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Anonymous1763410677
11-17 21:07
Model Name
gift box 3d model
Tags
props
3d printing
realistic
Prompt
Three Independent Gift-Box-Style Nested Containers for 1kg Filament Spools (Efficient Print, Screw-Top Lids, Hidden Hardware) Create three fully independent, vertically nested rectangular gift-box-style containers, each with its own screw-top lid. All three containers must be printable in vertical segments that fit within a 200 × 200 × 200 mm FDM build volume. The innermost container must have enough internal space to store four 1kg filament spools stacked vertically. The design must be structurally efficient and use as little filament as possible while maintaining a clean, decorative appearance. 🎁 1. Gift-Box Visual Style (All Three Boxes) Each container must use the following visual theme: Softened rectangular body with rounded vertical corners Smooth, sculpted surfaces Pronounced decorative spiral ridge around the upper perimeter (resembles a twisted ribbon) Decorative vertical seam accents along the exterior Each lid must include a bow-inspired sculpted top (a subtle raised cross-shape or gentle bow-like form) Clean and elegant gift-box appearance No exposed mechanical features on the outside These decorative features must be shallow surface treatments to minimize filament usage. 📦 2. Three Independent Nested Containers (Not Layers) The design must include three separate boxes, each functioning independently: Outer Container Tall, narrow, decorative, and sized to enclose the middle container Smooth gift-box appearance Has its own lid with a functional screw mechanism Middle Container Fits inside the outer container Also resembles a gift box Has its own decorative spiral ridge and bow-style lid Has its own screw-top mechanism Inner Container Fits inside the middle container Must contain a large internal cavity for filament spools Has its own functional screw-top lid Uses the same gift-box styling All containers must nest smoothly with small clearances between them (1.0–1.5 mm). 🧵 3. Functional Screw Mechanisms Decorative Spiral Ridge (Exterior) Each box must display a visible decorative helical ridge encircling the upper outer surface. This decorative ridge does not function as the actual screw thread. It must be smoothly integrated into the outer shell and printable without supports. Internal Functional Screw Threads (Hidden) Each container must have a hidden internal functional screw thread located inside the upper section of the container. Each lid must have the matching internal or external thread required to screw onto its container. Functional thread requirements: Single-start helical thread Rounded or gently chamfered profile Completely FDM-printable with no unsupported angles >45° Requires ¾ to 1¼ turns of rotation to open or close Thread occupies 20–30% of the container’s upper height Each container must operate independently and have its own fully functional screw-top lid. 🔩 4. Hidden Multi-Screw Fastening System (Described Clearly) Each container must include an internal multi-screw fastening pattern that can be used to secure the lid or internal components before the user engages the functional screw thread. These screw-fastening requirements must be implemented as follows: Include multiple internal screw posts and internal recessed screw holes located inside the box, where they are not visible externally. These screw posts must be thin and lightweight to minimize filament usage. Recommended screw size: M3 or M4 machine screws (user-replaceable hardware). Each box should contain multiple screw-post locations (20–50 locations per box is acceptable) arranged around the interior perimeter or lid region. The screw holes must be recessed and positioned so that screws can only be accessed once the box is opened, but must not break the outer gift-box aesthetic. This system creates an additional internal fastening layer inside each container, but without making any external screw heads visible. 📏 5. Inner Container — Filament Spool Storage Requirements The innermost container must provide a usable interior cavity of at least: ≥ 220 mm × 220 mm footprint ≥ 300 mm internal height This allows storage of four 1kg filament spools stacked vertically: Spool diameter: ~200–210 mm Spool thickness: ~65–70 mm each Interior surfaces must be smooth so spools can be inserted and removed without snagging. Walls: 2.0–2.5 mm where structurally reasonable. 🧱 6. Segmented Construction (All Containers and Lids) To ensure all pieces can be printed on a 200 × 200 × 200 mm printer: Segmentation Rules Each container must be divided into 4–10 tall vertical segments. Each lid must be divided into 2–4 segments. Segmentation must be only vertical (no horizontal slicing). Joinery must be internal, lightweight, and filament-efficient: thin alignment ribs stepped interfaces minimal keyed shapes Joinery must allow precise gluing without excessive overlap or mass. Joinery clearance: 0.15–0.25 mm External surfaces must remain clean, with seams only where decorative accents exist. 🪶 7. Low-Filament Design Requirements Every element of all containers must optimize material usage: Wall thickness: 2.0–2.5 mm wherever possible Lightweight ribs only where needed inside boxes Minimal solid mass Hollow structures preferred Decorative details should be shallow surface textures Screw posts should be as thin as practical while functional Avoid heavy overlaps or thick joinery Middle and outer containers should remain primarily hollow 🖨️ 8. Printability Constraints For all parts: Must fit inside 200 × 200 × 200 mm per segment No overhang exceeding 45° All STL parts must be: manifold watertight support-free where reasonable glue-ready with flat or gently curved bonding surfaces 📁 9. Required Output Files Provide the following: STL segments for each outer container STL segments for each middle container STL segments for each inner container STL segments for each of the three lids A fully assembled STL of each container A full assembly STL showing all three containers nested together All files must be clearly named and consistently aligned.
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Anonymous1763410677
Anonymous1763410677