On February 6th, reports emerged indicating that Landspace had recently accomplished a significant milestone by successfully conducting vibration and unlocking impact tests on its multi-satellite stacking compression release mechanism and satellite assembly. These tests also verified the unlocking capability of the inter-satellite locking mechanism following assembly vibration and the unlocking impact experienced by the stacking column. This achievement underscores that Landspace's independently developed multi-satellite stacking compression release mechanism is now fully equipped to support large-scale networking initiatives for satellite internet constellations.

This mechanism serves as a pivotal component in the 'one rocket, multiple satellites' launch strategy for flat-panel satellites. Its primary role is to ensure the secure fastening of the satellite assembly during both ground preparation and launch phases. Once the satellites reach their designated orbit, the mechanism facilitates their release, guaranteeing a stable and orderly separation. When working in tandem with the inter-satellite locking mechanism, it effectively mitigates the risk of collisions, both between satellites themselves and between satellites and the rocket.