5 Must-Have Features in a Prismatic Battery PACK Assembly Production Line

Prismatic battery cell is also called aluminum shell battery cell, which is a battery packed in aluminum shell, using laser sealing technology, fully sealed, aluminum shell technology is very mature, and the material technology such as inflation rate, expansion rate and other indicators are not high, it is a form of power battery promoted earlier in China. Compared with the other two lithium batteries, prismatic battery cell has more outstanding advantages in market using , which can be summarized as follows:

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'  The prismatic battery cell packaging has high reliability;

'   High system energy efficiency;

'  Relatively light weight and high energy density;

'  The structure is relatively simple and the capacity expansion is relatively convenient. It is an important option to increase energy density by increasing the single unit capacity.

' The single unit capacity is large and the system structure is relatively simple, which makes it possible to monitor each single unit one by one. Another benefit of the simple system is that the stability is relatively good.

Main functions and description of the equipment

1.1 Prismatic lithium battery cell assembly equipment

The prismatic lithium battery cell assembly line is used for the mid-stage assembly of power batteries. It is an important part of the power battery production process and has a significant impact on the performance and precision of the battery. Therefore, the degree of automation and operation accuracy of the assembly line equipment are increasingly attracting market attention. This section will introduce ShinHop a very mature battery cell assembly line that has stood the test of time and is recognized in the market. The assembly line equipment has the following characteristics:

' Strong compatibility, it can be compatible with a variety of different series of products according to customer requirements.

' Modular design, short changeover time, fewer parts and low cost.

' High assembly accuracy, dual positioning methods of vision and mechanical to improve positioning accuracy.

' Non-standard customization of fully automatic assembly lines can be achieved according to the battery cells with different process routes of customers .

' The layout of process equipment is reasonable, space-saving, the entire line is fully automated, and the labor cost is very low.

'High manufacturing quality assurance, full parameter detection and monitoring.

'Manufacturing guarantee of battery safety and consistency.

This automatic production line is used to realize the automatic assembly of prismatic lithium- ion power battery cells after winding. The production line is mainly composed of the following parts : heat pressing test machine, X-ray machine, pairing machine, ultrasonic welding machine, adapter welding machine, stack combining machine , mylar wrapping/hot melting/taping machine, cell to can pre-tack welding, laser top cover welding machine, helium inspection machine . It realizes the functions of heat pressing of battery cells, X-ray inspection, pre-welding and pairing of tabs, welding of adapter tabs, back taping, cover laser welding, taping, stacking tabs combining machine, taping, wrapping, cell to can, top cover sealing welding, etc., and realizes full automation in the whole process. The overall layout is reasonable, the structure of each equipment is compact, and it is fully automatically monitored and intelligent throughout the process. Each equipment can realize the traceability function, connect to the MES system, and upload data to the system in real time. The equipment runs stably, and the key components are all imported brands or international first-line brands. This assembly line has been put into production in large quantities in other customer factories and has been fully verified. The technology of each equipment is mature.

1.2 Future development trends of assembly production lines

Prismatic battery cell production lines have been used for a long time, the corresponding technology is very mature, and the existing assembly line equipment is also similar. In the future development trend, in addition to continuing to improve materials and finding high-performance battery cell materials, for battery assembly production lines, high efficiency and low cost are still the future development direction of power lithium batteries. After summarizing the current market development overview, the following points are worth noting:

' The performance of the battery itself, such as battery size, energy density, multi- electrode structure , etc.

' Assembly production efficiency, continuously improve production efficiency while ensuring that equipment costs do not change much.

' he automation level of battery cell assembly lines is constantly improving, and the production yield is easier to control. Reasonable control of the production time of each process can effectively shorten the production time of lithium batteries and greatly improve the problems of high labor intensity and high production costs of workers.

' Better compatibility, suitable for a wider range of products.

' Modular technology is an important way to improve efficiency.

1.3 Design of prismatic lithium battery cell production assembly line

For the design of prismatic lithium battery cell production line , there will be different designs according to the requirements of customers. According to the problems encountered in the production process and the corresponding practices, the following aspects should be considered:

'Product technology: including the size of the battery, the size of the tabs , the thickness of the weld, etc.

' Factory space size: Rationally arrange the specific location of production line equipment, as well as the mechanisms to be optimized, and also consider ergonomics, the convenience of manual operation, and the operability of subsequent maintenance.

' Equipment design: The simpler the structure, the better, so it is easier to operate.

' Distribution of beats in the production line: focus on the efficiency of the bottleneck station. If the efficiency cannot be achieved, consider changing the single station to a double station or even multiple stations. At the same time, high safety performance and straight-through yield are also key points of attention.

' Product positioning method: Different product positioning methods are adopted to meet different customer needs, such as side positioning, positioning based on both sides, fixture positioning, etc.

'Dust prevention device: Basically, every device that needs dust removal in the cylindrical battery cell assembly line has corresponding dust removal facilities, such as dust collectors, brushes, etc.

' Logistics design in equipment: including transportation within the equipment, transportation between equipment, etc.

'Quality inspection: CCD inspection, battery cell thickness inspection, insulation inspection, short circuit inspection, etc. will be designed in the whole set of assembly lines.

' Maintain the consistency of the appearance of the production line and maintain the beauty of the entire set of equipment.

Equipment composition and key structures

The overall layout of the prismatic lithium battery cell assembly line equipment is as follows:

' Dimensions of the entire line: length × width × height = mm × mm × mm (height does not include the alarm light), operating surface height 900mm, equipment spacing 800~mm.

' Appearance: The load-bearing chassis adopts a square-tube welded structure, the upper sealing frame adopts an aluminum alloy profile structure, sealed with plexiglass, and the entire equipment cover is covered with sheet metal .

