CN215196771U - Dosing unit is used in ultracapacitor system electrode material production - Google Patents
Dosing unit is used in ultracapacitor system electrode material production Download PDFInfo
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- CN215196771U CN215196771U CN202121140034.2U CN202121140034U CN215196771U CN 215196771 U CN215196771 U CN 215196771U CN 202121140034 U CN202121140034 U CN 202121140034U CN 215196771 U CN215196771 U CN 215196771U
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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
- Y02E60/13—Energy storage using capacitors
Abstract
The utility model discloses a dosing unit is used in ultracapacitor system electrode material production, include: the device comprises a mixing box, a plurality of raw material boxes with the same structure and a feeding support, wherein the feeding support is arranged on the mixing box, a quantitative pumping structure is arranged on the raw material boxes, a measuring feeding structure is arranged on the quantitative pumping structure, the measuring feeding structure is connected to the mixing box, and a stirring and mixing structure is arranged in the mixing box; the utility model relates to an electrical apparatus production technical field, through the quantitative pumping structure with the raw materials pump the drainage to the quantitative pumping structure in, weigh the raw materials through the quantitative pumping structure simultaneously to reach quantitative propelling movement, ensure the proportion of mixing in-process raw materials, avoided the electrical apparatus to appear leaking in the use and lead to the environment to be polluted and electrical equipment to appear the phenomenon of damaging.
Description
Technical Field
The utility model relates to a technical field of electrical apparatus production specifically is a dosing unit is used in ultracapacitor system electrode material production.
Background
The graphite electrode is a material which is prepared by using petroleum coke and asphalt coke as aggregates and coal pitch as an adhesive through a series of processing modes of raw material calcination, crushing and grinding, batching and the like, and a mixing device is required to be used when the graphite electrode is mixed with the batching.
SUMMERY OF THE UTILITY MODEL
For solving above-mentioned problem, solve the problem that above-mentioned background art provided promptly, the utility model provides a dosing unit is used in ultracapacitor system electrode material production, it includes: the device comprises a mixing box, a plurality of raw material boxes with the same structure and a feeding support, wherein the feeding support is arranged on the mixing box, a quantitative pumping structure is arranged on the raw material boxes, a measuring feeding structure is arranged on the quantitative pumping structure, the measuring feeding structure is connected to the mixing box, and a stirring and mixing structure is arranged in the mixing box;
the measurement material loading structure includes: the device comprises a plurality of L-shaped limiting feeding pipes with the same structure, a plurality of feeding pushing hydraulic push rods with the same structure, a plurality of U-shaped feeding boxes with the same structure, a plurality of discharging valves with the same structure, a plurality of feeding extrusion hydraulic push rods with the same structure, a plurality of U-shaped extrusion plates with the same structure, a plurality of weighing instruments with the same structure and a plurality of extrusion rubber mats with the same structure;
a plurality of L-shaped limiting feeding pipes are uniformly arranged on the mixing box, a discharging opening is arranged at the joint of the L-shaped limiting feeding pipes and the mixing box, a plurality of feeding pushing hydraulic push rods are respectively arranged in the L-shaped limiting feeding pipes, a plurality of U-shaped feeding boxes are respectively movably inserted in the L-shaped limiting feeding pipes and are respectively arranged on the pushing ends of the feeding pushing hydraulic push rods, a plurality of discharging valves are respectively arranged on the U-shaped feeding boxes, a plurality of feeding pushing hydraulic push rods are respectively arranged in the L-shaped limiting feeding pipes, and are respectively arranged at 90-degree angles with the feeding pushing hydraulic push rods, a plurality of U-shaped extrusion plates are respectively arranged on the pushing ends of the feeding pushing hydraulic push rods, the extrusion rubber mats are respectively arranged on the U-shaped extrusion plates, and the weighing instruments are respectively arranged in the U-shaped feeding boxes.
The utility model discloses a further set up to: the quantitative pumping structure comprises: the device comprises a plurality of transfer boxes with the same structure, a plurality of measuring valves with the same structure, a plurality of feeding driving machines with the same structure, a plurality of feeding threaded pipes with the same structure, a plurality of feeding threaded rods with the same structure, a plurality of feeding driving bevel gears with the same structure, a plurality of feeding transmission bevel gears with the same structure, a plurality of feeding transfer plates with the same structure, a plurality of feeding concave sealing rubber pads with the same structure and a plurality of L-shaped feeding pipes with the same structure;
a plurality of the transfer boxes are uniformly arranged on the feeding support, a plurality of the measuring valves are respectively arranged on a plurality of the transfer boxes, the other ends of the plurality of the measuring valves are respectively connected to a plurality of the raw material boxes, a plurality of the feeding valves are respectively arranged on a plurality of the transfer boxes, a plurality of the L-shaped feeding pipes are respectively arranged on a plurality of the feeding valves, a plurality of the L-shaped feeding pipes are respectively connected to a plurality of the L-shaped limiting feeding pipes, a plurality of the feeding driving machines are respectively arranged on a plurality of the transfer boxes, a plurality of the feeding threaded pipes are respectively inserted into a plurality of the transfer boxes through bearings, a plurality of the feeding threaded rods are respectively movably inserted into a plurality of the feeding threaded pipes, a plurality of the feeding driving bevel gears are respectively arranged at the ends of the feeding driving machines, the plurality of feeding transmission bevel gears are respectively arranged on the plurality of feeding threaded pipes and are respectively meshed with the plurality of feeding driving bevel gears.
The utility model discloses a further set up to: the stirring and mixing structure comprises: stirring driver, the same stirring gear of a plurality of structure, the same stirring central siphon of a plurality of structure and the same stirring piece of a plurality of structure:
a plurality of stirring central siphon respectively through the bearing cartridge in the mixing box, a plurality of stirring piece is even respectively install in a plurality of on the stirring central siphon, the stirring driving machine install in on the mixing box, a plurality of stirring gear install respectively in a plurality of stirring central siphon and on the stirring driving machine drive end, and a plurality of stirring gear intermeshing gear.
The utility model discloses a further set up to: and the mixing box is provided with an observation port.
The utility model discloses a further set up to: and electric heating tubes are arranged in the stirring shaft tubes.
The utility model discloses a further set up to: and a temperature sensor is arranged in the mixing box.
The utility model has the advantages of: in carrying out the pumping drainage to the quantitative pumping structure with the raw materials through quantitative pumping structure, weigh the raw materials through the quantitative pumping structure simultaneously to reach quantitative propelling movement, ensure the proportion of mixing in-process raw materials, avoided electrical apparatus to appear leaking in the use and lead to the environment contaminated and electrical equipment to appear the phenomenon of damaging.
Drawings
Fig. 1 shows a schematic sectional view of a dispensing device for producing an electrode material of a supercapacitor in a front view.
Fig. 2 shows a dosing pumping structure schematic diagram of a dosing device for producing an electrode material of a supercapacitor.
FIG. 3 shows a measuring and feeding structure schematic diagram of a batching device for producing electrode materials of a super capacitor.
Reference numeral 1, a mixing box; 2. a raw material tank; 3. a feeding support; 4. an L-shaped limiting feeding pipe; 5. feeding and pushing a hydraulic push rod; 6. a U-shaped feeding box; 7. a discharge valve; 8. feeding and extruding the hydraulic push rod; 9. a U-shaped extrusion plate; 10. a weighing instrument; 11. extruding the rubber mat; 12. a transfer box; 13. a measuring valve; 14. a feeding valve; 15. a feeding driver; 16. feeding a threaded pipe; 17. a feeding threaded rod; 18. feeding and driving the bevel gear; 19. feeding and driving the bevel gear; 20. a feeding transfer plate; 21. feeding a concave sealing rubber pad; 22. an L-shaped feeding pipe.
Detailed Description
Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.
Example (b): all the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.
