The Mover mechanical testing platform by Move Engineering B.V. is a state-of-the-art, compact, and highly versatile test rig designed for structural, dynamic, and static evaluation of prosthetic and orthotic components. Engineered for laboratories, manufacturers, and research institutions that demand accuracy, reliability, and ISO-aligned testing performance, the Mover platform provides a robust solution for validating lower-limb prosthetic components, materials, and assemblies. Available in two models—Mover5 and Mover7—the platform accommodates a wide range of mechanical testing scenarios, from high-frequency dynamic load cycles to high-force static evaluations, while maintaining exceptional precision and ease of use. Powerful Testing Performance Mover5 Static load: up to 3,750 N Dynamic load: up to 4,000 N Testing frequency: up to 10 Hz Advantages: higher stroke speeds, superior accuracy at high frequency, equipped with a 5 kN force sensor Mover7 Static load: up to 7,000 N Dynamic load: up to 4,000 N Testing frequency: up to 5 Hz Advantages: reaches and exceeds ISO 10328:2016 P8 static testing level (175 kg) Both models provide: 200 mm stroke 700 mm maximum sample height Capability to test full prosthetic assemblies, adapters, joints, sockets, foot components, and materials used in O&P fabrication. Key Features 1. Flexible Testing Possibilities The Mover platform supports multiple testing modes essential for modern prosthetic and orthotic development: Dynamic force testing Static compression and failure testing Customised and complex loading profiles Whether for R&D, fatigue evaluation, durability studies, or certification prep, the Mover adapts to your methodology. 2. Precision Data Logging & Control Designed for high-accuracy measurement, the system offers: Logging of sensor averages at user-defined intervals Full-cycle logging with logarithmic intervals Event-based log capture Ring memory for capturing all data parameters during key events This enables researchers and engineers to capture detailed structural performance data for reporting, analysis, and compliance documentation. 3. High-Frequency Accuracy Stable force control across the entire load range Reliable performance even at high dynamic frequencies Ideal for fatigue, cyclic load, and long-duration endurance testing 4. Compact & Workshop-Ready A powerful testing platform that fits easily into any laboratory or workshop: Footprint: approx. 60 × 60 cm Height: approx. 2140 mm Weight: approx. 95 kg Power: Standard 230 V (Europlug, Type F) Noise: < 60 dB(A) Its small footprint makes it ideal for P&O research centres, universities, and manufacturers with limited space. 5. Ready to Use Out of the Box Each Mover test rig arrives with: Calibrated force sensor Basic connector set Mover Test Software Browser-based control (PC or tablet) CE and TÜV NRTL (US & Canada) certification EWON industrial VPN router for remote support & firmware updates Available Options Stiffer Force Sensor (5× stiffness) For enhanced measurement accuracy and reduced deformation in high-load scenarios. Front & Rear Safety Doors with Integrated Sensors Complies with the European Machinery Directive Meets safety requirements in the US and Canada Mandatory for use outside the EU Service Subscription Continuous software updates Online technical support Training & On-Site Installation Including practical testing sessions and set-up assistance. Other Custom Configurations 380 V versions available on request. Technical Specifications Dimensions: 600 × 600 × 2140 mm Weight: ~95 kg Supply voltage: 230–240 V AC, 50/60 Hz Power consumption: 570 W Protection class: I (grounded) Internal fuse: 10 A slow-blow CE Machinery Directive compliant TÜV NRTL certified Emergency stop switch & monitored safety enclosure No internal batteries, no water systems, no pressurised gas Ideal for Prosthetic & Orthotic Applications The Mover platform is perfectly suited for: ISO 10328-aligned prosthetic structural testing Dynamic fatigue and cyclic load testing Adapter, pylon, joint, foot, and full-assembly evaluation Material testing for composites, polymers, and O&P fabrication materials Research, development, teaching, and certification environments Its versatility, precision, and compliance make it an essential tool for any organisation committed to producing safe, durable, and high-performance prosthetic and orthotic solutions.

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