Autonomous Mechanical Wind Turbine Blade Polisher

Fully-mechanical, electricity‑free polishing system adaptable to any blade.

A self-sufficient mechanical polisher: portable gantry, rotary base, and Geneva-indexed gearing working together to ensure safe, consistent blade maintenance.

Scope Mechanical · Pneumatics · Kinematics • Context Wind Energy Maintenance • Duration 10–12 weeks • Year 2024

/ Challenge

Maintain and polish large blades in the field without electricity, while ensuring operator safety and consistent coverage.

/ Solution

A modular gantry and rotary base driven by a pneumatic circuit. Spur gears and a Geneva wheel index and sequence the polishing passes with repeatable dwell times.

/ Outcome

Electricity‑free operation, precise indexing, and safe handling of varied blade profiles with adjustable fixtures.

> Mechanical Design · Pneumatics · Assembly Drawings

Swipe →

Requirements
Kinematics
Concept Sketches
3D Modeling
Gear Train
Geneva Sequencing
Pneumatic Circuit
Technical Drawing

BOM Gears & Indexing Geneva Wheel Pneumatic Schematics Valve & Actuator Sizing Exploded Views Safety by Design

Power & Control: Compressed air (≈6 bar), manual/air-logic valves; no electricity.
Transmission: Spur gear train with Geneva indexing and defined dwell.
Base: Rotary pedestal with detents; adjustable clamping for blade roots.
Gantry: Mobile frame with omni/lockable wheels; height & reach adjustments.
Actuation: Double-acting cylinders for lift/press; regulator + FRL unit.
Safety: Pressure relief, emergency dump, mechanical guards, interlocked sequencing.
Deliverables: Concept sketches, 3D model, detailed assembly drawing with BOM & exploded views.

Download the full deliverable

Gantt, criteria table, sketches, assembly drawing, pneumatic circuit, and mechanism explanations.

Download PDF