' Operation interface: Each device is equipped with an independently operated touch screen, and the touch screens of all devices are embedded.

'Whole line layout: The layout of the prismatic battery cell assembly line is shown in Figure 1.

This production line is a fully automatic production line, which includes the entire production process of prismatic battery cells from heat press to helium tester , as shown in Figure 2, the overall process of prismatic batteries, namely: winding to heat press conveyor line (including 6 sets of material taking manipulators on the winding machine) ' heat press ' ultrasonic welding machine ' adapter sheet laser welding machine ' Mylar wrapping machine ' cell to can and pre-tack welding machine ' top cover laser welding machine ' air tightness tester.

2.1 Heat Press machine

The heat press equipment is used for heat pressing of wound battery cells. Its main functions include: scanning of incoming battery cell codes, automatic loading of A/B battery cells , heat pressing, Hi-pot testing, and rejection of defective products. The heat pressing temperature, pressure, time, and Hi-pot test parameters and results are associated with the barcode and uploaded to the MES system. The equipment mainly includes battery loading and unloading modules, detection modules, heat pressing modules, etc. This equipment is the first step in assembling prismatic battery cells. The effect of heat pressing and winding battery cells directly affects the quality of subsequent processed products. Therefore, the efficiency, working accuracy, and automation level of the assembly equipment are all key considerations . The equipment layout and process flow are shown in Figures 3 and 4.

Figure 4 clearly shows the operation process of the wound battery cell on the heat press. During the operation, the equipment performs inspections on the wound battery cell after heat pressing, and uploads the inspection results including heat pressing temperature, pressure, time and Hi-pot to the MES system for real-time follow-up feedback, elimination of defective products and ensuring processing quality.

From the equipment layout diagram in Figure 3, it can be seen that the loading and unloading robot components, in-and-out transfer line, transfer robots, displacement mechanism, heat pressing components, etc. in the heat press equipment are relatively critical and play a vital role in the entire assembled semi-finished products. Several of these mechanisms are selected for detailed introduction and description.

' Offset material distribution mechanism . As shown in Figure 5, the offset material distribution mechanism is used, in which the flipping and positioning module has the following functions: the flipping mechanism uses a belt servo drive to achieve the flipping of the fixture and the synchronous flipping of the connecting plate. The fixture always remains horizontal, and the flipping is stable and reliable. The positioning fixture uses a clamping cylinder and a double-link cylinder for clamping and positioning; the contact surface with the battery cell is made of POM material.

' Up and down transfer module . The up and down transfer module is shown in Figure 6. Its main actions are: translation uses a synchronous belt servo module, dual belt drive, to increase the stability of the loading and unloading module ; the loading and unloading module uses a belt servo, independent servo control; the clamping jaws are lifted and lowered using a screw cylinder; the pitch mechanism uses a servo-driven connecting rod mechanism, with the middle connecting rod as the positioning reference to achieve synchronous pitch change. The servo can control the equidistant size of the clamping jaws to achieve synchronous loading and unloading of the translation module at different working positions of the heat press.

'Heat pressing assembly . The heat pressing assembly of the heat pressing machine is shown in Figure 7, and its detailed description is as follows:

Main components: booster cylinder (pressure 20t, 6 layers), heating tube, thermostat, pressure sensor, etc.

Action flow: Perform heat pressing and Hi-pot tests on the battery cells.

2.2 Ultrasonic welding machine

The ultrasonic welding machine mainly completes the ultrasonic welding of battery cells through processes such as battery cell scanning , automatic pairing of battery cells by the robot, battery cell correction and polarity detection, polarity detection and correction of the adapter sheet storage , welding fixture on the adapter, welding fixture on the battery cell, placing the protective cover, ultrasonic welding and dust extraction, weld mark shaping , taping and taping detection, and automatic unloading. The equipment realizes battery cell scanning , ultrasonic welding, taping and information binding from battery cell pairing to Mylar warpping. It mainly includes: battery cell entry code scanning, battery cell correction and loading, adapter correction and loading, taping inspection, information binding and uploading (MES system), etc. The equipment layout is shown in Figure 8.

The grabber is equipped with a color sensor to identify the positive and negative tabs of the battery cell to ensure that the tabs are not paired incorrectly. The battery cell is grabbed by the robot from the incoming conveyor belt, and after the secondary positioning of the battery cell, it is placed in the pallet to ensure that the misalignment error of the A/B battery cell tabs is '±0.2mm. The battery cell is placed in the pallet with center alignment. Before placing the battery cell, the elastic clips around the pallet will open, and then the robot will place the battery cell in the pallet, the clips will close, and the battery cell will be positioned in the center of the pallet. This equipment is an automatic production line, and the detailed process flow chart is shown in Figure 9.

Equipment composition and key structures

From the equipment layout diagram of the ultrasonic welding machine in Figure 8, it can be seen that the battery cell loading module, battery cell ultrasonic welding circulation line and fixture module, adapter, protective sheet loading module, protective sheet cover loading and unloading module, ultrasonic positive and negative electrode welding module, weld marking flattening module, battery cell protective glue upper module, battery cell protective glue lower module, battery cell unloading module, taping detection, etc. are relatively critical and play a vital role in the entire assembled semi-finished product. Several of these mechanisms are selected for detailed introduction and explanation.

'   Battery cell loading module (Figure 10). It has the functions of automatic battery cell loading, incoming material dust removal, incoming material fool proofing, incoming material buffering, and lack of material alarm, and also has the function of battery cell scanning and binding.

• Main components: translation mechanism + lifting mechanism, battery cell gripper , etc.
• Action flow: The battery cell loading and handling uses a belt module. The handling robot 1 grabs a group of battery cells from the customer logistics line pallet to the secondary positioning mechanism; after the battery cells are secondary positioned, the handling robot 2 grabs the battery cells to the circulation line body. If a single group of NG battery cells is detected in the two groups of battery cells during the loading process, the handling robot 1 puts the NG battery cells back to the NG line body, and then puts the OK single group of battery cells into the pairing mechanism to wait for pairing.

