CN206204439U - Split type pole plate bridging arrangement and the electrolytic cell with the structure - Google Patents
Split type pole plate bridging arrangement and the electrolytic cell with the structure Download PDFInfo
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- CN206204439U CN206204439U CN201621199222.1U CN201621199222U CN206204439U CN 206204439 U CN206204439 U CN 206204439U CN 201621199222 U CN201621199222 U CN 201621199222U CN 206204439 U CN206204439 U CN 206204439U
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- pedestal
- conducting beam
- lid
- pole plate
- split type
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Abstract
The utility model discloses a kind of split type pole plate bridging arrangement, including:Conductive bus bar, conducting beam fixed seat and limit base, conducting beam fixed seat include:Pedestal, is made of an electrically conducting material, with pedestal base and two pedestal sides and open top;Lid, is made up of insulating materials, and lid is mounted in the top of pedestal, with lid top surface and two lid sides;Limit base is made up of insulating materials, with pedestal base and two pedestal sides and open top.Set by conducting beam fixed seat structure, lid applies pressure from top to conducting beam, pedestal accommodates conducting beam, conducting beam fixed seat four sides is set to surround conducting beam, improve the electrical-contact area of conductive bus bar and conducting beam, so that conducting beam is contacted more preferably with conductive bus bar, tank voltage is lower, and negative and positive die opening is average and without error, electricity effect is higher, after lid pushes down conducting beam, conducting beam and battery lead plate will not loosen with people's position factor and electrolysis process factor, do not result in empty contact phenomena and produce.
Description
Technical field
The utility model is related to electrolysis installation technical field, more particularly to split type pole plate bridging arrangement and with the structure
Electrolytic cell.
Background technology
The producer of current international and domestic use electrolysis process technology, its all technique is in parallel using negative electrode and anode is in parallel even
Connect, every piece of anode and cathode only one of which contact, anode and cathode pole plate conducting beam is basic with copper bus-bar contact overlap joint to be contacted and point using face
The method of contact, its shortcoming one, because electrolysis time is long, copper bus-bar red copper surface easily oxidation and live acid mist than larger,
Easily cause acid mist to float onto overlapped points, cause contact resistance increasing, and loose contact void contact phenomena is produced, and causes the moon
Current unevenness between anode is even, and product quality, physical appearance are brought to production, and electricity imitates bad etc. having a strong impact on.Shortcoming two,
Cathode-anode plate and copper bus-bar are freely overlapped by the own wt of pole plate, and the weight of pole plate can influence conductive effect, pole plate weight weight,
Conductive effect is good, and pole plate is lightweight, and conductive effect is poor, and pole plate has certain buoyancy in electrolyte, often causes vacation
Contact and virtual connection are touched, and the energy consumption to being electrolysed is very big and increases the working strength of electrolytic cell facial canal reason, to further lifting state
The high current production of the border country brings very big limitation.
Utility model content
In order to solve the above problems, the utility model provides a kind of overlap joint for being avoided that oxidation and acid mist to electrolytic conduction
The split type pole plate bridging arrangement that contact and pole plate weight influence on electrolytic conduction.
According to one side of the present utility model, there is provided a kind of split type pole plate bridging arrangement, including:
At least two conductive bus bars be arrangeding in parallel;
It is arranged on the conductive bus bar, and positioned at the conducting beam fixed seat and limit base at conducting beam two ends, same institute
State the conducting beam fixed seat and the limit base interval setting on conductive bus bar;
The conducting beam fixed seat includes:Pedestal, is made of an electrically conducting material, with pedestal base and two pedestal sides and
Open top;
The limit base is made up of insulating materials, with pedestal base and two pedestal sides and open top.
Preferably, split type pole plate bridging arrangement of the present utility model,
The structure of the pedestal of the conducting beam fixed seat of conducting beam that fixation is connected with anode is:The inwall on the pedestal base
It is the face of cylinder, the inwall of the pedestal side is plane.
Preferably, split type pole plate bridging arrangement of the present utility model,
The structure of the limit base of the conducting beam fixed seat of conducting beam that fixation is connected with anode is:The pedestal base and two
The inwall of bar pedestal side is plane, pedestal base and two receiving spaces of pedestal side formation rectangle.
Preferably, split type pole plate bridging arrangement of the present utility model,
The pedestal of conducting beam fixed seat and the structure of limit base of the conducting beam that fixation is connected with negative electrode are:The pedestal
The inwall of base and two pedestal sides is integrally formed the face of cylinder or parabolic cylinder.
Preferably, split type pole plate bridging arrangement of the present utility model, conducting beam fixed seat also includes lid, and lid is by exhausted
Edge material is made, and lid is mounted in the top of pedestal, with lid top surface and two lid sides;Two lid sides are into eight words
Shape is distributed.
Preferably, split type pole plate bridging arrangement of the present utility model, the pedestal side top both sides form respectively
Flange, forms protuberance respectively on the inwall of the lid side, the protruding parts is in flange lower section and is resisted against
On the flange, screw is formed on the lid top surface, the screw is provided with screw.
Preferably, split type pole plate bridging arrangement of the present utility model, the pedestal two bottom sides set projection, described convex
Fixing hole is formed on block.
Preferably, split type pole plate bridging arrangement of the present utility model, the inner wall surface of the pedestal has silver coating.
The utility model additionally provides a kind of electrolytic cell, including top end opening rectangle cell body, two of the cell body are long
Above-mentioned split type pole plate bridging arrangement is provided with side, is fixed by split type pole plate bridging arrangement and is arranged on leading on cell body
Electric beam, and the electrode that conducting beam lower section is extend into cell body is set.
Preferably, electrolytic cell of the present utility model, the cell body is the multiple being set up in parallel, two neighboring cell body it is adjacent
Side shares a conductive bus bar.
The utility model compared with prior art, with advantages below:By conducting beam fixed seat and the structure of limit base
Set, lid applies pressure from top to conducting beam, pedestal accommodates conducting beam, conducting beam fixed seat four sides is surrounded conduction
Beam, improves the electrical-contact area of conductive bus bar and conducting beam so that conducting beam is contacted more preferably with conductive bus bar, and tank voltage is more
It is low, and negative and positive die opening is average and does not have error, and electricity effect is higher, and after lid pushes down conducting beam, conducting beam and battery lead plate will not
Loosened with people's position factor and electrolysis process factor, do not result in empty contact phenomena and produce.It is avoided that oxidation and acid mist to electricity
The overlap joint contact and pole plate weight for solving conduction influence on electrolytic conduction.
Brief description of the drawings
Fig. 1 is a kind of structural representation of the conducting beam fixed seat of implementation method of the utility model;
Fig. 2 is the structural representation of the pedestal of the conducting beam fixed seat of the conducting beam that fixation of the present utility model is connected with anode
Figure;
Fig. 3 is the pedestal and limit base of the conducting beam fixed seat of the conducting beam that fixation of the present utility model is connected with negative electrode
Structural representation;
Fig. 4 is a kind of structural representation of the lid of implementation method of the utility model;
Fig. 5 is the stereogram of split type pole plate bridging arrangement of the present utility model;
Fig. 6 is the structural representation of each part on the conductive bus bar positioned at both sides of the present utility model;
Fig. 7 is the structural representation of each part on middle conductive bus bar of the present utility model;
Fig. 8 is the structural representation of electrolytic cell;
Fig. 9 is the top view of split type pole plate bridging arrangement.
Reference in figure is:
1- pedestals;2- lids;11- pedestals base;12- pedestals side;13- projections;14- flanges;21- lid top surfaces;22-
Lid side;23- protuberances;24- screws;3- conducting beams;4- conducting beam fixed seats;5- limit bases;7- conductive bus bars;8- electricity
Pole;9- cell bodies.
Conducting beam in Fig. 1 employs omissive representation.
Specific embodiment
The utility model is described in further detail below in conjunction with the accompanying drawings.
Embodiment 1
Fig. 1-5 schematically shows the split type pole plate bridging arrangement according to a kind of implementation method of the present utility model.
As shown in figure 5, including:
At least two conductive bus bars 7 be arrangeding in parallel (quantity is arranged as required to);
It is arranged on the conductive bus bar 7, and positioned at the conducting beam fixed seat 4 and limit base 5 (every at the two ends of conducting beam 3
Conducting beam 3 is located between two adjacent conductive bus bars 7), the conducting beam fixed seat 4 on the same conductive bus bar 7
With the interval setting of limit base 5;
The conducting beam fixed seat 4 includes:Pedestal 1, is made of an electrically conducting material, with pedestal base 11 and two pedestal sides
Side 12 and open top;
The limit base 5 is made up of insulating materials, with pedestal base 11 and two pedestal sides 12 and open top.
3 points of conducting beam is the conducting beam 3 being connected with negative electrode and the conducting beam 3 being connected with anode.
