PRODUCT CATALOG
- Air-cooled Electric Vibration Shaker Testing Machine
- Water-cooled Electric Vibration Sharker Testing System
- Inductive Electric Vibration Table Testing System
- Vertical Extension Table for Vibration Testing Equipment
- Horizontal Slide for Vibration Testing Equipment
- Triaxial Vibration Test System
- Six-degree of Freedom Electrodynamic Vibration Testing System
- Electric Ejection Arrester Test Bench for Shock Vibration Testing
- Smart Power Amplifier for Vibration Test Table
- Pneumatic Vertical Shock/Crash Vibration Test Bench System
- Hydraulic Vertical Impact Vibration Test Bench Equipment
- Pneumatic Two-way Vertical Impact Test Bench for Shaker Testing
- Steady-state Acceleration Vibration Testing Bench Machine
- Hydraulic Vibration Test Bench for Hydraulic Vibration Shaker Testing
- Hydraulic Tilt and Swing Vibration Test Bench Equipment
Name | SH-2 Hydraulic Vertical Impact Test Bench |
Rated load: | 2kg |
Table size: | 116mmX100mm |
Dimensions (LWH): | 1040mmX880mmX1880mm |
Weight: | 1800kg |
Product Description
The hydraulic vertical impact test system is a fully automatic hydraulic lift impact test system with a free fall structure. It is used to measure and determine the impact resistance of products or packages, and to assess the functional reliability and structural integrity of products in impact environments. It can complete the impact test of conventional half-sine wave, post-peak sawtooth wave, trapezoidal wave (square wave) and other waveforms. Accurately and realistically simulate the shock wave and shock energy that the product is subjected to in the actual environment, so as to improve the system or optimize the packaging structure of the product.
Main Feature:
Multi-track guide strut, smooth lifting, no noise
Integral casting table design, high rigidity, low frequency clutter
Hydraulic brake mechanism, high safety, effectively prevent secondary impact
Digital control system to ensure the stability of shock
A seismic isolation system is added at the bottom to effectively reduce the requirements of the equipment on the site