'Battery cell ultrasonic welding circulation line and fixture module .

• Main components: circulation line, module, long and short side positioning blocks, cylinder, guide, etc.
• Action flow (write function description without action flow): The battery cell loading robot 2 loads the battery cell to the circulation line fixture, the fixture clamps the battery cell, and the translation mechanism drives the fixture to translate to the next station.

The schematic diagram of the ultrasonic welding loop is shown in FIG11 .

' Adapter sheet and protective sheet loading module (Figure 12).

• The copper-aluminum adapter loading has anti-misplacement measures or polarity detection function to prevent manual misplacement or reverse placement.
• The connecting sheet feeding has a brush to prevent failure to suck up or multiple pieces. It has air blowing and suction cup shaking functions, multiple piece sucking detection, and a device for storing waste from multiple pieces sucked.
• Protection sheet pallet preparation: Manual loading to the clip preparation, the material taking nozzle takes away a group of protection sheets each time, the protection sheet raw materials at the loading end are all used up, and the turntable (or mobile module) rotates to the next position to realize the non-stop supply of the adapter sheet.
• Main components: servo motor, screw rod, cylinder, suction cup, etc.
• Adapter pallet material preparation: the material taking nozzle takes away a group of adapter plates each time, and the adapter pallet materials at the loading end are all used up, and the pallet rotates to the next position to realize the non-stop supply of adapter plates.
• One loading can produce for 40 minutes.

' Protective sheet cover loading and unloading module (Figure 13).

• Main components: servo motor, screw rod, cylinder, guide, etc.
• Action flow: In the initial state, the protective cover is manually placed into the upper protective cover preparation mechanism, and the upper protective cover mechanism grabs a group of protective covers and moves them to the upper protective cover station until all protective cover plates are circulated on the line body; when the protective cover is lowered, the lower protective cover mechanism removes the protective cover from the clamp of the circulating line body 2, and the platform moves to place the protective cover on the protective cover transfer mechanism, the transfer mechanism moves to the upper protective cover position, and the upper protective cover mechanism takes the protective cover into the corresponding clamp of the circulating line body 1.
• One loading can produce for 40 minutes.

'Ultrasonic positive and negative welding module (Figure 14).

• Main components: platform, ultrasonic welding machine, cylinder, etc.
• Action flow: After the fixture is cyclically positioned, the Z-axis lifting cylinder rises, and the ultrasonic upper welding head descends to complete the welding; the X-axis and Y-axis translation uses servo motors to adjust the welding machine position and change the type, and the X-axis and Y-axis travels ensure the size requirements for the change.

' Welding mark flattening module (Figure 15). This module requires that the protective sheet does not warp, the tabs do not bend, and the pressing block uses wear-resistant material PEEK.

• Main components: slide guideway, cylinders, etc.
• Action flow: After the clamps on the circulating line are in place, the avoidance cylinder drives the upper and lower molds to extend forward, then the lower mold pushes up and the upper mold presses down to level the weld mark. Then, the upper mold moves up and the lower mold moves down , and the avoidance cylinder drives the upper and lower molds to shrink to avoid the line clamps.

2.3 Adapter laser welding machine

1) Equipment composition

The main functions of the adapter laser welding machine include automatic loading of the top cover and battery cells, and welding the connecting piece and the top cover together by laser welding, and automatic unloading after dust removal and gluing, as shown in Figure 16.

Equipment size: length × width × height = mm × mm × mm.

Appearance: The load-bearing bottom frame adopts square-pass welding structure, and the upper sealing frame adopts aluminum alloy profile structure and is sealed with organic glass.

Operation interface: The equipment is equipped with an independently operated touch screen, and the touch screens of all equipment are embedded.

This equipment is an automatic production line, and the detailed process flow chart is shown in Figure 17.

2) Key structures

As can be seen from Figure 16, the cover feeding mechanism, upper cover assembly, laser welding module, dust removal mechanism after laser welding, welding mark taping assembly, etc. are relatively critical and play a vital role in the entire assembled semi-finished product. Several of these mechanisms are selected for detailed introduction and description.

'   Cover loading mechanism (Figure 18).

• Function: To realize the loading of cover plates, and has the functions of positioning and transferring the pallets, etc.
• Main components: lifting mechanism, pallet positioning mechanism, trolley, etc.
• Requirements: One loading can meet the normal production of the equipment for 30 minutes; one loading trolley is used and one is reserved, and 3 unloading trolleys are required; the secondary positioning accuracy of the pallet is '0.1mm.

' Top cover assembly (Figure 19).

• Function: Grab the engraved cover onto the turntable.
• Main components: translation timing belt module, lifting screw module, grabbing claw , etc.
• Requirements: reliable gripping, no material dropping or pinching, repeatability of mechanism operation '±0.05mm, flexible design of the manipulator, and non-metallic materials used for parts of the manipulator that come into contact with the product.

' Laser welding module (Figure 20).

• Function: Weld the cover plate and the tab together using a laser welding machine .
• Main components: welding platform, battery cell carrier , etc.

' Dust removal mechanism after laser welding (Figure 21). The lifting cylinder descends to cover the welding area, forming a sealed space for dust extraction. The dust suction wind speed is '12m/s, and the wind speed is steplessly adjustable within the maximum range.

• Main components: lifting cylinder, rotating motor, dust suction port, etc.
• Action flow: the fixture moves to the dust removal station; the cylinder descends and the motor rotates to remove dust.

' Welding mark taping components (Figure 22).

