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Anonymous1763803227
12-01 18:03
Model Name
rugged phone case 3d model
Tags
phone
props
props realistic
props rendering
props rendering realistic
realistic
rendering
rendering realistic
rugged smartphone
Prompt
Generate a precise, high-fidelity 3D model of a universal smartphone case with an integrated external power bank. The model must include all geometric, functional, and structural features described below with no omissions: 1. Core Structure Create a universal adjustable-fit smartphone case with: Elastic, expandable side rails capable of stretching to accommodate multiple phone widths. Side rails must visibly include tension ribs or expandable segments to clearly show adjustability. Front frame must be minimal, with raised lips around all edges. 2. Integrated Power Bank Module The back of the case must contain a rectangular power bank housing flush-mounted into the rear surface. The power bank must be modeled as a separate internal component integrated into the rear cavity. Housing must include: Slightly rounded corners. A clean seam line separating the module from the rest of the case body. 3. Charging Port Requirements Include two distinct charging port openings, each precisely defined: Phone charging-port cut-out Located at the bottom-centre. Wide, unobstructed, with tolerances for various cable sizes. Power bank charging-port cut-out Located off-center on the lower rear power bank housing or at the bottom edge of the module. Must be physically separated and unmistakably distinct from the phone’s port. Both ports must be geometrically accurate and must not overlap. 4. Battery Level Indicator Include a side-mounted LED battery indicator panel on the right-hand side of the case. The indicator must be a vertical pill-shaped window showing: Either four LED segments or A digital-style bar display It must be recessed and clearly visible, with a transparent lens. 5. Wireless Charging Interface On the back of the case: Add three to five raised circular alignment bumps arranged symmetrically. These bumps must be shallow, precise, and evenly spaced to indicate wireless charging coil positioning. 6. Material Definitions Main body: rigid polycarbonate (PC) or ABS-like material. Side rails: textured elastic TPE or silicone-like flexible material. Power bank housing: PC/ABS with a matte finish. Battery indicator lens: clear polycarbonate. Visible texture differences must be modeled between rigid and elastic materials. 7. Geometry + Rendering Requirements Model must be clean, watertight, and physically manufacturable. Ensure precise cut-outs for: Buttons Speakers Phone charging port Power bank charging port All cut-outs must be sharp and fully open. 8. Additional Requirements Power bank thickness must be integrated without excessive bulk; keep it compact and rectangular. Back surface must remain mostly flat except for wireless charging bumps. The model should visually convey that: The case expands horizontally due to elastic side rails. The power bank is a fully separate component but physically integrated. Final Output Requirements Output as a fully detailed, closed 3D object suitable for manufacturing and prototyping. Maintain high-resolution detail so all ports, bumps, seams, and material textures are unambiguous and crisp.
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Anonymous1763803227
Anonymous1763803227