Merge branch 'martinbudden-conditional_flip'

Added blower_exit_offset().
Fixed corner shape and exit dimensions.
Updated images and readme.

lib.scad

@@ -54,6 +54,7 @@ include <vitamins/ring_terminals.scad>
 include <vitamins/rails.scad>
 include <vitamins/rod.scad>
 include <vitamins/scs_bearing_blocks.scad>
+include <vitamins/shaft_couplings.scad>
 include <vitamins/sheets.scad>
 include <vitamins/sk_brackets.scad>
 include <vitamins/spools.scad>

libtest.scad

@@ -17,6 +17,23 @@
 // If not, see <https://www.gnu.org/licenses/>.
 //
 
+//!# NopSCADlib
+//! An ever expanding library of parts modelled in OpenSCAD useful for 3D printers and enclosures for electronics, etc.
+//!
+//! It contains lots of vitamins (the RepRap term for non-printed parts), some general purpose printed parts and some utilities.
+//! There are also Python scripts to generate Bills of Materials (BOMs),
+//! STL files for all the printed parts, DXF files for CNC routed parts in a project and a manual containing assembly
+//! instructions and exploded views by scraping markdown embedded in OpenSCAD comments, [see scripts](scripts/readme.md).
+//!
+//! A simple example project can be found [here](examples/MainsBreakOutBox/readme.md).
+//!
+//! For more examples of what it can make see the [gallery](gallery/readme.md).
+//!
+//! The license is GNU General Public License v3.0, see [COPYING](COPYING).
+//!
+//! See [usage](docs/usage.md) for requirements, installation instructions and a usage guide.
+//!
+//! <img src="libtest.png" width="100%"/>
 //
 // This file shows all the parts in the library.
 //
@@ -30,10 +47,12 @@ use <tests/bulldogs.scad>
 use <tests/buttons.scad>
 use <tests/cable_strips.scad>
 use <tests/cameras.scad>
+use <tests/camera_housing.scad>
 use <tests/circlips.scad>
 use <tests/components.scad>
 use <tests/d_connectors.scad>
 use <tests/displays.scad>
+use <tests/drag_chain.scad>
 use <tests/extrusions.scad>
 use <tests/extrusion_brackets.scad>
 use <tests/fans.scad>
@@ -68,6 +87,7 @@ use <tests/rod.scad>
 use <tests/screws.scad>
 use <tests/SCS_bearing_blocks.scad>
 use <tests/sealing_strip.scad>
+use <tests/shaft_couplings.scad>
 use <tests/sheets.scad>
 use <tests/SK_brackets.scad>
 use <tests/spades.scad>
@@ -346,6 +366,9 @@ translate([x3 + 170, veroboard_y + 16])
 translate([x3, d_connectors_y])
     d_connectors();
 
+translate([x3 + 170, d_connectors_y - 10])
+    camera_housings();
+
 translate([x3, iecs_y])
     iecs();
 
@@ -395,8 +418,12 @@ translate([x4 + 200, belts_y + 58]) {
 
     translate([0, 60])
         opengrab_test();
+
 }
 
+translate([x4 + 175, belts_y, -20])
+    drag_chains();
+
 translate([x4, rails_y + 130])
     rails();
 
@@ -412,6 +439,9 @@ translate([x4, sk_brackets_y])
 translate([x4, extrusion_brackets_y])
     extrusion_brackets();
 
+translate([x4 + 120, extrusion_brackets_y])
+    shaft_couplings();
+
 translate([x4, scs_bearing_blocks_y])
     scs_bearing_blocks();
 

printed/camera_housing.scad

@@ -0,0 +1,392 @@
+//
+// 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/>.
+//
+
+//
+//! Housings for PCB cameras.
+//
+include <../core.scad>
+include <../vitamins/cameras.scad>
+use <../vitamins/pcb.scad>
+use <../vitamins/insert.scad>
+
+wall = 1.75;
+min_wall = 2 * extrusion_width;
+clearance = 0.2;
+
+connector_size = [23, 6, 2.65]; // Worst case size of flat flex connector
+
+cam_back_clearance = round_to_layer(1.5);    // Clearance for components on the back of the pcb
+cam_back_overlap = 1;                        // How much the back overlaps the edge of the pcb
+cam_back_wall = min_wall;
+
+function cam_front_clearance(cam) = round_to_layer(camera_connector_size(cam).z + clearance);
+
+function cam_back_size(cam) = let(
+    pcb = camera_pcb(cam),
+    pcb_size = pcb_size(pcb),
+    nut = screw_nut(pcb_screw(pcb)),
+    holes = [for(h = pcb_holes(pcb)) pcb_coord(pcb, h).x],
+    pitch = max(holes) - min(holes),
+    length = pitch + 2 * (nut_radius(nut) + min_wall),
+    width = pcb_size.y + (length - pcb_size.x) * cos(30)
+    ) [length, width, wall + max(connector_size.z, cam_back_clearance + nut_trap_depth(nut))];
+
+
+function cam_front_size(cam) = cam_back_size(cam) + [ //! Outside dimensions of the case
+    2 * (wall + clearance),
+    2 * (wall + clearance),
+    pcb_thickness(camera_pcb(cam)) + cam_front_clearance(cam) + wall
+];
+
+hinge_screw = M2_cap_screw;
+hinge_nut = screw_nut(hinge_screw);
+hinge_screw_length = 12;
+
+hinge_r = nut_trap_radius(hinge_nut) + 3 * extrusion_width;
+hinge_h = wall + nut_trap_depth(hinge_nut);
+hinge_offset = hinge_r + 1;
+
+bracket_screw = M3_dome_screw;
+
+function cam_screw_length(cam) = let(
+    front = cam_front_size(cam),
+    screw = pcb_screw(camera_pcb(cam)),
+    nut = screw_nut(screw)
+    ) screw_longer_than(front.z + washer_thickness(screw_washer(screw)) - nut_trap_depth(nut) + nut_thickness(nut, true));
+
+function hinge_z(cam) = cam_screw_length(cam) - hinge_r;
+
+module cam_holes(cam) {
+    pcb = camera_pcb(cam);
+    lens_y = camera_lens_offset(cam).y;
+    two_holes = !!len([for (h = pcb_holes(pcb)) if(abs(pcb_coord(pcb, h).y - lens_y) < 1) true]);
+    pcb_screw_positions(pcb)                                                    // screw holes
+        if($i > 1 || !two_holes)
+            children();
+}
+
+module rpi_camera_focus_ring_stl() { //! Focus ring the glue onto RPI lens
+    stl("rpi_camera_focus_ring");
+
+    rad = 15 / 2;
+    hole_r1 = 2.5 / 2;
+    hole_r2 = 5 / 2;
+    thickness = 3;
+    flutes = 8;
+    angle = 180 / flutes;
+    x = rad / (sin(angle / 2) + cos(angle / 2));
+    r = x * sin(angle / 2);
+
+    difference() {
+        linear_extrude(height = thickness, convexity = 5)
+            difference() {
+                union() {
+                    circle(x);
+                    for(i = [0 : flutes - 1])
+                        rotate([0, 0, 2 * angle * i])
+                            translate([x, 0])
+                                circle(r);
+                }
+                for(i = [0 : flutes - 1])
+                    rotate([0, 0, 2 * angle * i + angle])
+                        translate([x, 0])
+                            circle(r);
+            }
+        hull() {
+            poly_cylinder(r = hole_r1, h = 0.1, center = true);
+
+            translate([0, 0, thickness])
+                poly_cylinder(r = hole_r2, h = 0.1, center = true);
+        }
+    }
+}
+
+module camera_back(cam) { //! Make the STL for a camera case back
+    stl(str("camera_back_", cam[0]));
+    pcb = camera_pcb(cam);
+    back = cam_back_size(cam);
+    screw = pcb_screw(pcb);
+    nut = screw_nut(screw);
+
+    translate_z(back.z)
+        hflip()
+            difference() {
+                translate_z(back.z / 2)
+                    cube(back, center = true);
+
+                translate([0, -cam_back_overlap])
+                    cube([pcb_length(pcb) - 2 * cam_back_overlap, pcb_width(pcb), 2 * cam_back_clearance], center = true);
+
+                translate([0, -pcb_width(pcb) / 2])
+                    cube([connector_size.x + 2 * clearance, 2 * connector_size.y + 1, 2 * round_to_layer(connector_size.z + clearance)], center = true);
+
+                translate_z(back.z)
+                    cam_holes(cam)
+                        hflip()
+                            nut_trap(screw, nut, supported = true);
+            }
+}
+
+module camera_front(cam, hinge = 0) { //! Make the STL for a camera case front
+    stl(str("camera_front_", cam[0]));
+    front = cam_front_size(cam);
+    back = cam_back_size(cam);
+    pcb = camera_pcb(cam);
+    pcb_size = pcb_size(pcb);
+    lens_offset = camera_lens_offset(cam);
+    screw = pcb_screw(pcb);
+
+    shelf = front.z - back.z;
+
+    connector_slot = connector_size + 2 * [clearance, 0, layer_height];
+    rad = wall;
+    led_hole_r = 1;
+    led_clearance = [5,   2, 1 * 2];
+    res_clearance = [3.5, 2, 1 * 2];
+
+    conn_pos = camera_connector_pos(cam);
+    conn = camera_connector_size(cam);
+    sensor_length = conn_pos.y + conn.y / 2 - lens_offset.y + clearance;
+
+    module hinge_pos()
+        if(!is_undef(hinge))
+            rotate(hinge * 90)
+                translate([0, (hinge ? front.x * hinge : front.y) / 2 + hinge_offset, hinge_r])
+                    children();