• Function: to apply protective taping on the welding area of the tab .
• Main components: tape pulling mechanism, tape cutting mechanism, taping sticking mechanism, taping roller assembly, etc.
• Requirements: The tape length and taping position can be adjusted; vacuum detection and early warning functions for poor taping preparation ; tape detection function; welding mark area shaping device before taping; taping good product rate ' 99.8%.

2.4 Mylar wrapping machine

1) Main functions of the equipment

The main functions of the Mylar wrapping machine include automatic shaping of battery cells, automatic loading of Mylar and bottom trays, Mylar wrapping of battery cells, side taping, bottom taping, CCD testing, etc. The equipment layout is shown in Figure 23.

' Basic indicators of equipment .

The overall dimensions of the equipment are: mm×mm×mm.

Equipment quality rate: '99.8% (excluding defective incoming materials).

Equipment utilization rate: '98% (refers only to failures caused by equipment reasons).

' Equipment process flow is shown in Figure 24.

2) Key structures

From the layout diagram of the Mylar wrapping machine in Figure 23, it can be seen that the bottom taping mechanism, the Mylar and bottom support sheet feeding layout mechanism, the front Mylar wrapping mechanism, the bottom tapping mechanism, the side taping turntable mechanism, etc. are relatively critical and play a vital role in the entire assembled semi-finished product. Several of these mechanisms are selected for detailed introduction and description.

' The layout of Mylar and base sheet loading (Figure 25).

• Main components: manual Mylar feeding assembly (1 set), Mylar film feeding robot (1 set), bottom support sheet material box (1 set); bottom support sheet feeding robot (1 set), Mylar bottom support hot melt platform (1 set), hot melt mechanism (1 set).
•  Action flow: The robot places the base on the hot melt fixture ' The Mylar loading robot places the film on the hot melt fixture ' The hot melt fixture moves horizontally to the hot melt station ' Hot melt ' The turntable film loading and unloading robot takes the material and waits for the material to be taken.

' The Mylar wrapping station for the front side (Figure 26) has its film wrapping and hot melt turntable layout as shown in Figure 27.

• Main components: work station fixture (8 sets), hot melt assembly (1 set), Mylar wrapping assembly (1 set), Mylar folding mechanism (1 set), fixture opening mechanism (3 sets).
• Action flow: Mylar loading ' battery cell loading ' bottom hot melting ' front film wrapping ' front hot melting ' side film folding ' side hot melting ' unloading.

' Bottom surface taping mechanism (Figure 28).

• There is an L-shaped tape on each side of the bottom. The tape length and the adhesive position can be adjusted. The adhesive position is symmetrical with a deviation of ±0.5mm. The adhesive should not crush or scratch the battery cell.
• Poor taping preparation can be detected and has an early warning function. After taping, the color mark sensor can be used to detect whether the taping is applied.
• Taping preparation method : manual taping preparation.
• Function: After the battery cell is wrapped, tape is applied to the bottom support of the battery cell to fix it in an "L" shape.
• Main parts: rubber rollers, rubber applying and rubber cutting components, etc.
• Requirements: The adhesive tape yield rate is ' 99.6%; the adhesive tape must be continuous and no tape breakage is allowed; the tape must fit the battery cell without wrinkles or warping.

' Taping the side on the turntable (Figure 29).

• 1 piece of tape on each side.
• The tape length and taping position are adjustable, the taping position is symmetrical, and the deviation is ±0.5mm.
• The adhesive should not crush or scratch the battery cell.
• Poor adhesive preparation can be detected and has an early warning function.
• After taping, the color mark sensor is used to detect whether the taping is applied.
• Manual preparation of taping.
• Function: After the battery cell is wrapped, taping is applied to both sides of the battery cell to fix it in a "U" shape.
• Main components: rubber roller, rubber sticking and cutting components, X-axis screw components, etc.
• Requirements: The adhesive bonding yield rate is ' 99.6%; the adhesive bonding should ensure continuity, and no tape breakage is allowed; the tape should fit the battery cell without wrinkles or warping.

2.5 Cell to can, pre-tack welding machine

1) Main functions of the equipment

The cell to can pre tack welding machine is shown in Figure 30.

Cell to can pre tack welding machine is used to automatically put prismatic battery cell into the can. The main functions of the equipment include: aluminum can loading, automatic battery cell loading and code scanning, aluminum can and cell dust removal, cell to can , battery unloading, information binding and uploading (MES), etc.

' Main technical parameters of the equipment.

• The overall dimensions of the equipment are: mm×mm×mm.
• Equipment yield: '99.8% (refers only to defects caused by equipment reasons).
• Equipment utilization rate: '99% (refers only to failures caused by equipment reasons).
• Aluminum can feeding time interval: '25min; automatically record dust removal parameters, the dust removal process will not cause damage to the battery cell and aluminum can. No obvious particles that can be wiped off.
• The thickness control of the battery cell requires an increased clamping force: 10 to 50 kgf (1 kgf = 9.81 N) is adjustable, the debugging accuracy is ±5 kgf, and the clamping pressure and vacuum value are digitally adjustable.
• Thrust control accuracy during can insertion: ±5% of the set value; the can and battery cell are repositioned before cell to can insertion, and the shell opening is expanded. The battery cell adopts a fully surrounded guiding mechanism so that the battery cell does not touch the aluminum shell opening at all when it is guided into the shell.
• Positioning deviation: 0.5mm.
• Mechanism operation repeatability accuracy: deviation '±0.05mm.

'  The process flow of this equipment (Figure 31).

2) Key structures

From the equipment layout diagram of the cell to can welding machine in Figure 30, it can be seen that the aluminum can feeding mechanism, aluminum can and battery cell, top cover cleaning mechanism, battery cell can entry mechanism, battery cell feeding mechanism, etc. are relatively critical and play a vital role in the entire assembled semi-finished product. Several of these mechanisms are selected for detailed introduction and description.

