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DCC Bridge
Anonymous1771841627
02-23 11:41
Model Name
photobooth enclosure 3d model
Tags
machine
3d printing
realistic
Prompt
Design a fully parametric, modular, 3D-printable wedding photobooth enclosure optimized for FDM printing in PETG on a Bambu P2S printer. The enclosure shall appear as a transportable suitcase when closed, with integrated carrying handle and reinforced corners. The back side shall be a lockable service door with a mechanical latch and eyelet for a padlock. When opened, the internal structure shall form a rigid, closed cube protecting all internal components against theft and unauthorized access. The cube shall be mechanically lockable in the unfolded operating position. Target internal dimensions (clear inner volume): Width 420 mm × Height 360 mm × Depth 220 mm Wall thickness: 4 mm PETG Assembly using M5 screws and captive hex-nut pockets (8.2 mm hex, 4.5 mm depth). Front panel (user-facing side, clean design): The front shall be a single flat panel with only the following visible openings: • Rectangular window for a 10.1 inch touchscreen – Visible cutout size: 225 × 135 mm – Window centered horizontally – Lower edge positioned approx. 110 mm above the bottom edge • Circular camera lens opening – Diameter: 40 mm – Positioned 70 mm above the vertical center of the display window – Horizontally centered • Two square speaker openings – Cutout size: 62 × 62 mm – Mounted left and right of the display – Vertical center aligned with the display center The front panel shall be suitable for vinyl wrapping (smooth wedding-friendly exterior). Internal mounting (rear side of front panel): • Touchscreen mounted from the inside using a VESA-75 (75 × 75 mm) mounting pattern (M4 through holes). • Canon EOS M50 mounted on an adjustable internal camera plate with 1/4"-20 UNC tripod thread insert (use metal insert, not printed thread). • Provide cable routing channels for HDMI/USB/power and dummy battery cable, including strain relief features. Internal equipment bay (rear service side): The rear service door shall open fully to provide access to: • Fritzbox 7490 router mounted horizontally (lying flat) – Router envelope: 245 × 175 × 55 mm – Provide a mounting tray with cable clearance and ventilation gap • 3-outlet power strip mounted horizontally (lying flat) – Reserve internal space approx. 170 × 70 × 55 mm Provide cable management channels, mounting rails, and tie-down points. Ventilation system: Design passive and active ventilation for approx. 40–50 W heat dissipation: • Passive airflow: – Intake vents bottom left side – Exhaust vents top right side – Free vent opening area per side: minimum 80–120 cm² • Active cooling: – Provide mounting points for either • one 92 mm 5V fan (exhaust) OR • two 80 mm 5V fans (one intake bottom left, one exhaust top right) – Fan mounting holes: standard 71.5 mm square spacing for 80 mm fans – Include cable routing and vibration isolation mounts Add additional localized ventilation slots near: • Display rear area • Fritzbox mounting tray • Speaker chambers Structural and manufacturing requirements: • Modular construction: – Separate parts for: – Main enclosure shell – Front carrier plate – Rear service door – Internal equipment tray – Camera mounting plate • Reinforced ribs on large flat PETG panels to prevent warping • Tolerances for FDM printing: – Clearance between mating parts: 0.5–0.7 mm – Screw hole diameters oversized by +0.3 mm Output requirements: Generate: • Printable STL and 3MF files for all individual parts • Exploded view showing assembly order • Assembly drawing with screw positions and quantities • Suggested print orientation for each part (minimize warping on PETG) • Indicate recommended infill (20–30%) and wall thickness (3–4 mm) The design must be mechanically realistic and ready for real-world fabrication without further conceptual interpretation.
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Anonymous1771841627
Anonymous1771841627