CN208791788U - Improve the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell - Google Patents
Improve the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell Download PDFInfo
- Publication number
- CN208791788U CN208791788U CN201821450788.6U CN201821450788U CN208791788U CN 208791788 U CN208791788 U CN 208791788U CN 201821450788 U CN201821450788 U CN 201821450788U CN 208791788 U CN208791788 U CN 208791788U
- Authority
- CN
- China
- Prior art keywords
- electrolytic cell
- power supply
- energy
- electrolytic
- cutting ferrule
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Electrolytic Production Of Metals (AREA)
Abstract
The utility model relates to electrolysis electrode technical fields, and disclose the energy-saving long-life titanium electrode slice for improving the comprehensive electrolytic efficiency of electrolytic cell, including electrolytic cell, the inner wall of the electrolytic cell is fixedly connected with transverse slat, loose slot is offered at the top of the transverse slat, the internal activity of the loose slot is socketed with power supply connector sleeve, power supply line is electrically connected at the top of the power supply connector sleeve, and the side of power supply connector sleeve is fixedly connected with mounting plate, the top of the mounting plate is connected by the top movable of fixed pin and movable button.The energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of the raising electrolytic cell, it can be during Ti electrode piece works by positioning sleeve, play the role of positioning to the surface of Ti electrode piece, Ti electrode piece is avoided the problem of bending deformation when used for a long time, it can make the spacing between two electrodes that huge variation not occur, the stability for ensuring electrolyte bath voltage improves the electrolytic efficiency of electrolytic cell.
Description
Technical field
The utility model relates to electrolysis electrode technical fields, the specially energy-saving length of the comprehensive electrolytic efficiency of raising electrolytic cell
Service life Ti electrode piece.
Background technique
Ti electrode piece, which refers to, brushes or sprays some metal oxide containing precious metals on the basis of titanium material, and with traditional graphite
Electrode is compared with lead-containing alloy electrode, and Ti electrode has that operating voltage is low, power consumption is small, corrosion resistance is strong, light-weight and can
The advantages that Reusability;However, the phenomenon that existing Ti electrode piece during long-time service, is easy to happen bending deformation,
So that the spacing between two electrodes changes, the decomposition voltage of electrolyte bath is affected, leads to the electrolytic efficiency of electrolytic cell
It is low, while when replacing Ti electrode piece, it is difficult to disassembly installation is carried out to it, so that operating process is cumbersome and time-consuming and laborious.
Utility model content
In view of the deficiencies of the prior art, the utility model provides the energy-saving longevity for improving the comprehensive electrolytic efficiency of electrolytic cell
Ti electrode piece is ordered, positioning can be played the role of to the surface of Ti electrode piece by having, and avoid Ti electrode piece when used for a long time
Bend deformation the problem of, it is ensured that the stability of electrolyte bath voltage improves the electrolytic efficiency of electrolytic cell, while energy
It is enough to be convenient for replacing Ti electrode piece, so that the simpler convenience of process and time saving and energy saving advantage of disassembly installation, solve
Existing Ti electrode piece is during long-time service, the phenomenon that being easy to happen bending deformation, so that between two electrodes
Away from changing, the decomposition voltage of electrolyte bath is affected, causes the electrolytic efficiency of electrolytic cell low, while when replacement Ti electrode
When piece, it is difficult to disassembly installation is carried out to it, so that the problem that operating process is cumbersome and time-consuming and laborious.
The utility model provides the following technical solutions: improving the energy-saving long-life titanium electrode of the comprehensive electrolytic efficiency of electrolytic cell
Piece, including electrolytic cell, the inner wall of the electrolytic cell are fixedly connected with transverse slat, and loose slot is offered at the top of the transverse slat, described
The internal activity of loose slot is socketed with power supply connector sleeve, power supply line is electrically connected at the top of the power supply connector sleeve, and power supply connects
The side of female connector is fixedly connected with mounting plate, and the top of the mounting plate is connected by the top movable of fixed pin and movable button,
The bottom on the fixed pin top is sequentially connected by the top of fixed spring and movable button, and the bottom end pivot bush unit of fixed pin
In the inside of fixing groove, the fixing groove is provided with the top of transverse slat, and the bottom of the power supply connector sleeve is fixedly connected with cutting ferrule,
It is fixedly connected with conducting block at the top of the cutting ferrule inner cavity, and the top on the inside of cutting ferrule is fixedly connected with electromagnet, the cutting ferrule
The bottom of inside is sequentially connected by the side of movable spring and clamping plate, and the internal activity of cutting ferrule is socketed with iron, the iron
By being fixedly connected at the top of collet and Ti electrode piece, the external activity of the cutting ferrule is socketed with positioning sleeve, described for the bottom end of bar
The top of positioning sleeve side is connected by the flank threads of bolt and cutting ferrule, and one end of the bolt is located at the inside of thread groove,
The thread groove is provided with the bottom of cutting ferrule side.
Preferably, the fixed pin is actively socketed on the inside of fixed spring, and movable button is run through simultaneously in the bottom end of fixed pin
The inside of fixing groove is extended to, is adapted between the fixed pin and fixing groove.
Preferably, it is in contact at the top of the bottom of the conducting block and iron, and the input terminal of conducting block connects to power supply
Cover the output end electrical connection of internal wire.
Preferably, the clamping plate is located at the inside of cutting ferrule, and the other side of clamping plate is in contact with the side of iron.
Preferably, the Ti electrode piece is located at the inside of positioning sleeve, and Ti electrode piece is fixedly attached to the inside of collet.
Preferably, the surface of the positioning sleeve offers micropore, and the diameter value of micropore is one millimeter.
Be compared with the prior art, the utility model have it is following the utility model has the advantages that
1, the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of the raising electrolytic cell, can be in titanium electricity by positioning sleeve
During pole piece works, plays the role of positioning to the surface of Ti electrode piece, avoid Ti electrode piece and sending out when used for a long time
The problem of raw Bending Deformation, it can make the spacing between two electrodes that huge variation not occur, it is ensured that electrolyte bath electricity
The stability of pressure improves the electrolytic efficiency of electrolytic cell.
2, the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of the raising electrolytic cell, passes through electromagnet, movable spring
With the cooperation of clamping plate, it can need to twist bolt progress when avoiding tradition disassembly installation in order to replace to Ti electrode piece
Fixed problem, so that the simpler convenience of process and time saving and energy saving of Ti electrode piece disassembly installation.
Detailed description of the invention
Fig. 1 is the front schematic view of the utility model structure;
Fig. 2 is enlarged diagram at the A of the utility model structure;
Fig. 3 is enlarged diagram at the B of the utility model structure.
In figure: 1, electrolytic cell;2, transverse slat;3, loose slot;4, power supply connector sleeve;5, power supply line;6, mounting plate;7, fixed
Pin;8, movable button;9, fixed spring;10, fixing groove;11, cutting ferrule;12, conducting block;13, electromagnet;14, movable spring;15,
Clamping plate;16, iron;17, collet;18, Ti electrode piece;19, positioning sleeve;20, bolt;21, thread groove.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-3 is please referred to, the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell, including electrolytic cell 1 are improved,
The inner wall of electrolytic cell 1 is fixedly connected with transverse slat 2, and the top of transverse slat 2 offers loose slot 3, and the internal activity of loose slot 3 is socketed with
Power supply connector sleeve 4, the top of power supply connector sleeve 4 is electrically connected with power supply line 5, and the side of power supply connector sleeve 4 is fixedly connected with peace
The top of loading board 6, mounting plate 6 is connect by fixed pin 7 with the top movable of movable button 8, and fixed pin 7 is actively socketed on fixed bullet
The inside of spring 9, and the bottom end of fixed pin 7 runs through movable button 8 and extends to the inside of fixing groove 10, fixed pin 7 and fixing groove 10
Between be adapted, it is multiple that the operation of 4 installation process of power supply connector sleeve can be avoided in order to carrying out disassembly installation to power supply connector sleeve 4
Miscellaneous problem, so that the disassembly installation process of power supply connector sleeve 4 is easier, the bottom on 7 top of fixed pin passes through fixed spring 9
It is sequentially connected with the top of movable button 8, and the bottom end of fixed pin 7 is actively socketed on the inside of fixing groove 10, fixing groove 10 opens up
At the top of transverse slat 2, the bottom of power supply connector sleeve 4 is fixedly connected with cutting ferrule 11, is fixedly connected with and leads at the top of 11 inner cavity of cutting ferrule
The bottom of electric block 12, conducting block 12 is in contact with the top of iron 16, and the input terminal of conducting block 12 connects to power supply inside set 4
The output end of electric wire is electrically connected, and can play the role of connection to Ti electrode piece 18 during Ti electrode piece 18 works,
Ti electrode piece 18 is powered on to work, and the top of 11 inside of cutting ferrule is fixedly connected with electromagnet 13, cutting ferrule
The bottom of 11 insides is sequentially connected by the side of movable spring 14 and clamping plate 15, and clamping plate 15 is located at the inside of cutting ferrule 11, and presss from both sides