'   Aluminum can feed module (Figure 32).

• Function: To realize the feeding of aluminum cans and to have the functions of positioning and transferring the pallets.
• Main components: automatic loading device for stacking aluminum can pallets, aluminum can pallets, material transport trolleys, etc.
• Requirements: The aluminum can feeding interval should be ' 20 minutes; it should be equipped with reliable guiding mechanism and positioning mechanism.

' Battery cell and can dust removal mechanism (Figure 33).

• Function: The can is cleaned vertically, there is no obvious dead angle in all directions during the blowing process, and the can opening is treated specifically.
• Main components: dust removal mechanism, cylinder translation mechanism, etc.

' Battery cell to can mechanism (Figure 34).

• When inserting the battery cell into the can, the aluminum can is fixed, the battery cell is clamped and sent forward to protect the battery cell tabs .
• There are ceramic guide blocks and large bevel guides during the can insertion process to avoid glue scraping from the aluminum can port and to avoid damage and scratches on the separator.
• The material in contact with the aluminum can is ceramic.
• After entering the can, a 4mm gap will be left for the press-fitting station, which is required to exceed the top cover bracket. The bracket needs to be inserted into the can to ensure the consistency of the can insertion depth after press-fitting.
• Positioning accuracy: With suction cup shell pulling structure , the can is close to the positioning surface, with a positioning accuracy of ±0.1mm. The pressure is monitored during the whole process of can insertion , and standard weights are provided, which can be calibrated without disassembling the sensor.
• The cleaning mechanism cleans the welding surface of the battery cell cover by blowing from the upper sides and sucking dust from the lower sides.
• The blowing angle and height of the nozzle can be freely adjusted, and the air output is uniform, forming an effective air curtain.
• Press-fitting of box cover: mainly to realize Hi-pot test of the battery cell after it is put into the case, remove dust around the cover plate before press-fitting, and press-fit the cover plate into the case.
• Function: Insert the battery cell body into the shell.
• Main components: can entry mechanism, screw assembly, can rear suction and opening mechanism , etc.

' Battery cell loading mechanism (Figure 35).

• Function: Used to transport the battery cells after they are put into the can.
• Main components: battery cell clamping mechanism, lifting cylinder, transmission mechanism, etc.

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2.6 Pre-tack welding machine

1) Main functions of the equipment

The equipment layout of the pre-tack welding machine is shown in Figure 36.

The pre-tack welding machine is used for pre-tack welding of prismatic can and cover plates. The main functions of the equipment include: automatic battery cell loading and code scanning, press-fitting, equal height detection, laser welding, battery unloading, information binding and uploading (MES), etc.

' Main technical parameters of the equipment .

• The overall dimensions of the equipment are: mm×mm×mm.
• Equipment yield: '99.8% (refers only to defects caused by equipment reasons).
• Equipment utilization rate: '99% (refers only to failures caused by equipment reasons).
• Hi-pot test: test time 0.5~5s, time adjustable from 1 to 100s, brand is HIOKI, accuracy ±5%; test voltage between positive and negative poles (DC) 100V, range (DC) 0~500V, 50V grade.
• Positioning deviation: 0.5mm.
• Mechanism operation repeatability accuracy: deviation '±0.05mm.

'   Its process flow chart (Figure 37).

2) Key structures

From the equipment layout diagram of the pre-tack welding machine in Figure 36, it can be seen that the cell shaping pre-pressing mechanism, step and short-circuit test module, clamping mechanism and pre-welding mechanism, cover closing and pressing mechanism, etc. are relatively critical and play a vital role in the entire assembled semi-finished product. Several of these mechanisms are selected for detailed introduction and description.

'   Battery cell shaping and pre-stressing mechanism (2 sets, Figure 38).

• Function: To shape and press-fit the top cover of the battery cell after it is put into the can.
• Main components: positioning components, lifting and pre-pressing components, etc.
• Requirements: The upper limit of pressure can be preset, and the alarm stops when it exceeds the limit to prevent damage to the battery cell and the shell; the pressure adjustment range is 200~N; the top cover is not damaged or dropped after press-fitting, and there are no flanges, burrs or scratches around the can opening; the modular design of press-fitting makes the replacement simple and convenient.

' Cover closing and pressing mechanism (Figure 39).

Specific action flow of the cover closing and pressing mechanism :

• Clamping cylinder action: clamp the battery cell, and at the same time the lifting cylinder lifts the battery cell to the assembly position.
• Centering cylinder action: clamp the battery cell, center it, and release the clamping cylinder at the same time.
• Pushing cylinder action: clamp the can and cover plate in the press-fitting die, and keep the step within 0.20mm; the inner dimension of the die is a positive tolerance with high finish, so that the can and cover plate can slide smoothly inside.
• Suction cup assembly action: suck the can and pull it outward to prevent the can from being concave.
• Pressing cylinder action: The cover is pressed into the can through the guidance of the press-fitting die. A mechanical limiter is provided to prevent the cover from being over-pressed.
• Each cylinder has an adjustable stroke, and key parts are equipped with hydraulic buffer and fine-tuning limit.

' Pre-welding mechanism (Figure 40).

The pre-welding mechanism is mainly composed of a motion system and pre-welding tooling.

• Function: laser focusing, defocus measurement , welding shielding gas blowing, motion mechanism dragging the laser head to scan the welding track.
• Main components: The X and Y axes of the moving mechanism use servo motors, laser welding machines, etc.; the step detection sensor uses a 2D profiler, the step detection accuracy is ±0.02mm, and the step is less than 0.2mm.

