Added SMD diodes, inductors and potentiometers.

Complete set of components added to MP1584EN buck regulator.
Updated changelog.
2025-09-05 05:01:44 +02:00 · 2023-01-12 23:00:21 +00:00 · 2023-01-07 11:12:43 +00:00 · 2023-01-07 11:09:46 +00:00 · 2023-01-07 11:03:12 +00:00 · 2023-01-07 10:50:32 +00:00
44 changed files with 1019 additions and 239 deletions
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
@@ -3,6 +3,72 @@
 This changelog is generated by `changelog.py` using manually added semantic version tags to classify commits as breaking changes, additions or fixes.
 #### [v20.18.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.18.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.18.0...v20.18.1 "diff with v20.18.0")
 *   2023-01-07 [`ec3e752`](https://github.com/nophead/NopSCADlib/commit/ec3e752fc5b5586ef5ac838c709ab4b704dac817 "show commit") [C.](# "Chris") Added missing documentation for `hinge_female()` module.
 ### [v20.18.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.18.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.17.0...v20.18.0 "diff with v20.17.0")
 *   2023-01-07 [`8587d52`](https://github.com/nophead/NopSCADlib/commit/8587d52d1b87dc9932c7e458798d4a6f3722a371 "show commit") [C.](# "Chris") Added `screw_keyhole()` module.
 ### [v20.17.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.17.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.16.0...v20.17.0 "diff with v20.16.0")
 *   2023-01-07 [`cec8c3a`](https://github.com/nophead/NopSCADlib/commit/cec8c3a107b81f8badb4e2077a318cc36fcdd481 "show commit") [C.](# "Chris") Added printed LED bezels.
 ### [v20.16.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.16.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.15.2...v20.16.0 "diff with v20.15.2")
 *   2023-01-07 [`848dcb8`](https://github.com/nophead/NopSCADlib/commit/848dcb86b9f1d9a164366208da76faea6d6050f1 "show commit") [C.](# "Chris") Added 8mm LED.
 #### [v20.15.2](https://github.com/nophead/NopSCADlib/releases/tag/v20.15.2 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.15.1...v20.15.2 "diff with v20.15.1")
 *   2023-01-07 [`a31f6f1`](https://github.com/nophead/NopSCADlib/commit/a31f6f100ce18168594b02a25d5229536f02a65c "show commit") [C.](# "Chris") Revised LED dimensions.
 *   2023-01-07 [`b3dd635`](https://github.com/nophead/NopSCADlib/commit/b3dd635889f7ed4f779ee9408ff81ac64cb1f7ec "show commit") [C.](# "Chris") Fixed duplicated `dxf()` calls in printed box and `butt_box`.
 Client code now calls `dxf()` so that the generated files can be used to speed up assembly views.
 #### [v20.15.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.15.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.15.0...v20.15.1 "diff with v20.15.0")
 *   2022-12-06 [`e256801`](https://github.com/nophead/NopSCADlib/commit/e256801206189eafcf020cc7fdb50fff4314c397 "show commit") [C.P.](# "Chris Palmer") Added comment to indicate the `.py` suffix may be needed on linux and OSX.
 ### [v20.15.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.15.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.14.1...v20.15.0 "diff with v20.14.1")
 *   2022-12-05 [`9dc8062`](https://github.com/nophead/NopSCADlib/commit/9dc8062befa72c6650b17d34428bfe39e709fdc2 "show commit") [M.W.](# "Marek Wodzinski") Include `terminal.scad` in `lib.scad` to allow use of `terminal_block()`.
 #### [v20.14.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.14.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.14.0...v20.14.1 "diff with v20.14.0")
 *   2022-10-20 [`f2313a3`](https://github.com/nophead/NopSCADlib/commit/f2313a3f0ccbb130a7bd974b9a02f5ef6841f39e "show commit") [D.](# "drf5n") update `nuts.scad` table comment
 * Change comment about nut sizes from radius to diameter.
 *   2022-09-29 [`d95e1e6`](https://github.com/nophead/NopSCADlib/commit/d95e1e64edba4ef51852a1e72d00497154c80c88 "show commit") [C.](# "Chris") Udated changelog.
 ### [v20.14.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.14.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.13.0...v20.14.0 "diff with v20.13.0")
 *   2022-09-29 [`f1737d2`](https://github.com/nophead/NopSCADlib/commit/f1737d257b54957772ab6faea102f8ddb829119b "show commit") [C.](# "Chris") Updated images and readme.
 *   2022-09-27 [`ce258d6`](https://github.com/nophead/NopSCADlib/commit/ce258d6d4f1de5fbdda76a78b0ad2cbf1b41a3f9 "show commit") [J.R.](# "Jeroen Roos") Leadnuts: add nuthousing
 ### [v20.13.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.13.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.12.0...v20.13.0 "diff with v20.12.0")
 *   2022-09-27 [`ec85cc5`](https://github.com/nophead/NopSCADlib/commit/ec85cc5d4c76baedae670a5652194bd1799a7094 "show commit") [C.](# "Chris") Updated images and readme.
 *   2022-09-24 [`fb66954`](https://github.com/nophead/NopSCADlib/commit/fb6695471f935057a0949e55f70a39911ac81f4c "show commit") [J.R.](# "Jeroen Roos") Shaft coupling: Add flexible SC `/` 6x8 flexible SC
 * Added the possibility for shaft couplings to be flexible and added a 6x8
 example of such a coupling.
 ### [v20.12.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.12.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.11.0...v20.12.0 "diff with v20.11.0")
 *   2022-09-27 [`c9ac393`](https://github.com/nophead/NopSCADlib/commit/c9ac393c0c7b025b3e6ad9e1030d1b13f8b879c3 "show commit") [C.](# "Chris") Printed corner blocks now have a `short_insert` option.
 *   2022-09-27 [`208334a`](https://github.com/nophead/NopSCADlib/commit/208334a585ed0605bf7dbaab1050c060aa15edb7 "show commit") [C.](# "Chris") Printed box now has a short insert option.
 *   2022-09-27 [`3a17b89`](https://github.com/nophead/NopSCADlib/commit/3a17b89d5ceb69834b23ff6bc46523f2dfb15f99 "show commit") [C.](# "Chris") Added short inserts and M5 inserts.
 `screw_insert()` now takes a short flag.
 `screw_length()` can now be passed an insert object.
 *   2022-09-25 [`0f36c02`](https://github.com/nophead/NopSCADlib/commit/0f36c02b5e34b0b45d258ff8e6ed4536f0601d92 "show commit") [C.](# "Chris") Added `layer_height0` global variable and updated `round_to_layer()` to handle it.
 * Moved functions from `global_defs.scad` to `global.scad` so they get documented.
 ### [v20.11.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.11.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.10.3...v20.11.0 "diff with v20.10.3")
 *   2022-08-30 [`c1e4625`](https://github.com/nophead/NopSCADlib/commit/c1e4625382646faf6a00e78ac01e495a88169b35 "show commit") [C.](# "Chris") Replaced generic chips with SOIC8.
 Updated images and readme.
 *   2022-08-29 [`6059c5f`](https://github.com/nophead/NopSCADlib/commit/6059c5f5569a9fc2ba08e448bbf90328fb985ed3 "show commit") [C.](# "ChemicalXandco") add L9110S 2-Channel motor driver module
 #### [v20.10.3](https://github.com/nophead/NopSCADlib/releases/tag/v20.10.3 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.10.2...v20.10.3 "diff with v20.10.2")
 *   2022-08-03 [`4ceb6bd`](https://github.com/nophead/NopSCADlib/commit/4ceb6bd8639cd39ac39798b3eccd178526a56c13 "show commit") [C.](# "Chris") Fixed a gap in printed hinges.
 #### [v20.10.2](https://github.com/nophead/NopSCADlib/releases/tag/v20.10.2 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.10.1...v20.10.2 "diff with v20.10.1")
 *   2022-07-16 [`664d04a`](https://github.com/nophead/NopSCADlib/commit/664d04ad93c28c2614d5991e2b8dfa78964f6a99 "show commit") [C.](# "Chris") Now logs the time taken to run non OpenSCAD commands in `cmd_times.txt`
--- a/docs/usage.md
+++ b/docs/usage.md
@@ -28,6 +28,8 @@ by downloading https://github.com/nophead/NopSCADlib/archive/master.zip and unzi
 The `NopSCADlib/scripts` directory needs to be added to the executable search path, `PATH` on Windows and `path` on Linux and Mac.
 Note that on Linux and OSX the full file name including the `.py` will be needed.
 The installation can be tested by opening `NopSCADlib/libtest.scad` in the OpenSCAD GUI. It should render all the objects in the library in about 1 minute.
 Running `tests` from the command line will run all the tests in the `tests` directory and build the `readme.md` catalog for GitHub and render it to `readme.html`
--- a/global_defs.scad
+++ b/global_defs.scad
@@ -29,6 +29,7 @@ rr_green = [0, 146/255, 0];                                               // Rep
 crimson  = [220/255, 20/255, 60/255];
 layer_height    = is_undef($layer_height)    ? 0.25   : $layer_height;    // layer height when printing
 layer_height0   = is_undef($layer_height0)   ? layer_height : $layer_height0; // height of first layer if different
 extrusion_width = is_undef($extrusion_width) ? 0.5    : $extrusion_width; // filament width when printing
 nozzle          = is_undef($nozzle)          ? 0.45   : $nozzle;          // 3D printer nozzle
 cnc_bit_r       = is_undef($cnc_bit_r)       ? 1.2    : $cnc_bit_r;       // minimum tool radius when milling 2D objects
@@ -51,10 +52,7 @@ eps = 1/128;     // small fudge factor to stop CSG barfing on coincident faces.
 $fa = 6;
 $fs = extrusion_width / 2;
 function round_to_layer(z) = ceil(z / layer_height) * layer_height;         //! Round up to a multiple of layer_height.
 // Some additional named colours
 function grey(n) = [0.01, 0.01, 0.01] * n;                                  //! Generate a shade of grey to pass to color().
 silver           = [0.75, 0.75, 0.75];
 gold             = [255, 215,   0] / 255;
 brass            = [255, 220, 100] / 255;
--- a/lib.scad
+++ b/lib.scad
@@ -63,6 +63,7 @@ include <vitamins/spools.scad>
 include <vitamins/ssrs.scad>
 include <vitamins/stepper_motors.scad>
 include <vitamins/swiss_clips.scad>
 include <vitamins/terminal.scad>
 include <vitamins/toggles.scad>
 include <vitamins/transformers.scad>
 include <vitamins/tubings.scad>
--- a/libtest.png
+++ b/libtest.png
--- a/libtest.scad
+++ b/libtest.scad
@@ -74,6 +74,7 @@ use <tests/LDRs.scad>
 use <tests/LEDs.scad>
 use <tests/light_strips.scad>
 use <tests/linear_bearings.scad>
 use <tests/LED_bezel.scad>
 use <tests/LED_meters.scad>
 use <tests/magnets.scad>
 use <tests/microswitches.scad>
@@ -149,6 +150,9 @@ cable_grommets_y = 0;
 translate([x5, cable_grommets_y])
    cable_grommets();
 translate([x5, cable_grommets_y + 30])
    led_bezels();
 translate([x5 + 50, cable_grommets_y])
    ribbon_clamps();
@@ -279,6 +283,9 @@ translate([x0, pulleys_y])
 translate([x0, leadnuts_y])
    leadnuts();
 translate([x0 + 120, leadnuts_y])
    leadnuthousings();
 translate([x0, linear_bearings_y]) {
    linear_bearings();
    rods();
--- a/printed/box.scad
+++ b/printed/box.scad
@@ -453,8 +453,6 @@ module box_screw_hole_positions(type) {
 }
 module box_base_blank(type) { //! Generates a 2D template for the base sheet
    dxf(str(box_name(type), "_base"));
    difference() {
        sheet_2D(box_base_sheet(type), box_width(type), box_depth(type), box_sheet_r(type));
@@ -464,8 +462,6 @@ module box_base_blank(type) { //! Generates a 2D template for the base sheet
 }
 module box_top_blank(type) {  //! Generates a 2D template for the top sheet
    dxf(str(box_name(type), "_top"));
    difference() {
        sheet_2D(box_top_sheet(type), box_width(type), box_depth(type), box_sheet_r(type));
@@ -479,8 +475,6 @@ function subst_sheet(type, sheet) =
        sheet ? assert(sheet_thickness(sheet) == sheet_thickness(s)) sheet : s;
 module box_shelf_blank(type, sheet = false) { //! Generates a 2D template for a shelf sheet
    dxf(str(box_name(type), "_shelf"));
    difference() {
        sheet_2D(subst_sheet(type, sheet), box_width(type) - bezel_clearance, box_depth(type) - bezel_clearance, 1);
@@ -579,50 +573,44 @@ module box_shelf_bracket_section(type, rows, cols, x, y) { //! Generates section
            children();
 }
-module box_left_blank(type, sheet = false) { //! Generates a 2D template for the left sheet, `sheet` can be set to override the type
+module box_left_blank(type, sheet = false) //! Generates a 2D template for the left sheet, `sheet` can be set to override the type
    dxf(str(box_name(type), "_left"));
    sheet_2D(subst_sheet(type, sheet), box_depth(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
 }
 module box_right_blank(type, sheet = false) { //! Generates a 2D template for the right sheet, `sheet` can be set to override the type
    dxf(str(box_name(type), "_right"));
 module box_right_blank(type, sheet = false) //! Generates a 2D template for the right sheet, `sheet` can be set to override the type
    sheet_2D(subst_sheet(type, sheet), box_depth(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
 }
 module box_front_blank(type, sheet = false) { //! Generates a 2D template for the front sheet, `sheet` can be set to override the type
    dxf(str(box_name(type), "_front"));
 module box_front_blank(type, sheet = false) //! Generates a 2D template for the front sheet, `sheet` can be set to override the type
    sheet_2D(subst_sheet(type, sheet), box_width(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
 }
 module box_back_blank(type, sheet = false) { //! Generates a 2D template for the back sheet, `sheet` can be set to override the type
    dxf(str(box_name(type), "_back"));
 module box_back_blank(type, sheet = false) //! Generates a 2D template for the back sheet, `sheet` can be set to override the type
    sheet_2D(subst_sheet(type, sheet), box_width(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
 }
 module box_base(type)   //! Default base, can be overridden to customise
    render_2D_sheet(box_base_sheet(type))
-        box_base_blank(type);
+        dxf(str(box_name(type), "_base"))
            box_base_blank(type);
 module box_top(type)    //! Default top, can be overridden to customise
    render_2D_sheet(box_top_sheet(type))
-        box_top_blank(type);
+        dxf(str(box_name(type), "_top"))
            box_top_blank(type);
 module box_back(type)   //! Default back, can be overridden to customise
    render_2D_sheet(box_sheets(type))
-        box_back_blank(type);
+        dxf(str(box_name(type), "_back"))
            box_back_blank(type);
 module box_front(type)  //! Default front, can be overridden to customise
    render_2D_sheet(box_sheets(type))
-        box_front_blank(type);
+        dxf(str(box_name(type), "_front"))
            box_front_blank(type);
 module box_left(type)   //! Default left side, can be overridden to customise
    render_2D_sheet(box_sheets(type))
-        box_left_blank(type);
+        dxf(str(box_name(type), "_left"))
            box_left_blank(type);
 module box_right(type) //! Default right side, can be overridden to customise
    render_2D_sheet(box_sheets(type))
-        box_right_blank(type);
+        dxf(str(box_name(type), "_right"))
            box_right_blank(type);
--- a/printed/butt_box.scad
+++ b/printed/butt_box.scad
@@ -120,8 +120,6 @@ module bbox_drill_holes(type, t)
        drill(screw_clearance_radius(bbox_screw(type)), 0);
 module bbox_base_blank(type) { //! 2D template for the base
    dxf(str(bbox_name(type), "_base"));
    difference() {
        sheet_2D(bbox_base_sheet(type), bbox_width(type), bbox_depth(type), 1);
@@ -130,8 +128,6 @@ module bbox_base_blank(type) { //! 2D template for the base
 }
 module bbox_top_blank(type) { //! 2D template for the top
    dxf(str(bbox_name(type), "_top"));
    t = sheet_thickness(bbox_sheets(type));
    difference() {
@@ -147,8 +143,6 @@ function subst_sheet(type, sheet) =
        sheet ? assert(sheet_thickness(sheet) == sheet_thickness(s)) sheet : s;
 module bbox_left_blank(type, sheet = false) { //! 2D template for the left side
    dxf(str(bbox_name(type), "_left"));
    t = sheet_thickness(bbox_sheets(type));
    bb = sheet_thickness(bbox_base_sheet(type));
@@ -161,8 +155,6 @@ module bbox_left_blank(type, sheet = false) { //! 2D template for the left side
 }
 module bbox_right_blank(type, sheet = false) { //! 2D template for the right side
    dxf(str(bbox_name(type), "_right"));
    t = sheet_thickness(bbox_sheets(type));
    bb = sheet_thickness(bbox_base_sheet(type));
@@ -175,8 +167,6 @@ module bbox_right_blank(type, sheet = false) { //! 2D template for the right sid
 }
 module bbox_front_blank(type, sheet = false, width = 0) { //! 2D template for the front
    dxf(str(bbox_name(type), "_front"));
    t = sheet_thickness(bbox_sheets(type));
    bb = sheet_thickness(bbox_base_sheet(type));
    bt = sheet_thickness(bbox_top_sheet(type));
@@ -190,8 +180,6 @@ module bbox_front_blank(type, sheet = false, width = 0) { //! 2D template for th
 }
 module bbox_back_blank(type, sheet = false) { //! 2D template for the back
    dxf(str(bbox_name(type), "_back"));
    bb = sheet_thickness(bbox_base_sheet(type));
    t = sheet_thickness(bbox_sheets(type));
@@ -205,27 +193,33 @@ module bbox_back_blank(type, sheet = false) { //! 2D template for the back
 module bbox_base(type)  //! Default base, can be overridden to customise
    render_2D_sheet(bbox_base_sheet(type))
-        bbox_base_blank(type);
+        dxf(str(bbox_name(type), "_base"))
            bbox_base_blank(type);
 module bbox_top(type)   //! Default top, can be overridden to customise
    render_2D_sheet(bbox_top_sheet(type))
-        bbox_top_blank(type);
+        dxf(str(bbox_name(type), "_top"))
            bbox_top_blank(type);
 module bbox_back(type)  //! Default back, can be overridden to customise
    render_2D_sheet(bbox_sheets(type))
-        bbox_back_blank(type);
+        dxf(str(bbox_name(type), "_back"))
            bbox_back_blank(type);
 module bbox_front(type) //! Default front, can be overridden to customise
    render_2D_sheet(bbox_sheets(type))
-        bbox_front_blank(type);
+        dxf(str(bbox_name(type), "_front"))
            bbox_front_blank(type);
 module bbox_left(type)  //! Default left side, can be overridden to customise
    render_2D_sheet(bbox_sheets(type))
-        bbox_left_blank(type);
+        dxf(str(bbox_name(type), "_left"))
            bbox_left_blank(type);
 module bbox_right(type) //! Default right side, can be overridden to customise
    render_2D_sheet(bbox_sheets(type))
-        bbox_right_blank(type);
+        dxf(str(bbox_name(type), "_right"))
            bbox_right_blank(type);
 module _bbox_assembly(type, top = true, base = true, left = true, right = true, back = true, front = true) { //! The box assembly, wrap with a local copy without parameters
    width = bbox_width(type);
--- a/printed/camera_housing.scad
+++ b/printed/camera_housing.scad
@@ -23,7 +23,6 @@
 include <../core.scad>
 include <../vitamins/cameras.scad>
 use <../vitamins/pcb.scad>
 use <../vitamins/insert.scad>
 wall = 1.75;
 min_wall = 2 * extrusion_width;
--- a/printed/corner_block.scad
+++ b/printed/corner_block.scad
@@ -44,47 +44,49 @@ overshoot = 2;      // how far screw can overshoot the insert
 function corner_block_screw() = def_screw; //! Default screw type
-function corner_block_hole_offset(screw = def_screw) = //! Hole offset from the edge
+function corner_block_hole_offset(screw = def_screw, short_insert = false) = //! Hole offset from the edge
-    let(insert = screw_insert(screw))
+    let(insert = screw_insert(screw, short_insert))
        insert_length(insert) + max(overshoot + screw_clearance_radius(screw), insert_hole_radius(insert)) + 1;
 function corner_block_width(screw = def_screw, short_insert = false) = //! Block width, depth and height
    corner_block_hole_offset(screw, short_insert) + insert_outer_d(screw_insert(screw, short_insert)) / 2 + wall;
-function corner_block_width(screw = def_screw) = //! Block width, depth and height
+function corner_block_v_hole(screw = def_screw, short_insert = false) = //! Transform to bottom hole
-    corner_block_hole_offset(screw) + insert_outer_d(screw_insert(screw)) / 2 + wall;
+    let(offset = corner_block_hole_offset(screw, short_insert))
        translate([offset, offset]) * rotate([180, 0, 0]);
-function corner_block_v_hole(screw = def_screw) = let(offset = corner_block_hole_offset(screw)) translate([offset, offset]) * rotate([180, 0, 0]); //! Transform to bottom hole
+function corner_block_h_holes(screw = def_screw, short_insert = false) = //! List of transforms to side holes
-
+    let(offset = corner_block_hole_offset(screw, short_insert))
 function corner_block_h_holes(screw = def_screw) = //! List of transforms to side holes
    let(offset = corner_block_hole_offset(screw))
        [translate([offset, 0,      offset])                * rotate([90, 0,   0]),
         translate([0,      offset, offset - layer_height]) * rotate([90, 0, -90])];
-function corner_block_holes(screw) = concat([corner_block_v_hole(screw)], corner_block_h_holes(screw)); //! List of transforms to all holes
+function corner_block_holes(screw, short_insert = false) =  //! List of transforms to all holes
    concat([corner_block_v_hole(screw, short_insert)], corner_block_h_holes(screw, short_insert));
-module corner_block_v_hole(screw = def_screw) //! Place children at the bottom screw hole
+module corner_block_v_hole(screw = def_screw, short_insert = false) //! Place children at the bottom screw hole
-    multmatrix(corner_block_v_hole(screw))
+    multmatrix(corner_block_v_hole(screw, short_insert))
        children();
-module corner_block_h_holes(screw = def_screw, index = undef) //! Place children at the side screw holes
+module corner_block_h_holes(screw = def_screw, index = undef, short_insert = false) //! Place children at the side screw holes
-    for(p = !is_undef(index) ? [corner_block_h_holes(screw)[index]] : corner_block_h_holes(screw))
+    for(p = !is_undef(index) ? [corner_block_h_holes(screw, short_insert)[index]] : corner_block_h_holes(screw, short_insert))
        multmatrix(p)
            children();
-module corner_block_holes(screw = def_screw) //! Place children at all the holes
+module corner_block_holes(screw = def_screw, short_insert = false) //! Place children at all the holes
-    for(p = corner_block_holes(screw))
+    for(p = corner_block_holes(screw, short_insert))
        multmatrix(p)
            children();
-module corner_block(screw = def_screw, name = false) { //! Generate the STL for a printed corner block
+module corner_block(screw = def_screw, name = false, short_insert = false) { //! Generate the STL for a printed corner block
    r = 1;
-    cb_width = corner_block_width(screw);
+    cb_width = corner_block_width(screw, short_insert);
    cb_height = cb_width;
    cb_depth = cb_width;
-    insert = screw_insert(screw);
+    insert = screw_insert(screw, short_insert);
    corner_rad = insert_outer_d(insert) / 2 + wall;
-    offset = corner_block_hole_offset(screw);
+    offset = corner_block_hole_offset(screw, short_insert);
-    stl(name ? name : str("corner_block", "_M", screw_radius(screw) * 20))
+    stl(name ? name : str("corner_block", "_M", screw_radius(screw) * 20, short_insert ? "_s": ""))
        difference() {
            hull()  {
                translate([r, r])
@@ -110,53 +112,54 @@ module corner_block(screw = def_screw, name = false) { //! Generate the STL for
                    rotate([0, 90, 180])
                        rounded_cylinder(r = corner_rad, h = r, r2 = r);
            }
-            corner_block_v_hole(screw)
+            corner_block_v_hole(screw, short_insert)
                insert_hole(insert, overshoot);
-            corner_block_h_holes(screw)
+            corner_block_h_holes(screw, short_insert = short_insert)
                insert_hole(insert, overshoot, true);
            children();
        }
 }
-module corner_block_assembly(screw = def_screw, name = false) //! The printed block with inserts
+module corner_block_assembly(screw = def_screw, name = false, short_insert = false) //! The printed block with inserts
-assembly(name ? name : str("corner_block_M", 20 * screw_radius(screw)), ngb = true) {
+assembly(name ? name : str("corner_block_M", 20 * screw_radius(screw), short_insert ? "_s": ""), ngb = true) {
-    insert = screw_insert(screw);
+    insert = screw_insert(screw, short_insert);
    stl_colour(name ? pp2_colour : pp1_colour)
-        render() corner_block(screw, name) children();
+        render() corner_block(screw, name, short_insert) children();
-    corner_block_h_holes(screw)
+    corner_block_h_holes(screw, short_insert = short_insert)
        insert(insert);
-    corner_block_v_hole(screw)
+    corner_block_v_hole(screw, short_insert)
        insert(insert);
 }
-module fastened_corner_block_assembly(thickness, screw = def_screw, thickness_below = undef, thickness_side2 = undef, name = false, show_block = true, star_washers = true) { //! Printed block with all fasteners
+module fastened_corner_block_assembly(thickness, screw = def_screw, thickness_below = undef, thickness_side2 = undef, name = false, show_block = true, star_washers = true, short_insert = false) { //! Printed block with all fasteners
    thickness2 = !is_undef(thickness_below) ? thickness_below : thickness;
    thickness3 = !is_undef(thickness_side2) ? thickness_side2 : thickness;
-    function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, true);
+    insert = screw_insert(screw, short_insert);
    function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, insert);
    screw_length = screw_len(thickness);
    screw_length2 = screw_len(thickness2);
    screw_length3 = screw_len(thickness3);
    if(show_block)
-        corner_block_assembly(screw, name) children();
+        corner_block_assembly(screw, name, short_insert) children();
    if(thickness)
-        corner_block_h_holes(screw, 0)
+        corner_block_h_holes(screw, 0, short_insert)
            translate_z(thickness)
                screw_and_washer(screw, screw_length, star_washers);
    if(thickness3)
-        corner_block_h_holes(screw, 1)
+        corner_block_h_holes(screw, 1, short_insert)
            translate_z(thickness3)
                screw_and_washer(screw, screw_length3, star_washers);
    if(thickness2)
-        corner_block_v_hole(screw)
+        corner_block_v_hole(screw, short_insert)
            translate_z(thickness2)
                screw_and_washer(screw, screw_length2, star_washers);
 }
@@ -165,6 +168,10 @@ module corner_block_M20_stl() corner_block(M2_cap_screw);
 module corner_block_M25_stl() corner_block(M2p5_cap_screw);
 module corner_block_M30_stl() corner_block(M3_cap_screw);
 module corner_block_M40_stl() corner_block(M4_cap_screw);
 module corner_block_M20_s_stl() corner_block(M2_cap_screw, short_insert = true);
 module corner_block_M25_s_stl() corner_block(M2p5_cap_screw, short_insert = true);
 module corner_block_M30_s_stl() corner_block(M3_cap_screw, short_insert = true);
 module corner_block_M40_s_stl() corner_block(M4_cap_screw, short_insert = true);
 //
 //! 1. Lay the blocks out and place an M2 insert in each upward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -197,36 +204,69 @@ module corner_block_M30_assembly() corner_block_assembly(M3_cap_screw);
 //
 module corner_block_M40_assembly() corner_block_assembly(M4_cap_screw);
-function 2screw_block_width(screw = def_screw) = //! 2 screw block width is narrower, height and depth are as corner_block
+//
-    insert_outer_d(screw_insert(screw)) + 2 * wall;
+//! 1. Lay the blocks out and place an M2 insert in each upward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other two flat sides and repeat.
 //
 module corner_block_M20_s_assembly() corner_block_assembly(M2_cap_screw, short_insert = true);
-function 2screw_block_v_hole(screw = def_screw) = translate([0, corner_block_hole_offset(screw)]) * rotate([180, 0, 0]); //! Transform to bottom hole
+//
-function 2screw_block_h_hole(screw = def_screw) = translate([0, 0, corner_block_hole_offset(screw)]) * rotate([90, 0, 0]); //! Transform to front hole
+//! 1. Lay the blocks out and place an M2.5 insert in each upward facing hole.
-function 2screw_block_holes(screw) = concat([2screw_block_v_hole(screw)], [2screw_block_h_hole(screw)]); //! List of transforms to both holes
+//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other two flat sides and repeat.
 //
 module corner_block_M25_s_assembly() corner_block_assembly(M2p5_cap_screw, short_insert = true);
-module 2screw_block_v_hole(screw = def_screw) //! Place children at the bottom screw hole
+//
-    multmatrix(2screw_block_v_hole(screw))
+//! 1. Lay the blocks out and place an M3 insert in each upward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other two flat sides and repeat.
 //
 module corner_block_M30_s_assembly() corner_block_assembly(M3_cap_screw, short_insert = true);
 //
 //! 1. Lay the blocks out and place an M4 insert in each upward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other two flat sides and repeat.
 //
 module corner_block_M40_s_assembly() corner_block_assembly(M4_cap_screw, short_insert = true);
 function 2screw_block_width(screw = def_screw, short_insert = false) = //! 2 screw block width is narrower, height and depth are as corner_block
    insert_outer_d(screw_insert(screw, short_insert)) + 2 * wall;
 function 2screw_block_v_hole(screw = def_screw, short_insert = false) = translate([0, corner_block_hole_offset(screw, short_insert)]) * rotate([180, 0, 0]); //! Transform to bottom hole
 function 2screw_block_h_hole(screw = def_screw, short_insert = false) = translate([0, 0, corner_block_hole_offset(screw, short_insert)]) * rotate([90, 0, 0]); //! Transform to front hole
 function 2screw_block_holes(screw, short_insert = false) = concat([2screw_block_v_hole(screw, short_insert)], [2screw_block_h_hole(screw, short_insert)]); //! List of transforms to both holes
 module 2screw_block_v_hole(screw = def_screw, short_insert = false) //! Place children at the bottom screw hole
    multmatrix(2screw_block_v_hole(screw, short_insert))
        children();
-module 2screw_block_h_hole(screw = def_screw) //! Place children at the front screw hole
+module 2screw_block_h_hole(screw = def_screw, short_insert = false) //! Place children at the front screw hole
-    multmatrix(2screw_block_h_hole(screw))
+    multmatrix(2screw_block_h_hole(screw, short_insert))
        children();
-module 2screw_block_holes(screw = def_screw) //! Place children at both screw holes
+module 2screw_block_holes(screw = def_screw, short_insert = false) //! Place children at both screw holes
-    for(p = 2screw_block_holes(screw))
+    for(p = 2screw_block_holes(screw, short_insert))
        multmatrix(p)
            children();
-module 2screw_block(screw = def_screw, name = false) { //! Generate the STL for a printed 2screw block
+module 2screw_block(screw = def_screw, name = false, short_insert = false) { //! Generate the STL for a printed 2screw block
    r = 1;
-    cb_width = 2screw_block_width(screw);
+    cb_width = 2screw_block_width(screw, short_insert);
-    cb_height = corner_block_width(screw);
+    cb_height = corner_block_width(screw, short_insert);
    cb_depth = cb_height;
-    insert = screw_insert(screw);
+    insert = screw_insert(screw, short_insert);
    corner_rad = insert_outer_d(insert) / 2 + wall;
-    offset = corner_block_hole_offset(screw);
+    offset = corner_block_hole_offset(screw, short_insert);
-    stl(name ? name : str("2screw_block", "_M", screw_radius(screw) * 20))
+    stl(name ? name : str("2screw_block", "_M", screw_radius(screw) * 20, short_insert ? "_s" : ""))
        difference() {
            hull()  {
                translate([-cb_width / 2 + r, r])
@@ -245,43 +285,44 @@ module 2screw_block(screw = def_screw, name = false) { //! Generate the STL for
                    rotate([-90, 0, 180])
                        rounded_cylinder(r = corner_rad, h = r, r2 = r);
            }
-            2screw_block_v_hole(screw)
+            2screw_block_v_hole(screw, short_insert)
                insert_hole(insert, overshoot);
-            2screw_block_h_hole(screw)
+            2screw_block_h_hole(screw, short_insert)
                insert_hole(insert, overshoot, true);
            children();
        }
 }
-module 2screw_block_assembly(screw = def_screw, name = false) //! The printed block with inserts
+module 2screw_block_assembly(screw = def_screw, name = false, short_insert = false) //! The printed block with inserts
-assembly(name ? name : str("2screw_block_M", 20 * screw_radius(screw)), ngb = true) {
+assembly(name ? name : str("2screw_block_M", 20 * screw_radius(screw), short_insert ? "_s" :""), ngb = true) {
-    insert = screw_insert(screw);
+    insert = screw_insert(screw, short_insert);
    stl_colour(name ? pp2_colour : pp1_colour)
-        render() 2screw_block(screw, name) children();
+        render() 2screw_block(screw, name, short_insert) children();
-    2screw_block_holes(screw)
+    2screw_block_holes(screw, short_insert)
        insert(insert);
 }
-module fastened_2screw_block_assembly(thickness, screw = def_screw, thickness_below = undef, name = false, show_block = true, star_washers = true) { //! Printed block with fasteners
+module fastened_2screw_block_assembly(thickness, screw = def_screw, thickness_below = undef, name = false, show_block = true, star_washers = true, short_insert = false) { //! Printed block with fasteners
    thickness2 = !is_undef(thickness_below) ? thickness_below : thickness;
-    function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, true);
+    insert = screw_insert(screw, short_insert);
    function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, insert);
    screw_length = screw_len(thickness);
    screw_length2 = screw_len(thickness2);
    if(show_block)
-        2screw_block_assembly(screw, name) children();
+        2screw_block_assembly(screw, name, short_insert) children();
    if(thickness)
-        2screw_block_h_hole(screw)
+        2screw_block_h_hole(screw, short_insert)
            translate_z(thickness)
                screw_and_washer(screw, screw_length, star_washers);
    if(thickness2)
-        2screw_block_v_hole(screw)
+        2screw_block_v_hole(screw, short_insert)
            translate_z(thickness2)
                screw_and_washer(screw, screw_length2, star_washers);
 }
@@ -289,6 +330,11 @@ module 2screw_block_M20_stl() 2screw_block(M2_cap_screw);
 module 2screw_block_M25_stl() 2screw_block(M2p5_cap_screw);
 module 2screw_block_M30_stl() 2screw_block(M3_cap_screw);
 module 2screw_block_M40_stl() 2screw_block(M4_cap_screw);
 module 2screw_block_M20_s_stl() 2screw_block(M2_cap_screw, short_insert = true);
 module 2screw_block_M25_s_stl() 2screw_block(M2p5_cap_screw, short_insert = true);
 module 2screw_block_M30_s_stl() 2screw_block(M3_cap_screw, short_insert = true);
 module 2screw_block_M40_s_stl() 2screw_block(M4_cap_screw, short_insert = true);
 //
 //! 1. Lay the blocks out and place an M2 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -297,6 +343,14 @@ module 2screw_block_M40_stl() 2screw_block(M4_cap_screw);
 //
 module 2screw_block_M20_assembly() 2screw_block_assembly(M2_cap_screw);
 //
 //! 1. Lay the blocks out and place an M2 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other flat side and repeat.