+
+    difference() {
+        union() {
+            hull()
+                for(x = [-1, 1], y = [-1, 1])
+                    translate([x * (front.x / 2 - rad), y * (front.y / 2 - rad)])
+                        hull() {    // 3D truncated teardrop gives radiused edges without exceeding 45 degree overhang
+                            translate_z(front.z - 1)
+                                cylinder(r = rad, h = 1);
+
+                            translate_z(rad)
+                                sphere(rad);
+
+                            cylinder(r = rad * (sqrt(2) - 1), h = eps);
+                        }
+
+            hinge_pos()
+                hull() {
+                    rotate([-90, 0, -90])
+                        teardrop(r = hinge_r, h = hinge_h, center = false);
+
+                    translate([0, -10, -hinge_r])
+                        cube([hinge_h, eps, 2 * hinge_r]);
+                }
+        }
+
+        hinge_pos()
+            rotate([90, 0, 90])
+                teardrop_plus(r = screw_clearance_radius(hinge_screw), h = 100, center = true);
+
+        translate_z(front.z / 2 + shelf - layer_height)                                 // recess for the back
+            cube([back.x + 2 * clearance, back.y + 2 * clearance, front.z], center = true);
+
+        translate_z(front.z / 2 + shelf - pcb_size.z)                                   // recess for PCB
+            cube([pcb_size.x + 2 * clearance, pcb_size.y + 2 * clearance, front.z], center = true);
+
+        translate_z(shelf)
+            hflip() {
+                pcb_component_position(pcb, "smd_led")                                  // clearance for LED
+                    cube(led_clearance, center = true);
+
+                pcb_component_position(pcb, "smd_res")                                  // clearance for resistor
+                    cube(res_clearance, center = true);
+            }
+
+        translate([conn_pos.x, lens_offset.y + sensor_length / 2, shelf - pcb_size.z])  // clearance for sensor connector
+            cube([conn.x + 2 * clearance, sensor_length, 2 * cam_front_clearance(cam)], center = true);
+
+        translate([0, -front.y / 2, shelf + front.z / 2])                               // slot for connector
+            cube([connector_slot.x, connector_slot.y, front.z], center = true);
+
+        translate_z(cam_back_clearance + layer_height)
+            cam_holes(cam)
+                rotate(90)
+                    poly_cylinder(r = screw_clearance_radius(screw), h = 100, center = true);
+
+        translate_z(shelf - pcb_size.z)
+            hflip()
+                camera_lens(cam, clearance);
+
+        hflip()
+            pcb_component_position(pcb, "smd_led")
+                rotate(45)
+                    poly_cylinder(r = led_hole_r, h = 100, center = true);              // hole for led
+    }
+}
+
+function bracket_thickness(cam) = max(wall, min(3.5, hinge_z(cam) - hinge_r - 1));
+
+module camera_bracket_screw_positions(cam) { //! Position children at the bracket screw positions
+    r = washer_radius(screw_washer(bracket_screw)) + 0.5;
+    wide = bracket_thickness(cam) == wall;
+    pitch = wide ? cam_front_size(cam).x / 2 - r : hinge_h + 1 + r;
+
+    for(side = [-1, 1])
+        translate([side * pitch, 0])
+            children();
+}
+
+module camera_bracket_position(cam) //! Position children at the bracket position
+    translate([0,  cam_front_size(cam).y / 2 + hinge_offset])
+        children();
+
+module camera_bracket(cam) { //! Make the STL for the camera bracket
+    stl(str("camera_bracket_", cam[0]));
+
+    t = bracket_thickness(cam);
+    z = hinge_z(cam);
+    translate([hinge_h / 2, 0])
+        difference() {
+            hull() {
+                translate_z(eps / 2)
+                    cube([hinge_h, 2 * hinge_r, eps], center = true);
+
+                translate_z(z)
+                    rotate([0, 90, 0])
+                        cylinder(r = hinge_r, h = hinge_h, center = true);
+            }
+            translate([hinge_h / 2, 0, z])
+                rotate([90, 0, 90])
+                    nut_trap(hinge_screw, screw_nut(hinge_screw), horizontal = true);
+        }
+
+    linear_extrude(t)
+        difference() {
+            hull()
+                camera_bracket_screw_positions(cam)
+                    circle(washer_radius(screw_washer(bracket_screw)) + 0.5);
+
+            camera_bracket_screw_positions(cam)
+                poly_circle(screw_clearance_radius(bracket_screw));
+        }
+}
+
+module camera_assembly(cam, angle = 0) //! Camera case assembly
+assembly(str("camera_", cam[0])) {
+    front = cam_front_size(cam);
+    screw = pcb_screw(camera_pcb(cam));
+    nut = screw_nut(screw);
+    screw_length = cam_screw_length(cam);
+    hinge_z = hinge_z(cam);
+    hinge_pos = [0, front.y / 2  + hinge_offset, -hinge_r];
+
+    camera_bracket_position(cam) {
+        nut = screw_nut(hinge_screw);
+
+        stl_colour(pp1_colour) render()
+            camera_bracket(cam);
+
+        translate([-hinge_h, 0, hinge_z(cam)])
+            rotate([-90, 0, 90]) {
+                vflip()
+                    translate_z(2 * hinge_h - nut_trap_depth(nut))
+                        nut(nut, true);
+
+                screw_and_washer(hinge_screw, screw_longer_than(2 * hinge_h));
+            }
+    }
+
+    translate_z(hinge_z(cam) + hinge_r)
+        translate(hinge_pos)
+            rotate([-angle, 0, 0])
+                translate(-hinge_pos) {
+                    translate_z(cam_back_size(cam).z - front.z)
+                        camera(cam);
+
+                    stl_colour(pp1_colour) render()
+                        translate_z(-front.z)
+                            camera_back(cam);
+
+                    cam_holes(cam) {
+                        screw_and_washer(screw, screw_length);
+
+                        translate_z(-front.z + nut_trap_depth(nut))
+                            vflip()
+                                nut(nut, true);
+                    }
+
+                    *translate(camera_lens_offset(cam))
+                        translate_z(1.5)
+                            stl_colour(pp1_colour) render()
+                                rpi_camera_focus_ring_stl();
+
+                    stl_colour(pp2_colour) render()
+                        hflip()
+                            camera_front(cam, 0);
+                }
+}
+
+module camera_fastened_assembly(cam, thickness, angle = 0) {
+    camera_assembly(cam, angle);
+
+    camera_bracket_position(cam)
+        camera_bracket_screw_positions(cam) {
+            nut = screw_nut(bracket_screw);
+            washer = screw_washer(bracket_screw);
+            t = bracket_thickness(cam);
+            screw_length = screw_longer_than(thickness + t + nut_thickness(nut, true) + 2 * washer_thickness(washer));
+            vflip()
+                translate_z(thickness)
+                    screw_and_washer(bracket_screw, screw_length);
+
+            translate_z(t)
+                nut_and_washer(nut, true);
+        }
+}
+
+module camera_back_rpi_camera_stl()    camera_back(rpi_camera);
+module camera_back_rpi_camera_v1_stl() camera_back(rpi_camera_v1);
+module camera_back_rpi_camera_v2_stl() camera_back(rpi_camera_v2);
+
+module camera_front_rpi_camera_stl()    camera_front(rpi_camera);
+module camera_front_rpi_camera_v1_stl() camera_front(rpi_camera_v1);
+module camera_front_rpi_camera_v2_stl() camera_front(rpi_camera_v2);
+
+module camera_bracket_rpi_camera_stl()    camera_bracket(rpi_camera);
+module camera_bracket_rpi_camera_v1_stl() camera_bracket(rpi_camera_v1);
+module camera_bracket_rpi_camera_v2_stl() camera_bracket(rpi_camera_v2);
+
+module camera_rpi_camera_assembly()    camera_assembly(rpi_camera);
+module camera_rpi_camera_v1_assembly() camera_assembly(rpi_camera_v1);
+module camera_rpi_camera_v2_assembly() camera_assembly(rpi_camera_v2);
+
+module camera_housing(cam) {
+    front = cam_front_size(cam);
+
+    camera_front(cam, 0);
+
+    translate([front.x, 0])
+        camera_back(cam);
+
+    translate([-front.x / 2 - 2 - hinge_r, 0])
+        rotate(90)
+            camera_bracket(cam);
+}
+
+cam = rpi_camera_v2;
+if($preview)
+    camera_fastened_assembly(cam, 3);
+else
+    camera_housing(cam);

printed/drag_chain.scad

@@ -0,0 +1,285 @@
+//
+// 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/>.
+//
+
+//
+//! Parametric cable drag chain to limit the bend radius of a cable run.
+//!
+//! Each link has a maximum bend angle of 45&deg;, so the mininium radius is proportional to the link length.
+//!
+//! The travel property is how far it can move in each direction, i.e. half the maximum travel if the chain is mounted in the middle of the travel.
+//
+
+include <../core.scad>
+use <../utils/horiholes.scad>
+use <../utils/maths.scad>
+
+function drag_chain_name(type)        = type[0]; //! The name to allow more than one in a project
+function drag_chain_size(type)        = type[1]; //! The internal size and link length
+function drag_chain_travel(type)      = type[2]; //! X travel
+function drag_chain_wall(type)        = type[3]; //! Side wall thickness
+function drag_chain_bwall(type)       = type[4]; //! Bottom wall
+function drag_chain_twall(type)       = type[5]; //! Top wall
+function drag_chain_screw(type)       = type[6]; //! Mounting screw for the ends
+function drag_chain_screw_lists(type) = type[7]; //! Two lists of four bools to say which screws positions are used
+
+function drag_chain_radius(type) = //! The bend radius at the pivot centres
+    let(s = drag_chain_size(type))
+        s.x / 2 / sin(360 / 16);
+
+function drag_chain_z(type) = //! Outside dimension of a 180 bend
+    let(os = drag_chain_outer_size(type), s = drag_chain_size(type))
+        2 * drag_chain_radius(type) + os.z;
+
+function drag_chain(name, size, travel, wall = 1.6, bwall = 1.5, twall = 1.5, screw = M2_cap_screw, screw_lists = [[1,0,0,1],[1,0,0,1]]) = //! Constructor
+    [name, size, travel, wall, bwall, twall, screw, screw_lists];
+
+clearance = 0.1;
+
+function drag_chain_outer_size(type) =     //! Link outer dimensions
+    let(s = drag_chain_size(type), z = s.z + drag_chain_bwall(type) + drag_chain_twall(type))
+        [s.x + z, s.y + 4 * drag_chain_wall(type) + 2 * clearance, z];
+
+function screw_lug_radius(screw) = //! Radius if a screw lug
+    corrected_radius(screw_clearance_radius(screw)) + 3.1 * extrusion_width;
+
+module screw_lug(screw, h = 0) //! Create a D shaped lug for a screw
+    extrude_if(h, center = false)
+        difference() {
+            r = screw_lug_radius(screw);
+            hull() {
+                circle4n(r);
+
+                translate([-r, -r])
+                    square([2 * r, eps]);
+            }
+            poly_circle(screw_clearance_radius(screw));
+        }
+
+function bool2int(b) = b ? 1 : 0;
+
+module drag_chain_screw_positions(type, end) {//! Place children at the screw positions, end = 0 for the start, 1 for the end
+    r = screw_lug_radius(drag_chain_screw(type));
+    s = drag_chain_size(type);
+    os = drag_chain_outer_size(type);
+    R = os.z / 2;
+    x0 = end ? R + norm([drag_chain_cam_x(type), R - drag_chain_twall(type)]) + clearance + r : r;
+    x1 = end ? os.x - r : os.x - 2 * R - clearance - r;
+    for(i = [0 : 3]) {
+        x = i % 2;
+        y = bool2int(i > 1);
+        if(drag_chain_screw_lists(type)[bool2int(end)][i])
+            translate([(x0 + x1) / 2, 0])
+                mirror([x, 0])
+                    mirror([0, y])
+                        translate([(x1 - x0) / 2,  s.y / 2 + r])
+                            children();
+    }
+}
+
+function drag_chain_cam_x(type) = // how far the cam sticks out
+    let(s = drag_chain_size(type),
+        r =  drag_chain_outer_size(type).z / 2,
+        wall =  drag_chain_wall(type),
+        cam_r = s.x - 2 * clearance - wall - r,  // inner_x_normal - clearance - r
+        twall = drag_chain_twall(type)
+    )   min(sqrt(max(sqr(cam_r) - sqr(r - twall), 0)), r);
+
+
+module drag_chain_link(type, start = false, end = false) { //! One link of the chain, special case for start and end
+    stl(str(drag_chain_name(type), "_drag_chain_link", start ? "_start" : end ? "_end" : ""));
+
+    s = drag_chain_size(type);
+    wall = drag_chain_wall(type);
+    bwall = drag_chain_bwall(type);
+    twall = drag_chain_twall(type);
+    os = drag_chain_outer_size(type);
+    r = os.z / 2;
+    pin_r = r / 2;
+
+    socket_x = r;
+    pin_x = socket_x + s.x;
+
+    outer_normal_x =  pin_x - r - clearance;     // s.x - clearance
+    outer_end_x = end ? os.x : outer_normal_x;
+
+    inner_x = start ? 0 : outer_normal_x - wall; // s.x - clearance - wall
+
+    roof_x_normal = 2 * r - twall;
+    roof_x = start ? 0 : roof_x_normal;
+
+    floor_x = start ? 0 : 2 * r;
+    cam_x = drag_chain_cam_x(type);
+    assert(r + norm([drag_chain_cam_x(type), r - drag_chain_twall(type)]) + clearance <= inner_x || start, "Link must be longer");
+
+    difference() {
+        union() {
+            for(side = [-1, 1])
+                rotate([90, 0, 0]) {
+                    // Outer cheeks
+                    translate_z(side * (os.y / 2 - wall / 2))
+                        linear_extrude(wall, center = true)
+                            difference() {
+                                hull() {
+                                    if(start)
+                                        square([eps, os.z]);
+                                    else
+                                        translate([socket_x, r])
+                                            rotate(180)
+                                                teardrop(r = r, h = 0);
+
+                                    translate([outer_end_x - eps, 0])
+                                        square([eps, os.z]);
+                                }
+                                if(!start)
+                                    translate([socket_x, r])
+                                        horihole(pin_r, r);
+                            }
+                    // Inner cheeks
+                    translate_z(side * (s.y / 2 + wall / 2))
+                        linear_extrude(wall, center = true)
+                            difference() {
+                                union() {
+                                    hull() {
+                                        if(!end) {
+                                            translate([pin_x, r])
+                                                rotate(180)
+                                                    teardrop(r = r, h = 0);
+
+                                            translate([pin_x, twall])
+                                                square([cam_x, eps]);
+                                        }
+                                        else
+                                            translate([os.x - eps, 0])
+                                                square([eps, os.z]);
+
+                                        translate([inner_x, 0])
+                                            square([eps, os.z]);
+                                    }
+                                }
+                                // Cutout for top wall
+                                if(!end)
+                                    intersection() {
+                                        translate([pin_x - r, 0])
+                                            square([3 * r, twall]);  // When straight
+
+                                        translate([pin_x, r])
+                                             rotate(-45)
+                                                translate([-r + roof_x_normal, -r - twall]) // When bent fully
+                                                    square(os.z);
+                                    }
+                            }
+                    // Pin
+                    if(!end)
+                        translate([pin_x, r, side * (s.y / 2 + wall + clearance)])
+                            horicylinder(r = pin_r, z = r, h = 2 * wall);
+
+                    // Cheek joint
+                    translate([inner_x, 0, side * (s.y / 2 + wall) - 0.5])
+                        cube([outer_end_x - inner_x, os.z, 1]);
+                }
+
+            // Roof, actually the floor when printed
+            roof_end = end ? s.x + 2 * r : s.x + r - twall - clearance;
+            translate([roof_x, -s.y / 2 - 0.5])
+                cube([roof_end - roof_x , s.y + 1, twall]);
+
+            translate([roof_x, -os.y / 2 + 0.5])
+                cube([s.x - clearance - roof_x, os.y - 1, twall]);
+
+            // Floor, actually the roof when printed
+            floor_end = end ? s.x + 2 * r : s.x + r;
+            translate([floor_x, -s.y / 2 - wall, os.z - bwall])
+                cube([floor_end - floor_x, s.y + 2 * wall, bwall]);
+
+            translate([floor_x, -os.y / 2 + 0.5,  os.z - bwall])
+                cube([s.x - floor_x - clearance, os.y -1, bwall]);
+
+            if(start || end)
+                drag_chain_screw_positions(type, end)
+                    screw_lug(drag_chain_screw(type), os.z);
+        }
+        if(start || end)
+            translate_z(-eps)
+                drag_chain_screw_positions(type, end)
+                    poly_cylinder(r = screw_clearance_radius(drag_chain_screw(type)), h = os.z + 2 * eps, center = false);
+
+    }
+
+    if(show_supports() && !end) {
+        for(side = [-1, 1]) {
+            w = 2.1 * extrusion_width;
+            translate([s.x + r + cam_x - w / 2, side * (s.y / 2 + wall / 2), twall / 2])
+                cube([w, wall, twall], center = true);
+
+            h = round_to_layer(r - pin_r / sqrt(2));
+            y = s.y / 2  + max(wall + w / 2 + clearance, 2 * wall + clearance - w / 2);
+            translate([s.x + r, side * y, h / 2])
+                cube([pin_r * sqrt(2), w, h], center = true);
+
+            gap = cam_x - pin_r / sqrt(2) + extrusion_width;
+            translate([s.x + r + cam_x - gap / 2, side * (s.y / 2 + wall + clearance / 2), layer_height / 2])
+                cube([gap, 2 * wall + clearance, layer_height], center = true);
+        }
+    }
+}
+
+//! 1. Remove the support material from the links with side cutters.
+//! 1. Clip the links together with the special ones at the ends.
+module drag_chain_assembly(type, pos = 0) { //! Drag chain assembly
+    s = drag_chain_size(type);
+    r = drag_chain_radius(type);
+    travel = drag_chain_travel(type);
+    links = ceil(travel / s.x);
+    actual_travel = links * s.x;
+    z = drag_chain_outer_size(type).z;
+
+    zb = z / 2;                                     // z of bottom track
+    c = [actual_travel / 2 + pos / 2, 0, r + zb];   // centre of bend
+
+    points = [                                      // Calculate list of hinge points
+        for(i = 0, p = [0, 0, z / 2 + 2 * r]; i < links + 5;
+            i = i + 1,
+            dx = p.z > c.z ? s.x : -s.x,
+            p = max(p.x + dx, p.x) <= c.x ? p + [dx, 0, 0]      // Straight sections
+                  : let(q = circle_intersect(p, s.x, c, r))
+                        q.x <= c.x ? [p.x - sqrt(sqr(s.x) - sqr(p.z - zb)), 0, zb] // Transition back to straight
+                                   : q) // Circular section
+        p
+    ];
+    npoints = len(points);
+
+    module link(n)                                  // Position and colour link with origin at the hinge hole
+        translate([-z / 2, 0, -z / 2])
+            stl_colour(n % 2 ? pp1_colour : pp2_colour)
+                drag_chain_link(type, start = n == -1, end = n == npoints - 1);
+
+    assembly(str(drag_chain_name(type), "_drag_chain")) {
+        for(i = [0 : npoints - 2]) let(v = points[i+1] - points[i])
+            translate(points[i])
+                rotate([0, -atan2(v.z, v.x), 0])
+                    link(i);
+
+        translate(points[0] - [s.x, 0, 0])
+            link(-1);
+
+        translate(points[npoints - 1])
+            hflip()
+                link(npoints - 1);
+    }
+}

printed/ribbon_clamp.scad

@@ -117,9 +117,13 @@ module ribbon_clamp_fastened_assembly(ways, thickness, screw = screw) { //! Clam
 
 module ribbon_clamp_20_stl() ribbon_clamp(20);
 module ribbon_clamp_8_2_stl() ribbon_clamp(8, M2_dome_screw);
+module ribbon_clamp_7_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°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°C.
 module ribbon_clamp_8_2_assembly() ribbon_clamp_assembly(8, M2_dome_screw);
+
+//! * Place inserts into the holes and press home with a soldering iron with a conical bit heated to 200°C.
+module ribbon_clamp_7_2_assembly() ribbon_clamp_assembly(8, M2_dome_screw);

readme.md

@@ -1,10 +1,12 @@
 # NopSCADlib
 An ever expanding library of parts modelled in OpenSCAD useful for 3D printers and enclosures for electronics, etc.
 
-It contains lots of vitamins (the RepRap term for non-printed parts), some general purpose printed parts and
-some utilities. There are also Python scripts to generate Bills of Materials (BOMs),
- STL files for all the printed parts, DXF files for CNC routed parts in a project and a manual containing assembly
-instructions and exploded views by scraping markdown embedded in OpenSCAD comments, [see scripts](scripts/readme.md). A simple example project can be found [here](examples/MainsBreakOutBox/readme.md).
+It contains lots of vitamins (the RepRap term for non-printed parts), some general purpose printed parts and some utilities.
+There are also Python scripts to generate Bills of Materials (BOMs),
+STL files for all the printed parts, DXF files for CNC routed parts in a project and a manual containing assembly
+instructions and exploded views by scraping markdown embedded in OpenSCAD comments, [see scripts](scripts/readme.md).
+
+A simple example project can be found [here](examples/MainsBreakOutBox/readme.md).
 
 For more examples of what it can make see the [gallery](gallery/readme.md).
 
@@ -21,27 +23,28 @@ See [usage](docs/usage.md) for requirements, installation instructions and a usa
 <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 = "#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>
+<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 = "#Camera_housing">Camera_housing</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 = "#Carriers">Carriers</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 = "#Corner_block">Corner_block</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_hinge">Door_hinge</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 = "#Door_latch">Door_latch</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 = "#Drag_chain">Drag_chain</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 = "#Fan_guard">Fan_guard</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 = "#Shaft_couplings">Shaft_couplings</a> </td><td> <a href = "#Fixing_block">Fixing_block</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 = "#Sheets">Sheets</a> </td><td> <a href = "#Flat_hinge">Flat_hinge</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 = "#Spades">Spades</a> </td><td> <a href = "#Foot">Foot</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 = "#Spools">Spools</a> </td><td> <a href = "#Handle">Handle</a> </td><td> <a href = "#Rounded_cylinder">Rounded_cylinder</a> </td><td></td></tr>
+<tr><td> <a href = "#Extrusion_brackets">Extrusion_brackets</a> </td><td> <a href = "#O_ring">O_ring</a> </td><td> <a href = "#Springs">Springs</a> </td><td> <a href = "#PCB_mount">PCB_mount</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 = "#Stepper_motors">Stepper_motors</a> </td><td> <a href = "#PSU_shroud">PSU_shroud</a> </td><td> <a href = "#Sector">Sector</a> </td><td></td></tr>
+<tr><td> <a href = "#Fans">Fans</a> </td><td> <a href = "#PCB">PCB</a> </td><td> <a href = "#Swiss_clips">Swiss_clips</a> </td><td> <a href = "#Printed_box">Printed_box</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 = "#Toggles">Toggles</a> </td><td> <a href = "#Ribbon_clamp">Ribbon_clamp</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 = "#Transformers">Transformers</a> </td><td> <a href = "#SSR_shroud">SSR_shroud</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 = "#Tubings">Tubings</a> </td><td> <a href = "#Screw_knob">Screw_knob</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Hot_ends">Hot_ends</a> </td><td> <a href = "#Pillars">Pillars</a> </td><td> <a href = "#Variacs">Variacs</a> </td><td> <a href = "#Socket_box">Socket_box</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#Hygrometer">Hygrometer</a> </td><td> <a href = "#Pin_headers">Pin_headers</a> </td><td> <a href = "#Veroboard">Veroboard</a> </td><td> <a href = "#Strap_handle">Strap_handle</a> </td><td></td><td></td></tr>
+<tr><td> <a href = "#IECs">IECs</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 = "#Inserts">Inserts</a> </td><td></td><td> <a href = "#Wire">Wire</a> </td><td></td><td></td><td></td></tr>
+<tr><td></td><td></td><td> <a href = "#Zipties">Zipties</a> </td><td></td><td></td><td></td></tr>
 </table>
 
 ---
@@ -205,7 +208,7 @@ exposing enough information to make a battery box.
 <a name="Belts"></a>
 ## Belts
 Models timing belt running over toothed or smooth pulleys and calculates an accurate length.
-Only models 2D paths, so not core XY!
+Only models 2D paths, so not crossed belt 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.
 
@@ -247,15 +250,16 @@ 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])``` |  Belt GT2 x 6mm x 696mm |
+|   2 | ```belt(GT2x6, [ ... ], 80, [0, 0])``` |  Belt GT2 x 6mm x 572mm |
 |   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 |
-|   1 | ```insert(F1BM3)``` |  Heatfit insert M3 |
-|   2 | ```pulley(GT2x20_toothed_idler)``` |  Pulley GT2 idler 20 teeth |
+|   2 | ```insert(F1BM3)``` |  Heatfit insert M3 |
+|   2 | ```pulley(GT2x16_toothed_idler)``` |  Pulley GT2 idler 16 teeth |
+|   4 | ```pulley(GT2x20_toothed_idler)``` |  Pulley GT2 idler 20 teeth |
 |   2 | ```pulley(GT2x16_plain_idler)``` |  Pulley GT2 idler smooth 9.63mm |
 |   2 | ```pulley(GT2x20ob_pulley)``` |  Pulley GT2OB 20 teeth |
-|   1 | ```screw(M3_cs_cap_screw, 20)``` |  Screw M3 cs cap x 20mm |
+|   2 | ```screw(M3_cs_cap_screw, 20)``` |  Screw M3 cs cap x 20mm |
 |   4 | ```screw(M3_grub_screw, 6)``` |  Screw M3 grub x  6mm |
 
 
@@ -292,11 +296,18 @@ Models of radial blowers.
 | ```blower_wall(type)``` | Side wall thickness |
 | ```blower_width(type)``` | Width of enclosing rectangle |
 
+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```blower_casing_is_square(type)``` | True for square radial fans, false for spiral shape radial blowers |
+| ```blower_exit_offset(type)``` | Offset of exit's centre from the edge |
+
 ### Modules
 | Module | Description |
 |:--- |:--- |
 | ```blower(type)``` | Draw specified blower |
 | ```blower_hole_positions(type)``` | Translate children to screw hole positions |
+| ```blower_square(type)``` | Draw a square blower |
 
 ![blowers](tests/png/blowers.png)
 
@@ -305,8 +316,11 @@ Models of radial blowers.
 | ---:|:--- |:---|
 |   1 | ```blower(PE4020)``` |  Blower Pengda Technology 4020 |
 |   1 | ```blower(RB5015)``` |  Blower Runda RB5015 |
+|   4 | ```screw(M2_cap_screw, 8)``` |  Screw M2 cap x  8mm |
 |   3 | ```screw(M3_cap_screw, 20)``` |  Screw M3 cap x 20mm |
 |   2 | ```screw(M4_cap_screw, 25)``` |  Screw M4 cap x 25mm |
+|   1 | ```blower(BL40x10)``` |  Square radial 4010 |
+|   4 | ```washer(M2_washer)``` |  Washer  M2 x 5mm x 0.3mm |
 |   3 | ```washer(M3_washer)``` |  Washer  M3 x 7mm x 0.5mm |
 |   2 | ```washer(M4_washer)``` |  Washer  M4 x 9mm x 0.8mm |
 
@@ -754,6 +768,7 @@ LCD dispays.
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
+|   1 | ```display(BigTreeTech_TFT35v3_0)``` |  BigTreeTech TFT35 v3.0 |
 |   1 | ```display(HDMI5)``` |  HDMI display 5" |
 |   1 | ```display(LCD1602A)``` |  LCD display 1602A |
 |   1 | ```display(LCDS7282B)``` |  LCD display S-7282B |
@@ -1102,7 +1117,7 @@ Needs updating as mostly obsolete versions.
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0])``` | Draw specified hot end |
+| ```hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0], bowden = false)``` | Draw specified hot end |
 
 ![hot_ends](tests/png/hot_ends.png)
 
@@ -2463,12 +2478,17 @@ Pin headers and sockets, etc.
 | Function | Description |
 |:--- |:--- |
 | ```hdr_base_colour(type)``` | Header insulator colour |
+| ```hdr_box_size(type)``` | Box header outside dimensions |
+| ```hdr_box_wall(type)``` | Box header wall thickness |
 | ```hdr_pin_below(type)``` | Header pin length underneath |
 | ```hdr_pin_colour(type)``` | Header pin colour |
 | ```hdr_pin_length(type)``` | Header pin length |
 | ```hdr_pin_width(type)``` | Header pin size |
 | ```hdr_pitch(type)``` | Header pitch |
+| ```hdr_ra_box_offset(type)``` | Offset between back of the box and the pins |
+| ```hdr_ra_height(type)``` | Height of right angle connector |
 | ```hdr_socket_depth(type)``` | Socket depth for female housing |
+| ```hdr_y_offset(type)``` | Y offset of pins from center of the box |
 
 ### Modules
 | Module | Description |
@@ -2635,6 +2655,7 @@ Timing belt pulleys, both toothed and plain with internal bearings for idlers.
 |   1 | ```pulley(GT2x20_toothed_idler)``` |  Pulley GT2 idler 20 teeth |
 |   1 | ```pulley(GT2x20_plain_idler)``` |  Pulley GT2 idler smooth 12mm |
 |   1 | ```pulley(GT2x16_plain_idler)``` |  Pulley GT2 idler smooth 9.63mm |
+|   1 | ```pulley(GT2x16x7_plain_idler)``` |  Pulley GT2 idler smooth 9.63mm |
 |   1 | ```pulley(GT2x20ob_pulley)``` |  Pulley GT2OB 20 teeth |
 |   1 | ```pulley(GT2x12_pulley)``` |  Pulley GT2RD 12 teeth |
 |   1 | ```pulley(GT2x20um_pulley)``` |  Pulley GT2UM 20 teeth |
@@ -3046,6 +3067,41 @@ Sealing strip from B&Q used to seal around the door of 3D printers.
 |   1 | ```sealing_strip(100)``` |  Sealing strip 10mm x 4mm x 100mm |
 
 
+<a href="#top">Top</a>
+
+---
+<a name="Shaft_couplings"></a>
+## Shaft_couplings
+Shaft couplings
+
+
+[vitamins/shaft_couplings.scad](vitamins/shaft_couplings.scad) Object definitions.
+
+[vitamins/shaft_coupling.scad](vitamins/shaft_coupling.scad) Implementation.
+
+[tests/shaft_couplings.scad](tests/shaft_couplings.scad) Code for this example.
+
+### Properties
+| Function | Description |
+|:--- |:--- |
+| ```sc_diameter(type)``` | Coupling outer diameter |
+| ```sc_diameter1(type)``` | Diameter of smaller shaft |
+| ```sc_diameter2(type)``` | Diameter of larger shaft |
+| ```sc_length(type)``` | Coupling length |
+
+### Modules
+| Module | Description |
+|:--- |:--- |
+| ```shaft_coupling(type, colour = "silver")``` | Draw the shaft coupling |
+
+![shaft_couplings](tests/png/shaft_couplings.png)
+
+### Vitamins
+| Qty | Module call | BOM entry |
+| ---:|:--- |:---|
+|   1 | ```shaft_coupling(SC_5x8_rigid)``` |  Shaft coupling SC_5x8_rigid |
+
+
 <a href="#top">Top</a>
 
 ---
@@ -3406,6 +3462,7 @@ NEMA stepper motor model.
 | ```NEMA_body_radius(type)``` | Body radius |
 | ```NEMA_boss_height(type)``` | Boss height |
 | ```NEMA_boss_radius(type)``` | Boss around the spindle radius |
+| ```NEMA_cap_heights(type)``` | Height of the end cap at the corner and the side |
 | ```NEMA_hole_pitch(type)``` | Screw hole pitch |
 | ```NEMA_length(type)``` | Body length |
 | ```NEMA_radius(type)``` | End cap radius |
@@ -3422,7 +3479,7 @@ NEMA stepper motor model.
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```NEMA(type, shaft_angle = 0)``` | Draw specified NEMA stepper motor |
+| ```NEMA(type, shaft_angle = 0, jst_connector = false)``` | Draw specified NEMA stepper motor |
 | ```NEMA_outline(type)``` | 2D outline |
 | ```NEMA_screw_positions(type, n = 4)``` | Positions children at the screw holes |
 | ```NEMA_screws(type, screw, n = 4, screw_length = 8, earth = undef)``` | Place screws and optional earth tag |
@@ -3644,6 +3701,7 @@ Tubing and sleeving. The internal diameter can be forced to stretch it over some
 ### Vitamins
 | Qty | Module call | BOM entry |
 | ---:|:--- |:---|
+|   1 | ```tubing(CBNFIB10)``` |  Carbon fiber OD 10mm ID 8mm x 15mm |
 |   1 | ```tubing(HSHRNK16)``` |  Heatshrink sleeving ID 1.6mm x 15mm |
 |   1 | ```tubing(HSHRNK100)``` |  Heatshrink sleeving ID 10mm x 15mm |
 |   1 | ```tubing(HSHRNK24)``` |  Heatshrink sleeving ID 2.4mm x 15mm |
@@ -4215,6 +4273,72 @@ of conductive panels, an extra layer of insulation.
 |   1 | round_grommet_top_60_3.stl |
 
 
+<a href="#top">Top</a>
+
+---
+<a name="Camera_housing"></a>
+## Camera_housing
+Housings for PCB cameras.
+
+
+[printed/camera_housing.scad](printed/camera_housing.scad) Implementation.
+
+[tests/camera_housing.scad](tests/camera_housing.scad) Code for this example.
+
+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```cam_front_size(cam)``` | Outside dimensions of the case |
+
+### Modules
+| Module | Description |
+|:--- |:--- |
+| ```camera_assembly(cam, angle = 0)``` | Camera case assembly |
+| ```camera_back(cam)``` | Make the STL for a camera case back |
+| ```camera_bracket(cam)``` | Make the STL for the camera bracket |
+| ```camera_bracket_position(cam)``` | Position children at the bracket position |
+| ```camera_bracket_screw_positions(cam)``` | Position children at the bracket screw positions |
+| ```camera_front(cam, hinge = 0)``` | Make the STL for a camera case front |
+| ```rpi_camera_focus_ring_stl()``` | Focus ring the glue onto RPI lens |
+
+![camera_housing](tests/png/camera_housing.png)
+
+### Vitamins
+| Qty | Module call | BOM entry |
+| ---:|:--- |:---|
+|   7 | ```nut(M2_nut, nyloc = true)``` |  Nut M2 x 1.6mm nyloc |
+|  10 | ```nut(M3_nut, nyloc = true)``` |  Nut M3 x 2.4mm nyloc |
+|   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 |
+|   7 | ```screw(M2_cap_screw, 10)``` |  Screw M2 cap x 10mm |
+|   4 | ```screw(M3_cap_screw, 16)``` |  Screw M3 cap x 16mm |
+|   4 | ```screw(M3_dome_screw, 10)``` |  Screw M3 dome x 10mm |
+|   2 | ```screw(M3_dome_screw, 12)``` |  Screw M3 dome x 12mm |
+|   7 | ```washer(M2_washer)``` |  Washer  M2 x 5mm x 0.3mm |
+|  16 | ```washer(M3_washer)``` |  Washer  M3 x 7mm x 0.5mm |
+
+### Printed
+| Qty | Filename |
+| ---:|:--- |
+|   1 | camera_back_rpi_camera.stl |
+|   1 | camera_back_rpi_camera_v1.stl |
+|   1 | camera_back_rpi_camera_v2.stl |
+|   1 | camera_bracket_rpi_camera.stl |
+|   1 | camera_bracket_rpi_camera_v1.stl |
+|   1 | camera_bracket_rpi_camera_v2.stl |
+|   1 | camera_front_rpi_camera.stl |
+|   1 | camera_front_rpi_camera_v1.stl |
+|   1 | camera_front_rpi_camera_v2.stl |
+
+### Assemblies
+| Qty | Name |
+| ---:|:--- |
+|   1 | camera_rpi_camera_assembly |
+|   1 | camera_rpi_camera_v1_assembly |
+|   1 | camera_rpi_camera_v2_assembly |
+
+
 <a href="#top">Top</a>
 
 ---
@@ -4425,6 +4549,66 @@ Door latch for 6mm acrylic door for 3D printer. See [door_hinge](#door_hinge).
 |   1 | door_latch.stl |
 
 
+<a href="#top">Top</a>
+
+---
+<a name="Drag_chain"></a>
+## Drag_chain
+Parametric cable drag chain to limit the bend radius of a cable run.
+
+Each link has a maximum bend angle of 45&deg;, so the mininium radius is proportional to the link length.
+
+The travel property is how far it can move in each direction, i.e. half the maximum travel if the chain is mounted in the middle of the travel.
+
+
+[printed/drag_chain.scad](printed/drag_chain.scad) Implementation.
+
+[tests/drag_chain.scad](tests/drag_chain.scad) Code for this example.
+
+### Properties
+| Function | Description |
+|:--- |:--- |
+| ```drag_chain_bwall(type)``` | Bottom wall |
+| ```drag_chain_name(type)``` | The name to allow more than one in a project |
+| ```drag_chain_screw(type)``` | Mounting screw for the ends |
+| ```drag_chain_screw_lists(type)``` | Two lists of four bools to say which screws positions are used |
+| ```drag_chain_size(type)``` | The internal size and link length |
+| ```drag_chain_travel(type)``` | X travel |
+| ```drag_chain_twall(type)``` | Top wall |
+| ```drag_chain_wall(type)``` | Side wall thickness |
+
+### Functions
+| Function | Description |
+|:--- |:--- |
+| ```drag_chain(name, size, travel, wall = 1.6, bwall = 1.5, twall = 1.5, screw = M2_cap_screw, screw_lists = [[1,0,0,1],[1,0,0,1]])``` | Constructor |
+| ```drag_chain_outer_size(type)``` | Link outer dimensions |
+| ```drag_chain_radius(type)``` | The bend radius at the pivot centres |
+| ```drag_chain_z(type)``` | Outside dimension of a 180 bend |
+| ```screw_lug_radius(screw)``` | Radius if a screw lug |
+
+### Modules
+| Module | Description |
+|:--- |:--- |
+| ```drag_chain_assembly(type, pos = 0)``` | Drag chain assembly |
+| ```drag_chain_link(type, start = false, end = false)``` | One link of the chain, special case for start and end |
+| ```drag_chain_screw_positions(type, end)``` | Place children at the screw positions, end = 0 for the start, 1 for the end |
+| ```screw_lug(screw, h = 0)``` | Create a D shaped lug for a screw |
+
+![drag_chain](tests/png/drag_chain.png)
+
+### Printed
+| Qty | Filename |
+| ---:|:--- |
+|  14 | x_drag_chain_link.stl |
+|   1 | x_drag_chain_link_end.stl |
+|   1 | x_drag_chain_link_start.stl |
+
+### Assemblies
+| Qty | Name |
+| ---:|:--- |
+|   1 | x_drag_chain_assembly |
+
+
 <a href="#top">Top</a>
 
 ---
@@ -5664,7 +5848,7 @@ An additional twist around the path can be specified. If the path is closed this
 ### Modules
 | Module | Description |
 |:--- |:--- |
-| ```sweep(path, profile, loop = false, twist = 0)``` | Draw a polyhedron that is the swept volume |
+| ```sweep(path, profile, loop = false, twist = 0, convexity = 1)``` | Draw a polyhedron that is the swept volume |
 
 ![sweep](tests/png/sweep.png)
 
@@ -5732,6 +5916,7 @@ Simple tube or ring
 |:--- |:--- |
 | ```ring(or, ir)``` | Create a ring with specified external and internal radii |
 | ```tube(or, ir, h, center = true)``` | Create a tube with specified external and internal radii and height ```h``` |
+| ```woven_tube(or, ir, h, center= true, colour = grey(30)``` | Create a woven tube with specified external and internal radii, height ```h```, colours, warp and weft |
 
 ![tube](tests/png/tube.png)
 
@@ -5856,11 +6041,13 @@ Global constants, functions and modules. This file is used directly or indirectl
 | ```foot(x)``` | Foot to mm conversion |
 | ```in(list, x)``` | Returns true if ```x``` is an element in the ```list``` |
 | ```inch(x)``` | Inch to mm conversion (For fractional inches, 'inch(1 + 7/8)' will work as expected.) |
+| ```limit(x, min, max)``` | Force x in range min <= x <= max |
 | ```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 |
+| ```slice(list, start = 0, end = undef)``` | Slice a list or string with Python type semantics |
 | ```sqr(x)``` | Returns the square of ```x``` |
 | ```yard(x)``` | Yard to mm conversion |
 
@@ -5870,11 +6057,11 @@ Global constants, functions and modules. This file is used directly or indirectl
 | ```circle4n(r, d = undef)``` | Circle with multiple of 4 vertices |
 | ```ellipse(xr, yr)``` | Draw an ellipse |
 | ```extrude_if(h, center = true)``` | Extrudes 2D object to 3D when ```h``` is nonzero, otherwise leaves it 2D |
-| ```hflip()``` | Invert children by doing a 180&deg; flip around the Y axis |
+| ```hflip(flip=true)``` | Invert children by doing a 180&deg; flip around the Y axis |
 | ```right_triangle(width, height, h, center = true)``` | A right angled triangle with the 90&deg; corner at the origin. 3D when ```h``` is nonzero, otherwise 2D |
 | ```semi_circle(r, d = undef)``` | A semi circle in the positive Y domain |
 | ```translate_z(z)``` | Shortcut for Z only translations |
-| ```vflip()``` | Invert children by doing a 180&deg; flip around the X axis |
+| ```vflip(flip=true)``` | Invert children by doing a 180&deg; flip around the X axis |
 
 ![global](tests/png/global.png)
 

scripts/plateup.py

@@ -87,24 +87,25 @@ def plateup(target, part_type, usage = None):
                     match = re.match(r'^ECHO: "~(.*?\.' + part_type + r').*"$', line)
                     if match:
                         used.append(match.group(1))
-    #
-    # Copy file that are not included
-    #
     copied = []
-    for file in os.listdir(parts_dir):
-        if file.endswith('.' + part_type) and not file in used:
-            src = parts_dir + '/' + file
-            dst = target_dir + '/' + file
-            if mtime(src) > mtime(dst):
-                print("Copying %s to %s" % (src, dst))
-                copyfile(src, dst)
-            copied.append(file)
-    #
-    # Remove any cruft
-    #
-    targets = [file[:-4] + part_type for file in all_sources]
-    for file in os.listdir(target_dir):
-        if file.endswith('.' + part_type):
-            if not file in targets and not file in copied:
-                print("Removing %s" % file)
-                os.remove(target_dir + '/' + file)
+    if all_sources:
+        #
+        # Copy files that are not included
+        #
+        for file in os.listdir(parts_dir):
+            if file.endswith('.' + part_type) and not file in used:
+                src = parts_dir + '/' + file
+                dst = target_dir + '/' + file
+                if mtime(src) > mtime(dst):
+                    print("Copying %s to %s" % (src, dst))
+                    copyfile(src, dst)
+                copied.append(file)
+        #
+        # Remove any cruft
+        #
+        targets = [file[:-4] + part_type for file in all_sources]
+        for file in os.listdir(target_dir):
+            if file.endswith('.' + part_type):
+                if not file in targets and not file in copied:
+                    print("Removing %s" % file)
+                    os.remove(target_dir + '/' + file)

scripts/tests.py

@@ -97,7 +97,6 @@ def tests(tests):
     for dir in [deps_dir, png_dir, bom_dir]:
         if not os.path.isdir(dir):
             os.makedirs(dir)
-    doc_name = "readme.md"
     index = {}
     bodies = {}
     done = []
@@ -108,19 +107,33 @@ def tests(tests):
     #
     png_name = "libtest.png"
     scad_name = "libtest.scad"
-    if not os.path.isfile(png_name):
-        openscad.run(colour_scheme, "--projection=p", "--imgsize=%d,%d" % (w, h), "--camera=0,0,0,50,0,340,500", "--autocenter", "--viewall", "-o", png_name, scad_name);
-        do_cmd(["magick", png_name, "-trim", "-resize", "1280", "-bordercolor", background, "-border", "10", png_name])
+    if os.path.isfile(scad_name):
+        libtest = True
+        lib_blurb = scrape_blurb(scad_name)
+        if not os.path.isfile(png_name):
+            openscad.run(colour_scheme, "--projection=p", "--imgsize=%d,%d" % (w, h), "--camera=0,0,0,50,0,340,500", "--autocenter", "--viewall", "-o", png_name, scad_name);
+            do_cmd(["magick", png_name, "-trim", "-resize", "1280", "-bordercolor", background, "-border", "10", png_name])
+    else:
+        #
+        # Project tests so just a title
+        #
+        libtest = False
+        project = ' '.join(word[0].upper() + word[1:] for word in os.path.basename(os.getcwd()).split('_'))
+        lib_blurb = '#' + project + ' Tests\n'
+
+    doc_base_name = "readme" if libtest else "tests"
+    doc_name = doc_base_name + ".md"
     #
     # List of individual part files
     #
-    scads = [i for i in sorted(os.listdir(scad_dir), key = lambda s: s.lower()) if i[-5:] == ".scad"]
 
+    scads = [i for i in sorted(os.listdir(scad_dir), key = lambda s: s.lower()) if i[-5:] == ".scad"]
+    types = []
     for scad in scads:
         base_name = scad[:-5]
         if not tests or base_name in tests:
             done.append(base_name)
-            print(base_name)
+            print('\n'+base_name)
             cap_name = base_name[0].capitalize() + base_name[1:]
             base_name = base_name.lower()
             scad_name = scad_dir + '/' + scad
@@ -132,29 +145,42 @@ def tests(tests):
             if is_plural(base_name) and os.path.isfile(vits_name):
                 objects_name = vits_name
 
-            locations = [
-                ('vitamins/' + depluralise(base_name) + '.scad', 'Vitamins'),
-                ('printed/' + base_name + '.scad',               'Printed'),
-                ('utils/' + base_name + '.scad',                 'Utilities'),
-                ('utils/core/' + base_name + '.scad',            'Core Utilities'),
-            ]
+            locations = []
+            if os.path.isdir('vitamins'):
+                locations.append(('vitamins/' + depluralise(base_name) + '.scad', 'Vitamins'))
+            if os.path.isdir('printed'):
+                locations.append(('printed/' + base_name + '.scad',               'Printed'))
+            if os.path.isdir('utils'):
+                locations.append(('utils/' + base_name + '.scad',                 'Utilities'))
+            if libtest and os.path.isdir('utils/core'):
+                locations.append(('utils/core/' + base_name + '.scad',            'Core Utilities'))
 
             for name, type in locations:
                 if os.path.isfile(name):
                     impl_name = name
                     break
             else:
-                print("Can't find implementation!")
-                continue
+                if libtest:
+                    print("Can't find implementation!")
+                    continue
+                else:
+                    type = 'Tests'                         # OK when testing part of a project
+                    impl_name = None
 
-            vsplit = "AJR" + chr(ord('Z') + 1)
-            vtype = locations[0][1]
-            types = [vtype + ' ' + vsplit[i] + '-'  + chr(ord(vsplit[i + 1]) - 1) for i in range(len(vsplit) - 1)] + [loc[1] for loc in locations[1 :]]
-            if type == vtype:
-                for i in range(1, len(vsplit)):
-                    if cap_name[0] < vsplit[i]:
-                         type = types[i - 1]
-                         break
+            if libtest:
+                vsplit = "AJR" + chr(ord('Z') + 1)
+                vtype = locations[0][1]
+                types = [vtype + ' ' + vsplit[i] + '-' + chr(ord(vsplit[i + 1]) - 1) for i in range(len(vsplit) - 1)] + [loc[1] for loc in locations[1 :]]
+                if type == vtype:
+                    for i in range(1, len(vsplit)):
+                        if cap_name[0] < vsplit[i]:
+                             type = types[i - 1]
+                             break
+            else:
+                if not types:
+                    types = [loc[1] for loc in locations]   # No need to split up the vitamin list
+                    if not type in types:                   # Will happen when implementation is not found and type is set to Tests
+                        types.append(type)
 
             for t in types:
                 if not t in bodies:
@@ -250,24 +276,7 @@ def tests(tests):
         usage()
 
     with open(doc_name, "wt") as doc_file:
-        print('# NopSCADlib', file = doc_file)
-        print('''\
-An ever expanding library of parts modelled in OpenSCAD useful for 3D printers and enclosures for electronics, etc.
-
-It contains lots of vitamins (the RepRap term for non-printed parts), some general purpose printed parts and
-some utilities. There are also Python scripts to generate Bills of Materials (BOMs),
- STL files for all the printed parts, DXF files for CNC routed parts in a project and a manual containing assembly
-instructions and exploded views by scraping markdown embedded in OpenSCAD comments, [see scripts](scripts/readme.md). A simple example project can be found [here](examples/MainsBreakOutBox/readme.md).
-
-For more examples of what it can make see the [gallery](gallery/readme.md).
-
-The license is GNU General Public License v3.0, see [COPYING](COPYING).
-
-See [usage](docs/usage.md) for requirements, installation instructions and a usage guide.
-
-<img src="libtest.png" width="100%"/>\n
-''', file = doc_file)
-
+        print(lib_blurb, file = doc_file)
         print('## Table of Contents<a name="top"/>', file = doc_file)
         print('<table><tr>', file = doc_file)
         n = 0
@@ -288,10 +297,10 @@ See [usage](docs/usage.md) for requirements, installation instructions and a usa
         for type in types:
             for line in bodies[type]:
                 print(line, file = doc_file)
-    with open("readme.html", "wt") as html_file:
-        do_cmd("python -m markdown -x tables readme.md".split(), html_file)
+    with open(doc_base_name + ".html", "wt") as html_file:
+        do_cmd(("python -m markdown -x tables " + doc_name).split(), html_file)
     times.print_times()
-    do_cmd('codespell -L od readme.md'.split())
+    do_cmd(('codespell -L od ' + doc_name).split())
 
 if __name__ == '__main__':
     for arg in sys.argv[1:]:

tests/belts.scad

@@ -23,46 +23,52 @@ use <../vitamins/insert.scad>
 use <../utils/layout.scad>
 
 module belt_test() {
-    p1 = [75,  -50];
     p2 = [-75, -50];
     p3 = [-75, 100];
     p4 = [75,  100];
 
-    p5 = [75  - pulley_pr(GT2x20ob_pulley) - pulley_pr(GT2x16_plain_idler),  -pulley_pr(GT2x16_plain_idler)];
-    p6 = [-75 + pulley_pr(GT2x20ob_pulley) + pulley_pr(GT2x16_plain_idler),  -pulley_pr(GT2x16_plain_idler)];
+    p5 = [75  + pulley_pr(GT2x20ob_pulley) - pulley_pr(GT2x16_plain_idler), +pulley_pr(GT2x16_plain_idler)];
+    p6 = [-75 + pulley_pr(GT2x20ob_pulley) + pulley_pr(GT2x16_plain_idler), -pulley_pr(GT2x16_plain_idler)];
 
-    translate(p1) pulley_assembly(GT2x20ob_pulley);
-    translate(p2) pulley_assembly(GT2x20ob_pulley);
-    translate(p3) pulley_assembly(GT2x20_toothed_idler);
-    translate(p4) pulley_assembly(GT2x20_toothed_idler);
+    module pulleys(flip = false) {
+        translate(p2) rotate([0, flip ? 180 : 0, 0]) pulley_assembly(GT2x20ob_pulley);
+        translate(p3) pulley_assembly(GT2x20_toothed_idler);
+        translate(p4) pulley_assembly(GT2x20_toothed_idler);
+        translate(p5) {
+            pulley = GT2x16_toothed_idler;
+            screw = find_screw(hs_cs_cap, pulley_bore(pulley));
+            insert = screw_insert(screw);
 
-    translate(p5) {
-        pulley = GT2x16_plain_idler;
-        screw = find_screw(hs_cs_cap, pulley_bore(pulley));
-        insert = screw_insert(screw);
-
-        pulley_assembly(pulley);
-        translate_z(pulley_height(pulley) + pulley_offset(pulley) + screw_head_depth(screw, pulley_bore(pulley)))
-            screw(screw, 20);
-
-        translate_z(pulley_offset(pulley) - insert_length(insert))
-            vflip()
-                insert(insert);
+            hflip(flip) {
+                pulley_assembly(pulley);
+                translate_z(pulley_height(pulley) + pulley_offset(pulley) + screw_head_depth(screw, pulley_bore(pulley)))
+                    screw(screw, 20);
 
+                translate_z(pulley_offset(pulley) - insert_length(insert))
+                    vflip()
+                        insert(insert);
+            }
+        }
+        translate(p6) pulley_assembly(GT2x16_plain_idler);
     }
-    translate(p6) pulley_assembly(GT2x16_plain_idler);
 
-    path = [ [p1.x, p1.y, pulley_pr(GT2x20ob_pulley)],
-             [p5.x, p5.y, -pulley_pr(GT2x16_plain_idler)],
+    path = [ [p5.x, p5.y, pulley_pr(GT2x16_plain_idler)],
              [p6.x, p6.y, -pulley_pr(GT2x16_plain_idler)],
              [p2.x, p2.y, pulley_pr(GT2x20ob_pulley)],
              [p3.x, p3.y, pulley_pr(GT2x20ob_pulley)],
              [p4.x, p4.y, pulley_pr(GT2x20ob_pulley)]
            ];
+
     belt = GT2x6;
     belt(belt, path, 80, [0,  0]);
+    pulleys();
+    translate_z(20)
+        hflip() {
+            belt(belt, path, 80, [0,  0], belt_colour = grey(90), tooth_colour = grey(50));
+            pulleys(flip=true);
+        }
 
