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DCC Bridge
Anonymous1769179730
01-23 17:46
Model Name
protective goggles 3d model
Tags
props
rendering
realistic
Prompt
1️⃣ Overall Design Concept The eyewear is a large, wrap-around protective eyeglass with an oversized single-lens appearance, designed to cover a wide facial area. The design emphasizes maximum eye protection, wide field of view, and structural robustness, making it suitable for smart wearable electronics integration. The frame follows an industrial safety-goggle aesthetic, with smooth organic curves and extended lens coverage. 2️⃣ Frame Geometry & Shape The frame uses a single continuous outer rim supporting two large rectangular-curved lenses. Edges are rounded and filleted to avoid sharp corners and improve comfort. The front frame slightly wraps inward, following the natural curvature of the human face. The lens area is significantly larger than regular spectacles, giving the “big eye” look. 3️⃣ Lens Design Lens shape: Oversized rectangular with rounded corners Lens coverage extends: Above eyebrow level Below eye level Slightly beyond temple region Lens thickness: 2–3 mm (polycarbonate / acrylic) Lens mounting groove depth: 2 mm Lens curvature radius: Base-6 to Base-8 curve for wrap-around vision 4️⃣ Nose Bridge Structure Integrated double-arch nose bridge design Smooth concave underside for nose comfort Bridge distributes weight evenly across the nose No separate nose pads—molded monolithic structure 5️⃣ Temple Arms (Side Arms) Temple arms are slim near the hinge and gradually thicker toward the rear Slight downward curve at the end to grip behind the ear Inner surface is smooth to avoid skin irritation Straight geometry allows internal routing of: Wires Battery Small electronic modules 6️⃣ Material & Transparency Frame material: Transparent PLA / PETG / Polycarbonate Lens: Transparent acrylic or polycarbonate Transparency allows: Visual inspection of electronics Lightweight appearance Modern smart-glass aesthetics 7️⃣ Comfort & Ergonomics Large lens reduces eye strain by increasing field of view Smooth inner surfaces reduce pressure points Balanced weight distribution between front frame and temples Designed for long-term wear 8️⃣ Electronics Integration (Optional Smart Version) The frame geometry allows integration of: Ultrasonic sensor (front frame) ESP32 microcontroller (temple) Li-ion / Li-Po battery (temple) Buzzer or haptic motor (rear temple) Internal cavities can be hidden inside thickened temple sections. 9️⃣ Manufacturing & 3D Printing Considerations Printing orientation: Frame flat on build plate Wall thickness: 2–2.5 mm Internal tolerance: +0.4 mm Post-processing: sanding + clear coat for transparency Lens inserted using press-fit or adhesive
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