 //
 module 2screw_block_M20_s_assembly() 2screw_block_assembly(M2_cap_screw, short_insert = true);
 //
 //! 1. Lay the blocks out and place an M2.5 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -305,6 +359,14 @@ module 2screw_block_M20_assembly() 2screw_block_assembly(M2_cap_screw);
 //
 module 2screw_block_M25_assembly() 2screw_block_assembly(M2p5_cap_screw);
 //
 //! 1. Lay the blocks out and place an M2.5 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other flat side and repeat.
 //
 module 2screw_block_M25_s_assembly() 2screw_block_assembly(M2p5_cap_screw, short_insert = true);
 //
 //! 1. Lay the blocks out and place an M3 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -313,6 +375,14 @@ module 2screw_block_M25_assembly() 2screw_block_assembly(M2p5_cap_screw);
 //
 module 2screw_block_M30_assembly() 2screw_block_assembly(M3_cap_screw);
 //
 //! 1. Lay the blocks out and place an M3 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other flat side and repeat.
 //
 module 2screw_block_M30_s_assembly() 2screw_block_assembly(M3_cap_screw, short_insert = true);
 //
 //! 1. Lay the blocks out and place an M4 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -320,3 +390,11 @@ module 2screw_block_M30_assembly() 2screw_block_assembly(M3_cap_screw);
 //! 1. Lay the blocks on each of their other flat side and repeat.
 //
 module 2screw_block_M40_assembly() 2screw_block_assembly(M4_cap_screw);
 //
 //! 1. Lay the blocks out and place an M4 insert in the forward facing hole.
 //! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
 //! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
 //! 1. Lay the blocks on each of their other flat side and repeat.
 //
 module 2screw_block_M40_s_assembly() 2screw_block_assembly(M4_cap_screw, short_insert = true);
--- a/printed/flat_hinge.scad
+++ b/printed/flat_hinge.scad
@@ -119,7 +119,8 @@ module hinge_male(type, female = false) {       //! The half with the stationary
        }
 }
-module hinge_female(type) hinge_male(type, true);
+module hinge_female(type) //! The half without the pin
    hinge_male(type, true);
 module hinge_both(type) { //! Both parts together for printing
    hinge_male(type);
--- a/printed/led_bezel.scad
+++ b/printed/led_bezel.scad
@@ -0,0 +1,85 @@
 //
 // NopSCADlib Copyright Chris Palmer 2022
 // nop.head@gmail.com
 // hydraraptor.blogspot.com
 //
 // This file is part of NopSCADlib.
 //
 // NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
 // GNU General Public License as published by the Free Software Foundation, either version 3 of
 // the License, or (at your option) any later version.
 //
 // NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
 // without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
 // See the GNU General Public License for more details.
 //
 // You should have received a copy of the GNU General Public License along with NopSCADlib.
 // If not, see <https://www.gnu.org/licenses/>.
 //
 //
 //! Printed LED bezels for panel mounting
 //
 include <../core.scad>
 use <../vitamins/led.scad>
 function led_bezel(led, flange = 1, flange_h = 1, wall = 1, height = 8) = [led, flange, flange_h, wall, height]; //! Constructor
 function led_bezel_led(type)      = type[0]; //! The LED
 function led_bezel_flange(type)   = type[1]; //! Flange width
 function led_bezel_flange_t(type) = type[2]; //! Flange thickness
 function led_bezel_wall(type)     = type[3]; //! Wall thickness
 function led_bezel_height(type)   = type[4]; //! Total height
 function led_bezel_r(type)   =     //! Radius of the tube
    corrected_radius(led_rim_dia(led_bezel_led(type)) / 2) + led_bezel_wall(type);
 function led_bezel_hole_r(type)   =     //! Panel hole radius
    led_bezel_r(type) + 0.1;
 module led_bezel(type) { //! Makes the STL for the bezel
    led = led_bezel_led(type);
    stl(str(led[0],"_bezel")) {
        rl = led_diameter(led) / 2;
        rr = led_rim_dia(led) / 2;
        wall = led_bezel_wall(type);
        poly_tube(or = rr + wall + led_bezel_flange(type), ir = rl, h = led_bezel_flange_t(type));              // Flange
        poly_tube(or = rl + wall,                          ir = rl, h = led_height(led) - rl - led_rim_t(led)); // Tube up to LED flange
        poly_tube(or = corrected_radius(rr) + wall,        ir = rr, h = led_bezel_height(type));                // Tube beyond the flange
    }
 }
 module led_bezel_retainer(type) { //! Makes the STL for the retaining ring
    led = led_bezel_led(type);
    stl(str(led[0],"_bezel_retainer")) {
        ir =  led_bezel_r(type);
        poly_tube(or = ir + led_bezel_wall(type), ir = ir, h = 4);
    }
 }
 module led_bezel_assembly(type, colour = "red") {//! Led bezel with LED
    led = led_bezel_led(type);
    assembly(str(led[0], "_", colour, "_bezel")) {
        translate_z(led_bezel_flange_t(type)) {
            vflip()
                stl_colour(pp1_colour)
                    led_bezel(type);
            translate_z(-led_height(led) + led_diameter(led) / 2)
                explode(-20)
                    led(led, colour);
        }
    }
 }
 module led_bezel_fastened_assembly(type, t, colour = "red") //! Led bezel fitted to panel with  and retaining ring
 {
    explode(20)
        led_bezel_assembly(type, colour);
    translate_z(-t)
        vflip()
            stl_colour(pp2_colour)
                explode(60)
                    led_bezel_retainer(type);
 }
--- a/printed/printed_box.scad
+++ b/printed/printed_box.scad
@@ -32,8 +32,8 @@ use <../vitamins/washer.scad>
 use <../vitamins/insert.scad>
 use <foot.scad>
-function pbox(name, wall, top_t, base_t, radius, size, foot = false, screw = false, ridges = [0, 0]) //! Construct a printed box property list
+function pbox(name, wall, top_t, base_t, radius, size, foot = false, screw = false, short_insert = false, ridges = [0, 0]) //! Construct a printed box property list
-    = concat([name, wall, top_t, base_t, foot, screw, radius, ridges], size);
+    = concat([name, wall, top_t, base_t, foot, screw, short_insert, radius, ridges], size);
 function pbox_name(type)       = type[0]; //! Name to allow more than one box in a project
 function pbox_wall(type)       = type[1]; //! Wall thickness
@@ -41,11 +41,12 @@ function pbox_top(type)        = type[2]; //! Top thickness
 function pbox_base(type)       = type[3]; //! Base thickness, can be zero for no base
 function pbox_foot(type)       = type[4]; //! Printed foot, can be false to suppress feet
 function pbox_base_screw(type) = type[5]; //! Screw type if no feet
-function pbox_radius(type)     = type[6]; //! Internal corner radius
+function pbox_short_insert(type)=type[6]; //! Use short inserts
-function pbox_ridges(type)     = type[7]; //! Ridge wavelength and amplitude
+function pbox_radius(type)     = type[7]; //! Internal corner radius
-function pbox_width(type)      = type[8]; //! Internal width
+function pbox_ridges(type)     = type[8]; //! Ridge wavelength and amplitude
-function pbox_depth(type)      = type[9]; //! Internal depth
+function pbox_width(type)      = type[9]; //! Internal width
-function pbox_height(type)     = type[10]; //! Internal height
+function pbox_depth(type)      = type[10]; //! Internal depth
 function pbox_height(type)     = type[11]; //! Internal height
 base_outset = 1;    // How much the base overlaps the inner dimensions
 base_overlap = 2;   // The width of ledge the base sits on
@@ -63,12 +64,12 @@ function pbox_total_height(type) =  //! Total height including base overlap
 function pbox_screw(type) =         //! Foot screw if got feet else base_screw
    let(foot = pbox_foot(type)) foot ? foot_screw(foot) : pbox_base_screw(type);
-function pbox_insert(type) = screw_insert(pbox_screw(type)); //! The insert for the base screws
+function pbox_insert(type) = screw_insert(pbox_screw(type), short = pbox_short_insert(type)); //! The insert for the base screws
 function pbox_washer(type) = screw_washer(pbox_screw(type)); //! The washer for the base screws
 function pbox_screw_length(type, panel_thickness = 0) =  //! Length of the base screw
    let(foot = pbox_foot(type), screw = pbox_screw(type))
-        screw_length(screw, pbox_base(type) + (foot ? foot_thickness(foot) : panel_thickness), 1, true);
+        screw_length(screw, pbox_base(type) + (foot ? foot_thickness(foot) : panel_thickness), 1,  pbox_insert(type));
 function pbox_mid_offset(type) = pbox_ridges(type).y + pbox_wall(type) / 2; // Offset to wall midpoint
--- a/readme.md
+++ b/readme.md
@@ -37,16 +37,17 @@ A list of changes classified as breaking, additions or fixes is maintained in [C
 <tr><td> <a href = "#Circlips">Circlips</a> </td><td> <a href = "#Modules">Modules</a> </td><td> <a href = "#Spools">Spools</a> </td><td> <a href = "#Foot">Foot</a> </td><td> <a href = "#Round">Round</a> </td><td></td></tr>
 <tr><td> <a href = "#Components">Components</a> </td><td> <a href = "#Nuts">Nuts</a> </td><td> <a href = "#Springs">Springs</a> </td><td> <a href = "#Handle">Handle</a> </td><td> <a href = "#Rounded_cylinder">Rounded_cylinder</a> </td><td></td></tr>
 <tr><td> <a href = "#DIP">DIP</a> </td><td> <a href = "#O_ring">O_ring</a> </td><td> <a href = "#Stepper_motors">Stepper_motors</a> </td><td> <a href = "#Knob">Knob</a> </td><td> <a href = "#Rounded_polygon">Rounded_polygon</a> </td><td></td></tr>
-<tr><td> <a href = "#D_connectors">D_connectors</a> </td><td> <a href = "#Opengrab">Opengrab</a> </td><td> <a href = "#Swiss_clips">Swiss_clips</a> </td><td> <a href = "#PCB_mount">PCB_mount</a> </td><td> <a href = "#Rounded_triangle">Rounded_triangle</a> </td><td></td></tr>
+<tr><td> <a href = "#D_connectors">D_connectors</a> </td><td> <a href = "#Opengrab">Opengrab</a> </td><td> <a href = "#Swiss_clips">Swiss_clips</a> </td><td> <a href = "#LED_bezel">LED_bezel</a> </td><td> <a href = "#Rounded_triangle">Rounded_triangle</a> </td><td></td></tr>
-<tr><td> <a href = "#Displays">Displays</a> </td><td> <a href = "#PCB">PCB</a> </td><td> <a href = "#Terminals">Terminals</a> </td><td> <a href = "#PSU_shroud">PSU_shroud</a> </td><td> <a href = "#Sector">Sector</a> </td><td></td></tr>
+<tr><td> <a href = "#Displays">Displays</a> </td><td> <a href = "#PCB">PCB</a> </td><td> <a href = "#Terminals">Terminals</a> </td><td> <a href = "#PCB_mount">PCB_mount</a> </td><td> <a href = "#Sector">Sector</a> </td><td></td></tr>
-<tr><td> <a href = "#Extrusion_brackets">Extrusion_brackets</a> </td><td> <a href = "#PCBs">PCBs</a> </td><td> <a href = "#Toggles">Toggles</a> </td><td> <a href = "#Pocket_handle">Pocket_handle</a> </td><td> <a href = "#Sweep">Sweep</a> </td><td></td></tr>
+<tr><td> <a href = "#Extrusion_brackets">Extrusion_brackets</a> </td><td> <a href = "#PCBs">PCBs</a> </td><td> <a href = "#Toggles">Toggles</a> </td><td> <a href = "#PSU_shroud">PSU_shroud</a> </td><td> <a href = "#Sweep">Sweep</a> </td><td></td></tr>
-<tr><td> <a href = "#Extrusions">Extrusions</a> </td><td> <a href = "#PSUs">PSUs</a> </td><td> <a href = "#Transformers">Transformers</a> </td><td> <a href = "#Press_fit">Press_fit</a> </td><td> <a href = "#Thread">Thread</a> </td><td></td></tr>
+<tr><td> <a href = "#Extrusions">Extrusions</a> </td><td> <a href = "#PSUs">PSUs</a> </td><td> <a href = "#Transformers">Transformers</a> </td><td> <a href = "#Pocket_handle">Pocket_handle</a> </td><td> <a href = "#Thread">Thread</a> </td><td></td></tr>
-<tr><td> <a href = "#Fans">Fans</a> </td><td> <a href = "#Panel_meters">Panel_meters</a> </td><td> <a href = "#Tubings">Tubings</a> </td><td> <a href = "#Printed_box">Printed_box</a> </td><td> <a href = "#Tube">Tube</a> </td><td></td></tr>
+<tr><td> <a href = "#Fans">Fans</a> </td><td> <a href = "#Panel_meters">Panel_meters</a> </td><td> <a href = "#Tubings">Tubings</a> </td><td> <a href = "#Press_fit">Press_fit</a> </td><td> <a href = "#Tube">Tube</a> </td><td></td></tr>
-<tr><td> <a href = "#Fuseholder">Fuseholder</a> </td><td> <a href = "#Pillars">Pillars</a> </td><td> <a href = "#Variacs">Variacs</a> </td><td> <a href = "#Printed_pulleys">Printed_pulleys</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Fuseholder">Fuseholder</a> </td><td> <a href = "#Pillars">Pillars</a> </td><td> <a href = "#Variacs">Variacs</a> </td><td> <a href = "#Printed_box">Printed_box</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Geared_steppers">Geared_steppers</a> </td><td> <a href = "#Pillow_blocks">Pillow_blocks</a> </td><td> <a href = "#Veroboard">Veroboard</a> </td><td> <a href = "#Ribbon_clamp">Ribbon_clamp</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Geared_steppers">Geared_steppers</a> </td><td> <a href = "#Pillow_blocks">Pillow_blocks</a> </td><td> <a href = "#Veroboard">Veroboard</a> </td><td> <a href = "#Printed_pulleys">Printed_pulleys</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Green_terminals">Green_terminals</a> </td><td> <a href = "#Pin_headers">Pin_headers</a> </td><td> <a href = "#Washers">Washers</a> </td><td> <a href = "#SSR_shroud">SSR_shroud</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Green_terminals">Green_terminals</a> </td><td> <a href = "#Pin_headers">Pin_headers</a> </td><td> <a href = "#Washers">Washers</a> </td><td> <a href = "#Ribbon_clamp">Ribbon_clamp</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Hot_ends">Hot_ends</a> </td><td> <a href = "#Potentiometers">Potentiometers</a> </td><td> <a href = "#Wire">Wire</a> </td><td> <a href = "#Screw_knob">Screw_knob</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Hot_ends">Hot_ends</a> </td><td> <a href = "#Potentiometers">Potentiometers</a> </td><td> <a href = "#Wire">Wire</a> </td><td> <a href = "#SSR_shroud">SSR_shroud</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Hygrometer">Hygrometer</a> </td><td> <a href = "#Pulleys">Pulleys</a> </td><td> <a href = "#Zipties">Zipties</a> </td><td> <a href = "#Socket_box">Socket_box</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Hygrometer">Hygrometer</a> </td><td> <a href = "#Pulleys">Pulleys</a> </td><td> <a href = "#Zipties">Zipties</a> </td><td> <a href = "#Screw_knob">Screw_knob</a> </td><td></td><td></td></tr>
 <tr><td></td><td></td><td></td><td> <a href = "#Socket_box">Socket_box</a> </td><td></td><td></td></tr>
 <tr><td></td><td></td><td></td><td> <a href = "#Strap_handle">Strap_handle</a> </td><td></td><td></td></tr>
 </table>
@@ -371,7 +372,7 @@ Individual teeth are not drawn, instead they are represented by a lighter colour
 |   1 | `belt(T2p5x6, [ ... ])` |  Belt T2.5 x 6mm x 130mm |
 |   1 | `belt(T5x10, [ ... ])` |  Belt T5 x 10mm x 130mm |
 |   1 | `belt(T5x6, [ ... ])` |  Belt T5 x 6mm x 130mm |
-|   2 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   2 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   2 | `pulley(GT2x16_toothed_idler)` |  Pulley GT2 idler 16 teeth |
 |   4 | `pulley(GT2x20_toothed_idler)` |  Pulley GT2 idler 20 teeth |
 |   6 | `pulley(GT2x16_plain_idler)` |  Pulley GT2 idler smooth 9.63mm |
@@ -1528,10 +1529,14 @@ Heatfit threaded inserts. Can be pushed into thermoplastics using a soldering ir
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | `insert(F1BM2)` |  Heatfit insert M2 |
+|   2 | `insert(F1BM2)` |  Heatfit insert M2 x 4mm |
-|   1 | `insert(F1BM2p5)` |  Heatfit insert M2.5 |
+|   1 | `insert(CNCKM2p5)` |  Heatfit insert M2.5 x 4mm |
-|   1 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   1 | `insert(F1BM2p5)` |  Heatfit insert M2.5 x 5.8mm |
-|   1 | `insert(F1BM4)` |  Heatfit insert M4 |
+|   1 | `insert(CNCKM3)` |  Heatfit insert M3 x 3mm |
 |   1 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   1 | `insert(CNCKM4)` |  Heatfit insert M4 x 4mm |
 |   1 | `insert(F1BM4)` |  Heatfit insert M4 x 8.2mm |
 |   2 | `insert(CNCKM5)` |  Heatfit insert M5 x 5.8mm |
 <a href="#top">Top</a>
@@ -1646,6 +1651,16 @@ Nuts for leadscrews.
