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This project presents a mechanical model of a radar-inspired detection and response system designed to demonstrate key principles of kinematics and mechanism design. A radar-like scanning unit oscillates using a crank–rocker four-bar linkage to simulate target detection. Once a target is detected through a simple sensor interface, a Geneva indexing mechanism rotates a circular magazine step-by-step to align a projectile holder with a fixed barrel position. The Geneva mechanism converts continuous rotation into intermittent motion, providing a dwell period for loading. Instead of a pusher mechanism, the system uses gravity-assisted loading, where the projectile drops from the aligned holder into the barrel. The prototype uses simple planar linkages and revolute joints to illustrate motion conversion, indexing mechanisms, and coordinated mechanical sequencing in a safe, low-energy educational model.
Project ID: 40338680
2 proposals
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Active 13 days ago
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I will provide a physics-driven kinematic design for your radar and firing mechanism. I’ll mathematically verify the four-bar linkage (Grashof condition) and Geneva indexing dwells to ensure perfect mechanical sequencing. Using my NVIDIA Studio-optimized setup, I will deliver high-fidelity motion studies and production-ready SOLIDWORKS files. I am ready to translate your educational sketch into a precise, working prototype immediately.
₹1,050 INR in 7 days
0.0
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Pune, India
Member since Mar 31, 2026
$15-25 AUD / hour
$30-250 USD
$30-250 USD
$30 USD
$300 USD
$250-750 AUD
£250-750 GBP
£50-500 GBP
$250-750 USD
₹600-1500 INR
$250-750 USD
$750-1500 CAD
$30-250 USD
$10-30 USD
$250-750 USD
$30-250 USD
₹12500-37500 INR
$10-30 USD
$250-750 USD
₹1500-12500 INR
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