CN204333099U - A kind of continous way energy-conservation battery core baking cooling priming device - Google Patents
A kind of continous way energy-conservation battery core baking cooling priming device Download PDFInfo
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- CN204333099U CN204333099U CN201420772752.5U CN201420772752U CN204333099U CN 204333099 U CN204333099 U CN 204333099U CN 201420772752 U CN201420772752 U CN 201420772752U CN 204333099 U CN204333099 U CN 204333099U
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- battery core
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- fluid injection
- baking
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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 belongs to lithium ion battery processing technique field, disclose a kind of continous way energy-conservation battery core baking cooling priming device, high for solving existing Turnover Box manufacture maintenance cost, battery core is transported to moisture the process of Turnover Box from baking box and easily enters battery core simultaneously, cause the water content of battery core wayward, affect the problem of conforming product rate.The utility model comprises filling machine and vacuum bakeout case, the front end of vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, rear end sealed door and filling machine are all placed in a confined space, seal cavity is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, filling machine is arranged in fluid injection district, cooling area, between baking zone and fluid injection district, is stated cooling area and is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.
Description
Technical field
The utility model belongs to lithium ion battery processing technique field, is specifically related to a kind of continous way energy-conservation battery core baking cooling priming device.
Background technology
Lithium ion battery is a kind of secondary cell (rechargeable battery), and main dependence lithium ion between a positive electrode and a negative electrode movement carrys out work.In charge and discharge process, Li+ comes and goes between two electrodes and embeds and deintercalation; During charging, Li+ is from positive pole deintercalation, and embed negative pole through electrolyte, negative pole is in rich lithium state; Then contrary during electric discharge.Battery generally adopts material containing elemental lithium as electrode, is the representative of modern high performance battery.
In lithium ion battery manufacture craft process, mainly comprise the oven dry of battery core, cooling and fluid injection.Such as application number be 201220176799.6 utility model patent disclose a kind of lithium battery automatic baking baking oven, it comprises body of heater and the conveying mechanism through body of heater, body of heater comprise set gradually heating zone, flat-temperature zone and cooling zone; Heating zone and flat-temperature zone comprise ventilating fan, hot blast motor and heat-generating pipe, and hot blast motor is arranged at the shell of body of heater, and ventilating fan is arranged at above hot blast motor, and heat-generating pipe is arranged in body of heater, form circulating air channel in body of heater; Cooling zone comprises blower fan and water-cooling system, and water-cooling system is arranged at body of heater, and blower fan is arranged in water-cooling system; Water-cooling system is Surface Air Cooler.
Application number be 201220176832.5 utility model patent disclose a kind of lithium battery automatic baking production line, comprise oven, and can along the automatic baking clamp mechanism of oven movement and carrying manipulator with baking fixture, the front end of oven is provided with feeding manipulator and material loading drawstring, and the rear end of oven is provided with blanking mechanical hand and blanking drawstring; Oven side-lower is also provided with fixture passback streamline; Automatic baking clamp mechanism comprises top board, base plate, guide pillar, pressing plate, spring bearer plate, float plate, stage clip, screw rod, swivel nut and some dividing plates; Top board and base plate are arranged at the two ends up and down of guide pillar respectively, float plate, spring bearer plate, pressing plate and some dividing plates are slidably connected to guide pillar successively from top to bottom, swivel nut is arranged at float plate, and screw rod is connected with swivel nut after wearing top board, and stage clip elasticity is connected between spring bearer plate and pressing plate; The interlayer for placing lithium battery is all formed between each dividing plate and between the superiors' dividing plate and pressing plate; The left and right sides end of dividing plate is provided with oblique breach, and dividing plate also offers the thermal hole of through dividing plate left and right sides end; Automatic baking clamp mechanism also comprises pallet elevator structure for successively being opened by interlayer, be used for embracing the press plate mechanism that pressing plate presses down, and for drive screw rotates the electric screwdriver retaining mechanism of locking pressure plate; Oven comprise set gradually heating zone, flat-temperature zone and cooling zone; Heating zone and flat-temperature zone comprise ventilating fan, hot blast motor and heat-generating pipe, and hot blast motor is arranged at the body of heater shell of oven, and ventilating fan is arranged at above hot blast motor, and heat-generating pipe is arranged in body of heater, form circulating air channel in body of heater; Press plate mechanism bag tie rod arm, briquetting, contiguous block, roller bearing, needle bearing, guide bearing, guide plate and cylinder; The two ends of tie rod arm are provided with cylinder; The upper end of briquetting is bending end, and the lower end of briquetting is provided with needle bearing, and needle bearing is connected with contiguous block, and contiguous block is connected with tie rod arm by roller bearing, and guide plate offers gathering sill, and the bottom of gathering sill is vertical channel, and the top of gathering sill is deep-slotted chip breaker; Briquetting is connected to gathering sill by needle bearing rail, and tie rod arm is provided with guide bearing, and guide bearing contacts with the side of guide plate.