 | `leadnut_od(type)` | Outer diameter of the shank |
 | `leadnut_pitch(type)` | Screw pitch |
 | `leadnut_screw(type)` | The type of the fixing screws |
 | `leadnuthousing_height(type)` | Height of housing |
 | `leadnuthousing_hole_pos(type)` | Offset from center for nut hole |
 | `leadnuthousing_length(type)` | Length of housing |
 | `leadnuthousing_mount_screw(type)` | Mounting screw |
 | `leadnuthousing_mount_screw_len(type)` | Mounting screw length |
 | `leadnuthousing_nut(type)` | Nut type this is suitable for |
 | `leadnuthousing_nut_screw_length(type)` | Length of mounting screw for nut |
 | `leadnuthousing_screw_dist_l(type)` | Distance between mounting holes length |
 | `leadnuthousing_screw_dist_w(type)` | Distance between mounting holes width |
 | `leadnuthousing_width(type)` | Width of housing |
 ### Functions
 | Function | Description |
@@ -1657,15 +1672,21 @@ Nuts for leadscrews.
 |:--- |:--- |
 | `leadnut(type)` | Draw specified leadnut |
 | `leadnut_screw_positions(type)` | Position children at the screw holes |
 | `leadnuthousing(type)` | Nut housing, to connect a lead nut to another object |
 | `leadnuthousing_nut_position(type)` | The position of the nut may be off-center, use this to get the position |
 | `leadnuthousing_nut_screw_positions(type)` | get screw positions to mount the nut to the nut housing |
 | `leadnuthousing_screw_positions(type)` | Get screw positions to mount the leadnut housing |
 ![leadnuts](tests/png/leadnuts.png)
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | `leadnut(LSN8x2)` |  Leadscrew nut 8 x 2 |
+|   1 | `nuthousing(LNHT8x2)` |  Lead Screw Nut Housing T8 |
 |   2 | `leadnut(LSN8x2)` |  Leadscrew nut 8 x 2 |
 |   1 | `leadnut(LSN8x8)` |  Leadscrew nut 8 x 8 RobotDigg |
 |   1 | `leadnut(SFU1610)` |  Leadscrew nut for SFU1610 |
 |   4 | `screw(M3_cap_screw, 15)` |  Screw M3 cap x 15mm |
 <a href="#top">Top</a>
@@ -1768,9 +1789,10 @@ Standard domed through hole LEDs. Can specify colour and lead length.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | `led(LED10mm)` |  LED 10 mm red |
+|   1 | `led(LED10mm, "orange")` |  LED 10 mm orange |
 |   1 | `led(LED3mm, "green")` |  LED 3 mm green |
 |   1 | `led(LED5mm, "blue")` |  LED 5 mm blue |
 |   1 | `led(LED8mm)` |  LED 8 mm red |
 <a href="#top">Top</a>
@@ -2416,14 +2438,17 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | `box_header(2p54header, 4, 2)` |  Box header 4 x 2 |
 |   1 | `d_plug(DCONN9, pcb = true)` |  D-type 9 way PCB mount plug |
 |   1 | `dil_socket(12, 15.24)` |  DIL socket 24 x 0.6" |
 |   1 | `smd_diode(DO241AC)` |  DO241AC package SS34 |
 |   1 | `hdmi(hdmi_full)` |  HDMI socket |
 |   1 | `pdip(24, 27C32, w = 15.24)` |  IC 27C32 PDIP24 |
 |   1 | `pdip(8, NE555)` |  IC NE555 PDIP8 |
 |   1 | `idc_transition(2p54header, 5)` |  IDC transition header 5 x 2 |
 |   1 | `smd_inductor(IND2525)` |  IND2525 package 4R7 |
 |   1 | `potentiometer(KY_040_encoder)` |  KY_040_encoder |
 |   1 | `led(LED10mm, "yellow")` |  LED 10 mm yellow |
 |   1 | `led(LED3mm)` |  LED 3 mm red |
 |   1 | `led(LED5mm, "orange")` |  LED 5 mm orange |
 |   1 | `led(LED8mm, "blue")` |  LED 8 mm blue |
 |   1 | `microswitch(small_microswitch)` |  Microswitch DM1-00P-110-3 |
 |   1 | `hdmi(hdmi_mini)` |  Mini HDMI socket |
 |   1 | `molex_254(2)` |  Molex KK header 2 way |
@@ -2454,6 +2479,7 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | `smd_sot(SOT23)` |  SOT23 package 2N7000 |
 |   1 | `square_button(button_4p5mm)` |  Square button 4.5mm |
 |   1 | `square_button(button_6mm)` |  Square button 6mm |
 |   1 | `smd_pot(TC33X1)` |  TC33X1 package 10K |
 |   1 | `pcb(TMC2130)` |  TMC2130 |
 |   1 | `green_terminal(gt_5p08, 2)` |  Terminal block 2 way 0.2" |
 |   2 | `green_terminal(gt_6p35, 2)` |  Terminal block 2 way 0.25" |
@@ -2585,6 +2611,7 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | `pcb(ExtruderPCB)` |  Extruder connection PCB - not shown |
 |   1 | `pcb(KY_040)` |  KY-040 rotart encoder breakout |
 |   1 | `pcb(Keyes5p1)` |  Keyes5.1 Arduino Uno expansion board - not shown |
 |   1 | `pcb(L9110S)` |  L9110S 2-Channel motor driver module |
 |   1 | `pcb(LIPO_fuel_gauge)` |  LIPO fuel gauge |
 |   1 | `pcb(MP1584EN)` |  MP1584EN 3A buck converter |
 |   1 | `pcb(MT3608)` |  MT3608 boost converter module |
@@ -2595,7 +2622,7 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | `molex_254(3)` |  Molex KK header 3 way - not shown |
 |  20 | `nut(M2_nut, nyloc = true)` |  Nut M2 x 1.6mm nyloc |
 |  30 | `nut(M2p5_nut, nyloc = true)` |  Nut M2.5 x 2.2mm nyloc |
-|  32 | `nut(M3_nut, nyloc = true)` |  Nut M3 x 2.4mm nyloc |
+|  36 | `nut(M3_nut, nyloc = true)` |  Nut M3 x 2.4mm nyloc |
 |   8 | `nut(M4_nut, nyloc = true)` |  Nut M4 x 3.2mm nyloc |
 |   1 | `pcb(PI_IO)` |  PI_IO V2 - not shown |
 |   1 | `pcb(PSU12V1A)` |  PSU 12V 1A - not shown |
@@ -2618,10 +2645,12 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   8 | `screw(M2p5_cap_screw, 30)` |  Screw M2.5 cap x 30mm |
 |   4 | `screw(M2p5_pan_screw, 20)` |  Screw M2.5 pan x 20mm |
 |   8 | `screw(M2p5_pan_screw, 25)` |  Screw M2.5 pan x 25mm |
-|  10 | `screw(M3_cap_screw, 16)` |  Screw M3 cap x 16mm |
+|   8 | `screw(M3_cap_screw, 16)` |  Screw M3 cap x 16mm |
-|  13 | `screw(M3_cap_screw, 30)` |  Screw M3 cap x 30mm |
+|   6 | `screw(M3_cap_screw, 20)` |  Screw M3 cap x 20mm |
-|   9 | `screw(M3_cap_screw, 35)` |  Screw M3 cap x 35mm |
+|   8 | `screw(M3_cap_screw, 30)` |  Screw M3 cap x 30mm |
-|   8 | `screw(M4_cap_screw, 35)` |  Screw M4 cap x 35mm |
+|  14 | `screw(M3_cap_screw, 35)` |  Screw M3 cap x 35mm |
 |   4 | `screw(M4_cap_screw, 35)` |  Screw M4 cap x 35mm |
 |   4 | `screw(M4_cap_screw, 40)` |  Screw M4 cap x 40mm |
 |   1 | `pcb(XIAO)` |  Seeeduino XIAO |
 |   1 | `pcb(TP4056)` |  TP4056 Li-lon Battery charger module |
 |   3 | `terminal_35(2)` |  Terminal block 2 way 3.5mm - not shown |
@@ -2630,34 +2659,37 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | `pcb(WD2002SJ)` |  WD2002SJ Buck Boost DC-DC converter |
 |  20 | `washer(M2_washer)` |  Washer  M2 x 5mm x 0.3mm |
 |  30 | `washer(M2p5_washer)` |  Washer  M2.5 x 5.9mm x 0.5mm |
-|  32 | `washer(M3_washer)` |  Washer  M3 x 7mm x 0.5mm |
+|  36 | `washer(M3_washer)` |  Washer  M3 x 7mm x 0.5mm |
 |   8 | `washer(M4_washer)` |  Washer  M4 x 9mm x 0.8mm |
 |   1 | `pcb(ZC_A0591)` |  ZC-A0591 ULN2003 driver PCB |
 ### Printed
 | Qty | Filename |
 | ---:|:--- |
-|   8 | pcb_spacer20100.stl |
+|   4 | pcb_spacer20100.stl |
 |   4 | pcb_spacer20110.stl |
 |   4 | pcb_spacer2070.stl |
 |   4 | pcb_spacer2080.stl |
 |   4 | pcb_spacer2090.stl |
 |   4 | pcb_spacer25120.stl |
 |   4 | pcb_spacer25130.stl |
-|   4 | pcb_spacer25140_2.stl |
+|   4 | pcb_spacer25140.stl |
 |   4 | pcb_spacer25150_2.stl |
-|   4 | pcb_spacer25170.stl |
+|   4 | pcb_spacer25160_2.stl |
 |   4 | pcb_spacer25180.stl |
 |   4 | pcb_spacer25190.stl |
 |   2 | pcb_spacer2550.stl |
-|   4 | pcb_spacer2580.stl |
+|   4 | pcb_spacer2590.stl |
-|   4 | pcb_spacer30160.stl |
+|   4 | pcb_spacer30170.stl |
-|   4 | pcb_spacer30190.stl |
+|   4 | pcb_spacer30200.stl |
 |   5 | pcb_spacer30200.stl |
 |   5 | pcb_spacer30210.stl |
-|   4 | pcb_spacer30220.stl |
+|   5 | pcb_spacer30220.stl |
 |   4 | pcb_spacer30230.stl |
 |   4 | pcb_spacer3050.stl |
-|   6 | pcb_spacer3060.stl |
+|   4 | pcb_spacer3060.stl |
-|   4 | pcb_spacer40230.stl |
+|   2 | pcb_spacer3070.stl |
 |   4 | pcb_spacer3080.stl |
 |   4 | pcb_spacer40240.stl |
 |   4 | pcb_spacer40250.stl |
 <a href="#top">Top</a>
@@ -3307,6 +3339,7 @@ For an explanation of `screw_polysink()` see <https://hydraraptor.blogspot.com/2
 |:--- |:--- |
 | `screw_boss_diameter(type)` | Boss big enough for nut trap and washer |
 | `screw_head_depth(type, d = 0)` | How far a counter sink head will go into a straight hole diameter d |
 | `screw_insert(screw, short = false, i = 0)` | Find insert to fit specified screw, defaults to longest but can specify the shortest |
 | `screw_length(screw, thickness, washers, insert = false, nyloc = false, nut = false, longer = false)` | Returns the length of the longest or shortest screw that will got through `thickness` and `washers` and possibly an `insert`, `nut` or `nyloc` |
 | `screw_longer_than(x)` | Returns the length of the shortest screw length longer or equal to x |
 | `screw_nut_radius(type)` | Radius of matching nut |
@@ -3319,6 +3352,7 @@ For an explanation of `screw_polysink()` see <https://hydraraptor.blogspot.com/2
 | `screw(type, length, hob_point = 0, nylon = false)` | Draw specified screw, optionally hobbed or nylon |
 | `screw_and_washer(type, length, star = false, penny = false)` | Screw with a washer which can be standard or penny and an optional star washer on top |
 | `screw_countersink(type, drilled = true)` | Countersink shape |
 | `screw_keyhole(type, h = 0)` | Make keyhole slot to accept and retain screw head |
 | `screw_polysink(type, h = 100, alt = false, sink = 0)` | A countersink hole made from stacked polyholes for printed parts, default is flush, `sink` can be used to recess the head |
 ![screws](tests/png/screws.png)
@@ -3470,6 +3504,7 @@ Shaft couplings
 | `sc_diameter(type)` | Coupling outer diameter |
 | `sc_diameter1(type)` | Diameter of smaller shaft |
 | `sc_diameter2(type)` | Diameter of larger shaft |
 | `sc_flexible(type)` | Flexible coupling |
 | `sc_length(type)` | Coupling length |
 ### Modules
@@ -3483,6 +3518,7 @@ Shaft couplings
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
 |   1 | `shaft_coupling(SC_5x8_rigid)` |  Shaft coupling SC_5x8_rigid |
 |   1 | `shaft_coupling(SC_6x8_flex)` |  Shaft coupling SC_6x8_flex |
 <a href="#top">Top</a>
@@ -3546,7 +3582,7 @@ When woven sheets (e.g. carbon fibre) are rendered it is necessary to specify th
 |   1 | `sheet(AL3, 30, 30, 2)` |  Aluminium tooling plate 30mm x 30mm x 3mm |
 |   1 | `sheet(AL6, 30, 30, 2)` |  Aluminium tooling plate 30mm x 30mm x 6mm |
 |   1 | `sheet(AL8, 30, 30, 2)` |  Aluminium tooling plate 30mm x 30mm x 8mm |
-|   1 | `sheet(Spring05, 30, 30, 2)` |  Bi-metal saw blade 30mm x 30mm x 0.5mm |
+|   1 | `sheet(Spring08, 30, 30, 2)` |  Bi-metal saw blade 30mm x 30mm x 0.8mm |
 |   1 | `sheet(Cardboard, 30, 30, 2)` |  Corrugated cardboard 30mm x 30mm x 5mm |
 |   1 | `sheet(Foam20, 30, 30, 2)` |  Foam sponge 30mm x 30mm x 20mm |
 |   1 | `sheet(DiBond, 30, 30, 2)` |  Sheet DiBond 30mm x 30mm x 3mm |
@@ -3642,8 +3678,22 @@ Surface mount components for PCBs.