-    translate([-25, 0])
+    translate([-25, 0, 10])
         layout([for(b = belts) belt_width(b)], 10)
             rotate([0, 90, 0])
                 belt(belts[$i], [[0, 0, 20], [0, 1, 20]], belt_colour = $i%2==0 ? grey(90) : grey(20), tooth_colour = $i%2==0 ? grey(70) : grey(50));

tests/camera_housing.scad

@@ -0,0 +1,33 @@
+//
+// 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>
+
+use <../printed/camera_housing.scad>
+
+include <../vitamins/cameras.scad>
+
+use <../vitamins/pcb.scad>
+
+module camera_housings()
+    layout([for(c = cameras) pcb_length(camera_pcb(c))], 15, false) let(c = cameras[$i])
+        camera_fastened_assembly(c, 3);
+
+if($preview)
+    camera_housings();

tests/cameras.scad

@@ -24,7 +24,7 @@ include <../vitamins/cameras.scad>
 use <../vitamins/pcb.scad>
 
 module cameras()
-    layout([for(c = cameras) pcb_length(camera_pcb(c))], 10, false) let(c = cameras[$i])
+    layout([for(c = cameras) pcb_length(camera_pcb(c))], 15, false) let(c = cameras[$i])
         camera(c);
 
 if($preview)

tests/drag_chain.scad

@@ -0,0 +1,59 @@
+//
+// 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/>.
+//
+
+// Link length between hinges
+x = 10; //[8 : 30]
+
+// Link inner width
+y = 10; //[5 : 30]
+
+// Link inner height
+z = 5;  //[4 : 11]
+// Side wall thickness
+wall = 1.6; //[0.9: 0.1: 3]
+// Bottom wall thickness
+bwall = 1.5; //[1: 0.25: 3]
+// Top wall thickness
+twall = 1.5; //[1: 0.25: 3]
+// Max travel in each direction
+travel = 100;
+// Current position
+pos = 50; // [-100 : 1 : 100]
+
+include <../core.scad>
+use <../printed/drag_chain.scad>
+
+include <../vitamins/leadnuts.scad>
+
+drag_chain = drag_chain("x", [x, y, z], travel, wall = wall, bwall = bwall, twall = twall);
+
+module drag_chains()
+    drag_chain_assembly(drag_chain, pos);
+
+if($preview)
+    drag_chains();
+else {
+    drag_chain_link(drag_chain);
+
+    translate([-x * 2, 0])
+        drag_chain_link(drag_chain, start = true);
+
+    translate([x * 2, 0])
+        drag_chain_link(drag_chain, end = true);
+}

tests/global.scad

@@ -29,6 +29,23 @@ module globals() {
         translate([50, 0])
             right_triangle(10, 20, 0);
     }
+    assert(slice("ABCD")    == "ABCD");
+    assert(slice("ABCD", 1) == "BCD");
+    assert(slice("ABCD", 2) == "CD");
+    assert(slice("ABCD", 3) == "D");
+    assert(slice("ABCD", 4) == "");
+    assert(slice("ABCD", 1, -1) == "BC");
+    assert(slice("ABCD", 2, -1) == "C");
+    assert(slice("ABCD", 3, -1) == "");
+    assert(slice("ABCD", 4, -1) == "");
+    assert(slice("ABCD", 0, -1) == "ABC");
+    assert(slice("ABCD", 0, -2) == "AB");
+    assert(slice("ABCD", 0, -3) == "A");
+    assert(slice("ABCD", 0, -4) == "");
+    assert(slice("ABCD", 0,  0) == "");
+    assert(slice("ABCD", 0,  1) == "A");
+    assert(slice("ABCD", 0,  2) == "AB");
+    assert(slice("ABCD", 0,  3) == "ABC");
 }
 
 rotate([70, 0, 315]) globals();

tests/hot_ends.scad

@@ -25,7 +25,7 @@ module hot_ends()
     layout([for(h = hot_ends) 40])
         translate([-20, 0])
             rotate(90)
-                hot_end(hot_ends[$i], 3);
+                hot_end(hot_ends[$i], 3, bowden = $i == 3);
 
 if($preview)
     hot_ends();

tests/pin_headers.scad

@@ -64,11 +64,14 @@ module pin_headers() {
             pin_socket(pin_headers[$i], 3, 3, right_angle = true);
     }
 
-    translate([-20, 0])
-        jst_xh_header(jst_xh_header, 5);
+    for(i = [0, 1], p = [5, 2][i], j = [0 , 1]) {
+        h = [jst_ph_header, jst_xh_header][j];
+        translate([-20 * (i + 1), 0 + j * 40])
+            jst_xh_header(h, p);
 
-    translate([-20, 20])
-        jst_xh_header(jst_xh_header, 5, true);
+        translate([-20 * (i + 1), 20 + j * 40])
+            jst_xh_header(h, p, true);
+    }
 }
 
 if($preview)

tests/shaft_couplings.scad

@@ -0,0 +1,30 @@
+//
+// NopSCADlib Copyright Chris Palmer 2018
+// nop.head@gmail.com
+// hydraraptor.blogspot.com
+//
+// This file is part of NopSCADlib.
+//
+// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
+// GNU General Public License as published by the Free Software Foundation, either version 3 of
+// the License, or (at your option) any later version.
+//
+// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
+// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
+// See the GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License along with NopSCADlib.
+// If not, see <https://www.gnu.org/licenses/>.
+//
+include <../core.scad>
+include <../vitamins/shaft_couplings.scad>
+
+use <../utils/layout.scad>
+
+module shaft_couplings()
+    layout([for(s = shaft_couplings) sc_diameter(s)],5)
+        shaft_coupling(shaft_couplings[$i]);
+
+if($preview)
+    shaft_couplings();
+

tests/stepper_motors.scad

@@ -22,12 +22,12 @@ include <../vitamins/stepper_motors.scad>
 use <../utils/layout.scad>
 
 module stepper_motors()
-    layout([for(s = stepper_motors) NEMA_width(s)], 5) {
+    layout([for(s = stepper_motors) NEMA_width(s)], 5) let(m = stepper_motors[$i]) {
         rotate(180)
-            NEMA(stepper_motors[$i]);
+            NEMA(m, 0, m == NEMA17M || m == NEMA17M8);
 
         translate_z(4)
-            NEMA_screws(stepper_motors[$i], M3_pan_screw, n = $i, earth = $i > 4 ? undef : $i - 1);
+            NEMA_screws(m, M3_pan_screw, n = $i, earth = $i > 4 ? undef : $i - 1);
     }
 
 if($preview)

tests/tubings.scad

@@ -22,7 +22,7 @@ use <../utils/layout.scad>
 include <../vitamins/tubings.scad>
 
 module tubings()
-    layout([for(t = tubings) tubing_od(t)], 10)
+    layout([for(t = tubings) tubing_od(t)], 8)
         tubing(tubings[$i]);
 
 if($preview)

utils/core/global.scad

@@ -36,12 +36,22 @@ function in(list, x) = !!len([for(v = list) if(v == x) true]);
 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
 function r2sides4n(r) = floor((r2sides(r) + 3) / 4) * 4;                            //! Round up the number of sides to a multiple of 4 to ensure points land on all axes
+function limit(x, min, max) = max(min(x, max), min);                                //! Force x in range min <= x <= max
 
 module translate_z(z) translate([0, 0, z]) children();                              //! Shortcut for Z only translations
-module vflip() rotate([180, 0, 0]) children();                                      //! Invert children by doing a 180&deg; flip around the X axis
-module hflip() rotate([0, 180, 0]) children();                                      //! Invert children by doing a 180&deg; flip around the Y axis
+module vflip(flip=true) rotate([flip ? 180 : 0, 0, 0]) children();                  //! Invert children by doing a 180&deg; flip around the X axis
+module hflip(flip=true) rotate([0, flip ? 180: 0, 0]) children();                   //! Invert children by doing a 180&deg; flip around the Y axis
 module ellipse(xr, yr) scale([1, yr / xr]) circle4n(xr);                            //! Draw an ellipse
 
+function slice_str(str, start, end, s ="") = start >= end ? s : slice_str(str, start + 1, end, str(s, str[start])); // Helper for slice()
+
+function slice(list, start = 0, end = undef) = let( //! Slice a list or string with Python type semantics
+        len = len(list),
+        start = limit(start < 0 ? len + start : start, 0, len),
+        end   = is_undef(end) ? len : limit(end   < 0 ? len + end : end, 0, len)
+    ) is_string(list) ? slice_str(list, start, end) : [for(i = [start : 1 : end - 1]) list[i]];
+
+
 module extrude_if(h, center = true)                 //! Extrudes 2D object to 3D when ```h``` is nonzero, otherwise leaves it 2D
     if(h)
         linear_extrude(h, center = center, convexity = 2) // 3D

utils/sweep.scad

@@ -152,10 +152,10 @@ function sweep(path, profile, loop = false, twist = 0) = //! Generate the point
         faces = loop ? skin_faces : concat([cap(facets)], skin_faces, [cap(facets, npoints - 1)])
         ) [points, faces];
 
-module sweep(path, profile, loop = false, twist = 0) { //! Draw a polyhedron that is the swept volume
+module sweep(path, profile, loop = false, twist = 0, convexity = 1) { //! Draw a polyhedron that is the swept volume
     mesh = sweep(path, profile, loop, twist);
 
-    polyhedron(points = mesh[0], faces = mesh[1]);
+    polyhedron(points = mesh[0], faces = mesh[1], convexity = convexity);
 }
 
 function path_length(path, i = 0, length = 0) = //! Calculated the length along a path

utils/tube.scad

@@ -31,3 +31,41 @@ module ring(or, ir) //! Create a ring with specified external and internal radii
 module tube(or, ir, h, center = true) //! Create a tube with specified external and internal radii and height ```h```
     linear_extrude(h, center = center, convexity = 5)
         ring(or, ir);
+
+module woven_tube(or, ir, h, center= true, colour = grey(30), colour2, warp = 2, weft) {//! Create a woven tube with specified external and internal radii, height ```h```, colours, warp and weft
+    colour2 = colour2 ? colour2 : colour * 0.8;
+    weft = weft ? weft : warp;
+    warp_count = max(floor(PI * or / warp), 0.5);
+    angle = 360 / (2 * warp_count);
+
+    module layer(weft) {
+        points = [[ir, weft / 2], [or, weft / 2], [or, -weft / 2], [ir, -weft / 2]];
+        color(colour)
+            for (i = [0 : warp_count])
+                rotate(2 * i * angle)
+                    rotate_extrude(angle = angle)
+                        polygon(points);
+        color(colour2)
+            for (i = [0 : warp_count])
+                rotate((2 * i + 1) * angle)
+                    rotate_extrude(angle = angle)
+                        polygon(points);
+    }
+
+    translate_z(center ? -h / 2 : 0) {
+        weft_count = floor(h / weft);
+        if (weft_count > 0)
+            for (i = [0 : weft_count - 1]) {
+                translate_z(i * weft + weft / 2)
+                    rotate(i * angle)
+                        layer(weft);
+        }
+        remainder = h - weft * weft_count;
+        if (remainder) {
+            translate_z(weft_count * weft + remainder / 2)
+                rotate(weft_count * angle)
+                    layer(remainder);
+        }
+    }
+}
+

vitamins/belt.scad

@@ -19,7 +19,7 @@
 
 //
 //! Models timing belt running over toothed or smooth pulleys and calculates an accurate length.
-//! Only models 2D paths, so not core XY!
+//! Only models 2D paths, so not crossed belt 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.
 //!
@@ -54,7 +54,7 @@ module belt(type, points, gap = 0, gap_pos = undef, belt_colour = grey(20), toot
 
     tangents = rounded_polygon_tangents(points);
 
