CN208804963U - A kind of battery warehouse compartment formula vacuum drying production line - Google Patents
A kind of battery warehouse compartment formula vacuum drying production line Download PDFInfo
- Publication number
- CN208804963U CN208804963U CN201821525427.3U CN201821525427U CN208804963U CN 208804963 U CN208804963 U CN 208804963U CN 201821525427 U CN201821525427 U CN 201821525427U CN 208804963 U CN208804963 U CN 208804963U
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- Prior art keywords
- battery
- warehouse compartment
- drying
- management frame
- battery management
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- Secondary Cells (AREA)
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Abstract
The utility model relates to battery automatic drying line technology fields, more particularly to a kind of battery warehouse compartment formula is dried in vacuo production line, including identical first drying line of structure and the second drying line, first drying line includes several battery management frames and the elevator that is oppositely arranged with battery management frame, it is provided with several in battery management frame and places warehouse compartment, each placement warehouse compartment lays drying cavity, the side of battery management frame is provided with driving cylinder, cylinder and drying cavity is driven to be drivingly connected, elevator is provided with loading and unloading robot, feeding web is provided between battery management frame and loading and unloading robot, discharging conveyor belts and test battery conveyer belt, feeding web one end is provided with feeding device, the side of feeding device is provided with material conveyer belt, scanner is provided between material conveyer belt and feeding device.Occupied area is small, carries out operation of feeding and discharging and drying process to battery automatically, improves the production efficiency and product quality of battery.
Description
Technical field
The utility model relates to battery automatic drying line technology field more particularly to a kind of vacuum drying lifes of battery warehouse compartment formula
Producing line.
Background technique
The process of vacuum drying of battery is exactly to be placed in battery in closed drying box, is vacuumized with vacuum system same
When battery is constantly heated, be diffused into the moisture of inside battery among external environment by pressure difference and temperature difference, moisture
Son obtains enough kinetic energy in battery surface, and hydrone escapes into the outer of battery after overcoming intermolecular interaction force
Portion, the process finally taken away by vacuum pump.Existing drying box is mostly irremovable formula and is intervally installed, bulky
Clumsiness takes up a large area, and maintenance is inconvenient, can vacuum drying number of batteries it is limited, energy consumption is high, high production cost, while
Need to be put into battery one by one in drying box manually by operator and carry out vacuum drying and operate, end of operation to be dried in vacuo it
Afterwards, then by the way that battery is transported to next manufacturing procedure manually, large labor intensity, working efficiency is low.
Summary of the invention
The purpose of this utility model is that in view of the deficiencies of the prior art, providing a kind of battery warehouse compartment formula vacuum drying production
Line, compact-sized, occupied area is small, carries out operation of feeding and discharging and drying process to battery automatically, without human intervention, improves electricity
The production efficiency and product quality in pond reduce production cost.
To achieve the above object, a kind of battery warehouse compartment formula of the utility model is dried in vacuo production line, including the first drying
Line and the second drying line being oppositely arranged with the first drying line, first drying line is identical as the second drying cable architecture, described
First drying line includes the battery management frame of several transversely arranged settings and the lifting that is oppositely arranged with battery management frame
Machine is provided with several in the battery management frame and places warehouse compartment, and each placement warehouse compartment lays drying cavity, the electricity
The side of pond management framework is provided with driving cylinder, and the driving cylinder and drying cavity are drivingly connected, the elevator setting
Have loading and unloading robot, be provided between the battery management frame and loading and unloading robot accommodated side-by-side feeding web,
Discharging conveyor belts and test battery conveyer belt, one end of the feeding web are provided with feeding device, the feeding device
Side is provided with material conveyer belt, is provided with scanner between the material conveyer belt and feeding device.
Preferably, the two sides for placing warehouse compartment are provided with lifting cylinder, and the power output end of the lifting cylinder drives
It is dynamic to be connected with the cover board to match with drying cavity.
Preferably, the bottom of the drying cavity is provided with sliding block, and the placement warehouse compartment is provided with to be slidably connected with sliding block
Guide rail.
Preferably, heating plate and current controller, the heating plate and current controller are provided in the drying cavity body
Electrical connection.
Preferably, the feeding device is horizontally arranged with the first synchronous belt mould group, the output of the first synchronous belt mould group
End, which is drivingly connected, the second synchronous belt mould group, and the output end drive connection of the second synchronous belt mould group has peace moving up and down
Loading board, the mounting plate are provided with several for clamping the feeding clamping jaw of battery.
Preferably, the placement warehouse compartment is stacked and placed at the different height of battery management frame.
The utility model has the beneficial effects that a kind of battery warehouse compartment formula vacuum drying production line of the utility model, including the
One drying line and the second drying line being oppositely arranged with the first drying line, first drying line and the second drying cable architecture phase
Together, first drying line includes the battery management frame of several transversely arranged settings and is oppositely arranged with battery management frame
Elevator, several are provided in the battery management frame and places warehouse compartment, each placement warehouse compartment lays drying cavity,
The side of the battery management frame is provided with driving cylinder, and the driving cylinder and drying cavity are drivingly connected, the lifting
Machine is provided with loading and unloading robot, and the charging that accommodated side-by-side is provided between the battery management frame and loading and unloading robot is defeated
Band, discharging conveyor belts and test battery conveyer belt are sent, one end of the feeding web is provided with feeding device, the charging dress
The side set is provided with material conveyer belt, is provided with scanner between the material conveyer belt and feeding device.
Battery is transported by material conveyer belt, and battery is known using the two dimensional code of scanner scanning battery to feeding device
Basic information content, and data are uploaded to service system, are conducive to the flowing trend that service system automatically tracks battery, into
Expect that device is placed in the feed entrance point of feeding web by battery automatic clamping and accurately, is then transported battery by feeding web
The defeated position to battery management frame, while loading and unloading robot accurately and timely grabs on feeding web according to work order
Battery, the placement warehouse compartment for driving charging & discharging machine device people lifting moving to specify to battery management frame by elevator drive cylinder
Driving drying cavity is removed from placement warehouse compartment, and battery is accurately put into drying cavity body by loading and unloading robot, dries cavity
It is connect with the vacuum system of outside, driving cylinder driving drying cavity body re-enters into dry to battery progress vacuum in placement warehouse compartment
Dry operation drives drying cavity to remove from placement warehouse compartment, charging & discharging machine after being dried in vacuo operation completion by driving cylinder
Device people first takes out one piece and is put into test battery conveyer belt for testing the experimental cell of water content, will be real by test battery conveyer belt
Electrical verification pond is transported to battery moisture content detection device and carries out the operation of cell water content detection, if battery water content reaches qualified
It is required that when, the intracorporal all spec batteries of the drying cavity are clamped and are placed in discharging conveyor belts and transported by loading and unloading robot
Send, if battery water content it is excessively high without reaching Eligibility requirements when, drying cavity if, continues vacuum drying operation one
The section time, then loading and unloading robot clamps new experimental cell from the drying cavity again and is put into test battery conveyer belt, by electricity
The cell water content detection operation that water divides content detection device to carry out a new round, if battery water content reaches Eligibility requirements
When, loading and unloading robot just clamps spec battery and is transported by discharging conveyor belts, if battery water content still reach to less than
When Eligibility requirements, the above operating procedure of iterative cycles is until battery water content reaches Eligibility requirements, multiple battery management frames
Space occupied is saved in the closely coupled arrangement of frame, be can satisfy and is carried out scale vacuum drying treatment to battery, improves the warp of enterprise
Ji benefit.The utility model is compact-sized, and occupied area is small, carries out operation of feeding and discharging and drying process to battery automatically, is not necessarily to
Manual operation improves the production efficiency and product quality of battery, reduces production cost.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
Fig. 2 is the structural schematic diagram of the utility model battery conveyer.
