CN209503228U - Welding system - Google Patents
Welding system Download PDFInfo
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- CN209503228U CN209503228U CN201821768196.9U CN201821768196U CN209503228U CN 209503228 U CN209503228 U CN 209503228U CN 201821768196 U CN201821768196 U CN 201821768196U CN 209503228 U CN209503228 U CN 209503228U
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- end cap
- battery modules
- battery
- pipeline
- welding
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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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- 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
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
Welding system provided by the utility model, comprising: take feed supplement unit, including vision-based detection component and take feed supplement manipulator;End cap installs unit, including end cap pipeline and end cap storage assembly additional;End cap storage assembly is set up in above end cap pipeline, and vision-based detection component takes feed supplement manipulator, end cap storage assembly to be arranged along the conveying direction sequence of battery modules;Welding mechanism, welding mechanism include welding unit and battery modules pipeline, and welding unit is set to the tail end side of battery modules pipeline, and end cap pipeline is set to the head end side of battery modules pipeline;Welding unit includes plumb joint and welding platform, welding platform is located at the top of battery modules pipeline, and plumb joint is located at the top of welding platform, welding platform has hollow duct, hollow duct is embedded to be equipped with positioning web plate, positioning web plate has multiple apertures, and the arrangement mode of multiple apertures is identical as the arrangement mode of battery core in solder.The welding system of the utility model, welding battery quality and high-efficient.
Description
Technical field
The utility model relates to battery assembly equipment technical fields, more particularly, to a kind of welding system.
Background technique
Battery is the device that chemical energy is converted to electric energy.It generally includes electrolyte solution, metal motor and splendid attire
The container of electrolyte solution.Battery modules are to pass through work at power supply by conducting connecting part series/parallel for several single battery cores
Skill, structure are fixed on design position, and collaboration plays electric energy charge and discharge store function.Current battery is very widely used, is related to all
It is multi-field.
In battery modules welding process, need that multiple battery cores are first arranged into specific specification according to design requirement, then will
End cap lid is closed on the upside of battery core, on the upside of end cap and the battery core of multiple ad hoc fashions arrangement, is formed as one.Battery core and end cap
Connection type is commonly divided into welding, is spirally connected and mechanical elegant three kinds of forms.Wherein, welding procedure can be divided into again laser welding,
Ultrasonic bonding and electric resistance welding.Wherein, laser welding cooperation robot is just gradually becoming the main force of automation mould group production line, easily
In realization automated production.
In the welding process, due to the accurate contraposition of battery core position and plumb joint position, battery can largely be influenced
The quality and welding efficiency of welding.And during actual welding, it is not allowed there are battery positioning and leads to battery weldquality not
It is up to standard, the problem of being easy to appear substandard products.In addition, if end cap is not adjacent to battery core, holding when end cap lid is closed on the upside of multiple battery cores
It easily loosens, influences the fraction defective of welding battery;Especially for Laser Welding, weldment position needs very accurate, it is necessary to ensure that
In the focusing range of laser beam.
Utility model content
(1) technical problems to be solved
The utility model provides a kind of welding system, is not easy to be aligned to solve welding position, end cap and battery core not easy sticker
Tightly, the low technical problem of welding efficiency.
(2) technical solution
In order to solve the above technical problems, one aspect according to the present utility model, provides a kind of welding system, comprising:
Feed supplement unit is taken, it is described that feed supplement unit is taken to include vision-based detection component and take feed supplement manipulator;
End cap installs unit additional, and it includes end cap pipeline and end cap storage assembly that the end cap, which installs additional,;The end cap storage group
Part is set up in above the end cap pipeline, and the vision-based detection component described takes feed supplement manipulator, the end cap storage assembly
Conveying direction sequence along battery modules is arranged;
Welding mechanism, the welding mechanism include welding unit and battery modules pipeline, and the welding unit is set to
The tail end side of the battery modules pipeline, the end cap pipeline are set to the head end one of the battery modules pipeline
Side;
The welding unit includes plumb joint and welding platform, and the welding platform is located at the battery modules pipeline
Top, and the plumb joint is located at the top of the welding platform, the welding platform has hollow duct, the hollow duct
It is inside embedded with positioning web plate, the positioning web plate has multiple apertures, battery core in the arrangement mode and solder of the multiple aperture
Arrangement mode it is identical.
Further, the battery modules pipeline includes guide rail and the jacking group that is slideably positioned on the upside of the guide rail
The upper end of part, the jacking component is provided with the pallet for carrying battery modules, and one end of the guide rail is located at the weldering
It connects below platform.
Further, the opposite sides of the pallet is provided with battery modules positioning component, for described in fixed be carried on
Battery modules in pallet.
Further, the battery modules positioning component includes pallet block and the pallet block is driven to move along a straight line
Battery modules anchor drive, the pallet block protrude from the pallet upper surface, and the battery modules anchor drive
Drive shaft towards the center of the pallet.
Further, the end cap storage assembly includes end cap storehouse and the end cap dispenser positioned at end cap orlop portion,
The end cap dispenser includes clamping piece and lift part, and the lift part is located at the lower section of the clamping piece.
Further, the end cap storehouse includes more root posts;The more columns are parallel to each other and vertically arranged, to enclose
At the column structure for accommodating end cap;
Support frame is provided on the outside of the column structure;Any column is slidably connected to the branch by sliding part
On support, and the sliding bar of the sliding part is horizontally disposed.
Further, it further includes end cap detection components that the end cap, which installs unit additional,;The end cap detection components fixed setting
Above the end cap pipeline and it is located at end cap storage assembly side, and the end cap storehouse and the end cap detection components
Conveying direction sequence along the end cap pipeline is arranged.
Further, it further includes that end cap holds down assembly and battery modules feeding line that the end cap, which installs unit additional,;The battery
Mould group feeding line and the end cap pipeline are arranged in parallel;
The end cap holds down assembly including end cap feeding bracket, end cap reclaimer robot and compact heap;The end cap feeding
The top beam of bracket is across above the end cap pipeline and the battery modules feeding line, and the compact heap passes through linear drives
Part is connected on the downside of the top beam, and the end cap reclaimer robot is slidably connected to the top beam side.
Further, the vision-based detection component is fixedly installed on above the battery modules feeding line, and the vision
Detection components, the conveying direction sequence for taking feed supplement manipulator with the end cap feeding bracket along the battery modules feeding line
Setting;
It is described that feed supplement manipulator is taken to be fixed on battery modules feeding line side, for according to the vision-based detection component
Detection battery core is taken out or filled into battery modules from the battery modules on the battery modules feeding line.
It is further, described that take feed supplement unit further include battery modules block and block actuator;The block actuator
Drive shaft it is horizontally disposed, and perpendicular to the conveying direction of the battery modules feeding line, the battery modules block is towards institute
State battery modules feeding line.
(3) beneficial effect
The utility model proposes a kind of welding system, its advantages are mainly as follows:
By the way that positioning web plate is arranged in the welding platform between plumb joint and battery modules pipeline, web plate is positioned
On multiple apertures it is identical as the arrangement mode of battery core in battery modules, execute welding when battery modules are located at below welding platform
When operation, the position of battery core and the position of aperture are corresponding, can not only play the role of positioning battery core, play and limit welding position
With the effect of welding form, additionally it is possible to for compressing end cap, fit closely end cap with battery core;
End cap installs unit additional and passes through the cooperation of lift part and clamping piece, it can be noted that end cap is launched on end cap pipeline,
After end cap lid is closed to above battery modules, end cap is compressed by compact heap, enhances the laminating degree between end cap and battery core;
Feed supplement unit is taken by vision-based detection mechanism and takes the cooperation of feed supplement manipulator, it being capable of combo feelings to battery modules
Condition is monitored, additionally it is possible to the battery modules of further combo particular demands.
Detailed description of the invention
Fig. 1 is the top view according to a kind of welding mechanism of welding system of the utility model embodiment;
Fig. 2 is the schematic perspective view according to a kind of welding mechanism of welding system of the utility model embodiment;
Fig. 3 is the top view according to the matching mechanism of sheet of the utility model embodiment;
Fig. 4 is the schematic perspective view for installing unit additional according to the end cap of the utility model embodiment;
Fig. 5 is the structural schematic diagram according to a kind of feeding manipulator of welding system of the utility model embodiment;
Fig. 6 is the structural schematic diagram according to a kind of feed mechanism of welding system of the utility model embodiment;
Fig. 7 is the structural schematic diagram according to a kind of feed mechanism of welding system of the utility model embodiment.
In figure, 101- welding platform, 102- jacking component, 103- positioning web plate, 104- battery modules transportation manipulator,
105- battery conveying line, 106- processing material pipeline, 107- carrier pipeline, 108- guide rail, 109- pallet, 110- pallet gear
Block, 111- plumb joint support base, 112- sliding platform, 113- plumb joint installation axle, 114- plumb joint;
201- end cap pipeline, 202- end cap storehouse, 203- end cap dispenser, 204- column, 205- support frame, 206- battery
Mould group feeding line, 207- battery modules transfer lines, 208- end cap feeding bracket, 209- end cap reclaimer robot, in 210- battery core
Material platform, 211- carrier repetition stage, the first driving assembly of 212-, the second driving assembly of 213-, 214- third driving assembly,
The 4th driving assembly of 215-, 216- feeding manipulator, 217- supporting plate, 218- discharging web plate, 219- feeding head, 220- guiding branch
Bar, 221- fixed plate, the driving of 222- sucker, 223- supporting plate driving assembly, 224- driving assembly fixed frame, the support of 225- first are flat
Platform fixed frame, 226- the second support platform fixed frame, 227- support platform driving assembly;
301- portal frame, 302- material transfer manipulator, 303- battery core feeding bin, 304- battery core storage bin, 305- blank panel
Storage bin, 306- trolley positioning unit.