The structure of the wherein pedestal 1 of the conducting beam fixed seat 4 of conducting beam 3 that fixation is connected with anode is:The pedestal bottom
The inwall on side 11 is the face of cylinder, and the inwall of the pedestal side 12 is plane, as shown in Figure 2 and Figure 6.
The structure of the limit base 5 of the conducting beam fixed seat 4 of conducting beam 3 that fixation is connected with anode is:The pedestal base
11 and the inwall of two pedestal sides 12 be plane, the receiving that pedestal base 11 and two pedestal sides 12 form rectangles is empty
Between, structure is such as the limit base 5 in left side in the structure and Fig. 7 of the pedestal in Fig. 1.
The pedestal 1 of conducting beam fixed seat 4 and the structure of limit base 5 of the conducting beam 3 that fixation is connected with negative electrode are:It is described
The inwall of pedestal base 11 and two pedestal sides 12 is integrally formed the face of cylinder or parabolic cylinder, such as right side in Fig. 3 and Fig. 7
Shown in limit base 5, now, the cross section of conducting beam 3 is plane that is circular or being surrounded by parabola and straight line.
Conducting beam fixed seat 4 also includes lid 2, and lid 2 is made up of insulating materials, and lid is mounted in the top of the pedestal 1, tool
There are lid top surface 21 and two lid sides 22;As a kind of specific embodiment of lid 2, two 22 one-tenth of lid sides
Splayed is distributed.
Conducting beam fixed seat 4 with the concrete structure of limit base 5 is engaged with the structure of conducting beam 3, and the structure of conducting beam 3 is not
Meanwhile, also can be using other shapes of conducting beam fixed seat 4 and limit base 5.
Preferably, conducting beam fixed seat 4 of the present utility model, the pedestal side top both sides form flange respectively
14, protuberance 23 is formed on the inwall of the lid side 22 respectively, the protuberance 23 is located at the lower section of the flange 14 simultaneously
It is resisted against on the flange 14, screw 24 is formed on the lid top surface 21.Mounting screw in screw 24, after tightening screw,
Screw applies pressure, and lid 2 by active force upward in Fig. 1 to conducting beam 3, and protuberance 23 is tightly resisted against flange
14 lower section, makes pedestal 1 be fixed together with lid 2 and conducting beam 3.
Used as a kind of implementation method of deformation, pedestal 1 can directly be connected by screw with lid 2.
Preferably, conducting beam fixed seat 4 of the present utility model, the pedestal 1 and the two bottom sides of limit base 5 set projection
13, there is fixing hole in the shaping of projection 13.Projection 13 and fixing hole are set, pedestal 1 is fixed on by electricity through fixing hole by screw
The top of groove 9 is solved, facilitates the installation of pedestal 1 and limit base 5.
By conducting beam fixed seat 4 and the structure setting of limit base 5, lid 2 applies pressure, seat from top to conducting beam 3
Body 1 accommodates conducting beam 3, the four sides of conducting beam fixed seat 4 is surrounded conducting beam 3, improves conductive bus bar and is connect with the electricity of conducting beam 3
Contacting surface is accumulated so that conducting beam is contacted more preferably with conductive bus bar, and tank voltage is lower, and negative and positive die opening is average and does not have error,
Electricity effect is higher, and after lid pushes down conducting beam, conducting beam and battery lead plate will not loosen with people's position factor and electrolysis process factor,
Empty contact phenomena is not resulted in produce.It is avoided that oxidation and acid mist are led to the overlap joint contact of electrolytic conduction and pole plate weight to electrolysis
Film rings.
Improved as one kind, the inner wall surface of pedestal 1 can also be silver-plated, further to improve electric conductivity.
Conductive bus bar, pedestal 1 are preferably copper product, and lid 2 and limit base 5 are made up of the macromolecular material insulating.
Embodiment 2
The present embodiment provides the rectangle cell body 9 of a kind of electrolytic cell, such as Fig. 8 and 9, including top end opening, the two of the cell body 9
Split type pole plate bridging arrangement as described in Example 1 is provided with bar side long, is fixed by split type pole plate bridging arrangement and set
The conducting beam 3 on cell body 9 is put, and the electrode 8 (negative electrode or anode) that the lower section of conducting beam 3 is extend into cell body 9 is set.
Cell body 9 be set up in parallel it is multiple when, the adjacent edge of two neighboring cell body 9 can share a conductive bus bar 7.
The electrolytic cell of the present embodiment, the split type pole plate bridging arrangement with embodiment 1, thus also with embodiment 1
Described advantage.
