| Production Scope: | Product Line |
|---|---|
| Production continuity: | Continuous |
| Condition: | New |
| Automation: | Semi-automatic |
| After-sales Service: | 1 year |
| Transmission Type: | Flexible |
| Customization: |
|---|
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Audited Supplier 
Product Introduction
This customized production line is mainly used to complete the assembly, inspection, assembly, and welding functions of the prismatic cell energy storage battery pack module. This semi-automatic line includes automatic up and down reflux of empty trays and manual feeding, Cell scanning and automatic sorting/manual stacking/automatic squeezing and bundling/manual scanning and grouping/automatic polarity detection/automatic pole cleaning/manual placement of busbars/automatic busbar welding/manual visual inspection of welding machine effect/total pressure internal resistance testing/lifting and offline assembly/automatic welding of wire harnesses/BMS scanning and binding/comprehensive testing/lifting and offline assembly.
The product is manually picked up and placed in the loading position, transported by the conveyor belt to a fixed position, scanned first, and then tested. After the test is completed, OK and NG cell products are distinguished according to the test results. OK products are automatically moved to the corresponding channel, and NG flows back to the loading station. After completion, they are transported to the manual stacking position, where the PACK module is manually assembled and stacked; Then transfer to the extrusion station through the automatic double speed chain, complete the automatic extrusion, and at the same time, tie the plastic steel strip at that station. The double speed chain belt is manually bound to the battery cells at the next station, generating battery modules and labels; The next station will automatically perform positive and negative CCD visual inspection, automatically detecting whether there is an error in the arrangement and grouping. When an error in the polarity of the grouping is detected, the station will automatically alarm and rule out any defective cars; The OK product will automatically flow to the next station, and the Pack module's positive and negative poles will be cleaned by an automatic laser cleaning machine. After the laser cleaning is completed, it will flow to the next station; Manually place the busbar, follow the start flow to the next station, and automatically complete the busbar laser welding; The next station will automatically test the total internal pressure and total internal resistance. When NG occurs, the machine will alarm, manually handle the alarm, eliminate the NG, and confirm. The Pack module will be manually lifted to the PACK assembly line, and the empty tray will automatically return to the starting point; Manually place the wiring harness at the next station, follow the starting flow to the next station, and automatically complete the wiring harness welding; The next step is to organize the wiring harness and BMS welding, scan the code and bind it to the module, form the product code and print it, and manually attach it; Press the start button to flow to the next workstation and automatically complete the comprehensive testing of semi-finished products. When NG occurs, the machine will alarm, manually handle the alarm, eliminate the NG, and confirm. The OK product will be manually lifted off the production line, and the empty tray will automatically return to the starting position.
Introduction to process flow
Manual feeding--Cell OCV sorting----(NG discharge)--Manual adhesive stacking--Automatic extrusion--Manual scanning and binding--Polarity detection--Pole cleaning--(NG discharge)--Manual placement of busbars--Laser Welding--Manual Visual Inspection--(NG discharge)--Total internal pressure and internal resistance test----(NG discharge)--Manual lifting and line replacement--Manual placement of wiring harnesses--Wire harness welding--Manual installation of BMS--Manual scanning and binding--EOL testing--Manual lifting offline
General equipment configuration and standards:
1. Scope of battery cell adaptation: A battery pack with an external size of 920mm * 500mm
2. Environmental conditions:
Air source pressure: 0.5~0.6 Mpa
Power supply voltage: 380V, 50Hz
Total power: ≤ 40KW
Area bearing capacity: ≥ 400kg/m²
Environmental requirements: temperature between 10 and 40 ºC; Humidity 30-70%
Humidity: 20% -90%
3. Production line efficiency: The daily production capacity (10H/day) meets 240 sets (Pack module configuration method: 8PCS/set, that is 1920 cells/10H/day)
4. Equipment utilization rate:>95%
5. Product qualification rate:>99%
6. Meet safety production requirements, including product safety and battery safety;
7. Carrier size: 1000mm × 600mm
8. Line body: 37500mm (length) × 4000mm (width) × 2200 (height) mm (based on actual design) assembly line to ground height: 750mm ± 50mm
Introduction to the functions of loading and OCV sorting station equipment
The equipment is suitable for the sorting and grouping of incoming materials for square aluminum shell batteries. The voltage internal resistance of the product is tested through a testing instrument, and the upper and lower limits of the voltage internal resistance can be set on the human-machine interface.
The product is manually picked up and placed in the feeding position, and the equipment belt flows to the testing area. The battery code is first read by a high-speed code reader, and then automatically tested in sequence. After the test is completed, OK and NG products are automatically distinguished based on the test results. The test data is automatically saved locally and can be connected and exported; OK battery cells flow towards the corresponding channel, and then pack stacking is manually completed; Testing NG products will flow to the defective product buffer tank. When the defective buffer tank is stacked to a certain set quantity, the buzzer will sound an alarm and personnel will take out the defective products, making it convenient for personnel to operate.