Specific embodiment
With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below
Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.
In the description of utility model, it should be noted that unless otherwise clearly defined and limited, term " first "
" second " is the number in order to clearly illustrate product component progress, does not represent any essential distinction.Term " preceding " " rear " with
It is conventional to product structure cognition subject to." upper one " " the latter " is to be based on putting in order and describing."upper" "lower" is with attached drawing
Subject to shown direction.For the ordinary skill in the art, above-mentioned term can be understood in this reality as the case may be
With the concrete meaning in novel.
It should be noted that unless otherwise clearly defined and limited, term " connection " shall be understood in a broad sense, for example, can
To be to be fixedly connected, may be a detachable connection, or be integrally connected;It can be directly connected, intermediate matchmaker can also be passed through
Jie is indirectly connected.For the ordinary skill in the art, it can understand above-mentioned term in utility model with concrete condition
Concrete meaning.
The present embodiment provides a kind of welding systems, including feed mechanism, matching mechanism of sheet and welding mechanism.Feed mechanism is used for
Automatically and continuously battery core is conveyed to matching mechanism of sheet;Matching mechanism of sheet dispenses feed mechanism according to the battery specifications of required preparation
Multiple battery cores are arranged according to the battery specifications of required preparation, and combo obtains the battery modules of different size, for example, combo is had
By the three rows three column square cell mould group that totally nine battery cores form;The battery modules obtained after combo be delivered to welding mechanism into
Row welding, the battery modules with multiple battery cores is welded together, to be used to prepare battery.
Wherein, feed mechanism is used to convey battery core to matching mechanism of sheet;To match convenient for the continuous and automatic charging to matching mechanism of sheet
Set battery core feeding bin and battery core storage bin.Battery core feeding bin and battery core storage bin are arranged side by side;When battery core is conveyed by other battery cores
Mechanism is delivered in battery core feeding bin, and can be transported in battery core storage bin simultaneously.The battery core being delivered in battery core feeding bin
Battery core material loading platform can be transported to by feeding manipulator, combo obtains the battery modules of different size;It is delivered to battery core storage bin
In battery core can be temporarily stored into battery core storage bin, when the mechanism for conveying battery core concentrates storing to take the process of battery core by battery core
In, then the battery core in battery core storage bin can be moved in battery core feeding bin, with the continuously feeding into battery core feeding bin.
Wherein, the top of battery core storage bin is provided with sensor;The inductive probe of sensor and the bottom of battery core storage bin
Between spacing be less than battery core storage bin Zhong Manliao when top layer's battery core and the bottom of battery core storage bin between spacing.For example,
When battery core storage bin is at best able to be vertically stacked six layers of battery core, then the inductive probe of sensor and battery core storage bin bottom
Between spacing should be less than topmost one layer of battery core upper surface and battery core storage bin bottom between spacing.With that layer topmost
For layer 6, then the position of the inductive probe of sensor can be correspondingly situated in the altitude range of layer 6 battery core, layer 5 electricity
In the altitude range of core etc., and so on, it may be alternatively located in the altitude range of first layer battery core, i.e. inductive probe and battery core storing
Spacing between orlop portion is less than the spacing between the upper surface and battery core storage bin bottom of first layer battery core.
When the inductive probe of sensor is arranged in the corresponding altitude range of first layer battery core, then when sensor sensing arrives
When not having battery core in battery core storage bin, six layers of battery core material can be conveyed into battery core storage bin;When the inductive probe of sensor is set
When setting in the corresponding altitude range of second layer battery core, then when sensor sensing, into battery core storage bin, this layer of position does not have battery core
When material, at least five layers of battery core material can be conveyed into battery core storage bin.And so on, it is different by the inductive probe of sensor
Position is set, in conjunction with different control modes, battery core material can be conveyed into battery core storage bin in time.It wherein, can also be in electricity
A sensor is correspondingly arranged in core storage bin in the altitude range of each layer of battery core material, i.e., along the vertical direction, is stored up in battery core
Multiple sensors are arranged in the side of feed bin, accurately to monitor the battery core reserves in battery core storage bin.
Matching mechanism of sheet includes that end cap installs unit additional, takes feed supplement unit and combo unit.Combo unit is used for battery core combo
Obtain the battery modules of different size.Take feed supplement unit for checking the battery modules after combo, to wherein gaps and omissions
Battery core carries out feed supplement or takes out extra battery core, or the specification demands of the battery modules according to required combo, carries out specific
Position takes/feed supplement, for example, for the three rows three column square specification that totally nine battery cores are arranged, according to the battery of required preparation
Specification demands need to take out the battery core for being located at two diagonal line point of intersection.After battery installation unit is used for combo unit combo
Obtained battery modules directly install end cap additional, alternatively, after to combo unit combo, and through take feed supplement unit take/feed supplement after electricity
Chi Mo group installs end cap additional, and the battery modules after installing end cap additional are delivered to welding mechanism and execute weld job.Wherein, for convenient for battery
The feeding of mould group and conveying make matching mechanism of sheet close to the head end of battery modules pipeline;Specifically, make end cap pipeline close to electricity
The head end of Chi Mo group pipeline, welding unit close to battery modules pipeline tail end so that install additional end cap after battery modules
Welding unit is delivered to via battery modules pipeline to execute weld job.
Wherein, combo unit includes battery core material loading platform and at least one feeding manipulator.Battery core feeding bin and feeder
Tool hand is located at battery core material loading platform upper end side;For convenient for making more compact structure, battery core feeding bin and welding mechanism are preferably placed at
The opposite sides of battery core material loading platform, welding mechanism are located at the tail end side of battery core material loading platform.Positioned at battery core feeding bin and electricity
Feeding manipulator between core material loading platform grabs the battery core in battery core feeding bin on battery core material loading platform, and combo obtains not
The battery modules of same specification.Wherein, the position of feeding manipulator can flexible setting, as long as can satisfy by battery core feeding bin will
Battery core grabs on battery core material loading platform.
Wherein, feed supplement unit is taken to include vision-based detection component and take feed supplement manipulator.It includes that end cap is defeated that end cap, which installs unit additional,
Line sending and end cap storage assembly, and end cap storage assembly is set up in above end cap pipeline.Also, vision-based detection component takes benefit
Expect that manipulator, end cap storage assembly are arranged along the conveying direction sequence of battery modules.Then the battery modules after combo were conveying
Cheng Zhong, first detected by visual component, if occurring extra or gaps and omissions battery core in battery modules, by take feed supplement manipulator into
Extra battery core is taken out in row feed supplement;Alternatively, when the battery modules for needing to configure special shape, for example, when 3 × 3 specifications of configuration
Battery modules then can be corresponding by vision-based detection component detection and when the battery core of its two cornerwise point of intersection need to be taken out
After battery modules, then there is the battery core for taking feed supplement manipulator to take out its two diagonal line point of intersection, constitutes three rows three column totally eight electricity
The battery modules of core.Battery modules after taking feed supplement are attached in battery modules by the end cap stored in end cap storage assembly again
Battery core upper end.
Referring to figure 1 and figure 2, in a specific embodiment, welding mechanism includes welding unit and battery modules
Pipeline;Welding unit includes plumb joint 114 and welding platform 101, and welding platform is located at the top of battery modules pipeline, and
Plumb joint is located at the top of welding platform, and welding platform 101 has hollow duct, and hollow duct is embedded to be equipped with positioning web plate 103,
Positioning web plate 103 has multiple apertures, and the arrangement mode of multiple apertures is identical as the arrangement mode of battery core in battery modules.
Specifically, the battery modules after combo for being delivered at welding platform 101 by battery modules pipeline, by being located at
The welding unit of 101 top of welding platform executes weld job.Wherein, welding platform 101 has in welding platform 101
Emptying aperture road;The axis in the usual hollow duct is along the vertical direction.In the embedded setting position web plate 103 in the hollow duct;Positioning
Web plate 103 is arranged perpendicular to the axis in hollow duct.For example, when welding platform 101 is horizontally disposed with, the positioning web plate 103
It is horizontally disposed.
The positioning web plate 103 has multiple apertures;Position web plate 103 on aperture arrangement mode and battery modules in battery core
Arrangement mode it is identical.For example, multiple aperture also uses when using the rectangle structure arrangement of m row's n column in battery modules
Rectangular arrangement mode.Wherein, the quantity of aperture can be greater than the quantity of battery core in battery modules, or the electricity equal to maximum specification
The quantity of battery core in Chi Mo group can be avoided replacement positioning web plate 103, be also convenient for simplifying weldering when welding different size battery
Connect 101 structure of platform.
The size of aperture is equal or slightly larger than the size of one end that battery core need to weld.When battery modules are delivered to welding platform
When 101 lower section, the lower end in contact of the upper end and positioning web plate 103, the position of battery core therein and the aperture on positioning web plate 103
It is corresponding, make not obstruct between plumb joint 114 and battery core, the welding convenient for plumb joint 114 to battery core.In welding platform 101
Setting positioning web plate 103, can be convenient for the pressuring action to battery core end cap in battery modules;Simultaneously as on positioning web plate 103
Aperture and aperture between there is interval, in welding process, can also to avoid between adjacent battery core welded condition it is mutual bad
It influences, play the role of limiting welding position and welds form.
In a specific embodiment, battery modules pipeline includes guide rail 108 and is slideably positioned on the upside of guide rail 108
Jacking component 102, jacking component 102 upper end be provided with the pallet 109 for carrying battery modules, and the one of the guide rail
End is located at below the welding platform.