Application number be 201420010703.8 utility model patent disclose a kind of drying unit of lithium ion battery, comprise: baking box, baking rack is provided with in baking box, baking rack puts battery, high-temperature water fin is provided with in baking box, high-temperature water fin is by water pump cyclic high-temperature water, and Pump Shaft connects water pump pulley, and water pump pulley is connected motor by driving-belt with motor pulley; Baking box connects vacuum extractor; The wherein side of baking box housing is provided with the bonding in vacuum mouth of pipe, and the bonding in vacuum mouth of pipe is communicated with vacuum extractor; Water pump is provided with water pump Connection Block, and water pump Connection Block is connected with pedestal with motor; Its pump shaft of water pump is connected with water pump Connection Block by high temperature resistant bearing.
But existing battery core is after baking completes, battery core is placed on Turnover Box and lowers the temperature, and then be transported to filling machine and complete liquid injection process, but this technique also exists following shortcoming:
One, the manufacturing cost of Turnover Box (being equivalent to a close drying room) is high, and operation expense is high simultaneously;
Two, due to battery core water content be all 100ppm rank, therefore the control for battery core water content is quite strict, but in the process of battery core from baking box to Turnover Box, has moisture and enter battery core, cause the moisture of battery core uncontrollable, finally cause battery core qualification rate to reduce.
Utility model content
The utility model is high in order to solve existing Turnover Box manufacture maintenance cost, battery core is transported to moisture the process of Turnover Box from baking box and easily enters battery core simultaneously, cause the water content of battery core wayward, affect the problem of conforming product rate, and a kind of continous way energy-conservation battery core baking cooling priming device is provided, battery core toasted rear directly carry out cooling process, and then carry out fluid injection process, thus avoid the exposure of battery core under external environment condition, prevent moisture from entering battery core, ensure that the water content of battery core is effectively controlled, improve the qualification rate of battery core; Simultaneously compared to construction Turnover Box, greatly reduce the cost of manufacture and operation maintenance.
For solving the problems of the technologies described above, the technical scheme that the utility model adopts is:
A kind of continous way energy-conservation battery core baking cooling priming device, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, it is characterized in that, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.
The rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.
The input of described filling machine is provided with buffering area, and described buffering area is equipped with the weighing device for weighing before carrying out fluid injection to battery core.
The output of described filling machine is equipped with the vacuum pump for vacuumizing process to battery core.
The output of described filling machine is also equipped with the packaging system for carrying out sealing process to battery core.
The output of described filling machine is equipped with the weighing device for weighing after carrying out fluid injection to battery core.
The rear end of the weighing device of described filling machine is equipped for carrying battery core to the conveying of the revolving platform outside confined space.
