Explosion-proof battery acupuncture testing machine sales manufacturers battery acupuncture testing chamber production price
The battery acupuncture testing machine is suitable for battery testing institutions, scientific research institutes, battery cells, battery modules, and battery pack manufacturers of various types of power battery cells and module batteries. During use, transportation and storage, the battery is subjected to sharp objects. situation; artificially present the different conditions that the battery may appear when it is squeezed and punctured by a strong external force, which is used to evaluate the battery
The safety performance of the battery; the battery acupuncture testing machine can ensure personal safety and will not cause harm to the test environment in the event of a battery fire or explosion during the test.
Executive standard
QC/T 741-2014 Supercapacitors for Vehicles
QC/T 742-2006 Lead-acid batteries for electric vehicles
QC/T 743-2006 Lithium-ion batteries for electric vehicles
Qc/T 744-2006 Nickel Metal Hydride Batteries for Electric Vehicles
GBT 18333.2-2015 Zinc Air Batteries for Electric Vehicles
GB/31484 Cycle Life Requirements and Test Methods of Power Batteries for Electric Vehicles
GB/T 31485 Safety Requirements and Test Methods for Power Batteries for Electric Vehicles
GB/T 31486 Electrical performance requirements and test methods of traction batteries for electric vehicles
GB/T 31467.1 Lithium-ion power battery packs and systems for electric vehicles Part 1: Test procedures for high-power applications
GB/T 31467.2 Lithium-ion power battery packs and systems for electric vehicles – Part 2: Test procedures for high-energy applications
GB/T 31467.3 Lithium-ion power battery packs and systems for electric vehicles – Part 3: Safety requirements and test methods
GB/T 36672-2018 Lithium-ion batteries for electric motorcycles and electric mopeds
GB/T31467.3-2015 Part 3 Safety Requirements and Test Methods for Lithium-ion Power Battery Packs and Systems for Electric Vehicles
GB/T 38031-2020 Safety Requirements for Power Batteries for Electric Vehicles
GB/T 31485-2015 Safety Requirements and Test Methods for Power Batteries for Electric Vehicles
Technical parameter | ||
drive mode | Servo motor drive | |
Pressure control | motor control | |
Equipment type | Vertical structure, pierced from top to bottom | |
Needle force range | 1kN-10kN adjustable (can be customized according to your needs) | |
Measuring range | 0.5%-100% of the whole process without classification | |
Force Resolution | ±1/500,000 | |
power display | High precision pressure sensor and display via touch screen | |
Maximum size of battery that
can be measured |
W600xD600xH300mm | |
Puncture direction | Battery thickness direction (ie 300mm direction) | |
Needling stroke | 300mm (without acupuncture jig) | |
Displacement measurement accuracy | ±0.5% full scale | |
Displacement resolution | 0.01mm | |
Needling speed | 0.1-100mm/s | |
Voltage test range | 0-10V | |
Voltage test accuracy | ±0.1%F.S full scale | |
Voltage resolution | 1mV | |
Data collection frequency | ≥100 times per second (100Hz) | |
unit conversion | Lb , N , Kn , Kg | |
Acupuncture test time | 0~99H/99M/99S can be set arbitrarily | |
way to control | Computer control, can be connected to a computer for control, | |
The operation interface is simple and easy to operate, and the
performance is stable and reliable |
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Specimen clamping method | Manual clamping | |
Overall size | L1600*W1300*H2100(mm) | |
Control box W850*D600*H1290mm | ||
weight | About 1.8T | |
using electric | AC380V±10%,50HZ,6kW, | |
Three-phase four-wire, reliable grounding |