Fig. 3 is the partial enlargement structural representation of A in Fig. 2.
Fig. 4 is the structural schematic diagram of the utility model battery management frame.
Fig. 5 is the structural schematic diagram of the utility model feeding device.
Appended drawing reference includes:
1 --- the first drying line 2 --- the second drying line 3 --- battery management frame
4 --- elevator 5 --- placing warehouse compartment 51 --- lifting cylinders
52 --- cover board 53 --- guide rail 6 --- drying cavitys
61 --- sliding block 62 --- heating plate 63 --- current controllers
7 --- driving cylinder 8 --- loading and unloading robot 9 --- feeding webs
10 --- discharging conveyor belts 11 --- test battery conveyer belt 12 --- feeding devices
121 --- the first synchronous belt mould group 122 --- the second synchronous belt mould group 123 --- mounting plates
124 --- feeding clamping jaw 13 --- material conveyer belt 14 --- scanners.
Specific embodiment
The utility model is described in detail below in conjunction with attached drawing.
As shown in Figures 1 to 5, a kind of battery warehouse compartment formula of the utility model is dried in vacuo production line, including the first drying
Line 1 and the second drying line 2 being oppositely arranged with the first drying line 1, first drying line 1 is identical as 2 structure of the second drying line,
First drying line 1 includes the battery management frame 3 of several transversely arranged settings and is oppositely arranged with battery management frame 3
Elevator 4, several are provided in the battery management frame 3 and places warehouse compartment 5, each placement warehouse compartment 5 lays drying
Cavity 6, the side of the battery management frame 3 are provided with driving cylinder 7, and the driving cylinder 7 connects with the drying driving of cavity 6
It connects, the elevator 4 is provided with loading and unloading robot 8, is provided between the battery management frame 3 and loading and unloading robot 8
Feeding web 9, discharging conveyor belts 10 and the test battery conveyer belt 11 of accommodated side-by-side, one end of the feeding web 9 is set
It is equipped with feeding device 12, the side of the feeding device 12 is provided with material conveyer belt 13, the material conveyer belt 13 and charging
Scanner 14 is provided between device 12.
Battery is transported to feeding device 12 by material conveyer belt 13, and the two dimensional code of battery is scanned using scanner 14, is obtained
Know the basic information content of battery, and data are uploaded to service system, is conducive to the flowing that service system automatically tracks battery
Trend, feeding device 12 by battery automatic clamping and are accurately placed in the feed entrance point of feeding web 9, then by charging conveying
Battery transports to the position of battery management frame 3 with 9, at the same loading and unloading robot 8 according to work order in feeding web 9
On accurately and timely grab battery, drive 8 lifting moving of loading and unloading robot to battery management frame 3 specified by elevator 4
Warehouse compartment 5 is placed, the driving driving of cylinder 7 drying cavity 6 is removed from placement warehouse compartment 5, and battery is accurately put by loading and unloading robot 8
Into drying cavity 6, drying cavity 6 is connect with external vacuum system, and the driving driving drying cavity 6 of cylinder 7 re-enters into
It places in warehouse compartment 5 and vacuum drying operation is carried out to battery, after being dried in vacuo operation completion, driven and dried by driving cylinder 7
Cavity 6 is removed from placement warehouse compartment 5, and loading and unloading robot 8 first takes out one piece and is put into survey for testing the experimental cell of water content
Battery conveyer belt 11 is tried, experimental cell is transported to battery moisture content detection device by test battery conveyer belt 11 and carries out battery
Water content detection operation, if battery water content reaches Eligibility requirements, loading and unloading robot 8 is by the institute in the drying cavity 6
There is spec battery to clamp and be placed in discharging conveyor belts 10 and transported, is wanted if battery water content is excessively high without reaching qualification
When asking, which then continues vacuum drying operation a period of time, and then loading and unloading robot 8 is again from the drying cavity
Body 6 clamps new experimental cell and is put into test battery conveyer belt 11, and the electricity of a new round is carried out by battery moisture content detection device
Water content detection operation, if battery water content reaches Eligibility requirements, loading and unloading robot 8 just clamping spec battery and by
Discharging conveyor belts 10 are transported, if battery water content is still reached to less than Eligibility requirements, the above operating procedure of iterative cycles
Until battery water content reaches Eligibility requirements, space occupied, energy are saved in the closely coupled arrangement of multiple battery management frames 3
It is enough to meet to battery progress scale vacuum drying treatment, improve the economic benefit of enterprise.The utility model is compact-sized, land occupation
Area is small, carries out operation of feeding and discharging to battery automatically and drying process improves the production efficiency and production of battery without human intervention
Quality reduces production cost.