Specifically, guide rail 108 and jacking component 102 constitute battery modules processing line.Guide rail 108 is for driving jacking component
102 linear slides;Wherein, guide rail 108 can be sliding rail, guide rail 108 or its slide construction, as long as being able to drive jacking component 102
Linear slide.Jacking component 102 can be the structures such as cylinder assembly, hydraulic pressure cylinder assembly;When jacking component 102 moves to welding
When first 114 lower section, as long as jacking component 102 can be realized driving pallet 109 to close to or far from 101/ plumb joint of welding platform
114 direction movement.
With welding platform 101, horizontally disposed, plumb joint 114 is downward and the drive shaft of jacking component 102 is arranged vertically upwards
Structure for.Guide rail 108 and pallet 109 are horizontally disposed, and jacking component 102 is fixed on 108 upside of guide rail, jack component
The upper end of 102 drive shaft is fixedly connected with pallet 109.Battery modules after combo are transferred to pallet by other pipelines or mechanism
On 109, the jacking component 102 for carrying battery modules slides on guide rail 108, is slid by the head end of guide rail 108 and is located at welding
Tail end immediately below first 114.
After reaching designated position, jacking component 102 stops horizontal movement;Then, it jacks and is pushed up on the driving axial of component 102
It rises, moves upwards pallet 109, so that battery modules be driven to move to welding platform 101, make battery modules and welding platform
Positioning web plate 103 on 101 contacts;Positioning web plate 103 plays the role of compressing the end cap being located on the upside of battery core in battery modules,
The conduct for playing positioning simultaneously, makes battery modules be parked in the position of setting, and plumb joint 114 executes weld job to battery modules.
After the completion of welding, the drive shaft of jacking component 102 is moved downward, and is driven pallet 109 to move downward, is made battery modules
It is detached from positioning web plate 103, in order to which battery modules below welding platform 101 by removing;Then, the driving of component 102 is jacked
Axis stopping movement, jacking component 102 slide along guide rail 108, the battery modules being welded are delivered to by the tail end of guide rail 108 and are led
The head end of rail 108, then be transported to other positions by other structures, that is, complete weld job.Using guide rail 108 and jacking component
102 structures combined are convenient for battery convenient for position conversion of the battery modules between other transfer structures and welding platform 101
The conveying of mould group;Meanwhile in conjunction in welding platform 101 position web plate 103 structure, battery modules in the welding process, energy
Restriction that is enough while realizing end cap compression, welding position or form.
In a specific embodiment, the opposite sides of pallet 109 is provided with battery modules positioning component, for fixing
The battery modules being carried in pallet 109.Specifically, the battery modules of required welding can have different size, such as three rows
Square structure, rectangle structure of six rows, three column battery core composition that three column battery cores are constituted etc..When the battery core of welding different size
When, to keep the battery core on pallet 109 more stable in welding or transmission process, battery mould is set in the opposite sides of pallet 109
Group positioning component, stabilization and positioning for battery modules in pallet 109.Wherein, when the disk of pallet 109 is tetragonal structure
When, it can be respectively provided with corresponding battery modules positioning component in four sides of pallet 109, be oppositely arranged two-by-two, to make from all directions
For pallet 109.
In a specific embodiment, battery modules positioning component includes pallet block 110 and driving pallet block 110
The battery modules anchor drive of linear motion, pallet block 110 protrudes from the upper surface of pallet 109, and battery modules position
The drive shaft of driver is towards the center of pallet 109.
Specifically, as one of achievable mode, the disk area of pallet 109 can be greater than required welding most
The cross-sectional area of the battery modules of big specification, in order to more stable when carrying battery modules;Meanwhile it can also be convenient for battery mould
The setting of group positioning component.Wherein, battery modules anchor drive can be fixed on pallet 109, and drive shaft is towards pallet 109
Center;The movable end of drive shaft is connect with pallet block 110.
By taking the support holder structure of square as an example, a battery modules positioning component is each provided in four sides of pallet 109;When
Battery core in battery modules is less, when battery specifications are smaller, before the placing battery mould group on pallet 109, and each battery modules
The stroke of the drive shaft of anchor drive is minimum, can accommodate the battery modules of preset various specifications at this time;Work as battery modules
When being placed on pallet 109, according to the specification of battery modules, the displacement of the drive shaft of battery modules anchor drive is set,
The drive shaft of each battery modules anchor drive can push center movement of the corresponding pallet block 110 to pallet 109, with more preferable
Battery modules are fixed on ground.Charged pool mould group welding is completed, and when being delivered to the head end of guide rail 108, each battery modules Locating driver
The drive shaft of device can drive corresponding pallet block 110 to move to the direction far from 109 center of pallet, convenient for by pallet 109
Remove the battery modules being welded.
In a specific embodiment, battery modules pipeline further includes processing material pipeline arranged in parallel
106, battery conveying line 105 and carrier pipeline 107, and process material pipeline 106 and be arranged in a mutually vertical manner with guide rail 108.Specifically
Ground, processing material pipeline 106 is used to convey the good battery modules of combo to jacking component 102, by the good battery modules of combo
It is delivered to below plumb joint 114 and executes weld job;Battery conveying line 105 is delivered to for later battery modules will to be welded
Next treatment process;Carrier pipeline 107 is used to recycle the carrier of carrying battery modules, enables empty carrier in combo process
With circulation in welding process for carrying battery modules.
Specifically, processing material pipeline 106, battery conveying line 105 and carrier pipeline 107 are arranged in parallel, are convenient for
The conveying of battery modules to be welded, meanwhile, it is capable to the separation of the carrier convenient for battery modules and carrying battery modules after welding
And conveying.After being carried on the battery modules execution weld job in carrier, 108 head end of guide rail is delivered to by 108 tail end of guide rail,
First the battery modules after being welded can be removed, be transferred in battery conveying line 105, be delivered to subsequent processing, then, by carrier
It removes, is transferred on carrier pipeline 107, recycled to recycle;Alternatively, can also be by battery modules and carrying battery mould
The carrier of group is removed together, is first transferred on carrier pipeline 107 together, then battery modules are transferred to battery conveying line 105
On.Wherein, processing material pipeline 106 and the conveying direction of battery conveying line 105 can be identical, the conveying side of carrier pipeline 107
The conveying direction of Xiang Keyu battery conveying line 105 on the contrary, can be adjusted according to actual needs.
In a specific embodiment, welding unit further includes plumb joint support base 111, sliding platform 112 and welding
Head installation axle 113;Sliding platform 112 is slidably connected on plumb joint support base 111, and plumb joint installation axle 113 is slidably connected to
On sliding platform 112, plumb joint 114 is slidably connected in plumb joint installation axle 113, and sliding platform 112, plumb joint installation axle
113 and plumb joint 114 glide direction it is vertical two-by-two.
As one of achievable mode, plumb joint support base 111 is securable in bottom surface or other structures, is grown
It spends direction in the horizontal direction, on it settable track, and correspondingly, sliding rail is set on the downside of sliding platform 112, makes to slide
Platform 112 can be slided along track.Wherein, sliding platform 112 can be arranged in a mutually vertical manner with plumb joint support base 111, and be slided
The length direction of platform 112 is in the horizontal direction.
Similarly, plumb joint installation axle 113 is slideably positioned on sliding platform 112, and plumb joint installation axle 113 is vertically set
It sets, plumb joint 114 is slideably positioned in plumb joint installation axle 113.Wherein, plumb joint installation axle 113 and sliding platform 112
The sliding for sliding set-up mode and plumb joint 114 and plumb joint installation axle 113 is arranged, and is slideably positioned in sliding platform 112
Structure on plumb joint support base 111 can be identical, can not also be identical, and sliding relative movement occurs i.e. as long as can satisfy
Can, and it is mutually perpendicular to the glide direction of sliding platform 112, plumb joint installation axle 113 and plumb joint 114 two-by-two, to meet weldering
The three-dimensional motion of connector 114.
In a specific embodiment, 108 side of guide rail is provided with battery modules transportation manipulator 104, is used for pallet
In 109 battery modules into and out.Specifically, battery modules transportation manipulator 104 will be for that will process material pipeline 106
Battery modules convey, after combo and the carrier for carrying battery modules are transported to the pallet 109 of 102 upside of jacking component together
In;After pending weld job, carrier and the battery modules being welded are transferred to carrier pipeline 107 respectively and battery conveys
On line 105.Wherein, the quantity of battery modules transportation manipulator 104 can be rationally arranged according to the actual situation, as long as can satisfy electricity
The conveying of Chi Mo group and/or carrier convenient for the normal of battery modules welding and is gone on smoothly.
In a specific embodiment, guide rail 108, jacking component 102 and pallet 109 constitute battery modules processing line,
Battery modules processing line at least two, welding platform 101 at least there are two;At least two welding platforms 101 are arranged side by side, and
Arragement direction of the conveying direction of battery modules processing line perpendicular at least two welding platforms 101;Any welding platform 101 is right
One battery modules processing line should be set.
Specifically, it is illustrated by taking the structure comprising two sets of battery modules processing lines and two welding platforms 101 as an example.When
When there are two battery modules processing lines, the first battery modules processing line and the second battery modules processing line may respectively be.First electricity
Chi Mo group processing line includes the first guide rail, the first jacking component and the first pallet;First jacking component slippage is set to first and leads
On the upside of rail, the first pallet is fixed on the upside of the first jacking component;Second battery modules processing line includes the second guide rail, the second jacking
Component and the second pallet;Second jacking component slippage is set on the upside of the first guide rail, and the second pallet is fixed on the second jacking component
Upside.
First guide rail and the second guide rail are arranged in parallel.Two welding platforms 101 are arranged side by side;Also, the first guide rail
Line with the second guide rail perpendicular to two welding platforms 101 is arranged.It is understood that two welding platforms 101 are combinable
For a platform, i.e., two hollow ducts are set in identical platform, and are correspondingly arranged positioning net in two hollow ducts
Plate 103.