The utility model provides a dosing unit is used in ultracapacitor system electrode material production, include: the device comprises a mixing box 1, a plurality of raw material boxes 2 with the same structure and a feeding support 3, wherein the feeding support 3 is installed on the mixing box 1, a quantitative pumping structure is installed on the raw material boxes 2, a measuring feeding structure is installed on the quantitative pumping structure, the measuring feeding structure is connected to the mixing box 1, and a stirring and mixing structure is installed in the mixing box 1;
the measurement material loading structure includes: the device comprises a plurality of L-shaped limiting feeding pipes 4 with the same structure, a plurality of feeding pushing hydraulic push rods 5 with the same structure, a plurality of U-shaped feeding boxes 6 with the same structure, a plurality of discharging valves 7 with the same structure, a plurality of feeding extrusion hydraulic push rods 8 with the same structure, a plurality of U-shaped extrusion plates 9 with the same structure, a plurality of weighing instruments 10 with the same structure and a plurality of extrusion rubber mats 11 with the same structure;
a plurality of L-shaped limiting feeding pipes 4 are uniformly arranged on the mixing box 1, the connection part of the L-shaped limiting feeding pipes 4 and the mixing box 1 is provided with a discharging opening, a plurality of feeding pushing hydraulic push rods 5 are respectively arranged in the L-shaped limiting feeding pipes 4, a plurality of U-shaped feeding boxes 6 are respectively movably inserted in the L-shaped limiting feeding pipes 4, the U-shaped feeding boxes 6 are respectively arranged on the pushing ends of the feeding pushing hydraulic push rods 5, a plurality of discharging valves 7 are respectively arranged on the U-shaped feeding boxes 6, a plurality of feeding pushing hydraulic push rods 8 are respectively arranged in the L-shaped limiting feeding pipes 4, and the feeding pushing hydraulic push rods 8 respectively form an angle of 90 degrees with the feeding pushing hydraulic push rods 5, the U-shaped extrusion plates 9 are respectively installed on the plurality of feeding extrusion hydraulic push rods 8 are pushed to serve, the extrusion rubber mats 11 are respectively installed on the U-shaped extrusion plates 9, and the weighing instruments 10 are respectively installed on the plurality of U-shaped feeding boxes 6.
Preferably, the quantitative pumping structure further comprises: the device comprises a plurality of transfer boxes 12 with the same structure, a plurality of measuring valves 13 with the same structure, a plurality of feeding valves 14 with the same structure, a plurality of feeding driving machines 15 with the same structure, a plurality of feeding threaded pipes 16 with the same structure, a plurality of feeding threaded rods 17 with the same structure, a plurality of feeding driving bevel gears 18 with the same structure, a plurality of feeding transmission bevel gears 19 with the same structure, a plurality of feeding transfer plates 20 with the same structure, a plurality of feeding concave sealing rubber pads 21 with the same structure and a plurality of L-shaped feeding pipes 22 with the same structure;
a plurality of the transit boxes 12 are uniformly arranged on the feeding support 3, a plurality of the measuring valves 13 are respectively arranged on a plurality of the transit boxes 12, the other ends of the measuring valves 13 are respectively connected to a plurality of the raw material boxes 2, a plurality of the feeding valves 14 are respectively arranged on a plurality of the transit boxes 12, a plurality of the L-shaped feeding pipes 22 are respectively arranged on a plurality of the feeding valves 14, a plurality of the L-shaped feeding pipes 22 are respectively connected to a plurality of the L-shaped limiting feeding pipes 4, a plurality of the feeding driving machines 15 are respectively arranged on a plurality of the transit boxes 12, a plurality of the feeding threaded pipes 16 are respectively inserted into a plurality of the transit boxes 12 through bearings, a plurality of the feeding threaded rods 17 are respectively movably inserted into a plurality of the feeding threaded pipes 16, a plurality of the feeding driving bevel gears 18 are respectively arranged at the driving ends of the feeding driving machines 15, the plurality of feeding transmission helical gears 19 are respectively installed on the plurality of feeding threaded pipes 16, and the plurality of feeding transmission helical gears 19 are respectively engaged with the plurality of feeding driving helical gears 18.
Preferably, the stirring and mixing structure further comprises: stirring driver, the same stirring gear of a plurality of structure, the same stirring central siphon of a plurality of structure and the same stirring piece of a plurality of structure:
a plurality of stirring central siphon respectively through the bearing cartridge in mixing box 1, a plurality of stirring piece is even respectively install in a plurality of on the stirring central siphon, the stirring driving machine install in on the mixing box 1, a plurality of stirring gear install respectively in a plurality of stirring central siphon and on the stirring driving machine drive end, and a plurality of stirring gear intermeshing.
Preferably, the mixing box 1 is provided with a viewing port.
Preferably, electric heating tubes are arranged in a plurality of stirring shaft tubes.
Preferably, a temperature sensor is disposed in the mixing box 1.
The specific implementation mode is that the measuring valve 13 is opened, the feeding valve 14 is closed, the feeding driving helical gear 18 on the driving end of the feeding driving machine 15 is driven to rotate by the operation of the feeding driving machine 15, the feeding driving helical gear 18 drives the feeding transmission helical gear 19 engaged with the gear to rotate, the feeding transmission helical gear 19 drives the feeding threaded pipe 16 on the feeding driving helical gear to rotate, the feeding threaded pipe 16 drives the feeding threaded rod 17 on the feeding threaded pipe, the feeding middle rotating plate 20 on the feeding threaded rod 17 is driven by the feeding threaded rod 17, the feeding middle rotating plate 20 is lifted to generate negative pressure, colloidal liquid in the raw material box 2 is pumped to the measuring valve 13, the colloidal liquid is drained into the middle rotating box 12 by the measuring valve 13, the measuring valve 13 is closed, the feeding valve 14 is opened, the feeding driving machine 15 is operated in a reverse direction, the feeding driving helical gear 18 on the driving end of the feeding driving machine 15 is driven to rotate in a reverse direction, the feeding driving bevel gear 18 reversely drives the feeding driving bevel gear 19, the feeding driving bevel gear 19 reversely drives the feeding threaded pipe 16 thereon, so that a feeding threaded rod 17 in the feeding threaded pipe 16 descends, the feeding transfer plate 20 descends, liquid in the extrusion transfer box 12 is drained to the feeding valve 14, the liquid is drained to the L-shaped feeding pipe 22 through the feeding valve 14, the liquid is drained to the U-shaped feeding box 6 through the L-shaped feeding pipe 22, the liquid is weighed through the weighing instrument 10 in the U-shaped feeding box 6, when a certain amount is reached, the feeding driving machine 15 is stopped to operate, the feeding pushing hydraulic push rod 5 is pushed to operate, the U-shaped feeding box 6 on the pushing end of the feeding pushing hydraulic push rod 5 is pushed to push the U-shaped feeding box 6 to the bottom end of the U-shaped extrusion plate 9, the feeding extrusion hydraulic push rod 8 stretches out and draws back to push the feeding extrusion hydraulic push rod 8 to push the U-shaped extrusion plate 9 on the pushing end, raw materials in the U-shaped feeding box 6 are extruded by the U-shaped extrusion plate 9, the feeding valve 14 is opened at the same time, the colloidal liquid in the U-shaped feeding box 6 is extruded into the mixing box 1 by extrusion, the stirring shaft tube on the driving end of the stirring driving machine is driven to rotate by the operation of the stirring driving machine, the stirring gear on the stirring shaft tube is driven to rotate by the stirring shaft tube, the stirring gear meshed with the stirring gear is driven by the stirring gear, so that a plurality of stirring gears are sequentially rotated, a plurality of stirring gears are rotated, the stirring shaft tubes on the stirring gears are respectively driven to rotate by the plurality of stirring gears, the stirring plates on the stirring shaft tubes are respectively driven by the plurality of stirring shaft tubes, a plurality of raw materials in the mixing box 1 are stirred and mixed together by the plurality of stirring plates, the phenomenon that the proportioning has problems in the production process is avoided by quantitative pumping, and the proportioning is prevented from occurring, the phenomena of environment pollution and electric equipment damage caused by leakage when the finished product is used are caused.
While the invention has been described with reference to a preferred embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention, and particularly, various features shown in the various embodiments may be combined in any combination as long as there is no structural conflict. The present invention is not limited to the particular embodiments disclosed herein, but encompasses all technical solutions falling within the scope of the claims.
In the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, which indicate directions or positional relationships, are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
The terms "comprises," "comprising," or any other similar term are intended to cover a non-exclusive inclusion, such that a process, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, article, or apparatus.
So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.
Claims (6)
1. A dosing unit is used in ultracapacitor system electrode material production includes: the device comprises a mixing box, a plurality of raw material boxes with the same structure and a feeding support, and is characterized in that the feeding support is arranged on the mixing box, a quantitative pumping structure is arranged on the raw material boxes, a measuring feeding structure is arranged on the quantitative pumping structure, the measuring feeding structure is connected to the mixing box, and a stirring mixing structure is arranged in the mixing box;
the measurement material loading structure includes: the device comprises a plurality of L-shaped limiting feeding pipes with the same structure, a plurality of feeding pushing hydraulic push rods with the same structure, a plurality of U-shaped feeding boxes with the same structure, a plurality of discharging valves with the same structure, a plurality of feeding extrusion hydraulic push rods with the same structure, a plurality of U-shaped extrusion plates with the same structure, a plurality of weighing instruments with the same structure and a plurality of extrusion rubber mats with the same structure;
a plurality of L-shaped limiting feeding pipes are uniformly arranged on the mixing box, a discharging opening is arranged at the joint of the L-shaped limiting feeding pipes and the mixing box, a plurality of feeding pushing hydraulic push rods are respectively arranged in the L-shaped limiting feeding pipes, a plurality of U-shaped feeding boxes are respectively movably inserted in the L-shaped limiting feeding pipes and are respectively arranged on the pushing ends of the feeding pushing hydraulic push rods, a plurality of discharging valves are respectively arranged on the U-shaped feeding boxes, a plurality of feeding pushing hydraulic push rods are respectively arranged in the L-shaped limiting feeding pipes, and are respectively arranged at 90-degree angles with the feeding pushing hydraulic push rods, a plurality of U-shaped extrusion plates are respectively arranged on the pushing ends of the feeding pushing hydraulic push rods, the extrusion rubber mats are respectively arranged on the U-shaped extrusion plates, and the weighing instruments are respectively arranged in the U-shaped feeding boxes.
2. The batching device for producing the electrode material of the supercapacitor according to claim 1, wherein the quantitative pumping structure comprises: the device comprises a plurality of transfer boxes with the same structure, a plurality of measuring valves with the same structure, a plurality of feeding driving machines with the same structure, a plurality of feeding threaded pipes with the same structure, a plurality of feeding threaded rods with the same structure, a plurality of feeding driving bevel gears with the same structure, a plurality of feeding transmission bevel gears with the same structure, a plurality of feeding transfer plates with the same structure, a plurality of feeding concave sealing rubber pads with the same structure and a plurality of L-shaped feeding pipes with the same structure;
a plurality of the transfer boxes are uniformly arranged on the feeding support, a plurality of the measuring valves are respectively arranged on a plurality of the transfer boxes, the other ends of the plurality of the measuring valves are respectively connected to a plurality of the raw material boxes, a plurality of the feeding valves are respectively arranged on a plurality of the transfer boxes, a plurality of the L-shaped feeding pipes are respectively arranged on a plurality of the feeding valves, a plurality of the L-shaped feeding pipes are respectively connected to a plurality of the L-shaped limiting feeding pipes, a plurality of the feeding driving machines are respectively arranged on a plurality of the transfer boxes, a plurality of the feeding threaded pipes are respectively inserted into a plurality of the transfer boxes through bearings, a plurality of the feeding threaded rods are respectively movably inserted into a plurality of the feeding threaded pipes, a plurality of the feeding driving bevel gears are respectively arranged at the ends of the feeding driving machines, the plurality of feeding transmission bevel gears are respectively arranged on the plurality of feeding threaded pipes and are respectively meshed with the plurality of feeding driving bevel gears.
3. The batching device for producing the electrode material of the supercapacitor according to claim 1, wherein the stirring and mixing structure comprises: stirring driver, the same stirring gear of a plurality of structure, the same stirring central siphon of a plurality of structure and the same stirring piece of a plurality of structure:
a plurality of stirring central siphon respectively through the bearing cartridge in the mixing box, a plurality of stirring piece is even respectively install in a plurality of on the stirring central siphon, the stirring driving machine install in on the mixing box, a plurality of stirring gear install respectively in a plurality of stirring central siphon and on the stirring driving machine drive end, and a plurality of stirring gear intermeshing gear.
4. The batching device for producing the electrode material of the supercapacitor according to claim 1, wherein the mixing box is provided with an observation port.
5. The batching device for producing the electrode material of the supercapacitor according to claim 3, wherein a plurality of said stirring shafts are internally provided with electrothermal tubes.
6. The batching device for producing the electrode material of the supercapacitor according to claim 1, wherein a temperature sensor is arranged in the mixing tank.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115780010A (en) * | 2022-10-21 | 2023-03-14 | 烟台鑫龙建筑工程有限公司 | Novel high-efficiency energy-saving building cutting block and processing equipment |
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2021
- 2021-05-26 CN CN202121140034.2U patent/CN215196771U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115780010A (en) * | 2022-10-21 | 2023-03-14 | 烟台鑫龙建筑工程有限公司 | Novel high-efficiency energy-saving building cutting block and processing equipment |
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