 |:--- |:--- |
 | `smd_cap_end_cap(type)` | End cap width |
 | `smd_cap_size(type)` | Body length, width |
 | `smd_diode_lead_z(type)` | Top of lead frame from top |
 | `smd_diode_leads(type)` | Lead extent in x, width, thickness and gap |
 | `smd_diode_size(type)` | Body length, width and height |
 | `smd_diode_z(type)` | Height above PCB surface |
 | `smd_inductor_colour(type)` | Body colour |
 | `smd_inductor_lead_z(type)` | Top of lead frame from top |
 | `smd_inductor_leads(type)` | Lead extent in x, width, thickness and gap |
 | `smd_inductor_size(type)` | Body length, width and height |
 | `smd_inductor_z(type)` | Height above PCB surface |
 | `smd_led_lens(type)` | Lens length width and height |
 | `smd_led_size(type)` | Body length, width and height |
 | `smd_pot_contacts(type)` | Contacts width, depth, pitch and width, depth, gap for center contact |
 | `smd_pot_cross(type)` | Cross head slot for screwdriver |
 | `smd_pot_flat(type)` | Flat at the back of the wiper |
 | `smd_pot_size(type)` | Base length, width and height |
 | `smd_pot_wiper(type)` | Wiper diameter, offset, thickness, height, d1, d2, d3, d4 |
 | `smd_res_end_cap(type)` | End cap width |
 | `smd_res_power(type)` | Power rating in Watts |
 | `smd_res_size(type)` | Body length, width and height |
@@ -3672,7 +3722,10 @@ Surface mount components for PCBs.
 | Module | Description |
 |:--- |:--- |
 | `smd_capacitor(type, height, value = undef)` | Draw an SMD capacitor with specified height |
 | `smd_diode(type, value)` | Draw an SMD diode |
 | `smd_inductor(type, value)` | Draw an SMD inductor |
 | `smd_led(type, colour, cutout)` | Draw an SMD LED with specified `colour` |
 | `smd_pot(type, value)` | Draw an SMD pot |
 | `smd_resistor(type, value)` | Draw an SMD resistor with specified value |
 | `smd_soic(type, value)` | Draw an SMD SOIC |
 | `smd_sot(type, value)` | Draw an SMD transistor |
@@ -3682,6 +3735,8 @@ Surface mount components for PCBs.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
 |   1 | `smd_diode(DO241AC)` |  DO241AC package SS34 |
 |   1 | `smd_inductor(IND2525)` |  IND2525 package 4R7 |
 |   1 | `smd_led(LED0603, green)` |  SMD LED 0603 green |
 |   1 | `smd_led(LED0805, blue)` |  SMD LED 0805 blue |
 |   1 | `smd_led(LED1206, red)` |  SMD LED 1306 red |
@@ -3696,6 +3751,7 @@ Surface mount components for PCBs.
 |   1 | `smd_soic(SOIC8)` |  SOIC8 package SOIC8 |
 |   1 | `smd_sot(SOT223)` |  SOT223 package FZT851 |
 |   1 | `smd_sot(SOT23)` |  SOT23 package 2N7000 |
 |   1 | `smd_pot(TC33X1)` |  TC33X1 package 10K |
 <a href="#top">Top</a>
@@ -4573,7 +4629,7 @@ The top bezel can have an optional child, which is subtracted to allow modificat
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   8 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   8 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   4 | `screw(M3_dome_screw, 16)` |  Screw M3 dome x 16mm |
 |   4 | `screw(M3_dome_screw, 20)` |  Screw M3 dome x 20mm |
 |   2 | `sheet(DiBond, 143, 63, 1)` |  Sheet DiBond 143mm x 63mm x 3mm |
@@ -4677,7 +4733,7 @@ fixing_blocks along the sides.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|  60 | `insert(F1BM3)` |  Heatfit insert M3 |
+|  60 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |  44 | `screw(M3_dome_screw, 10)` |  Screw M3 dome x 10mm |
 |   4 | `screw(M3_dome_screw, 12)` |  Screw M3 dome x 12mm |
 |  12 | `screw(M3_dome_screw, 16)` |  Screw M3 dome x 16mm |
@@ -4923,42 +4979,42 @@ high lateral rigidity is not required.
 ### Functions
 | Function | Description |
 |:--- |:--- |
-| `2screw_block_h_hole(screw = def_screw)` | Transform to front hole |
+| `2screw_block_h_hole(screw = def_screw, short_insert = false)` | Transform to front hole |
-| `2screw_block_holes(screw)` | List of transforms to both holes |
+| `2screw_block_holes(screw, short_insert = false)` | List of transforms to both holes |
-| `2screw_block_v_hole(screw = def_screw)` | Transform to bottom hole |
+| `2screw_block_v_hole(screw = def_screw, short_insert = false)` | Transform to bottom hole |
-| `2screw_block_width(screw = def_screw)` | 2 screw block width is narrower, height and depth are as corner_block |
+| `2screw_block_width(screw = def_screw, short_insert = false)` | 2 screw block width is narrower, height and depth are as corner_block |
-| `corner_block_h_holes(screw = def_screw)` | List of transforms to side holes |
+| `corner_block_h_holes(screw = def_screw, short_insert = false)` | List of transforms to side holes |
-| `corner_block_hole_offset(screw = def_screw)` | Hole offset from the edge |
+| `corner_block_hole_offset(screw = def_screw, short_insert = false)` | Hole offset from the edge |
-| `corner_block_holes(screw)` | List of transforms to all holes |
+| `corner_block_holes(screw, short_insert = false)` | List of transforms to all holes |
 | `corner_block_screw()` | Default screw type |
-| `corner_block_v_hole(screw = def_screw)` | Transform to bottom hole |
+| `corner_block_v_hole(screw = def_screw, short_insert = false)` | Transform to bottom hole |
-| `corner_block_width(screw = def_screw)` | Block width, depth and height |
+| `corner_block_width(screw = def_screw, short_insert = false)` | Block width, depth and height |
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| `2screw_block(screw = def_screw, name = false)` | Generate the STL for a printed 2screw block |
+| `2screw_block(screw = def_screw, name = false, short_insert = false)` | Generate the STL for a printed 2screw block |
-| `2screw_block_assembly(screw = def_screw, name = false)` | The printed block with inserts |
+| `2screw_block_assembly(screw = def_screw, name = false, short_insert = false)` | The printed block with inserts |
-| `2screw_block_h_hole(screw = def_screw)` | Place children at the front screw hole |
+| `2screw_block_h_hole(screw = def_screw, short_insert = false)` | Place children at the front screw hole |
-| `2screw_block_holes(screw = def_screw)` | Place children at both screw holes |
+| `2screw_block_holes(screw = def_screw, short_insert = false)` | Place children at both screw holes |
-| `2screw_block_v_hole(screw = def_screw)` | Place children at the bottom screw hole |
+| `2screw_block_v_hole(screw = def_screw, short_insert = false)` | Place children at the bottom screw hole |
-| `corner_block(screw = def_screw, name = false)` | Generate the STL for a printed corner block |
+| `corner_block(screw = def_screw, name = false, short_insert = false)` | Generate the STL for a printed corner block |
-| `corner_block_assembly(screw = def_screw, name = false)` | The printed block with inserts |
+| `corner_block_assembly(screw = def_screw, name = false, short_insert = false)` | The printed block with inserts |
-| `corner_block_h_holes(screw = def_screw, index = undef)` | Place children at the side screw holes |
+| `corner_block_h_holes(screw = def_screw, index = undef, short_insert = false)` | Place children at the side screw holes |
-| `corner_block_holes(screw = def_screw)` | Place children at all the holes |
+| `corner_block_holes(screw = def_screw, short_insert = false)` | Place children at all the holes |
-| `corner_block_v_hole(screw = def_screw)` | Place children at the bottom screw hole |
+| `corner_block_v_hole(screw = def_screw, short_insert = false)` | Place children at the bottom screw hole |
-| `fastened_2screw_block_assembly(thickness, screw = def_screw, thickness_below = undef, name = false, show_block = true, star_washers = true)` | Printed block with fasteners |
+| `fastened_2screw_block_assembly(thickness, screw = def_screw, thickness_below = undef, name = false, show_block = true, star_washers = true, short_insert = false)` | Printed block with fasteners |
-| `fastened_corner_block_assembly(thickness, screw = def_screw, thickness_below = undef, thickness_side2 = undef, name = false, show_block = true, star_washers = true)` | Printed block with all fasteners |
+| `fastened_corner_block_assembly(thickness, screw = def_screw, thickness_below = undef, thickness_side2 = undef, name = false, show_block = true, star_washers = true, short_insert = false)` | Printed block with all fasteners |
 ![corner_block](tests/png/corner_block.png)
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   5 | `insert(F1BM2)` |  Heatfit insert M2 |
+|   5 | `insert(F1BM2)` |  Heatfit insert M2 x 4mm |
-|   5 | `insert(F1BM2p5)` |  Heatfit insert M2.5 |
+|   5 | `insert(F1BM2p5)` |  Heatfit insert M2.5 x 5.8mm |
-|   5 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   5 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
-|   5 | `insert(F1BM4)` |  Heatfit insert M4 |
+|   5 | `insert(F1BM4)` |  Heatfit insert M4 x 8.2mm |
 |   5 | `screw(M2_cap_screw, 8)` |  Screw M2 cap x  8mm |
 |   5 | `screw(M2p5_pan_screw, 10)` |  Screw M2.5 pan x 10mm |
 |   5 | `screw(M3_dome_screw, 10)` |  Screw M3 dome x 10mm |
@@ -5247,10 +5303,10 @@ Star washers can be omitted by setting `star_washers` to false.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   3 | `insert(F1BM2)` |  Heatfit insert M2 |
+|   3 | `insert(F1BM2)` |  Heatfit insert M2 x 4mm |
-|   3 | `insert(F1BM2p5)` |  Heatfit insert M2.5 |
+|   3 | `insert(F1BM2p5)` |  Heatfit insert M2.5 x 5.8mm |
-|   3 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   3 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
-|   3 | `insert(F1BM4)` |  Heatfit insert M4 |
+|   3 | `insert(F1BM4)` |  Heatfit insert M4 x 8.2mm |
 |   3 | `screw(M2_cap_screw, 8)` |  Screw M2 cap x  8mm |
 |   3 | `screw(M2p5_pan_screw, 10)` |  Screw M2.5 pan x 10mm |
 |   3 | `screw(M3_dome_screw, 10)` |  Screw M3 dome x 10mm |
@@ -5325,6 +5381,7 @@ This allows the hinges and one set of screws to belong to one assembly and the o
 |:--- |:--- |
 | `hinge_both(type)` | Both parts together for printing |
 | `hinge_fastened_assembly(type, thickness1, thickness2, angle, show_hinge = true)` | Assembled hinge with its fasteners |
 | `hinge_female(type)` | The half without the pin |
 | `hinge_male(type, female = false)` | The half with the stationary pin |
 | `hinge_screw_positions(type)` | Place children at the screw positions |
@@ -5397,7 +5454,7 @@ inserts don't grip well in rubber.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   1 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   1 | `nut(M4_nut, nyloc = true)` |  Nut M4 x 3.2mm nyloc |
 |   1 | `screw(M3_cap_screw, 8)` |  Screw M3 cap x  8mm |
 |   1 | `screw(M4_cap_screw, 16)` |  Screw M4 cap x 16mm |
@@ -5450,7 +5507,7 @@ Printed handle that can be printed without needing support material due to its t
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   2 | `insert(F1BM4)` |  Heatfit insert M4 |
+|   2 | `insert(F1BM4)` |  Heatfit insert M4 x 8.2mm |
 |   2 | `screw(M4_cap_screw, 16)` |  Screw M4 cap x 16mm |
 |   2 | `washer(M4_washer)` |  Washer  M4 x 9mm x 0.8mm |
 |   2 | `star_washer(M4_washer)` |  Washer star M4 x 0.8mm |
@@ -5535,6 +5592,72 @@ The STL includes a support membrane that needs to be cut out and a thread needs
 |   1 | metric_pot_knob.stl |
 <a href="#top">Top</a>
 ---
 <a name="LED_bezel"></a>
 ## LED_bezel
 Printed LED bezels for panel mounting
 [printed/led_bezel.scad](printed/led_bezel.scad) Implementation.
 [tests/LED_bezel.scad](tests/LED_bezel.scad) Code for this example.
 ### Properties
 | Function | Description |
 |:--- |:--- |
 | `led_bezel_flange(type)` | Flange width |
 | `led_bezel_flange_t(type)` | Flange thickness |
 | `led_bezel_height(type)` | Total height |
 | `led_bezel_led(type)` | The LED |
 | `led_bezel_wall(type)` | Wall thickness |
 ### Functions
 | Function | Description |
 |:--- |:--- |
 | `led_bezel(led, flange = 1, flange_h = 1, wall = 1, height = 8)` | Constructor |
 | `led_bezel_hole_r(type)` | Panel hole radius |
 | `led_bezel_r(type)` | Radius of the tube |
 ### Modules
 | Module | Description |
 |:--- |:--- |
 | `led_bezel(type)` | Makes the STL for the bezel |
 | `led_bezel_assembly(type, colour = "red")` | Led bezel with LED |
 | `led_bezel_fastened_assembly(type, t, colour = "red")` | Led bezel fitted to panel with  and retaining ring |
 | `led_bezel_retainer(type)` | Makes the STL for the retaining ring |
 ![led_bezel](tests/png/led_bezel.png)
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
 |   1 | `led(LED10mm, "orange")` |  LED 10 mm orange |
 |   1 | `led(LED3mm, "yellow")` |  LED 3 mm yellow |
 |   1 | `led(LED5mm, "blue")` |  LED 5 mm blue |
 |   1 | `led(LED8mm)` |  LED 8 mm red |
 ### Printed
 | Qty | Filename |
 | ---:|:--- |
 |   1 | LED10mm_bezel.stl |
 |   1 | LED10mm_bezel_retainer.stl |
 |   1 | LED3mm_bezel.stl |
 |   1 | LED3mm_bezel_retainer.stl |
 |   1 | LED5mm_bezel.stl |
 |   1 | LED5mm_bezel_retainer.stl |
 |   1 | LED8mm_bezel.stl |
 |   1 | LED8mm_bezel_retainer.stl |
 ### Assemblies
 | Qty | Name |
 | ---:|:--- |
 |   1 | LED10mm_orange_bezel_assembly |
 |   1 | LED3mm_yellow_bezel_assembly |
 |   1 | LED5mm_blue_bezel_assembly |
 |   1 | LED8mm_red_bezel_assembly |
 <a href="#top">Top</a>
 ---
@@ -5682,6 +5805,7 @@ It can also have printed feet on the base with the screws doubling up to hold th
 | `pbox_name(type)` | Name to allow more than one box in a project |
 | `pbox_radius(type)` | Internal corner radius |
 | `pbox_ridges(type)` | Ridge wavelength and amplitude |
 | `pbox_short_insert(type)` | Use short inserts |
 | `pbox_top(type)` | Top thickness |
 | `pbox_wall(type)` | Wall thickness |
 | `pbox_width(type)` | Internal width |
@@ -5689,7 +5813,7 @@ It can also have printed feet on the base with the screws doubling up to hold th
 ### Functions
 | Function | Description |
 |:--- |:--- |
-| `pbox(name, wall, top_t, base_t, radius, size, foot = false, screw = false, ridges = [0, 0])` | Construct a printed box property list |
+| `pbox(name, wall, top_t, base_t, radius, size, foot = false, screw = false, short_insert = false, ridges = [0, 0])` | Construct a printed box property list |
 | `pbox_inclusion(type)` | How far the ledge for the base extends inwards |
 | `pbox_insert(type)` | The insert for the base screws |
 | `pbox_screw(type)` | Foot screw if got feet else base_screw |
@@ -5713,8 +5837,8 @@ It can also have printed feet on the base with the screws doubling up to hold th
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   4 | `insert(F1BM2)` |  Heatfit insert M2 |
+|   4 | `insert(F1BM2)` |  Heatfit insert M2 x 4mm |
-|   4 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   4 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   4 | `screw(M2_cap_screw, 6)` |  Screw M2 cap x  6mm |
 |   3 | `screw(M3_pan_screw, 6)` |  Screw M3 pan x  6mm |
 |   4 | `screw(M3_pan_screw, 10)` |  Screw M3 pan x 10mm |
@@ -5843,7 +5967,7 @@ The stl and assembly must be given a name and parameterless wrappers for the stl
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   6 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   6 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   6 | `screw(M3_cap_screw, 10)` |  Screw M3 cap x 10mm |
 |   6 | `washer(M3_washer)` |  Washer  M3 x 7mm x 0.5mm |
 |   6 | `star_washer(M3_washer)` |  Washer star M3 x 0.5mm |
@@ -5899,8 +6023,8 @@ Clamp for ribbon cable and polypropylene strip or one or more ribbon cables.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   2 | `insert(F1BM2)` |  Heatfit insert M2 |
+|   2 | `insert(F1BM2)` |  Heatfit insert M2 x 4mm |
-|   2 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   2 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   1 |  |  Ribbon cable 20 way 100mm |
 |   1 |  |  Ribbon cable 8 way 100mm |
 |   2 | `screw(M2_dome_screw, 8)` |  Screw M2 dome x  8mm |
@@ -6018,7 +6142,7 @@ UK 13A socket and printed backbox with earth terminal for the panel it is mounte
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   4 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   4 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   1 | `mains_socket(Contactum)` |  Mains socket 13A |
 |   1 | `mains_socket(MKLOGIC)` |  Mains socket 13A, switched |
 |   2 | `nut(M3_nut, nyloc = true)` |  Nut M3 x 2.4mm nyloc |
@@ -6075,7 +6199,7 @@ The STL and assembly must be given a name and parameterless wrappers for the stl
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   4 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   4 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   4 | `screw(M3_cap_screw, 10)` |  Screw M3 cap x 10mm |
 |   4 | `washer(M3_washer)` |  Washer  M3 x 7mm x 0.5mm |
 |   4 | `star_washer(M3_washer)` |  Washer star M3 x 0.5mm |
@@ -6137,7 +6261,7 @@ be fully customised by passing a list of properties.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   2 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   2 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   2 | `screw(M3_pan_screw, 8)` |  Screw M3 pan x  8mm |
 |   2 | `washer(M3_penny_washer)` |  Washer penny  M3 x 12mm x 0.8mm |
 |   2 | `star_washer(M3_washer)` |  Washer star M3 x 0.5mm |
@@ -6859,7 +6983,7 @@ The `pose()` module allows assembly views in the readme to be posed differently
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | `insert(F1BM3)` |  Heatfit insert M3 |
+|   1 | `insert(F1BM3)` |  Heatfit insert M3 x 5.8mm |
 |   1 | `widget(3)` |  Rivet like thing for 3mm sheets |
 |   1 | `screw(M3_cap_screw, 8)` |  Screw M3 cap x  8mm |
 |   1 | `sheet(PMMA3, 20, 20, 1)` |  Sheet acrylic 20mm x 20mm x 3mm |
@@ -6912,6 +7036,7 @@ Original version by Doug Moen on the OpenSCAD forum
 <a name="Global"></a>
 ## Global
 Global constants, functions and modules. This file is used directly or indirectly in every scad file.
