CN216450785U - Priming device is used in lithium cell production - Google Patents
Priming device is used in lithium cell production Download PDFInfo
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- CN216450785U CN216450785U CN202123206599.9U CN202123206599U CN216450785U CN 216450785 U CN216450785 U CN 216450785U CN 202123206599 U CN202123206599 U CN 202123206599U CN 216450785 U CN216450785 U CN 216450785U
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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 discloses a liquid injection device for lithium battery production, which relates to the field of lithium battery production and comprises a supporting top plate, wherein a transmission material belt is horizontally arranged on the top surface of the supporting top plate, a supporting bottom block is vertically welded downwards on the bottom surface of the supporting top plate, a material guide plate is obliquely welded on one side edge of the supporting top plate, supporting side plates are vertically welded upwards on the top surface of the supporting top plate, a movable top plate is horizontally arranged on the side edge between the supporting side plates, a material extruding cylinder is connected to the top surface of the movable top plate through bolts, a main material storage pipe is connected to the bottom surface of the movable top plate through bolts, a material inlet pipe is inserted into the outer side edge of the main material storage pipe, a transmission motor is connected to one side edge of the supporting top plate through bolts, and a transmission roller is arranged on the inner side edge of the supporting top plate. The device has simple design structure and simple and convenient operation, is more rapid and efficient due to the adoption of an automatic liquid injection structure, and greatly improves the processing efficiency due to batch liquid injection operation.
Description
Technical Field
The utility model relates to the technical field of lithium battery production, in particular to a liquid injection device for lithium battery production.
Background
Lithium ion batteries are classified into liquid lithium ion batteries and polymer lithium ion batteries. The electrolyte of a lithium ion battery is mobile and therefore, is less stable than a lithium polymer battery, and may explode when struck by an external force or when a non-compliant charger is used. In many portable electronic products such as mobile phones and portable computers, the used batteries are lithium batteries.
When producing, need annotate liquid to present lithium cell and handle it, traditional notes liquid just carries out single placing on annotating the liquid platform, then annotates liquid pipe end grafting and receives the inside completion in hole and annotate the liquid process for the processing is annotated to what just can't be in batches of wasting time and energy, has leaded to the unable improvement of efficiency of production.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a liquid injection device for lithium battery production, which aims to solve the problem that the production efficiency cannot be improved due to the fact that the liquid injection process is required when the conventional lithium battery is produced in the background technology, the conventional liquid injection is carried out by placing the conventional liquid injection pipe on a liquid injection platform singly and then inserting the liquid injection pipe end into a hole to complete the liquid injection process, time and labor are wasted, and liquid injection processing cannot be carried out in batches.
In order to achieve the purpose, the utility model provides the following technical scheme:
a liquid injection device for lithium battery production comprises a supporting top plate, wherein a transmission material belt is horizontally arranged on the top surface of the supporting top plate, a supporting bottom block is vertically and downwards welded on the bottom surface of the supporting top plate, a material guide plate is obliquely welded on one side of the supporting top plate, supporting side plates are vertically and upwards welded on the top surface of the supporting top plate, a movable top plate is horizontally arranged on the side edge between the supporting side plates, a material extruding cylinder is connected with the top surface of the movable top plate through bolts, a main material storage pipe is connected with the bottom surface of the movable top plate through bolts, a material inlet pipe is inserted into the outer side edge of the main material storage pipe, a transmission motor is connected with one side edge of the supporting top plate, a transmission roller is arranged on the inner side edge of the supporting top plate, a middle supporting plate is horizontally welded on the inner side edge of the supporting top plate, a vertical channel is arranged on the side edge between the supporting side plates, and driving end blocks are symmetrically welded on the two ends of the movable top plate, the bottom of main storage pipe has the pipe of pegging graft perpendicularly downwards welded, the card silo has evenly been seted up on the outside limit in transmission material area, the inboard side joint of main storage pipe has the piston block, the top surface of piston block has evenly seted up the through-going hole, the inboard side that passes through the hole is provided with the returning face plate, the inboard bottom surface of main storage pipe is provided with the closing plate.
As a preferred embodiment of the present invention: the channel has been seted up to the top surface level of supporting the roof, and the level setting is taken inside the channel to the transmission, and the level of transmission material is cup jointed and is set up the outside limit position at the transmission roller, and the number of supporting the bottom piece is the polylith, and the polylith supports the fixed bottom that sets up in the bottom surface of supporting the roof and is close to the border position.