2.7 Top cover laser welding machine

1) Main functions of the equipment

Figure 41 shows the layout of the top cover laser welding machine. This equipment mainly performs laser welding of the top cover of the battery cell after pre-welding into the can, Hi-pot detection, etc. The main functions include automatic loading and unloading of battery cells by scanning barcodes, automatic placement of protective cover plates, clamping and positioning, laser sealing welding, Hi-pot detection, NG buffering, process transmission, etc.

' Main technical parameters of the equipment .

The overall dimensions of the equipment are: mm×mm×mm.

The first-time yield rate of the equipment is '98.5%, the second-time yield rate is '99.5% (excluding defective incoming materials), and the utilization rate is '98%.

Welding speed '150mm/s, CMK '1.33.

Laser welding pressure strength>10kgf,CMK'1.33.

Laser welding machine output power and fixture pressure control accuracy: set value ±5%, CMK'1.33.

Welding quality (welding positioning accuracy ±0.1mm, weld width deviation '±0.1mm) consistency CMK'1.33.

Cavity that contacts the product during the laser welding process is higher than the Class 100,000 requirement.

The equipment functions can meet the requirements of organization and communication and docking with the previous and next process equipment.

'   Top cover laser welding machine equipment process flow (Figure 42).

2) Key structures

From the equipment layout diagram of the top cover laser welding machine in Figure 41, it can be seen that the feeding mechanism, upper positioning assembly, protective cover feeding assembly, NG buffer, mobile detection assembly, CCD detection assembly, NG handling assembly, unloading assembly, welding head assembly, etc. are relatively critical and play a vital role in the entire assembled semi-finished product. Several of these mechanisms are selected for detailed introduction and description.

'   Loading mechanism of top cover laser welding machine (Figure 43).

• The loading mechanism includes a loading bracket, an X- axis module , a Z -axis module , a clamping mechanism , etc. The loading clamp grabs the battery cells on the incoming material logistics line , grabs two battery cells at a time, and puts them on the welding fixture. There are 4 sets of welding fixtures, and two battery cells are placed each time, and the battery cells are discharged in two times.
• The manipulator lifting mechanism has flexible protection. If it encounters resistance before reaching the set position during descent, it will immediately rise up and issue an audible and visual alarm.
• The manipulator has a power-off and air-off protection function. When the manipulator is holding a battery cell , the battery cell will not fall off for at least 30 minutes .
• Position and clamp the battery cell so that it is accurately and reliably positioned during welding. The clamp block is made of high temperature resistant material, with welding positioning accuracy of ±0.1mm and weld width deviation '±0.1mm.
• The height direction positioning of the battery cell takes the upper surface of the top cover as the positioning reference. After the battery cell is positioned and clamped, the height of the upper surface of the battery cell top cover exceeds the upper surface of the clamp block by 1.5 to 2 mm (determined by the customer), the upper surface horizontality error is '0.1 mm, and the height direction repeatability error is '0.05 mm.
• During the positioning and clamping process of the battery cell, the clamp block does not produce sliding friction with the battery cell. A follow-up device is used to avoid clamping or scratching the battery cell . After the battery cell is positioned and clamped, the gap between the clamp block and the battery cell is '0.05mm (standard block).
• The pressure of the battery cell positioning and clamping cylinder is adjustable, and the pressure fluctuation is less than 0.05MPa.

' Upper positioning assembly (Figure 44).

The specific action flow is as follows:

• The battery fixture moves to the upper positioning position via the A/B linear motor.
• Control the solenoid valve of the battery fixture long and short side positioning cylinder to switch to the middle drain position.
• The upper positioning moving cylinder drives the upper positioning pressing plate to press down to position the battery cell.
• After the upper positioning is completed, the long and short side solenoid valves are switched to normal pressure, and the upper positioning cylinder moves upward.

'   Protective cover loading assembly (Figure 45).

The specific action flow is as follows:

• After the upper positioning is completed, the battery cell moves to the upper protective cover position for the protective cover loading.
• After welding is completed, go to the unloading position and unload the protective cover and battery cell.

Note: The protective cover can be replaced without stopping the machine; the protective cover protects the pole and prevents welding spatter from contaminating the pole, QR code, explosion-proof membrane, and injection hole.

'   CCD detection component (Figure 46).

After welding, the battery cell is moved to the mobile detection assembly by the robot module. The mobile detection assembly is equipped with two sets of grippers, which are divided into three positions, namely the loading position, the detection position, and the unloading position. The CCD detection assembly is equipped with a camera to detect whether there are pits, sand holes, explosion points, broken welds, pores, leaks and other defects in the weld after welding (Figure 47).

2.8 Positive pressure helium detector

1) Main functions of the equipment

Figure 48 is a layout diagram of the positive pressure helium inspection equipment , which is mainly used for the sealing test of the prismatic battery cell top cover after laser welding. The vacuum method is used to detect the sealing state of the battery cell top cover after welding. The working process is: the battery cell to be tested after the top cover is laser welded is sent into the machine through the feed pull belt and the top cover QR code is read. The battery cell to be tested is placed in the inspection chamber by the material dividing robot, and the battery cell is evacuated. After the negative pressure value is set, the external vacuum source is turned off, and the air tightness inside the battery is tested with an air tightness tester. This device can be used to determine whether the inspected workpiece is qualified.

The system is designed and manufactured strictly in accordance with the requirements of the customers, adopts a modular design, fully considers the purchaser's leakage detection requirements, and also uses standardized modules and components as much as possible to ensure the reliability and maintainability of the system and meet the technical indicators specified by the manufacturer.

The basic indicators of the equipment are as follows:

Equipment yield: '99.8% (excluding defective incoming materials).

Equipment utilization rate: '99%; false detection rate: '0.3%.

Helium detection standard : '9.9×10-7Pa·m3/s.

The equipment process flow is shown in Figure 49.