The other side of plate 15 is in contact with the side of iron 16, can avoid traditional disassembly in order to replace to Ti electrode piece 18
It needs to twist the problem of bolt is fixed when installation, so that the simpler convenience of process of the disassembly installation of Ti electrode piece 18 and province
Shi Shengli, and the internal activity of cutting ferrule 11 is socketed with iron 16, the bottom end of iron 16 passes through the top of collet 17 and Ti electrode piece 18
Portion is fixedly connected, and the material of this collet 17 is conductive metallic material, and Ti electrode piece 18 is located at the inside of positioning sleeve 19, and Ti electrode
Piece 18 is fixedly attached to the inside of collet 17, and the external activity of cutting ferrule 11 is socketed with positioning sleeve 19, and the surface of positioning sleeve 19 opens up
There is micropore, the diameter value of micropore is one millimeter, can be risen during Ti electrode piece 18 works to the surface of Ti electrode piece 18
To the effect of positioning, avoid Ti electrode piece 18 the problem of bending deformation when used for a long time, can make two electrodes it
Between spacing huge variation does not occur, it is ensured that the stability of electrolyte bath voltage improves the electrolytic efficiency of electrolytic cell,
The top of 19 side of positioning sleeve is connect by bolt 20 with the flank threads of cutting ferrule 11, and one end of bolt 20 is located at thread groove 21
Inside, thread groove 21 are provided with the bottom of 11 side of cutting ferrule.
Ti electrode piece 18 is fixedly attached to the inside of collet 17 first, then one end of iron 16 is placed by working principle
It is in close contact in the inside of cutting ferrule 11, and between the top of iron 16 and conducting block 12, while iron 16 is in the magnetic of electromagnet 13
Power effect is lower fixed hanging, and clamping plate 15 moves under the elastic force effect of movable spring 14, and presss from both sides to the side of iron 16
It fastens, positioning sleeve 19 is then socketed in the outside of Ti electrode piece 18, and rotate bolt 20, be allowed to the spiral shell between thread groove 21
Power supply connector sleeve 4, so that positioning sleeve 19 be fixed, is finally actively socketed on the inside of transverse slat 2, and press work by line connection
Dynamic button 8, is allowed to combine closely between mounting plate 6, while fixed pin 7 moves down under the elastic force effect of fixed spring 9, and with it is solid
Determine the clamping of 10 phase of slot, and then convenient for installing to power supply connector sleeve 4.
It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality
Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation
In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to
Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those
Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment
Intrinsic element.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.
Claims (6)
1. improving the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell, including electrolytic cell (1), it is characterised in that:
The inner wall of the electrolytic cell (1) is fixedly connected with transverse slat (2), offers loose slot (3), the work at the top of the transverse slat (2)
The internal activity of dynamic slot (3) is socketed with power supply connector sleeve (4), is electrically connected with power supply line at the top of the power supply connector sleeve (4)
(5), and the side of power supply connector sleeve (4) is fixedly connected with mounting plate (6), and the top of the mounting plate (6) passes through fixed pin (7)
It is connect with the top movable of movable button (8), the bottom on fixed pin (7) top passes through fixed spring (9) and movable button (8)
Top transmission connection, and the bottom end of fixed pin (7) is actively socketed on the inside of fixing groove (10), the fixing groove (10) is provided with
The bottom at the top of transverse slat (2), the power supply connector sleeve (4) is fixedly connected with cutting ferrule (11), the top of cutting ferrule (11) inner cavity
Portion is fixedly connected with conducting block (12), and the top on the inside of cutting ferrule (11) is fixedly connected with electromagnet (13), the cutting ferrule (11)
The bottom of inside is sequentially connected by the side of movable spring (14) and clamping plate (15), and the internal activity of cutting ferrule (11) is socketed with
Iron (16), the bottom end of the iron (16) at the top of collet (17) and Ti electrode piece (18) by being fixedly connected, the cutting ferrule
(11) external activity is socketed with positioning sleeve (19), and the top of positioning sleeve (19) side passes through bolt (20) and cutting ferrule (11)
Flank threads connection, one end of the bolt (20) is located at the inside of thread groove (21), and the thread groove (21) is provided with card
Cover the bottom of (11) side.