As a preferred embodiment of the present invention: one side of the material guide plate is in butt joint with one end of the outer side of the material conveying belt, the number of the supporting side plates is two, the two supporting side plates are arranged in parallel, the two supporting side plates are vertical and are arranged close to the two side positions of the top surface of the supporting top plate, and the two ends of the movable top plate are in butt joint with the opening side positions of the vertical channel.
As a preferred embodiment of the present invention: the number of crowded material cylinder is a plurality of, and a plurality of crowded material cylinders homogeneous font arrange and set up the top surface position at the activity roof, and the output of a plurality of crowded material cylinders runs through the inboard side position that the activity roof top surface extended to main storage pipe perpendicularly downwards, and the vertical welding of output sets up the top surface central point at the piston block and puts, and the number of main storage pipe and the number of crowded material cylinder keep unanimous the setting, and the equal vertical bottom surface position to setting at the activity roof of a plurality of main storage pipes.
As a preferred embodiment of the present invention: one end of the feeding pipe runs through the side wall of the main storage pipe and extends to the inside, the output end of the transmission motor extends and is welded at one end of the transmission roller, the middle support plate is horizontally arranged at the center of the transmission material belt, the driving end block is respectively arranged at the inner side edge of the vertical channel in a corresponding clamping mode, and the inside of the inserting pipe and the inside of the main storage pipe are kept to be in through connection.
As a preferred embodiment of the present invention: the turnover plate is arranged at the inner side position of the bottom end of the through hole through the inserted rod, the structure of the sealing plate is consistent with that of the turnover plate, and the sealing plate is arranged at the inner side position of the bottom hole of the through hole.
Compared with the prior art, the utility model has the beneficial effects that:
the lithium batteries are uniformly placed in the material clamping groove on the top surface of the transmission material belt, the transmission roller is rotated under the rotation of the transmission motor, the transmission material belt can move with the lithium batteries under the rotation of the transmission roller, after the lithium batteries move to the position between the supporting side plates, the movable top plate is driven to move downwards under the movement of the driving end block, so that the bottom end feeding pipe of the main material storage pipe is driven to be inserted into the lithium batteries, the piston block is driven to extrude downwards in the main material storage pipe under the downward pushing of the extruding cylinder, liquid is injected into the lithium batteries from the feeding pipe under the feeding of the feeding pipe, when the movable block moves downwards, the turnover plate at the bottom end of the through hole is sealed, the sealing plate is in an open state, and the reverse sealing plate is sealed in a closed state, so that the device has a simple design structure and is simple and convenient to operate, the automatic liquid injection structure is adopted, so that the speed and the efficiency are higher, and meanwhile, the processing efficiency is greatly improved through batch liquid injection operation.
Drawings
Other features, objects and advantages of the utility model will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
FIG. 1 is a schematic perspective view of a liquid injection device for lithium battery production;
FIG. 2 is a schematic structural diagram of a top connection detail of a liquid injection device for lithium battery production;
FIG. 3 is a schematic structural diagram of a side view section connection detail of a supporting side plate of a liquid injection device for lithium battery production;
fig. 4 is a schematic structural diagram of a front section connection detail of a transmission material belt of a liquid injection device for lithium battery production;
fig. 5 is a schematic structural diagram of a main storage tube side view section connection detail of a liquid injection device for lithium battery production.
In the figure: 1. supporting a top plate; 2. conveying the material belt; 3. a support bottom block; 4. a material guide plate; 5. supporting the side plates; 6. a movable top plate; 7. a material extruding cylinder; 8. a main storage pipe; 9. a feed pipe; 10. a transmission motor; 11. a transfer roller; 12. a middle support plate; 13. a vertical channel; 14. a drive end block; 15. inserting a pipe; 16. a clamping groove; 17. a piston block; 18. a through hole; 19. a turnover plate; 20. and (7) sealing the plate.