Functional Advantages
1. The defective product cache slot is divided into AB slots. When one slot accumulates to the upper limit, the equipment will automatically alarm and personnel will take away the defective product from the cache;
2. The test parameter condition values can be set independently on the human-machine interface;
3. The probe adopts a nickel plated probe assembly and is tested using the four wire method. The probe is cylindrical with a sharp angle at the bottom, which can adapt well to ensure contact. The nickel plating process of the probe greatly reduces impedance and improves testing accuracy;
4. The testing position and stroke are adjustable, suitable for customers with certain external dimensions of battery cells;
5. The device is equipped with a data system that can save test data locally, and has the ability to interact with data. The test results can be connected to backend devices through media such as Ethernet cables or USB drives;
6. If multiple readings of the code are invalid before the battery cell test, it shall be manually confirmed and eliminated;
7. The appearance of the equipment on this site adopts a combination of lower sheet metal and upper profiles. The equipment is equipped with alarm lights and buzzers;
8. The equipment operation control system is developed by our company, which reserves data transmission ports for customers to perform data transmission and export analysis. The export format is in txt format or Excel format;
| 1 | Number of equipment sorting stages | 3+1 Channels(OK and NG)/ 4+1 Channels(OK and NG) |
| 2 |
Internal resistance detection accuracy | Range 0-60 mΩ; Accuracy ± 0.5% rdg; |
| 3 |
Voltage measurement accuracy | Resolution 0.1mΩ |
| 4 | Station single machine failure rate | Range 0-60V; Basic accuracy ± 0.015% rdg; |
| 5 | Product qualification rate | Resolution 0.1mV |
| 6 | Equipment production capacity speed | ≤ 2% (faults caused solely by equipment) |
| 7 | Suitable for battery models | ≥ 99.5% (excluding defective incoming materials) |
| 8 | Equipment production capacity speed | 10-12PPM |
| 9 | Suitable for battery models | Prismatic cell(Width range: 168-200/height range: 204-230/thickness range: 70-90) |
Introduction to manual scanning and binding station equipment
This workstation is operated manually, mainly to scan and upload the battery cells composed of Pack modules in sequence, and generate the Pack module code barcode. At the same time, the label printer prints the Pack module barcode, and the barcode label is manually attached.
Functional Advantages
1. After the load module reaches its position, it is blocked by the blocking cylinder and stops moving forward;
2. Manually scan all battery cells of the current PACK module one by one using a barcode scanner, and the scanned data is automatically uploaded to the local system. After the scanning is completed, the system generates the PACK module code;
3. The barcode printer automatically prints out the barcode and manually posts it in a fixed position on the Pack module;
4. The scanning and binding system and barcode generation system are developed by our company. The system reserves a data transmission port for customers to perform data transmission and export analysis. The export format is in txt or Excel format;
5. Maximum printing size for a single label: 104mm in length and 200mm in width, capable of printing QR codes and barcodes;
6. Wall mounted display, with personnel standing to operate the operation;Introduction to cell Polarity detection station
This workstation mainly detects whether the positive and negative polarity of the Pack module battery cell arrangement is correct. The CCD camera XY moves to take photos and compare them automatically. When an error in polarity arrangement is detected, the equipment alarm is manually confirmed and discharged. If there is no abnormality, it flows to the next workstation.
Functional Advantages
1. After the load module reaches its position, it is blocked by a blocking cylinder and stops moving forward. The lifting mechanism lifts the moving carrier plate to ensure that the Pack module is stable and effectively detected during camera photography;
2. The CCD camera automatically moves to the detection target position and sequentially takes photos to compare and detect the arranged module battery cells;
3. The effective detection range of CCD at this station is: the maximum size range of Pack module is 800mm * 550mm;
4. The appearance of the equipment on this site adopts a combination of lower sheet metal and upper profiles, and the equipment is equipped with alarm lights and buzzers;
| 1 | Effective detection size range | 800mm * 550mm |
| 2 | Camera shooting speed | Around 200ms |
| 3 | CCD detection method | Feature point difference detection |
| 4 | Camera movement axis | XY axis |
| 5 | The camera installation height and focal length can be adjusted, suitable for different height and size battery cell modules | |
Introduction to cell poles laser cleaning station
This workstation mainly uses pulse laser to clean each pole of the Pack module one by one, and the cleaning path is completed through XY movement. The smoke and dust generated from cleaning are treated by a purification and recovery system, and the equipment operation is simple. The cleaning effect is manually visually inspected and confirmed.
