IEC 60086-4 Battery Testing Equipment Cylindrical Battery Cells Mechanical Abuse 9.1kg Impact Test

IEC 60086-4 Cylindrical Battery Cells Mechanical Abuse 9.1kg Impact Test Equipment

Overview:

The battery impact test equipment is used to test battery safety performance through different masses and different impact areas from different height. The battery is verified as qualified on the condition of no flames or explosion after the impact test.

Standards Compliant:

It is confirm to IEC 60086-4: 2014 clause 6.5.2 figure 3, UL1642:2012 clause 14 figure 14.1, UL 2054, UN38.3, GB/T 18287-2013,GB 31241-2014, GB-31241-2014, QB/T2502 and etc.

Technical Parameters:

Impact Mass	9.1kg
Impact Height	0~880mm (The mass can be raised to a height and released to ensure the mass dropping free without inclining and swing)
Control Method	PLC Touch Screen Control+ Remote Control
Crossing Bar Diameter	15.8 mm (Place on central position in cross direction and the heavy bar and steel bar is parallel to battery bottom)
Test Room	W300 X D300 X H300mm
Internal Material	SUS 304# Stainless steel(thickness 1.0mm compensation and external chamber thickness 80mm)
External Material	Cool-Rolled Plate (thickness 1.0mm)
Air Vent	150mm, on the top of back of chamber
Chamber Gate	Single Door, Viewing Window, cold-rolled door lock
Viewing Window Size	390 X 360mm (20mm Dual layer glass explosion proof film)
Elevating Method	Motorized
Top/bottom impact surface	Steel Plate
Chamber Size	W940 X D780 X H1620mm
Power Source	AC 220V, 60Hz
Power	2.0KW
Gross Weight	About 250KG
Touch Screen Monitoring

 

Test Procedure:

The impact test is applicable to cylindrical cells greater tha 20 mm in diameter.

The test cell or component cell is placed on a flat smooth surface. A stainless steel bar (type 316 or equivalent) with a diameter of 15.8 mm ±0.1 mm and a length of at least 60 mm or of the longest dimension of the cell, whichever is greater, is placed across the centre of the test sample. A mass of 9.1 kg ± 0.1 kg is dropped from a height of 61 cm ± 2.5 cm at the intersection of the bar and the test sample in a controlled manner using a near frictionless, vertical sliding track or chammel with minimal drag on the falling mass. The vertical track or chammel used to guide the falling mass shall be oriented 90 defrees from the horizontal supoorting surface.

The test sample is to be impacted with its longitudinal axis parallel to the flat surface and perpendicular to the longgitufinal axis of the stainless steel bar lying across the centre of the test sample (see figure 3).