diff --git a/docs/images/lib-crystal_ball-1.JPG b/docs/images/lib-crystal_ball-1.JPG index 27bca0f6..ce466547 100644 Binary files a/docs/images/lib-crystal_ball-1.JPG and b/docs/images/lib-crystal_ball-1.JPG differ diff --git a/docs/lib-crystal_ball.md b/docs/lib-crystal_ball.md index 220bf651..c9b3f4fe 100644 --- a/docs/lib-crystal_ball.md +++ b/docs/lib-crystal_ball.md @@ -9,6 +9,7 @@ Uses spherical coordinate system to create a crystal ball. - `radius` : The radial distance r. - `theta` : The azimuthal angle. It defaults to 360. It also accepts a 2 element vector. The first element of the vector is the beginning angle in degrees, and the second element is the ending angle. - `phi` : The polar angle. It defaults to 180. It also accepts a 2 element vector. The first element of the vector is the beginning angle in degrees, and the second element is the ending angle. +- `thickness` : The thickness of the ball. **Since:** 2.1. - `$fa`, `$fs`, `$fn` : Check [the circle module](https://en.wikibooks.org/wiki/OpenSCAD_User_Manual/Using_the_2D_Subsystem#circle) or [the sphere module](https://en.wikibooks.org/wiki/OpenSCAD_User_Manual/Primitive_Solids#sphere) for more details. The final fragments will be a multiple of 4 to fit edges. ## Examples @@ -18,29 +19,31 @@ Uses spherical coordinate system to create a crystal ball. include ; include ; include ; - + crystal_ball(radius = 6); - + translate([12, 0, 0]) - crystal_ball( - radius = 6, - theta = 270, - $fn = 12 - ); - + crystal_ball( + radius = 6, + theta = 270, + thickness = 1, + $fn = 12 + ); + translate([24, 0, 0]) - crystal_ball( - radius = 6, - theta = 270, - phi = 90, - $fn = 12 - ); - + crystal_ball( + radius = 6, + theta = 270, + phi = 90, + $fn = 12 + ); + translate([36, 0, 0]) - crystal_ball( - radius = 6, - theta = [-30, 270], - phi = [30, 60] - ); + crystal_ball( + radius = 6, + theta = [-30, 270], + phi = [30, 60], + thickness = 2 + ); ![crystal_ball](images/lib-crystal_ball-1.JPG)