As shown in figure 4, the two sides of the placement warehouse compartment 5 of the present embodiment are provided with lifting cylinder 51, the lifting cylinder 51
Power output end be drivingly connected and have and the cover board 52 that matches of drying cavity 6.Specifically, loading and unloading robot 8 clamps battery
It is accurately put into drying cavity 6, the driving driving drying cavity 6 of cylinder 7, which enters, to be placed in warehouse compartment 5, is set to and is placed warehouse compartment 5
The lifting cylinders 51 of two sides drives cover board 52 to move down, and makes cover board 52 and dries the opening tight closure of cavity 6, is conducive to pair
Battery carries out vacuum drying operation, and structure is simple, easy to operate, good seal performance.
As shown in figure 4, the bottom of the drying cavity 6 of the present embodiment is provided with sliding block 61, the placement warehouse compartment 5 be provided with
The guide rail 53 that sliding block 61 is slidably connected.Specifically, driving cylinder 7 driving drying cavity 6 is free along guide rail 53 by sliding block 61
Sliding, so that realizing that the driving driving drying cavity 6 of cylinder 7 conveniently and efficiently removes or enters places warehouse compartment 5, frictional resistance
It is small, it is mobile steady rapid.
As shown in figure 4, being provided with heating plate 62 and current controller 63, the heating in the drying cavity 6 of the present embodiment
Plate 62 is electrically connected with current controller 63.Specifically, heating plate 62 adjusts size of current by current controller 63, so as to adjust
The operating temperature of heating plate 62 has the function that intelligent thermoregulating, and different shape size can be used in heating plate 62, such as: it is rectangular
Shape, triangle or circle meet different work requirements, and it is convenient to operate, stable.
As shown in Figure 2 and Figure 5, the feeding device 12 of the present embodiment is horizontally arranged with the first synchronous belt mould group 121, and described
The output end drive connection of one synchronous belt mould group 121 has the second synchronous belt mould group 122, the second synchronous belt mould group 122 it is defeated
Outlet drive connection has mounting plate 123 moving up and down, and the mounting plate 123 is provided with several for clamping taking for battery
Feed collet pawl 124.Specifically, output end driving 122 transverse shifting of the second synchronous belt mould group of the first synchronous belt mould group 121, second
Synchronous belt mould group 122 drives feeding clamping jaw 124 to vertically move by mounting plate 123, to realize that feeding device 12 clamps battery
It is accurately placed in feeding web 9 to be transported, compact-sized, movement links up smooth.
As shown in Figure 1 and Figure 4, the placement warehouse compartment 5 of the present embodiment is stacked and placed at the different height of battery management frame 3.Tool
Body, placing warehouse compartment 5 can be stacked at the different height of battery management frame 3, preferably, each battery management frame
3 can provide four stacked placement warehouse compartments 5 of layering, and the design of this close-coupled is meeting multiple functional, equipment the operation is stable
In the case where, also have the characteristics that occupied area is small, inexpensive.
In summary known to the utility model have above-described good characteristic, be able to enable it in use, promote with
The efficiency that does not have into technology and there is practicability, become a kind of product of great practical value.The above content is only this reality
With novel preferred embodiment, for those of ordinary skill in the art, based on the idea of the present invention, in specific embodiment party
There will be changes in formula and application range, and the content of the present specification should not be construed as a limitation of the present invention.
