CN218295345U - Lead slurry pipeline for tubular positive grid slurry squeezing system - Google Patents
Lead slurry pipeline for tubular positive grid slurry squeezing system Download PDFInfo
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- CN218295345U CN218295345U CN202222452667.8U CN202222452667U CN218295345U CN 218295345 U CN218295345 U CN 218295345U CN 202222452667 U CN202222452667 U CN 202222452667U CN 218295345 U CN218295345 U CN 218295345U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model provides a positive grid of tubular crowded thick liquid pipeline for system belongs to the positive grid production technical field of tubular lead acid battery. The device comprises a stainless steel pipe assembly, wherein one end of the stainless steel pipe assembly is communicated with a lead slurry stirring device of a tubular positive grid squeezing system through a flange, the other end of the stainless steel pipe assembly forms two steel pipe branches after passing through a clamping mirror type tee joint, the two steel pipe branches are respectively communicated with a working barrel device of the tubular positive grid squeezing system, and the two steel pipe branches are symmetrically provided with clamping mirror type pneumatic ball valves. The utility model discloses a set up manual butterfly valve of card mirror formula and the pneumatic ball valve of card mirror formula on steel pipe subassembly, can realize the dual ending and the flow parameter regulation that lead thick liquid flows in the pipeline when putting intercommunication tubular positive grid crowded thick liquid system lead thick liquid agitating unit and work bucket device, solved the uncontrolled problem of lead thick liquid flow when using traditional lead thick liquid pipeline.
Description
Technical Field
The utility model belongs to the technical field of the positive grid production of tubular lead acid battery, specifically be a positive grid of tubular crowded thick liquid pipeline for system.
Background
With the increasing use of tubular lead-acid batteries, the process of filling active materials in the positive plate discharge tube of the tubular lead-acid battery becomes more and more important. The active substance filling of the existing positive plate calandria mainly has two modes: powder filling mode and paste squeezing mode. Among them, the dust pollution of the powder filling method is large, the influence on the body of the operator is large, and the dust filling method is gradually banned by the industry. The paste extruding mode has the conditions of low efficiency, poor consistency of the positive grid after paste extruding and the like.
The tubular positive grid pulp extruder is used for replacing the traditional powder filling or paste extruding process, so that the working efficiency of the filling process can be greatly improved. The traditional lead slurry pipeline generally adopts a simple integrated structure, so that a valve is not used for stopping or adjusting, and the flowing direction, the flowing speed and the like of the lead slurry in the pipeline are not controlled in actual use, so that great inconvenience is caused to the working process of the tubular positive grid pulp extruder.
Disclosure of Invention
An object of the utility model is to provide a positive grid of tubular is plumbous thick liquid pipeline for crowded thick liquid system to lead thick liquid flows uncontrolled problem when solving and using traditional plumbous thick liquid pipeline, and simple structure, reasonable in design can improve the plumbous thick liquid and arrange the efficiency of thick liquid to the work bucket device by plumbous thick liquid agitating unit in the positive grid crowded thick liquid system of tubular.
The utility model discloses an adopt following technical scheme to realize:
the lead slurry pipeline for the tubular positive grid squeezing system comprises a stainless steel pipe assembly, one end of the stainless steel pipe assembly is communicated with a lead slurry stirring device of the tubular positive grid squeezing system through a flange, the other end of the stainless steel pipe assembly forms two steel pipe branches after passing through a mirror clamping type tee joint, the two steel pipe branches are respectively communicated with a work barrel device of the tubular positive grid squeezing system, and mirror clamping type pneumatic ball valves are symmetrically arranged on the two steel pipe branches.
The lead slurry pipeline is used for realizing the communication between the lead slurry stirring device and the working barrel device in the tubular positive grid squeezing system, lead slurry stirred by the lead slurry stirring device enters the working barrel device through the lead slurry pipeline, and then is pumped into a tubular positive grid discharging pipe in the squeezing box device from the working barrel device, so that the squeezing work is completed. The clamp mirror type pneumatic ball valve can realize quick cut-off and flow regulation, so that the flow switch and flow parameters of lead paste to the working barrel can be controlled, and the lead paste flow meets the requirements of actual working conditions so as to avoid the occurrence of the conditions of overflow and the like of the working barrel device.
Furthermore, the stainless steel pipe assembly comprises a fifth stainless steel pipe, one end of the fifth stainless steel pipe is communicated with the lead slurry stirring device of the tubular positive grid squeezing system through a fixed flange, and the other end of the fifth stainless steel pipe is communicated with the first stainless steel pipe through a welded 90-degree elbow. After the lead slurry in the lead slurry stirring device is stirred, the lead slurry enters a stainless steel pipe I through a stainless steel pipe V; wherein the welded 90-degree elbow realizes the steering of the steel pipe.
Furthermore, one end of the first stainless steel pipe is communicated with the third stainless steel pipe through a clamping mirror type 90-degree elbow, and a clamping mirror type manual butterfly valve is arranged in front of the connecting position of the first stainless steel pipe and the clamping mirror type 90-degree elbow. The clamp mirror type 90-degree elbow realizes the steering of the steel pipe, and the clamp mirror type manual butterfly valve can realize quick cut-off, so that the lead paste is cut off before passing through the clamp mirror type pneumatic ball valve, and the flow of the lead paste to the working barrel device is thoroughly blocked.
Furthermore, the stainless steel pipe tee joint is communicated with a stainless steel pipe II and a stainless steel pipe VI through a clamping mirror type tee joint, one end of the stainless steel pipe II is communicated with a clamping mirror type pneumatic ball valve through a 90-degree elbow, one end of a valve of the clamping mirror type pneumatic ball valve is connected with a stainless steel pipe IV, and the stainless steel pipe IV is communicated with a working barrel device of the tubular positive grid squeezing system through a tee pipe fitting. The 90-degree elbow realizes the steering of the steel pipe, and lead slurry enters the working barrel device through the stainless steel pipe IV and the tee pipe fitting after passing through the valve of the mirror clamping type pneumatic ball valve.
Furthermore, six ends of the stainless steel pipe are symmetrical structures of two ends of the stainless steel pipe.
Furthermore, a flange gasket is arranged on the flange plate.
Furthermore, a clamping mirror gasket is arranged on the clamping mirror type pneumatic ball valve.
Compared with the prior art, the utility model discloses the beneficial effect who realizes is:
the lead slurry pipeline for the tubular positive grid squeezing system is characterized in that a clamping mirror type manual butterfly valve and a clamping mirror type pneumatic ball valve are arranged on a steel pipe assembly, so that double stopping of lead slurry flowing in the pipeline and flow parameter adjustment can be realized while a lead slurry stirring device of the tubular positive grid squeezing system is communicated with a working barrel device; compare in the lead slurry pipeline of traditional integrated structure, the utility model discloses can control and adjust lead slurry flow according to the capacity condition of work bucket, can effectively avoid the work bucket situation such as overflow to take place to guarantee the work efficiency of the positive grid crowded thick liquid system of tubular.
Drawings
Fig. 1 is a schematic perspective view of a lead slurry pipeline according to the present invention;
fig. 2 is a schematic structural view of the lead slurry pipeline according to the present invention;
fig. 3 is a schematic top view of the lead slurry pipeline according to the present invention;
fig. 4 is a right-side structural schematic view of the lead slurry pipeline of the present invention;
in the figure: 1. a first stainless steel pipe; 2. a bayonet tee; 3. a stainless steel pipe II; 4. a lens clamping joint; 5. a clamping mirror type 90-degree elbow; 6. welding a 90-degree elbow; 7. a stainless steel pipe III; 8. a stainless steel pipe IV; 9. a flange plate; 10. a fifth stainless steel pipe; 11. a mirror clamping type pneumatic ball valve; 12. a clip mirror type manual butterfly valve; 13. a flange gasket; 14. combining buckles; 15. a lens clamping gasket; 16. a stainless steel pipe six; 17. and a stainless steel pipe seven.
Detailed Description
For the purpose of clarity, the embodiments of the present invention will be further described with reference to the accompanying drawings:
as shown in fig. 1 to 4, the lead slurry pipeline for the tubular positive grid squeezing system comprises a stainless steel pipe five 10, one end of the stainless steel pipe five 10 is communicated with a lead slurry stirring device of the tubular positive grid squeezing system through a fixed flange 9, and the other end of the stainless steel pipe five 10 is communicated with a stainless steel pipe one 1 through a welded 90-degree elbow 6; one end of the stainless steel pipe I1 is communicated with the stainless steel pipe III 7 through a clamping mirror type 90-degree elbow 5, and a clamping mirror type manual butterfly valve 12 is arranged in front of the connecting position of the stainless steel pipe I1 and the clamping mirror type 90-degree elbow 5; the third stainless steel pipe 7 is communicated with the second stainless steel pipe 3 and the sixth stainless steel pipe 16 through a mirror clamping type tee joint 2, one end of the second stainless steel pipe 3 is communicated with a mirror clamping type pneumatic ball valve 11 through a 90-degree elbow, one end of a valve of the mirror clamping type pneumatic ball valve 11 is connected with the fourth stainless steel pipe 8, and the fourth stainless steel pipe 8 is communicated with a working barrel device of the tubular positive grid squeezing system through a tee pipe; one end of the stainless steel pipe six 16 is a symmetrical structure of one end of the stainless steel pipe two 3; in addition, all 90-degree elbows include welded 90-degree elbows 6, mirror clamping 90-degree elbows 5 and the like, and joints of corresponding stainless steel pipes are provided with buckle combinations 14, flange plates 9 are provided with flange gaskets 13, mirror clamping pneumatic ball valves 11 are provided with mirror clamping gaskets 15, and all the stainless steel pipes in the pipeline are sanitary.
The utility model discloses a theory of operation and use as follows:
the lead paste stirring device is communicated with the working barrel device through the lead paste pipeline, and the lead paste stirred by the lead paste stirring device enters the working barrel device through the lead paste pipeline and is then pumped into a tubular positive plate grid exhaust pipe in the pulp squeezing box device from the working barrel device, so that the pulp squeezing work is completed. When in specific use:
after the lead paste in the lead paste stirring device is stirred, the lead paste firstly enters a stainless steel pipe I1 through a stainless steel pipe five 10; the welded 90-degree elbow 6 realizes steel pipe steering, the buckle combination 14 at the joint of the welded 90-degree elbow 6 and the stainless steel pipe five 10 is used for connecting the elbow and the stainless steel pipe, the buckle combination 14 has the advantages of convenience in disassembly, maintenance, replacement and transportation, and the buckle combination 14 installed at the joint of all the 90-degree elbows and the corresponding stainless steel pipes in the pipeline plays a role together.
The lead paste passes through a clamping mirror type manual butterfly valve 12 at one end of a stainless steel pipe I1 and then enters a stainless steel pipe III 7 through a clamping mirror type 90-degree elbow 5; wherein the 90 elbows of card mirror formula 5 realize that the steel pipe turns to, if close the manual butterfly valve 12 of card mirror formula and can realize cutting fast to the lead thick liquid to stop the flow of lead thick liquid to the work bucket device.
Lead paste is shunted through a lens clamping type tee joint 2, enters a stainless steel pipe II 3 and a stainless steel pipe VI 16 and then respectively reaches a corresponding lens clamping type pneumatic ball valve 11 through corresponding 90-degree elbows;
the two paths of lead paste respectively pass through the corresponding clamping mirror type pneumatic ball valves 11 to reach the stainless steel pipe IV 8 and the stainless steel pipe VII 17, and then enter the corresponding working barrels through the respectively connected three-way pipe fittings to finish the transmission of the lead paste. Wherein the clip mirror type pneumatic ball valve 11 can realize quick truncation and flow regulation, so that the flow switch and flow parameters of lead paste to the working barrel can be controlled, and the lead paste flow meets the requirements of actual working conditions so as to avoid the occurrence of the conditions of overflow and the like of the working barrel device.
Of course, the above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the embodiments of the present invention. The present invention is not limited to the above examples, and the equivalent changes and improvements made within the essential scope of the present invention should be included within the patent coverage of the present invention.
Claims (7)
1. The utility model provides a positive grid of tubular crowded thick liquid pipeline for system which characterized in that: the lead paste stirring device comprises a stainless steel pipe assembly, one end of the stainless steel pipe assembly is communicated with a lead paste stirring device of a tubular positive grid squeezing system, the other end of the stainless steel pipe assembly forms two steel pipe branches after passing through a clamping mirror type tee joint (2), the two steel pipe branches are respectively communicated with a working barrel device of the tubular positive grid squeezing system, and clamping mirror type pneumatic ball valves (11) are symmetrically arranged on the two steel pipe branches.
2. The lead slurry pipeline for the tubular positive grid squeezing system according to claim 1, characterized in that: the stainless steel pipe assembly comprises a stainless steel pipe five (10), one end of the stainless steel pipe five (10) is communicated with a lead slurry stirring device of the tubular positive grid squeezing system through a fixed flange plate (9), and the other end of the stainless steel pipe five (10) is communicated with the stainless steel pipe one (1) through a welded 90-degree elbow (6).
3. The lead slurry pipeline for the tubular positive grid squeezing system according to claim 2, characterized in that: one end of the first stainless steel pipe (1) is communicated with the third stainless steel pipe (7) through the mirror clamping type 90-degree elbow (5), and a mirror clamping type manual butterfly valve (12) is arranged in front of the connecting position of the first stainless steel pipe (1) and the mirror clamping type 90-degree elbow (5).
4. The lead slurry pipeline for the tubular positive grid squeezing system according to claim 3, characterized in that: the third stainless steel pipe (7) is communicated with the second stainless steel pipe (3) and the sixth stainless steel pipe (16) through a clamping mirror type tee joint (2), one end of the second stainless steel pipe (3) is communicated with a clamping mirror type pneumatic ball valve (11) through a 90-degree elbow, one end of a valve of the clamping mirror type pneumatic ball valve (11) is connected with the fourth stainless steel pipe (8), and the fourth stainless steel pipe (8) is communicated with a working barrel device of a tubular positive grid pulp squeezing system through a tee pipe fitting.
5. The lead slurry pipeline for the tubular positive grid squeezing system according to claim 4, characterized in that: one end of the stainless steel pipe six (16) is of a symmetrical structure with one end of the stainless steel pipe two (3).
6. The lead slurry pipeline for the tubular positive grid squeezing system according to claim 2, characterized in that: and a flange gasket (13) is arranged on the flange plate (9).
7. The lead slurry pipeline for the tubular positive grid squeezing system according to claim 1, characterized in that: and a mirror clamping gasket (15) is arranged on the mirror clamping type pneumatic ball valve (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222452667.8U CN218295345U (en) | 2022-09-16 | 2022-09-16 | Lead slurry pipeline for tubular positive grid slurry squeezing system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222452667.8U CN218295345U (en) | 2022-09-16 | 2022-09-16 | Lead slurry pipeline for tubular positive grid slurry squeezing system |
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CN218295345U true CN218295345U (en) | 2023-01-13 |
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CN202222452667.8U Active CN218295345U (en) | 2022-09-16 | 2022-09-16 | Lead slurry pipeline for tubular positive grid slurry squeezing system |
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- 2022-09-16 CN CN202222452667.8U patent/CN218295345U/en active Active
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