Electric bikes
Electric motorcycles
Electric scooters
Electric Mobility Structural Engineering
Electric Mobility Structural Engineering
PXID provides professional structural design and engineering services for electric mobility products, including e-bikes, electric scooters, and urban mobility vehicles.Our engineering team integrates frame architecture, steering systems, battery structures, and mechanical motion design to ensure products achieve high performance, safety, and manufacturability.From concept engineering to mass production, PXID supports global brands with reliable structural solutions and ODM manufacturing capabilities.
Patented Structural Innovations
PXID holds multiple domestic and international patents related to electric mobility structural technologies, including frame architecture and folding mechanisms.These innovations strengthen product safety, engineering efficiency, and market differentiation for global mobility brands.
Frame materials and structural design
PXID designs frames based on real-world usage scenarios, selecting lightweight and robust materials such as aluminum alloy and magnesium alloy to ensure strength and stability. We plan the overall framework layout, including frame geometry, folding mechanisms, and key mounting points such as battery compartments, motor locations, and controller placement.
Battery Integration & Structural Protection
PXID designs integrated battery structures that improve vehicle balance, thermal management, and impact protection.
By embedding battery systems within the frame architecture, we enhance structural rigidity, energy efficiency, and safety performance, while ensuring convenient assembly, maintenance, and scalability for production.
Steering System Engineering
A precise steering system design is essential for vehicle stability and rider safety.PXID optimizes steering geometry, bearing systems, and structural load paths to deliver responsive control, durability, and smooth maneuverability for electric scooters and e-bikes.
Mechanical motion design
The mechanical motion design is the core element that enables the product to perform motion functions. This involves selecting motion mechanisms, drive methods, transmission systems, and relative movement between components.
By designing an efficient motion mechanism, the product can maintain high performance under complex working conditions and extend its service life.
Finite Element Analysis (FEA)
PXID uses advanced Finite Element Analysis (FEA) to validate structural performance before production.Through simulation of stress distribution, fatigue resistance, vibration behavior, and impact loads, our engineers identify potential weak points and optimize designs.This process ensures every structure meets global engineering standards and real-world reliability requirements.
Mechanical Motion & Suspension Design
PXID designs mechanical motion systems and suspension structures that enhance ride comfort, stability, and durability. Through optimized kinematic motion paths and load distribution, we ensure smooth and reliable performance across diverse riding conditions.
Intelligent and Connected Features
Communication modules such as 4G and Bluetooth are integrated to enable data interaction between the vehicle, mobile app, and cloud platform. Functions such as remote unlocking, vehicle positioning, and status monitoring transform electric two-wheelers into intelligent connected mobility devices.
From Engineering to Manufacturing
Transform concept designs into practical, manufacturable components. By controlling cost, process feasibility, and serviceability at the source, we lay a solid foundation for efficient mass production.