2) Key structures

This equipment is composed of the following devices: workpiece inlet/outlet manipulator device, box slide, vacuum/helium filling device, vacuum box leak detection device, helium filling and removal device, and electrical control device. As can be seen from the layout diagram of the positive pressure helium inspection equipment in Figure 48 , the workpiece inlet/outlet manipulator device, vacuum/helium filling device, etc. are relatively key and play a vital role in the entire assembled semi-finished product. Several of these mechanisms are selected for detailed introduction and explanation.

' Inspection turntable . The main function of the inspection turntable is to load and unload battery cells while inspecting them, maximizing the efficiency of the airtightness tester. This module is mainly composed of a turntable, a cam divider and an inspection fixture, as shown in Figure 50.

'   Vacuuming mechanism (Figure 51). The vacuuming and helium filling part is mainly composed of a vacuum pump, a solenoid valve, a pressure sensor and a pipeline. It can evacuate and fill the workpiece with helium within the set time.

• Helium filling pressure (absolute pressure) is 0.05'0.15MPa, which can be adjusted within this range.
• The system has the functions of helium pressure and concentration monitoring and automatic helium replenishment. When the system detects that the helium concentration or pressure is lower than the set value, it will automatically open the valve to replenish high-purity helium.
• Recovery system: vacuum pump brand, Leybold ; quantity, 1 vacuum pump, SV16B; 1 recovery pump (dry pump), Leybold .
• Helium concentration meter: The concentration standard can be set.
• The recovery rate of the recovery system is greater than 80%.
• The automatic helium cleaning function is intact and can quickly and effectively eliminate the residual helium in the box and on the pipeline. The leak detection accuracy and repeatability are reliable. Party B provides a standard leak hole.

Equipment selection and application cases

A customer has the following requirements for the size of the battery cell.

'   The customer provides technical information . The equipment model plan is shown in Figure 52, and its code and size are shown in Table 1.

Table 1 Model code and size

'Device compatible product dimensions (Table 2).

Table 2 Device compatible product dimensions

According to customer needs, the specifications of battery cells can be clamped by adjusting the shared gripper. If necessary, the production of battery cells of different specifications can be achieved by replacing necessary pads (such as jigs, fixtures, pallets). The range of variation of battery cell size specifications shall not exceed the maximum size range of this equipment .

This automatic production line is used to realize the automatic assembly of prismatic lithium- ion power battery cells after winding. The production line is mainly composed of the following parts: heat pressing, ultrasonic welding machine, adapter laser welding machine, mylar wrapping machine, cell to can machine, pre-tack welding machine, top cover laser welding machine and logistics conveyor lines between various equipment .

What is the future of the prismatic lithium battery market?

Prismatic lithium batteries are recognized for their efficiency, compact form factor, and enhanced safety features. They find extensive applications in various industries, including consumer electronics, electric vehicles, renewable energy storage systems, and portable electronic devices. The increasing adoption of electric vehicles worldwide creates a substantial market for prismatic lithium batteries, as they offer a reliable and high-performance energy storage solution for electric mobility. Opportunities within the Prismatic Lithium Battery Market are abundant, fueled by advancements in technology and the expanding scope of applications. 

What are the components of a prismatic lithium battery pack?

The main materials of the prismatic lithium battery pack include prismatic battery cells, battery management system, steel strip/plastic steel strip, busbar, positive, negative, etc.

What are the applications of prismatic lithium battery packs?

Prismatic Lithium-ion batteries (square aluminum-cased lithium-ion batteries) have the advantages of high energy density, light weight, and long cycle life, and are widely used in a variety of fields, such as: Electric Vehicles (EVs) and Hybrid Electric Vehicles (HEVs), Energy Storage Systems (ESS), Standby Power Supply (UPS), Electric Bicycle and Electric Motorcycle, Power tools, Aerospace and Military, Marine Applications, Medical Equipment, Robotics and automation equipment, Communication base stations and Ocean exploration equipment etc.

What equipment do you need to assemble a prismatic lithium battery pack?
The main equipment of prismatic battery pack assembly line include battery capacity grading machine, battery OCV&ACIR sorting machine, battery stacking and pressing machine, laser cleaning machine, laser welding machine, BMS tester, battery comprehensive tester, battery pack aging machine.

Option 1'' Semi-automatic prismatic lithium battery pack assembly line

Option 2'' Full-automatic prismatic lithium battery pack assembly line

What is the assembly process of prismatic lithium battery pack?

Step 1''Prismatic Cell Capacity Grading

1) Product Description

Prismatic cell capacity grading machine is used to test the capacity of prismatic batteries through cyclic charging and discharging tests to achieve the consistency of prismatic battery cells.

2) Working Principle and Features

The capacity sorting of Li-ion battery is screened by the cell capacity grading cabinet, the function of the cell capacity grading cabinet is similar to the charger, except that it can charge and discharge a large number of batteries at the same time.

Lithium batteries are managed by computer to get the data of each testing point, so as to analyze the size of these batteries' capacity and internal resistance and other data to determine the quality level of the batteries, and this process is capacity sorting.

• Each channel can be started and stopped at a single point, and the response speed is fast
• The operation is simple, convenient and intuitive
• Modular design, easy to maintain
• The digital current and voltage automatic calibration function
• Using network connection and SQL database
• The hardware technology is advanced, stable and durable

3) Product Model

Step 2''Prismatic Cell OCV&ACIR Sorting

1) Product Description

Battery sorting machine is used in the prismatic lithium battery pack assembly line to test the open-circuit voltage and AC internal resistance of general prismatic lithium battery.

2) Working Principle and Features

Manually place the battery into the belt'The battery flows into the scanning position for code scanning'The battery flows into the test position for testing'The receiving mechanism accesses the corresponding channel for battery sorting.

