Features

    The seismic bracing system consists of seismic support components and seismic anchors working together

    Passed the highest national test level for resistance to horizontal seismic forces

    The diagonal bracing channels are connected using PCN connections, where seismic forces are transferred through mechanical interlocking generated by the engagement of continuous teeth. This method is safer and more reliable than traditional seismic brackets that rely on friction from pointed screws, and it effectively resists vibration loads during daily operation, providing excellent anti-loosening performance

    All components are strictly tested, with corresponding design loads provided for engineering selection

    S-type seismic anchors are used; the anchors have passed 9-degree seismic testing, ensuring secure and reliable fixation of the seismic bracing system

Certifications & Testing

      Anchors fully certified under ETA

Key Technical Considerations

    Stations are high-occupancy areas; therefore, the design and selection requirements for seismic bracing systems should be higher than those for general buildings

    Seismic forces must be calculated for each seismic bracket, and the load-bearing safety of the system must be verified

    For different seismic fortification intensities, seismic bracing systems of different structural grades should be adopted to reflect varying importance levels

    Multi-level portal-type seismic bracing systems should use rigid frames, with independent seismic diagonal braces provided at each level

    Anchors suitable for seismic regions must be used to ensure stable and reliable anchorage