2. the energy-saving long-life titanium electrode slice according to claim 1 for improving the comprehensive electrolytic efficiency of electrolytic cell, feature
Be: the fixed pin (7) is actively socketed on the inside of fixed spring (9), and movable button (8) are run through in the bottom end of fixed pin (7)
And the inside of fixing groove (10) is extended to, it is adapted between the fixed pin (7) and fixing groove (10).
3. the energy-saving long-life titanium electrode slice according to claim 1 for improving the comprehensive electrolytic efficiency of electrolytic cell, feature
It is: is in contact at the top of the bottom of the conducting block (12) and iron (16), and the input terminal of conducting block (12) and power supply connects
The output end of female connector (4) internal wire is electrically connected.
4. the energy-saving long-life titanium electrode slice according to claim 1 for improving the comprehensive electrolytic efficiency of electrolytic cell, feature
Be: the clamping plate (15) is located at the inside of cutting ferrule (11), and the other side of clamping plate (15) is in contact with the side of iron (16).
5. the energy-saving long-life titanium electrode slice according to claim 1 for improving the comprehensive electrolytic efficiency of electrolytic cell, feature
Be: the Ti electrode piece (18) is located at the inside of positioning sleeve (19), and Ti electrode piece (18) is fixedly attached to collet (17)
It is internal.
6. the energy-saving long-life titanium electrode slice according to claim 1 for improving the comprehensive electrolytic efficiency of electrolytic cell, feature
Be: the surface of the positioning sleeve (19) offers micropore, and the diameter value of micropore is one millimeter.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821450788.6U CN208791788U (en) | 2018-09-06 | 2018-09-06 | Improve the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821450788.6U CN208791788U (en) | 2018-09-06 | 2018-09-06 | Improve the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208791788U true CN208791788U (en) | 2019-04-26 |
Family
ID=66208467
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821450788.6U Active CN208791788U (en) | 2018-09-06 | 2018-09-06 | Improve the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208791788U (en) |
-
2018
- 2018-09-06 CN CN201821450788.6U patent/CN208791788U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN202595298U (en) | Metal-electrolyzing titanium net coating anode | |
CN208791788U (en) | Improve the energy-saving long-life titanium electrode slice of the comprehensive electrolytic efficiency of electrolytic cell | |
CN201313947Y (en) | Titanium anode device used for electrodeposited metal in hydrometallurgy | |
CN107779910B (en) | Structure and method for reducing steel-carbon pressure drop of aluminum electrolysis anode | |
CN203346486U (en) | Anode plate for indium electrolysis | |
CN202786480U (en) | Clamp for electrochemical treatment of metal surface | |
CN204792454U (en) | Piece formula tantalum electrolytic capacitor's lead wire frame construction | |
CN203569214U (en) | Silver electrolytic conductive device | |
CN205603698U (en) | Anodic oxidation hanger suitable for round piece | |
CN114457361A (en) | Integrated electrode structure | |
CN201593070U (en) | Silver electrolysis negative plate | |
CN202797158U (en) | Formation system for energy storage lead-type battery | |
CN203445177U (en) | Power output device of battery pack and power output device of single battery | |
CN215628357U (en) | High-strength energy-saving cathode plate for electrolytic manganese | |
CN202818670U (en) | Novel graphite electrode | |
CN201725879U (en) | Spring type conductive copper base | |
CN202030852U (en) | Low-voltage aluminum foil corrosion graphite electrode plate with new structure | |
CN201864787U (en) | Energy-saving cathode plate for wet-process metallurgy | |
CN205241802U (en) | Negative pole rod iron for aluminium electroloysis | |
CN202786462U (en) | Energy-saving cathode for manganese electrolysis | |
CN206352167U (en) | A kind of conductive arc plate of electrolysis installation | |
CN2535422Y (en) | Cathode for copper electrowinning or electrorefining | |
CN201933185U (en) | Electroplating structure for wire tinning | |
CN204727962U (en) | Aluminum electrolytic tank cathode conducting apparatus | |
CN2550382Y (en) | Cathode conducting structure of copper electrolytically refining |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |