CN104611729A - Inter-groove conducting device with isolation positioning block and use method - Google Patents
Inter-groove conducting device with isolation positioning block and use method Download PDFInfo
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- CN104611729A CN104611729A CN201510054685.2A CN201510054685A CN104611729A CN 104611729 A CN104611729 A CN 104611729A CN 201510054685 A CN201510054685 A CN 201510054685A CN 104611729 A CN104611729 A CN 104611729A
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- additional conductive
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- overlap joint
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- 238000002955 isolation Methods 0.000 title claims abstract description 86
- 238000000034 method Methods 0.000 title claims abstract description 16
- 230000007797 corrosion Effects 0.000 claims abstract description 8
- 238000005260 corrosion Methods 0.000 claims abstract description 8
- 239000003063 flame retardant Substances 0.000 claims abstract description 8
- 238000009434 installation Methods 0.000 claims description 45
- 230000005611 electricity Effects 0.000 claims description 13
- 238000009826 distribution Methods 0.000 claims description 6
- 239000008151 electrolyte solution Substances 0.000 claims description 3
- RNFJDJUURJAICM-UHFFFAOYSA-N 2,2,4,4,6,6-hexaphenoxy-1,3,5-triaza-2$l^{5},4$l^{5},6$l^{5}-triphosphacyclohexa-1,3,5-triene Chemical compound N=1P(OC=2C=CC=CC=2)(OC=2C=CC=CC=2)=NP(OC=2C=CC=CC=2)(OC=2C=CC=CC=2)=NP=1(OC=1C=CC=CC=1)OC1=CC=CC=C1 RNFJDJUURJAICM-UHFFFAOYSA-N 0.000 abstract description 4
- PXHVJJICTQNCMI-UHFFFAOYSA-N Nickel Chemical compound [Ni] PXHVJJICTQNCMI-UHFFFAOYSA-N 0.000 description 4
- 238000005728 strengthening Methods 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 3
- 238000004519 manufacturing process Methods 0.000 description 3
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 2
- CWYNVVGOOAEACU-UHFFFAOYSA-N Fe2+ Chemical compound [Fe+2] CWYNVVGOOAEACU-UHFFFAOYSA-N 0.000 description 2
- HCHKCACWOHOZIP-UHFFFAOYSA-N Zinc Chemical compound [Zn] HCHKCACWOHOZIP-UHFFFAOYSA-N 0.000 description 2
- 229910052802 copper Inorganic materials 0.000 description 2
- 239000010949 copper Substances 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 229910052751 metal Inorganic materials 0.000 description 2
- 229910052759 nickel Inorganic materials 0.000 description 2
- 229910052725 zinc Inorganic materials 0.000 description 2
- 239000011701 zinc Substances 0.000 description 2
- 230000007547 defect Effects 0.000 description 1
- 238000004070 electrodeposition Methods 0.000 description 1
- 238000005868 electrolysis reaction Methods 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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- Electrolytic Production Of Metals (AREA)
Abstract
The invention discloses an inter-groove conducting device with an isolation positioning block and a use method, wherein a plurality of left lapping grooves and right lapping grooves are respectively formed in the axial left side and the axial right side of the isolation positioning block, and middle division plates are arranged between the left lapping grooves and the right lapping grooves; a plurality of auxiliary anode bus bars and auxiliary cathode bus bars are respectively arranged on an auxiliary anode conducting bar and an auxiliary cathode conducting bar along the axial direction thereof; the isolation positioning block is arranged at the top end of a main conducting bar; the auxiliary anode conducting bar and the auxiliary cathode conducting bar are installed at the top end of the isolation positioning block, and the auxiliary anode bus bars and auxiliary cathode bus bars are respectively arranged in a mounting groove of the auxiliary anode conducting bar and a mounting groove of the auxiliary cathode conducting bar. The inter-groove conducting device with the isolation positioning block and the use method provided by the invention have the advantages of good electrical conductivity, capability of accurate positioning during lifting and avoiding short circuit and high security coefficient, and the inter-groove conducting device with the isolation positioning block further has good corrosion resistance, high temperature resistance and flame retardant property.
Description
Technical field
The present invention relates to the field such as electrolytic non-ferrous metal, electrodeposition, particularly relate to electric installation and using method between a kind of groove with isolation preset pieces.
Background technology
In recent years, along with the progress of electrolytic non-ferrous metal technology, between its groove, electric installation have also been obtained improvement.Current electrolysis manufacturing enterprise progressively adopt there is additional conductive function groove between conductive bus bar, anode and cathode two ends are made all to realize conduction, thus improve anode and cathode conductivity, reach with this and reduce because conducting electricity bad and the capacity loss that causes and the object preventing quality product from declining.But, in actual production process, do not have because conductive bus bar isolation material type selecting between the groove with additional conductive function is unreasonable, on conductive bus bar mounting and positioning device or locating device unreasonable, in addition close together between anode and cathode conducting beam, cause and go out in dress or electrolytic process in anode and cathode, easily produce conducting beam and contact with each other and occur short circuit phenomenon, time serious, there will be conductive bus bar heating, make the isolation material on conductive bus bar melt, burn, cause the generation of fire failure.
Summary of the invention
The technical problem to be solved in the present invention is, for above-mentioned defect of the prior art, there is provided a kind of and conduct electricity very well, can accurately locate when lifting, can avoid occurring short circuit phenomenon and electric installation between the groove of safety coefficient high band isolation preset pieces, between the groove of this band isolation preset pieces, electric installation also has reasonable corrosion-resistant, high temperature resistant and flame retardant properties, in addition, the using method of electric installation between the groove additionally providing this band isolation preset pieces.
The invention provides electric installation between a kind of groove with isolation preset pieces, for solving the problems of the technologies described above, which employs following technical scheme:
An electric installation between the groove with isolation preset pieces, comprises main busbar, isolation preset pieces, anode additional conductive row and negative electrode additional conductive row;
Axially left side and the axial right side of isolation preset pieces are respectively equipped with multiple left overlap joint groove and multiple right overlap joint groove, and be provided with central dividing plate between left overlap joint groove and right overlap joint groove, and between adjacent two left overlap joint grooves and adjacent two right overlap joint grooves, be respectively equipped with negative electrode additional conductive row's mounting groove and anode additional conductive row mounting groove;
Anode additional conductive row and negative electrode additional conductive row are axially respectively equipped with multiple anode additional conductive bar and multiple negative electrode additional conductive bar along it;
Isolation preset pieces is arranged on main busbar top, and left overlap joint groove and right overlap joint groove surround cathode bar overlap and anode bar overlap respectively and between main busbar top; Anode additional conductive row and negative electrode additional conductive row are installed in the top of isolation preset pieces, and anode additional conductive row and negative electrode additional conductive row lay respectively at right side and the left side of central dividing plate, and anode additional conductive bar and negative electrode additional conductive bar are placed in anode additional conductive row's mounting groove and negative electrode additional conductive row mounting groove respectively.
Between the groove of band isolation preset pieces of the present invention in electric installation, the top of isolation preset pieces is provided with anode additional conductive row and negative electrode additional conductive row, the arranging of anode additional conductive row and negative electrode additional conductive row makes positive plate current conducting rod and negative plate current conducting rod become two ends from one end energising to be energized respectively simultaneously, thus can avoid or greatly reduce the generation of positive plate or negative plate power-off or loose contact accident, contribute to the conductivity improving electric installation between the described groove being with isolation preset pieces.
Axially left side and the axial right side of above-mentioned isolation preset pieces are respectively equipped with multiple left overlap joint groove and multiple right overlap joint groove, and be provided with central dividing plate between left overlap joint groove and right overlap joint groove, above-mentioned anode additional conductive row and negative electrode additional conductive row also lay respectively at right side and the left side of central dividing plate, the setting of this central dividing plate can avoid adjacent negative plate current conducting rod and positive plate current conducting rod contact with each other and cause short circuit, substantially increases the safety coefficient of electric installation between the described groove being with isolation preset pieces.
Axially left side and the axial right side of above-mentioned isolation preset pieces are respectively equipped with multiple left overlap joint groove and multiple right overlap joint groove, negative electrode additional conductive row's mounting groove and anode additional conductive row mounting groove is respectively equipped with between adjacent two left overlap joint grooves and adjacent two right overlap joint grooves, above-mentioned anode additional conductive bar and negative electrode additional conductive bar are placed in anode additional conductive row's mounting groove and negative electrode additional conductive row mounting groove respectively, namely left overlap joint groove and right overlap joint groove setting party isolation preset pieces and the lifting of main busbar, the arranging of negative electrode additional conductive row's mounting groove and anode additional conductive row mounting groove facilitates negative electrode additional conductive row and anode additional conductive row respectively and isolates the lifting of preset pieces, it can thus be appreciated that, invent described band isolation preset pieces groove between electric installation lift time can accurately locate.
Improve as the one of electric installation between the groove to band isolation preset pieces of the present invention, isolation preset pieces adopts corrosion-resistant, high temperature resistant, fire-retardant concrete to make.Corrosion-resistant, high temperature resistant, fire-retardant concrete is adopted to make isolation preset pieces, increase substantially corrosion-resistant, the high temperature resistant and flame retardant properties of electric installation between the described groove being with isolation preset pieces, thus the generation of fire failure can be avoided, further increase the safety coefficient of electric installation between the described groove being with isolation preset pieces.
Improve as the one of electric installation between the groove to band isolation preset pieces of the present invention, isolation preset pieces is arranged on main busbar top by concrete articulamentum.The setting of concrete articulamentum not only contributes to the connection reliability strengthening isolation preset pieces and main busbar, but also contributes to strengthening the insulating property between isolation preset pieces and main busbar.
Improve as the one of electric installation between the groove to band isolation preset pieces of the present invention, anode additional conductive row's mounting groove and negative electrode additional conductive row mounting groove stagger setting mutually.Anode additional conductive row's mounting groove and negative electrode additional conductive row mounting groove are used for installing anode additional conductive bar and negative electrode additional conductive bar respectively, anode additional conductive row's mounting groove and negative electrode additional conductive row mounting groove are staggered mutually setting, not only achieve negative electrode or anode conducting rod one end homopolarity UNICOM, but also can avoid coming in contact short circuit, further increase the safety coefficient of electric installation between the described groove being with isolation preset pieces.
Improve as the one of electric installation between the groove to band isolation preset pieces of the present invention, be provided with multiple cathode bar along its axial distribution overlap joint block on the left of main busbar, on the right side of main busbar, be provided with multiple anode bar along its axial distribution overlap joint block;
Cathode bar overlap joint block and anode bar overlap joint block are placed in cathode bar overlap and anode bar overlap respectively.
Above-mentioned cathode bar overlap joint block facilitates the connection between main busbar and negative plate current conducting rod, and the setting of anode bar overlap joint block also facilitates the connection between main busbar and positive plate current conducting rod.
The using method of electric installation between the groove that present invention also offers above-mentioned band isolation preset pieces, it specifically have employed following technical scheme:
Between the groove of above-mentioned band isolation preset pieces, the using method of electric installation, comprises the steps:
Step one: select satisfactory main busbar, isolation preset pieces, anode additional conductive row and negative electrode additional conductive row;
Step 2: above-mentioned isolation preset pieces is laid on main busbar, and make cathode bar overlap joint block and anode bar overlap joint block be placed in cathode bar overlap and anode bar overlap respectively;
Step 3: anode additional conductive row and negative electrode additional conductive row are arranged on isolation preset pieces top respectively, and anode additional conductive row and negative electrode additional conductive row lay respectively at right side and the left side of central dividing plate, and make anode additional conductive bar and negative electrode additional conductive bar be placed in anode additional conductive row's mounting groove and negative electrode additional conductive row mounting groove respectively, namely obtain electric installation between the groove being with isolation preset pieces;
Step 4: electric installation is arranged on after on the middle trough rim of adjacent two electrolyzers between the groove of the described band obtained by above-mentioned steps three being isolated preset pieces, above-mentioned anode additional conductive bar overlaps with the one end of the positive plate current conducting rod separately established, the other end of this positive plate current conducting rod is overlapped by anode bar overlap joint block and above-mentioned main busbar, and this positive plate current conducting rod is provided with positive plate;
Above-mentioned negative electrode additional conductive bar overlaps with the one end of the negative plate current conducting rod separately established, and the other end of this negative plate current conducting rod is overlapped by cathode bar overlap joint block and above-mentioned main busbar, and this negative plate current conducting rod is provided with negative plate;
Step 5: energising, the direct current that power supply exports conducts to positive plate current conducting rod and positive plate from above-mentioned anode bar overlap joint block, meanwhile, when anode bar overlap joint block conducts electricity bad, the direct current of adjacent anode plate conducts to positive plate through above-mentioned anode additional conductive bar; The electric current of this positive plate conducts to adjacent negative plate by electrolytic solution again, electric current conducts to next main busbar through above-mentioned negative plate current conducting rod and cathode bar overlap joint block successively from this negative plate, meanwhile, when cathode bar overlap joint block conducts electricity bad, the electric current of adjacent cathode plate conducts to negative plate from negative electrode additional conductive bar.
In above-mentioned steps five, one end and the anode additional conductive bar of positive plate current conducting rod overlap, and under positive plate current conducting rod and main busbar conduct electricity bad condition, its electric current can conduct to positive plate from anode additional conductive bar; Under negative plate current conducting rod and main busbar conduct electricity bad condition, its electric current can conduct to negative plate from negative electrode additional conductive bar.Such design achieves negative plate current conducting rod and positive plate current conducting rod two ends are conducted electricity simultaneously, substantially increases conductivity.
In addition, in technical scheme of the present invention, to be allly not specifically noted, all by adopting the conventional means in this area to realize the technical program.
Therefore, between the groove of band isolation preset pieces provided by the invention, electric installation and using method have and conduct electricity very well, can accurately locate when lifting, can avoid occurring short circuit, the advantage that safety coefficient is high, and between the groove of this band isolation preset pieces, electric installation also has reasonable corrosion-resistant, high temperature resistant and flame retardant properties.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:
Fig. 1 be band isolation preset pieces in the present invention groove between the structural representation of electric installation;
Fig. 2 is the structural representation of main busbar;
Fig. 3 is the structural representation of isolation preset pieces;
Fig. 4 is the structural representation of anode additional conductive row;
Fig. 5 is the structural representation of negative electrode additional conductive row;
Now by as follows for the label declaration in accompanying drawing: 1 takes electricity row as the leading factor, 1.1 is cathode bar overlap joint block, and 1.2 is anode bar overlap joint block, 2 is isolation preset pieces, 2.1 is left overlap joint groove, and 2.2 is right overlap joint groove, and 2.3 is central dividing plate, 2.4 is negative electrode additional conductive row mounting groove, 2.5 is anode additional conductive row mounting groove, and 3 is anode additional conductive row, and 3.1 is anode additional conductive bar, 4 is negative electrode additional conductive row, and 4.1 is negative electrode additional conductive bar.
Embodiment
In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
Embodiment one:
An electric installation between the groove with isolation preset pieces, as shown in Figure 1, comprises main busbar 1, isolation preset pieces 2, anode additional conductive row 3 and negative electrode additional conductive row 4.
As shown in Figure 3, above-mentioned isolation preset pieces 2 is that employing is corrosion-resistant, high temperature resistant, fire-retardant concrete is made, axially left side and the axial right side of this isolation preset pieces 2 are respectively equipped with multiple left overlap joint groove 2.1 and multiple right overlap joint groove 2.2, and be provided with central dividing plate 2.3 between this left overlap joint groove 2.1 and right overlap joint groove 2.2, and between adjacent two left overlap joint grooves 2.1 and adjacent two right overlap joint grooves 2.2, be respectively equipped with negative electrode additional conductive row's mounting groove 2.4 and anode additional conductive row mounting groove 2.5, this negative electrode additional conductive row's mounting groove 2.4 and anode additional conductive row mounting groove 2.5 stagger setting mutually.
As shown in Figure 4 and Figure 5, above-mentioned anode additional conductive row 3 and negative electrode additional conductive row 4 are axially respectively equipped with multiple anode additional conductive bar 3.1 and multiple negative electrode additional conductive bar 4.1 along it.
Again as shown in Figure 1, above-mentioned isolation preset pieces 2 is arranged on main busbar 1 top by concrete articulamentum, and above-mentioned left overlap joint groove 2.1 and right overlap joint groove 2.2 surround cathode bar overlap and anode bar overlap respectively and between main busbar 1 top; Above-mentioned anode additional conductive row 3 and negative electrode additional conductive row 4 are all arranged in the side grooves on isolation preset pieces 2 top by concrete layer, and this anode additional conductive row 3 and negative electrode additional conductive row 4 lay respectively at right side and the left side of above-mentioned central dividing plate 2.3, and above-mentioned anode additional conductive bar 3.1 and negative electrode additional conductive bar 4.1 are placed in anode additional conductive row's mounting groove 2.5 and negative electrode additional conductive row mounting groove 2.4 respectively.
As shown in Figure 2, multiple cathode bar along its axial distribution overlap joint block 1.1 is provided with on the left of above-mentioned main busbar 1, be provided with multiple anode bar along its axial distribution overlap joint block 1.2 on the right side of this main busbar 1, this cathode bar overlap joint block 1.1 and anode bar overlap joint block 1.2 are placed in above-mentioned cathode bar overlap and anode bar overlap respectively.
Above-mentioned anode additional conductive row 3 and negative electrode additional conductive row 4 are all arranged on the top of isolation preset pieces 2 by concrete layer, the setting of concrete layer not only contributes to strengthening the strength of joint of anode additional conductive row 3 and negative electrode additional conductive row 4 and isolation preset pieces 2, but also contributes to strengthening anode additional conductive row 3 and the insulating property between negative electrode additional conductive row 4 and isolation preset pieces 2.
In the present embodiment, the width D of above-mentioned main busbar 1 is 20 ~ 200mm, such design can provide larger installing space for the setting of anode additional conductive row 3 and negative electrode additional conductive row 4, if this width D is less than 20mm, the installing space of anode additional conductive row 3 and negative electrode additional conductive row 4 then can be caused inadequate, if this width D is greater than 200mm, not only bad for the reduction of production cost, waste can be caused, but also be required to be electric installation between groove that the present embodiment provides larger installing space is provided, be inconvenient to install; The length L of above-mentioned anode additional conductive bar 3.1 and negative electrode additional conductive bar 4.1
1be 5 ~ 50mm, the thickness h of the two
1be 5 ~ 30mm, and the width d of the two
1be 5 ~ 50mm, such design facilitate anode additional conductive bar 3.1 and between positive plate and positive plate current conducting rod, negative electrode additional conductive bar 4.1 and the electrical connection between negative plate and negative plate current conducting rod.
Between the groove of the band isolation preset pieces that the present embodiment provides, electric installation can be used in the technique of electrolytic copper, electrolytic zinc and electrolytic nickel, about the size of above-mentioned main busbar 1, anode additional conductive bar 3.1 and negative electrode additional conductive bar 4.1, specific as follows: in electrolytic copper technique, the width D of main busbar 1 is 100-200mm, can be 100,120,135,156,167,178,185 or 200mm; The length L of anode additional conductive bar 3.1 and negative electrode additional conductive bar 4.1
1be 10-50mm, specifically can be 10,18,26,34,42,47 or 50mm, the thickness h of the two
1be 5-30mm, can be 5,10,15,20,23,26 or 30mm, and the width d of the two
1be 10-50mm, specifically can be 10,15,24,32,40 or 50mm;
In electrolytic zinc technique, the width D of main busbar 1 is 80-200mm, specifically can be 80,100,120,140,165,180,190 or 200mm; The length L of anode additional conductive bar 3.1 and negative electrode additional conductive bar 4.1
1be 5-40mm, specifically can be 5,10,15,26,30,35 or 40mm, the thickness h of the two
1be 5-30mm, specifically can be 5,10,15,18,23,27 or 30mm, and the width d of the two
1be 5-30mm, can be 5,10,15,18,22,26 or 30mm;
In electrolytic nickel technique, the width D of main busbar 1 is 80-200mm, specifically can be 80,90,110,135,156,169,184 or 200mm; The length L of anode additional conductive bar 3.1 and negative electrode additional conductive bar 4.1
1be 10-40mm, specifically can be 10,16,24,28,32,36 or 40mm, the thickness h of the two
1be 10-30mm, specifically can be 10,14,18,23,26,28 or 30mm, and the width d1 of the two be 10-50mm, specifically can be 10,16,21,29,37,44,48 or 50mm.
In the present embodiment, the length L of the right overlap joint groove 2.2 of above-mentioned left overlap joint groove 2.1/
3the length L of=cathode bar overlap joint block 1.1/ anode bar overlap joint block 1.2
2+ (2 ,+∞) mm, the width d of the right overlap joint groove 2.2 of above-mentioned left overlap joint groove 2.1/
3the width d of=cathode bar overlap joint block 1.1/ anode bar overlap joint block 1.2
2+ (2 ,+∞) mm, the degree of depth h of the right overlap joint groove 2.2 of above-mentioned left overlap joint groove 2.1/
3the thickness h of=cathode bar overlap joint block 1.1/ anode bar overlap joint block 1.2
2+ (2, + ∞) mm, such design not only facilitate anode bar overlap joint block 1.2 and cathode bar overlap joint block 1.1 respectively with the coordinating of right overlap joint groove 2.2 and left overlap joint groove 2.1, but also facilitate the electrical connection that anode bar overlap joint block 1.2 and positive plate and positive plate current conducting rod, cathode bar overlaps block 1.1 and negative plate and negative plate current conducting rod; If the length L of the right overlap joint groove 2.2 of left overlap joint groove 2.1/
3, width d
3with degree of depth h
3respectively than the length L of cathode bar overlap joint block 1.1/ anode bar overlap joint block 1.2
2, width d
2and thickness h
2between difference be less than 2mm, then can have influence on anode bar overlap joint block 1.2 and cathode bar overlap joint block 1.1 respectively with the coordinating of right overlap joint groove 2.2 and left overlap joint groove 2.1, also inconvenient anode bar overlap joint block 1.2 and positive plate and positive plate current conducting rod, cathode bar overlaps the electrical connection of block 1.1 and negative plate and negative plate current conducting rod.
The height h of above-mentioned central dividing plate 2.3
4the thickness h of=anode bar overlap joint block 1.2/ cathode bar overlap joint block 1.1
2+ (2,20) mm, such design can ensure that negative plate current conducting rod and positive plate current conducting rod contact with each other and short circuit further, and safety coefficient is high; If the height h of this central dividing plate 2.3
4with thickness h
2between difference be less than 2mm, then there is the risk of contact between negative plate current conducting rod and positive plate current conducting rod, if the height h of this central dividing plate 2.3
4with thickness h
2between difference be greater than 20mm, then between the groove being unfavorable in the present embodiment band isolation preset pieces, the miniaturization of electric installation, need take larger installing space.
Embodiment two:
Between the groove present embodiments providing in embodiment one band isolation preset pieces, the using method of electric installation, comprises the steps:
Step one: select satisfactory main busbar 1, isolation preset pieces 2, anode additional conductive row 3 and negative electrode additional conductive row 4;
Step 2: above-mentioned isolation preset pieces 2 is laid on main busbar 1, and make above-mentioned cathode bar overlap joint block 1.1 and anode bar overlap joint block 1.2 be placed in cathode bar overlap and anode bar overlap respectively;
Step 3: above-mentioned anode additional conductive row 3 and negative electrode additional conductive row 4 are arranged on isolation preset pieces 2 top respectively, and this anode additional conductive row 3 and negative electrode additional conductive row 4 lay respectively at right side and the left side of above-mentioned central dividing plate 2.3, and make anode additional conductive bar and 3.1 negative electrode additional conductive bars 4.1 be placed in anode additional conductive row's mounting groove 2.5 and negative electrode additional conductive row mounting groove 2.4 respectively, namely obtain electric installation between the groove being with isolation preset pieces;
Step 4: electric installation is arranged on after on the middle trough rim of adjacent two electrolyzers between the groove of the band obtained by above-mentioned steps three being isolated preset pieces, above-mentioned anode additional conductive bar 3.1 overlaps with the one end of the positive plate current conducting rod separately established, the other end of this positive plate current conducting rod is overlapped with above-mentioned main busbar 1 by anode bar overlap joint block 1.2, and this positive plate current conducting rod is provided with positive plate;
Above-mentioned negative electrode additional conductive bar 4.1 overlaps with the one end of the negative plate current conducting rod separately established, and the other end of this negative plate current conducting rod is overlapped with above-mentioned main busbar 1 by cathode bar overlap joint block 1.1, and this negative plate current conducting rod is provided with negative plate;
Step 5: energising, the direct current that power supply exports conducts to positive plate current conducting rod and positive plate from above-mentioned anode bar overlap joint block 1.2, meanwhile, when anode bar overlap joint block 1.2 conducts electricity bad, the direct current of adjacent anode plate conducts to positive plate through above-mentioned anode additional conductive bar 3.1; The electric current of this positive plate conducts to adjacent negative plate by electrolytic solution again, electric current conducts to next main busbar through above-mentioned negative plate current conducting rod and cathode bar overlap joint block 1.1 successively from this negative plate, meanwhile, when cathode bar overlap joint block 1.1 conducts electricity bad, the electric current of adjacent cathode plate conducts to negative plate from negative electrode additional conductive bar 4.1.
In above-mentioned steps four, between the groove of band isolation preset pieces, electric installation is arranged on after on the middle trough rim of adjacent two electrolyzers by electro-insulating rubber pad, the installation of electric installation between the groove that the setting of electro-insulating rubber pad not only facilitates band isolation preset pieces, and can also ensure to be with the contact of the trough rim of electric installation and adjacent two electrolyzers centre between the groove of isolation preset pieces to have reasonable insulating property, safety coefficient is high.
Should be understood that, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.
Claims (6)
1. an electric installation between the groove with isolation preset pieces, is characterized in that, comprises main busbar (1), isolation preset pieces (2), anode additional conductive row (3) and negative electrode additional conductive row (4);
Axially left side and the axial right side of described isolation preset pieces (2) are respectively equipped with multiple left overlap joint groove (2.1) and multiple right overlap joint groove (2.2), and be provided with central dividing plate (2.3) between described left overlap joint groove (2.1) and right overlap joint groove (2.2), and between adjacent two described left overlap joint grooves (2.1) and adjacent two described right overlap joint grooves (2.2), be respectively equipped with negative electrode additional conductive row's mounting groove (2.4) and anode additional conductive row's mounting groove (2.5);
Described anode additional conductive row (3) and negative electrode additional conductive row (4) are axially respectively equipped with multiple anode additional conductive bar (3.1) and multiple negative electrode additional conductive bar (4.1) along it;
Described isolation preset pieces (2) is arranged on described main busbar (1) top, and described left overlap joint groove (2.1) and right overlap joint groove (2.2) surround cathode bar overlap and anode bar overlap respectively and between main busbar (1) top; Described anode additional conductive row (3) and negative electrode additional conductive row (4) are installed in the top of described isolation preset pieces (2), and described anode additional conductive row (3) and negative electrode additional conductive row (4) lay respectively at right side and the left side of described central dividing plate (2.3), and described anode additional conductive bar (3.1) and negative electrode additional conductive bar (4.1) are placed in described anode additional conductive row's mounting groove (2.5) and negative electrode additional conductive row's mounting groove (2.4) respectively.
2. electric installation between the groove being with isolation preset pieces according to claim 1, is characterized in that, described isolation preset pieces (2) adopts corrosion-resistant, high temperature resistant, fire-retardant concrete to make.
3. electric installation between the groove being with isolation preset pieces according to claim 1, it is characterized in that, described isolation preset pieces (2) is arranged on described main busbar (1) top by concrete articulamentum.
4. electric installation between the groove of band isolation preset pieces according to claim 1, is characterized in that, described anode additional conductive row's mounting groove (2.5) and negative electrode additional conductive are arranged mounting groove (2.4) and mutually to be staggered setting.
5. electric installation between the groove being with isolation preset pieces according to claim 1, it is characterized in that, described main busbar (1) left side is provided with multiple cathode bar along its axial distribution overlap joint block (1.1), and described main busbar (1) right side is provided with multiple anode bar along its axial distribution overlap joint block (1.2);
Described cathode bar overlap joint block (1.1) and anode bar overlap joint block (1.2) are placed in described cathode bar overlap and anode bar overlap respectively.
6. between the groove of the band isolation preset pieces in claim 1 ~ 5 described in any one, a using method for electric installation, is characterized in that, comprise the steps:
Step one: select satisfactory main busbar (1), isolation preset pieces (2), anode additional conductive row (3) and negative electrode additional conductive row (4);
Step 2: described isolation preset pieces (2) is laid on main busbar (1), and make described cathode bar overlap joint block (1.1) and anode bar overlap joint block (1.2) be placed in cathode bar overlap and anode bar overlap respectively;
Step 3: described anode additional conductive row (3) and negative electrode additional conductive row (4) are arranged on described isolation preset pieces (2) top respectively, and described anode additional conductive row (3) and negative electrode additional conductive row (4) lay respectively at right side and the left side of described central dividing plate (2.3), and make described anode additional conductive bar (3.1) and negative electrode additional conductive bar (4.1) be placed in anode additional conductive row's mounting groove (2.5) and negative electrode additional conductive row's mounting groove (2.4) respectively, namely obtain electric installation between the described groove being with isolation preset pieces;
Step 4: electric installation is arranged on after on the middle trough rim of adjacent two electrolyzers between the groove of the described band obtained by above-mentioned steps three being isolated preset pieces, described anode additional conductive bar (3.1) overlaps with the one end of the positive plate current conducting rod separately established, the other end of described positive plate current conducting rod overlaps block (1.2) by anode bar and overlaps with described main busbar (1), and described positive plate current conducting rod is provided with positive plate;
Described negative electrode additional conductive bar (4.1) overlaps with the one end of the negative plate current conducting rod separately established, and the other end of described negative plate current conducting rod overlaps block (1.1) by cathode bar and overlaps with described main busbar (1), and described negative plate current conducting rod is provided with negative plate;
Step 5: energising, the direct current that power supply exports conducts to positive plate current conducting rod and positive plate from described anode bar overlap joint block (1.2), meanwhile, when anode bar overlap joint block (1.2) conducts electricity bad, the direct current of adjacent anode plate conducts to positive plate through described anode additional conductive bar (3.1); The electric current of described positive plate conducts to adjacent negative plate by electrolytic solution again, electric current conducts to next main busbar (1) through described negative plate current conducting rod and cathode bar overlap joint block (1.1) successively from described negative plate, meanwhile, when cathode bar overlap joint block (1.1) conducts electricity bad, the electric current of adjacent cathode plate conducts to negative plate from negative electrode additional conductive bar (4.1).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
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| CN105063668A (en) * | 2015-09-07 | 2015-11-18 | 无锡斯普流体设备有限公司 | Novel copper electric-conducting bar |
| CN107916438A (en) * | 2017-11-30 | 2018-04-17 | 郴州市金贵银业股份有限公司 | A kind of electrolytic cell positions busbar |
| CN112736814A (en) * | 2020-12-31 | 2021-04-30 | 江苏康盛风电科技有限公司 | Bus duct and production process |
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| CN105063668A (en) * | 2015-09-07 | 2015-11-18 | 无锡斯普流体设备有限公司 | Novel copper electric-conducting bar |
| CN107916438A (en) * | 2017-11-30 | 2018-04-17 | 郴州市金贵银业股份有限公司 | A kind of electrolytic cell positions busbar |
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| CN112736814B (en) * | 2020-12-31 | 2021-07-06 | 江苏康盛风电科技有限公司 | Bus duct and production process |
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| CN104611729B (en) | 2016-10-05 |
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Address after: 311607 Xinhua Village, Yangxi street, Jiande, Hangzhou, Zhejiang Patentee after: HANGZHOU SANAL ENVIRONMENTAL TECHNOLOGY Co.,Ltd. Address before: 311607 Xin'An River Road, Jiande, Hangzhou, Zhejiang 929 Patentee before: HANGZHOU SANNAI ENVIRONMENTAL TECHNOLOGY Co.,Ltd. |
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