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Quick release buckle

Quick release buckle

By John Oldman

HIGHLIGHTS
  • Easy to 3D print
  • For bags and backpacks
OVERVIEW

Does not require support nor draft, can be printed quickly (around 30 min) depending on size.

Can be used as a replacement for existing bags or DIY bags.

DESIGN REQUIREMENTS
Machine The component will be designed to the chosen machine specifications =
Material Only the selected materials will be considered for the design =
PLA +2
Belt width If you would like the belt to be a bit loose, add some margin here = mm
Belt thickness Thinkess of the belt. If you like the belt to be a bit loose, add thickness here = mm

ADVANCED
Force max The buckle will not fail for loads up to this value. (Note 10 N are approximately 1 kg force) N
Height max The buckle height will not exceed this value mm
Mass Component mass will not exceed this value kg
Temp min Will work down to min temperature or lower °C
Temp max Will work up to max temperature or above it °C

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.zip folder with

FILE Printing handbook .pdf A copy your design requirements .txt Bill of materials .csv 3D models approx. 250kB

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SUGGESTIONS

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3D PRINTER SETTINGS

Nozzle d Nozzle diameter. If possible, features thickness will be chosen as a multiple of this value. = mm
Min layer t Minimum layer thickness. Smallest height which ensures good quality. = mm
Min w Minimum width which ensure a good quality print. This is the thinnest wall you can print. = mm
Min tol Minimum tolerance. The smallest value x such that a cylinder of diameter d will fit in a hole of diameter d+x. = mm
Pip tol Print-in-place tolerance: defined as Minimum tolerance, but with the cylinder printed inside the hole. = mm
Printer bed size x Size of the printing bed = mm
Printer bed size y Size of the printing bed, perpendicular to x = mm
Printer max h Maximum height for a printed part = mm
Max bridge Max length for a bridge = mm
Max overhang Max overhang angle, measured from the vertical (90 deg is horizontal). = deg
Francesco

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