Plumb joint support base 111 and guide rail 108 are located at the opposite sides of welding platform 101, and it is flat that plumb joint 114 is located at welding
The top of platform 101.First carrier of the first battery modules and carrying battery modules on processing material pipeline 106 is transferred to the
On one pallet, and it is transported to below plumb joint 114 and executes weld job;At the same time, second on processing material pipeline 106
Battery modules and the second carrier for carrying second battery modules are transferred on the second pallet, and are transported to plumb joint 114
Lower section.
During the welding of the first battery modules, the second battery modules and the second carrier are transferred under plumb joint 114
Side;After then same plumb joint 114 has welded the first battery modules, the second battery modules of welding can be immediately available for.Meanwhile it welding
The first mould group after good is transported to battery conveying line 105;First pallet can be used for transferring next battery modules.So circulation,
The welding efficiency of battery modules can be effectively improved, the waiting time of plumb joint 114 in battery modules transmission process is reduced.
As shown in figure 3 and figure 4, in a specific embodiment, it includes 201 He of end cap pipeline that end cap installs unit additional to ginseng
End cap storage assembly;End cap storage assembly is set up in 201 top of end cap pipeline;End cap storage assembly includes 202 He of end cap storehouse
End cap dispenser 203 positioned at 202 bottom of end cap storehouse, end cap dispenser 203 includes clamping piece and lift part, and lift part is located at
The lower section of clamping piece.
Specifically, end cap storage assembly is erected at 201 top of end cap pipeline, makes end cap storehouse 202 and end cap dispenser 203
It is respectively positioned on 201 top of end cap pipeline.End cap storehouse 202 is the structure being open up and down;When charging, end cap is by end cap storehouse 202
End is added, and when blanking, end cap is released by 202 lower end of end cap storehouse.For storing end cap in end cap storehouse 202, stored in end cap storehouse 202
End cap can be hand stock, be also possible to by other auto feed structures feed.It is added to the end in end cap storehouse 202
Lid is deposited in a manner of stacked on top of one another in end cap storehouse 202, and the length direction or conveying direction along end cap pipeline 201 are settable
Multiple end cap storehouses 202, alternatively, only be arranged an end cap storehouse 202, the end cap storehouse 202 along end cap pipeline 201 length direction or
Conveying direction can accommodate multiple end caps side by side.
It is preferred that multiple end cap storehouses 202 are arranged side by side, either end galenic 202 only accommodates an end cap in same level direction,
Any end cap is horizontal positioned, and multiple end caps, which are vertically stacked, to be contained in end cap storehouse 202.End cap is added to end cap storehouse 202
In after, the end cap dispenser 203 positioned at 202 bottom of end cap storehouse can launch end cap one by one.One in multiple end cap storehouses 202 or
It is multiple to can be an end cap storehouse 202 in the form of coordinating to launch end cap and launch end cap, it is same to be also possible to multiple end cap storehouses 202
When launch end cap.
Specifically, end cap dispenser 203 includes clamping piece and lift part;Lift part is located at the lower section of clamping piece.Wherein, it presss from both sides
Gripping member at least one, lift part at least one.Lift part may include two and lift arm;The bottom in end cap storehouse 202 it is opposite
Two sides are respectively arranged one and lift arm.It is any to lift the Deck A drive that arm may include supporting plate and driving supporting plate linear motion.Supporting plate
It is horizontally disposed, make the plate face of supporting plate in the horizontal direction;End cap is held on supporting plate.The drive shaft level of Deck A drive is set
Set, two be oppositely arranged lift arm supporting plate it is adjacent to each other and can to close to or move away from the direction of 202 axis of end cap storehouse.
Clamping piece may include two clamping limbs;A clamping limb is respectively arranged in the opposite sides of the bottom in end cap storehouse 202.It is any
Clamping limb includes the clamping plate driver of clamping plate and driving clamping plate linear motion.The drive shaft of clamping plate driver is horizontally disposed, clamping plate
It is vertically arranged, so that the plate face of clamping plate is bonded with the side of end cap.It, just can be from end cover side when two clamping plates are close to each other
Clamping of the Fang Shixian to end cap;It is located remotely from each other, just end cap can be made to fall downwards.Also, under the upper surface and clamping plate of supporting plate
Spacing between end face is greater than or equal to the thickness of an end cap, less than the sum of the thickness of two end caps.
It is illustrated by taking a lift part, the structure of clamping piece as an example below.When not needing to launch end cap, lift
The supporting plate of part move to by the direction of 202 axis of proximal cover storehouse, makes the spacing between two supporting plates less than the length of end cap/wide
Degree is held on above supporting plate convenient for end cap, does not fall out on end cap pipeline 201;At this point, the clamping plate of two clamping pieces can be with
End cap is clamped from the side of end cap, can not also be clamped.
When needing to launch end cap downwards, the clamping plate of clamping piece can be made to clamp end cap by the side of end cap.Due to clamping plate with
The spacing of supporting plate in the vertical direction is equal to or more than the thickness of an end cap and less than the sum of the thickness of two end caps, then presss from both sides
When plate clamps end cap from side, has below clamping plate and only one end cap is directly held on above supporting plate, and clamping plate does not press from both sides
The tight end cap.At this point, move the supporting plate of lift part to the direction far from 202 axis of end cap storehouse, end cap storehouse 202 nethermost one
A end cap slides downwards, enters on end cap pipeline 201.Aforesaid operations are repeated, end cap dispenser 203 is conveyed to end cap one by one
End cap is launched on line 201.
The end cap launched on end cap pipeline 201 is delivered to next treatment process by end cap pipeline 201.It is understood that
, end cap pipeline 201 can be only used for delivery end cap, and end cap pipeline 201 can also be used for conveying battery modules, i.e., after combo
Battery modules transfer to end cap pipeline 201, when conveying on end cap pipeline 201, be located at the top of end cap pipeline 201
End cap storehouse 202 and end cap dispenser 203 launch end cap one by one downwards so that end cap lid close it is defeated on by end cap pipeline 201
In the battery modules sent, then it is delivered to welding mechanism or other mechanisms are further processed.To install end additional convenient for battery modules
Convenience that is more convenient and facilitating the development of other compounding operations, the preferred end cap pipeline 201 of the utility model are only used for when lid
Delivery end cap, i.e. end cap are launched through end cap dispenser 203 onto end cap pipeline 201 by end cap storehouse 202, end cap pipeline 201
End cap is delivered to other positions, then end cap lid is closed onto battery modules.
In a specific embodiment, end cap storehouse 202 includes more root posts 204;More root posts 204 are parallel to each other and erect
To setting, to enclose the column structure for accommodating end cap;Support frame is provided on the outside of column structure;Any column
204 are slidably connected on support frame by sliding part, and the sliding bar of sliding part is horizontally disposed.
Specifically, it is illustrated so that end cap storehouse 202 is cubic column structure as an example.End cap storehouse 202 is for accommodating end cap
Column structure is made of four columns 204, and four columns 204 are vertically arranged and are parallel to each other.It is constituted in four columns 204
Support frame 205 is provided on the outside of column structure.Support frame 205 can be four support columns or other structures, be supported with four
For the structure of column, four support columns are enclosed in the outside of the column structure of the composition of four columns 204, and four support columns are vertically set
It sets and is parallel to each other.Any root post 204 can be connected directly with corresponding support column by sliding part, enable column 204
It is slided to close to or far from respective support column, or to the direction far from or by 202 axis of proximal cover storehouse.When column 204 is to close
When the direction sliding of corresponding support column or separate 202 axis of end cap storehouse, then the cross for the column structure that four columns 204 enclose
Sectional area increases, and can accommodate the end cap of bigger specification;When column 204 is to far from corresponding support column or by proximal cover storehouse 202
When the direction sliding of axis, the cross-sectional area for the cylinder mechanism that four columns 204 enclose reduces, for accommodating compared with small dimension
End cap.
It is understood that as another achievable mode, positioned at 202 the same side of end cap storehouse two support columns it
Between by first crossbar connect, be connected to first by sliding part respectively with the two root posts 204 of the two support column the same sides
On cross bar;It is connected between two support columns of 202 other side of end cap storehouse by second crossbar, it is same with the two support columns
The two root posts 204 of side are connected in second crossbar by sliding part respectively.By adjusting four columns 204 position or in which
The adjusting of 202 accommodation space of opposite end galenic is realized in the position of two columns 204, to adapt to accommodate the demand of different size end cap.
Fit system between 205 structure of support frame and column 204 and support frame 205 in end cap storehouse 202 is not listed one by one.According to institute
The battery specifications variation demand that need to be produced, may be selected to use different 202 structures of end cap storehouse.
In a specific embodiment, it further includes end cap detection components that end cap, which installs unit additional,;End cap detection components are fixed
It is set to 201 top of end cap pipeline and is located at end cap storage assembly side, and the end cap storehouse and the end cap detection components
Conveying direction sequence along the end cap pipeline is arranged.Wherein, end cap detection components cover the depth of recess for end of probe,
To determine the front or the back side of end cap.Specifically, height sensor can be used in end cap detection components.Front and back due to end cap
Face is provided with the recess of different depth, and the setting of positive recess is adapted with the upper end formation of battery core in battery modules, is convenient for
When end cap lid is closed on the upside of battery modules, it can fit with the battery core in battery modules.
Due to, when adding end cap into end cap storehouse 202, not judging end cap by artificial or other automatic addition structures
Positive direction, by end cap detection components detect end cap recess depth, judge end cap front whether downward, Neng Gouti
High end cap detection efficiency, reduces the fraction defective of battery.If the face down of end cap, end cap is launched to end cap pipeline 201
On, it is closed with toilet cover onto battery modules;If the back side of end cap is downward, which is removed into end cap pipeline 201.Wherein, it holds
Lid detection components are located at end cap storage assembly side, and end cap storage assembly and end cap detection components are along end cap pipeline 201
Conveying direction sequence is arranged.After i.e. end cap is launched by end cap storage assembly onto end cap pipeline 201, then by end cap detection components
The recess that opposite end covers is detected, and whether downward to judge the front of end cap.
In a specific embodiment, it further includes that end cap holds down assembly and battery modules feeding line that end cap, which installs unit additional,
206;Battery modules feeding line 206 and end cap pipeline 201 are arranged in parallel;
End cap holds down assembly including end cap feeding bracket 208, end cap reclaimer robot 209 and compact heap;End cap feeding branch
Above end cap pipeline 201 and battery modules feeding line 206, compact heap is connected the top beam of frame 208 by linear drives part
On the downside of top beam, end cap reclaimer robot 209 is slidably connected to top beam side.
In the embodiment of the utility model, it is used for using with the battery modules feeding line 206 disposed in parallel of end cap pipeline 201
Battery modules after conveying combo, end cap pipeline 201 are served only for delivery end cap, end cap via end cap reclaimer robot 209 from
It is transferred to 206 top of battery modules feeding line on end cap pipeline 201, and covers what conjunction was conveyed to battery modules feeding line 206
On the upside of battery modules.End cap reclaimer robot 209 is slideably positioned on the top beam of end cap feeding bracket 208, makes end cap reclaimer
Tool hand 209 can be slided along the length direction of top beam, to slide into battery modules feeding line by the top of end cap pipeline 201
206 top;End cap feeding bracket 208 includes top beam and the top beam stabilizer blade positioned at top beam both ends, and one of top beam stabilizer blade can
It is directly fixed on the side of end cap pipeline 201, another top beam stabilizer blade is fixed on 206 side of battery modules feeding line, makes top beam
It is across 206 top of end cap pipeline 201 and battery modules feeding line.
Also, compact heap is fixedly installed on the downside of top beam;Compact heap is connect by linear drives part with top beam.Straight line
The drive shaft of actuator is vertically arranged, and its movable end is connect with compact heap.Compact heap is located on battery modules feeding line 206
Side.End cap reclaimer robot 209 and compact heap are arranged along the conveying direction sequence of battery modules feeding line 206;When end cap feeding
Manipulator 209 grabs the end cap on end cap pipeline 201 and end cap lid is bonded to the battery modules on battery modules feeding line 206
Behind upside, linear drives part driving compact heap is moved downward, and so that compact heap is compressed end cap downwards, is kept end cap more stable, securely
It is fitted in the battery core of battery modules.Wherein, to avoid compact heap from compressing the damage that end cap causes battery core in the process, compact heap
The settable elastic layer in downside, to reduce the excessive collision effect in compact heap compaction process to battery core.Wherein, end cap feeding is mechanical
Hand 209 is slidably set to the side of top beam, and compact heap is set to below top beam, convenient for linear drives part driving compact heap perpendicular
Histogram executes compression movement to movement.
Wherein, to be additionally provided with battery modules transfer lines 207 convenient for the compact of structure;Battery modules transfer lines 207 and electricity
Chi Mo group feeding line 206 is arranged in parallel, and its conveying direction is on the contrary, the battery modules on battery modules transfer lines 207 are defeated
It send to welding structure.The processing material pipeline 106 of battery modules transfer lines 207 and welding mechanism, the two can convey for same
Line can also be two strip transmission lines close to each other from beginning to end, i.e., the tail end of battery modules transfer lines 207 is close to processing material pipeline
106 head end, and battery modules transfer lines 207 are located along the same line with processing material pipeline 106, make battery modules transfer lines
The battery modules conveyed on 207 can be delivered directly on processing material pipeline 106, and battery modules are continuously conveyed to electricity to play
The purpose of Chi Mo group pipeline.
Further, for convenient for the carrier cycle applications that are conveyed on carrier pipeline 107 in conveying battery core, carrier pipeline
107 conveying direction can match with the conveying direction of processing material pipeline 106 on the contrary, being delivered to carrier pipeline 107 by carrier
Group mechanism, to recycle.Specifically, carrier pipeline 107 is identical and mutual as the conveying direction of battery modules feeding line 206
In parallel, but carrier pipeline 107 and battery modules feeding line 206 are located at different straight lines.Also, in 107 He of carrier pipeline
Carrier material rotaring machine tool hand is arranged in the top of battery modules feeding line 206, for the carrier on carrier pipeline 107 to be transported to electricity
On Chi Mo group feeding line 206.It is understood that the unloaded tool that ought do not hold battery core is transported to electricity by carrier pipeline 107
When on Chi Mo group feeding line 206, empty carrier is located at the head end of battery modules feeding line 206.When empty carrier is transported to battery
After on mould group feeding line 206, then the battery core after combo grabbed in the carrier on battery modules feeding line 206, after combo
Battery core in battery modules is contained in carrier, in order to convey on each pipeline.Wherein, carrier material rotaring machine tool hand can be
It is set on the portal frame above carrier pipeline 107 and battery modules feeding line 206, is also possible to the more of other structures
Rotor axis mechanical hand is tieed up, as long as can be realized the head that the unloaded tool on carrier pipeline 107 is transported to battery modules feeding line 206
End.
In a specific embodiment, feed supplement unit is taken to include vision-based detection component and take feed supplement manipulator;Vision inspection
It surveys component and is fixedly installed on the top of battery modules feeding line 206, and vision-based detection component, take feed supplement manipulator and end cap feeding branch
Frame 208 is arranged along the conveying direction sequence of battery modules feeding line 206;
Take feed supplement manipulator to be fixed on 206 side of battery modules feeding line, for according to the detection of vision-based detection component from
Battery core is taken out or filled into battery modules in battery modules on battery modules feeding line 206.
Specifically, CCD vision-based detection device can be used in vision-based detection component;Battery modules after combo are transferred to battery mould
On group feeding line 206.Vision-based detection component is monitored the battery modules conveyed on battery modules feeding line 206, to appoint
Occur the case where battery core gaps and omissions or extra battery core in one battery modules, or required according to battery specifications, specific position need to be taken out
Battery core or when specific position fills into battery core, then from be set to 206 side of battery modules feeding line take feed supplement manipulator to
Battery core is added in the battery modules or takes out extra battery core.It is understood that for after convenient for the feed supplement or taking-up of battery core
Battery core staging area can be arranged in 206 side of battery modules feeding line in the storage of battery core.
Battery modules after combo are transferred on battery modules feeding line 206 and are conveyed, during transportation, vision inspection
Component is surveyed to detect the battery modules on battery modules feeding line 206;According to the detection case of vision-based detection component, benefit is taken
Material manipulator adds the battery core of gaps and omissions into battery modules or takes out extra battery core;It then, will by end cap reclaimer robot 209
End cap on end cap pipeline 201 is removed, and is transferred to 206 top of battery modules feeding line and is covered on the upside of conjunction to battery modules, then
End cap is pressed in battery modules by compact heap.Battery modules after installing end cap additional can be delivered to welding mechanism and execute welding
Operation.Wherein, battery modules feeding line 206 can be identical with the conveying direction of end cap pipeline 201, can not also be identical.Make
For a kind of concrete implementation mode, battery modules feeding line 206 is identical as the conveying direction of end cap pipeline 201, makes battery mould
Group feeding line 206 can be arranged side by side with end cap pipeline 201, can save place, reduce the length of matching mechanism of sheet.
In a specific embodiment, taking feed supplement unit further includes battery modules block and block actuator;Block drives
The drive shaft of moving part is horizontally disposed, and perpendicular to the conveying direction of battery modules feeding line, and battery modules block is towards battery mould
Group feeding line.Specifically, vision-based detection component, battery module block, end cap take feed supplement manipulator along battery modules feeding line 206
Conveying direction sequence be arranged.When vision-based detection component detection needs to be taken into battery modules or when feed supplement, then by battery mould
Group block gear stops battery modules, after taking the execution of feed supplement manipulator to take or feed supplement, is further continued for being fed forward battery modules.
As one of achievable mode, battery modules block can be driven by block actuator and be moved along a straight line, and be kept off
The drive shaft of block actuator is horizontally disposed, and vertical with the conveying direction of battery modules feeding line 206.When needing to keep off power failure pond mould
When group, block drives battery modules part driving battery modules block by the side direction of battery modules feeding line 206 by paracentral
The movement of position stops battery modules with gear;And when stopping battery modules without gear, battery modules block is located at battery modules feeding
The side of line 206 will not influence the conveying of battery modules.As another achievable mode, battery modules block be can be used
The structure of one-directional rotation;Battery modules block can be from the position perpendicular to 206 conveying direction of battery modules feeding line to battery mould
The conveying direction rotation of group pipeline.When stopping battery modules without gear, battery modules block is flexibly with battery modules
It conveys and is freely rotated, or turn to 206 side of battery modules feeding line, when needing gear to stop battery modules, then turn block
It moves to the position perpendicular to 206 conveying direction of battery modules feeding line, and positions here, no longer rotating;When take or feed supplement complete
Afterwards, then it is returned to the state of being freely rotated.
In a specific embodiment, matching mechanism of sheet further includes combo unit, which further includes
Battery core material loading platform 210 and feeding manipulator 216 further include the first driving assembly 212;First driving assembly includes the first driving
Axis and the first push plate;First drive shaft is parallel with the length direction of battery core material loading platform, and is located at battery core material loading platform side, the
One drive shaft one end is fixedly connected with the first push plate, and the plate face of the first push plate is put down from one side of battery core material loading platform to battery core feeding
Platform extends, and the plate face of the first push plate is perpendicular to the length direction of battery core material loading platform.First driving assembly 212 is set to battery core
The side of material loading platform 210, the first driving assembly 212 is for pushing battery core from the head end of battery core material loading platform 210 to battery core
Expect that the tail end of platform 210 is mobile, feeding manipulator 216 is set to 210 side of battery core material loading platform, and close to battery core material loading platform
210 head end.
Battery core material loading platform 210 is battery core conveyor zones, with certain length;First driving assembly 212 is settable
In 210 upside of battery core material loading platform.As one of concrete implementation mode, the first driving assembly 212 includes the first driving
Component body, the first drive shaft and the first push plate;One end of first drive shaft is slideably positioned in the first driving assembly ontology, separately
One end is fixedly connected with the first push plate, and the first drive shaft is perpendicular to the first push plate.The plate face of first push plate is perpendicular in battery core
Expect platform 210, and perpendicular to the length direction of battery core material loading platform 210;First drive shaft is parallel to battery core material loading platform 210
Length direction setting.First push plate is extended from a side of battery core material loading platform 210 on battery core material loading platform 210, makes first to push away
Plate is located at the head end of battery core material loading platform 210.Drive the first push plate along vertical by the first drive shaft of the first driving assembly 212
It moves along a straight line in the direction of 210 length direction of battery core material loading platform, to push the battery core on battery core material loading platform 210 by battery core
The head end of material platform 210 caudad moves.It is preferred that the first driving assembly ontology is fixedly installed on the side of battery core material loading platform 210
Side.
It is understood that the carrier of dimension can be placed on battery core material loading platform 210, carrier is for holding electricity
Core.In the technical solution of the utility model, battery core is transferred using feeding manipulator 216.Feeding manipulator 216 is set in battery core
Expect that platform 210 close to the position of head end, can grab multiple battery cores simultaneously, and single or single crawl electricity can be regulated and controled
Core can also adjust the quantity for once taking/discharging core.For example, 10 × 16 totally 160 battery cores can be grabbed simultaneously, if needing combo
10 × 10 battery modules are then moved to carrier on battery core material loading platform 210 when feeding manipulator 216 carries 160 battery cores
When top, feeding manipulator 216 can only put down 10 × 10, and totally 100 battery cores are in carrier, and there are also 10 × 6, totally 60 battery cores are still
It is adsorbed on feeding manipulator 216, waiting is placed in next carrier.Corresponding number battery core is put by feeding manipulator 216
It sets in the carrier of dimension, is transported to 210 tail end of battery core material loading platform, then battery mould is transferred to by battery core transportation manipulator
Battery modules in carrier on group feeding line 206, after forming combo.
Wherein, battery core material loading platform 210 and battery modules feeding line 206 can be arranged in parallel, and its conveying direction phase
Instead;Battery core transportation manipulator may be provided at the tail end of battery core material loading platform 210, then on battery core material loading platform 210 after combo
After battery modules are delivered to the tail end of battery core material loading platform 210, battery modules feeding line 206 is transported to by battery core transportation manipulator
When upper, battery modules are located at the head end of battery modules feeding line 206, and battery modules are conveyed by battery modules feeding line 206, with into
Row vision-based detection, take/feed supplement, install the operations such as end cap additional.Wherein, for taking the battery core staging area of feed supplement to may be provided at battery core
Region between material loading platform 210 and battery modules feeding line 206.
In a specific embodiment, the combo unit of matching mechanism of sheet further includes carrier repetition stage 211, carrier circulation
Platform 211 and battery core material loading platform 210 are arranged side by side;The head end of battery core material loading platform 210 and the tail end of carrier repetition stage 211
Positioned at the same end, the tail end of electric wire material loading platform and the head end of carrier repetition stage 211 are located at the same end;
The tail end of battery core material loading platform 210 is provided with the second driving assembly 213, the drive shaft water of the second driving assembly 213
It is flat to be arranged and perpendicular to the length direction of battery core material loading platform 210;
The side of carrier repetition stage 211 is provided with third driving assembly 214, and third driving assembly 214 is followed close to carrier
The head end of ring platform 211, the horizontally arranged and parallel length in carrier repetition stage 211 of the drive shaft of third driving assembly 214
Direction;
The tail end of carrier repetition stage 211 is provided with the 4th driving assembly 215, the drive shaft water of the 4th driving assembly 215
It is flat to be arranged and perpendicular to the length direction of carrier repetition stage 211.
Second driving assembly 213 includes the second driving assembly ontology, the second drive shaft and the second push plate.Second drive shaft
One end is slideably positioned in the second driving assembly ontology, and the other end is fixedly connected with the second push plate, and the second drive shaft perpendicular to
Second push plate.Length direction of second drive shaft perpendicular to battery core material loading platform 210;Second push plate is vertically arranged, the second push plate
Plate face be parallel to the length direction of battery core material loading platform 210, and the second push plate is from the tail end of battery core material loading platform 210 to battery core
The head end of material loading platform 210 extends, and the second push plate is made to be located at side of the battery core material loading platform 210 far from carrier repetition stage 211.
When the second drive shaft moves along a straight line, to drive side of second push plate by battery core material loading platform 210 far from carrier repetition stage 211
To when being moved close to the side of carrier repetition stage 211, the second push plate battery core will be taken on battery core material loading platform 210 after it is vacant
Carrier is pushed in carrier repetition stage 211.Wherein, the second driving assembly ontology is fixedly arranged preferably to carrier repetition stage
211 head end.
Third driving assembly 214 includes third driving assembly ontology, third drive shaft and third push plate.Third drive shaft
One end is slideably positioned in third driving assembly ontology, and the other end is fixedly connected with third push plate, and third drive shaft perpendicular to
Third push plate.Third drive shaft is parallel to the length direction of battery core material loading platform 210;Third push plate is vertically arranged, third push plate
Plate face perpendicular to the length direction of carrier repetition stage 211, and third push plate is from a side of carrier repetition stage 211 to carrier
Extend in repetition stage 211, third push plate is made to be located at the head end of carrier repetition stage 211.When third drive shaft move along a straight line, with
When third push plate being driven caudad to be moved by the head end of carrier repetition stage 211, third push plate will be in carrier repetition stage 211
Vacant carrier is pushed to the tail end of carrier repetition stage 211.Wherein, it is flat to be preferably provided at carrier circulation for third driving assembly ontology
The side of platform 211.
4th driving assembly 215 includes the 4th driving component body, the 4th drive shaft and the 4th push plate.4th drive shaft
One end be slideably positioned in the 4th driving component body in, the other end is fixedly connected with the 4th push plate, and the 4th drive shaft perpendicular to
4th push plate.Length direction of 4th drive shaft perpendicular to circulation material loading platform;4th push plate is vertically arranged, the plate of the 4th push plate
Face is parallel to the length direction of carrier repetition stage 211, and the 4th push plate is recycled from the tail end of carrier repetition stage 211 to carrier
The head end of platform 211 extends, and the 4th push plate is made to be located at side of the carrier repetition stage 211 far from battery core material loading platform 210.When
Four drive shafts linear motion, to drive a side of the 4th push plate from carrier repetition stage 211 far from battery core material loading platform 210 to leaning on
When the side movement of nearly battery core material loading platform 210, the vacant carrier in carrier repetition stage 211 is pushed to battery core by the 4th push plate
On material loading platform 210, for containing next group battery core.Wherein, the 4th driving component body is fixedly arranged preferably to battery core feeding
The head end of platform 210.
Wherein, battery core material loading platform 210 and carrier repetition stage 211 preferably have equal length;And the two is set side by side
It sets.First passage is provided between the head end of battery core material loading platform 210 and the tail end of carrier repetition stage 211, battery core feeding is flat
Second channel is provided between the tail end of platform 210 and the head end of carrier repetition stage 211.First passage and second channel are only to use
To illustrate to can be realized the mutual transfer of battery core between battery core material loading platform 210 and carrier repetition stage 211, volume might not be needed
Outer setting channel.
For example, battery core material loading platform 210 and carrier repetition stage 211 are directly abutted against together, and battery core material loading platform
The lattice block material for being spaced the two is not provided between 210 tail ends and the head end of carrier repetition stage 211, then battery core material loading platform
Carrier on 210 can be pushed directly in carrier repetition stage 211 by the second driving assembly 213;Equally, carrier circulation is flat
The lattice block material for being spaced the two is not provided between the tail end of platform 211 and the head end of battery core material loading platform 210, then carrier circulation is flat
Carrier on platform 211 can be pushed directly on battery core material loading platform 210 by the 4th driving assembly 215.
Specifically, first multiple carriers of dimension are placed on battery core material loading platform 210;By feeding manipulator 216
Battery core is transferred on carrier, is then pushed and is contained from the carrier of battery core to battery core material loading platform 210 from the first driving assembly 212
Tail end it is mobile.It, can will be in same carrier by battery core transportation manipulator when battery core is moved to the tail end of battery core material loading platform 210
All battery cores be transferred in the carrier on battery modules feeding line 206, formed combo after battery modules.
After battery core on carrier is removed, vacant carrier pushes to carrier repetition stage 211 by the second driving assembly 213
On, and pushed from third driving assembly 214 to the tail end of carrier repetition stage 211;Reach the tail end of carrier repetition stage 211
Afterwards, then from the 4th driving assembly 215 it is pushed on battery core material loading platform 210, it is flat that vacant carrier re-enters into battery core feeding
Platform 210 is reused for combo and conveying battery core for containing new battery core.
Wherein, the stroke of the drive shaft of the first driving assembly 212 and third driving assembly 214 is equal to or more than carrier along electricity
The length of 210 length direction of core material loading platform;The stroke etc. of the drive shaft of second driving assembly 213 and the 4th driving assembly 215
In or greater than carrier along 210 width direction of battery core material loading platform width.
