Tel.: 8615989623158
E-mail: sales@grandetop.com
Tel.: 8615989623158
E-mail: sales@grandetop.com
High Energy Shock Test System is specially designed to meet the requirements of military industry and home appliances. The system adopts the principle of pneumatic energy storage expansion. By adjusting the inflation pressure, various high-level acceleration tests can be easily implemented in a short stroke.
High Energy Shock Test System helps determine whether a device can remain functional when subjected to sudden, abrupt motion changes associated with service environments like product handling, shipping/transportation, rocket stage separation, weapon firing, etc.
High-G Classical Shock
The GRANDETOP's shock system can produce half sine or haversine shocks in excess of 10,000G. Dual elastic accelerators boost the max velocity change to 600in/s or higher. The system comes with pneumatic brakes and a floating seismic base to allow durations as short as .15ms. Data is captured at 1MHz, with shock pulse amplitude and duration reported automatically. SRS plot generation is available.
Classical Shock
Classical Shock tests such as half-sine, sawtooth, and trapezoidal pulses are associated with product handling events (drop impacts) and transportation induced events (road bumps, pot holes, etc.) and are performed using our AVCO pneumatic shock table or any of our electrodynamic vibration systems. These shock tests are specified in the Time Domain (acceleration vs. time). Classical shock pulses up to 1,500 g can be accommodated for a wide range of test payloads.
Standards
GRANDETOP has the expertise to perform shock testing in accordance with an extensive list of Test Specifications, including the partial listing below.
MIL-STD-810 Method 516.5 Military / Classical Shock
MIL-STD-883 Microelectronics Shock
MIL-STD-202 Electronic Components Shock
TIA/EIA-455-14 Fiber Optics Shock
IEC-60068-2-29 Bump Shock
EIA-364-27 Electrical Connector Shock
RTCA-DO-160 Airborne Equipment Shock
GR-1209-CORE Component and Module Impact
Features
For the classic drop test, it’s equipped with the corresponding shock amplifier to complete drop test.
Windows-based stable control system, full-automatic remote-control interface
Pneumatic cylinder driving with advantages of large driving force, short accelerating stroke, low cost and pollution free.
Automatic control of lifting height with high accuracy and good repeatability
Adopts the high strength and hardness cast aluminum table, which has high first-order resonance frequency, featured with low noise and no clutter
The most reliable double-brake system: effectively avoids secondary rebound collisions, more securely positioning the table, and more reliably guarantees the safety of the operator.
Easy installation: the device comes with a base, due to short driving stroke of the pneumatic cylinder, the footprint is small.
More Features:
1. Air pressure driven, no pollution to the environment;
2. Large impact energy, capable of achieving 70g~45ms impact test
3. One machine management for control and measurement;
4. Built-in pneumatic brake mechanism, safe and reliable;
5. Pneumatic high-energy vertical impact test bench can be equipped with impact amplifier to achieve larger value impact test.
Technical Parameters:
| Model | HST-50 | HST-100 | HST-200 | HST-500 | HST-800 | HST-1000 | HST-2000 | |
| Table Size(mm) | 500*500 | 600*600 | 800*800 | 1000*1000 | 1200*1200 | 1500*1500 | 2000*2000 | |
| Max. Specimen Weight(kg) | 50 | 100 | 200 | 500 | 800 | 1000 | 2000 | |
| Peak/Max. Acceleration(G) | Half-Sine | 10~1500 | 10~1000 | 10~1000 | 10~500 | 10~400 | 10~300 | 10~200 |
| Post-Peak Sawtooth | 10~200 | 10~100 | 10~50 | |||||
| Trapezoid | 10~200 | 15~100 | 15~100 | 15~60 | 15~50 | 30~50 | ||
| Pulse duration(ms) | Half-Sine | 2~60 | 3~60 | 3~60 | 4~60 | 5~60 | 6~60 | 8~60 |
| Post-Peak Sawtooth | 3~18 | 6~18 | ||||||
| Trapezoid | 3~18 | 6~18 | ||||||
| Bump Waveform(Option) | Half Sine Waveform | |||||||
| Bump Peak Acceleration (g) | 5~100 | 5~80 | 5~60 | 5~40 | / | |||
| Bump Pulse Duration(ms) | 3~30 | 3~30 | 4~30 | 5~30 | / | |||
| Bump Rate (Times/Min) | 10~80 | 10~60 | 10~10 | / | ||||
| Overall Dimension (mm) | 1200×1200×1500 | 1200×1200×1650 | 1100×1100×1700 | 1300×1300×1600 | 1500×1500×1700 | 1600×1600×1800 | 2000×2000×1900 | |
| Weight (kg) | 3000 | 3800 | 3200 | 4000 | 5000 | 6000 | 8000 | |
| Environment | Temperature range 0~40℃, Humidity ≤ 80% (non-condensing) | |||||||
| Power | 1-phase AC220V±10% 50Hz | |||||||
| Air source | ≤1MPa | |||||||
| Installation Condition | Foundation-free, the cement floor shall be leveled and the working distance of 800 ~ 1000mm shall be reserved around the equipment | |||||||
| Standards | IEC68-2-27 MIL-STD-202 MIL-STD-750 MIL-STD-810 MIL-STD-883 UN38.3 IEC62281 IEC62133-2 UL2054 IEEE1625 SAEJ2929 IEC62660-2 ISO12405-3 UL2580 MIL-STD 883, Method 2002 MIL--STD-202, Method 214 | |||||||
Note:
1. The parameters in the table are for reference only, and the parameters agreed upon by the supplier and the buyer shall prevail.
2. Bump function, Post-peak Sawtooth and Trapezoid waveforms are optional.
