Servo Computer Battery Crush Test Chamber With this battery crush tester, servo computers may mimic how lithium batteries are squeezed when they are being used. When the battery is squeezed, provide a variety of scenarios that could occur.
Using BINDER chambers for testing:-
• When the temperature is set to 120°C, a Class 2 independent adjustable temperature safety device is required.
• The controller has a maximum temperature range of 120 degrees Celsius.
• Top of the device has a stainless-steel reversible pressure relief flap.
• strengthened brackets for a more secure door lock
Applications:
• In order to get a clear picture of the storage devices’ inside, optical and scanning electron microscopes are used.
• Structural and chemical changes occur as a result of ageing, and these findings are obtained. Using a digital twin, scientists are able to simulate the ageing process for themselves.
• This data can be used to replicate a period of three to five years if it is collected over a period of six months.
Customer requirements:
• For a tight installation space, a tiny footprint is required.
• Available are space-saving options
• Access ports and other custom features are provided.
• Locking mechanism for the door
• Flap with a heated relief valve
• A door with a little window inside.
• Illumination of the inside
About the customer:
The University of Applied Sciences Offenburg’s Enerlab 4.0 is testing lithium-ion energy storage systems. Many custom-built cooling incubators with package cooling are used in this high-tech laboratory’s battery testing procedures.
BINDER cooling incubator with package P for performance tests
• When the temperature is set to 120°C, a Class 2 independent adjustable temperature safety device is required.
• The controller has a maximum temperature range of 120 degrees Celsius.
• Top of the device has a stainless-steel reversible pressure relief flap.
• strengthened brackets for a more secure door lock
Electrical System
As a whole, the circuit cabinet looks very clean and professional. They are set up in a way that is in line with UK standards and come with detailed circuit diagrams. Each line has a unique code that is easy to find when you need to figure out what’s wrong.
Electric parts made by well-known brands, like Schneider from France,Carlo Gavazzi from Switzerland,Mitsubishi from Japan, and Rainbow from Korea, are used.
Application field
To do battery crush tests, this battery crush test chamber should be filled with battery
This battery testing equipment mimics the process of crushing a battery and shows the amount of comminution.
It also has a lot of great safety features, like an explosion-proof pressure relief device, a smoke exhaust device, and an explosion-proof chain.
Test standards:
•IEC 62133-2017
•UL 1642
•UN 38.3
PARAMETER:-
| Model | SM-8001 |
| Max. Pressure | There are 1KN-20KN (can be customised according to requirements) |
| Piston Diameter | 32mm |
| Driving Mode | Hydraulic press |
| Unit Conversion | Kg/N/Lb |
| Crush Range | 0~300mm |
| Extrusion Accuracy | ±1%F.S |
| Extrusion Remaining Time | 0~99 hours 59 mins 59 secs |
| Controlling Mode | The PLC touch screen control system has a 7-inch touch screen and a remote that can be used to control it. |
| Testing Space | W500 x D300 x H300 mm |
| Overall Dimension | W940 x D780 x H1620 mm |
| Observation Window | It is 390 x 360mm (20mm thick tempered glass with explosion-proof grid) |
| Power Supply | AC 380V / 50HZ / 2.0KW |
| USB Interface | With a USB port, the test data can be sent to a computer. |
| Auxiliary Function | Smoke and pressure relief devices that aren’t going to get blown up, as well as explosion-proof chains. |
| Options | Video monitoring system, temperature, voltage, and fire extinguishing systems are all part of this. |