Functional Advantages
1. After the load module reaches its position, it is blocked by a blocking cylinder and stops moving forward. The lifting mechanism lifts the moving load plate to ensure that the pole of the Pack module is stable and effective during the cleaning process;
2. Clean the laser in parallel and automatically clean all poles of the module within the range one by one;
3. After cleaning is completed, the lifting cylinder descends/blocks the cylinder from returning to its original position, and the module carrier board falls back to the double speed chain and flows to the next workstation;
4. The height of the laser can be set as a parameter value through the human-machine interface;
5. Cleaning scope: Clean pole dirt, oil stains, oxide layer, electrolyte, etc;
6. Using laser cleaning method, cleaning depth: 1-3 μ M;
7. Do not damage or damage the surface of the battery cell pole;
8. Cleaning speed: < 6s/cell (2 poles);
9. The smoke and dust purifier is anti-static and explosion-proof, and the filter adopts a fireproof flower design. The filter material is flame retardant;
10. The appearance of the equipment on this site adopts a combination of lower sheet metal and upper profiles. The sheet metal color scheme is provided according to customer requirements, and the customer logo is screen printed on the outer surface of the sheet metal. The equipment is equipped with alarm lights and buzzers;
Machine body |
Scope of structural work | 1000 length × Width 500 × Height of 300MM | TMAX Automation self-made |
| Machine tool cover | Lower precision sheet metal upper profile | TMAX Automation self-made | |
| Optical maser |
100W | wavelength F=160 | Ruike (one set) |
| Serial port connection cable | RS232 interface | ||
| Scanning galvanometer | Main structure | High speed and high precision digital galvanometer | |
| Transmission motor | servo motor | standard | Xinjie |
| Control unit | PLC | standard | Xinjie |
| Purifier | Laser smoke and dust purifier | XL-300 | Jingyanjing |
| Software | / | / | TMAX |
| IPC |
Industrial control grade computer | 4G memory Intel core CPU3.2G/64G solid-state drive | Industrial grade |
| monitor | DELL19 inch industrial display | Dell |
| Device Name | Module welding station |
| Power supply voltage (V) | 380 ± 10% V AC 50/60Hz |
| Power supply capacity (kW) | 10 |
| Placement environment | Smooth, vibration free and impact free |
| Gas supply demand | Compressed air: pressure ≥ 0.6Mpa, gas consumption: 30 L/min; |
| Ground bearing requirements | Nitrogen: ≥ 0.4Mpa, gas consumption of 15 L/min (optional according to the process) |
| Environmental requirements | ≥ 400kg/m² |
| Qualification rate | Temperature 10-40 ºC; Humidity 30-70% |
| noise | ≥ 99% (excluding incoming defects) |
| capacity | ≤ 75dB (measured at a distance of 1m from the machine) |
| Machine model | TMAX-DLY3000 |
| source | 220V ~/50HZ |
| Nominal cooling capacity | 7.3KW |
| Maximum operating current | 23.5A |
| Maximum operating power | 5.17KW |
| discharge | >33L/min |
| Water control range | 8ºC~30ºC |
| Water tank capacity | 38L |
| Refrigerant/Charge Quantity | R410A / 1.2KG |
| Operating ambient temperature | 10ºC~40ºC |
| Average output power | 3000W |
| Center wavelength | 1080 ± 10nm |
| Operation module | Continuous/Modulation |
| Maximum modulation frequency | 5KHz |
| Output power stability | <1% |
| Red light | yes |
| Output connector | QBH |
| Output fiber length | 10M |
| Input power supply | 380V |
| control model | RS232/ADRS232/AD |
| Power adjustable range | (10-100)% |
| Power consumption | 3000W (subject to actual customer usage) |
| weight | <360KG |
| Cooling method | water-cooling |
| Working temperature ºC | 10 ºC -40 ºC |
Introduction to total internal pressure and internal resistance test
The equipment on this site mainly tests the total pressure and internal resistance value of Pack modules that have been welded to Busbars using a daily tester, and sets its testing parameter range to determine whether they are qualified or unqualified.