In a specific embodiment, matching mechanism of sheet further includes feeding manipulator 216;Feeding manipulator 216 is close to electricity
The head end of core material loading platform 210;Feeding manipulator 216 includes supporting plate 217, discharging web plate 218 and sucker, and discharging web plate 218 is solid
Due to 217 side of supporting plate, supporting plate 217 and discharging web plate 218 are arranged in parallel, and set between supporting plate 217 and discharging web plate 218
Set sucker;
Sucker includes at least one sucker actuator 222 and at least one feeding head 219, the fixation of sucker actuator 222
End is fixed on supporting plate 217, and the drive shaft of sucker actuator 222 is arranged perpendicular to discharging web plate 218, sucker actuator 222
Drive shaft one end connection feeding head 219 one end, the mesh of the other end of feeding head 219 towards discharging web plate 218.
It is specifically described by taking the sucker of feeding manipulator 216 structure directed downwardly as an example.It is shown in Figure 5, supporting plate 217,
Discharging web plate 218 and sucker are horizontally disposed, can be parallel to each other.Supporting plate 217 is fixed on the manipulator branch of feeding manipulator 216
On arm, conventional manipulator support arm structure is can be used in manipulator support arm, improved structure can also be used, as long as being able to carry out space
The flexible motion of interior multidimensional.
For example, the upside of supporting plate 217 is fixed on the movable end of supporting plate driving assembly 223;The driving of supporting plate driving assembly 223
Axis is in vertically arranged, and the side of the fixing end of supporting plate driving assembly 223 is fixed on driving assembly fixed frame 224.Driving group
Part fixed frame 224 is slideably positioned in the first support platform;First support platform includes the first support platform fixed frame 225, the
Two support platform fixed frames 226 and support platform driving assembly 227.The fixing end of support platform driving assembly 227 and second
Support platform fixed frame 226 is fixedly installed on the same side of the first support platform fixed frame 225.Second support platform fixed frame
226 and driving assembly fixed frame 224 be the frame structure with hollow channel;Also, in the second support platform fixed frame 226
Slideway, driving assembly is arranged in the two side walls opposing upper and lower of the second support platform fixed frame 226 in the axis horizontal in empty channel
The one side wall of fixed frame 224 passes through two slideways, hang on driving assembly fixed frame 22 on second support platform fixed frame 226.
The movable end of support platform driving assembly 227 is located in the hollow channel of the second support platform fixed frame 226, and one end and drive
The side wall that dynamic component fixed frame 224 is located in 226 hollow channel of the second support platform fixed frame is fixedly connected.First support platform
Fixed frame 225 is slideably positioned in horizontally disposed second support platform;First support platform fixed frame 225 is flat along the second support
The glide direction of platform is vertical along the glide direction of the second support platform fixed frame 226 with driving assembly fixed frame 224.Sliding setting
It can be existing conventional arrangement state.Wherein, each driving assembly or actuator can be cylinder, hydraulic cylinder, servo motor driving assembly
Equal driving assemblies.
Discharging web plate 218 can be fixed on 217 downside of supporting plate by structures such as guiding struts 220, make discharging web plate 218 and branch
There is interval between plate 217;Sucker is set in the interval between supporting plate 217 and discharging web plate 218.
The fixing end of sucker actuator 222 is fixed on supporting plate 217, and drive shaft one end of sucker actuator 222, which is located at, inhales
In 222 fixing end of dish driving part, the other end is as movable end;Drive shaft can move back and forth.Its drive shaft is vertically arranged, and drives
The movable end of moving axis is connect with feeding head 219, to push feeding head 219 to move up and down.Sucker may include multiple rows of feeding head 219,
Each row's feeding head 219 can be arranged side by side, and one end of any feeding head 219 in any row's feeding head 219 is securable to one and consolidates
221 downside of fixed board, the movable end of the drive shaft of sucker actuator 222 are fixedly connected on 221 upside of fixed plate.Then when one is inhaled
The one row's feeding head 219 of corresponding driving of dish driving part 222.
When being provided with multiple rows of feeding head 219 and multiple sucker actuators, each row or a feeding head 219 correspondence are set
It is equipped with a sucker actuator 222;Also, the fortune up and down of one row of corresponding control of sucker actuator 222 or a feeding head 219
It is dynamic.As one of achievable mode, sucker can be directly constituted by multiple 219 array arrangements of feeding head.As another kind
Achievable mode, sucker also may include multiple sub- suckers, and multiple sub- suckers are set side by side.Any sub- sucker includes fixed plate
221 and side by side/multiple feeding heads 219 for being set side by side;Fixed plate 221 can strip structure, any feeding head 219 of the sub- sucker
One end be fixed on the downside of fixed plate 221, multiple feeding heads 219 of the sub- sucker are respectively positioned on 221 downside of fixed plate, and shape is in a row
Or one column.
When a sucker actuator 222 controls row's feeding head 219, length of multiple sucker actuators 222 along supporting plate 217
Degree or width direction arrangement;When the movement of the control of sucker actuator 222 one feeding head 219 of corresponding control, multiple suctions
The arrangement mode of dish driving part 222 is identical as the arrangement mode of feeding head 219, can be array arrangement.
When using the structure of feeding head 219 and fixed plate 221, any two fixed plate 221 is not connected to, respectively independent dynamic
Make.Also, it is oriented to strut 220 and passes through fixed plate 221, fixed plate 221 can be slided relative to guiding strut 220, to play
The purpose of 221 vertical direction of guide fixing plate movement.
For example, have 10 when row's feeding head 219, and when having 16 row, 10 feeding heads 219 of each row are arranged side by side,
And the upper end of each feeding head 219 is fixedly connected on 221 downside of a fixed plate, is fixedly connected with sucker driving on the upside of fixed plate 221
The drive shaft of part 222,222 fixing end of sucker actuator are fixed on supporting plate 217;And 16 sucker actuators are correspondingly arranged, often
The downside of one sucker actuator 222 is correspondingly arranged on the feeding head 219 of row's above structure.Alternatively, can be real as another kind
Existing mode, each feeding head 219 are correspondingly arranged a sucker actuator 222, and the lower end direction of any feeding head 219 is unloaded
Expect the mesh of web plate 218, upper end is fixedly connected with the drive shaft of corresponding sucker actuator 222, and the upper end of sucker actuator 222 is fixed
It is connected on supporting plate 217.The feeding manipulator 216 is at best able to 160 battery cores of crawl.
Further, discharging web plate 218 has multiple mesh;The quantity of mesh can be equal to or greater than feeding head 219 number
Amount;The lower end of any feeding head 219 is towards the mesh on discharging web plate 218, and the aperture of mesh is less than the cross section of battery core
Diameter enables feeding head 219 by passing through in mesh greater than the diameter of feeding head 219, and battery core can not pass through mesh.Work as suction
When the drive shaft of dish driving part 222 pushes fixed plate 221 to move downward, feeding head 219 can be driven to move downward, pass through discharging
Web plate 218 enables feeding head 219 to adsorb battery core.To which battery core is transferred to designated position, when need to put down battery core, sucker is driven
The drive shaft of moving part 222 drives feeding head 219 to move upwards, and feeding head 219 returns to 218 top of discharging web plate, is located at discharging net
The battery core of 218 lower section of plate can not pass through mesh and separate with feeding head 219.Wherein, feeding head 219 can be magnetic feeding head
219 or vacuum feeding head 219 etc..Meanwhile according to feeding demand, sucker actuator can also be made to correspond with feeding head 219 and set
It sets, and then realizes the single control of feeding head 219.In this specific scheme, a sucker actuator, which can be used, can control a row
The structure of feeding head 219 can meet conventional production requirement, and can simplify structure.
It wherein, is the combo demand for adapting to different size battery modules, when a sucker actuator, one row of corresponding control is taken
When material head 219, settable two feeding manipulators, two feeding manipulators are all set in the side of battery core material loading platform head end,
And it is mutually perpendicular to the arragement direction of the sucker actuator of two feeding manipulators.Then a manipulator is matched needed for can be used for regulating and controlling
The length of battery core arrangement in the battery modules of group, another manipulator can be used for regulating and controlling battery core in the battery modules of required combo and arrange
Width.When a sucker actuator is corresponding only controls a feeding head 219, then a feeding manipulator need to be only configured i.e.
It can.
In a specific embodiment, feed mechanism includes object battery core feeding bin 303 and battery core storage bin, further includes material
Transport unit and blank panel storage bin;Material transfer unit includes portal frame 301 and the material transfer for being set to 301 upside of portal frame
Manipulator 302, battery core feeding bin 303, battery core storage bin 304 and blank panel storage bin 305 are arranged side by side in 301 inside of portal frame.
Referring to shown in Fig. 6 and Fig. 7, material transfer manipulator 302 is erected at 301 top of portal frame.It includes material crawl
Part, suspender member, a supporting beam and two support arms arranged in parallel;Support arm is fixed on 301 top of portal frame, supporting beam
One end is slideably positioned on a support arm, and the other end is slideably positioned on another support arm, and suspender member is hung below supporting beam, and with
Supporting beam is slidably connected, and material grippers are fixed on suspender member bottom, wherein suspender member is telescoping shoring column, and above structure is real
The three-dimensional motion of existing material transfer manipulator 302.