Compared with prior art, the utility model has following beneficial effect:
Continous way of the present utility model energy-conservation battery core baking cooling priming device, by vacuum bakeout case and filling machine are all arranged in a confined space, realize the whole process of the baking of battery core, cooling and fluid injection, the structural design of confined space decreases the cost of manufacture and operation maintenance relative to existing Turnover Box; Simultaneously compared to prior art, battery core after the utility model baking directly carries out cooling process, then fluid injection process is carried out being transported to filling machine, whole process is all carried out in confined space, the battery core after toasting and extraneous contact are stopped, thus prevent extraneous moisture to enter battery core, ensure that the water content of battery core, improve the qualification rate of battery core.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model, and the region that the generous collimation mark of its peripheral is known is confined space;
Mark in figure: 1, vacuum bakeout case, 2, front end sealed door, 3, confined space, 4, rear end sealed door, 5, transmit guide rail, 6, cooling area, 7, vacuum pump, 8, nitrogen charging device, 9, fluid injection district, 10, buffering area, 11, weighing device, 12, filling machine, 13, closing device, 14, conveying, 15, revolving platform, 16, hermatic door.
Embodiment
Below in conjunction with embodiment, the utility model will be further described, and described embodiment is only the utility model part embodiment, is not whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art, not making other embodiments used obtained under creative work prerequisite, belongs to protection range of the present utility model.
Continous way of the present utility model energy-conservation battery core baking cooling priming device, comprise filling machine 12 for carrying out fluid injection process to battery core and at least one vacuum bakeout case 1 for toasting battery core, the utility model can configure the empty baking box 1 of multiple vacuum for toasting battery core, the front end of described vacuum bakeout case 1 is equipped with the front end sealed door 2 for putting into battery core, the rear end of described vacuum bakeout case 1 is equipped with the rear end sealed door 4 for taking out battery core, battery core is put into from front end sealed door 2, then toast, take out from rear end sealed door 4 after having toasted, rear end sealed door 4 and filling machine 12 are all placed in a confined space 3, and described confined space is through the hermatic door 16 of opening and closing being divided into baking zone, cooling area 6 and fluid injection district 9, and wherein baking zone completes in vacuum bakeout case.Described filling machine 12 is arranged in fluid injection district 9, and described cooling area 6 is between baking zone and fluid injection district 9, and described cooling area 6 is equipped with the vacuum pump 7 for vacuumizing process and the nitrogen charging device 8 for filling nitrogen cooling.Battery core cooling area completes cooling work for the treatment of.
The utility model baking zone and cooling area also can be set together, and namely do not arrange sealed door 16 between baking zone and cooling area, complete baking work in vacuum bakeout case, then between the outer wall and sealed door of vacuum bakeout case, form cooling area.The partition of baking zone and cooling area is directly realized by the outer wall of vacuum bakeout case.
As the preferred mode of one, between vacuum bakeout case 1 and cooling area, be provided with sealed door 16, convenient operation.
Continous way of the present utility model energy-conservation battery core baking cooling priming device, by vacuum bakeout case 1 and filling machine 12 are all arranged in a confined space, realize the whole process of the baking of battery core, cooling and fluid injection, the structural design of confined space decreases the cost of manufacture and operation maintenance relative to existing Turnover Box; Simultaneously compared to prior art, battery core after the utility model baking directly carries out cooling process, then fluid injection process is carried out being transported to filling machine, whole process is all carried out in confined space, the battery core after toasting and extraneous contact are stopped, thus prevent extraneous moisture to enter battery core, ensure that the water content of battery core, improve the qualification rate of battery core.
For the ease of the transport of battery core, the rear end sealed door 4 of vacuum bakeout case 1 is equipped with the transmission guide rail 5 for carrying battery core, and the other end of described transmission guide rail 5 connects the input of filling machine 12.Wherein each vacuum bakeout case is provided with and transmits guide rail 5, and the rear end of transmitting guide rail 5 links together until be delivered to filling machine 12.
Preferably, the input of filling machine 12 is provided with buffering area 10, and described buffering area 10 is equipped with the weighing device 11 for weighing before carrying out fluid injection to battery core.
Meanwhile, the utility model can also be numbered scan process in buffering area, is convenient to control battery core.Preferably, weighing device can also be electrically connected with computer, is directly recorded in computer by the weight information of information battery core.
Meanwhile, the output of filling machine 12 is equipped with the vacuum pump 7 for vacuumizing process to battery core.
The output of filling machine 12 is also equipped with the packaging system 13 for carrying out sealing process to battery core.
The output of described filling machine 12 is equipped with the weighing device 11 for weighing after carrying out fluid injection to battery core, and weighing device can also be electrically connected with computer, is directly recorded in computer by the weight information of information battery core.Battery core is carried out secondary battery core and to be weighed process after having sealed, find that the underproof battery core of fluid injection carries out sorting by manipulator.Qualified battery core of weighing exports.
The rear end of the weighing device 11 of filling machine 12 is equipped for carrying battery core to the conveying 14 of the revolving platform 15 outside confined space 3.
Whole workflow of the present utility model is: to weigh before the cooling-fluid injection of battery core baking-battery core-fluid injection-vacuumize-leave standstill-sealing-fluid injection after to weigh-revolving platform.
Wherein, the vacuum bakeout case that the utility model uses, nitrogen charging device, vacuum pump, weighing device, filling machine, closing device, transmission guide rail and conveying all belong to prior art products, those skilled in the art can understand and understand, and does not repeat them here.
Embodiment one
The continous way energy-conservation battery core baking cooling priming device of the present embodiment, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.
Embodiment two
The continous way energy-conservation battery core baking cooling priming device of the present embodiment, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.The rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.
Embodiment three
The continous way energy-conservation battery core baking cooling priming device of the present embodiment, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.The rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.The input of described filling machine is provided with buffering area, and described buffering area is equipped with the weighing device for weighing before carrying out fluid injection to battery core.
Embodiment four
The continous way energy-conservation battery core baking cooling priming device of the present embodiment, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.The rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.The input of described filling machine is provided with buffering area, and described buffering area is equipped with the weighing device for weighing before carrying out fluid injection to battery core.The output of described filling machine is equipped with the vacuum pump for vacuumizing process to battery core.
Embodiment five
The continous way energy-conservation battery core baking cooling priming device of the present embodiment, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.The rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.The input of described filling machine is provided with buffering area, and described buffering area is equipped with the weighing device for weighing before carrying out fluid injection to battery core.The output of described filling machine is equipped with the vacuum pump for vacuumizing process to battery core.The output of described filling machine is also equipped with the packaging system for carrying out sealing process to battery core.
Embodiment six
The continous way energy-conservation battery core baking cooling priming device of the present embodiment, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.The rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.The input of described filling machine is provided with buffering area, and described buffering area is equipped with the weighing device for weighing before carrying out fluid injection to battery core.The output of described filling machine is equipped with the vacuum pump for vacuumizing process to battery core.The output of described filling machine is also equipped with the packaging system for carrying out sealing process to battery core.The output of described filling machine is equipped with the weighing device for weighing after carrying out fluid injection to battery core.
Embodiment seven
The continous way energy-conservation battery core baking cooling priming device of the present embodiment, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.The rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.The input of described filling machine is provided with buffering area, and described buffering area is equipped with the weighing device for weighing before carrying out fluid injection to battery core.The output of described filling machine is equipped with the vacuum pump for vacuumizing process to battery core.The output of described filling machine is also equipped with the packaging system for carrying out sealing process to battery core.The output of described filling machine is equipped with the weighing device for weighing after carrying out fluid injection to battery core.The rear end of the weighing device of described filling machine is equipped for carrying battery core to the conveying of the revolving platform outside confined space.
