenomenon, improve the uniformity of electrolysis liquid material.
Embodiment three:As shown in figure 8, electrolyte agitator is in use for some time, need 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:The bottom of electrolyte agitator is set into idler wheel, to meet above two actual demand.It is meanwhile convenient using idler wheel
While carrying electrolyte agitator, a problem is also brought, how to fix agitator(During normal construction, stirring
Bucket is immovable).
Support plate is set in the bottom of electrolyte agitator, the downside of support plate sets multiple rows of idler wheel, wherein, often arrange 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 mutually parallel,
It is used to limit;
Be provided at least 1 group of branch sleeve component in each rolling shaft, the branch sleeve component by the first branch sleeve,
Second branch sleeve, third branch sleeve, the 4th branch sleeve composition, and the axial direction of the first branch sleeve and the second branch sleeve
Direction is parallel, and third branch sleeve, the axial direction of the 4th branch sleeve are parallel, the first branch sleeve, the second branch sleeve,
Three branch sleeves, the 4th branch sleeve are distributed in square shape and roll in shaft;The inner surface setting of each branch sleeve
There is screw thread, the outer surface of rigid limit bar is provided with screw thread;
Rigid limit bar(11)Outer surface be provided with screw thread, using gag lever post can by branch sleeve will roll shaft connect
It is integrally fixed, can not be moved so as to the idler wheel of electrolyte agitator.
In order to further improve the limiting 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 is fixed up with vertical plate by bolt-nut.
Example IV:As shown in figure 9, a kind of production copper foil electrolyte feeding device, including:Electrolyte as the aforementioned
Agitator, buffer storage bucket(12), electrolytic cell(13), pump(9)Biography liquid pipeline is crossed all(10-1)It will be in electrolyte agitator
Electrolyte is sent to buffer storage bucket(12), passing liquid pipeline(10-1)And circulation line(10-2)Solenoid valve is both provided with, it is described
Solenoid valve is connect with controller;
The buffer storage bucket(12)Including:Staving, bung, third agitating shaft, in buffer storage bucket(12)Bung on also set
There is driving motor, the shaft of driving motor is sequentially connected:Shaft coupling, retarder, drive gear, drive gear and third driving cog
Wheel engagement, third transmission gear(3-1)It is engaged with third driven gear;In buffer storage bucket(12)Staving side wall and bottom
Heating module is provided in portion, to keep the temperature of electrolyte;The third driven gear is internally provided with hollow hole;It is described
Third agitating shaft for bottom end closure, upper end opening hollow agitating shaft, pass through third driven gear hollow hole and protrusion with
Bung, third agitating shaft and third driven gear are affixed;The surface of third agitating shaft is provided with several holes;The third stirring
The top of axis is with passing liquid pipeline(10-1)Connection, electrolyte flow into buffer storage bucket from the hole on the surface of third agitating shaft(12)
In;
Electrolyte in electrolyte agitator passes through pump(9)It send to buffer storage bucket(12);The pump(9)It is connect with controller;
Buffer storage bucket(12)In electrolyte pass through flow pump(14)It send to electrolytic cell(13)In;The flow pump(14)Also with
Controller connects;
In electrolytic cell(13)In be provided with liquid angular sensor(15), the liquid angular sensor, which is mainly used for measuring in real time, to be electrolysed
Slot(13)In copper sulphate concentration.
Produce copper foil is with the operation principle of electrolyte feeding device:Electrolytic cell, can be in titanium roller during normal use
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 deviates normal operating range, the serious consequence that the quality of copper foil can be caused bad.
The present invention 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)Flow into the flow of electrolytic cell.
The buffer storage bucket(12)In copper sulphate concentration be higher than electrolytic cell(14)The concentration model of normal copper sulphate
It encloses.
Better embodiment of the embodiment provided above for the present invention only is used for facilitating illustrating the present invention, not to this hair
The limitation of bright work in any form, any those of ordinary skill in the art, if putting forward skill not departing from 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 the technical feature content of the present invention, in the range of still falling within the technology of the present invention feature.