Detailed Description
Referring to fig. 1-2, in the embodiment of the present invention, an injection device for lithium battery production includes a top supporting plate 1, a transmission material belt 2 is horizontally disposed on a top surface of the top supporting plate 1, a plurality of bottom supporting blocks 3 are vertically welded to a bottom surface of the top supporting plate 1, a channel is horizontally disposed on the top surface of the top supporting plate 1, the transmission material belt 2 is horizontally disposed inside the channel, the transmission material belt 2 is horizontally sleeved on an outer side of a transmission roller 11, the number of the bottom supporting blocks 3 is plural, the plurality of bottom supporting blocks 3 are fixedly disposed on a bottom surface of the top supporting plate 1 near an edge, a material guiding plate 4 is obliquely welded on one side edge of the top supporting plate 1, supporting side plates 5 are vertically welded upward on the top surface of the top supporting plate 1, a movable top plate 6 is horizontally disposed between the supporting side plates 5, one side edge of the material guiding plate 4 is butt-jointed to one end position of the outer side edge of the transmission material belt 2, the number of the supporting side plates 5 is two, the two supporting side plates 5 are arranged in parallel, the two supporting side plates 5 are vertically and fixedly arranged at the positions, close to the two side edges, of the top surface of the supporting top plate 1, the two ends of the movable top plate 6 are vertically butted and arranged at the positions of the opening side edges of the vertical channel 13, the top surface of the movable top plate 6 is connected with the extruding cylinders 7 through bolts, the bottom surface of the movable top plate 6 is connected with the main material storage pipes 8 through bolts, the number of the extruding cylinders 7 is multiple, the extruding cylinders 7 are uniformly distributed and arranged at the position of the top surface of the movable top plate 6, the output ends of the extruding cylinders 7 vertically penetrate through the top surface of the movable top plate 6 downwards and extend to the positions of the inner side edges of the main material storage pipes 8, the output ends are vertically welded and arranged at the center position of the top surface of the piston block 17, the number of the main material storage pipes 8 is consistent with the number of the extruding cylinders 7, and the main material storage pipes 8 are vertically arranged at the positions of the bottom surface of the movable top plate 6, a feeding pipe 9 is inserted into the outer side edge of the main storage pipe 8, a transmission motor 10 is connected to one side edge of the supporting top plate 1 through a bolt, a transmission roller 11 is arranged on the inner side edge of the supporting top plate 1, a middle supporting plate 12 is horizontally welded on the inner side edge of the supporting top plate 1, one end of the feeding pipe 9 penetrates through the side wall of the main storage pipe 8 and extends into the main storage pipe, the output end of the transmission motor 10 is arranged at one end of the transmission roller 11 in an extending and welding mode, and the middle supporting plate 12 is horizontally arranged at the center of the transmission belt 2;
referring to fig. 3-5, in an embodiment of the present invention, a liquid injection device for lithium battery production is provided, wherein a vertical channel 13 is disposed at a side edge between support side plates 5, driving end blocks 14 are symmetrically welded at two ends of a movable top plate 6, an insertion pipe 15 is vertically welded at a bottom end of a main storage pipe 8 downward, the driving end blocks 14 are respectively and correspondingly clamped at inner side edges of the vertical channel 13, an interior of the insertion pipe 15 is in through connection with an interior of the main storage pipe 8, clamping grooves 16 are uniformly disposed at an outer side edge of a transmission belt 2, a piston block 17 is clamped at an inner side edge of the main storage pipe 8, a through hole 18 is uniformly disposed at a top surface of the piston block 17, an inversion plate 19 is disposed at an inner side edge of the through hole 18, a sealing plate 20 is disposed at an inner bottom surface of the main storage pipe 8, the inversion plate 19 is disposed at an inner side edge position of a bottom end of the through hole 18 through an insertion rod, a structure of the sealing plate 20 is consistent with a structure of the inversion plate 19, and the sealing plate 20 is disposed at an inner side position of the bottom hole of the through hole 18.
The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.
The working principle of the utility model is as follows:
lithium batteries are evenly placed inside the material clamping groove 16 on the top surface of the transmission material belt 2, the transmission roller 11 is rotated under the rotation of the transmission motor 10, the conveying material belt 2 can move with the lithium battery under the rotation of the conveying roller 11, after the lithium battery moves to the position between the supporting side plates 5, the movable top plate 6 is driven to move downwards by the movement of the driving end block 14, so that the bottom end feeding pipe 9 of the main storage pipe 8 is driven to be inserted into the interior of the lithium battery, the downward pushing of the extruding cylinder 7 drives the piston block 17 to extrude downwards in the main material storage pipe 8, and liquid is injected into the lithium battery from the feeding pipe 9 under the feeding of the feeding pipe 9, and when the movable block 17 moves downwards, the turnover plate 19 at the bottom end of the through connecting hole 18 is sealed, meanwhile, the sealing plate 20 is opened, and the irregular sealing plate 20 is sealed in a closed state.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.