Claims (6)
1. a kind of battery warehouse compartment formula is dried in vacuo production line, including the first drying line and be oppositely arranged with the first drying line second
Drying line, it is characterised in that: first drying line is identical as the second drying cable architecture, and first drying line includes several
The battery management frame of transversely arranged setting and the elevator being oppositely arranged with battery management frame, in the battery management frame
It is provided with several and places warehouse compartment, each placement warehouse compartment lays drying cavity, the side setting of the battery management frame
There is driving cylinder, the driving cylinder and drying cavity are drivingly connected, and the elevator is provided with loading and unloading robot, the electricity
The feeding web, discharging conveyor belts and test battery that accommodated side-by-side is provided between pond management framework and loading and unloading robot are defeated
Band is sent, one end of the feeding web is provided with feeding device, and the side of the feeding device is provided with material conveyer belt, institute
It states and is provided with scanner between material conveyer belt and feeding device.
2. a kind of battery warehouse compartment formula according to claim 1 is dried in vacuo production line, it is characterised in that: the placement warehouse compartment
Two sides be provided with lifting cylinder, the power output end of the lifting cylinder, which is drivingly connected, the lid to match with drying cavity
Plate.
3. a kind of battery warehouse compartment formula according to claim 1 is dried in vacuo production line, it is characterised in that: the drying cavity
Bottom be provided with sliding block, the placement warehouse compartment is provided with the guide rail being slidably connected with sliding block.
4. a kind of battery warehouse compartment formula according to claim 3 is dried in vacuo production line, it is characterised in that: the drying cavity
It is inside provided with heating plate and current controller, the heating plate is electrically connected with current controller.
5. a kind of battery warehouse compartment formula according to claim 1 is dried in vacuo production line, it is characterised in that: the feeding device
It is horizontally arranged with the first synchronous belt mould group, the output end drive connection of the first synchronous belt mould group has the second synchronous belt mould group,
The output end drive connection of the second synchronous belt mould group has mounting plate moving up and down, and the mounting plate is provided with several
For clamping the feeding clamping jaw of battery.
6. a kind of battery warehouse compartment formula according to claim 1 is dried in vacuo production line, it is characterised in that: the placement warehouse compartment
It is stacked and placed at the different height of battery management frame.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821525427.3U CN208804963U (en) | 2018-09-18 | 2018-09-18 | A kind of battery warehouse compartment formula vacuum drying production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821525427.3U CN208804963U (en) | 2018-09-18 | 2018-09-18 | A kind of battery warehouse compartment formula vacuum drying production line |
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Publication Number | Publication Date |
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CN208804963U true CN208804963U (en) | 2019-04-30 |
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CN201821525427.3U Expired - Fee Related CN208804963U (en) | 2018-09-18 | 2018-09-18 | A kind of battery warehouse compartment formula vacuum drying production line |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110094941A (en) * | 2019-06-11 | 2019-08-06 | 东莞市法斯特智能装备有限公司 | A kind of large automatic battery roasting plant |
CN112648833A (en) * | 2020-12-24 | 2021-04-13 | 常德中科多源电力融合技术研究院 | Method for drying three-dimensional convolution type lithium ion battery pole piece |
-
2018
- 2018-09-18 CN CN201821525427.3U patent/CN208804963U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110094941A (en) * | 2019-06-11 | 2019-08-06 | 东莞市法斯特智能装备有限公司 | A kind of large automatic battery roasting plant |
CN110094941B (en) * | 2019-06-11 | 2024-05-07 | 汕头粤兴企业有限公司 | Large-scale full-automatic battery toasts equipment |
CN112648833A (en) * | 2020-12-24 | 2021-04-13 | 常德中科多源电力融合技术研究院 | Method for drying three-dimensional convolution type lithium ion battery pole piece |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190430 Termination date: 20210918 |