Added catenary curves.

Added hyperbolic maths functions
Fixes for additional warnings in OpenSCAD 2020.09.12.ci5914
2025-09-03 20:32:35 +02:00 · 2020-09-19 12:11:54 +01:00 · 2020-09-15 20:58:39 +01:00 · 2020-09-14 22:54:55 +01:00 · 2020-09-11 19:53:14 +01:00 · 2020-09-11 12:36:37 +01:00
87 changed files with 1359 additions and 368 deletions
--- a/lib.scad
+++ b/lib.scad
@@ -29,6 +29,7 @@ include <vitamins/batteries.scad>
 include <vitamins/blowers.scad>
 include <vitamins/bulldogs.scad>
 include <vitamins/buttons.scad>
+include <vitamins/cameras.scad>
 include <vitamins/components.scad>
 include <vitamins/displays.scad>
 include <vitamins/extrusions.scad>
@@ -42,6 +43,7 @@ include <vitamins/ldrs.scad>
 include <vitamins/leadnuts.scad>
 include <vitamins/led_meter.scad>
 include <vitamins/light_strips.scad>
+include <vitamins/magnets.scad>
 include <vitamins/mains_sockets.scad>
 include <vitamins/modules.scad>
 include <vitamins/panel_meters.scad>
@@ -83,6 +85,7 @@ use <utils/rounded_cylinder.scad>
 use <utils/dogbones.scad>
 use <utils/tube.scad>
 use <utils/quadrant.scad>
+use <utils/gears.scad>
 use <utils/hanging_hole.scad>
 use <utils/fillet.scad>
 use <utils/rounded_polygon.scad>
--- a/libtest.png
+++ b/libtest.png
--- a/libtest.scad
+++ b/libtest.scad
@@ -50,6 +50,7 @@ use <tests/LEDs.scad>
 use <tests/light_strips.scad>
 use <tests/linear_bearings.scad>
 use <tests/LED_meters.scad>
+use <tests/magnets.scad>
 use <tests/microswitches.scad>
 use <tests/modules.scad>
 use <tests/nuts.scad>
@@ -73,7 +74,7 @@ use <tests/spades.scad>
 use <tests/springs.scad>
 use <tests/SSRs.scad>
 use <tests/stepper_motors.scad>
-use <tests/swiss_clips.scad>
+use <tests/Swiss_clips.scad>
 use <tests/toggles.scad>
 use <tests/transformers.scad>
 use <tests/tubings.scad>
@@ -116,17 +117,17 @@ cable_grommets_y = 0;
 translate([x5, cable_grommets_y])
    cable_grommets();

-translate([x5, cable_grommets_y + 50])
-    feet();
+translate([x5 + 80, cable_grommets_y])
+    ribbon_clamps();

-translate([x5, cable_grommets_y + 75])
+translate([x5, cable_grommets_y + 60])
    fixing_blocks();

-translate([x5, cable_grommets_y + 100])
+translate([x5, cable_grommets_y + 90])
    corner_blocks();

 translate([x5, cable_grommets_y + 150])
-    ribbon_clamps();
+    feet();

 translate([x5 + 70, cable_grommets_y + 150])
    screw_knobs();
@@ -271,8 +272,9 @@ translate([x1, leadnuts_y])

 leds_y = 0;
 carriers_y = leds_y + 40;
-spades_y = carriers_y + 40;
-buttons_y = spades_y + 40;
+magnets_y = carriers_y + 40;
+spades_y = magnets_y + 20;
+buttons_y = spades_y + 20;
 jacks_y = buttons_y + 40;
 microswitches_y = jacks_y + 40;
 rockers_y = microswitches_y + 40;
@@ -288,6 +290,9 @@ translate([x2 + 35, leds_y])
 translate([x2 + 8, carriers_y])
    carriers();

+translate([x2, magnets_y])
+    magnets();
+
 translate([x2 + 20, carriers_y])
    led_meters();

@@ -385,7 +390,7 @@ sk_brackets_y = extrusion_brackets_y + 80;
 kp_pillow_blocks_y = sk_brackets_y + 50;
 scs_bearing_blocks_y = kp_pillow_blocks_y + 60;

-translate([x4 + 150, belts_y + 58]) {
+translate([x4 + 200, belts_y + 58]) {
    belt_test();

    translate([0, 60])
--- a/printed/door_hinge.scad
+++ b/printed/door_hinge.scad
@@ -74,7 +74,7 @@ module door_hinge(door_thickness) {                         //! Generates STL fo
                            square([1, thickness + door_thickness]);
                    }
                    translate([dia / 2, thickness + door_thickness / 2])
-                        teardrop(r = screw_clearance_radius(pin_screw), h = 0);
+                        teardrop_plus(r = screw_clearance_radius(pin_screw), h = 0);
                }
        linear_extrude(thickness)
            difference() {
@@ -127,7 +127,7 @@ module door_hinge_stat_stl() { //! Generates the STL for the stationary part
                            square([dia, 1], center = true);
                    }
                    translate([0, dia / 2 + stat_clearance])
-                        teardrop(r = screw_clearance_radius(pin_screw), h = 0);
+                        teardrop_plus(r = screw_clearance_radius(pin_screw), h = 0);
               }
    }
 }
--- a/printed/ribbon_clamp.scad
+++ b/printed/ribbon_clamp.scad
@@ -24,69 +24,72 @@ include <../core.scad>
 use <../vitamins/insert.scad>
 use <../vitamins/cable_strip.scad>

-wall = 2;
+wall = 1.6;
 min_wall = 2 * extrusion_width;
 screw = M3_cap_screw;
-insert = screw_insert(screw);
-screw_depth = insert_length(insert) + 1;

-function ribbon_clamp_hole_pitch(ways) = ribbon_clamp_slot(ways) + 2 * min_wall + 2 * corrected_radius(insert_hole_radius(insert)); //! Hole pitch
-function ribbon_clamp_width() = 2 * (insert_hole_radius(insert) + wall); //! Width
-function ribbon_clamp_length(ways) = ribbon_clamp_hole_pitch(ways) + ribbon_clamp_width(); //! Length given ways
-function ribbon_clamp_height() = screw_depth + 1; //! Height
+function ribbon_clamp_screw_depth(screw = screw) = insert_length(screw_insert(screw)) + 1;
+function ribbon_clamp_hole_pitch(ways, screw = screw) =
+    ribbon_clamp_slot(ways) + 2 * min_wall + 2 * corrected_radius(insert_hole_radius(screw_insert(screw))); //! Hole pitch

-module ribbon_clamp_hole_positions(ways, side = undef) //! Place children at hole positions
+function ribbon_clamp_width(screw = screw) = 2 * (insert_hole_radius(screw_insert(screw)) + wall); //! Width
+function ribbon_clamp_length(ways, screw = screw) = ribbon_clamp_hole_pitch(ways, screw) + ribbon_clamp_width(screw); //! Length given ways
+function ribbon_clamp_height(screw = screw) = ribbon_clamp_screw_depth(screw) + 1; //! Height
+
+module ribbon_clamp_hole_positions(ways, screw = screw, side = undef) //! Place children at hole positions
    for(x = is_undef(side) ? [-1, 1] : side)
-        translate([x * ribbon_clamp_hole_pitch(ways) / 2, 0])
+        translate([x * ribbon_clamp_hole_pitch(ways, screw) / 2, 0])
            children();

-module ribbon_clamp_holes(ways, h = 20) //! Drill screw holes
-    ribbon_clamp_hole_positions(ways)
+module ribbon_clamp_holes(ways, h = 20, screw = screw) //! Drill screw holes
+    ribbon_clamp_hole_positions(ways, screw)
        drill(screw_clearance_radius(screw), h);

-module ribbon_clamp(ways) { //! Generate STL for given number of ways
-    stl(str("ribbon_clamp_", ways));
+module ribbon_clamp(ways, screw = screw) { //! Generate STL for given number of ways
+    screw_d = screw_radius(screw) * 2;
+    stl(str("ribbon_clamp_", ways, screw_d != 3 ? str("_", screw_d) : ""));

-    pitch = ribbon_clamp_hole_pitch(ways);
-    d = ribbon_clamp_width();
-    h = ribbon_clamp_height();
-    t = h - ribbon_clamp_slot_depth() - wall;
+    pitch = ribbon_clamp_hole_pitch(ways, screw);
+    d = ribbon_clamp_width(screw);
+    h = ribbon_clamp_height(screw);
+    t = round_to_layer(ribbon_clamp_slot_depth() + wall);
+    insert = screw_insert(screw);

    difference() {
        union() {
            hull() {
                translate_z(h - t / 2)
-                    cube([ribbon_clamp_hole_pitch(ways), d, t], center = true);
+                    cube([ribbon_clamp_hole_pitch(ways, screw), d, t], center = true);

                translate_z(1)
                    cube([pitch, max(wall, d - 2 * (h - t)), 2], center = true);
            }
-            ribbon_clamp_hole_positions(ways, -1)
+            ribbon_clamp_hole_positions(ways, screw, -1)
                cylinder(d = d, h = h);

-            ribbon_clamp_hole_positions(ways,  1)
+            ribbon_clamp_hole_positions(ways, screw, 1)
                cylinder(d = d, h = h);
-
        }

        translate_z(h)
            cube([ribbon_clamp_slot(ways), d + 1, ribbon_clamp_slot_depth() * 2], center = true);

-        ribbon_clamp_hole_positions(ways)
+        ribbon_clamp_hole_positions(ways, screw)
            translate_z(h)
                rotate(22.5)
-                    insert_hole(insert, screw_depth - insert_length(insert));
+                    insert_hole(insert, ribbon_clamp_screw_depth(screw) - insert_length(insert));
    }
 }

-module ribbon_clamp_assembly(ways) pose([55, 180, 25])  //! Printed part with inserts in place
-    assembly(str("ribbon_clamp_", ways)) {
-    h = ribbon_clamp_height();
+module ribbon_clamp_assembly(ways, screw) pose([55, 180, 25])  //! Printed part with inserts in place
+    assembly(let(screw_d = screw_radius(screw) * 2)str("ribbon_clamp_", ways, screw_d != 3 ? str("_", screw_d) : "")) {
+    h = ribbon_clamp_height(screw);
+    insert = screw_insert(screw);

    stl_colour(pp1_colour) render()
-        translate_z(h) vflip() ribbon_clamp(ways);
+        translate_z(h) vflip() ribbon_clamp(ways, screw);

-    ribbon_clamp_hole_positions(ways)
+    ribbon_clamp_hole_positions(ways, screw)
        vflip()
            insert(insert);
 }
@@ -99,20 +102,24 @@ module ribbon_clamp_fastened_assembly(ways, thickness, screw = screw) { //! Clam
    vitamin(str(": Tape self amalgamating silicone ",tape_l," x 25mm"));

    washer = screw_washer(screw);
-    screw_length = screw_shorter_than(2 * washer_thickness(washer) + thickness + screw_depth);
+    screw_length = screw_shorter_than(2 * washer_thickness(washer) + thickness + ribbon_clamp_screw_depth(screw));

-    ribbon_clamp_assembly(ways);
+    ribbon_clamp_assembly(ways, screw);

    color("red") translate_z(tape_thickness / 2)
        cube([tape_l, tape_width, tape_thickness], center = true);

-    ribbon_clamp_hole_positions(ways)
+    ribbon_clamp_hole_positions(ways, screw)
        vflip()
           translate_z(thickness)
                screw_and_washer(screw, screw_length, true);
 }

 module ribbon_clamp_20_stl() ribbon_clamp(20);
+module ribbon_clamp_8_2_stl() ribbon_clamp(8, M2_dome_screw);

 //! * Place inserts into the holes and press home with a soldering iron with a conical bit heated to 200&deg;C.
 module ribbon_clamp_20_assembly() ribbon_clamp_assembly(20);
+
+//! * Place inserts into the holes and press home with a soldering iron with a conical bit heated to 200&deg;C.
+module ribbon_clamp_8_2_assembly() ribbon_clamp_assembly(8, M2_dome_screw);
--- a/readme.md
+++ b/readme.md
@@ -20,27 +20,27 @@ See [usage](docs/usage.md) for requirements, installation instructions and a usa
 <th align="left"> Vitamins A-I </th><th align="left"> Vitamins J-Q </th><th align="left"> Vitamins R-Z </th><th align="left"> Printed </th><th align="left"> Utilities </th><th align="left"> Core Utilities </th></tr>
 <tr><td> <a href = "#Axials">Axials</a> </td><td> <a href = "#Jack">Jack</a> </td><td> <a href = "#Rails">Rails</a> </td><td> <a href = "#Box">Box</a> </td><td> <a href = "#Annotation">Annotation</a> </td><td> <a href = "#BOM">BOM</a> </td></tr>
 <tr><td> <a href = "#Ball_bearings">Ball_bearings</a> </td><td> <a href = "#KP_pillow_blocks">KP_pillow_blocks</a> </td><td> <a href = "#Ring_terminals">Ring_terminals</a> </td><td> <a href = "#Butt_box">Butt_box</a> </td><td> <a href = "#Bezier">Bezier</a> </td><td> <a href = "#Clip">Clip</a> </td></tr>
-<tr><td> <a href = "#Batteries">Batteries</a> </td><td> <a href = "#LDRs">LDRs</a> </td><td> <a href = "#Rockers">Rockers</a> </td><td> <a href = "#Cable_grommets">Cable_grommets</a> </td><td> <a href = "#Dogbones">Dogbones</a> </td><td> <a href = "#Global">Global</a> </td></tr>
-<tr><td> <a href = "#Belts">Belts</a> </td><td> <a href = "#LED_meters">LED_meters</a> </td><td> <a href = "#Rod">Rod</a> </td><td> <a href = "#Carriers">Carriers</a> </td><td> <a href = "#Fillet">Fillet</a> </td><td> <a href = "#Polyholes">Polyholes</a> </td></tr>
-<tr><td> <a href = "#Blowers">Blowers</a> </td><td> <a href = "#LEDs">LEDs</a> </td><td> <a href = "#SCS_bearing_blocks">SCS_bearing_blocks</a> </td><td> <a href = "#Corner_block">Corner_block</a> </td><td> <a href = "#Hanging_hole">Hanging_hole</a> </td><td> <a href = "#Rounded_rectangle">Rounded_rectangle</a> </td></tr>
-<tr><td> <a href = "#Bulldogs">Bulldogs</a> </td><td> <a href = "#Leadnuts">Leadnuts</a> </td><td> <a href = "#SK_brackets">SK_brackets</a> </td><td> <a href = "#Door_hinge">Door_hinge</a> </td><td> <a href = "#Layout">Layout</a> </td><td> <a href = "#Sphere">Sphere</a> </td></tr>
-<tr><td> <a href = "#Buttons">Buttons</a> </td><td> <a href = "#Light_strips">Light_strips</a> </td><td> <a href = "#SMDs">SMDs</a> </td><td> <a href = "#Door_latch">Door_latch</a> </td><td> <a href = "#Maths">Maths</a> </td><td> <a href = "#Teardrops">Teardrops</a> </td></tr>
-<tr><td> <a href = "#Cable_strips">Cable_strips</a> </td><td> <a href = "#Linear_bearings">Linear_bearings</a> </td><td> <a href = "#SSRs">SSRs</a> </td><td> <a href = "#Fan_guard">Fan_guard</a> </td><td> <a href = "#Offset">Offset</a> </td><td></td></tr>
-<tr><td> <a href = "#Cameras">Cameras</a> </td><td> <a href = "#Mains_sockets">Mains_sockets</a> </td><td> <a href = "#Screws">Screws</a> </td><td> <a href = "#Fixing_block">Fixing_block</a> </td><td> <a href = "#Quadrant">Quadrant</a> </td><td></td></tr>
-<tr><td> <a href = "#Circlips">Circlips</a> </td><td> <a href = "#Microswitches">Microswitches</a> </td><td> <a href = "#Sealing_strip">Sealing_strip</a> </td><td> <a href = "#Flat_hinge">Flat_hinge</a> </td><td> <a href = "#Round">Round</a> </td><td></td></tr>
-<tr><td> <a href = "#Components">Components</a> </td><td> <a href = "#Microview">Microview</a> </td><td> <a href = "#Sheets">Sheets</a> </td><td> <a href = "#Foot">Foot</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 = "#Modules">Modules</a> </td><td> <a href = "#Spades">Spades</a> </td><td> <a href = "#Handle">Handle</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 = "#Nuts">Nuts</a> </td><td> <a href = "#Spools">Spools</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 = "#Displays">Displays</a> </td><td> <a href = "#O_ring">O_ring</a> </td><td> <a href = "#Springs">Springs</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 = "#Extrusion_brackets">Extrusion_brackets</a> </td><td> <a href = "#Opengrab">Opengrab</a> </td><td> <a href = "#Stepper_motors">Stepper_motors</a> </td><td> <a href = "#Printed_box">Printed_box</a> </td><td> <a href = "#Thread">Thread</a> </td><td></td></tr>
-<tr><td> <a href = "#Extrusions">Extrusions</a> </td><td> <a href = "#PCB">PCB</a> </td><td> <a href = "#Swiss_clips">Swiss_clips</a> </td><td> <a href = "#Ribbon_clamp">Ribbon_clamp</a> </td><td> <a href = "#Tube">Tube</a> </td><td></td></tr>
-<tr><td> <a href = "#Fans">Fans</a> </td><td> <a href = "#PCBs">PCBs</a> </td><td> <a href = "#Toggles">Toggles</a> </td><td> <a href = "#SSR_shroud">SSR_shroud</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Fuseholder">Fuseholder</a> </td><td> <a href = "#PSUs">PSUs</a> </td><td> <a href = "#Transformers">Transformers</a> </td><td> <a href = "#Screw_knob">Screw_knob</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Geared_steppers">Geared_steppers</a> </td><td> <a href = "#Panel_meters">Panel_meters</a> </td><td> <a href = "#Tubings">Tubings</a> </td><td> <a href = "#Socket_box">Socket_box</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Green_terminals">Green_terminals</a> </td><td> <a href = "#Pillars">Pillars</a> </td><td> <a href = "#Variacs">Variacs</a> </td><td> <a href = "#Strap_handle">Strap_handle</a> </td><td></td><td></td></tr>
-<tr><td> <a href = "#Hot_ends">Hot_ends</a> </td><td> <a href = "#Pin_headers">Pin_headers</a> </td><td> <a href = "#Veroboard">Veroboard</a> </td><td></td><td></td><td></td></tr>
-<tr><td> <a href = "#Hygrometer">Hygrometer</a> </td><td> <a href = "#Pulleys">Pulleys</a> </td><td> <a href = "#Washers">Washers</a> </td><td></td><td></td><td></td></tr>
-<tr><td> <a href = "#IECs">IECs</a> </td><td></td><td> <a href = "#Wire">Wire</a> </td><td></td><td></td><td></td></tr>
+<tr><td> <a href = "#Batteries">Batteries</a> </td><td> <a href = "#LDRs">LDRs</a> </td><td> <a href = "#Rockers">Rockers</a> </td><td> <a href = "#Cable_grommets">Cable_grommets</a> </td><td> <a href = "#Catenary">Catenary</a> </td><td> <a href = "#Global">Global</a> </td></tr>
+<tr><td> <a href = "#Belts">Belts</a> </td><td> <a href = "#LED_meters">LED_meters</a> </td><td> <a href = "#Rod">Rod</a> </td><td> <a href = "#Carriers">Carriers</a> </td><td> <a href = "#Dogbones">Dogbones</a> </td><td> <a href = "#Polyholes">Polyholes</a> </td></tr>
+<tr><td> <a href = "#Blowers">Blowers</a> </td><td> <a href = "#LEDs">LEDs</a> </td><td> <a href = "#SCS_bearing_blocks">SCS_bearing_blocks</a> </td><td> <a href = "#Corner_block">Corner_block</a> </td><td> <a href = "#Fillet">Fillet</a> </td><td> <a href = "#Rounded_rectangle">Rounded_rectangle</a> </td></tr>
+<tr><td> <a href = "#Bulldogs">Bulldogs</a> </td><td> <a href = "#Leadnuts">Leadnuts</a> </td><td> <a href = "#SK_brackets">SK_brackets</a> </td><td> <a href = "#Door_hinge">Door_hinge</a> </td><td> <a href = "#Gears">Gears</a> </td><td> <a href = "#Sphere">Sphere</a> </td></tr>
+<tr><td> <a href = "#Buttons">Buttons</a> </td><td> <a href = "#Light_strips">Light_strips</a> </td><td> <a href = "#SMDs">SMDs</a> </td><td> <a href = "#Door_latch">Door_latch</a> </td><td> <a href = "#Hanging_hole">Hanging_hole</a> </td><td> <a href = "#Teardrops">Teardrops</a> </td></tr>
+<tr><td> <a href = "#Cable_strips">Cable_strips</a> </td><td> <a href = "#Linear_bearings">Linear_bearings</a> </td><td> <a href = "#SSRs">SSRs</a> </td><td> <a href = "#Fan_guard">Fan_guard</a> </td><td> <a href = "#Horiholes">Horiholes</a> </td><td></td></tr>
+<tr><td> <a href = "#Cameras">Cameras</a> </td><td> <a href = "#Magnets">Magnets</a> </td><td> <a href = "#Screws">Screws</a> </td><td> <a href = "#Fixing_block">Fixing_block</a> </td><td> <a href = "#Layout">Layout</a> </td><td></td></tr>
+<tr><td> <a href = "#Circlips">Circlips</a> </td><td> <a href = "#Mains_sockets">Mains_sockets</a> </td><td> <a href = "#Sealing_strip">Sealing_strip</a> </td><td> <a href = "#Flat_hinge">Flat_hinge</a> </td><td> <a href = "#Maths">Maths</a> </td><td></td></tr>
+<tr><td> <a href = "#Components">Components</a> </td><td> <a href = "#Microswitches">Microswitches</a> </td><td> <a href = "#Sheets">Sheets</a> </td><td> <a href = "#Foot">Foot</a> </td><td> <a href = "#Offset">Offset</a> </td><td></td></tr>
+<tr><td> <a href = "#DIP">DIP</a> </td><td> <a href = "#Microview">Microview</a> </td><td> <a href = "#Spades">Spades</a> </td><td> <a href = "#Handle">Handle</a> </td><td> <a href = "#Quadrant">Quadrant</a> </td><td></td></tr>
+<tr><td> <a href = "#D_connectors">D_connectors</a> </td><td> <a href = "#Modules">Modules</a> </td><td> <a href = "#Spools">Spools</a> </td><td> <a href = "#PCB_mount">PCB_mount</a> </td><td> <a href = "#Round">Round</a> </td><td></td></tr>
+<tr><td> <a href = "#Displays">Displays</a> </td><td> <a href = "#Nuts">Nuts</a> </td><td> <a href = "#Springs">Springs</a> </td><td> <a href = "#PSU_shroud">PSU_shroud</a> </td><td> <a href = "#Rounded_cylinder">Rounded_cylinder</a> </td><td></td></tr>
+<tr><td> <a href = "#Extrusion_brackets">Extrusion_brackets</a> </td><td> <a href = "#O_ring">O_ring</a> </td><td> <a href = "#Stepper_motors">Stepper_motors</a> </td><td> <a href = "#Printed_box">Printed_box</a> </td><td> <a href = "#Rounded_polygon">Rounded_polygon</a> </td><td></td></tr>
+<tr><td> <a href = "#Extrusions">Extrusions</a> </td><td> <a href = "#Opengrab">Opengrab</a> </td><td> <a href = "#Swiss_clips">Swiss_clips</a> </td><td> <a href = "#Ribbon_clamp">Ribbon_clamp</a> </td><td> <a href = "#Sector">Sector</a> </td><td></td></tr>
+<tr><td> <a href = "#Fans">Fans</a> </td><td> <a href = "#PCB">PCB</a> </td><td> <a href = "#Toggles">Toggles</a> </td><td> <a href = "#SSR_shroud">SSR_shroud</a> </td><td> <a href = "#Sweep">Sweep</a> </td><td></td></tr>
+<tr><td> <a href = "#Fuseholder">Fuseholder</a> </td><td> <a href = "#PCBs">PCBs</a> </td><td> <a href = "#Transformers">Transformers</a> </td><td> <a href = "#Screw_knob">Screw_knob</a> </td><td> <a href = "#Thread">Thread</a> </td><td></td></tr>
+<tr><td> <a href = "#Geared_steppers">Geared_steppers</a> </td><td> <a href = "#PSUs">PSUs</a> </td><td> <a href = "#Tubings">Tubings</a> </td><td> <a href = "#Socket_box">Socket_box</a> </td><td> <a href = "#Tube">Tube</a> </td><td></td></tr>
+<tr><td> <a href = "#Green_terminals">Green_terminals</a> </td><td> <a href = "#Panel_meters">Panel_meters</a> </td><td> <a href = "#Variacs">Variacs</a> </td><td> <a href = "#Strap_handle">Strap_handle</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Hot_ends">Hot_ends</a> </td><td> <a href = "#Pillars">Pillars</a> </td><td> <a href = "#Veroboard">Veroboard</a> </td><td></td><td></td><td></td></tr>
+<tr><td> <a href = "#Hygrometer">Hygrometer</a> </td><td> <a href = "#Pin_headers">Pin_headers</a> </td><td> <a href = "#Washers">Washers</a> </td><td></td><td></td><td></td></tr>
+<tr><td> <a href = "#IECs">IECs</a> </td><td> <a href = "#Pulleys">Pulleys</a> </td><td> <a href = "#Wire">Wire</a> </td><td></td><td></td><td></td></tr>
 <tr><td> <a href = "#Inserts">Inserts</a> </td><td></td><td> <a href = "#Zipties">Zipties</a> </td><td></td><td></td><td></td></tr>
 </table>

@@ -85,6 +85,7 @@ Axial components for PCBs.
 |   1 | ```ax_res(res1_4, 47000)``` |  Resistor 47000 Ohms 5% 0.25W |
 |   1 | ```ax_res(res1_2, 8200)``` |  Resistor 8200 Ohms 5% 0.5W |
 |   1 | ```ax_res(res1_2, 8250, tol = 1)``` |  Resistor 8250 Ohms 1% 0.5W |
+|   1 | ```wire_link(0.8, 10.16)``` |  Wire link 0.8mm x 0.4" |


 <a href="#top">Top</a>
@@ -133,7 +134,8 @@ Also single bearing balls are modelled as just a silver sphere and a BOM entry.
 |   1 | ```ball_bearing(BB6201)``` |  Ball bearing 6201-2RS 12mm x 32mm x 10mm |
 |   1 | ```ball_bearing(BB624)``` |  Ball bearing 624-2RS 4mm x 13mm x 5mm |
 |   1 | ```ball_bearing(BB6808)``` |  Ball bearing 6808-2RS 40mm x 52mm x 7mm |
-|   5 | ``` bearing_ball(3)``` |  Steel ball 3mm |
+|   1 | ```ball_bearing(BBSMR95)``` |  Ball bearing SMR95ZZ 5mm x 9mm x 2.5mm |
+|   6 | ``` bearing_ball(3)``` |  Steel ball 3mm |


 <a href="#top">Top</a>
@@ -208,6 +210,7 @@ Only models 2D paths, so not core XY!
 To make the back of the belt run against a smooth pulley on the outside of the loop specify a negative pitch radius.

 By default the path is a closed loop but a gap length and position can be specified to make open loops.
+To draw the gap its XY position is specified by ```gap_pos```. ```gap_pos.z``` can be used to specify a rotation if the gap is not at the bottom of the loop.

 Individual teeth are not drawn, instead they are represented by a lighter colour.

@@ -222,6 +225,7 @@ Individual teeth are not drawn, instead they are represented by a lighter colour
 | Function | Description |
 |:--- |:--- |
 | ```belt_pitch(type)``` | Pitch in mm |
+| ```belt_pitch_height(type)``` | Offset of the pitch radius from the tips of the teeth |
 | ```belt_thickness(type)``` | Total thickness including teeth |
 | ```belt_tooth_height(type)``` | Tooth height |
 | ```belt_width(type)``` | Width in mm |
@@ -230,12 +234,12 @@ Individual teeth are not drawn, instead they are represented by a lighter colour
 | Function | Description |
 |:--- |:--- |
 | ```belt_length(points, gap = 0)``` | Compute belt length given path and optional gap |
-| ```belt_pitch_height(type)``` | Offset of the pitch radius from the tips of the teeth |
+| ```belt_pitch_to_back(type)``` | Offset of the back from the pitch radius |

 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```belt(type, points, gap = 0, gap_pt = undef, belt_colour = grey(20)``` | Draw a belt path given a set of points and pitch radii where the pulleys are. Closed loop unless a gap is specified |
+| ```belt(type, points, gap = 0, gap_pos = undef, belt_colour = grey(20)``` | Draw a belt path given a set of points and pitch radii where the pulleys are. Closed loop unless a gap is specified |

 ![belts](tests/png/belts.png)

@@ -243,7 +247,7 @@ Individual teeth are not drawn, instead they are represented by a lighter colour
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
 |   1 | ```belt(GT2x6, [ ... ])``` |  Belt GT2 x 6mm x 128mm |
-|   1 | ```belt(GT2x6, [ ... ], 80, [0, 0.81])``` |  Belt GT2 x 6mm x 694mm |
+|   1 | ```belt(GT2x6, [ ... ], 80, [0, 0])``` |  Belt GT2 x 6mm x 696mm |
 |   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 |
@@ -447,7 +451,8 @@ PCB cameras.
 ### Properties
 | Function | Description |
 |:--- |:--- |
-| ```camera_connector(type)``` | The flex connector block for the camera itself |
+| ```camera_connector_pos(type)``` | The flex connector block for the camera itself's position |
+| ```camera_connector_size(type)``` | The flex connector block for the camera itself's size |
 | ```camera_lens(type)``` | Stack of lens parts, can be round, rectanular or rounded rectangular, with optional tapered aperture |
 | ```camera_lens_offset(type)``` | Offset of the lens center from the PCB centre |
 | ```camera_pcb(type)``` | The PCB part of the camera |
@@ -456,6 +461,7 @@ PCB cameras.
 | Module | Description |
 |:--- |:--- |
 | ```camera(type)``` | Draw specified PCB camera |
+| ```camera_lens(type, offset = 0)``` | Draw the lens stack, with optional offset for making a clearance hole |

 ![cameras](tests/png/cameras.png)

@@ -463,6 +469,7 @@ PCB cameras.
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
 |   1 | ```camera(rpi_camera_v1)``` |  Raspberry Pi camera V1 |
+|   1 | ```camera(rpi_camera_v2)``` |  Raspberry Pi camera V2 |
 |   1 | ```camera(rpi_camera)``` |  Raspberry Pi focusable camera |


@@ -896,7 +903,7 @@ Can draw three styles: solid, open frame and open frame with screw bosses.
 | ---:|:--- |:---|
 |   1 | ```fan(fan120x25)``` |  Fan 120mm x 25mm |
 |   1 | ```fan(fan17x8)``` |  Fan 17mm x 8mm |
-|   1 | ```fan(fan25x10)``` |  Fan 25mm x 10mm |
+|   1 | ```fan(fan25.4x10)``` |  Fan 25.4mm x 10mm |
 |   1 | ```fan(fan30x10)``` |  Fan 30mm x 10mm |
 |   1 | ```fan(fan40x11)``` |  Fan 40mm x 11mm |
 |   1 | ```fan(fan50x15)``` |  Fan 50mm x 15mm |
@@ -1246,6 +1253,7 @@ Heatfit threaded inserts. Can be pushed into thermoplastics using a soldering ir
 | Function | Description |
 |:--- |:--- |
 | ```insert_boss_radius(type, wall)``` | Compute the outer radius of an insert boss |
+| ```insert_nose_length(type, d)``` | The length before the second ring. |

 ### Modules
 | Module | Description |
@@ -1260,7 +1268,7 @@ Heatfit threaded inserts. Can be pushed into thermoplastics using a soldering ir
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | ```insert(F1BM)``` |  Heatfit insert M2 |
+|   1 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   1 | ```insert(F1BM2p5)``` |  Heatfit insert M2.5 |
 |   1 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   1 | ```insert(F1BM4)``` |  Heatfit insert M4 |
@@ -1669,6 +1677,36 @@ LMnUU linear bearings.
 |   1 | ```linear_bearing(LM8UU)``` |  Linear bearing LM8UU |


+<a href="#top">Top</a>
+
+---
+<a name="Magnets"></a>
+## Magnets
+Cylindrical and ring magnets.
+
+
+[vitamins/magnets.scad](vitamins/magnets.scad) Object definitions.
+
+[vitamins/magnet.scad](vitamins/magnet.scad) Implementation.
+
+[tests/magnets.scad](tests/magnets.scad) Code for this example.
+
+### Properties
+| Function | Description |
+|:--- |:--- |
+| ```magnet_h(type)``` | Height |
+| ```magnet_id(type)``` | Inside diameter if a ring |
+| ```magnet_od(type)``` | Outer diameter |
+| ```magnet_r(type)``` | Corner radius |
+
+### Modules
+| Module | Description |
+|:--- |:--- |
+| ```magnet(type)``` | Draw specified magnet |
+
+![magnets](tests/png/magnets.png)
+
+
 <a href="#top">Top</a>

 ---
@@ -1972,6 +2010,8 @@ A permanent magnet that can be magnatized and de-magnatized electronically.
 | Function | Description |
 |:--- |:--- |
 | ```opengrab_depth()``` | Module height |
+| ```opengrab_pcb()``` | The PCB |
+| ```opengrab_pcb_z()``` | PCB offset from the front |
 | ```opengrab_target_thickness()``` | Target sheet thickness |
 | ```opengrab_width()``` | Module width |

@@ -1980,6 +2020,7 @@ A permanent magnet that can be magnatized and de-magnatized electronically.
 |:--- |:--- |
 | ```opengrab()``` | Draw OpenGrab module |
 | ```opengrab_hole_positions()``` | Position children at the screw positions |
+| ```opengrab_side_hole_positions()``` | Position children at the two 4mm hole |
 | ```opengrab_target()``` | Draw OpenGrab target |

 ![opengrab](tests/png/opengrab.png)
@@ -1987,8 +2028,8 @@ A permanent magnet that can be magnatized and de-magnatized electronically.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   1 | ```opengrab_target()``` |  OpenGrab  silicon steel target plate |
 |   1 | ```opengrab()``` |  OpenGrab V3 electro permanent magnet |
+|   1 | ```opengrab_target()``` |  OpenGrab silicon steel target plate |


 <a href="#top">Top</a>
@@ -2136,6 +2177,7 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 | ```usb_Ax1(cutout = false)``` | Draw USB type A single socket |
 | ```usb_Ax2(cutout = false)``` | Draw USB type A dual socket |
 | ```usb_B(cutout = false)``` | Draw USB B connector |
+| ```usb_C(cutout = false)``` | Draw USB C connector |
 | ```usb_uA(cutout = false)``` | Draw USB micro A connector |

 ![pcb](tests/png/pcb.png)
@@ -2172,6 +2214,7 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | ```smd_resistor(RES0603, 1K)``` |  SMD resistor 0603 1K 0.1W |
 |   1 | ```smd_resistor(RES0805, 1K)``` |  SMD resistor 0805 1K 0.125W |
 |   1 | ```smd_resistor(RES1206, 1K)``` |  SMD resistor 1206 1K 0.25W |
+|   1 | ```square_button(button_4p5mm)``` |  Square button 4.5mm |
 |   1 | ```square_button(button_6mm)``` |  Square button 6mm |
 |   1 | ```pcb(TMC2130)``` |  TMC2130 |
 |   1 | ```green_terminal(gt_5p08, 2)``` |  Terminal block 2 way 0.2" |
@@ -2184,6 +2227,8 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   2 | ```green_terminal(gt_3p5, 4)``` |  Terminal block 4 way 3.5mm |
 |   1 | ```terminal_35(4)``` |  Terminal block 4 way 3.5mm |
 |   1 | ```pcb(TestPCB)``` |  Test PCB |
+|   1 | ```wire_link(0.8, 5.08, h = 10.16)``` |  Wire link 0.8mm x 0.2" |
+|   1 | ```wire_link(0.8, 10.16)``` |  Wire link 0.8mm x 0.4" |


 <a href="#top">Top</a>
@@ -2269,6 +2314,7 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 | ```usb_Ax1(cutout = false)``` | Draw USB type A single socket |
 | ```usb_Ax2(cutout = false)``` | Draw USB type A dual socket |
 | ```usb_B(cutout = false)``` | Draw USB B connector |
+| ```usb_C(cutout = false)``` | Draw USB C connector |
 | ```usb_uA(cutout = false)``` | Draw USB micro A connector |

 ![pcbs](tests/png/pcbs.png)
@@ -2288,11 +2334,11 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | ```pcb(Keyes5p1)``` |  Keyes5.1 Arduino Uno expansion board |
 |   1 | ```pcb(MT3608)``` |  MT3608 boost converter module |
 |   1 | ```pcb(Melzi)``` |  Melzi electronics |
-|   4 |  |  Micro SD card |
+|   5 |  |  Micro SD card |
 |   1 | ```molex_254(2)``` |  Molex KK header 2 way |
 |   1 | ```molex_254(3)``` |  Molex KK header 3 way |
 |  16 | ```nut(M2_nut, nyloc = true)``` |  Nut M2 x 1.6mm nyloc |
-|  30 | ```nut(M2p5_nut, nyloc = true)``` |  Nut M2.5 x 2.2mm nyloc |
+|  34 | ```nut(M2p5_nut, nyloc = true)``` |  Nut M2.5 x 2.2mm nyloc |
 |  16 | ```nut(M3_nut, nyloc = true)``` |  Nut M3 x 2.4mm nyloc |
 |  12 | ```nut(M4_nut, nyloc = true)``` |  Nut M4 x 3.2mm nyloc |
 |   1 | ```pcb(PI_IO)``` |  PI_IO V2 |
@@ -2305,27 +2351,27 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   1 | ```pin_socket(2p54header, 13, 2, right_angle = true)``` |  Pin socket 13 x 2 right_angle |
 |   1 | ```pcb(RAMPSEndstop)``` |  RAMPS Endstop Switch |
 |   1 | ```pcb(RPI3)``` |  Raspberry Pi 3 |
+|   1 | ```pcb(RPI4)``` |  Raspberry Pi 4 |
 |   1 | ```pcb(RPI0)``` |  Raspberry Pi Zero |
 |  12 | ```screw(M2_cap_screw, 16)``` |  Screw M2 cap x 16mm |
 |   4 | ```screw(M2_cap_screw, 20)``` |  Screw M2 cap x 20mm |
 |   2 | ```screw(M2p5_cap_screw, 16)``` |  Screw M2.5 cap x 16mm |
 |   4 | ```screw(M2p5_cap_screw, 20)``` |  Screw M2.5 cap x 20mm |
 |   4 | ```screw(M2p5_cap_screw, 25)``` |  Screw M2.5 cap x 25mm |
-|   4 | ```screw(M2p5_cap_screw, 30)``` |  Screw M2.5 cap x 30mm |
+|   8 | ```screw(M2p5_cap_screw, 30)``` |  Screw M2.5 cap x 30mm |
 |   4 | ```screw(M2p5_pan_screw, 20)``` |  Screw M2.5 pan x 20mm |
 |  12 | ```screw(M2p5_pan_screw, 25)``` |  Screw M2.5 pan x 25mm |
 |   4 | ```screw(M3_cap_screw, 16)``` |  Screw M3 cap x 16mm |
 |   8 | ```screw(M3_cap_screw, 30)``` |  Screw M3 cap x 30mm |
 |   4 | ```screw(M3_cap_screw, 35)``` |  Screw M3 cap x 35mm |
-|   4 | ```screw(M4_cap_screw, 30)``` |  Screw M4 cap x 30mm |
-|   8 | ```screw(M4_cap_screw, 35)``` |  Screw M4 cap x 35mm |
+|  12 | ```screw(M4_cap_screw, 35)``` |  Screw M4 cap x 35mm |
 |   1 | ```pcb(TP4056)``` |  TP4056 Li-lon Battery charger module |
 |   3 | ```terminal_35(2)``` |  Terminal block 2 way 3.5mm |
 |   2 | ```green_terminal(gt_2p54, 4)``` |  Terminal block 4 way 0.1" |
 |   1 |  |  USB A to Mini B lead |
 |   1 | ```pcb(WD2002SJ)``` |  WD2002SJ Buck Boost DC-DC converter |
 |  16 | ```washer(M2_washer)``` |  Washer  M2 x 5mm x 0.3mm |
-|  30 | ```washer(M2p5_washer)``` |  Washer  M2.5 x 5.9mm x 0.5mm |
+|  34 | ```washer(M2p5_washer)``` |  Washer  M2.5 x 5.9mm x 0.5mm |
 |  16 | ```washer(M3_washer)``` |  Washer  M3 x 7mm x 0.5mm |
 |  12 | ```washer(M4_washer)``` |  Washer  M4 x 9mm x 0.8mm |
 |   1 | ```pcb(ZC_A0591)``` |  ZC-A0591 ULN2003 driver PCB |
@@ -2344,14 +2390,15 @@ PCBs and perfboard with optional components. The shape can be a rectangle with o
 |   4 | pcb_spacer25140_2.stl |
 |   4 | pcb_spacer25150_2.stl |
 |   4 | pcb_spacer25180.stl |
+|   4 | pcb_spacer25190.stl |
 |   2 | pcb_spacer2570.stl |
 |   4 | pcb_spacer30160.stl |
 |   4 | pcb_spacer30170.stl |
-|   4 | pcb_spacer30220.stl |
+|   4 | pcb_spacer30230.stl |
 |   4 | pcb_spacer3050.stl |
-|   4 | pcb_spacer40190.stl |
 |   4 | pcb_spacer40200.stl |
 |   4 | pcb_spacer40210.stl |
+|   4 | pcb_spacer40220.stl |


 <a href="#top">Top</a>
@@ -2432,7 +2479,7 @@ Pin headers and sockets, etc.
 |:--- |:--- |
 | ```box_header(type, cols = 1, rows = 1, smt = false, cutout = false)``` | Draw box header |
 | ```idc_transition(type, cols = 5, skip = [], cutout = false)``` | Draw IDC transition header |
-| ```jst_xh_header(type, pin_count, right_angle=false, colour, pin_colour)``` | Draw JST XH connector |
+| ```jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_colour = false)``` | Draw JST XH connector |
 | ```pin(type, length = undef)``` | Draw a header pin |
 | ```pin_header(type, cols = 1, rows = 1, smt = false, right_angle = false, cutout = false, colour)``` | Draw pin header |
 | ```pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt = false, cutout = false, colour)``` | Draw pin socket |
@@ -2443,11 +2490,18 @@ Pin headers and sockets, etc.
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
 |   1 | ```box_header(2p54header, 10, 2)``` |  Box header 10 x 2 |
+|   1 | ```box_header(2p54header, 8, 1)``` |  Box header 8 x 1 |
 |   1 | ```idc_transition(2p54header, 10)``` |  IDC transition header 10 x 2 |
 |   1 | ```pin_header(2p54header, 10, 2)``` |  Pin header 10 x 2 |
-|   1 | ```pin_header(2p54header, 10, 2, right_angle = true)``` |  Pin header 10 x 2 right_angle |
+|   1 | ```pin_header(2p54header, 3, 1, right_angle = true)``` |  Pin header 3 x 1 right_angle |
+|   1 | ```pin_header(2p54header, 3, 2, right_angle = true)``` |  Pin header 3 x 2 right_angle |
+|   1 | ```pin_header(2p54header, 3, 3, right_angle = true)``` |  Pin header 3 x 3 right_angle |
+|   1 | ```pin_header(2p54header, 8, 1)``` |  Pin header 8 x 1 |
 |   1 | ```pin_socket(2p54header, 10, 2)``` |  Pin socket 10 x 2 |
-|   1 | ```pin_socket(2p54header, 10, 2, right_angle = true)``` |  Pin socket 10 x 2 right_angle |
+|   1 | ```pin_socket(2p54header, 3, 1, right_angle = true)``` |  Pin socket 3 x 1 right_angle |
+|   1 | ```pin_socket(2p54header, 3, 2, right_angle = true)``` |  Pin socket 3 x 2 right_angle |
+|   1 | ```pin_socket(2p54header, 3, 3, right_angle = true)``` |  Pin socket 3 x 3 right_angle |
+|   1 | ```pin_socket(2p54header, 8, 1)``` |  Pin socket 8 x 1 |


 <a href="#top">Top</a>
@@ -2878,6 +2932,7 @@ Machine screws and wood screws with various head styles.
 |   1 | ```screw(No632_pan_screw, 30)``` |  Screw 6-32 pan x 30mm |
 |   1 | ```screw(M2_cap_screw, 10)``` |  Screw M2 cap x 10mm |
 |   1 | ```screw(M2_cs_cap_screw, 10)``` |  Screw M2 cs cap x 10mm |
+|   1 | ```screw(M2_dome_screw, 10)``` |  Screw M2 dome x 10mm |
 |   1 | ```screw(M2p5_cap_screw, 10)``` |  Screw M2.5 cap x 10mm |
 |   1 | ```screw(M2p5_pan_screw, 10)``` |  Screw M2.5 pan x 10mm |
 |   1 | ```screw(M3_cap_screw, 10)``` |  Screw M3 cap x 10mm |
@@ -3578,10 +3633,15 @@ Tubing and sleeving. The internal diameter can be forced to stretch it over some
 | ```tubing_material(type)``` | Material description |
 | ```tubing_od(type)``` | Outside diameter |

+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```tubing_or(type)``` | Outside radius |
+
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```tubing(type, length = 15, forced_id = 0)``` | Draw specified tubing with optional forced internal diameter |
+| ```tubing(type, length = 15, forced_id = 0, center = true)``` | Draw specified tubing with optional forced internal diameter |

 ![tubings](tests/png/tubings.png)

@@ -3595,7 +3655,10 @@ Tubing and sleeving. The internal diameter can be forced to stretch it over some
 |   1 | ```tubing(NEOP85)``` |  Neoprene tubing OD 8mm ID 5mm x 15mm |
 |   1 | ```tubing(PTFE07)``` |  PTFE sleeving OD 1.2mm ID 0.71mm x 15mm |
 |   1 | ```tubing(PTFE20)``` |  PTFE sleeving OD 2.6mm ID 2mm x 15mm |
+|   1 | ```tubing(PTFE2_3)``` |  PTFE tubing OD 3mm ID 2mm x 15mm |
 |   1 | ```tubing(PF7)``` |  PTFE tubing OD 4.6mm ID 3.84mm x 15mm |
+|   1 | ```tubing(PTFE2_4)``` |  PTFE tubing OD 4mm ID 2mm x 15mm |
+|   1 | ```tubing(PTFE4_6)``` |  PTFE tubing OD 6mm ID 4mm x 15mm |
 |   1 | ```tubing(PVC64)``` |  PVC aquarium tubing OD 6mm ID 4mm x 15mm |
 |   1 | ```tubing(PVC85)``` |  PVC aquarium tubing OD 8mm ID 5mm x 15mm |

@@ -4237,7 +4300,7 @@ Star washers can be omitted by setting ```star_washers``` to false.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   3 | ```insert(F1BM)``` |  Heatfit insert M2 |
+|   3 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   3 | ```insert(F1BM2p5)``` |  Heatfit insert M2.5 |
 |   3 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   3 | ```insert(F1BM4)``` |  Heatfit insert M4 |
@@ -4399,7 +4462,7 @@ The ring spacing as well as the number of spokes can be specified, if zero a gas
 | ---:|:--- |
 |   1 | fan_guard_120.stl |
 |   1 | fan_guard_17.stl |
-|   1 | fan_guard_25.stl |
+|   1 | fan_guard_25.4.stl |
 |   1 | fan_guard_30.stl |
 |   1 | fan_guard_40.stl |
 |   1 | fan_guard_50.stl |
@@ -4457,7 +4520,7 @@ Star washers can be omitted by setting ```star_washers``` to false.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
-|   3 | ```insert(F1BM)``` |  Heatfit insert M2 |
+|   3 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   3 | ```insert(F1BM2p5)``` |  Heatfit insert M2.5 |
 |   3 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   3 | ```insert(F1BM4)``` |  Heatfit insert M4 |
@@ -4787,7 +4850,7 @@ 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(F1BM)``` |  Heatfit insert M2 |
+|   4 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   4 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   4 | ```screw(M2_cap_screw, 6)``` |  Screw M2 cap x  6mm |
 |   3 | ```screw(M3_pan_screw, 6)``` |  Screw M3 pan x  6mm |
@@ -4886,41 +4949,48 @@ Clamp for ribbon cable and polypropylene strip.
 ### Functions
 | Function | Description |
 |:--- |:--- |
-| ```ribbon_clamp_height()``` | Height |
-| ```ribbon_clamp_hole_pitch(ways)``` | Hole pitch |
-| ```ribbon_clamp_length(ways)``` | Length given ways |
-| ```ribbon_clamp_width()``` | Width |
+| ```ribbon_clamp_height(screw = screw)``` | Height |
+| ```ribbon_clamp_length(ways, screw = screw)``` | Length given ways |
+| ```ribbon_clamp_width(screw = screw)``` | Width |

 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```ribbon_clamp(ways)``` | Generate STL for given number of ways |
-| ```ribbon_clamp_assembly(ways)``` | Printed part with inserts in place |
+| ```ribbon_clamp(ways, screw = screw)``` | Generate STL for given number of ways |
+| ```ribbon_clamp_assembly(ways, screw)``` | Printed part with inserts in place |
 | ```ribbon_clamp_fastened_assembly(ways, thickness, screw = screw)``` | Clamp with fasteners in place |
-| ```ribbon_clamp_hole_positions(ways, side = undef)``` | Place children at hole positions |
-| ```ribbon_clamp_holes(ways, h = 20)``` | Drill screw holes |
+| ```ribbon_clamp_hole_positions(ways, screw = screw, side = undef)``` | Place children at hole positions |
+| ```ribbon_clamp_holes(ways, h = 20, screw = screw)``` | Drill screw holes |

 ![ribbon_clamp](tests/png/ribbon_clamp.png)

 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
+|   2 | ```insert(F1BM2)``` |  Heatfit insert M2 |
 |   2 | ```insert(F1BM3)``` |  Heatfit insert M3 |
 |   1 |  |  Ribbon cable 20 way 100mm |
+|   1 |  |  Ribbon cable 8 way 100mm |
+|   2 | ```screw(M2_dome_screw, 8)``` |  Screw M2 dome x  8mm |
 |   2 | ```screw(M3_cap_screw, 10)``` |  Screw M3 cap x 10mm |
+|   1 |  |  Tape self amalgamating silicone 11 x 25mm |
 |   1 |  |  Tape self amalgamating silicone 26 x 25mm |
+|   2 | ```washer(M2_washer)``` |  Washer  M2 x 5mm x 0.3mm |
 |   2 | ```washer(M3_washer)``` |  Washer  M3 x 7mm x 0.5mm |
+|   2 | ```star_washer(M2_washer)``` |  Washer star M2 x 0.3mm |
 |   2 | ```star_washer(M3_washer)``` |  Washer star M3 x 0.5mm |

 ### Printed
 | Qty | Filename |
 | ---:|:--- |
 |   1 | ribbon_clamp_20.stl |
+|   1 | ribbon_clamp_8_2.stl |

 ### Assemblies
 | Qty | Name |
 | ---:|:--- |
 |   1 | ribbon_clamp_20_assembly |
+|   1 | ribbon_clamp_8_2_assembly |


 <a href="#top">Top</a>
@@ -5175,6 +5245,36 @@ Bezier curves and function to get and adjust the length or minimum z point.
 ![bezier](tests/png/bezier.png)


+<a href="#top">Top</a>
+
+---
+<a name="Catenary"></a>
+## Catenary
+Catenary curve to model hanging wires, etc.
+
+Although the equation of the curve is simply ```y = a cosh(x / a)``` there is no explicit formula to calculate the constant ```a``` or the range of ```x``` given the
+length of the cable and the end point coordinates. See <https://en.wikipedia.org/wiki/Catenary#Determining_parameters>. The Newton-Raphson method is used to find
+```a``` numerically, see <https://en.wikipedia.org/wiki/Newton%27s_method>.
+
+The coordinates of the lowest point on the curve can be retrieved by calling ```catenary_points()``` with ```steps``` equal to zero.
+
+
+[utils/catenary.scad](utils/catenary.scad) Implementation.
+
+[tests/catenary.scad](tests/catenary.scad) Code for this example.
+
+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```catenary(t, a)``` | Parametric catenary function linear along the length of the curve. |
+| ```catenary_ds_by_da(d, a)``` | First derivative of the length with respect to ```a```. |
+| ```catenary_find_a(d, l, a = 1)``` | Find the catenary constant ```a```, given half the horizontal span and the length. |
+| ```catenary_points(l, x, y, steps = 100)``` | Returns a list of 2D points on the curve that goes from the origin to ```(x,y)``` and has length ```l```. |
+| ```catenary_s(d, a)``` | Length of a symmetric catenary with width ```2d```. |
+
+![catenary](tests/png/catenary.png)
+
+
 <a href="#top">Top</a>

 ---
@@ -5217,6 +5317,53 @@ Rounded fillet for adding to corners.
 ![fillet](tests/png/fillet.png)


+<a href="#top">Top</a>
+
+---
+<a name="Gears"></a>
+## Gears
+Utilities for making involute gears.
+
+Formulas from <https://khkgears.net/new/gear_knowledge/gear_technical_reference/involute_gear_profile.html>
+<https://khkgears.net/new/gear_knowledge/gear_technical_reference/calculation_gear_dimensions.html>
+and <https://www.tec-science.com/mechanical-power-transmission/involute-gear/calculation-of-involute-gears/>
+
+```involute_gear_profile()``` returns a polygon that can have the bore and spokes, etc, subtracted from it before linear extruding it to 3D.
+Helical gears can be made using ```twist``` and bevel gears using ```scale``` parameters of ```linear_extrude()```.
+
+Gears with less than 19 teeth (when pressure angle is 20) are profile shifted to avoid undercutting the tooth root. 7 teeth is considered
+the practical minimum.
+
+The clearance between tip and root defaults to module / 6, but can be overridden by setting the ```clearance``` parameter.
+
+The origin of the rack is the left end of the pitch line and its width is below the pitch line. I.e. it does not include the addendum.
+
+```involute_worm_profile()``` returns a tooth profile that can be passed to ```thread()``` to make worms.
+
+
+[utils/gears.scad](utils/gears.scad) Implementation.
+
+[tests/gears.scad](tests/gears.scad) Code for this example.
+
+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```centre_distance(m, z1, z2, pa = 20)``` | Calculate distance between centres taking profile shift into account |
+| ```involute(r, u)``` | Involute of circle radius r at angle u in radians |
+| ```involute_gear_od(m, z, pa = 20)``` | involute gear outside diameter given modulus, tooth count and pressure angle |
+| ```involute_rack_tooth_profile(m, pa = 20, clearance = undef)``` | Calculate rack tooth profile given module and pressure angle |
+| ```involute_worm_profile(m, pa = 20, clearance = undef)``` | Calculate worm profile suitable for passing to thread() |
+| ```profile_shift(z, pa)``` | Calculate profile shift for small gears |
+
+### Modules
+| Module | Description |
+|:--- |:--- |
+| ```involute_gear_profile(m, z, pa = 20, clearance = undef, steps = 20)``` | Calculate gear profile given module, number of teeth and pressure angle |
+| ```involute_rack_profile(m, z, w, pa = 20, clearance = undef)``` | Calculate rack profile given module, number of teeth and pressure angle |
+
+![gears](tests/png/gears.png)
+
+
 <a href="#top">Top</a>

 ---
@@ -5237,6 +5384,31 @@ Method to print holes in mid air. See <https://hydraraptor.blogspot.com/2014/03/
 ![hanging_hole](tests/png/hanging_hole.png)


+<a href="#top">Top</a>
+
+---
+<a name="Horiholes"></a>
+## Horiholes
+Utilities for depicting the staircase slicing of horizontal holes made with [`teardrop_plus()`](#teardrops), see <https://hydraraptor.blogspot.com/2020/07/horiholes-2.html>
+
+
+[utils/horiholes.scad](utils/horiholes.scad) Implementation.
+
+[tests/horiholes.scad](tests/horiholes.scad) Code for this example.
+
+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```teardrop_plus_x(r, y, h)``` | Calculate the ordinate of a compensated teardrop given y and layer height. |
+
+### Modules
+| Module | Description |
+|:--- |:--- |
+| ```horihole(r, z, h = 0, center = true)``` | For making horizontal holes that don't need support material and are correct dimensions |
+
+![horiholes](tests/png/horiholes.png)
+
+
 <a href="#top">Top</a>

 ---
@@ -5278,18 +5450,30 @@ Maths utilities for manipulating vectors and matrices.
 | Function | Description |
 |:--- |:--- |
 | ```angle_between(v1, v2)``` | Return the angle between two vectors |
+| ```argcosh(x)``` | inverse hyperbolic cosine |
+| ```argcoth(x)``` | inverse hyperbolic cotangent |
+| ```argsinh(x)``` | inverse hyperbolic sine |
+| ```argtanh(x)``` | inverse hyperbolic tangent |
 | ```augment(m)``` | Augment a matrix by adding an identity matrix to the right |
+| ```cosh(x)``` | hyperbolic cosine |
+| ```coth(x)``` | hyperbolic cotangent |
+| ```degrees(radians)``` | Convert degrees to radians |
 | ```euler(R)``` | Convert a rotation matrix to a Euler rotation vector. |
 | ```identity(n, x = 1)``` | Construct an arbitrary size identity matrix |
 | ```invert(m)``` | Invert a matrix |
 | ```nearly_zero(x)``` | True if x is close to zero |
+| ```radians(degrees)``` | Convert radians to degrees |
 | ```reverse(v)``` | Reverse a vector |
+| ```rot2_z(a)``` | Generate a 2x2 matrix to rotate around z |
 | ```rot3_z(a)``` | Generate a 3x3 matrix to rotate around z |
 | ```rotate(a, v)``` | Generate a 4x4 rotation matrix, ```a``` can be a vector of three angles or a single angle around ```z```, or around axis ```v``` |
 | ```rowswap(m, i, j)``` | Swap two rows of a matrix |
 | ```scale(v)``` |  Generate a 4x4 matrix that scales by ```v```, which can be a vector of xyz factors or a scalar to scale all axes equally |
+| ```sinh(x)``` | hyperbolic sine |
 | ```solve(m, i = 0, j = 0)``` | Solve each row ensuring diagonal is not zero |
 | ```solve_row(m, i)``` | Make diagonal one by dividing the row by it and subtract from other rows to make column zero |
+| ```sqr(x)``` | Square x |
+| ```tanh(x)``` | hyperbolic tangent |
 | ```transform(v, m)``` | Apply 4x4 transform to a 3 vector by extending it and cropping it again |
 | ```transform_points(path, m)``` | Apply transform to a path |
 | ```translate(v)``` | Generate a 4x4 translation matrix, ```v``` can be ```[x, y]```, ```[x, y, z]``` or ```z``` |
@@ -5497,6 +5681,8 @@ specify a chamfer angle.
 Threads are by default solid, so the male version is wrapped around a cylinder and the female inside a tube. This can be suppressed to just get the helix, for
 example to make a printed pot with a screw top lid.

+A left hand thread can be made by using mirror([0,1]).
+
 Threads with a typical 60 degree angle appear too bright with OpenSCAD's primitive lighting model as they face towards the lights more than the top and sides of
 a cylinder. To get around this a colour can be passed to thread that is used to colour the cylinder and then toned down to colour the helix.

@@ -5523,7 +5709,7 @@ Threads obey the $fn, $fa, $fs variables.
 |:--- |:--- |
 | ```female_metric_thread(d, pitch, length, center = true, top = -1, bot = -1, colour = undef)``` | Create female thread with metric profile |
 | ```male_metric_thread(d, pitch, length, center = true, top = -1, bot = -1, solid = true, colour = undef)``` | Create male thread with metric profile |
-| ```thread(dia, pitch, length, profile, center = true, top = -1, bot = -1, starts = 1, solid = true, female = false, colour = undef)``` | Create male or femail thread, ends can be tapered, chamfered or square |
+| ```thread(dia, pitch, length, profile, center = true, top = -1, bot = -1, starts = 1, solid = true, female = false, colour = undef)``` | Create male or female thread, ends can be tapered, chamfered or square |

 ![thread](tests/png/thread.png)

@@ -5671,6 +5857,7 @@ Global constants, functions and modules. This file is used directly or indirectl
 | ```inch(x)``` | Inch to mm conversion (For fractional inches, 'inch(1 + 7/8)' will work as expected.) |
 | ```m(x)``` | m to mm conversion |
 | ```mm(x)``` | Explicit mm specified |
+| ```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 |
 | ```sqr(x)``` | Returns the square of ```x``` |
@@ -5718,7 +5905,7 @@ The module provides `poly_circle()`, `poly_cylinder()` and `poly_ring()` that is
 |:--- |:--- |
 | ```drill(r, h = 100, center = true)``` | Make a cylinder for drilling holes suitable for CNC routing, set h = 0 for circle |
 | ```poly_circle(r, sides = 0)``` | Make a circle adjusted to print the correct size |
-| ```poly_cylinder(r, h, center = false, sides = 0)``` | Make a cylinder adjusted to print the correct size |
+| ```poly_cylinder(r, h, center = false, sides = 0, chamfer = false)``` | Make a cylinder adjusted to print the correct size |
 | ```poly_drill(r, h = 100, center = true)``` | Make a cylinder for drilling holes suitable for CNC routing if cnc_bit_r is non zero, otherwise a poly_cylinder. |
 | ```poly_ring(or, ir, sides = 0)``` | Make a 2D ring adjusted to have the correct internal radius |
 | ```poly_tube(or, ir, h, center = false)``` | Make a tube adjusted to have the correct internal radius |
@@ -5803,6 +5990,9 @@ This ensures `hull` and `minkowski` results have the correct dimensions when sph
 For making horizontal holes that don't need support material.
 Small holes can get away without it, but they print better with truncated teardrops.

+Using teardrop_plus() or setting the plus option on other modules will elongate the teardrop vertically by the layer height, so when sliced the staircase tips
+do not intrude into the circle. See <https://hydraraptor.blogspot.com/2020/07/horiholes-2.html>
+

 [utils/core/teardrops.scad](utils/core/teardrops.scad) Implementation.

@@ -5811,12 +6001,12 @@ Small holes can get away without it, but they print better with truncated teardr
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```semi_teardrop(h, r, d = undef, center = true, chamfer = 0)``` | A semi teardrop in the positive Y domain |
-| ```teardrop(h, r, center = true, truncate = true, chamfer = 0)``` | For making horizontal holes that don't need support material, set ```truncate = false``` to make traditional RepRap teardrops that don't even need bridging |
+| ```semi_teardrop(h, r, d = undef, center = true, chamfer = 0, plus = false)``` | A semi teardrop in the positive Y domain |
+| ```teardrop(h, r, center = true, truncate = true, chamfer = 0, plus = false)``` | For making horizontal holes that don't need support material, set ```truncate = false``` to make traditional RepRap teardrops that don't even need bridging |
 | ```teardrop_chamfer(h, center, chamfer)``` | Helper module for adding chamfer to a teardrop |
-| ```teardrop_plus(h, r, center = true, truncate = true, chamfer = 0)``` | Slightly bigger teardrop to allow for the 3D printing staircase effect |
-| ```tearslot(h, r, w, center = true, chamfer = 0)``` | A horizontal slot that doesn't need support material |
-| ```vertical_tearslot(h, r, l, center = true, chamfer = 0)``` | A vertical slot that doesn't need support material |
+| ```teardrop_plus(h, r, center = true, truncate = true, chamfer = 0)``` | Slightly elongated teardrop to allow for the 3D printing staircase effect |
+| ```tearslot(h, r, w, center = true, chamfer = 0, plus = false)``` | A horizontal slot that doesn't need support material |
+| ```vertical_tearslot(h, r, l, center = true, chamfer = 0, plus = false)``` | A vertical slot that doesn't need support material |

 ![teardrops](tests/png/teardrops.png)

--- a/tests/PCB.scad
+++ b/tests/PCB.scad
@@ -86,10 +86,13 @@ test_pcb = ["TestPCB", "Test PCB",
        [  5, 218, 180, "hdmi"],
        [  3, 235, 180, "mini_hdmi"],
        [  6, 175, 180, "uSD", [12, 11.5, 1.4]],
+
+        [ 65,   9,   0, "link", inch(0.4)],
        [ 65,  12,   0, "ax_res", res1_8, 1000],
        [ 65,  17,   0, "ax_res", res1_4, 10000],
        [ 65,  22,   0, "ax_res", res1_2, 100000],

+        [ 80,   9,   0, "link", inch(0.2), inch(0.4)],
        [ 80,  12,   0, "ax_res", res1_8, 1000000, 1, inch(0.1)],
        [ 80,  17,   0, "ax_res", res1_4, 100,     2, inch(0.1)],
        [ 80,  22,   0, "ax_res", res1_2, 10,     10, inch(0.2)],
@@ -118,7 +121,8 @@ test_pcb = ["TestPCB", "Test PCB",
        [ 70, 130, 180, "term35", 3, "lime"],
        [ 50, 150,   0, "transition", 5],
        [ 50, 160,   0, "block", 10, 5, 8, "orange"],
-        [ 50, 170,   0, "button_6mm"],
+        [ 45, 170,   0, "button_6mm"],
+        [ 55, 170,   0, "button_4p5mm"],
        [ 50, 185,   0, "microswitch", small_microswitch],
        [ 52, 200,   0, "pcb", 11, TMC2130 ],
        [ 80, 200,   0, "pdip", 24, "27C32", true, inch(0.6) ],
--- a/tests/belts.scad
+++ b/tests/belts.scad
@@ -60,7 +60,7 @@ module belt_test() {
             [p4.x, p4.y, pulley_pr(GT2x20ob_pulley)]
           ];
    belt = GT2x6;
-    belt(belt, path, 80, [0,  belt_pitch_height(belt) - belt_thickness(belt) / 2]);
+    belt(belt, path, 80, [0,  0]);

    translate([-25, 0])
        layout([for(b = belts) belt_width(b)], 10)
--- a/tests/catenary.scad
+++ b/tests/catenary.scad
@@ -0,0 +1,56 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// 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/>.
+//
+l = 250; // [1: 1000]
+x = 200; // [1: 1000]
+y = 50; //[-500 : 500]
+
+include <../utils/core/core.scad>
+use <../utils/catenary.scad>
+use <../utils/sweep.scad>
+use <../utils/annotation.scad>
+
+module catenaries() {
+    //
+    // catenary curve path from control points
+    //
+    curve = [for(p = catenary_points(l, x, y)) [p.x, p.y, 0]];
+    //
+    // Draw the curve
+    //
+    r = 0.5;
+    sweep(curve, circle_points(r, $fn = 64));
+    //
+    // Minimum Z
+    //
+    min_z = catenary_points(l, x, y, 0);
+
+    color("blue") {
+        translate([min_z.x, min_z.y + r])
+            rotate([-90, 0, 0])
+                arrow();
+
+        translate([min_z.x, min_z.y - r])
+            rotate([90, 0, 0])
+                arrow();
+    }
+}
+
+if($preview)
+    rotate(is_undef($bom) ? 0 : [70, 0, 315])
+        catenaries();
--- a/tests/foot.scad
+++ b/tests/foot.scad
@@ -21,14 +21,14 @@ use <../printed/foot.scad>

 module feet()
    if($preview) {
-        translate([50, 0])
+        translate([40, 0])
            foot_assembly(3);

        translate([foot_diameter(insert_foot()) / 2, 0])
            fastened_insert_foot_assembly(3);
    }
    else {
-        translate([50, 0])
+        translate([40, 0])
            foot();

        insert_foot();
--- a/tests/gears.scad
+++ b/tests/gears.scad
@@ -0,0 +1,66 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// 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 <../utils/core/core.scad>
+use <../utils/gears.scad>
+
+// left gear teeth
+z1 = 39; // [7 : 1 : 99]
+
+// Right gear teeth
+z2 = 7; // [7 : 1 : 99]
+
+//  Modulus
+m = 2.0; // [0.1 : 0.1 : 5.0]
+
+// Pressure angle
+pa = 20; // [14.5, 20, 22.5, 25]
+
+$show_numbers = false;
+
+module gears() {
+    color(pp1_colour)
+        rotate(-$t * 360)
+            linear_extrude(eps, center = true, convexity = z1)
+                difference() {
+                    involute_gear_profile(m, z1, pa);
+
+                    circle(r = m * z1 / 10);
+                }
+
+    color(pp2_colour)
+        translate([centre_distance(m, z1, z2, pa), 0])
+            rotate(180 + 180 / z2 + $t * 360 * z1 / z2)
+               linear_extrude(eps, center = true, convexity = z2)
+                    difference() {
+                         involute_gear_profile(m, z2, pa);
+
+                         circle(r = m * z2 / 10);
+                    }
+
+    z3 = floor((z1 + z2) / PI);
+    angle = -$t * 360 + 90 - floor(z1 / 4) * 360 / z1; // Line up the rack 1/4 turn around the gear
+    pitch = m * PI;
+    color(pp3_colour)
+        translate([(angle % ((z3 / z1) * 360)) / 360 * z1 * pitch, -centre_distance(m, z1, 0, pa)])
+            linear_extrude(eps, center = true)
+                involute_rack_profile(m, z3, 3 * m, pa);
+}
+
+rotate(is_undef($bom) ? 0 : [70, 0, 315])
+    gears();
--- a/tests/horiholes.scad
+++ b/tests/horiholes.scad
@@ -0,0 +1,90 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// nop.head@gmail.com
+// hydraraptor.blogspot.com
+//
+// This file is part of NopSCADlib.
+//
+// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
+// GNU General Public License as published by the Free Software Foundation, either version 3 of
+// the License, or (at your option) any later version.
+//
+// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
+// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
+// See the GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License along with NopSCADlib.
+// If not, see <https://www.gnu.org/licenses/>.
+//
+$layer_height = 0.25;
+include <../utils/core/core.scad>
+use <../utils/horiholes.scad>
+
+show_disc = true;
+use_horihole = true;
+thickness = 6;
+length = 60;
+height = 20;
+overlap_x = 15;
+overlap_y = 10;
+
+module hole_positions() {
+    x0 = (length - 40) / 2;
+    for($i = [0 : 4], $z = 5 + $i * layer_height / 5, $r = 3)
+        translate([x0 + $i * 10, $z])
+            children();
+
+    for($i = [0 : 4], $z = 15 + $i * layer_height / 5, $r = 0.5 + $i / 2)
+        translate([x0 + $i * 10, $z])
+            children();
+}
+
+module horiholes_stl(t = thickness) {
+    rotate([90, 0, 0])
+        difference() {
+            linear_extrude(t, center = true) {
+                difference() {
+                    square([length, height]);
+
+                    hole_positions()
+                        if(use_horihole)
+                            horihole($r, $z);
+                        else
+                            teardrop_plus(h = 0, r = $r);
+                }
+            }
+        }
+    if(t == thickness)
+        translate([length / 2, 0])
+            rounded_rectangle([length + 2 * overlap_x, thickness + 2 * overlap_y, 2], 5);
+}
+
+module horiholes() {
+    stl_colour(pp1_colour)
+        rotate([-90, 0, 0])
+            horiholes_stl(eps);
+
+    if(show_disc)
+        hole_positions()
+            color(silver)
+                cylinder(r = $r, h = eps, center = true, $fn = 360);
+
+    hole_positions()
+        color("red")
+            linear_extrude(2 * eps, center = true)
+                intersection() {
+                    difference() {
+                        square(8, center = true);
+
+                        horihole($r, $z);
+                    }
+
+                    circle($r, $fn = 360);
+                }
+}
+
+if($preview)
+    rotate(is_undef($bom) ? 0 : [70, 0, 315])
+        horiholes();
+else
+    horiholes_stl();
--- a/tests/magnets.scad
+++ b/tests/magnets.scad
@@ -0,0 +1,29 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// nop.head@gmail.com
+// hydraraptor.blogspot.com
+//
+// This file is part of NopSCADlib.
+//
+// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
+// GNU General Public License as published by the Free Software Foundation, either version 3 of
+// the License, or (at your option) any later version.
+//
+// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
+// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
+// See the GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License along with NopSCADlib.
+// If not, see <https://www.gnu.org/licenses/>.
+//
+include <../core.scad>
+use <../utils/layout.scad>
+
+include <../vitamins/magnets.scad>
+
+module magnets()
+    layout([for(m = magnets) magnet_od(m)], 5)
+        magnet(magnets[$i]);
+
+if($preview)
+    magnets();
--- a/tests/opengrab.scad
+++ b/tests/opengrab.scad
@@ -21,11 +21,11 @@ include <../utils/core/core.scad>
 use <../vitamins/opengrab.scad>

 module opengrab_test() {
-    opengrab_target();
-
    rotate(45)
-        translate_z(opengrab_target_thickness())
-            opengrab();
+        opengrab_target();
+
+    translate_z(opengrab_target_thickness())
+        opengrab();
 }

 if($preview)
--- a/tests/pin_headers.scad
+++ b/tests/pin_headers.scad
@@ -23,26 +23,53 @@ include <../vitamins/pin_headers.scad>

 pins = 10;

-module pin_headers()
+module pin_headers() {
    layout([for(p = pin_headers) hdr_pitch(p) * pins], 15) {
        idc_transition(pin_headers[$i], 10);

        translate([0, 20])
-            pin_header(pin_headers[$i], 10, 2, right_angle = true);
+            pin_header(pin_headers[$i], 3, 2, right_angle = true);
+
+        translate([-10, 20])
+            pin_header(pin_headers[$i], 3, 1, right_angle = true);
+
+         translate([10, 20])
+            pin_header(pin_headers[$i], 3, 3, right_angle = true);
+
+        translate([0, 30])
+            pin_header(pin_headers[$i], 8, 1);

        translate([0, 40])
            pin_header(pin_headers[$i], 10, 2);

+        translate([0, 50])
+            box_header(pin_headers[$i], 8, 1);
+
        translate([0, 60])
            box_header(pin_headers[$i], 10, 2);

+        translate([0, 70])
+            pin_socket(pin_headers[$i], 8, 1);
+
        translate([0, 80])
            pin_socket(pin_headers[$i], 10, 2);

-        translate([0, 110])
-            pin_socket(pin_headers[$i], 10, 2, right_angle = true);
+        translate([-10, 105])
+            pin_socket(pin_headers[$i], 3, 1, right_angle = true);

+        translate([0, 105])
+            pin_socket(pin_headers[$i], 3, 2, right_angle = true);
+
+        translate([10, 105])
+            pin_socket(pin_headers[$i], 3, 3, right_angle = true);
    }

+    translate([-20, 0])
+        jst_xh_header(jst_xh_header, 5);
+
+    translate([-20, 20])
+        jst_xh_header(jst_xh_header, 5, true);
+}
+
 if($preview)
    pin_headers();
--- a/tests/png/ball_bearings.png
+++ b/tests/png/ball_bearings.png
--- a/tests/png/belts.png
+++ b/tests/png/belts.png
--- a/tests/png/box.png
+++ b/tests/png/box.png
--- a/tests/png/cameras.png
+++ b/tests/png/cameras.png
--- a/tests/png/catenary.png
+++ b/tests/png/catenary.png
--- a/tests/png/corner_block.png
+++ b/tests/png/corner_block.png
--- a/tests/png/door_hinge.png
+++ b/tests/png/door_hinge.png
--- a/tests/png/fan_guard.png
+++ b/tests/png/fan_guard.png
--- a/tests/png/fans.png
+++ b/tests/png/fans.png
--- a/tests/png/fixing_block.png
+++ b/tests/png/fixing_block.png
--- a/tests/png/flat_hinge.png
+++ b/tests/png/flat_hinge.png
--- a/tests/png/foot.png
+++ b/tests/png/foot.png
--- a/tests/png/gears.png
+++ b/tests/png/gears.png
--- a/tests/png/horiholes.png
+++ b/tests/png/horiholes.png
--- a/tests/png/hot_ends.png
+++ b/tests/png/hot_ends.png
--- a/tests/png/kp_pillow_blocks.png
+++ b/tests/png/kp_pillow_blocks.png
--- a/tests/png/magnets.png
+++ b/tests/png/magnets.png
--- a/tests/png/modules.png
+++ b/tests/png/modules.png
--- a/tests/png/opengrab.png
+++ b/tests/png/opengrab.png
--- a/tests/png/pcb.png
+++ b/tests/png/pcb.png
--- a/tests/png/pcbs.png
+++ b/tests/png/pcbs.png
--- a/tests/png/pin_headers.png
+++ b/tests/png/pin_headers.png
--- a/tests/png/ribbon_clamp.png
+++ b/tests/png/ribbon_clamp.png
--- a/tests/png/ring_terminals.png
+++ b/tests/png/ring_terminals.png
--- a/tests/png/screws.png
+++ b/tests/png/screws.png
--- a/tests/png/teardrops.png
+++ b/tests/png/teardrops.png
--- a/tests/png/thread.png
+++ b/tests/png/thread.png
--- a/tests/png/tubings.png
+++ b/tests/png/tubings.png
--- a/tests/png/veroboard.png
+++ b/tests/png/veroboard.png
--- a/tests/png/wire.png
+++ b/tests/png/wire.png
--- a/tests/printed_box.scad
+++ b/tests/printed_box.scad
@@ -67,7 +67,7 @@ module box1_external_additions() {

 module box1_holes() {
    box1_feet_positions()
-        teardrop(r = screw_pilot_hole(foot_screw(foot)), h = 10, center = true);
+        teardrop_plus(r = screw_pilot_hole(foot_screw(foot)), h = 10, center = true);
 }


--- a/tests/ribbon_clamp.scad
+++ b/tests/ribbon_clamp.scad
@@ -16,20 +16,22 @@
 // You should have received a copy of the GNU General Public License along with NopSCADlib.
 // If not, see <https://www.gnu.org/licenses/>.
 //
-include <../utils/core/core.scad>
+include <../core.scad>
 use <../printed/ribbon_clamp.scad>
 use <../vitamins/wire.scad>

-ways = 20;
+ways = [8, 20];
+screws = [M2_dome_screw, M3_cap_screw];

 module ribbon_clamps()
-    translate([ribbon_clamp_length(ways) / 2, 0])
-        if($preview) {
-            ribbon_clamp_fastened_assembly(ways, 3);
+    for(i = [0 : len(screws) - 1])
+        translate([ribbon_clamp_length(ways[i]) / 2, i * 30])
+            if($preview) {
+                ribbon_clamp_fastened_assembly(ways[i], 3, screws[i]);

-            ribbon_cable(ways, 100);
-        }
-        else
-            ribbon_clamp(ways);
+                ribbon_cable(ways[i], 100);
+            }
+            else
+                ribbon_clamp(ways[i], screws[i]);

 ribbon_clamps();
--- a/tests/teardrops.scad
+++ b/tests/teardrops.scad
@@ -41,7 +41,10 @@ module teardrops() {

                        translate([20, 10])
                            semi_teardrop(h = 0, r = 3);
-                    }
+
+                        translate([20, 20])
+                            teardrop(h = 0, r = 3, truncate = false, plus = true);
+                   }
                }
                translate([40, 0, 1.5]) {
                    h = 3 + eps;
@@ -61,6 +64,9 @@ module teardrops() {

                    translate([20, 10])
                        semi_teardrop(h = h, r = 3, chamfer = chamfer);
+
+                    translate([20, 20])
+                        teardrop(h = h, r = 3, truncate = false, plus = false, chamfer = chamfer);
                }
            }
 }
--- a/tests/thread.scad
+++ b/tests/thread.scad
@@ -26,27 +26,27 @@ profile = thread_profile(pitch / 2, pitch * 0.366, 30);

 module threads()
    for(female = [false, true]) translate([0, female ? -20 : 0]) {
-    length = female ? 8  : 40;
-    dia = female ? 8 : 8 - pitch;
-    colour = female ? brass : silver;
+        length = female ? 8  : 40;
+        dia = female ? 8 : 8 - pitch;
+        colour = female ? brass : silver;

-    thread(dia, starts * pitch, length, profile, starts = starts, top = 45, bot = 45, female = female, colour = colour);
+        thread(dia, starts * pitch, length, profile, starts = starts, top = 45, bot = 45, female = female, colour = colour);

-    color(colour)
-        translate([20, 0])
-            thread(dia, starts * pitch, length, profile, starts = starts, top = 0, bot = 0, female = female);
+        color(colour)
+            translate([20, 0])
+                thread(dia, starts * pitch, length, profile, starts = starts, top = 0, bot = 0, female = female);

-    translate([40, 0])
-        thread(dia, starts * pitch, length, profile, starts = starts, top = -1, bot = -1, female = female, colour = colour);
+        translate([40, 0])
+            thread(dia, starts * pitch, length, profile, starts = starts, top = -1, bot = -1, female = female, colour = colour);

-    color(colour)
-        translate([60, 0])
-            thread(dia, 2 * pitch, length, profile, starts = 2, top = -1, bot = -1, female = female);
+        color(colour)
+            translate([60, 0])
+                thread(dia, 2 * pitch, length, profile, starts = 2, top = -1, bot = -1, female = female);

-    color(colour)
-        translate([80, 0])
-            thread(dia, pitch, length, profile, starts = 1, top = -1, bot = -1, female = female);
-}
+        color(colour)
+            translate([80, 0])
+                thread(dia, pitch, length, profile, starts = 1, top = -1, bot = -1, female = female);
+    }

 let($show_threads = true)
    threads();
--- a/utils/catenary.scad
+++ b/utils/catenary.scad
@@ -0,0 +1,53 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// 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/>.
+//
+
+//
+//! Catenary curve to model hanging wires, etc.
+//!
+//! Although the equation of the curve is simply ```y = a cosh(x / a)``` there is no explicit formula to calculate the constant ```a``` or the range of ```x``` given the
+//! length of the cable and the end point coordinates. See <https://en.wikipedia.org/wiki/Catenary#Determining_parameters>. The Newton-Raphson method is used to find
+//! ```a``` numerically, see <https://en.wikipedia.org/wiki/Newton%27s_method>.
+//!
+//! The coordinates of the lowest point on the curve can be retrieved by calling ```catenary_points()``` with ```steps``` equal to zero.
+//
+include <core/core.scad>
+use <maths.scad>
+
+function catenary(t, a) = let(u = argsinh(t)) a * [u, cosh(u)]; //! Parametric catenary function linear along the length of the curve.
+function catenary_s(d, a) = 2 * a * sinh(d / a); //! Length of a symmetric catenary with width ```2d```.
+function catenary_ds_by_da(d, a) = 2 * sinh(d / a) - 2 * d / a * cosh(d / a); //! First derivative of the length with respect to ```a```.
+
+function catenary_find_a(d, l, a = 1) =  //! Find the catenary constant ```a```, given half the horizontal span and the length.
+     assert(l > 2 * d, "Not long enough to span the gap") assert(d)
+     abs(catenary_s(d, a) - l) < 0.0001 ? a
+                                        : catenary_find_a(d, l, max(a - (catenary_s(d, a) - l) / catenary_ds_by_da(d, a), 0.001));
+
+function catenary_points(l, x, y, steps = 100) = //! Returns a list of 2D points on the curve that goes from the origin to ```(x,y)``` and has length ```l```.
+    let(
+        d = x / 2,
+        a = catenary_find_a(d, sqrt(sqr(l) - sqr(y)), d / 2),   // Find a to get the correct length
+        offset = argsinh(y / catenary_s(d, a)),
+        t0 = sinh(-d / a + offset),
+        t1 = sinh( d / a + offset),
+        h = a * cosh(-d / a + offset) - a,
+        lowest = offset > d / a ? [0, 0] : offset < -d / a ? [x, y] : [d - offset * a, -h],
+        //dummy = echo(l = l, d = d, a = a, t0=t0, t1=t1, sinh(d / a), s = catenary_s(d, a), offset = offset * a, h = h),
+        p0 = catenary(t0, a)
+    )
+    steps ? [for(t = [t0 : (t1 - t0) / steps : t1]) catenary(t, a) - p0] : lowest;
--- a/utils/core/global.scad
+++ b/utils/core/global.scad
@@ -31,6 +31,7 @@ function m(x)    = x * 1000.0;

 function sqr(x) = x * x;                                                            //! Returns the square of ```x```
 function echoit(x) = echo(x) x;                                                     //! Echo expression and return it, useful for debugging
+function no_point(str) = chr([for(c = str(str)) if(c == ".") ord("p") else ord(c)]);//! Replace decimal point in string with 'p'
 function in(list, x) = !!len([for(v = list) if(v == x) true]);                      //! Returns true if ```x``` is an element in the ```list```
 function Len(x) = is_list(x) ? len(x) : 0;                                          //! Returns the length of a list or 0 if ```x``` is not a list
 function r2sides(r) = $fn ? $fn : ceil(max(min(360/ $fa, r * 2 * PI / $fs), 5));    //! Replicates the OpenSCAD logic to calculate the number of sides from the radius
--- a/utils/core/polyholes.scad
+++ b/utils/core/polyholes.scad
@@ -32,10 +32,14 @@ module poly_circle(r, sides = 0) { //! Make a circle adjusted to print the corre
    circle(r = corrected_radius(r,n), $fn = n);
 }

-module poly_cylinder(r, h, center = false, sides = 0) //! Make a cylinder adjusted to print the correct size
+module poly_cylinder(r, h, center = false, sides = 0, chamfer = false) {//! Make a cylinder adjusted to print the correct size
    extrude_if(h, center)
        poly_circle(r, sides);

+    if(h && chamfer)
+        poly_cylinder(r + layer_height, center ? layer_height * 2 : layer_height, center, sides = sides ? sides : sides(r));
+}
+
 module poly_ring(or, ir, sides = 0) { //! Make a 2D ring adjusted to have the correct internal radius
    cir = corrected_radius(ir, sides);
    filaments = (or - cir) / extrusion_width;
--- a/utils/core/teardrops.scad
+++ b/utils/core/teardrops.scad
@@ -20,17 +20,32 @@
 //
 //! For making horizontal holes that don't need support material.
 //! Small holes can get away without it, but they print better with truncated teardrops.
+//!
+//! Using teardrop_plus() or setting the plus option on other modules will elongate the teardrop vertically by the layer height, so when sliced the staircase tips
+//! do not intrude into the circle. See <https://hydraraptor.blogspot.com/2020/07/horiholes-2.html>
 //
-module teardrop(h, r, center = true, truncate = true, chamfer = 0) { //! For making horizontal holes that don't need support material, set ```truncate = false``` to make traditional RepRap teardrops that don't even need bridging
+module teardrop(h, r, center = true, truncate = true, chamfer = 0, plus = false) { //! For making horizontal holes that don't need support material, set ```truncate = false``` to make traditional RepRap teardrops that don't even need bridging
    module teardrop_2d(r, truncate) {
-        hull() {
-            circle4n(r);
-            if(truncate)
-                translate([0, r / 2])
-                    square([2 * r * (sqrt(2) - 1), r], center = true);
-            else
-                polygon([[0, 0], [eps, 0], [0, r * sqrt(2)]]);
-        }
+        er = layer_height / 2 - eps;    // Extrustion edge radius
+        R = plus ? r + er : r;          // Corrected radius
+        offset = plus ? -er : 0;        // Offset inwards
+        hull()
+            for(side = [0 : 1])
+                mirror([side, 0, 0])
+                    intersection() {
+                        hull()
+                        translate([offset, 0]) {
+                            circle4n(R);
+
+                            if(truncate)
+                                translate([0, R / 2])
+                                    square([2 * R * (sqrt(2) - 1), R], center = true);
+                            else
+                                polygon([[0, 0], [eps, 0], [0, R * sqrt(2)]]);
+                        }
+                        translate([0, -2 * R])
+                            square([R, 4 * R]);
+                    }
    }

    render(convexity = 5)
@@ -40,23 +55,23 @@ module teardrop(h, r, center = true, truncate = true, chamfer = 0) { //! For mak
    teardrop_chamfer(h, center, chamfer) {
        linear_extrude(eps, center = true)
            teardrop_2d(r + chamfer / 2, truncate);
+
        translate_z(-chamfer / 2)
            linear_extrude(eps, center = true)
                teardrop_2d(r, truncate);
    }
 }

-module semi_teardrop(h, r, d = undef, center = true, chamfer = 0) { //! A semi teardrop in the positive Y domain
-    module semi_teardrop_2d(r, d) {
+module semi_teardrop(h, r, d = undef, center = true, chamfer = 0, plus = false) { //! A semi teardrop in the positive Y domain
+    module semi_teardrop_2d(r, d)
        intersection() {
            R = is_undef(d) ? r : d / 2;
-            teardrop(r = R, h = 0);
+            teardrop(r = R, h = 0, plus = plus);

            sq = R + 1;
            translate([-sq, 0])
                square([2 * sq, sq]);
        }
-    }

    render(convexity = 5)
        extrude_if(h, center)
@@ -65,22 +80,21 @@ module semi_teardrop(h, r, d = undef, center = true, chamfer = 0) { //! A semi t
    teardrop_chamfer(h, center, chamfer) {
        linear_extrude(eps, center = true)
            semi_teardrop_2d(r + chamfer / 2, d);
+
        translate_z(-chamfer / 2)
            linear_extrude(eps, center = true)
                semi_teardrop_2d(r, d);
    }
 }

-module teardrop_plus(h, r, center = true, truncate = true, chamfer = 0) //! Slightly bigger teardrop to allow for the 3D printing staircase effect
-    teardrop(h, r + layer_height / 4, center, truncate, chamfer);
+module teardrop_plus(h, r, center = true, truncate = true, chamfer = 0) //! Slightly elongated teardrop to allow for the 3D printing staircase effect
+    teardrop(h, r, center, truncate, chamfer, plus = true);

-module tearslot(h, r, w, center = true, chamfer = 0) { //! A horizontal slot that doesn't need support material
-    module tearslot_2d(r, w) {
-        hull() {
-            translate([-w / 2, 0]) teardrop(r = r, h = 0);
-            translate([w / 2, 0]) teardrop(r = r, h = 0);
-        }
-    }
+module tearslot(h, r, w, center = true, chamfer = 0, plus = false) { //! A horizontal slot that doesn't need support material
+    module tearslot_2d(r, w)
+        hull()
+            for(x = [-1, 1])
+                translate([x * w / 2, 0]) teardrop(r = r, h = 0, plus = plus);

    extrude_if(h, center)
        tearslot_2d(r, w);
@@ -88,19 +102,19 @@ module tearslot(h, r, w, center = true, chamfer = 0) { //! A horizontal slot tha
    teardrop_chamfer(h, center, chamfer) {
        linear_extrude(eps, center = true)
            tearslot_2d(r + chamfer / 2, w);
+
        translate_z(-chamfer / 2)
            linear_extrude(eps, center = true)
                tearslot_2d(r, w);
    }
 }

-module vertical_tearslot(h, r, l, center = true, chamfer = 0) { //! A vertical slot that doesn't need support material
-    module vertical_tearslot_2d(r, l) {
-        hull() {
-            translate([0,  l / 2]) teardrop(0, r, true);
-            translate([0, -l / 2]) circle4n(r);
-        }
-    }
+module vertical_tearslot(h, r, l, center = true, chamfer = 0, plus = false) { //! A vertical slot that doesn't need support material
+    module vertical_tearslot_2d(r, l)
+        hull()
+            for(y = [-1, 1])
+                translate([0,  y * l / 2])
+                    teardrop(0, r, true, plus = plus);

    extrude_if(h, center)
        vertical_tearslot_2d(r, l);
@@ -108,6 +122,7 @@ module vertical_tearslot(h, r, l, center = true, chamfer = 0) { //! A vertical s
    teardrop_chamfer(h, center, chamfer) {
        linear_extrude(eps, center = true)
            vertical_tearslot_2d(r + chamfer / 2, l);
+
        translate_z(-chamfer / 2)
            linear_extrude(eps, center = true)
                vertical_tearslot_2d(r, l);
@@ -123,4 +138,3 @@ module teardrop_chamfer(h, center, chamfer) { //! Helper module for adding chamf
                        hull()
                            children();
 }
-
--- a/utils/gears.scad
+++ b/utils/gears.scad
@@ -0,0 +1,138 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// 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/>.
+//
+
+//
+//! Utilities for making involute gears.
+//!
+//! Formulas from <https://khkgears.net/new/gear_knowledge/gear_technical_reference/involute_gear_profile.html>
+//! <https://khkgears.net/new/gear_knowledge/gear_technical_reference/calculation_gear_dimensions.html>
+//! and <https://www.tec-science.com/mechanical-power-transmission/involute-gear/calculation-of-involute-gears/>
+//!
+//! ```involute_gear_profile()``` returns a polygon that can have the bore and spokes, etc, subtracted from it before linear extruding it to 3D.
+//! Helical gears can be made using ```twist``` and bevel gears using ```scale``` parameters of ```linear_extrude()```.
+//!
+//! Gears with less than 19 teeth (when pressure angle is 20) are profile shifted to avoid undercutting the tooth root. 7 teeth is considered
+//! the practical minimum.
+//!
+//! The clearance between tip and root defaults to module / 6, but can be overridden by setting the ```clearance``` parameter.
+//!
+//! The origin of the rack is the left end of the pitch line and its width is below the pitch line. I.e. it does not include the addendum.
+//!
+//! ```involute_worm_profile()``` returns a tooth profile that can be passed to ```thread()``` to make worms.
+//
+include <core/core.scad>
+use <maths.scad>
+
+function involute(r, u) = let(a = degrees(u), c = cos(a), s = sin(a)) r * [c + u * s, s - u * c]; //! Involute of circle radius r at angle u in radians
+
+function profile_shift(z, pa) = z ? max(1 - z * sqr(sin(pa)) / 2, 0) : 0; //! Calculate profile shift for small gears
+
+function centre_distance(m, z1, z2, pa = 20) = //! Calculate distance between centres taking profile shift into account
+    let(x1 = profile_shift(z1, pa), x2 = profile_shift(z2, pa)) m * (z1/2 + z2/2 + x1 + x2);
+
+function involute_gear_od(m, z, pa = 20) = //! involute gear outside diameter given modulus, tooth count and pressure angle
+    m * (z + 2 * profile_shift(z, pa) + 2);
+
+module involute_gear_profile(m, z, pa = 20, clearance = undef, steps = 20) { //! Calculate gear profile given module, number of teeth and pressure angle
+    assert(z >= 7, "Gears must have at least 7 teeth.");
+    d = m * z;                                                  // Reference pitch circle diameter
+    x = profile_shift(z, pa);                                   // Profile shift
+    c = is_undef(clearance) ? m / 6 : clearance;                // Clearance from tip to root
+
+    base_d = d * cos(pa);                                       // Base diameter
+    root_r = d / 2 + m * (x - 1) - c;                           // Root radius (dedendum circle radius)
+    tip_d = d + 2 * m * (1 + x);                                // Tip diameter (addendum circle diameter)
+    tpa = acos(base_d / tip_d);                                 // Tip pressure angle
+    inva = tan(pa) - radians(pa);                               // Involute alpha
+    invaa = tan(tpa) - radians(tpa);                            // Involute alphaa
+    ta =  PI / (2 * z) + 2 * x * tan(pa) / z + inva - invaa;    // Tooth tip thickness angle, radians
+    crest_w = ta * tip_d;                                       // Crest width
+    umax = sqrt(sqr(tip_d / base_d) - 1);                       // Max value of the involute parameter
+
+    base_r = base_d / 2;
+    p1 = involute(base_r, 0);
+    p2 = involute(base_r, umax);
+    dist = norm(p2 - p1);                                       // distance between beginning and end of the involute curve
+
+    base_angle = 2 * acos((sqr(base_r) + sqr(tip_d / 2) - sqr(dist)) / base_r / tip_d) + degrees(2 * ta);
+    root_angle = 360 / z - base_angle;
+    root_circle_r = base_r * sin(root_angle / 2);
+
+    if(!is_undef($show_numbers) && $show_numbers) {
+        echo(d=d);
+        echo(base_d=base_d);
+        echo(tip_d=tip_d);
+        echo(tpa = tpa);
+        echo(inva=inva);
+        echo(invaa=invaa);
+        echo(x=x);
+        echo(ta=ta);
+        echo(crest_w=crest_w);
+        echo(umax = umax);
+        echo(base_angle=base_angle);
+        echo(root_angle=root_angle);
+    }
+    involute = [for(i = [0 : steps], u = umax * i / steps) involute(base_r, u)]; // involute for the bottom side of the tooth
+    truncated = [for(p = involute) if((rot2_z(-base_angle / 2) * p).y <= 0) p];  // removed any above the centreline to prevent overlap
+    reflection = reverse([for(p = truncated) rot2_z(base_angle) * [p.x, -p.y] ]); // reflect and rotate to make the top edge
+
+    root = reverse([for(a = [90 : 180 / steps : 270]) rot2_z(base_angle + root_angle / 2) * ([base_r, 0] + root_circle_r * [cos(a), sin(a)]) ]);
+    tooth = concat(truncated, reflection, root);
+    gear = concat([for(i = [0 : z - 1], p = tooth) rot2_z(i * 360 / z) * p]);
+    rotate(-base_angle / 2)
+        union() {
+            polygon(gear);
+
+            circle(root_r);
+        }
+}
+
+function involute_rack_tooth_profile(m, pa = 20, clearance = undef) = //! Calculate rack tooth profile given module and pressure angle
+    let(p = PI * m,                                     // Pitch
+        ha = m,                                         // Addendum
+        c = is_undef(clearance) ? m / 4 : clearance,    // Tip root clearance
+        hf = m + c,                                     // Dedendum
+        hw = 2 * m,                                     // Working depth
+        h = ha + hf,                                    // Tooth depth
+        crest_w = p / 2 - 2 * ha * tan(pa),             // Crest width
+        base_w = crest_w + 2 * hw * tan(pa),            // Base width
+        root_w = p - base_w,                            // Root width
+        clearance_w = root_w - 2 * c * tan(pa),         // Width of clearance without fillet
+        kx = tan(pa / 2 + 45),                          // Fillet ratio of radius and xoffset
+        pf = min(0.38 * m, kx * clearance_w / 2),       // Dedendum fillet radius
+        x = pf / kx,                                    // Fillet centre x offset from corner
+        sides = ceil(r2sides(pf) * (90 - pa) / 360),    // Fillet facets taking $fa, $fs and $fn into account
+        fillet = [ for(i = [0 : sides - 1], a = i * (90 - pa) / sides + 270) [clearance_w / 2 - x,  -hf + pf] + pf * [cos(a), sin(a)] ],
+        reflection = reverse([for(pt = fillet) [p - pt.x, pt.y] ]) // reflect for trailing edge
+    ) concat(fillet, [ [root_w / 2, -hw / 2], [p / 2 - crest_w / 2, ha], [p / 2 + crest_w / 2, ha], [p - root_w / 2, -hw / 2] ], reflection);
+
+module involute_rack_profile(m, z, w, pa = 20, clearance = undef) { //! Calculate rack profile given module, number of teeth and pressure angle
+    p = PI * m;                                     // Pitch
+    hf = 1.25 * m;                                  // Dedendum
+    tooth = involute_rack_tooth_profile(m, pa, clearance);
+    teeth = [for(i = [0 : z - 1], pt = tooth) [pt.x + i * p, pt.y] ];
+
+    polygon(concat([[0, -w], [0, -hf]], teeth, [[z * p, -hf ], [z * p, -w]])); // Add the corners
+}
+
+function involute_worm_profile(m, pa = 20, clearance = undef) = //! Calculate worm profile suitable for passing to thread()
+    let(tooth = involute_rack_tooth_profile(m),
+        pitch = PI * m,
+        y_min = min([for(p = tooth) p.y])
+    ) [for(p = tooth) [p.x - pitch / 2, p.y - y_min, 0]];   // Offset to be positive in y, centred in x and add 0 z ordintate
--- a/utils/hanging_hole.scad
+++ b/utils/hanging_hole.scad
@@ -39,11 +39,13 @@ module hanging_hole(z, ir, h = 100, h2 = 100) { //! Hole radius ```ir``` hanging
    infill_angle = z % (2 * layer_height) ? -45 : 45;
    below = min(z + eps, h2);
    big = 1000;
-
    render(convexity = 3) translate_z(z)
        union() {
            translate_z(2 * layer_height)
-                polyhole(ir - eps, h - 2 * layer_height);
+                if(sides(ir) > 4)
+                    polyhole(ir - eps, h - 2 * layer_height);
+                else
+                    poly_cylinder(ir, h - 2 * layer_height);

            difference() {
                translate_z(-below)
--- a/utils/horiholes.scad
+++ b/utils/horiholes.scad
@@ -0,0 +1,55 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// 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/>.
+//
+
+//
+//! Utilities for depicting the staircase slicing of horizontal holes made with [`teardrop_plus()`](#teardrops), see <https://hydraraptor.blogspot.com/2020/07/horiholes-2.html>
+//
+include <../utils/core/core.scad>
+
+function teardrop_plus_x(r, y, h) = //! Calculate the ordinate of a compensated teardrop given y and layer height.
+    let(fr = h / 2,
+        hpot = r + fr,
+        x2 = sqr(hpot) - sqr(y),
+        x = x2 > 0 ? sqrt(x2) : 0
+    )
+    max(0,
+        y < hpot / sqrt(2) ? x - fr :
+        y < hpot           ? hpot * sqrt(2) - y - fr :
+        0);
+
+module horihole(r, z, h = 0, center = true) { //! For making horizontal holes that don't need support material and are correct dimensions
+    bot_layer = floor((z - r) / layer_height);
+    top_layer = ceil((z + r) / layer_height);
+    render(convexity = 5)
+        extrude_if(h, center)
+            for(i = [bot_layer : top_layer]) {
+                Z = i * layer_height;
+                y = Z - z + layer_height / 2;
+                x = teardrop_plus_x(r, y, layer_height);
+                if(x > 0)
+                    translate([0, y])
+                        difference() {
+                            square([2 * x + layer_height, layer_height], center = true);
+
+                            for(end = [-1, 1])
+                                translate([end * (x + layer_height / 2), 0])
+                                    circle(d = layer_height, $fn = 32);
+                        }
+             }
+}
--- a/utils/maths.scad
+++ b/utils/maths.scad
@@ -20,7 +20,18 @@
 //
 //! Maths utilities for manipulating vectors and matrices.
 //
-function sqr(x) = x * x;
+function sqr(x) = x * x;                        //! Square x
+function radians(degrees) = degrees * PI / 180; //! Convert radians to degrees
+function degrees(radians) = radians * 180 / PI; //! Convert degrees to radians
+
+function sinh(x) = (exp(x) - exp(-x)) / 2;      //! hyperbolic sine
+function cosh(x) = (exp(x) + exp(-x)) / 2;      //! hyperbolic cosine
+function tanh(x) = sinh(x) / cosh(x);           //! hyperbolic tangent
+function coth(x) = cosh(x) / sinh(x);           //! hyperbolic cotangent
+function argsinh(x) = ln(x + sqrt(sqr(x) + 1)); //! inverse hyperbolic sine
+function argcosh(x) = ln(x + sqrt(sqr(x) - 1)); //! inverse hyperbolic cosine
+function argtanh(x) = ln((1 + x) / (1 - x)) / 2;//! inverse hyperbolic tangent
+function argcoth(x) = ln((x + 1) / (x - 1)) / 2;//! inverse hyperbolic cotangent

 function translate(v) = let(u = is_list(v) ? len(v) == 2 ? [v.x, v.y, 0] //! Generate a 4x4 translation matrix, ```v``` can be ```[x, y]```, ```[x, y, z]``` or ```z```
                                                         : v
@@ -63,6 +74,12 @@ function rot3_z(a) = //! Generate a 3x3 matrix to rotate around z
          [ s,  c,  0],
          [ 0,  0,  1] ];

+function rot2_z(a) = //! Generate a 2x2 matrix to rotate around z
+    let(c = cos(a),
+        s = sin(a))
+        [ [ c, -s],
+          [ s,  c] ];
+
 function scale(v) = let(s = is_list(v) ? v : [v, v, v]) //!  Generate a 4x4 matrix that scales by ```v```, which can be a vector of xyz factors or a scalar to scale all axes equally
                        [
                          [s.x, 0,   0,   0],
--- a/utils/quadrant.scad
+++ b/utils/quadrant.scad
@@ -23,18 +23,21 @@
 include <../utils/core/core.scad>

 module quadrant(w, r, center = false) { //! Draw a square with one rounded corner, can be centered on the arc centre, when ```center``` is ```true```.
-    offset = center ? r - w : 0;
-    translate([offset, offset])
+    h = is_list(w) ? w.y : w;
+    w = is_list(w) ? w.x : w;
+    offset_w = center ? r - w : 0;
+    offset_h = center ? r - h : 0;
+    translate([offset_w, offset_h])
        hull() {
            intersection() {
-                translate([w - r, w - r])
+                translate([w - r, h - r])
                    circle4n(r);

-                square(w);
+                square([w, h]);
            }

            square([w, eps]);

-            square([eps, w]);
+            square([eps, h]);
        }
 }
--- a/utils/thread.scad
+++ b/utils/thread.scad
@@ -26,6 +26,8 @@
 //! Threads are by default solid, so the male version is wrapped around a cylinder and the female inside a tube. This can be suppressed to just get the helix, for
 //! example to make a printed pot with a screw top lid.
 //!
+//! A left hand thread can be made by using mirror([0,1]).
+//!
 //! Threads with a typical 60 degree angle appear too bright with OpenSCAD's primitive lighting model as they face towards the lights more than the top and sides of
 //! a cylinder. To get around this a colour can be passed to thread that is used to colour the cylinder and then toned down to colour the helix.
 //!
@@ -47,7 +49,7 @@ function thread_profile(h, crest, angle, overlap = 0.1) = //! Create thread prof
    let(base = crest + 2 * (h + overlap) * tan(angle / 2))
        [[-base / 2, -overlap, 0], [-crest / 2, h, 0], [crest / 2, h, 0], [base / 2, -overlap, 0]];

-module thread(dia, pitch, length, profile, center = true, top = -1, bot = -1, starts = 1, solid = true, female = false, colour = undef) { //! Create male or femail thread, ends can be tapered, chamfered or square
+module thread(dia, pitch, length, profile, center = true, top = -1, bot = -1, starts = 1, solid = true, female = false, colour = undef) { //! Create male or female thread, ends can be tapered, chamfered or square
    //
    // Apply colour if defined
    //
@@ -61,10 +63,12 @@ module thread(dia, pitch, length, profile, center = true, top = -1, bot = -1, st
    // Extract some properties from the profile, perhaps they should be stored in it.
    //
    h = max([for(p = sprofile) p.y]);
-    maxx = max([for(p = sprofile) p.x]);
-    minx = min([for(p = sprofile) p.x]);
-    crest_xmax = max([for(p = sprofile) if(p.x != maxx) p.x]);
-    crest_xmin = min([for(p = sprofile) if(p.x != minx) p.x]);
+    xs = [for(p = sprofile) p.x];
+    maxx = max(xs);
+    minx = min(xs);
+    crest_xs = [for(p = sprofile) if(p.y == h) p.x];
+    crest_xmax = max(crest_xs);
+    crest_xmin = min(crest_xs);
    //
    // If the ends don't taper we need an extra half turn past the ends to be cropped horizontally.
    //
@@ -129,11 +133,13 @@ module thread(dia, pitch, length, profile, center = true, top = -1, bot = -1, st
                    render() intersection() {
                        polyhedron(points, ends_faces);

-                        len = length - 2 * eps;
+                        shorten = !is_undef(colour);
+                        len = shorten ? length - 2 * eps : length;
+                        offset = shorten ? eps : 0;
                        rotate_extrude()
                            if(female) {
                                difference() {
-                                    translate([0, eps])
+                                    translate([0, offset])
                                        square([r + h + overlap, len]);

                                    if(top_chamfer_h)
@@ -146,7 +152,7 @@ module thread(dia, pitch, length, profile, center = true, top = -1, bot = -1, st
                            else
                                difference() {
                                    hull() {
-                                        translate([0, eps])
+                                        translate([0, offset])
                                            square([r, len]);

                                        translate([0, bot_chamfer_h])
--- a/vitamins/axial.scad
+++ b/vitamins/axial.scad
@@ -24,6 +24,7 @@ include <../utils/core/core.scad>
 include <../utils/round.scad>

 module wire_link(d, l, h = 1, tail = 3) { //! Draw a wire jumper link.
+    vitamin(str("wire_link(", d, ", ", l, arg(h, 1, "h"), arg(tail, 3, "tail"),  "): Wire link ", d, "mm x ", l / inch(1), "\""));
    r = d;
    $fn = 32;

@@ -57,13 +58,16 @@ module orientate_axial(length, height, pitch, wire_d) { // Orient horizontal or
    min_pitch = ceil((length + 1) / inch(0.1)) * inch(0.1);
    lead_pitch = pitch ? pitch : min_pitch;
    if(lead_pitch >= min_pitch) {
-        wire_link(wire_d, lead_pitch, height);
+        not_on_bom()
+            wire_link(wire_d, lead_pitch, height);
+
        translate_z(height)
            rotate([0, 90, 0])
                children();
    }
    else {
-        wire_link(wire_d, lead_pitch, length + 0.7 + wire_d);
+        not_on_bom()
+            wire_link(wire_d, lead_pitch, length + 0.7 + wire_d);

        translate([-pitch / 2, 0, length / 2 + 0.2])
            children();
--- a/vitamins/ball_bearing.scad
+++ b/vitamins/ball_bearing.scad
@@ -52,21 +52,21 @@ module ball_bearing(type) { //! Draw a ball bearing
        rim_chamfer = rim / 6;
        rotate_extrude()
            hull() {
-                translate([or - rim / 2, 0])
-                    square([rim, h - 2 * rim_chamfer], center = true);
+                translate([or - rim, -h / 2 + rim_chamfer])
+                    square([rim, h - 2 * rim_chamfer]);

-                translate([or - rim / 2 - rim_chamfer, 0])
-                    square([rim - rim_chamfer, h], center = true);
+                translate([or - rim, -h / 2])
+                    square([rim - rim_chamfer, h]);
            }

        hub_chamfer = hub / 6;
        rotate_extrude()
            hull() {
-                translate([ir + hub / 2, 0])
-                    square([hub, h - 2 * hub_chamfer], center = true);
+                translate([ir, -h / 2 + hub_chamfer])
+                    square([hub, h - 2 * hub_chamfer]);

-                translate([ir + hub / 2 + hub_chamfer, 0])
-                    square([hub - hub_chamfer, h], center = true);
+                translate([ir + hub_chamfer, -h / 2])
+                    square([hub - hub_chamfer, h]);
            }
    }

--- a/vitamins/ball_bearings.scad
+++ b/vitamins/ball_bearings.scad
@@ -16,11 +16,12 @@
 // You should have received a copy of the GNU General Public License along with NopSCADlib.
 // If not, see <https://www.gnu.org/licenses/>.
 //
-BB624 =  ["624",  4,  13, 5, "blue",      1.2, 1.2];  // 624 ball bearing for idlers
-BB608 =  ["608",  8,  22, 7, "OrangeRed", 1.4, 2.0];  // 608 bearings for wades
-BB6200 = ["6200", 10, 30, 9, "black",     2.3, 3.6];  // 6200 bearings for KP pillow blocks
-BB6201 = ["6201", 12, 32, 10, "black",    2.4, 3.7];  // 6201 bearings for KP pillow blocks
-BB6808 = ["6808", 40, 52, 7, "black",     1.5, 1.6];
-ball_bearings = [BB624, BB608, BB6200, BB6201, BB6808];
+BBSMR95 =  ["SMR95", 5,  9,  2.5, "silver",    0.5, 0.7];  // SMR95 ball bearing for FlexDrive extruder
+BB624   =  ["624",   4,  13, 5,   "blue",      1.2, 1.2];  // 624 ball bearing for idlers
+BB608   =  ["608",   8,  22, 7,   "OrangeRed", 1.4, 2.0];  // 608 bearings for wades
+BB6200   = ["6200",  10, 30, 9,   "black",     2.3, 3.6];  // 6200 bearings for KP pillow blocks
+BB6201   = ["6201",  12, 32, 10,  "black",     2.4, 3.7];  // 6201 bearings for KP pillow blocks
+BB6808   = ["6808",  40, 52, 7,   "black",     1.5, 1.6];
+ball_bearings = [BBSMR95, BB624, BB608, BB6200, BB6201, BB6808];

 use <ball_bearing.scad>
--- a/vitamins/belt.scad
+++ b/vitamins/belt.scad
@@ -24,29 +24,31 @@
 //! To make the back of the belt run against a smooth pulley on the outside of the loop specify a negative pitch radius.
 //!
 //! By default the path is a closed loop but a gap length and position can be specified to make open loops.
+//! To draw the gap its XY position is specified by ```gap_pos```. ```gap_pos.z``` can be used to specify a rotation if the gap is not at the bottom of the loop.
 //!
 //! Individual teeth are not drawn, instead they are represented by a lighter colour.
 //
 include <../utils/core/core.scad>
 use <../utils/rounded_polygon.scad>
+use <../utils/maths.scad>

 function belt_pitch(type)        = type[1]; //! Pitch in mm
 function belt_width(type)        = type[2]; //! Width in mm
 function belt_thickness(type)    = type[3]; //! Total thickness including teeth
 function belt_tooth_height(type) = type[4]; //! Tooth height
-function belt_pitch_height(type) = belt_tooth_height(type) + type[4]; //! Offset of the pitch radius from the tips of the teeth
+function belt_pitch_height(type) = type[5] + belt_tooth_height(type); //! Offset of the pitch radius from the tips of the teeth

-function no_point(str) = chr([for(c = str) if(c == ".") ord("p") else ord(c)]);
+function belt_pitch_to_back(type) = belt_thickness(type) - belt_pitch_height(type); //! Offset of the back from the pitch radius
 //
 // We model the belt path at the pitch radius of the pulleys and the pitch line of the belt to get an accurate length.
 // The belt is then drawn by offseting each side from the pitch line.
 //
-module belt(type, points, gap = 0, gap_pt = undef, belt_colour = grey(20), tooth_colour = grey(50)) { //! Draw a belt path given a set of points and pitch radii where the pulleys are. Closed loop unless a gap is specified
+module belt(type, points, gap = 0, gap_pos = undef, belt_colour = grey(20), tooth_colour = grey(50)) { //! Draw a belt path given a set of points and pitch radii where the pulleys are. Closed loop unless a gap is specified
    width = belt_width(type);
    pitch = belt_pitch(type);
    thickness = belt_thickness(type);
    part = str(type[0],pitch);
-    vitamin(str("belt(", no_point(part), "x", width, ", ", points, arg(gap, 0), arg(gap_pt, undef), "): Belt ", part," x ", width, "mm x ", length, "mm"));
+    vitamin(str("belt(", no_point(part), "x", width, ", ", points, arg(gap, 0), arg(gap_pos, undef), "): Belt ", part," x ", width, "mm x ", length, "mm"));

    len = len(points);

@@ -56,24 +58,28 @@ module belt(type, points, gap = 0, gap_pt = undef, belt_colour = grey(20), tooth

    module shape() rounded_polygon(points, tangents);

+    ph = belt_pitch_height(type);
+    th = belt_tooth_height(type);
    module gap()
        if(gap)
-            translate(gap_pt)
-                square([gap, thickness + eps], center = true);
+            translate([gap_pos.x, gap_pos.y])
+                rotate(is_undef(gap_pos.z) ? 0 : gap_pos.z)
+                    translate([0, ph - thickness / 2])
+                        square([gap, thickness + eps], center = true);

    color(belt_colour)
        linear_extrude(width, center = true)
            difference() {
-                offset(thickness - belt_pitch_height(type)) shape();
-                offset(-belt_pitch_height(type) + belt_tooth_height(type)) shape();
+                offset(-ph + thickness ) shape();
+                offset(-ph + th) shape();
                gap();
-
            }
+
    color(tooth_colour)
        linear_extrude(width, center = true)
            difference() {
-                offset(-belt_pitch_height(type) + belt_tooth_height(type)) shape();
-                offset(-belt_pitch_height(type)) shape();
+                offset(-ph + th) shape();
+                offset(-ph) shape();
                gap();
            }
 }
--- a/vitamins/camera.scad
+++ b/vitamins/camera.scad
@@ -23,10 +23,38 @@
 include <../utils/core/core.scad>
 use <pcb.scad>

-function camera_pcb(type)         = type[2]; //! The PCB part of the camera
-function camera_lens_offset(type) = type[3]; //! Offset of the lens center from the PCB centre
-function camera_lens(type)        = type[4]; //! Stack of lens parts, can be round, rectanular or rounded rectangular, with optional tapered aperture
-function camera_connector(type)   = type[5]; //! The flex connector block for the camera itself
+function camera_pcb(type)           = type[2]; //! The PCB part of the camera
+function camera_lens_offset(type)   = type[3]; //! Offset of the lens center from the PCB centre
+function camera_lens(type)          = type[4]; //! Stack of lens parts, can be round, rectanular or rounded rectangular, with optional tapered aperture
+function camera_connector_pos(type) = type[5]; //! The flex connector block for the camera itself's position
+function camera_connector_size(type)= type[6]; //! The flex connector block for the camera itself's size
+
+module camera_lens(type, offset = 0) //! Draw the lens stack, with optional offset for making a clearance hole
+    color(grey(20))
+        translate(camera_lens_offset(type))
+            for(p = camera_lens(type)) {
+                size = p[0];
+                r = p[1] + offset;
+                app = p[2];
+                if(size.x)
+                    rounded_rectangle(size + [2 * offset, 2 * offset, round_to_layer(offset)], r, center = false);
+                else
+                    translate_z(size.y)
+                        rotate_extrude()
+                            difference() {
+                                square([r, size.z + round_to_layer(offset)]);
+
+                                if(app)
+                                    translate([0, size.z])
+                                        hull() {
+                                            translate([0, -eps])
+                                                square([app.y, eps * 2]);
+
+                                            translate([0, -app.z])
+                                                square([app.x, app.z]);
+                                        }
+                            }
+            }

 module camera(type) {           //! Draw specified PCB camera
    vitamin(str("camera(", type[0], "): ", type[1]));
@@ -36,36 +64,14 @@ module camera(type) {           //! Draw specified PCB camera
        pcb(pcb);

    translate_z(pcb_thickness(pcb)) {
-        color(grey(20))
-            translate(camera_lens_offset(type))
-                for(p = camera_lens(type)) {
-                    size = p[0];
-                    r = p[1];
-                    app = p[2];
-                    if(size.x)
-                        rounded_rectangle(size, r, center = false);
-                    else
-                        translate_z(size.y)
-                            rotate_extrude()
-                                difference() {
-                                    square([r, size.z]);
+        camera_lens(type);

-                                    if(app)
-                                        translate([0, size.z])
-                                            hull() {
-                                                translate([0, -eps])
-                                                    square([app.y, eps * 2]);
-
-                                                translate([0, -app.z])
-                                                    square([app.x, app.z]);
-                                            }
-                                }
-                }
-        conn = camera_connector(type);
+        conn = camera_connector_size(type);
        if(conn) {
+            pos = camera_connector_pos(type);
            color(grey(20))
-                translate(conn[0])
-                    rounded_rectangle(conn[1], 0.5, center = false);
+                translate(pos)
+                    rounded_rectangle(conn, 0.5, center = false);

            flex = [5, 0.1];
            color("orange")
@@ -74,8 +80,8 @@ module camera(type) {           //! Draw specified PCB camera
                        translate(camera_lens_offset(type) + [0, camera_lens(type)[0][0].y / 2])
                            cube([flex.x, eps, flex.y], center = true);

-                    translate_z(conn[1].z - flex.y)
-                        translate(conn[0] - [0, conn[1].y / 2])
+                    translate_z(conn.z - flex.y)
+                        translate([camera_lens_offset(type).x, pos.y] - [0, conn.y / 2])
                             cube([flex.x, eps, flex.y], center = true);
                }
        }
--- a/vitamins/cameras.scad
+++ b/vitamins/cameras.scad
@@ -22,7 +22,7 @@ rpi_camera_v1_pcb = ["", "",  25, 24, 1, 0, 2.1, 0, "green", false, [[2, -2], [-
    [
        [12,   3.25,  0, "-flat_flex", true],
        [-4.5, -5,    0, "smd_led", LED0603, "red"],
-        [-5.5, -4,    0, "smd_res", RES0603, "10K"],
+        [-5.5, -4,    0, "smd_res", RES0603, "1K2"],
    ],
    []];

@@ -32,7 +32,22 @@ rpi_camera_v1 = ["rpi_camera_v1", "Raspberry Pi camera V1", rpi_camera_v1_pcb, [
        [[0, 0, 4], 7.5 / 2],
        [[0, 0, 5], 5.5 / 2, [1.5/2, 2/2, 0.5]],
    ],
-    [[0, 12 - 1.5 - 2.5], [8, 5, 1]]
+    [0, 12 - 1.5 - 2.5], [8, 5, 1]
+];
+
+rpi_camera_v2_pcb = ["", "",  25, 23.862, 1, 2, 2.2, 0, "green", false, [[2, -2], [-2, -2], [2, -14.5], [-2, -14.5]],
+    [
+        [12.5,   2.75,  0, "-flat_flex", true],
+    ],
+    []];
+
+rpi_camera_v2 = ["rpi_camera_v2", "Raspberry Pi camera V2", rpi_camera_v2_pcb, [0, 9.6 - 12],
+    [
+        [[8.5, 8.5, 3], 0],
+        [[0, 0, 4], 7.5 / 2],
+        [[0, 0, 5], 5.5 / 2, [1.5/2, 2/2, 0.5]],
+    ],
+    [-13.8 + 12.5, 23.862 / 2 - 4.7], [8.5, 4, 1]
 ];

 rpi_camera_pcb = ["", "",  36, 36, 1.6, 0, 3.2, 0, "green", false, [[3.5, -3.5], [-3.5, -3.5], [3.5, 3.5], [-3.5, 3.5]],
@@ -50,9 +65,9 @@ rpi_camera = ["rpi_camera", "Raspberry Pi focusable camera", rpi_camera_pcb, [0,
        [[0, 0,  12], 6],
        [[0, 11, 4.3], 14 / 2, [8/2, 11/2, 1]],
    ],
-    [[0, 18 - 1.5 - 2.5], [8, 5, 1]]
+    [0, 18 - 1.5 - 2.5], [8, 5, 1.6]
 ];

-cameras = [rpi_camera_v1, rpi_camera];
+cameras = [rpi_camera_v1, rpi_camera, rpi_camera_v2];

 use <camera.scad>
--- a/vitamins/fans.scad
+++ b/vitamins/fans.scad
@@ -17,28 +17,28 @@
 // If not, see <https://www.gnu.org/licenses/>.
 //

-//          w   d   b   h      s              h     t    o   b  b    a
-//          i   e   o   o      c              u     h    u   l  o    p
-//          d   p   r   l      r              b     i    t   a  s    p
-//          t   t   e   e      e                    c    e   d  s    e
-//          h   h              w              d     k    r   e       r
-//                      p                     i     n        s  d    t
-//                      i                     a     e    d           u
-//                      t                           s    i           r
-//                      c                           s    a           e
-//                      h
+//          w     d   b   h      s              h     t    o   b  b    a
+//          i     e   o   o      c              u     h    u   l  o    p
+//          d     p   r   l      r              b     i    t   a  s    p
+//          t     t   e   e      e                    c    e   d  s    e
+//          h     h              w              d     k    r   e       r
+//                        p                     i     n        s  d    t
+//                        i                     a     e    d           u
+//                        t                           s    i           r
+//                        c                           s    a           e
+//                        h
 //
-fan120x25= [120,25, 116,52.5,  M4_dome_screw, 41,   4,  140, 9, 0,   137];
-fan80x38 = [80, 38, 75, 35.75, M4_dome_screw, 40,   4.3, 84, 7, 0,   85];
-fan80x25 = [80, 25, 75, 35.75, M4_dome_screw, 40,   4.3, 84, 7, 0,   85];
-fan70x15 = [70, 15, 66, 30.75, M4_dome_screw, 29,   3.8, 70 ,7, 0,   undef];
-fan60x25 = [60, 25, 57, 25,    M4_dome_screw, 31.5, 3.6, 64, 7, 0,   63];
-fan60x15 = [60, 15, 57, 25,    M4_dome_screw, 29,   2.4, 60, 7, 7.7, 63];
-fan50x15 = [50, 15, 48, 20,    M4_dome_screw, 25,   12.5,100,7, 0,   undef];
-fan40x11 = [40, 11, 37, 16,    M3_dome_screw, 25,   7.5,100, 9, 0,   undef];
-fan30x10 = [30, 10, 27, 12,    M3_dome_screw, 17,   10, 100, 5, 0,   undef];
-fan25x10 = [25, 10, 24, 10,   M2p5_pan_screw, 16,   10, 100, 5, 0,   undef];
-fan17x8  = [17,  8, 16, 6.75,  M2_cap_screw,  12.6,  8, 100, 7, 0,   undef];
+fan120x25= [120, 25, 116,52.5,  M4_dome_screw, 41,   4,  140, 9, 0,   137];
+fan80x38 = [80,  38, 75, 35.75, M4_dome_screw, 40,   4.3, 84, 7, 0,   85];
+fan80x25 = [80,  25, 75, 35.75, M4_dome_screw, 40,   4.3, 84, 7, 0,   85];
+fan70x15 = [70,  15, 66, 30.75, M4_dome_screw, 29,   3.8, 70 ,7, 0,   undef];
+fan60x25 = [60,  25, 57, 25,    M4_dome_screw, 31.5, 3.6, 64, 7, 0,   63];
+fan60x15 = [60,  15, 57, 25,    M4_dome_screw, 29,   2.4, 60, 7, 7.7, 63];
+fan50x15 = [50,  15, 48, 20,    M4_dome_screw, 25,  12.5,100, 7, 0,   undef];
+fan40x11 = [40,  11, 37, 16,    M3_dome_screw, 25,   7.5,100, 9, 0,   undef];
+fan30x10 = [30,  10, 27, 12,    M3_dome_screw, 17,   10, 100, 5, 0,   undef];
+fan25x10 = [25.4,10, 24, 10,   M2p5_pan_screw, 16,   10, 100, 5, 0,   undef];
+fan17x8  = [17,   8, 16, 6.75,  M2_cap_screw,  12.6,  8, 100, 7, 0,   undef];

 fans = [fan17x8, fan25x10, fan30x10, fan40x11, fan50x15, fan60x15, fan60x25, fan70x15, fan80x25, fan80x38, fan120x25];

--- a/vitamins/hot_ends.scad
+++ b/vitamins/hot_ends.scad
@@ -33,8 +33,7 @@
 //                                                                                       h      t     s   t              t     t
 //                                                                                              h
 //
-JHeadMk4  = ["JHeadMk4",  jhead, "JHead MK4",           64,  5.1, 16,    50, grey(20),     12,    4.64, 14, [0, 2.94, -5], 20,   20];
-JHeadMk5  = ["JHeadMk5",  jhead, "JHead MK5",         51.2,  5.1, 16,    40, grey(20),     12,    4.64, 13, [0, 2.38, -5], 20,   20];
+JHeadMk5  = ["JHeadMk5",  jhead, "JHead MK5",         51.2,  4.75,16,    40, grey(20),   12,    4.64, 13, [0, 2.38, -5], 20,   20];
 E3Dv5     = ["E3Dv5",     e3d,   "E3D V5 direct",       70,  3.7, 16,  50.1, "silver",   12,    6,    15, [1, 5,  -4.5], 14.5, 28];
 E3Dv6     = ["E3Dv6",     e3d,   "E3D V6 direct",       62,  3.7, 16,  42.7, "silver",   12,    6,    15, [1, 5,  -4.5], 14,   21];
 E3D_clone = ["E3D_clone", e3d,   "E3D clone aliexpress",66,  6.8, 16,    46, "silver",   12,    5.6,  15, [1, 5,  -4.5], 14.5, 21];
--- a/vitamins/insert.scad
+++ b/vitamins/insert.scad
@@ -24,17 +24,26 @@ include <../utils/core/core.scad>
 use <../utils/quadrant.scad>
 use <../utils/thread.scad>

-function insert_length(type)         = type[1]; //! Length
-function insert_outer_d(type)        = type[2]; //! Outer diameter at the top
+function insert_length(type)         = type[1];     //! Length
+function insert_outer_d(type)        = type[2];     //! Outer diameter at the top
 function insert_hole_radius(type)    = type[3] / 2; //! Radius of the required hole in the plastic
-function insert_screw_diameter(type) = type[4]; //! Screw size
-function insert_barrel_d(type)       = type[5]; //! Diameter of the main barrel
-function insert_ring1_h(type)        = type[6]; //! Height of the top and middle rings
-function insert_ring2_d(type)        = type[7]; //! Diameter of the middle ring
-function insert_ring3_d(type)        = type[8]; //! Diameter of the bottom ring
+function insert_screw_diameter(type) = type[4];     //! Screw size
+function insert_barrel_d(type)       = type[5];     //! Diameter of the main barrel
+function insert_ring1_h(type)        = type[6];     //! Height of the top and middle rings
+function insert_ring2_d(type)        = type[7];     //! Diameter of the middle ring
+function insert_ring3_d(type)        = type[8];     //! Diameter of the bottom ring

 function insert_hole_length(type) = round_to_layer(insert_length(type));

+function insert_nose_length(type, d) = let( //! The length before the second ring.
+        length = insert_length(type),
+        ring1_h = insert_ring1_h(type),
+        chamfer1 = (insert_ring2_d(type) - insert_barrel_d(type)) / 2,
+        chamfer2 = (insert_ring3_d(type) - insert_barrel_d(type)) / 2,
+        ring2_h = ring1_h + chamfer1,
+        gap = (length - ring1_h - ring2_h - chamfer2) / 3
+    ) ring1_h + gap + ring2_h - d + insert_barrel_d(type);
+
 module insert(type) { //! Draw specified insert
    length = insert_length(type);
    ring1_h = insert_ring1_h(type);
@@ -42,12 +51,12 @@ module insert(type) { //! Draw specified insert
    chamfer1 = (insert_ring2_d(type) - insert_barrel_d(type)) / 2;
    chamfer2 = (insert_ring3_d(type) - insert_barrel_d(type)) / 2;
    ring2_h = ring1_h + chamfer1;
-    gap = (length - ring1_h - ring2_h- chamfer2) / 3;
+    gap = (length - ring1_h - ring2_h - chamfer2) / 3;

    vitamin(str("insert(", type[0], "): Heatfit insert M", insert_screw_diameter(type)));
    $fn = 64;
    thread_d = insert_screw_diameter(type);
-    explode(20, offset =[0, 0, -5]) translate_z(eps) vflip() {
+    explode(20, offset = [0, 0, -5]) translate_z(eps) vflip() {
        r1 = thread_d / 2;
        r2 = insert_barrel_d(type) / 2;
        r3 = insert_ring3_d(type) / 2;
@@ -58,7 +67,7 @@ module insert(type) { //! Draw specified insert
        h3 = ring1_h + gap + ring2_h;
        h4 = ring1_h + gap + ring2_h + gap;
        color(brass)
-            rotate_extrude()
+            rotate_extrude(convexity = 3)
                polygon([
                    [r1, 0],
                    [r1, length],
--- a/vitamins/inserts.scad
+++ b/vitamins/inserts.scad
@@ -29,7 +29,7 @@
 //                          d         d          h    d    d
 //                                         d
 //
-F1BM2   = [ "F1BM",    4.0, 3.6, 3.2, 2,   3.0,  1.0, 3.4, 3.1 ];
+F1BM2   = [ "F1BM2",    4.0, 3.6, 3.2, 2,   3.0,  1.0, 3.4, 3.1 ];
 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 ];
--- a/vitamins/jhead.scad
+++ b/vitamins/jhead.scad
@@ -29,7 +29,6 @@ include <zipties.scad>
 use <wire.scad>
 use <../utils/tube.scad>

-MK4_heater = [ 12.76, 15.88, 8.22, (15.88 / 2 - 4.5), (12.76 / 2 - 0.5 - 2.5 / 2),  (-15.88 / 2 + 5), 9.5, 3];
 MK5_heater = [ 12.76, 12.76, 8.22, (12.76 / 2 - 3.75), (12.76 / 2 - 0.5 - 2.5 / 2), (-12.76 / 2 + 4), 8,   2];

 function heater_width(type)  = type[0];
@@ -71,7 +70,7 @@ module heater_block(type, resistor, thermistor) {
        cone_start_r = nozzle_cone(type) / 2;
        straight = 1;
        nozzle_r = 0.4 / 2;
-        translate_z(-h / 2) vflip()
+        translate([nozzle_x(type), 0, -h / 2]) vflip()
            rotate_extrude()
                polygon([
                    [nozzle_r,     0],
@@ -86,7 +85,7 @@ module heater_block(type, resistor, thermistor) {
 module jhead_hot_end(type, filament) {
    resistor = RIE1212UB5C5R6;
    thermistor = Epcos;
-    heater = type == JHeadMk4 ? MK4_heater : MK5_heater;
+    heater = MK5_heater;

    insulator_length = hot_end_insulator_length(type);
    inset = hot_end_inset(type);
@@ -106,7 +105,7 @@ module jhead_hot_end(type, filament) {

                    square([hot_end_insulator_diameter(type) / 2 - chamfer, insulator_length]);
                }
-                square([3.2 / 2, insulator_length]);
+                square([(filament + 0.2) / 2, insulator_length]);

                translate([hot_end_groove_dia(type) / 2, insulator_length - hot_end_inset(type) - hot_end_groove(type)])
                    square([100, hot_end_groove(type)]);
@@ -122,7 +121,7 @@ module jhead_hot_end(type, filament) {
 module jhead_hot_end_assembly(type, filament, naked = false) { //! Assembly with resistor, thermistor, tape, sleaving and ziptie
    resistor = RIE1212UB5C5R6;
    thermistor = Epcos;
-    heater = type == JHeadMk4 ? MK4_heater : MK5_heater;
+    heater = MK5_heater;

    insulator_length = hot_end_insulator_length(type);
    inset = hot_end_inset(type);
@@ -139,7 +138,7 @@ module jhead_hot_end_assembly(type, filament, naked = false) { //! Assembly with
    //
    // silcone tape
    //
-    if(!naked)
+    if(is_undef(naked) || !naked)
        color("red")
            if(exploded())
                translate([0, max(hot_end_insulator_diameter(type) / 2, heater_length(heater) / 2 - nozzle_x(heater)),
@@ -157,7 +156,7 @@ module jhead_hot_end_assembly(type, filament, naked = false) { //! Assembly with
    //
    // Zip tie and heatshrink
    //
-    if(!naked)
+    if(!naked  && !is_undef(naked))
        rotate(10) {
            dia =  hot_end_insulator_diameter(type);
            scale([1, (bundle + dia) / dia])
--- a/vitamins/led_meter.scad
+++ b/vitamins/led_meter.scad
@@ -85,7 +85,8 @@ module meter(type, colour = "red", value = "888", display_colour = false) //! Dr
        translate([0, meter_shunt_y(type), size.z])
            vflip()
                color("#b87333")
-                    wire_link(shunt.y, shunt.x, shunt.z, tail = 2);
+                    not_on_bom()
+                        wire_link(shunt.y, shunt.x, shunt.z, tail = 2);
 }

 clearance = 0.1;
--- a/vitamins/magnet.scad
+++ b/vitamins/magnet.scad
@@ -0,0 +1,49 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// 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/>.
+//
+
+//
+//! Cylindrical and ring magnets.
+//
+include <../utils/core/core.scad>
+
+function magnet_od(type)    = type[1]; //! Outer diameter
+function magnet_id(type)    = type[2]; //! Inside diameter if a ring
+function magnet_h(type)     = type[3]; //! Height
+function magnet_r(type)     = type[4]; //! Corner radius
+
+module magnet(type) { //! Draw specified magnet
+    od = magnet_od(type);
+    id = magnet_id(type);
+    h = magnet_h(type);
+    r = magnet_r(type);
+
+    //vitamin(str("magnet(", type[0], "): Magnet ", od, "mm diameter, ", h, "mm high", id ? str(", ", id, "mm bore") : "" ));
+
+    or = od / 2;
+    ir = id / 2;
+    color(silver)
+        rotate_extrude()
+            union() {
+                translate([ir, 0])
+                    rounded_square([or - ir, h], r, center = false);
+                if(!ir)
+                    square([r, h]);
+            }
+
+}
--- a/vitamins/magnets.scad
+++ b/vitamins/magnets.scad
@@ -0,0 +1,30 @@
+//
+// NopSCADlib Copyright Chris Palmer 2020
+// 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/>.
+//
+//
+//! Cylindrical and ring magnets.
+//
+
+//                          od,        id,        h,         r
+MAG8x4x4p2 = ["MAG8x4x4p2", 8,         4.2,       4,         0.5];
+MAG484     = ["MAG484",     inch(1/4), inch(1/8), inch(1/4), 0.5];
+MAG5x8     = ["MAG484",     8,         0,         5,         0.5];
+
+magnets = [MAG8x4x4p2, MAG484, MAG5x8];
+
+use <magnet.scad>
--- a/vitamins/opengrab.scad
+++ b/vitamins/opengrab.scad
@@ -24,27 +24,44 @@
 //
 include <../utils/core/core.scad>
 use <../utils/thread.scad>
+use <pcb.scad>
+include <smds.scad>

-pitch = 33.8;
+pitch = 33.8 / 2;
 width = 40;
 depth = 18;
 magnet = 4.3;
-pcb = 0.8;
 pillar = 6;
 target = 1;
 pole_w = 2;
 pole_l = 36;
 poles = 15;

+pcb = ["", "",        width, width, 0.8, 0, 3.5, 0, "darkgreen", false, [],
+    [     [ 3.45,   19,   0, "button_4p5mm"],
+          [ 2.75,   24.5, 0, "smd_led", LED0805, "green"],
+          [ 2.75,   28.0, 0, "smd_led", LED0805, "red"],
+          [ 28.5,   13,   0, "2p54header", 3, 1, false, undef, true],
+     ]];
+
+
 module opengrab_hole_positions()    //! Position children at the screw positions
-    for(x = [-1, 1], y = [-1, 1])
-        translate([x * pitch / 2, y * pitch / 2, 0])
-            children();
+    let($d = 3.2)
+        for($x = [-pitch, pitch], $y = [-pitch, pitch])
+            translate([$x, $y])
+                children();

+module opengrab_side_hole_positions() //! Position children at the two 4mm hole
+    let($d = 4, pitch = width / 2 - 3.5)
+        for($x = [-pitch, pitch])
+            translate([$x, 0])
+                children();

-function opengrab_width() = width;              //! Module width
-function opengrab_depth() = depth;              //! Module height
-function opengrab_target_thickness() = target;  //! Target sheet thickness
+function opengrab_width() = width;                               //! Module width
+function opengrab_depth() = depth;                               //! Module height
+function opengrab_target_thickness() = target;                   //! Target sheet thickness
+function opengrab_pcb() = pcb;                                   //! The PCB
+function opengrab_pcb_z() = depth - pillar - pcb_thickness(pcb); //! PCB offset from the front

 module opengrab() { //! Draw OpenGrab module
    vitamin("opengrab(): OpenGrab V3 electro permanent magnet");
@@ -61,10 +78,9 @@ module opengrab() { //! Draw OpenGrab module
                cube([pole_w, pole_l, 1], center = true);
    }

-    color("darkgreen")
-        translate_z(depth - pillar - pcb / 2)
-            cube([width, width, pcb], center = true);
-
+    not_on_bom()
+        translate_z(opengrab_pcb_z())
+            pcb(pcb);

    translate_z(1)
        opengrab_hole_positions() {
@@ -82,7 +98,7 @@ module opengrab() { //! Draw OpenGrab module
 }

 module opengrab_target() { //! Draw OpenGrab target
-    vitamin("opengrab_target(): OpenGrab  silicon steel target plate");
+    vitamin("opengrab_target(): OpenGrab silicon steel target plate");

     color(grey(80))
        linear_extrude(target)
@@ -90,10 +106,9 @@ module opengrab_target() { //! Draw OpenGrab target
                square([width, width], center = true);

                opengrab_hole_positions()
-                    circle(d = 3.2);
+                    circle(d = $d);

-                for(side = [-1, 1])
-                    translate([side * (width / 2 - 3.5), 0])
-                        circle(d = 4);
+                opengrab_side_hole_positions()
+                    circle(d = $d);
        }
 }
--- a/vitamins/panel_meter.scad
+++ b/vitamins/panel_meter.scad
@@ -77,7 +77,6 @@ module panel_meter(type) { //! Draw panel mounted LCD meter module
    tab_z = pmeter_tab_z(type);
    pcb = pmeter_pcb(type);
    ap2 = pmeter_inner_ap(type);
-    pcb_h = pmeter_pcb_h(type) - bezel.z;
    buttons = pmeter_buttons(type);

    color("#94A7AB")
@@ -146,15 +145,16 @@ module panel_meter(type) { //! Draw panel mounted LCD meter module
                    translate(pmeter_inner_ap_o(type))
                        square([ap2.x, ap2.y], center = true);
                }
-    if(pcb)
+    if(pcb) {
        vflip()
            translate_z(h - pcb_thickness(pcb) - pmeter_pcb_z(type))
                pcb(pcb);

-    if(pcb_h > 0)
-        %translate_z(-pcb_h / 2 - eps)
-            cube([size.x - 2 * t - eps, size.y - 2 * t - eps, pcb_h], center = true);
-
+        pcb_h = pmeter_pcb_h(type) - bezel.z;
+        if(pcb_h > 0)
+            %translate_z(-pcb_h / 2 - eps)
+                cube([size.x - 2 * t - eps, size.y - 2 * t - eps, pcb_h], center = true);
+    }
    if(buttons)
        for(b = buttons)
            panel_meter_button(b);
--- a/vitamins/panel_meters.scad
+++ b/vitamins/panel_meters.scad
@@ -44,7 +44,7 @@ DSP5005   = ["DSP5005", "Ruideng DSP5005 Power supply module",                [7
 DSN_VC288PCB = ["", "", 41, 21, 1, 0, 0, 0, "green", false, [], [[ 5,  -3,   0, "jst_xh", 3], ], []];

 DSN_VC288 = ["DSN_VC288","DSN-VC288 DC 100V 10A Voltmeter ammeter",            [45.3, 26,   17.4], [47.8, 28.8, 2.5], 0,   [1, 1.8], [36, 18, 2.5], [],            0, 2,
-              [], 0, DSN_VC288PCB, 5];
+              [], 0, DSN_VC288PCB, 5, 0];

 panel_meters = [DSN_VC288, PZEM021, PZEM001, DSP5005];

--- a/vitamins/pcb.scad
+++ b/vitamins/pcb.scad
@@ -333,8 +333,9 @@ function hdmi_height2(type)   = type[6]; //! Inside height in the middle
 function hdmi_height(type)    = type[7]; //! Outside height above the PCB
 function hdmi_thickness(type) = type[8]; //! Wall thickness of the metal

-hdmi_full = [ "hdmi_full", "HDMI socket",      12,  14,   10,  3,    4.5, 6.5, 0.5 ];
-hdmi_mini = [ "hdmi_mini", "Mini HDMI socket", 7.5, 10.5, 8.3, 1.28, 2.5, 3.2, 0.35 ];
+hdmi_full = [ "hdmi_full", "HDMI socket",        12,   14,   10,  3,    4.5, 6.5, 0.5 ];
+hdmi_mini = [ "hdmi_mini", "Mini HDMI socket",    7.5, 10.5, 8.3, 1.28, 2.5, 3.2, 0.35 ];
+hdmi_micro = [ "hdmi_micro", "Micro HDMI socket", 8.5,  5.9, 4.43, 1.4, 2.3, 3,   0.3 ];

 module hdmi(type, cutout = false) { //! Draw HDMI socket
    vitamin(str("hdmi(", type[0], "): ", type[1]));
@@ -437,6 +438,39 @@ module usb_uA(cutout = false) { //! Draw USB micro A connector
        }
 }

+module usb_C(cutout = false) { //! Draw USB C connector
+    l = 7.35;
+    w = 8.94;
+    h = 3.26;
+    t = 0.4;
+    flange_h = 3;
+    flange_w = 8;
+
+    module O()
+        translate([0, h / 2])
+            rounded_square([w, h], h / 2 - 0.5, center = true);
+
+    if(cutout)
+        rotate([90, 0, 90])
+            linear_extrude(100)
+                offset(2 * panel_clearance)
+                    O();
+    else
+        color("silver") rotate([90, 0, 90]) {
+            linear_extrude(l, center = true)
+                difference() {
+                    O();
+
+                    offset(-t)
+                        O();
+                }
+
+            translate_z(-l / 2)
+                linear_extrude(2.51)
+                    O();
+
+        }
+}
 module usb_B(cutout = false) {  //! Draw USB B connector
    l = 16.4;
    w = 12.2;
@@ -638,14 +672,13 @@ module flex(cutout = false) { //! Draw flexistrip connector

                        translate([0, -w / 2 + slot_offset + slot_w / 2])
                            square([slot_l, slot_w], center = true);
-
                    }
        }
    }
 }

 small_ff = [[11.8, 0.9], [17, 1.4, 1.2], [12, 1.6, 1.2], [16, 1.1, 1.2]];
-large_ff = [[16,  1.25], [22, 1.5, 2.25],[16, 4.0, 2.5], [21, 0,   2.5]];
+large_ff = [[16,  1.25], [22, 1.5, 2.5], [16, 4.0, 2.5], [21, 0,   2.5]];

 function ff_slot(type)  = type[0]; //! Flat flex slot size
 function ff_latch(type) = type[1]; //! Flat flex latch size
@@ -683,8 +716,8 @@ module flat_flex(type, cutout = false) { //! Draw flat flexistrip connector as u
       }

       color(grey(80))
-            translate([-back.x / 2, -w / 2 + back.y])
-                cube([back.x, mid.y, mid.z - eps]);
+            translate([-back.x / 2, -w / 2 + back.y + eps])
+                cube([back.x, mid.y - 2 * eps, mid.z - eps]);
    }
 }

@@ -882,7 +915,7 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
    function param(n, default = 0) = len(comp) > n ? comp[n] : default;
    rotate(comp.z) {
        // Components that have a cutout parameter go in this section
-        if(show(comp, "2p54header"))    pin_header(2p54header, comp[4], comp[5], param(6, false), false, cutouts, colour = param(7, undef));
+        if(show(comp, "2p54header"))    pin_header(2p54header, comp[4], comp[5], param(6, false), param(8, false), cutouts, colour = param(7, undef));
        if(show(comp, "2p54boxhdr"))    box_header(2p54header, comp[4], comp[5], param(6, false), cutouts);
        if(show(comp, "2p54socket"))    pin_socket(2p54header, comp[4], comp[5], param(6, false), param(7, 0), param(8, false), cutouts, param(9, undef));
        if(show(comp, "chip"))          chip(comp[4], comp[5], comp[6], param(7, grey(30)), cutouts);
@@ -891,10 +924,12 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
        if(show(comp, "usb_Ax2"))       usb_Ax2(cutouts);
        if(show(comp, "usb_uA"))        usb_uA(cutouts);
        if(show(comp, "usb_B"))         usb_B(cutouts);
+        if(show(comp, "usb_C"))         usb_C(cutouts);
        if(show(comp, "jack"))          jack(cutouts);
        if(show(comp, "barrel_jack"))   barrel_jack(cutouts);
        if(show(comp, "hdmi"))          hdmi(hdmi_full, cutouts);
        if(show(comp, "mini_hdmi"))     hdmi(hdmi_mini, cutouts);
+        if(show(comp, "micro_hdmi"))    hdmi(hdmi_micro, cutouts);
        if(show(comp, "flex"))          flex(cutouts);
        if(show(comp, "flat_flex"))     flat_flex(param(4, false) ? large_ff : small_ff, cutouts);
        if(show(comp, "uSD"))           uSD(comp[4], cutouts);
@@ -905,6 +940,7 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
        if(!cutouts) {
            // Components that don't have a cutout parameter go in this section
            if(show(comp, "button_6mm"))    square_button(button_6mm);
+            if(show(comp, "button_4p5mm"))  square_button(button_4p5mm);
            if(show(comp, "microswitch"))   translate_z(microswitch_thickness(comp[4])/2) microswitch(comp[4]);
            if(show(comp, "pcb"))           translate_z(comp[4]) pcb(comp[5]);
            if(show(comp, "standoff"))      standoff(comp[4], comp[5], comp[6], comp[7]);
@@ -918,6 +954,7 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
            if(show(comp, "led"))           led(comp[4], comp[5], 2.6);
            if(show(comp, "pdip"))          pdip(comp[4], comp[5], param(6, false), param(7, inch(0.3)));
            if(show(comp, "ax_res"))        ax_res(comp[4], comp[5], param(6, 5), param(7, 0));
+            if(show(comp, "link"))          wire_link(l = comp[4], h = param(5, 1), d = param(6, 0.8), tail = param(7, 3));
            if(show(comp, "D_plug"))        translate_z(d_pcb_offset(comp[4])) d_plug(comp[4], pcb = true);
            if(show(comp, "molex_hdr"))     molex_254(comp[4]);
            if(show(comp, "jst_xh"))        jst_xh_header(jst_xh_header, comp[4], param(5, false), param(6, "white"), param(7, undef));
--- a/vitamins/pcbs.scad
+++ b/vitamins/pcbs.scad
@@ -217,6 +217,25 @@ RPI3 =  ["RPI3", "Raspberry Pi 3",     85,    56,    1.4, 3,    2.75, 6, "green"
    [": Micro SD card"],
    [32.5 - 9.5 * 2.54, 52.5 - 1.27, 20, 2]];

+RPI4 = ["RPI4", "Raspberry Pi 4", 85, 56, 1.4, 3, 2.75, 6, "green", false, [[3.5, 3.5], [61.5, 3.5], [61.5, -3.5], [3.5, -3.5]], [
+    [32.5, -3.5, 0, "2p54header", 20, 2],
+    [-6.5, 9, 0, "usb_Ax2"],
+    [-6.5, 27, 0, "usb_Ax2"],
+    [-8.5, 45.75, 0, "rj45"],
+
+    [ 4, 28, 90, "flex"],
+    [11.2, 3.675 - 1.6, -90, "usb_C"],
+    [ 26,  2.5, -90, "micro_hdmi"],
+    [39.5, 2.5, -90, "micro_hdmi"],
+    [46.5, 11.5, -90, "flex"],
+    [ 54, 6, -90, "jack"],
+
+    [ 29.25, 32.5, 0, "chip", 14, 14, 2.4],
+    [ 60, -22.3, 0, "chip", 9, 9, 0.6],
+    [7.75, 28, 180, "-uSD", [12, 11.5, 1.28]]
+    ], [": Micro SD card"], [32.5 - 9.5 * 2.54, 52.5 - 1.27, 20, 2]
+];
+
 RPI0 =  ["RPI0", "Raspberry Pi Zero",     65,    30,    1.4, 3,    2.75, 6, "green", false, [[3.5, 3.5], [-3.5, 3.5], [-3.5, -3.5], [3.5, -3.5]],
    [//[32.5, -3.5,   0, "2p54header", 20, 2],
     [25.5,  13,      0, "chip",       12, 12, 1.2],
@@ -391,7 +410,7 @@ RAMPSEndstop = ["RAMPSEndstop", "RAMPS Endstop Switch",
    []];


-pcbs = [TP4056, MT3608, RAMPSEndstop, ExtruderPCB, PI_IO, ZC_A0591, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, Keyes5p1, PSU12V1A, WD2002SJ, RPI3, DuetE, Duex2, Duex5, Melzi];
+pcbs = [TP4056, MT3608, RAMPSEndstop, ExtruderPCB, PI_IO, ZC_A0591, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, Keyes5p1, PSU12V1A, WD2002SJ, RPI3, RPI4, DuetE, Duex2, Duex5, Melzi];

 perfboards = [PERF74x51, PERF70x50, PERF60x40, PERF70x30, PERF80x20];

--- a/vitamins/pin_header.scad
+++ b/vitamins/pin_header.scad
@@ -50,26 +50,37 @@ module pin_header(type, cols = 1, rows = 1, smt = false, right_angle = false, cu
    ra_offset = 2.4;
    width = pitch * rows;