 See [global_defs.scad](../../global_defs.scad) for a list of global constants.
 [utils/core/global.scad](utils/core/global.scad) Implementation.
@@ -6924,6 +7049,7 @@ Global constants, functions and modules. This file is used directly or indirectl
 | `cm(x)` | cm to mm conversion |
 | `echoit(x)` | Echo expression and return it, useful for debugging |
 | `foot(x)` | Foot to mm conversion |
 | `grey(n)` | Generate a shade of grey to pass to color(). |
 | `in(list, x)` | Returns true if `x` is an element in the `list` |
 | `inch(x)` | Inch to mm conversion (For fractional inches, 'inch(1 + 7/8)' will work as expected.) |
 | `limit(x, min, max)` | Force x in range min <= x <= max |
@@ -6932,6 +7058,7 @@ Global constants, functions and modules. This file is used directly or indirectl
 | `no_point(str)` | Replace decimal point in string with 'p' |
 | `r2sides(r)` | Replicates the OpenSCAD logic to calculate the number of sides from the radius |
 | `r2sides4n(r)` | Round up the number of sides to a multiple of 4 to ensure points land on all axes |
 | `round_to_layer(z)` | Round up to a layer boundary using `layer_height0` for the first layer and `layer_height` for subsequent layers. |
 | `slice(list, start = 0, end = undef)` | Slice a list or string with Python type semantics |
 | `sqr(x)` | Returns the square of `x` |
 | `yard(x)` | Yard to mm conversion |
--- a/tests/LED_bezel.scad
+++ b/tests/LED_bezel.scad
@@ -0,0 +1,37 @@
 //
 // NopSCADlib Copyright Chris Palmer 2018
 // nop.head@gmail.com
 // hydraraptor.blogspot.com
 //
 // This file is part of NopSCADlib.
 //
 // NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
 // GNU General Public License as published by the Free Software Foundation, either version 3 of
 // the License, or (at your option) any later version.
 //
 // NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
 // without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
 // See the GNU General Public License for more details.
 //
 // You should have received a copy of the GNU General Public License along with NopSCADlib.
 // If not, see <https://www.gnu.org/licenses/>.
 //
 include <../core.scad>
 use <../utils/layout.scad>
 include <../vitamins/leds.scad>
 use <../printed/led_bezel.scad>
 module led_bezels()
    layout([for(l = LEDs) led_diameter(l)], 6) let(l = LEDs[$i], b = led_bezel(l))
        if($preview)
            led_bezel_fastened_assembly(b, 3, ["yellow", "blue", "red", "orange"][$i % 4]);
        else {
            led_bezel(b);
            translate([0, -20])
                led_bezel_retainer(b);
        }
 led_bezels();
--- a/tests/LEDs.scad
+++ b/tests/LEDs.scad
@@ -23,7 +23,7 @@ include <../vitamins/leds.scad>
 module leds()
    layout([for(l = LEDs) led_diameter(l)], 5)
-        led(LEDs[$i], ["green", "blue", "red"][$i % 3]);
+        led(LEDs[$i], ["green", "blue", "red", "orange"][$i % 4]);
 if($preview)
    leds();
--- a/tests/PCB.scad
+++ b/tests/PCB.scad
@@ -70,6 +70,8 @@ test_pcb = ["test_pcb", "Test PCB",
        [ 25,  2,   90, "smd_cap", CAP1206, 1.5],
        [ 28,  2,   90, "smd_cap", CAP0805, 1.0],
        [ 31,  2,   90, "smd_cap", CAP0603, 0.7],
        [ 34,  3,   90, "smd_diode",DO241AC, "SS34"],
        [ 22,  6,  -90, "smd_pot", TC33X1, "10K"],
        [ 16,  6,  -90, "smd_sot", SOT23, "2N7000"],
        [ 28,  20, -90, "smd_sot", SOT223, "LM117"],
@@ -78,9 +80,10 @@ test_pcb = ["test_pcb", "Test PCB",
        [ 10,  20,   0, "2p54boxhdr", 4, 2],
        [ 10,  30,   0, "2p54socket", 6, 1],
        [ 25,  30,   0, "2p54socket", 4, 1, false, 0, false, "red" ],
-        [ 65,  50,   0, "led", LED3mm, "red"],
+        [ 59,  50, 180, "led", LED3mm, "red"],
-        [ 75,  50,   0, "led", LED5mm, "orange"],
+        [ 66,  50, 180, "led", LED5mm, "orange"],
-        [ 90,  50,   0, "led", LED10mm, "yellow"],
+        [ 77,  50, 180, "led", LED8mm, "blue"],
        [ 90,  50, 180, "led", LED10mm, "yellow"],
        [ 10,  45, 180, "rj45"],
        [  8,  65, 180, "usb_A"],
        [  8, 105, 180, "usb_Ax2"],
@@ -141,6 +144,8 @@ test_pcb = ["test_pcb", "Test PCB",
        [ 52, 200,   0, "pcb", 11, TMC2130 ],
        [ 80, 210,   0, "pdip", 24, "27C32", true, inch(0.6) ],
        [ 80, 180,   0, "pdip", 8, "NE555" ],
        [ 71, 180,    0, "smd_inductor", IND2525, "4R7"],
        [ 80, 166, -90, "smd_soic", SOIC18, "PIC18F88"],
        [ 71, 166, -90, "smd_soic", SOIC16, "ICL323"],
        [ 64, 166, -90, "smd_soic", SOIC8, "M34063"],
--- a/tests/SMDs.scad
+++ b/tests/SMDs.scad
@@ -34,16 +34,30 @@ module smds() {
            let(c = smd_capacitors[$i])
                smd_capacitor(c, smd_cap_size(c).y * 0.8);
-    translate([0, 12])
+    translate([0, 9])
        layout([for(d = smd_diodes) smd_diode_size(d).x], 1)
            let(d = smd_diodes[$i])
                smd_diode(d, ["SS34"][$i]);
    translate([0, 15])
        layout([for(s = smd_sots) smd_sot_size(s).x], 1)
            let(s = smd_sots[$i])
                smd_sot(s, ["2N7000", "FZT851"][$i]);
-    translate([0, 20])
+    translate([0, 21])
        layout([for(p = smd_pots) smd_pot_size(p).x], 1)
            let(p = smd_pots[$i])
                smd_pot(p, "10K");
    translate([0, 28])
        layout([for(s = smd_soics) smd_soic_size(s).x], 1)
            let(s = smd_soics[$i])
                smd_soic(s, s[0]);
    translate([0, 36])
        layout([for(i = smd_inductors) smd_inductor_size(i).x], 1)
            let(i = smd_inductors[$i])
                smd_inductor(i, "4R7");
 }
 if($preview)
--- a/tests/inserts.scad
+++ b/tests/inserts.scad
@@ -24,9 +24,15 @@ include <../vitamins/inserts.scad>
 module inserts() {
    for(i = [0: len(inserts) -1])
-        translate([10 * i, 0])
+        translate([10 * i, 5])
            insert(inserts[i]);
    for(i = [0: len(short_inserts) -1])
        translate([10 * i, -5])
            insert(short_inserts[i]);
    stl_colour(pp1_colour)
        translate([len(inserts) * 10, 0]) {
            insert_lug(inserts[0], 2, 1);
--- a/tests/leadnuts.scad
+++ b/tests/leadnuts.scad
@@ -25,6 +25,26 @@ module leadnuts()
    layout([for(n = leadnuts) leadnut_flange_dia(n)], 5)
        leadnut(leadnuts[$i]);
 module leadnuthousings()
    layout([for(n = leadnuthousings) leadnuthousing_width(n)], 5) {
        rotate([0,0,270]) {
            leadnuthousing(leadnuthousings[$i]);
            explode(15)
                leadnuthousing_nut_position(leadnuthousings[$i])
                    leadnut(leadnuthousing_nut(leadnuthousings[$i]));
            explode(17 + leadnuthousing_nut_screw_length(leadnuthousings[$i]))
                translate_z(leadnuthousing_height(leadnuthousings[$i])/2)
                    leadnuthousing_nut_screw_positions(leadnuthousings[$i])
                        screw(leadnut_screw(
                            leadnuthousing_nut(leadnuthousings[$i])),
                            leadnuthousing_nut_screw_length(leadnuthousings[$i])
                        );
        }
    }
 if($preview)
-    let($show_threads = true)
+    let($show_threads = true) {
        leadnuts();
        translate([0,50,0])
            leadnuthousings();
    }
--- a/tests/png/inserts.png
+++ b/tests/png/inserts.png
--- a/tests/png/leadnuts.png
+++ b/tests/png/leadnuts.png
--- a/tests/png/led_bezel.png
+++ b/tests/png/led_bezel.png
--- a/tests/png/leds.png
+++ b/tests/png/leds.png
--- a/tests/png/pcb.png
+++ b/tests/png/pcb.png
--- a/tests/png/pcbs.png
+++ b/tests/png/pcbs.png
--- a/tests/png/shaft_couplings.png
+++ b/tests/png/shaft_couplings.png
--- a/tests/png/sheets.png
+++ b/tests/png/sheets.png
--- a/tests/png/smds.png
+++ b/tests/png/smds.png
--- a/utils/core/global.scad
+++ b/utils/core/global.scad
@@ -19,6 +19,7 @@
 //
 //! Global constants, functions and modules. This file is used directly or indirectly in every scad file.
 //! See [global_defs.scad](../../global_defs.scad) for a list of global constants.
 //
 include <../../global_defs.scad>
@@ -38,6 +39,13 @@ function r2sides(r) = $fn ? $fn : ceil(max(min(360/ $fa, r * 2 * PI / $fs), 5));
 function r2sides4n(r) = floor((r2sides(r) + 3) / 4) * 4;                            //! Round up the number of sides to a multiple of 4 to ensure points land on all axes
 function limit(x, min, max) = max(min(x, max), min);                                //! Force x in range min <= x <= max
 function round_to_layer(z) =  //! Round up to a layer boundary using `layer_height0` for the first layer and `layer_height` for subsequent layers.
    z <= 0 ? 0 :
    z <= layer_height0 ? layer_height0 :
    ceil((z -layer_height0) / layer_height) * layer_height + layer_height0;
 function grey(n) = [0.01, 0.01, 0.01] * n;                                          //! Generate a shade of grey to pass to color().