• With the integration of industrial control, all parameters of the battery can be traced, convenient data management, simple operation. Battery voltage, battery internal resistance, group information and other management functions.
• Suitable for various types of batteries, easy to change.
• Built-in high precision internal resistance tester, high test accuracy, fast speed.

3) Product Model

Step 3''Prismatic Cell Stacking And Pressing

1) Product Description

Prismatic battery stacking and pressing machine is used to stack and shape prismatic lithium batteries and tie them with steel or plastic steel straps, making it convenient for battery assembly into the box.

2) Working Principle and Features

Prismatic battery stacking and pressing machine adopts servo motor+screw module+planetary reducer for stacking and extruding, controlled by pressure controller, the extrusion stacking thrust reaches more than 500KG(can be customized) and easy to operate.

• 7-inch touch screen with PLC for control, easy to operate. 
• Adapt to various size of batteries, can be edited and set different parameters, simple and easy to change the type. 
• Built-in high-precision pressure sensor, pressure accuracy control within 0.1KG. 
• Adopting screw module + servo motor + reducer for control, with large extrusion output force and high positioning accuracy.

3) Product Model

Step 4''Prismatic Battery Terminal Laser Cleaning

1) Product Description

Laser cleaning machine is used in the assembly of prismatic lithium-ion battery packs to clean terminals, busbars, connectors, battery modules, housing surfaces, and BMS contact points, remove oxides, dust, and debris, to ensure strong and reliable electrical connections and appropriate thermal management.

2) Working Principle and Features

Fiber laser cleaning machines utilize high-energy laser pulses delivered through a fiber optic cable to remove contaminants, coatings, and impurities from surfaces. 

• Cleanliness level '
• No corrosive gas, liquid or explosive gas on site
• The filter adopts spark-proof design, and the filter material is flame retardant.

3) Product Model

Step 5''Prismatic Battery Pack Laser Welding

1) Product Description

Laser welding machine for lithium ion batteries is mainly used in the assembly process of prismatic and pouch cell lithium-ion battery packs to weld the busbars to the battery cells, and assemble the battery cells into a complete battery pack through series and parallel connections to achieve efficient power distribution and connection within the battery pack.

2) Working Principle and Features

lithium battery laser welding machine uses a high-intensity laser beam to precisely and rapidly weld components of lithium battery packs, ensuring strong, reliable, and high-quality connections with minimal heat-affected zones.

• The photoelectric conversion efficiency can reach 40%, and the power consumption is low.
• Continuous pure fiber laser, which can penetrate 0.5-5.8mm materials for direct welding.
• Precise servo system control to ensure welding accuracy.

3) Product Model

Step 6''Battery Management System Testing

1) Product Description

BMS tester is used in the safety test of lithium battery protection board, to detect whether the functional indicators of the protection board are within the reasonable parameters.

2) Working Principle and Features

BMS tester uses capacitance to simulate battery charge and discharge, and conducts overcharge test, overcharge recovery test, overdischarge test, overdischarge protection recovery test, standby power consumption test, overcurrent test, etc. for the protection board.

• The number of series is optional from 1-52
• Various protection and recovery function tests
• Can choose the number of sections to be tested according to your own needs
• Test results can be automatically saved

3) Product Model

Step 7''Prismatic Battery Pack Comprehensive Testing

1) Product Description

Battery comprehensive tester is suitable for all lithium-ion battery packs with CH+P+CH - P - ports to test various comprehensive performance parameters of the battery pack. The main test items include: open circuit voltage, AC internal resistance, discharge test, discharge over current test, short circuit protection test, charge test and charge protection test. The main test items are test open circuit voltage, AC internal resistance continuous charging current, continuous charging voltage, continuous discharging current, continuous discharging voltage, charging overcurrent protection current, discharging overcurrent protection current, short-circuit protection time, overcurrent delay time, and post-test voltage etc.

2) Working Principle and Features

The battery comprehensive tester is to apply a load to the battery or apply a small AC current to measure the open circuit voltage, AC internal resistance, discharge test, discharge overcurrent test, short circuit protection test, charge test and charge protection test and other parameters to quickly screen and judge the performance of the battery and good or bad, by setting the upper and lower limits of the measurement parameters, it is easy to quickly detect the bad battery from a batch of finished batteries.

3) Product Model

Step 8-Prismatic Battery Pack Aging Testing

1) Product Description

The battery pack life cycle tester is used to test the capacity, cycle life, charging/discharging characteristics and temperature characteristics, etc of lithium ternary, lithium iron phosphate, lead-acid, nickel-metal hydride, nickel-cadmium and other battery packs.

2) Working Principle and Features

Battery pack life cycle tester system mainly includes PC software, USB hub, router, aging instrument. The core lies in the aging instrument, the main control chip of the aging instrument is 32-bit ARM chip, which is much faster than the traditional microcontroller in execution and has higher accuracy in measuring voltage and current. The device has four test steps: charging, discharging, shelving, and cycling. By editing the corresponding steps, the battery can be tested in accordance with the set process.

If you are looking for more details, kindly visit Prismatic Battery PACK Assembly Production Line.

• In the network mode, it is connected automatically, without manual connection.
• Use MYSQL database to save data to ensure that data will not be lost, and provide measurement data review function.
• Multiple instruments can use the network to communicate with PC software, which reduces the computer interface. Only one network port is needed to control all instruments, ensuring the real-time and complete communication data.
• The instrument number is displayed through LED lights, and the position of the corresponding instrument can be queried intuitively. The number can be modified by software, which reflects the flexibility of the instrument.
• In addition to the P+ and P- interfaces, the instrument also provides CH+ and CH-, which can test special finished batteries and charge and discharge them on one instrument.
• The battery can be charged as long as the battery is in the test range, avoiding the problem that the charger can only charge a specific type of battery.