The bevel impact test bench simulates the impact and collision environment of the package during transportation. It is used as a common test equipment for slope impact by scientific research institutions, colleges and universities, packaging technology testing centers, packaging materials manufacturers, and foreign trade and transportation departments.
When packaged products travel through the supply chain, they are susceptible to experiencing significant shocks along the way.
Inclined impact testing simulates environmental dynamic forces that packaged goods may endure throughout transport and handling operations. These hazardous dynamics are simulated using impact test systems. Inclined impact test systems utilize a carriage that propels the test sample down a ramp at predetermined velocities before impacting into a fixed backstop. The specimen's reaction to these extreme conditions indicates how the product would fare in real-world supply chain settings, allowing design engineers to make improvements to either the product and/or the protective packaging as needed.
This side impact testing is used in numerous laboratory applications, including product and packaging design, packaged product transport simulation, and palletized unit load stability validation.
Incline impact tester simulates the ability of product packaging to withstand impact damage in real environment, such as the transportation of loading and unloading products by stacking motors and sliding locomotives that move shelves. The incline impact tester can also be used as a common test equipment for bevel impact in packaging material manufacturers and foreign trade transportation departments.
The purpose of the incline impact test is to determine whether various properties fail under normal and extreme collision conditions when the product is subjected to a series of shocks. Using the principle of transforming the potential energy of the object into kinetic energy, when the package slides to the end according to the predetermined position, a certain impact velocity is obtained to collide with an impact plate perpendicular to the velocity direction, so as to achieve the predetermined test purpose.
The inclined impact testing machine is a semi-automatic control testing machine, simple operation and high efficiency, especially suitable for continuous impact test laboratories and a large number of impact test of packaging and transportation machinery and equipment manufacturing industries.
Working Principle of Incline Impact Tester : Test principle of incline impact tester. By using the principle of transforming the potential energy of the object into kinetic energy, when the package slides to the end according to the predetermined position, the impact velocity is perpendicular to the impact plate.
Apply the principle of monopolized kinetic energy transformation of the object's potential energy, and obtain a certain impact velocity and an impact plate perpendicular to the direction of acceleration when the package is free sliding bottom at a fixed position to reach a fixed test;
Incline impact test machine can simulate the horizontal impact and collision environment of packaging parts and packaging containers in the transportation process. Incline impact test machine can be used as a common test equipment for bevel impact in scientific research institutions, colleges and universities, packaging technology testing center and packaging material manufacturing door.
This regulatory compliance package test provides a laboratory simulation of impacts such as those found in the handling and distribution cycle. Impact testing also permits the observation of progressive failure of a package and damage to the contents.
The system is operated pneumatically, fast operation, safe andreliable.
The angle between the quide surface and the horizontal level is10°.
Perfect protection device and safety interlock device to ensure thesafety of the operator.
Accept special customization, additional installation speedmeasuring device, provide accurate impact velocity measurement.
Model |
HYXK-100 |
HYXK-200 |
HYXK-300 |
HYXK-500 |
Load |
200 |
300 |
500 |
2000 |
Work surface size (mm) |
1100*1100 |
1300*1300 |
Impact panel size (mm) |
1300*1300 |
1500*1700 |
1600*1800 |
Maximum sliding length (mm) |
4000(to agreement) |
Impact speed range (m/s) |
1.2~3.87 |
0.59~2.35 |
Impact velocity error |
≤±5% |
Dimensions (mm) |
700*1400*1700 |
7000*1500*2150 |
7500*1600*2300 |
Voltage |
Three-phase 308V, 50/60HZ |
Fulfill the standard |
GB/T4857, JB/T6868, ISO2244 |
Working environment |
Temperature 0~40ºC, temperature ≤80% (no condensation) |