 module translate_z(z)                                                               //! Shortcut for Z only translations
    translate([0, 0, z]) children();
@@ -68,7 +76,7 @@ module render_if(render = true, convexity = 2)      //! Renders an object if `re
 module extrude_if(h, center = true)                 //! Extrudes 2D object to 3D when `h` is nonzero, otherwise leaves it 2D
    if(h)
-        linear_extrude(h, center = center, convexity = 2) // 3D
+        linear_extrude(h, center = center, convexity = 5) // 3D
            children();
    else
        children();                                 // 2D
--- a/vitamins/insert.scad
+++ b/vitamins/insert.scad
@@ -53,7 +53,7 @@ module insert(type) { //! Draw specified insert
    ring2_h = ring1_h + chamfer1;
    gap = (length - ring1_h - ring2_h - chamfer2) / 3;
-    vitamin(str("insert(", type[0], "): Heatfit insert M", insert_screw_diameter(type)));
+    vitamin(str("insert(", type[0], "): Heatfit insert M", insert_screw_diameter(type), " x ", length, "mm"));
    $fn = 64;
    thread_d = insert_screw_diameter(type);
    explode(20, offset = [0, 0, -5]) translate_z(eps) vflip() {
--- a/vitamins/inserts.scad
+++ b/vitamins/inserts.scad
@@ -34,6 +34,13 @@ F1BM2p5 = [ "F1BM2p5", 5.8, 4.6, 4.0, 2.5, 3.65, 1.6, 4.4, 3.9 ];
 F1BM3   = [ "F1BM3",   5.8, 4.6, 4.0, 3,   3.65, 1.6, 4.4, 3.9 ];
 F1BM4   = [ "F1BM4",   8.2, 6.3, 5.6, 4,   5.15, 2.3, 6.0, 5.55 ];
-inserts = [ F1BM2, F1BM2p5, F1BM3, F1BM4 ];
+CNCKM2p5 =[ "CNCKM2p5",4.0, 4.6, 4.0, 2.5, 3.65, 1.0, 4.4, 3.9 ];
 CNCKM3 =  [ "CNCKM3",  3.0, 4.6, 4.0, 3,   3.65, 0.7, 4.4, 3.9 ];
 CNCKM4 =  [ "CNCKM4",  4.0, 6.3, 5.6, 4,   5.15, 1.0, 6.0, 5.55];
 CNCKM5 =  [ "CNCKM5",  5.8, 7.1, 6.4, 5,   6.0,  1.6, 6.8, 6.33];
 inserts =       [ F1BM2, F1BM2p5,  F1BM3,  F1BM4,  CNCKM5 ];
 short_inserts = [ F1BM2, CNCKM2p5, CNCKM3, CNCKM4, CNCKM5 ];
 use <insert.scad>
--- a/vitamins/leadnut.scad
+++ b/vitamins/leadnut.scad
@@ -23,6 +23,7 @@
 include <../utils/core/core.scad>
 use <../utils/tube.scad>
 use <../utils/thread.scad>
 use <../vitamins/screw.scad>
 function leadnut_bore(type)          = type[2];     //! Thread size
 function leadnut_od(type)            = type[3];     //! Outer diameter of the shank
@@ -41,6 +42,17 @@ function leadnut_colour(type)        = type[15];    //! The colour
 function leadnut_shank(type)         = leadnut_height(type) - leadnut_flange_t(type) - leadnut_flange_offset(type); //! The length of the shank below the flange
 function leadnuthousing_length(type)            = type[2];  //! Length of housing
 function leadnuthousing_width(type)             = type[3];  //! Width of housing
 function leadnuthousing_height(type)            = type[4];  //! Height of housing
 function leadnuthousing_hole_pos(type)          = type[5];  //! Offset from center for nut hole
 function leadnuthousing_screw_dist_l(type)      = type[6];  //! Distance between mounting holes length
 function leadnuthousing_screw_dist_w(type)      = type[7];  //! Distance between mounting holes width
 function leadnuthousing_mount_screw(type)       = type[8];  //! Mounting screw
 function leadnuthousing_mount_screw_len(type)   = type[9];  //! Mounting screw length
 function leadnuthousing_nut(type)               = type[10]; //! Nut type this is suitable for
 function leadnuthousing_nut_screw_length(type)  = type[11]; //! Length of mounting screw for nut
 module leadnut_screw_positions(type) { //! Position children at the screw holes
    holes = leadnut_holes(type);
    flat = leadnut_flat(type);
@@ -87,3 +99,58 @@ module leadnut(type) { //! Draw specified leadnut
                    }
        }
 }
 module leadnuthousing_screw_positions(type) { //! Get screw positions to mount the leadnut housing
    for(p = [[-1,-1], [1,-1], [1,1], [-1,1]])
        translate([p.x * leadnuthousing_screw_dist_l(type)/2, p.y * leadnuthousing_screw_dist_w(type)/2, 0])
            children();
 }
 module leadnuthousing_nut_position(type) { //! The position of the nut may be off-center, use this to get the position
    translate([leadnuthousing_hole_pos(type),0, leadnuthousing_height(type)/2])
        children();
 }
 module leadnuthousing_nut_screw_positions(type) { //! get screw positions to mount the nut to the nut housing
    translate([leadnuthousing_hole_pos(type),0, 0])
        leadnut_screw_positions(leadnuthousing_nut(type))
            children();
 }
 module leadnuthousing(type) { //! Nut housing, to connect a lead nut to another object
    vitamin(str("nuthousing(", type[0], "): ", type[1]));
    leadnut = leadnuthousing_nut(type);
    screw = leadnut_screw(leadnut);
    d = screw_radius(screw) * 2;
    p = metric_coarse_pitch(d);
    sl = leadnuthousing_nut_screw_length(type);
    ms = leadnuthousing_mount_screw(type);
    msl = leadnuthousing_mount_screw_len(type);
    md = screw_radius (ms) * 2;
    mp = metric_coarse_pitch(md);
    color("silver")
        difference() {
            cube([leadnuthousing_length(type), leadnuthousing_width(type), leadnuthousing_height(type)], center = true);
            translate([leadnuthousing_hole_pos(type),0,0]) {
                cylinder(d=leadnut_od(leadnut), h=leadnuthousing_length(type)+2, center=true);
                translate_z(leadnut_flange_offset(leadnut))
                    leadnut_screw_positions(leadnut)
                cylinder(r=screw_radius(leadnut_screw(leadnut)), h=sl+1);
            }
            rotate([0,90,0])
                leadnuthousing_screw_positions(type)
                    cylinder(r=screw_radius(ms), h=msl+1);
        }
    if(show_threads) {
        translate([leadnuthousing_hole_pos(type),0,leadnuthousing_height(type)/2 - sl/2 - leadnut_flange_t(leadnut)])
            leadnut_screw_positions(leadnut)
                female_metric_thread(d, p, sl, center = true, colour = silver);
        rotate([0,90,0])
            translate_z(msl/2)
                leadnuthousing_screw_positions(type)
                    female_metric_thread(md, mp, msl, center = true, colour = silver);
    }
 }
--- a/vitamins/leadnuts.scad
+++ b/vitamins/leadnuts.scad
@@ -29,5 +29,9 @@ LSN8x8  = ["LSN8x8",  "Leadscrew nut 8 x 8 RobotDigg", 8, 12.75,19, 25.4, 4.1, 0
 SFU1610 = ["SFU1610", "Leadscrew nut for SFU1610",    16, 28, 42.5, 48,    10, 0,   6, 6,   38/2,    M6_cap_screw, 5, 10, 40, "#DFDAC5"];
 leadnuts = [LSN8x2, LSN8x8, SFU1610];
 //                                                  L   W   H   Hole    Mounting screws (top)             Nut      Nut mount screw
 //                                                              Pos     Dist L Dist W Type             L            Length
 LNHT8x2 = [ "LNHT8x2", "Lead Screw Nut Housing T8", 30, 34, 30, -1,     20,    24,    M4_cs_cap_screw, 15, LSN8x2,  15 ];
 leadnuthousings = [LNHT8x2];
 use <leadnut.scad>
--- a/vitamins/leds.scad
+++ b/vitamins/leds.scad
@@ -25,10 +25,11 @@
 //                          d    t     h     h
 //                                     t          t
 //
-LED3mm  = ["LED3mm",   3,  3.1, 1.0,  4.5, 2.54, 0.4];
+LED3mm  = ["LED3mm",   3,  3.15, 1.15, 4.6, 2.54, 0.4];
-LED5mm  = ["LED5mm",   5,  5.6, 0.9,  8.5, 2.54, 0.4];
+LED5mm  = ["LED5mm",   5,  5.9,  1.1,  9.0, 2.54, 0.4];
-LED10mm = ["LED10mm", 10, 11.0, 2.0, 13.5, 2.54, 0.4];
+LED8mm  = ["LED8mm",   8,  9.2,  1.95,11.0, 2.54, 0.4];
 LED10mm = ["LED10mm", 10, 11.0,  2.0, 13.5, 2.54, 0.4];
-LEDs = [LED3mm, LED5mm, LED10mm];
+LEDs = [LED3mm, LED5mm, LED8mm, LED10mm];
 use <led.scad>
--- a/vitamins/nuts.scad
+++ b/vitamins/nuts.scad
@@ -28,14 +28,14 @@ M5_nut_depth = 4;
 M6_nut_depth = 5;
 M8_nut_depth = 6.5;
-//                                      s    r    t    n     w              t                  t
+//                                      s    d    t    n     w              t                  t
-//                                      c    a    h    y     a              r                  h
+//                                      c    i    h    y     a              r                  h
-//                                      r    d    i    l     s              a                  r
+//                                      r    a    i    l     s              a                  r
-//                                      e    i    c    o     h              p                  e
+//                                      e    m    c    o     h              p                  e
-//                                      w    u    k    c     e                                 d
+//                                      w    e    k    c     e                                 d
-//                                           s    n          r              d
+//                                           t    n          r              d
-//                                                e    t                    e                  p
+//                                           e    e    t                    e                  p
-//                                                s    h                    p                  i
+//                                           r    s    h                    p                  i
 //                                                s    k                    t                  t
 //                                                                          h                  c
 //                                                                                             h
--- a/vitamins/pcb.scad
+++ b/vitamins/pcb.scad
@@ -1135,6 +1135,9 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
            if(show(comp, "smd_cap"))       smd_capacitor(comp[4], comp[5], param(6, undef));
            if(show(comp, "smd_sot"))       smd_sot(comp[4], comp[5]);
            if(show(comp, "smd_soic"))      smd_soic(comp[4], comp[5]);
            if(show(comp, "smd_diode"))     smd_diode(comp[4], comp[5]);
            if(show(comp, "smd_inductor"))  smd_inductor(comp[4], comp[5]);
            if(show(comp, "smd_pot"))       smd_pot(comp[4], comp[5]);
            if(show(comp, "vero_pin"))      vero_pin(param(4, false));
            if(show(comp, "terminal"))      terminal_block(comp[5], comp[4]);
            if(show(comp, "text"))          color("white") linear_extrude(eps) resize([comp[4], comp[5]]) text(comp[6], font = param(7, "Liberation Mono"), valign = "center", halign = "center");
--- a/vitamins/pcbs.scad
+++ b/vitamins/pcbs.scad
@@ -744,9 +744,24 @@ WD2002SJ = ["WD2002SJ", "WD2002SJ Buck Boost DC-DC converter", 78, 47, 1.6, 0, 3
    ],
    []];
-MP1584EN = ["MP1584EN", "MP1584EN 3A buck converter", 22, 17, 1.2, 0, 1, [2, 2], "green", false,
+MP1584EN = ["MP1584EN", "MP1584EN 3A buck converter", 22, 17, 1.25, 0, 1, [2, 2], "green", false,
-    [[1.75, 1.75], [1.75, -1.75], [-1.75, 1.75], [-1.75, -1.75], [-1.75, -4.4], [-1.75, 4.48], [1.75, -4.4], [1.75, 4.4]],
+    [[1.75, 1.75], [1.75, -1.75], [-1.75, 1.75], [-1.75, -1.75], [-1.75, -4.4], [-1.75, 4.4], [1.75, -4.4], [1.75, 4.4]],
-    []
+    [ [1.75, 8.5, 90, "smd_cap", CAP1206, 1],
      [-1.75, 8.5, 90, "smd_cap", CAP1206, 1],
      [7.5, 8.5, 0, "smd_soic", SOIC8, "WP1584EN"],
      [3.9, 8.3, 90, "smd_res", RES0603, "104"],
      [3.9, 11.2, 90,"smd_cap", CAP0603, 0.5],
      [3.9, 5.4, 90, "smd_res", RES0603, "822"],
      [6.2, 3.5,  0, "smd_res", RES0603, "104"],
      [6.2, 2.1,  0, "smd_cap", CAP0603, 0.5],
      [9.2, 3.5,  0, "smd_res", RES0603, "104"],
      [9.2, 2.1,  0, "smd_res", RES0603, "104"],
      [6.3, 14.4, 0, "smd_diode",DO241AC, "SS34"],
      [12.1, 4.9, 0, "smd_cap", CAP0603, 0.5],
      [15.8, 4.9, 0, "smd_cap", CAP0603, 0.5],
      [14.5, 10, 90, "smd_inductor", IND2525, "4R7"],
      [14.7, 1.8,-90,"smd_pot", TC33X1, "10K"],
    ]
 ];
 PERF80x20 = ["PERF80x20", "Perfboard 80 x 20mm", 80, 20, 1.6, 0, 2.3, 0, "green", true, [[2,2],[-2,2],[2,-2],[-2,-2]], [], [], [5.71, 3.65]];
@@ -908,9 +923,19 @@ KY_040 = ["KY_040", "KY-040 rotart encoder breakout",
    ],
    []];
 L9110S = ["L9110S", "L9110S 2-Channel motor driver module", 29.2, 23, 1.6, 0, 3, 0, "#2140BE", false, [[10.7, 2.3], [10.7, -2.3], [-5.3, 2.3], [-5.3, -2.3] ],
    [
        [ -1.3,  11.5,      0, "2p54header", 1, 6],
        [  16, 9.5      ,   0, "smd_led", LED0805, "red"],
        for(i = [-1, 1]) [ 4, 5.5*i, 180, "gterm508", 2],
        for(i = [-1, 1]) [ 17.38, 3*i, 90, "smd_soic", SOIC8, "" ]
    ],
    []];
 tiny_pcbs = [XIAO, MP1584EN, TP4056, ESP_01, LIPO_fuel_gauge];
-pcbs = [RAMPSEndstop, KY_040, MT3608, ZC_A0591, ArduinoNano, RPI_Pico, ESP32_DOIT_V1, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, WD2002SJ, RPI3, RPI4, BTT_RELAY_V1_2, BTT_SKR_MINI_E3_V2_0, BTT_SKR_E3_TURBO, BTT_SKR_V1_4_TURBO, DuetE, Duex5];
+pcbs = [RAMPSEndstop, MT3608, KY_040, L9110S, ZC_A0591, ArduinoNano, RPI_Pico, ESP32_DOIT_V1, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, WD2002SJ, RPI3, RPI4, BTT_RELAY_V1_2, BTT_SKR_MINI_E3_V2_0, BTT_SKR_E3_TURBO, BTT_SKR_V1_4_TURBO, DuetE, Duex5];
 pcbs_not_shown = [Melzi, Duex2, PSU12V1A, Keyes5p1, PI_IO, ExtruderPCB];
--- a/vitamins/screw.scad
+++ b/vitamins/screw.scad
@@ -68,7 +68,7 @@ function screw_shorter_than(x) = x >= 20 ? floor(x / 5) * 5 : //! Returns the le
 function screw_length(screw, thickness, washers, insert = false, nyloc = false, nut = false, longer = false) = //! Returns the length of the longest or shortest screw that will got through `thickness` and `washers` and possibly an `insert`, `nut` or `nyloc`
    let(washer = washers ? washers * washer_thickness(screw_washer(screw)) : 0,
-        insert = insert ? insert_length(screw_insert(screw)) : 0,
+        insert = insert ? insert_length(is_list(insert) ? insert : screw_insert(screw)) : 0,
        nut = nut || nyloc ? nut_thickness(screw_nut(screw), nyloc)  : 0,
        total = thickness + washer + insert + nut
       )
@@ -76,10 +76,11 @@ function screw_length(screw, thickness, washers, insert = false, nyloc = false,
 function screw_smaller_than(d) = d >= 2.5 && d < 3 ? 2.5 : floor(d); // Largest diameter screw less than or equal to specified diameter
-function screw_insert(screw, i = 0) = let(d = screw_radius(screw) * 2)
+function screw_insert(screw, short = false, i = 0) =  //! Find insert to fit specified screw, defaults to longest but can specify the shortest
-     i >= len(inserts) ? undef
+    let(d = screw_radius(screw) * 2, list = short ? short_inserts : inserts)
-                       : insert_screw_diameter(inserts[i]) == d ? inserts[i]
+        i >= len(list) ? undef
-                                                                : screw_insert(screw, i + 1);
+                       : insert_screw_diameter(list[i]) == d ? list[i]
                                                             : screw_insert(screw, short, i + 1);
 module screw(type, length, hob_point = 0, nylon = false) { //! Draw specified screw, optionally hobbed or nylon
    description = str("Screw ", nylon ? "Nylon " : "", type[1], length < 10 ? " x  " : " x ", length, "mm", hob_point ? str(", hobbed at ", hob_point) : "");
@@ -327,6 +328,19 @@ module screw_polysink(type, h = 100, alt = false, sink = 0) { //! A countersink
        }
 }
 module screw_keyhole(type, h = 0) { //! Make keyhole slot to accept and retain screw head
    r = screw_head_radius(type);
    extrude_if(h) {
        translate([0, - 2 * r])
            drill(r + 0.5, 0);
        hull()
            for(y = [0, -2 * r])
                translate([0, y])
                    drill(screw_clearance_radius(type), 0);
    }
 }
 module screw_and_washer(type, length, star = false, penny = false) { //! Screw with a washer which can be standard or penny and an optional star washer on top
    washer = screw_washer(type);
    head_type = screw_head_type(type);
--- a/vitamins/shaft_coupling.scad
+++ b/vitamins/shaft_coupling.scad
@@ -26,6 +26,7 @@ function sc_length(type)       = type[1]; //! Coupling length
 function sc_diameter(type)     = type[2]; //! Coupling outer diameter
 function sc_diameter1(type)    = type[3]; //! Diameter of smaller shaft
 function sc_diameter2(type)    = type[4]; //! Diameter of larger shaft
 function sc_flexible(type)     = type[5]; //! Flexible coupling
 module shaft_coupling(type, colour = "silver") { //! Draw the shaft coupling
    vitamin(str("shaft_coupling(", type[0], "): Shaft coupling ", type[0]));
@@ -34,6 +35,7 @@ module shaft_coupling(type, colour = "silver") { //! Draw the shaft coupling
    radius = sc_diameter(type) / 2;
    r1 = sc_diameter1(type) / 2;
    r2 = sc_diameter2(type) / 2;
    flexible = is_undef(sc_flexible(type)) ? false : sc_flexible(type);
    grub_length = 3;
    module grub_screw_positions() {
@@ -54,6 +56,11 @@ module shaft_coupling(type, colour = "silver") { //! Draw the shaft coupling
                tube(radius, r2, length / 2, false);
            }
            if (flexible) {
                linear_extrude(length/3, center=true, convexity = 20, twist = -5 * 360)
                    translate([r1,0,0])
                       square(radius-r1,1); 
            }
            grub_screw_positions()
                rotate([180, 0, 0])
                    cylinder(r = screw_radius(M3_grub_screw), h = 5);
--- a/vitamins/shaft_couplings.scad
+++ b/vitamins/shaft_couplings.scad
@@ -21,9 +21,9 @@
 //! Shaft couplings
 //
-//                                   L   D        d1   d2
+//                                   L   D        d1   d2 flex?