Claims (6)
1. The liquid injection device for the production of the lithium battery comprises a supporting top plate (1) and is characterized in that a transmission material belt (2) is horizontally arranged on the top surface of the supporting top plate (1), a supporting bottom block (3) is vertically welded downwards on the bottom surface of the supporting top plate (1), a material guide plate (4) is obliquely welded on one side edge of the supporting top plate (1), supporting side plates (5) are vertically welded upwards on the top surface of the supporting top plate (1), a movable top plate (6) is horizontally arranged between the supporting side plates (5), a material extruding cylinder (7) is connected with the top surface of the movable top plate (6) through bolts, a main storage pipe (8) is connected with the bottom surface of the movable top plate (6) through bolts, a feeding pipe (9) is inserted into the outer side edge of the main storage pipe (8), a transmission motor (10) is connected with one side edge of the supporting top plate (1) through bolts, the inboard side of roof support (1) is provided with transmission roller (11), the inboard side horizontal welding of roof support (1) has well backup pad (12), vertical channel (13) have been seted up to the side between support curb plate (5), the both ends symmetrical welding of activity roof (6) has drive end block (14), the perpendicular downward welding in bottom of main storage pipe (8) has grafting pipe (15), card silo (16) have evenly been seted up to the outside limit of transmission area (2), the inboard side joint of main storage pipe (8) has piston block (17), through-connection hole (18) have evenly been seted up to the top surface of piston block (17), the inboard side of through-connection hole (18) is provided with returning face plate (19), the inboard of main storage pipe (8) is provided with bottom surface (20).
2. The electrolyte injection device for lithium battery production according to claim 1, wherein a channel is horizontally formed in the top surface of the top supporting plate (1), the transmission material belt (2) is horizontally arranged in the channel, the transmission material belt (2) is horizontally sleeved and arranged at the outer side edge of the transmission roller (11), the number of the bottom supporting blocks (3) is multiple, and the multiple bottom supporting blocks (3) are fixedly arranged at the bottom surface of the top supporting plate (1) and close to the edge.
3. The liquid injection device for lithium battery production according to claim 1, wherein one side of the material guide plate (4) is butted at one end of the outer side of the conveying material belt (2), the number of the supporting side plates (5) is two, the two supporting side plates (5) are arranged in parallel, the two supporting side plates (5) are vertically and fixedly arranged at positions close to the two sides of the top surface of the supporting top plate (1), and two ends of the movable top plate (6) are vertically butted at the opening side of the vertical channel (13).
4. The liquid injection device for the lithium battery production according to claim 1, wherein the number of the material extruding cylinders (7) is multiple, the material extruding cylinders (7) are uniformly arranged on the top surface of the movable top plate (6), the output ends of the material extruding cylinders (7) vertically penetrate through the top surface of the movable top plate (6) downwards to extend to the inner side position of the main material storage pipe (8), the output ends are vertically welded on the center position of the top surface of the piston block (17), the number of the main material storage pipes (8) and the number of the material extruding cylinders (7) are consistent, and the main material storage pipes (8) are vertically arranged on the bottom surface of the movable top plate (6).
5. The liquid injection device for lithium battery production according to claim 1, wherein one end of the feeding pipe (9) extends through the side wall of the main storage pipe (8) to the inside, the output end of the transmission motor (10) is extended and welded to be arranged at one end of the transmission roller (11), the middle support plate (12) is horizontally arranged at the center of the transmission material belt (2), the driving end blocks (14) are respectively arranged at the inner side positions of the vertical channel (13) in a corresponding clamping manner, and the inside of the insertion pipe (15) is kept in a communicating manner with the inside of the main storage pipe (8).
6. The liquid injection device for the lithium battery production according to claim 1, wherein the turnover plate (19) is disposed at an inner side position of a bottom end of the through hole (18) through an insertion rod, the structure of the sealing plate (20) is consistent with that of the turnover plate (19), and the sealing plate (20) is disposed at an inner side position of a hole in a bottom surface of the through hole (18).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123206599.9U CN216450785U (en) | 2021-12-20 | 2021-12-20 | Priming device is used in lithium cell production |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123206599.9U CN216450785U (en) | 2021-12-20 | 2021-12-20 | Priming device is used in lithium cell production |
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Publication Number | Publication Date |
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CN216450785U true CN216450785U (en) | 2022-05-06 |
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CN202123206599.9U Active CN216450785U (en) | 2021-12-20 | 2021-12-20 | Priming device is used in lithium cell production |
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2021
- 2021-12-20 CN CN202123206599.9U patent/CN216450785U/en active Active
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