With the development of offshore energy, jacket platforms and structures are widely used. During the operation and maintenance period, the use of conventional rubber fenders cannot effectively reduce the impact on the platform structure during ship docking, causing sway of the jacket platform and structure.
The new docking device mainly consists of two sets of energy absorbers (including flanges, outer tubes, rubber, and inner tubes) and general columns. The rubber serves as an energy-absorbing component, and the inner and outer tubes are connected through rubber units to absorb and transfer the axial, radial, and multi-directional loads generated during docking, thereby effectively reducing the impact response on the structure of marine platforms (such as wind power platforms, oil extraction platforms, etc.).
The DSC-type Shockcell has been widely used in the jacket platforms of overseas marine engineering platforms/transformer stations. The energy-absorbing effect can be simulated with finite element analysis methods to analyze collision energy absorption.
Product Features: Compared to traditional fenders that mainly absorb longitudinal energy, the optimized Shockcell can absorb the load energy generated when ships dock at a 30-degree angle, with a wider range of load-bearing angles. It has a greater energy absorption capacity than ordinary fenders and can withstand loads from multiple directions. The product is lightweight, saving steel usage, and reducing the load on the jacket, thereby lowering construction costs.
Product Model:
Notes: 1) The above units are in millimeters (mm).
For any technical issues, Please contact DSMEC via Email: info@dsmecindustries.com