Battery core feeding bin 303 is positioned close to the side of feeding manipulator 216, battery core storage bin 304 and blank panel storage bin
305 are arranged in a row, convenient for material transfer manipulator 302 by the material transfer on other feeding units to battery core feeding bin 303
With battery core storage bin 304.Wherein, battery core storage bin 304 can store multilayer battery core material.In battery core feed mechanism, battery core is contained
From other mechanisms, transhipment comes in carrier, then via material transfer manipulator 302 by battery core and the carrier one for being loaded with battery core
It rises and is transported in battery core feeding bin 303 and battery core storage bin 304.In feeding process, the carrier of maximum specification is used, so that
The battery core quantity that can once convey is more, improves battery core transfer efficiency.Battery core storage bin 304 can be used what four columns enclosed
Column structure, as long as can play the role of limiting battery core position, storage battery core.
Storage multilayer battery core can be laminated in the battery core storage bin 304.Part can be come by other feeding unit transportations
Battery core is first deposited in the battery core storage bin 304, to feeding unit by elsewhere by battery core conveying come before, material transfer
The battery core stored in battery core storage bin 304 can be first transported in battery core feeding bin 303 by manipulator 302, by feeding manipulator 216
Battery core is transferred on battery core material loading platform 210.Feeding manipulator 216 only grabs battery core, battery core feeding bin in feeding process
Vacant carrier is transferred in blank panel storage bin 305 by material transfer manipulator 302 again in 303.Wherein, battery core feeding bin 303,
The upper end of battery core storage bin 304 and blank panel storage bin 305 is opening, taking/putting convenient for battery core and/or carrier.
Further, feed mechanism further includes feeding trolley.Matrix arrangement is provided with multiple electricity on the upside of feeding trolley
Core storage compartment, each battery core storage compartment can store multilayer battery core, and the quantity of each layer of battery core is that the carrier of maximum specification contains
Battery core quantity.The battery core conveyed in feeding trolley, and be contained in carrier, multiple carrier stackings are put, so that battery core
Stacking is put.Pulley is arranged in the bottom of feeding trolley, and convenient for the movement of feeding trolley, feeding trolley can be fully loaded with battery core and move to dragon
301 lower part of door frame.When feeding trolley is located at 301 lower part of portal frame, battery core feeding bin 303, battery core storage bin 304 and blank panel storage
Feed bin 305 is respectively positioned on the side of feeding trolley.
The related carrier of battery core on feeding trolley is transferred to 303 He of battery core feeding bin by material transfer manipulator 302 together
Battery core storage bin 304;Battery core in battery core feeding bin 303 is transferred to battery core material loading platform 210 by feeding manipulator 216, vacant
Carrier be transferred to blank panel storage bin 305.It, can be by blank panel storage bin 305 when having vacant battery core storage compartment on feeding trolley
In carrier be transferred on feeding trolley, for containing battery core again.After the battery core on feeding trolley all removes, feeding is small
Vehicle is removed by portal frame 301 is lower, is taken battery core to battery core storage position, and so on, is completed the feeding of battery core;Feeding trolley is in electricity
During core storage position takes battery core, the battery core in battery core storage bin 304 can be used for continuing providing electricity to battery core material loading platform 210
Core, with continuous feeding.
Further, when feeding trolley is located at 301 lower part of portal frame, feeding trolley is located at material transfer manipulator 302
Lower section.The accuracy of 302 feeding of material transfer manipulator is influenced to avoid feeding trolley sliding position, in portal frame 301
Downside is provided with trolley positioning unit 306.The mechanisms such as cylinder or hydraulic cylinder can be used in trolley positioning unit 306, and and make its drive
One end of moving axis is contacted with feeding trolley;It is preferred that using four sets of trolley positioning units 306, the drive of four sets of trolley positioning units 306
Moving axis is towards feeding trolley;When the drive shaft of trolley positioning unit 306 is horizontally disposed, can respectively be set in the surrounding of feeding trolley
A set of trolley positioning unit 306 is set, the stability positioned to feeding trolley is enhanced.
The welding system of the utility model, including feeding structure, matching mechanism of sheet and welding mechanism, feed mechanism use feeding
The structure of trolley and material transfer unit, battery core feeding bin, battery core storage bin and blank panel storage bin, realize battery core it is continuous on
Material;Matching mechanism of sheet uses feeding manipulator, battery core material loading platform and carrier repetition stage, and feeding manipulator can be single/mono-
A control battery core takes/puts, and realizes the battery modules of combo different size, also, it uses and feed supplement unit is taken to further enhance
Battery modules are completed after installing unit installation end cap additional using end cap to the combo ability of the battery modules of various particular requirements
Combo process;Battery modules after combo are delivered to welding mechanism and execute welding, and the welding platform of welding mechanism is using positioning net
Hardened structure can further compress end cap, and can be realized the restriction to welding position or form.
Finally, the method for the utility model is only preferable embodiment, it is not intended to limit the protection of the utility model
Range.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should be included in
Within the protection scope of the utility model.
Claims (10)
1. a kind of welding system characterized by comprising
Feed supplement unit is taken, it is described that feed supplement unit is taken to include vision-based detection component and take feed supplement manipulator;
End cap installs unit additional, and it includes end cap pipeline and end cap storage assembly that the end cap, which installs additional,;The end cap storage assembly frame
Above the end cap pipeline, the vision-based detection component, it is described take feed supplement manipulator, the end cap storage assembly along electricity
The conveying direction sequence of Chi Mo group is arranged;
Welding mechanism, the welding mechanism include welding unit and battery modules pipeline, and the welding unit is set to described
The tail end side of battery modules pipeline, the end cap pipeline are set to the head end side of the battery modules pipeline;
The welding unit includes plumb joint and welding platform, and the welding platform is located at the upper of the battery modules pipeline
Side, and the plumb joint is located at the top of the welding platform, the welding platform is with hollow duct, in the hollow duct
It is embedded with positioning web plate, the positioning web plate has multiple apertures, battery core in the arrangement mode and solder of the multiple aperture
Arrangement mode is identical.
2. system according to claim 1, which is characterized in that the battery modules pipeline includes guide rail and sliding setting
The upper end of jacking component on the upside of the guide rail, the jacking component is provided with the pallet for carrying battery modules, and institute
The one end for stating guide rail is located at below the welding platform.
3. system according to claim 2, which is characterized in that the opposite sides of the pallet is provided with battery modules positioning
Component, for the fixed battery modules being carried in the pallet.
4. system according to claim 2, which is characterized in that the battery modules positioning component includes pallet block and drive
The battery modules anchor drive of the pallet block linear motion is moved, the pallet block protrudes from the pallet upper surface,
And the drive shaft of the battery modules anchor drive is towards the center of the pallet.
5. system according to claim 1-4, which is characterized in that the end cap storage assembly include end cap storehouse and
End cap dispenser positioned at end cap orlop portion, the end cap dispenser include clamping piece and lift part, and the lift part
Positioned at the lower section of the clamping piece.
6. system according to claim 5, which is characterized in that the end cap storehouse includes more root posts;The more columns
It is parallel to each other and vertically arranged, to enclose the column structure for accommodating end cap;
Support frame is provided on the outside of the column structure;Any column is slidably connected to support frame as described above by sliding part
On, and the sliding bar of the sliding part is horizontally disposed.
7. system according to claim 5, which is characterized in that it further includes end cap detection components that the end cap, which installs unit additional,;
The end cap detection components are fixedly installed on above the end cap pipeline and are located at end cap storage assembly side, and described
End cap storehouse and the end cap detection components are arranged along the conveying direction sequence of the end cap pipeline.
8. system according to claim 5, which is characterized in that the end cap install additional unit further include end cap hold down assembly and
Battery modules feeding line;The battery modules feeding line and the end cap pipeline are arranged in parallel;
The end cap holds down assembly including end cap feeding bracket, end cap reclaimer robot and compact heap;The end cap feeding bracket
Top beam be across above the end cap pipeline and the battery modules feeding line, the compact heap is connected by linear drives part
It is connected on the downside of the top beam, the end cap reclaimer robot is slidably connected to the top beam side.
9. system according to claim 8, which is characterized in that
The vision-based detection component is fixedly installed on above the battery modules feeding line, and the vision-based detection component, described
Feed supplement manipulator and the end cap feeding bracket is taken to be arranged along the conveying direction sequence of the battery modules feeding line;
It is described that feed supplement manipulator is taken to be fixed on battery modules feeding line side, for the inspection according to the vision-based detection component
It surveys and battery core is taken out or filled into battery modules from the battery modules on the battery modules feeding line.
10. system according to claim 9, which is characterized in that it is described take feed supplement unit further include battery modules block and
Block actuator;The drive shaft of the block actuator is horizontally disposed, and perpendicular to the conveying side of the battery modules feeding line
To, the battery modules block towards the battery modules feeding line.
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CN201821768196.9U CN209503228U (en) | 2018-10-29 | 2018-10-29 | Welding system |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109128496A (en) * | 2018-10-29 | 2019-01-04 | 武汉逸飞激光设备有限公司 | welding system |
CN109175679A (en) * | 2018-10-29 | 2019-01-11 | 武汉逸飞激光智能装备有限公司 | welding system |
CN114619175A (en) * | 2022-02-16 | 2022-06-14 | 北京无线电测量研究所 | Welding device |
-
2018
- 2018-10-29 CN CN201821768196.9U patent/CN209503228U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109128496A (en) * | 2018-10-29 | 2019-01-04 | 武汉逸飞激光设备有限公司 | welding system |
CN109175679A (en) * | 2018-10-29 | 2019-01-11 | 武汉逸飞激光智能装备有限公司 | welding system |
CN109128496B (en) * | 2018-10-29 | 2024-03-29 | 武汉逸飞激光股份有限公司 | Welding system |
CN114619175A (en) * | 2022-02-16 | 2022-06-14 | 北京无线电测量研究所 | Welding device |
CN114619175B (en) * | 2022-02-16 | 2024-03-19 | 北京无线电测量研究所 | Welding device |
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