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READ MORE- Carbon fiber frame,lightweight
- Compact folded size,easily portable
- 360° Joystick controller
- Flip-up armrests
- Wear-resistant solid front & rear tires
- Ultra-light magnesium wheels
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The F10 power wheelchair is designed for ultimate portability and reliability. Crafted with a lightweight aluminum frame (only 21.6kg), it folds manually without tools into a compact size, fitting easily in car trunks.Powered by dual 350W motors and a 24V20AH removable battery, it delivers up to 25km of range for daily use. The intuitive LCD joystick controller ensures precise operation, while solid tires with suspension provide a smooth ride on various surfaces. Flip-up armrests and ergonomic design enhance comfort and accessibility, making it ideal for both indoor and outdoor mobility.
| Frame Materialry | Aluminum |
| Battery | LIB,24V20AH |
| Motor | 24V,350W x 2(Brushed) |
| N.W/G.W(W/battery) | 21.6kg/25.6kg |
| Max Loading | 120kg |
| Max Speed | 6km/h |
| Max Climbing Degree | 11" |
| Folding | 7" |
| Tire | 24V2A, 6-8H |
| Max Range | 25km |
| Headlight | 440mm |
| Charger | 530mm |
| Seat Material | 450mm |
| Overall Dimensions | 1065x550x980mm |
| Folded Dimensions | 370x550x820mm |
| Package Size | 370x662x860mm |
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READ MOREPremium mobility engineering is no longer defined only by function. It is now a balance of structural intelligence, material science, and user-centered mobility behavior. Lightweight folding systems, carbon fiber integration, and precision wheel engineering collectively shape a new generation of active lifestyle mobility solutions designed for independence and everyday usability.
Modern mobility platforms prioritize weight reduction without sacrificing strength. In advanced designs such as the F10 folding power wheelchair structure, carbon fiber integration reduces unnecessary mass while maintaining rigidity under dynamic load conditions.
Engineering insight: reducing structural weight improves not only portability but also energy efficiency and motor responsiveness, especially during repeated acceleration cycles.
A second key design approach is the use of hybrid lightweight frames such as the carbon fiber mobility frame design, which distributes stress evenly across folding joints and load-bearing zones.
Folding engineering is a core differentiator in modern mobility systems. The goal is not only compactness but predictable structural behavior during repeated folding cycles.
Tool-free folding
Enables fast transition between transport and usage without mechanical assistance.
Compact geometry
Optimized folded size allows storage in vehicle trunks and tight spaces.
Reinforced joints
Designed for long-term durability under repeated folding stress cycles.
Wheel system design directly influences stability, vibration control, and steering precision. Advanced magnesium alloy wheels significantly reduce rotational inertia, improving responsiveness in both indoor and outdoor environments.
This is reflected in the integration of advanced magnesium wheel mobility system, which enhances directional control while maintaining structural balance on uneven surfaces.
Key engineering benefit: reduced wheel weight improves acceleration smoothness and reduces long-term motor strain.
High-performance mobility systems depend on coordinated subsystems rather than isolated components. Motor output, control precision, and suspension design must operate in synchronization.
Suzhou Heins Medical Equipment Co., Ltd. integrates advanced manufacturing systems with engineering-driven design philosophy. The production process emphasizes precision, repeatability, and material optimization to support global mobility demand.
The production base spans 20,000㎡ and incorporates high-precision laser cutting systems and robotic welding technology, ensuring consistent structural alignment across batches.
Through continuous innovation in folding mechanisms, motor control systems, and hybrid material integration, the company supports global distribution across North America, Europe, and Asia while maintaining strict quality validation procedures.
| Parameter | Specification |
|---|---|
| Frame System | Aluminum Alloy Hybrid Structure |
| Motor Configuration | 24V 350W x 2 Dual Drive |
| Battery System | 24V 20AH Removable Lithium Battery |
| Range Capability | Up to 25 km per charge |
| Load Capacity | 120 kg |
It reduces physical handling effort, improves transport convenience, and enhances energy efficiency during operation.
Reinforced hinge architecture and load-tested joints ensure durability across repeated folding cycles.
They reduce rotational weight and improve responsiveness, resulting in smoother directional control.
They provide balanced torque distribution for better climbing ability and stable acceleration behavior.
Consistent precision manufacturing ensures reliability, safety, and long-term structural performance.