-SC_5x8_rigid  = [ "SC_5x8_rigid",    25, 12.5,    5,   8 ];
+SC_5x8_rigid  = [ "SC_5x8_rigid",    25, 12.5,    5,   8, false ];
-
+SC_6x8_flex   = [ "SC_6x8_flex",     25, 19,      6,   8, true ];
-shaft_couplings = [SC_5x8_rigid];
+shaft_couplings = [SC_5x8_rigid, SC_6x8_flex];
 use <shaft_coupling.scad>
--- a/vitamins/sheets.scad
+++ b/vitamins/sheets.scad
@@ -49,7 +49,7 @@ AL3       = [ "AL3",       "Aluminium tooling plate", 3, [0.9, 0.9, 0.9, 1    ],
 AL6       = [ "AL6",       "Aluminium tooling plate", 6, [0.9, 0.9, 0.9, 1    ], false];
 AL8       = [ "AL8",       "Aluminium tooling plate", 8, [0.9, 0.9, 0.9, 1    ], false];
 Steel06   = [ "Steel06",   "Sheet mild steel",       0.6,"silver"              , false];
-Spring05  = [ "Spring05",  "Bi-metal saw blade",     0.5,"#FBC300",              false];
+Spring08  = [ "Spring08",  "Bi-metal saw blade",     0.8,"#FBC300",              false];
 Silicone3 = [ "Silicone3", "Sheet silicone",          3, [0.9, 0.9, 0.9, 0.95 ], false];
 CF1 =       [ "CF1",       "Sheet carbon fiber",      1, grey(35),               false,  2,  2,  grey(20)];
 CF2 =       [ "CF2",       "Sheet carbon fiber",      2, grey(35),               false,  2,  2,  grey(20)];
@@ -57,6 +57,6 @@ CF3 =       [ "CF3",       "Sheet carbon fiber",      3, grey(35),
 sheets = [CF1, CF2, CF3, MDF6, MDF10, MDF12, MDF19, PMMA1p25, PMMA2, PMMA3, PMMA6, PMMA8, PMMA10,
-         glass2, DiBond, DiBond6, Cardboard, FoilTape, AL1_6, AL2, AL3, AL6, AL8, Steel06, Spring05, Silicone3, Foam20];
+         glass2, DiBond, DiBond6, Cardboard, FoilTape, AL1_6, AL2, AL3, AL6, AL8, Steel06, Spring08, Silicone3, Foam20];
 use <sheet.scad>
--- a/vitamins/smd.scad
+++ b/vitamins/smd.scad
@@ -24,6 +24,7 @@ include <../utils/core/core.scad>
 use <../utils/tube.scad>
 use <../utils/sweep.scad>
 use <../utils/sector.scad>
 function smd_led_size(type) = type[1]; //! Body length, width and height
 function smd_led_lens(type) = type[2]; //! Lens length width and height
@@ -228,3 +229,205 @@ module smd_soic(type, value) { //! Draw an SMD SOIC
                    text(value, halign = "center", valign = "center");
 }
 function smd_diode_size(type)   = type[1]; //! Body length, width and height
 function smd_diode_z(type)      = type[2]; //! Height above PCB surface
 function smd_diode_lead_z(type) = type[3]; //! Top of lead frame from top
 function smd_diode_leads(type)  = type[4]; //! Lead extent in x, width, thickness and gap
 module smd_diode(type, value) { //! Draw an SMD diode
    vitamin(str("smd_diode(", type[0], "): ", type[0], " package ", value));
    slant = 5;                              //! 5 degree body draft angle
    size = smd_diode_size(type);
    z0 = smd_diode_z(type);
    z2 = z0 + size.z;
    z1 = z2 - smd_diode_lead_z(type);
    stripe = size.x / 5;
    leads = smd_diode_leads(type);
    gap = leads[3];
    gap2 = gap - leads.z * 2;
    color(grey(20))
        difference() {
            hull()
                for(z = [z0, z1, z2], inset = abs(z - z1) * tan(slant))
                    translate_z(z)
                        cube([size.x - 2 * inset, size.y - 2 * inset, eps], center = true);
            for(side = [-1, 1])
                translate([side * (size.x / 2 - (size.x - gap2) / 4), 0, eps])
                    cube([(size.x - gap2) / 2, size.y, 3 * leads.z], center = true);
        }
    color("white")
        translate([-stripe / 2, 0, z2])
            linear_extrude(eps)
                resize([0.9 * (size.x - stripe), size.y / 2])
                    text(value, halign = "center", valign = "center");
    color(grey(90)) {
        inset = (z2 - z1) * tan(slant);
        translate([size.x / 2 - stripe, -size.y / 2 + inset, z2])
            cube([stripe - inset, size.y - 2 * inset, eps]);
    }
    color(silver)
        translate_z(z1 / 2)
            rotate([90, 0, 0])
                linear_extrude(leads.y, center = true, convexity = 3)  let($fn = 32)
                    difference() {
                        rounded_square([leads.x, z1], 2 * leads.z);
                        rounded_square([leads.x - 2 * leads.z, z1 - 2 * leads.z], leads.z);
                        translate([0, - z1 / 2])
                            square([gap, leads.z * 2 + eps], center = true);
                    }
 }
 function smd_inductor_size(type)   = type[1]; //! Body length, width and height
 function smd_inductor_z(type)      = type[2]; //! Height above PCB surface
 function smd_inductor_lead_z(type) = type[3]; //! Top of lead frame from top
 function smd_inductor_leads(type)  = type[4]; //! Lead extent in x, width, thickness and gap
 function smd_inductor_colour(type) = type[5]; //! Body colour
 module smd_inductor(type, value) { //! Draw an SMD inductor
    vitamin(str("smd_inductor(", type[0], "): ", type[0], " package ", value));
    size = smd_inductor_size(type);
    z0 = smd_inductor_z(type);
    z1 = smd_inductor_lead_z(type);
    z2 = z0 + size.z;
    leads = smd_inductor_leads(type);
    gap = leads[3];
    gap2 = gap - leads.z * 2;
    color(smd_inductor_colour(type))
        difference() {
            translate_z(z0)
                rounded_rectangle(size, 0.5);
            for(side = [-1, 1])
                translate([side * (size.x / 2 - (size.x - gap2) / 4), 0, eps])
                    cube([(size.x - gap2) / 2, leads.y + 2 * leads.z, 3 * leads.z], center = true);
        }
    color("white")
        translate_z(z2)
            linear_extrude(eps)
                resize([0.9 * size.x, size.y / 2])
                    text(value, halign = "center", valign = "center");
    color(silver)
        translate_z(z1 / 2)
            rotate([90, 0, 0])
                linear_extrude(leads.y, center = true, convexity = 3)  let($fn = 32)
                    difference() {
                        rounded_square([leads.x, z1], 2 * leads.z);
                        rounded_square([leads.x - 2 * leads.z, z1 - 2 * leads.z], leads.z);
                        translate([0, - z1 / 2])
                            square([gap, leads.z * 2 + eps], center = true);
                    }
 }
 function smd_pot_size(type)     = type[1]; //! Base length, width and height
 function smd_pot_contacts(type) = type[2]; //! Contacts width, depth, pitch and width, depth, gap for center contact
 function smd_pot_wiper(type)    = type[3]; //! Wiper diameter, offset, thickness, height, d1, d2, d3, d4
 function smd_pot_cross(type)    = type[4]; //! Cross head slot for screwdriver
 function smd_pot_flat(type)     = type[5]; //! Flat at the back of the wiper
 module smd_pot(type, value) { //! Draw an SMD pot
    vitamin(str("smd_pot(", type[0], "): ", type[0], " package ", value));
    size = smd_pot_size(type);
    contacts = smd_pot_contacts(type);
    contacts_pitch = contacts[2];
    centre_contact_w = contacts[3];
    centre_contact_d = contacts[4];
    centre_contact_gap = contacts[5];
    wiper = smd_pot_wiper(type);
    wiper_r1 = wiper.x / 2; // outer radius
    wiper_y = wiper.y;
    wiper_t = wiper.z;
    wiper_h = wiper[3];
    wiper_r2 = wiper[4] / 2;   // inner radius at the top
    wiper_r3 = wiper[5] / 2;   // inner radius at the bottom
    wiper_r4 = wiper[6] / 2;   // outer radius of rivet
    wiper_r5 = wiper[7] / 2;   // inner radius of rivet
    cross = smd_pot_cross(type);
    flat = smd_pot_flat(type);
    track_or = size.x * 0.48;
    track_ir = track_or * 0.6;
    color(grey(90))
        translate_z(size.z / 2)
            cube(size, center = true);
    color(silver) {
        for(side = [-1, 1])
            translate([side * contacts_pitch, -size.y / 2 + contacts.y / 2, size.z / 2])
                cube([contacts.x, contacts.y, size.z] + 2 * eps * [1,1,1], center = true);
        translate([0, size.y / 2 - centre_contact_d / 2, size.z / 2])
            render() difference() {
                cube([centre_contact_w, centre_contact_d + 2 * eps, size.z + 2 * eps], center = true);
                translate_z(size.z / 2)
                    cube([centre_contact_gap, centre_contact_d + 4 * eps, 2 * eps], center = true);
            }
        slope_angle = atan((wiper_h - size.z - wiper_t) / (wiper_r2 - wiper_r3));
        dx = wiper_t / tan(90 - slope_angle / 2);
        translate([0, wiper_y]) {
            render() difference() {
                rotate_extrude() {
                    polygon([
                        [wiper_r5,      size.z + wiper_t],
                        [wiper_r3,      size.z + wiper_t],
                        [wiper_r2,      wiper_h],
                        [wiper_r1,      wiper_h],
                        [wiper_r1,      wiper_h - wiper_t],
                        [wiper_r2 + dx, wiper_h - wiper_t],
                        [wiper_r3 + dx, size.z],
                        [wiper_r5,      size.z],
                    ]);
                    r = (wiper_r4 - wiper_r5) / 2;
                    translate([wiper_r5 + r, size.z + wiper_t])
                        circle(r, $fn = 16);
                }
                translate_z(size.z + wiper_t)
                    linear_extrude(wiper_h - size.z - wiper_t)
                        difference() {
                            union() {
                                square(cross, center = true);
                                rotate(90)
                                    square(cross, center = true);
                            }
                            circle(wiper_r4 + eps);
                        }
            }
            translate([0, -(wiper_r1 + cross.x / 2) / 2, wiper_h - wiper_t / 2])
                cube([flat, wiper_r1 - cross.x / 2, wiper_t], center = true);
        }
    }
    color("black")
        translate([0, wiper.y, size.z])
            linear_extrude(eps) {
                difference() {
                    sector(track_or, -270 / 2 + 90, 270 / 2 + 90);
                    circle(track_ir);
                }
                track_w = track_or - track_ir;
                track_l = wiper.y - track_ir / sqrt(2) + size.y / 2 - contacts.y;
                for(side = [-1, 1])
                    translate([side * (track_ir / sqrt(2) + track_w / 2), -wiper.y -size.y / 2 + track_l / 2 + contacts.y])
                        square([track_w, track_l], center = true);
            }
 }
--- a/vitamins/smds.scad
+++ b/vitamins/smds.scad
@@ -50,4 +50,16 @@ SOIC18 = ["SOIC18", [11.40, 7.50, 2.00], 0.10, 1.20, 1.27, 10.30, [0.31, .50, 0.
 smd_soics = [SOIC8, SOIC16, SOIC18];
 DO241AC = ["DO241AC", [4.0, 2.5, 2.0], 0.1, 1, [4.8, 1.2, 0.15, 2]];
 smd_diodes = [DO241AC];
 IND2525 = ["IND2525", [6.75, 6.75, 2], 0.1, 1.75, [7.24, 3.2, 0.15, 4.4], grey(50)];
 smd_inductors = [IND2525];
 TC33X1 = ["TC33X1", [3.0, 3.8, 0.5], [0.95, 0.9, 0.88, 1.5, 0.2, 0.75],[3.0, 0.1, 0.2, 1.2, 1.7, 1.2, 1, 0.5], [2.1, 0.5], 1.5];
 smd_pots = [TC33X1];
 use <smd.scad>
Author	SHA1	Message	Date
Chris Palmer	ebd50bae53	Added SMD diodes, inductors and potentiometers. Complete set of components added to MP1584EN buck regulator.	2023-01-12 23:00:21 +00:00
Chris	8e47270607	Updated changelog.	2023-01-07 11:12:43 +00:00
Chris	ec3e752fc5	Added missing documentation for hinge_female() module.	2023-01-07 11:09:46 +00:00
Chris	de17726d20	Updated changelog.	2023-01-07 11:03:12 +00:00
Chris	8587d52d1b	Added screw_keyhole() module.	2023-01-07 10:50:32 +00:00
Chris	cec8c3a107	Added printed LED bezels.	2023-01-07 10:49:45 +00:00
Chris	848dcb86b9	Added 8mm LED.	2023-01-07 10:08:05 +00:00
Chris	a31f6f100c	Revised LED dimensions.	2023-01-07 09:24:04 +00:00
Chris	b3dd635889	Fixed duplicated dxf() calls in printed box and butt_box. Client code now calls dxf() so that the generated files can be used to speed up assembly views.	2023-01-07 09:21:04 +00:00
Chris Palmer	3c9004f12d	Updated changelog.	2022-12-06 17:14:54 +00:00
Chris Palmer	e256801206	Added comment to indicate the .py suffix may be needed on linux and OSX.	2022-12-06 17:07:40 +00:00
Chris	4080179a74	Merge pull request #246 from majekw/include-terminals Include terminal.scad in lib.scad to allow use of terminal_block().	2022-12-05 20:42:44 +00:00
Marek Wodzinski	9dc8062bef	Include terminal.scad in lib.scad to allow use of terminal_block().	2022-12-05 13:34:16 +01:00
Chris	c2e85a5833	Merge pull request #245 from drf5n/patch-1 update nuts.scad table comment	2022-10-26 13:37:41 +01:00
drf5n	f2313a3f0c	update nuts.scad table comment Change comment about nut sizes from radius to diameter.	2022-10-20 10:57:06 -04:00
Chris	d95e1e64ed	Udated changelog.	2022-09-29 12:00:53 +01:00
Chris	4eaaee6a4d	Merge branch 'jeroenrnl-nuthousing'	2022-09-29 11:58:06 +01:00
Chris	f1737d257b	Updated images and readme.	2022-09-29 11:57:49 +01:00
Jeroen Roos	ce258d6d4f	Leadnuts: add nuthousing	2022-09-27 21:50:28 +02:00
Chris	272b7efd45	Updated changelog.	2022-09-27 01:12:59 +01:00
Chris	e84b5721d7	Merge branch 'jeroenrnl-SC_flex'	2022-09-27 01:10:40 +01:00
Chris	ec85cc5d4c	Updated images and readme.	2022-09-27 01:10:23 +01:00
Chris	264e4366f6	Merge branch 'SC_flex' of https://github.com/jeroenrnl/NopSCADlib into jeroenrnl-SC_flex	2022-09-27 00:35:19 +01:00
Chris	233fba275d	Updated changelog.	2022-09-27 00:18:08 +01:00
Chris	c9ac393c0c	Printed corner blocks now have a short_insert option.	2022-09-27 00:09:49 +01:00
Chris	208334a585	Printed box now has a short insert option.	2022-09-27 00:09:15 +01:00
Chris	3a17b89d5c	Added short inserts and M5 inserts. screw_insert() now takes a short flag. screw_length() can now be passed an insert object.	2022-09-27 00:07:23 +01:00
Chris	0f36c02b5e	Added layer_height0 global variable and updated round_to_layer() to handle it. Moved functions from global_defs.scad to global.scad so they get documented.	2022-09-25 18:22:29 +01:00
Jeroen Roos	fb6695471f	Shaft coupling: Add flexible SC / 6x8 flexible SC Added the possibility for shaft couplings to be flexible and added a 6x8 example of such a coupling.	2022-09-24 14:17:15 +02:00
Chris	87b794d4a2	Updated changelog.	2022-08-30 22:20:24 +01:00
Chris	75262efe3a	Merge branch 'ChemicalXandco-l9110s'	2022-08-30 22:18:36 +01:00
Chris	c1e4625382	Replaced generic chips with SOIC8. Updated images and readme.	2022-08-30 22:18:24 +01:00
ChemicalXandco	6059c5f556	add L9110S 2-Channel motor driver module	2022-08-29 11:17:21 +01:00
Chris	a5a55533e1	Updated changelog.	2022-08-03 07:52:37 +01:00