My Customized Parametric Shaft Coupling

My Customized Parametric Shaft Coupling

thingiverse

This project has been designed using the features from Thingiverse, specifically a custom design called "Wooden nut driver". The creator has made available a customization tool to help users personalize their project. With this tool, various aspects of the wooden nut driver can be adjusted including its thickness and length. For instance, one could choose to make the device thicker, changing it from 4mm to 5mm for better grip on different types of bolts and nuts. To create the project as is: * Thickness: This value refers to how thick or thin a part is. Adjust this to match the design requirements or preferences. Set thickness to 4mm if that's the original setting. * Wall Thickness: Another important measurement in object designs, wall thickness decides the structural stability and weight distribution of parts. Adjust it to meet project goals with its default value being 1.6mm. Options include offset, gap, nut size, bolt head size, bridge dimensions (important for design accuracy and printing quality), length (for bolts and shafts where necessary), bolt Shaft (referring to bolt part dimension), second shaft length (shafts longer than primary), and finally washer & trap sizes which affect grip performance when used together. **Detailed Customization Options** - Offset: An adjustment made within designs that moves them outward or inward in specific parts, improving print accuracy or stability by aligning object pieces as they print. Its current value is 2. - Gap: Space measurements allowing more even design or to separate different parts on the object model; adjust to 0.3 as needed to fit specifications properly. - Nut Diameter & Bolt Head Size: The bolt used will determine what kind it should support in the first place, so this information comes preloaded with necessary sizes: for example, you can make these bigger by modifying settings (bolt head = 6.7; nut = 7.8), helping increase how snug they sit on different parts or giving extra security. - Bridge Dimension: Helps in accurate designs as it fills up missing links in objects before the model prints and gets solid. You can change its current value to a certain extent for precise fits if desired. - Length, Bolt Shaft & shaft2/1 Dimensions - The last part involves determining length according to bolt type specifications including 10 for longer pieces of rod materials involved as well having set 30, with shorter at five for smaller diameter requirements, all are available in these pre-existing settings which already come out with dimensions that perfectly align with every different aspect when applied correctly; therefore use 3.5 or modify length to specific needs if applicable. Instructions provided cover setting all given parameters including dimensions based upon your object printing purposes which you set as such during configuration of parts like offset distance gap sizes used across many different bolt heads together - a more detailed customization guide follows the current values listed: To begin: 1\. Thickness & wall measurements refer primarily to part size affecting object stability; adjust as needed. 2\. Offset increases object size or adds extra stability with value set at 2 for best fit, which also works for adjusting how objects stack up side by side correctly so print in place of offset space not available here due possibly running thin prints. 3\. Gap refers specifically to the physical space required for easy design execution that affects even placement & removal once printed because this area prevents collisions occurring later from over-pressing objects onto other ones made at lower or larger scales within prints. 4\. Bolts & nuts vary significantly across bolts like sizes here but standardize them by making use custom bolt specifications, pre-defined as 6.7 and 7.8mm to avoid common mistakes in usage. 5\. Bridge Dimensions determine complete printed designs & fills missing sections which prevent overprints or failed printing issues with value changed for better quality output desired always under consideration at all stages. Set the options provided accordingly while maintaining an eye on design feasibility before making any further adjustments since changing these factors requires a different mindset compared to simply scaling existing models due to structural constraints imposed during printing such that some of those pre-defined dimensions could be increased without disrupting functionality.

Download Model from thingiverse

With this file you will be able to print My Customized Parametric Shaft Coupling with your 3D printer. Click on the button and save the file on your computer to work, edit or customize your design. You can also find more 3D designs for printers on My Customized Parametric Shaft Coupling.