Negative electrode and anode interval setting in electrode 8 as described in Figure 9, conducting beam fixed seat 4 is also with limit base 5 in same row
It is spaced.
Above-described is only some implementation methods of the present utility model.For the person of ordinary skill of the art,
On the premise of the utility model creation design is not departed from, various modifications and improvements can be made, these belong to this practicality
New protection domain.
Claims (10)
1. a kind of split type pole plate bridging arrangement, it is characterised in that including:
At least two conductive bus bars be arrangeding in parallel (7);
It is arranged on the conductive bus bar (7), and positioned at the conducting beam fixed seat (4) and limit base (5) at conducting beam two ends, it is same
The conducting beam fixed seat (4) and limit base (5) interval setting on conductive bus bar described in root (7);
The conducting beam fixed seat (4) includes:Pedestal (1), is made of an electrically conducting material, with pedestal base (11) and two pedestals
Side (12) and open top;
The limit base (5) is made up of insulating materials, with pedestal base and two pedestal sides and open top.
2. split type pole plate bridging arrangement according to claim 1, it is characterised in that
The structure of the pedestal (1) of the conducting beam fixed seat (4) of conducting beam (3) that fixation is connected with anode is:The pedestal base
(11) inwall is the face of cylinder, and the inwall of the pedestal side (12) is plane.
3. split type pole plate bridging arrangement according to claim 1, it is characterised in that
The structure of the limit base (5) of the conducting beam fixed seat (4) of conducting beam (3) that fixation is connected with anode is:The pedestal bottom
The inwall of side (11) and two pedestal sides (12) is plane, and pedestal base (11) and two pedestal sides (12) form rectangle
Receiving space.
4. split type pole plate bridging arrangement according to claim 1, it is characterised in that
The pedestal (1) of conducting beam fixed seat (4) and the structure of limit base (5) of the conducting beam (3) that fixation is connected with negative electrode are:
The inwall of the pedestal base and two pedestal sides is integrally formed the face of cylinder or parabolic cylinder.
5. the split type pole plate bridging arrangement according to claim any one of 1-4, it is characterised in that the conducting beam is fixed
Seat (4) also includes lid (2), and the lid (2) is made up of insulating materials, and lid is mounted in the top of the pedestal (1), with lid
Top surface (21) and two lid sides (22);Two lid sides (22) are distributed into splayed.
6. split type pole plate bridging arrangement according to claim 5, it is characterised in that the pedestal side top both sides point
Flange (14) is not formed, forms protuberance (23), the protuberance (23) on the inwall of the lid side (22) respectively
Positioned at the flange (14) lower section and be resisted against on the flange (14), form screw (24) on the lid top surface (21),
The screw (24) is provided with screw.
7. the split type pole plate bridging arrangement according to claim any one of 1-4, it is characterised in that pedestal (1) bottom
Portion both sides set projection (13), and fixing hole is formed on the projection (13).
8. the split type pole plate bridging arrangement according to claim any one of 1-4, it is characterised in that the pedestal (1)
Inner wall surface has silver coating.
9. a kind of electrolytic cell, it is characterised in that the rectangle cell body (9) including top end opening, on two sides long of the cell body (9)
Set just like the split type pole plate bridging arrangement described in claim any one of 1-8, fixed by split type pole plate bridging arrangement and
The conducting beam (3) on cell body (9) is arranged on, and the electrode (8) that conducting beam (3) lower section is extend into cell body (9) is set.
10., according to electrolytic cell as claimed in claim 9, the cell body (9) is the multiple being set up in parallel, two neighboring cell body
(9) adjacent edge shares a conductive bus bar (7).
Priority Applications (1)
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CN201621199222.1U CN206204439U (en) | 2016-11-07 | 2016-11-07 | Split type pole plate bridging arrangement and the electrolytic cell with the structure |
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CN201621199222.1U CN206204439U (en) | 2016-11-07 | 2016-11-07 | Split type pole plate bridging arrangement and the electrolytic cell with the structure |
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CN206204439U true CN206204439U (en) | 2017-05-31 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106435651A (en) * | 2016-11-07 | 2017-02-22 | 杭州帝洛森科技有限公司 | Split type polar plate lap joint structure and electrolytic bath with same |
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2016
- 2016-11-07 CN CN201621199222.1U patent/CN206204439U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106435651A (en) * | 2016-11-07 | 2017-02-22 | 杭州帝洛森科技有限公司 | Split type polar plate lap joint structure and electrolytic bath with same |
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