![]() We save the File and ShortSide and then modify the height field to be a fourth of the inner height. We can just modify the length field of the LongSide Cube and save it with another name. ![]() ![]() The lenght of these sides is the inner width, the width is the material thickness and the height is the same as for the long sides. The width is the thickness of the material, the length is the same as the length of the bottom and the height is the inner height plus the material thicknes.Īfter saving this cube to a file names LongSide we get to the short sides. The width is the inner lenght plus four times the material thickness. The length of the bottom is the inner with plus 2 times the material thickness for the side pieces. It does not matter which dimension is the thickness so we can also use the height field of the cube for the material thickness. The formulas are entered as we did in part 1 of this series. This would be for example master#p.material. This cube gets then dimensions from the spreadsheet in the format filename, hashtag, table name, dot, variable name. Next we create a new file for each individual board. We save the file with the spreadsheet under the filename master. ![]() We covered the creation of spreadsheets and how to install this macro on the last tutorial. We use a macro to create aliases for these numbers so that we can refer to them by name The first step is to create this spreadsheet with all the dimensions.įor the box these are the material thickness, as well as the inner width, height and length. We have a shorter overview article on this toolbox but in this video we will use FreeCAD version 0.19 and slowly go step by step through the assembly process. In this tutorial we create step by step an assembly of a Japanese toolbox in FreeCAD. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |