BYD

Last updated February 1, 2026

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Electromechanical sliding door drive mechanisms: BYDRecent Research Landscape

Kinetic energy during door closure causes mechanical impact and cabinet wear, which is mitigated through integrated damping buffer mechanisms. This control lever extends furniture lifespan and reduces noise through controlled deceleration.

What technical problems is BYD addressing in Electromechanical sliding door drive mechanisms?

Unauthorized door entry vulnerability

(39)evidences

Mechanical and electrical vulnerabilities in vehicle closures allow for forced or accidental opening. Eliminating these failure points ensures occupant safety and vehicle security.

Passenger ingress instability

(24)evidences

Inadequate structural integrity of interior mounting points leads to component failure or safety risks during vehicle maneuvers. Enhancing load-bearing capacity ensures passenger safety and long-term durability of the cabin infrastructure.

Unauthorized door entry vulnerability

(24)evidences

Mechanical failure to maintain closure during external stress or tampering. Ensuring structural integrity and security prevents unintended access and passenger safety risks.