Functional Advantages
1. After the load module reaches its position, it is blocked by a blocking cylinder and stops moving forward. The lifting mechanism lifts the moving load plate to ensure that the pole of the Pack module is stable and effective during the cleaning process;
After the module stabilizes, the test probe descends to the testing position for automatic testing;
3. If the total internal pressure and total internal resistance test results are within the range of test parameters, it is considered qualified and will continue to flow into the next station. If the test parameters are not met, it is considered uncooperative. The equipment alarm will be manually confirmed and discharged;
4. Adjust the position and height of the test probe by manually moving it;
5. The test parameter condition values can be set independently on the human-machine interface;
6. Can meet the testing requirements for dimensions of 850 * 600 * 80-400;
7. The probe adopts a nickel plated probe assembly and is tested using the four wire method. The probe is cylindrical with a sharp angle at the bottom, which can adapt well to ensure contact. The nickel plating process of the probe greatly reduces impedance and improves testing accuracy;
8. Daily tester production range: within 0-100V;
9. The workstation is controlled by PLC, and the testing status is only used to determine whether it is qualified or unqualified, without data transmission and record storage functions;
10. The appearance of the equipment on this site adopts a combination of lower sheet metal and upper profiles, and the equipment is equipped with alarm lights and buzzers;
Introduction to EOL testing station
| Product model | Battery comprehensive tester TMAX-YLD100-200-400 |
| Purpose | Used for testing semi-finished and finished products of battery packs below 100V |
| Basic function |
Open circuit voltage test |
| AC internal resistance test | |
| ID resistance test | |
| NTC Resistance Test | |
| Charging performance testing | Battery PACK continuous charging function to verify if charging is normal |
| Battery PACK charging overcurrent protection function test | |
| Discharge performance testing | Continuous load capacity of battery PACK, continuous discharge check voltage drop |
| Battery PACK discharge overcurrent protection function test | |
| Short circuit Protection Test | Test battery positive and negative pole short circuit battery cut-off protection time (microsecond level) |
| Equipment protection function | Software protection function: power-off data protection |
| Hardware protection: power failure protection, short circuit protection, battery reverse connection, and wrong connection protection |
| Testing class | Test items | Measuring range | Resolution ratio |
| Open circuit voltage | Open circuit voltage 1 | 10-100V | 2mV |
| Open circuit voltage 2 | 10-1ooV | 2mV | |
| Internal impedance | AC internal resistance test | 0-1000mΩ | 1mΩ |
| Discharge test | Starting voltage | 0-150V | 2mV |
| End voltage | 0-150V | 2mV | |
| discharge current | 0.1-200A | 1mA | |
| Discharge time | 0-60S | 1mS | |
| Discharge overcurrent test | Overdischarge current | 10-400A | 1mA |
| overcurrent delay | 0-30S | 1mS | |
| Short circuit protection | Short circuit protection delay | 0-9999uS | 1uS |
| Charging test | Starting voltage | 10-100V | 2mV |
| Charging protection test | End voltage | 10-150V | 2mV |
| Charging current | 0.1A-200A | 1mA | |
| Charging time | 0-60S | 1mS | |
| Charging overcurrent | 4-200A | 1mA | |
| Resistance R1/R2 | Charging delay | 0-20S | 0.1mS |
| NTC,ID | 0-1000KΩ | ±0.1KΩ | |
| Sustainable output power | 30KW | ||
| Sustainable load power | 60KW | ||
| Online mode | Serial communication (RS232, can be used by multiple online devices) | ||
| test data | Generate a data table and automatically save it, which can be exported to Excel | ||
| Barcode management | Support barcode startup and binding of test data | ||
| Free software upgrade service | Lifetime free upgrade until hardware incompatibility occurs | ||
| Heat dissipation | Relying on ventilation system and forced air cooling | ||
Introduction to Offline hoisting
The main purpose of this site is to transfer battery modules to the assembly line and complete them through sliding rail movement. Lifting capacity of 150KG. When the battery pack is relatively heavy, it can be considered for use. It is used for battery pack transfer (after total internal pressure and resistance testing) or finished product production (after EOL testing).
Main Component brands List
| SN | Standard part category | Description of function and brand restrictions | Origion |
| 1 | Machine rack | Aluminum profile + sheet metal surface paint treatment | China |
| 2 | Processed parts | The surface of the aluminum parts is sandblasted and oxidized, and the iron parts are electroplated | China |
| 3 | man-machine | verenton | |
| 4 | PLC | Panasonic/Principal | Japan/China |
| 5 | Dispaly | Lenovo | |
| 6 | Industrial Computer | Advantech | |
| 10 | Power supply | Omron/Mingwei | |
| 11 | Sensor | Panasonic, Omron, AirTAC | Japan and Taiwan |
| 12 | Electric control accessories | Chint | |
| 13 | Contactor | Chint | |
| 14 | Button | ||
| 15 | Ordinary motor | Taijing | |
| 16 | stepper motor | Yingshida | |
| 17 | servo motor | Principal/Panasonic | |
| 18 | I/O board | Lei Sai | |
| 19 | cylinder, solenoid valve | AirTAC | Taiwan |
| 20 | bearing or linear bearing | NSK,FAG | Japan |
| 21 | guide rail | HIWIN,TBI | Taiwan |
| 22 | Structural standard parts | Yiheda |
Suppliers with verified business licenses
Audited Supplier 
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