-    if(cutout)
+    module cutout()
        dogbone_rectangle([cols * pitch + 2 * panel_clearance, rows * pitch + 2 * panel_clearance, 100], center = false);
+
+    if(cutout) {
+        if(right_angle)
+            translate_z(width / 2)
+                rotate([-90, 0, 180])
+                    cutout();
+        else
+            cutout();
+    }
    else {
        vitamin(str("pin_header(", type[0], ", ", cols, ", ", rows,
                    arg(smt, false, "smt"), arg(right_angle, false, "right_angle"), "): Pin header ", cols, " x ", rows, right_angle ? " right_angle" : ""));

        translate_z(smt ? 3.5 - h : 0) {
            for(x = [0 : cols - 1], y = [0 : rows - 1]) {
-                translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2), 0])
+                // Vertical part of the pin
+                translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2)])
                    if(right_angle)
-                        pin(type, hdr_pin_below(type) + width / 2 + (y - 0.5) * pitch);
+                        pin(type, hdr_pin_below(type) + (y + 0.5) * pitch);
                    else
                        pin(type);

                if(right_angle) {
                    w = hdr_pin_width(type);
+                    // Horizontal part of the pin
                    rotate([-90, 0, 180])
-                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) -width / 2, hdr_pin_below(type) - (y - 0.5) * pitch])
+                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) - width / 2, hdr_pin_below(type) - (y - (rows - 1) / 2) * pitch])
                            pin(type, hdr_pin_length(type) - hdr_pin_below(type) + ra_offset + pitch / 2 + (y - 0.5) * pitch);
-
+                    // corner
                    translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2) - w / 2, pitch * (y - (rows - 1) / 2) + width / 2 - w / 2])
                        rotate([0, -90, 0])
                            color(hdr_pin_colour(type))
@@ -78,7 +89,8 @@ module pin_header(type, cols = 1, rows = 1, smt = false, right_angle = false, cu
                                        square(w);
                }
            }
-            translate([0, right_angle ? -ra_offset - pitch / 2 : 0, right_angle ? width / 2 : 0])
+            // Insulator
+            translate([0, right_angle ? -ra_offset - (rows - 1) * pitch / 2 : 0, right_angle ? width / 2 : 0])
                rotate([right_angle ? 90 : 0, 0, 0])
                    color(base_colour)
                        linear_extrude(h)
@@ -176,7 +188,7 @@ module pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt
        vitamin(str("pin_socket(", type[0], ", ", cols, ", ", rows, arg(right_angle, false, "right_angle"), arg(height, 0, "height"), arg(smt, false, "smt"),
                               "): Pin socket ", cols, " x ", rows, right_angle ? " right_angle" : ""));
        color(base_colour)
-            translate([0, right_angle ? -ra_offset - pitch / 2 : 0, right_angle ? width / 2 : 0])
+            translate([0, right_angle ? -ra_offset - (rows - 1) * pitch / 2 : 0, right_angle ? width / 2 : 0])
                rotate([right_angle ? 90 : 0, 0, 0])
                    translate_z(depth / 2)
                        linear_extrude(depth, center = true)
@@ -192,11 +204,11 @@ module pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt
            for(x = [0 : cols - 1], y = [0 : rows -1]) {
                if(!smt)
                    translate([pitch * (x - (cols - 1) / 2), pitch * (y - (rows - 1) / 2), 0])
-                        pin(type, hdr_pin_below(type) + width / 2 + (y - 0.5) * pitch);
+                        pin(type, hdr_pin_below(type) + (y + 0.5) * pitch);

                if(right_angle) {
-                    rotate([-90, 0, 0])
-                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) -width / 2, 0])
+                    rotate([-90, 0, 180])
+                        translate([pitch * (x - (cols - 1) / 2), -pitch * (y - (rows - 1) / 2) - width / 2, hdr_pin_below(type) - (y - (rows - 1) / 2) * pitch])
                            pin(type, hdr_pin_below(type) + (y - 0.5) * pitch);

                    w = hdr_pin_width(type);
@@ -210,7 +222,7 @@ module pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt
    }
 }

-module jst_xh_header(type, pin_count, right_angle=false, colour, pin_colour) { //! Draw JST XH connector
+module jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_colour = false) { //! Draw JST XH connector
    colour = colour ? colour : hdr_base_colour(type);
    pin_colour = pin_colour ? pin_colour : hdr_pin_colour(type);
    sizeY = 5.75;
--- a/vitamins/pin_headers.scad
+++ b/vitamins/pin_headers.scad
@@ -17,15 +17,15 @@
 // If not, see <https://www.gnu.org/licenses/>.
 //

-//                          p     p     b    p     p       b      Socket depth
-//                          i     i     e    i     i       a
-//                          t     n     l    n     n       s
-//                          c           o                  e
-//                          h     l     w    w     c
-//                                                         c
+//                               p     p     b    p     p       b         Socket depth
+//                               i     i     e    i     i       a
+//                               t     n     l    n     n       s
+//                               c           o                  e
+//                               h     l     w    w     c
+//                                                              c
 //
-2p54header = ["2p54header", 2.54, 11.6, 3.2, 0.66, "gold", grey(20), 8.5];
-jst_xh_header = ["JST XH header",2.5,10,3.4, 0.64, "gold", grey(90), 7];
+2p54header    = ["2p54header",   2.54, 11.6, 3.2, 0.66, "gold", grey(20), 8.5];
+jst_xh_header = ["JST XH header",2.5,  10,   3.4, 0.64, "gold", grey(90), 7];

 pin_headers = [ 2p54header ];

--- a/vitamins/screw.scad
+++ b/vitamins/screw.scad
@@ -175,12 +175,15 @@ module screw(type, length, hob_point = 0, nylon = false) { //! Draw specified sc

        if(head_type == hs_dome) {
            lift = 0.38;
+            h = head_height - lift;
+            r = min(2 * head_height, (sqr(head_rad) + sqr(h)) / 2 * h); // Special case for M2
+            y = sqrt(sqr(r) - sqr(head_rad));
            color(colour) {
                rotate_extrude() {
                    difference() {
                        intersection() {
-                            translate([0, -head_height + lift])
-                                circle(2 * head_height);
+                            translate([0, -y + lift])
+                                circle(r);

                            square([head_rad, head_height]);
                        }
--- a/vitamins/screws.scad
+++ b/vitamins/screws.scad
@@ -75,10 +75,11 @@ M5_cap_screw     = ["M5_cap", "M5 cap",         hs_cap,   5, 8.5, 5,    2.5, 4.0
 M6_cap_screw     = ["M6_cap", "M6 cap",         hs_cap,   6, 10,  6,    3.3, 5.0, 24,  M6_washer, M6_nut,   M6_tap_radius,    M6_clearance_radius];
 M8_cap_screw     = ["M8_cap", "M8 cap",         hs_cap,   8, 13,  8,    4.3, 6.0, 28,  M8_washer, M8_nut,   M8_tap_radius,    M8_clearance_radius];

-M2_cs_cap_screw  = ["M2_cs_cap","M2 cs cap",    hs_cs_cap,2, 3.8, 0,    0.65,1.27,16,  M2_washer, M2_nut,   M2_tap_radius,    M2_clearance_radius];
+M2_cs_cap_screw  = ["M2_cs_cap","M2 cs cap",    hs_cs_cap,2, 3.8, 0,    0.65,1.3, 16,  M2_washer, M2_nut,   M2_tap_radius,    M2_clearance_radius];
 M3_cs_cap_screw  = ["M3_cs_cap","M3 cs cap",    hs_cs_cap,3, 6.0, 0,    1.05,2.0, 18,  M3_washer, M3_nut,   M3_tap_radius,    M3_clearance_radius];
 M4_cs_cap_screw  = ["M4_cs_cap","M4 cs cap",    hs_cs_cap,4, 8.0, 0,    1.49,2.5, 20,  M4_washer, M4_nut,   M4_tap_radius,    M4_clearance_radius];

+M2_dome_screw    = ["M2_dome", "M2 dome",       hs_dome,  2, 3.5, 1.3,  0.6, 1.3, 16,  M2_washer, M2_nut,   M2_tap_radius,    M2_clearance_radius];
 M3_dome_screw    = ["M3_dome", "M3 dome",       hs_dome,  3, 5.7, 1.65, 1.04,2.0, 18,  M3_washer, M3_nut,   M3_tap_radius,    M3_clearance_radius];
 M4_dome_screw    = ["M4_dome", "M4 dome",       hs_dome,  4, 7.6, 2.2,  1.3, 2.5, 20,  M4_washer, M4_nut,   M4_tap_radius,    M4_clearance_radius];

@@ -106,14 +107,14 @@ No6_screw        = ["No6", "No6 pan wood",      hs_pan, 3.5, 6.7, 2.2,    0,   0
 No6_cs_screw     = ["No6_cs", "No6 cs wood",    hs_cs,  3.5, 7.0, 0,      0,   0, 0,   M4_washer, false,    No6_pilot_radius, No6_clearance_radius];

 screw_lists = [
-[ M2_cap_screw, M2p5_cap_screw, M3_cap_screw, M4_cap_screw, M5_cap_screw, M6_cap_screw, M8_cap_screw],
+[ M2_cap_screw, M2p5_cap_screw, M3_cap_screw,    M4_cap_screw, M5_cap_screw, M6_cap_screw, M8_cap_screw],
 [ 0,            0,              M3_low_cap_screw],
-[ 0,            0,              M3_hex_screw, M4_hex_screw, M5_hex_screw, M6_hex_screw, M8_hex_screw],
-[ 0,            M2p5_pan_screw, M3_pan_screw, M4_pan_screw, M5_pan_screw, M6_pan_screw, No632_pan_screw],
-[ 0,            No2_screw,      No4_screw,    No6_screw,    No6_cs_screw],
+[ 0,            0,              M3_hex_screw,    M4_hex_screw, M5_hex_screw, M6_hex_screw, M8_hex_screw],
+[ 0,            M2p5_pan_screw, M3_pan_screw,    M4_pan_screw, M5_pan_screw, M6_pan_screw, No632_pan_screw],
+[ 0,            No2_screw,      No4_screw,       No6_screw,    No6_cs_screw],
 [ 0,            M2_cs_cap_screw,M3_cs_cap_screw, M4_cs_cap_screw],
-[ 0,            0,              M3_dome_screw, M4_dome_screw],
-[ 0,            0,              M3_grub_screw, M4_grub_screw]
+[ 0,            M2_dome_screw,  M3_dome_screw,   M4_dome_screw],
+[ 0,            0,              M3_grub_screw,   M4_grub_screw]
 ];

 use <screw.scad>
--- a/vitamins/stepper_motor.scad
+++ b/vitamins/stepper_motor.scad
@@ -89,7 +89,7 @@ module NEMA(type, shaft_angle = 0) { //! Draw specified NEMA stepper motor
        tube(or = boss_rad, ir =  shaft_rad + 2, h = boss_height * 2); // raised boss

        linear_extrude(eps)
-            cap_shape(true);
+            cap_shape(1);
    }

    color(stepper_cap_colour)                                       // aluminium end caps
--- a/vitamins/tubing.scad
+++ b/vitamins/tubing.scad
@@ -27,7 +27,9 @@ function tubing_od(type)       = type[2]; //! Outside diameter
 function tubing_id(type)       = type[3]; //! Inside diameter
 function tubing_colour(type)   = type[4]; //! Colour

-module tubing(type, length = 15, forced_id = 0) { //! Draw specified tubing with optional forced internal diameter
+function tubing_or(type)        = tubing_od(type) / 2; //! Outside radius
+
+module tubing(type, length = 15, forced_id = 0, center = true) { //! Draw specified tubing with optional forced internal diameter
    original_od = tubing_od(type);
    original_id = tubing_id(type);
    id = forced_id ? forced_id : original_id;
@@ -37,7 +39,7 @@ module tubing(type, length = 15, forced_id = 0) { //! Draw specified tubing with
    else
        vitamin(str("tubing(", type[0], arg(length, 15), "): ", tubing_material(type), " OD ", original_od, "mm ID ", original_id,"mm x ",length, "mm"));
    color(tubing_colour(type))
-        linear_extrude(length, center = true, convexity = 4)
+        linear_extrude(length, center = center, convexity = 4)
            difference() {
                circle(d = od);
                circle(d = id);
--- a/vitamins/tubings.scad
+++ b/vitamins/tubings.scad
@@ -20,20 +20,21 @@
 //
 // Tubing and sleeving
 //
-tubing_colour                     = [0.8, 0.8, 0.8, 0.75 ];
-
-PVC64     = ["PVC64",     "PVC aquarium tubing", 6,        4, tubing_colour];
-PVC85     = ["PVC85",     "PVC aquarium tubing", 8,        5, tubing_colour];
+PVC64     = ["PVC64",     "PVC aquarium tubing", 6,        4, [0.8, 0.8, 0.8, 0.75 ]];
+PVC85     = ["PVC85",     "PVC aquarium tubing", 8,        5, [0.8, 0.8, 0.8, 0.75 ]];
 NEOP85    = ["NEOP85",    "Neoprene tubing",     8,        5, [0.2,0.2,0.2]];
-PTFE07    = ["PTFE07",    "PTFE sleeving",       1.2,   0.71, tubing_colour];
-PTFE20    = ["PTFE20",    "PTFE sleeving",       2.6,      2, tubing_colour];
-PF7       = ["PF7",       "PTFE tubing",         46/10, 3.84, tubing_colour];
+PTFE07    = ["PTFE07",    "PTFE sleeving",       1.2,   0.71, [0.95, 0.95, 0.95, 0.9]];
+PTFE20    = ["PTFE20",    "PTFE sleeving",       2.6,      2, [0.95, 0.95, 0.95, 0.9]];
+PTFE2_4   = ["PTFE2_4",   "PTFE tubing",         4,        2, [0.95, 0.95, 0.95, 0.9]];
+PTFE2_3   = ["PTFE2_3",   "PTFE tubing",         3,        2, [0.95, 0.95, 0.95, 0.9]];
+PTFE4_6   = ["PTFE4_6",   "PTFE tubing",         6,        4, [0.95, 0.95, 0.95, 0.9]];
+PF7       = ["PF7",       "PTFE tubing",         46/10, 3.84, [0.95, 0.95, 0.95, 0.9]];
 HSHRNK16  = ["HSHRNK16",  "Heatshrink sleeving", 2.0,    1.6, "grey"];
 HSHRNK24  = ["HSHRNK24",  "Heatshrink sleeving", 2.8,    2.4, "grey"];
 HSHRNK32  = ["HSHRNK32",  "Heatshrink sleeving", 3.6,    3.2, "grey"];
 HSHRNK64  = ["HSHRNK64",  "Heatshrink sleeving", 6.8,    6.4, "grey"];
 HSHRNK100 = ["HSHRNK100", "Heatshrink sleeving",10.4,   10.0,  [0.2,0.2,0.2]];

-tubings = [PVC64, PVC85, NEOP85, PTFE07, PTFE20, PF7, HSHRNK16, HSHRNK24, HSHRNK64, HSHRNK100];
+tubings = [PVC64, PVC85, NEOP85, PTFE07, PTFE20, PF7, PTFE2_3, PTFE2_4, PTFE4_6, HSHRNK16, HSHRNK24, HSHRNK64, HSHRNK100];

 use <tubing.scad>
--- a/vitamins/veroboard.scad
+++ b/vitamins/veroboard.scad
@@ -132,8 +132,12 @@ module veroboard(type) { //! Draw specified veroboard with missing tracks and tr
 module vero_components(type, cutouts = false, angle = undef)
    for(comp = vero_components(type))
        vero_grid_pos(type, comp.x, comp.y)
-            translate_z(vero_thickness(type))
-                pcb_component(comp, cutouts, angle);
+            if(comp[3][0] == "-")
+                vflip()
+                    pcb_component(comp, cutouts, angle);
+            else
+                translate_z(vero_thickness(type))
+                    pcb_component(comp, cutouts, angle);

 module vero_cutouts(type, angle = undef) vero_components(type, true, angle); //! Make cutouts to clear components

--- a/vitamins/wire.scad
+++ b/vitamins/wire.scad
@@ -50,7 +50,7 @@ module mouse_hole(cable, h = 100, teardrop = false) { //! A mouse hole to allow
    r = wire_hole_radius(cable);

        if(teardrop)
-            vertical_tearslot(r = r, l = 2 * r, h = h);
+            vertical_tearslot(r = r, l = 2 * r, h = h, plus = true);
        else
            rotate(90)
                slot(r, 2 * r, h = h);
Author	SHA1	Message	Date
Chris Palmer	1255e71271	Added catenary curves.	2020-09-19 12:11:54 +01:00
Chris Palmer	b11c5914b3	Added hyperbolic maths functions	2020-09-15 20:58:39 +01:00
Chris Palmer	ac60057801	Fixes for additional warnings in OpenSCAD 2020.09.12.ci5914	2020-09-14 22:54:55 +01:00
Chris Palmer	332933a4fd	Made ribbon_clamps parametric on screw size.	2020-09-11 19:53:14 +01:00
Chris Palmer	6b0132c32e	Added chamfer option to poly_cylinder().	2020-09-11 12:36:37 +01:00
Chris Palmer	afac5f9737	Added PCB components to OpenGrab and functions to access PCB.	2020-09-11 12:35:22 +01:00
Chris Palmer	8d8df3cb8a	Added 4.5mm button to PCBs.	2020-09-11 12:30:00 +01:00
Chris Palmer	81eb183db9	Fixed PCB cutout for right angle pin headers.	2020-09-11 12:24:07 +01:00
Chris Palmer	c99ed98a64	Can now have right angle pin headers on PCBs. Fixed bugs right angle pin headers with rows not equal to two. Added more tests for pin headers.	2020-09-11 00:20:28 +01:00
Chris Palmer	7f65e5d539	Added M2 dome head screws.	2020-09-10 18:38:24 +01:00
Chris Palmer	ffb7f87cc5	Fixed typo in insert name.	2020-09-10 18:27:56 +01:00
Chris Palmer	d0513c7299	Bodge to jhead to allow the ziptie and sleaving to be removed by setting naked to undef.	2020-09-06 12:33:44 +01:00
Chris Palmer	d1429a3b7d	Verboard can now have components on the underside, same as PCBs.	2020-09-06 12:32:42 +01:00
Chris Palmer	70513993bd	Can now put wire links on PCBs	2020-09-06 12:31:41 +01:00
Chris Palmer	9eb35accfd	Updated fan_guard picture.	2020-09-06 11:59:32 +01:00
Chris Palmer	7276f18566	Spacing	2020-09-06 11:56:55 +01:00
Chris Palmer	d944198dc4	25mm fans are actually 25.4, i.e. 1".	2020-09-06 11:55:58 +01:00
Chris Palmer	04f2499a9e	Moved no_point(str) from belt.scad to global.scad	2020-09-06 11:51:33 +01:00
Chris Palmer	1eb8b378e9	Added magnets	2020-08-23 16:46:29 +01:00
Chris Palmer	362dbdb4fc	Opengrab hole position children now passed diameter.	2020-08-22 14:32:23 +01:00
Chris Palmer	57d223d84b	Added insert_nose_length()	2020-08-22 14:31:06 +01:00
Chris Palmer	699385342f	quadrant can now have different height and width if passed a vector.	2020-08-22 14:27:01 +01:00
Chris Palmer	547a418cea	Hanging hole now works when the hole has only four sides.	2020-08-22 13:52:25 +01:00
Chris Palmer	b6d25048bc	Fixed belt gap positioning and added ability to rotae it.	2020-08-22 11:16:56 +01:00
Chris Palmer	4cdab218d9	Fix belt positioning bug. Belt gap position is now relative to the pitch line. Added belt_pitch_to_back().	2020-08-22 09:45:13 +01:00
Chris Palmer	b6147e5684	Code formatting	2020-08-13 17:02:14 +01:00
Chris Palmer	966ba536ed	Fixed J-Head nozzle offset. Reduced J-Head inset. Removed J-Head MK4.	2020-08-13 12:44:17 +01:00
Chris Palmer	2419d50641	Added more PTFE tube sizes and amde them whiter.	2020-08-13 12:30:39 +01:00
Chris Palmer	02211c2034	Added tubing_or() and center option.	2020-08-13 11:56:53 +01:00
Chris Palmer	77d73b075d	Added opengrab_side_hole_positions()	2020-08-13 11:55:31 +01:00
Chris Palmer	cb54a3131b	Added USB-C connector, micro hdmi and RPI4.	2020-08-01 19:38:22 +01:00
Chris Palmer	3cf275579c	Fixed ball bearing chamfers.	2020-07-31 01:33:33 +01:00
Chris Palmer	fb41f218fe	Added involute_gear_od() function.	2020-07-28 21:24:01 +01:00
Chris Palmer	e6a26bc7b1	Changed some teardrop holes to teardrop plus.	2020-07-20 20:39:01 +01:00
Chris Palmer	cb4fa40643	Reimplemented teardrop_plus() again.	2020-07-20 16:55:55 +01:00
Chris Palmer	6a26903514	Added blog links for horiholes.	2020-07-18 23:53:15 +01:00
Chris Palmer	d08d949887	Corrected teardrop_plus() shape to be an accurate compensation for slicer staircasing and added a plus option to tearslot(), etc. Added horiholes.scad to depict staircase holes.	2020-07-18 19:28:26 +01:00
Chris Palmer	574a73e527	More spelling	2020-07-14 23:39:36 +01:00
Chris Palmer	87a35126de	Spelling.	2020-07-14 09:48:30 +01:00
Chris Palmer	1ca485b66b	Added involute_worm_profile() and involute_rack_tooth_profile() functions.	2020-07-14 09:47:45 +01:00
Chris Palmer	bc919529d3	Tweaks to thread. Better thread crest detection. No longer shrtens thread by eps (to avoid z fight) if all one colour. Comment about left hand threads.	2020-07-14 09:42:32 +01:00
Chris Palmer	9f4ed2b915	Fixed capitalisation of Swiss_clips.scad.	2020-07-12 00:27:26 +01:00
Chris Palmer	7ce055373a	Add rack to mesh with involute spur gears.	2020-07-07 22:36:34 +01:00
Chris Palmer	71ac571346	Added a utility for making involute spur gears	2020-07-06 23:22:11 +01:00
Chris Palmer	e4d93366fa	Added degrees, radians and rot2_z() to maths.scad.	2020-07-06 12:43:24 +01:00
Chris Palmer	f047ac27f7	Added SMR95 ball bearing	2020-07-04 17:30:26 +01:00
Chris Palmer	a9e479d971	Documented camera lens module.	2020-07-04 14:57:01 +01:00
Chris Palmer	47b01af1ea	Added RPI camera V2 Add cameras to lib.scad	2020-07-04 14:54:19 +01:00
Chris Palmer	fe19eba237	Tweaked flat_flex connectors.	2020-07-04 14:14:25 +01:00
Chris Palmer	235f7b86e3	Camera connector position and size separated. Camera_lens() module added.	2020-07-04 09:55:38 +01:00