Claims (7)
1. a continous way energy-conservation battery core baking cooling priming device, comprise filling machine for carrying out fluid injection process to battery core and at least one vacuum bakeout case for toasting battery core, it is characterized in that, the front end of described vacuum bakeout case is equipped with the front end sealed door for putting into battery core, the rear end of described vacuum bakeout case is equipped with the rear end sealed door for taking out battery core, described rear end sealed door and filling machine are all placed in a confined space, described confined space is through the hermatic door of opening and closing being divided into baking zone, cooling area and fluid injection district, described filling machine is arranged in fluid injection district, described cooling area is between baking zone and fluid injection district, described cooling area is equipped with the vacuum pump for vacuumizing process and the nitrogen charging device for filling nitrogen cooling.
2. continous way according to claim 1 energy-conservation battery core baking cooling priming device, it is characterized in that, the rear end sealed door of described vacuum bakeout case is equipped with the transmission guide rail for carrying battery core, and the other end of described transmission guide rail connects the input of filling machine.
3. continous way according to claim 2 energy-conservation battery core baking cooling priming device, it is characterized in that, the input of described filling machine is provided with buffering area, and described buffering area is equipped with the weighing device for weighing before carrying out fluid injection to battery core.
4., according to the arbitrary described continous way of claim 1-3 energy-conservation battery core baking cooling priming device, it is characterized in that, the output of described filling machine is equipped with the vacuum pump for vacuumizing process to battery core.
5. continous way according to claim 4 energy-conservation battery core baking cooling priming device, is characterized in that, the output of described filling machine is also equipped with the packaging system for carrying out sealing process to battery core.
6. continous way according to claim 5 energy-conservation battery core baking cooling priming device, is characterized in that, the output of described filling machine is equipped with the weighing device for weighing after carrying out fluid injection to battery core.
7. continous way according to claim 6 energy-conservation battery core baking cooling priming device, it is characterized in that, the rear end of the weighing device of described filling machine is equipped for carrying battery core to the conveying of the revolving platform outside confined space.
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CN201420772752.5U CN204333099U (en) | 2014-12-10 | 2014-12-10 | A kind of continous way energy-conservation battery core baking cooling priming device |
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CN201420772752.5U CN204333099U (en) | 2014-12-10 | 2014-12-10 | A kind of continous way energy-conservation battery core baking cooling priming device |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105226330A (en) * | 2015-11-02 | 2016-01-06 | 毛铁军 | A kind of manufacture method of soft-package battery |
CN105261729A (en) * | 2015-11-02 | 2016-01-20 | 毛铁军 | Vacuum baking and filling sealing machine for soft package battery |
CN106025429A (en) * | 2016-06-30 | 2016-10-12 | 深圳市海目星激光科技有限公司 | Battery cooling device |
CN107359305A (en) * | 2017-07-12 | 2017-11-17 | 珠海格力电器股份有限公司 | Lithium ion battery processing equipment |
CN109904381A (en) * | 2019-01-21 | 2019-06-18 | 湖北锂诺新能源科技有限公司 | A kind of inexpensive, efficient novel electrolyte filling method |
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2014
- 2014-12-10 CN CN201420772752.5U patent/CN204333099U/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105226330A (en) * | 2015-11-02 | 2016-01-06 | 毛铁军 | A kind of manufacture method of soft-package battery |
CN105261729A (en) * | 2015-11-02 | 2016-01-20 | 毛铁军 | Vacuum baking and filling sealing machine for soft package battery |
CN105261729B (en) * | 2015-11-02 | 2018-01-23 | 深圳市新浦自动化设备有限公司 | A kind of soft-package battery vacuum bakeout liquid-injection sealing machine |
CN106025429A (en) * | 2016-06-30 | 2016-10-12 | 深圳市海目星激光科技有限公司 | Battery cooling device |
CN106025429B (en) * | 2016-06-30 | 2019-12-13 | 深圳市海目星激光智能装备股份有限公司 | Battery cooling device |
CN107359305A (en) * | 2017-07-12 | 2017-11-17 | 珠海格力电器股份有限公司 | Lithium ion battery processing equipment |
CN109904381A (en) * | 2019-01-21 | 2019-06-18 | 湖北锂诺新能源科技有限公司 | A kind of inexpensive, efficient novel electrolyte filling method |
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