-    length = ceil((rounded_polygon_length(points, tangents) - gap) / pitch) * pitch;
+    length = ceil((rounded_polygon_length(points, tangents) - (is_list(gap) ? gap.x + gap.y : gap)) / pitch) * pitch;
 
     module shape() rounded_polygon(points, tangents);
 
@@ -65,7 +65,7 @@ module belt(type, points, gap = 0, gap_pos = undef, belt_colour = grey(20), toot
             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);
+                        square(is_list(gap) ? [gap.x, gap.y + thickness + eps] : [gap, thickness + eps], center = true);
 
     color(belt_colour)
         linear_extrude(width, center = true)

vitamins/blower.scad

@@ -22,6 +22,8 @@
 //
 include <../utils/core/core.scad>
 use <../utils/rounded_cylinder.scad>
+use <../utils/quadrant.scad>
+use <screw.scad>
 
 function blower_length(type)      = type[2]; //! Length of enclosing rectangle
 function blower_width(type)       = type[3]; //! Width of enclosing rectangle
@@ -39,8 +41,87 @@ function blower_top(type)         = type[14]; //! Thickness of the top
 function blower_wall(type)        = type[15]; //! Side wall thickness
 function blower_lug(type)         = type[16]; //! Height of the lugs
 
+function blower_casing_is_square(type) = len(blower_screw_holes(type)) > 3; //! True for square radial fans, false for spiral shape radial blowers
+function blower_exit_offset(type) = blower_casing_is_square(type) ? blower_length(type) / 2 : blower_exit(type) / 2; //! Offset of exit's centre from the edge
+
 fan_colour = grey(20);
 
+module blower_fan(type, casing_is_square) {
+    module squarish(s, n) {
+        polygon([
+            for(i = [0 : n]) [i * s.x / n,  s.y + (i % 2) * eps],
+            for(i = [0 : n]) [s.x - i * s.x / n, (i % 2) * eps],
+        ]);
+    }
+
+    depth = blower_depth(type);
+    blade_ir = blower_hub(type) / 2 + 0.5; // slight gap between main part of blades and hub
+    blade_len = casing_is_square
+        ? (blower_bore(type) - 1) / 2 - blade_ir // fan constrained by bore hole
+        : blower_width(type) - blower_axis(type).x- blower_wall(type) - blade_ir; // fan extends to casing
+    blade_thickness = 0.75;
+    blade_count = 25;
+
+    base_offset = 1;
+    translate([blower_axis(type).x, blower_axis(type).y, blower_base(type) + base_offset])
+        linear_extrude(blower_hub_height(type) - 0.5 - blower_base(type) - base_offset, center = false, convexity = 4, twist = -30, slices = round(depth / 2))
+            for(i = [0 : blade_count - 1])
+                rotate((360 * i) / blade_count)
+                    translate([blade_ir, -blade_thickness / 2])
+                        squarish([blade_len, blade_thickness], round(blade_len / 2));
+}
+
+module blower_square(type) { //! Draw a square blower
+    width = blower_width(type);
+    depth = blower_depth(type);
+    wall = blower_wall(type);
+    hole_pitch = (blower_screw_holes(type)[1].x - blower_screw_holes(type)[0].x) / 2;
+    corner_radius = width / 2 - hole_pitch;
+    corner_inset = (width - blower_exit(type)) / 2;
+
+    module square_inset_corners(remove_center = false)
+        difference() {
+            //overall outside
+                square([width, width], center = false);
+
+            if (remove_center) {
+                // cut out the inside, leaving the corners
+                translate([corner_inset + wall, -eps])
+                    square([width - 2 * (wall + corner_inset), width - wall + eps], center = false);
+
+                translate([wall, corner_inset + wall])
+                    square([width - 2 * wall, width - 2 * (wall + corner_inset)], center = false);
+            } else {
+                // cut out the bore for the fan
+                translate(blower_axis(type))
+                    circle(d = blower_bore(type));
+            }
+            // corner inset
+            translate([width / 2, width / 2])
+            for(i = [0 : 3])
+                rotate(i * 90)
+                    translate([-width / 2 - eps, -width/ 2 - eps])
+                        quadrant(corner_inset, corner_inset - corner_radius);
+        }
+
+    base_height = blower_base(type);
+    linear_extrude(base_height)
+        difference () {
+            rounded_square([width, width], corner_radius, center = false);
+
+            blower_hole_positions(type)
+                circle(d = blower_screw_hole(type));
+        }
+
+    translate_z(base_height)
+        linear_extrude(depth - base_height)
+            square_inset_corners(remove_center = true);
+
+    translate_z(depth - base_height)
+        linear_extrude(blower_top(type))
+            square_inset_corners();
+}
+
 module blower(type) { //! Draw specified blower
     length = blower_length(type);
     width = blower_width(type);
@@ -70,55 +151,63 @@ module blower(type) { //! Draw specified blower
 
     vitamin(str("blower(", type[0], "): ", type[1]));
 
+    is_square = blower_casing_is_square(type); // Description starts with square!
     color(fan_colour) {
-        // screw lugs
-        linear_extrude(blower_lug(type), center = false)
-            for(hole = blower_screw_holes(type))
-                difference() {
-                    hull() {
+        if (is_square) {
+            blower_square(type);
+        } else {
+            // screw lugs
+            linear_extrude(blower_lug(type), center = false)
+                for(hole = blower_screw_holes(type))
+                    difference() {
+                        hull() {
+                            translate(hole)
+                                circle(d = blower_screw_hole(type) + 2 * blower_wall(type));
+
+                            translate(blower_axis(type))
+                                circle(d = blower_screw_hole(type) + 2 * blower_wall(type) + 7);
+                        }
                         translate(hole)
-                            circle(d = blower_screw_hole(type) + 2 * blower_wall(type));
+                            circle(d = blower_screw_hole(type));
 
-                        translate(blower_axis(type))
-                            circle(d = blower_screw_hole(type) + 2 * blower_wall(type) + 7);
-                    }
-                    translate(hole)
-                        circle(d = blower_screw_hole(type));
+                        shape(true);
+                }
 
-                    shape(true);
-               }
-        // rotor
-        translate(concat(blower_axis(type), [blower_base(type) + 1]))
-            rounded_cylinder(r = blower_hub(type) / 2, h = blower_hub_height(type) - blower_base(type) - 1, r2 = 1);
+            *%square([length, width]);
 
-        *%square([length, width]);
-
-        // base
-        linear_extrude(blower_base(type))
-            difference() {
-                shape();
-
-                translate(concat(blower_axis(type), [blower_base(type)]))
-                    circle(d = 2);
-           }
-        // sides
-        linear_extrude(depth)
-            difference() {
-                shape();
-
-                offset(-blower_wall(type))
-                    shape(true);
-           }
-
-        // top
-        translate_z(depth -blower_top(type))
-            linear_extrude(blower_top(type))
+            // base
+            linear_extrude(blower_base(type))
                 difference() {
                     shape();
 
                     translate(concat(blower_axis(type), [blower_base(type)]))
-                        circle(d = blower_bore(type));
-               }
+                        circle(d = 2);
+            }
+
+            // sides
+            linear_extrude(depth)
+                difference() {
+                    shape();
+
+                    offset(-blower_wall(type))
+                        shape(true);
+            }
+
+            // top
+            translate_z(depth -blower_top(type))
+                linear_extrude(blower_top(type))
+                    difference() {
+                        shape();
+
+                        translate(concat(blower_axis(type), [blower_base(type)]))
+                            circle(d = blower_bore(type));
+                }
+        }
+        // rotor
+        translate(concat(blower_axis(type), [blower_base(type) + 1]))
+            rounded_cylinder(r = blower_hub(type) / 2, h = blower_hub_height(type) - blower_base(type) - 1, r2 = 1);
+
+        blower_fan(type, is_square);
     }
 }
 

vitamins/blowers.scad

@@ -16,10 +16,16 @@
 // You should have received a copy of the GNU General Public License along with NopSCADlib.
 // If not, see <https://www.gnu.org/licenses/>.
 //
+//                                                   l     w   d   b     s              h   a            s    s                               e    h    b    t    w    l
+//                                                   e     i   e   o     c              u   x            c    c                               x    u    a    o    a    u
+//                                                   n     d   p   r     r              b   i            r    r                               i    b    s    p    l    g
+//                                                   g     t   t   e     e                  s            e    e                               t         e         l
+//                                                   t     h   h         w              d                w    w                                              t
+//                                                   h                                                  h    s                                         t         t
+RB5015 = ["RB5015", "Blower Runda RB5015",           51.3, 51, 15, 31.5, M4_cap_screw, 26, [27.3, 25.4], 4.5, [[4.3, 45.4], [47.3,7.4]],     20,   14,  1.5, 1.3, 1.2, 15];
+PE4020 = ["PE4020", "Blower Pengda Technology 4020", 40,   40, 20, 27.5, M3_cap_screw, 22, [21.5, 20  ], 3.2, [[37,3],[3,37],[37,37]],       29.3, 17,  1.7, 1.2, 1.3, 13];
+BL40x10 =["BL40x10","Square radial 4010",            40,   40,9.5, 27,   M2_cap_screw, 16, [24,   20  ], 2.4, [[2,2],[38,2],[2,38],[38,38]], 30  , 9.5, 1.5, 1.5, 1.1, 1.5];
 
-RB5015 = ["RB5015", "Blower Runda RB5015",           51.3, 51, 15, 31.5, M4_cap_screw, 26, [27.3, 25.4], 4.5, [[4.3, 45.4], [47.3,7.4]], 20, 14, 1.5, 1.3, 1.2, 15];
-PE4020 = ["PE4020", "Blower Pengda Technology 4020", 40,   40, 20, 27.5, M3_cap_screw, 22, [21.5, 20  ], 3.2, [[37,3],[3,37],[37,37]], 29.3, 17, 1.7, 1.2, 1.3, 13];
-
-blowers = [PE4020, RB5015];
+blowers = [BL40x10, PE4020, RB5015];
 
 use <blower.scad>

vitamins/cameras.scad

@@ -68,6 +68,6 @@ rpi_camera = ["rpi_camera", "Raspberry Pi focusable camera", rpi_camera_pcb, [0,
     [0, 18 - 1.5 - 2.5], [8, 5, 1.6]
 ];
 
-cameras = [rpi_camera_v1, rpi_camera, rpi_camera_v2];
+cameras = [rpi_camera_v1, rpi_camera_v2, rpi_camera];
 
 use <camera.scad>

vitamins/displays.scad

@@ -73,6 +73,42 @@ SSD1963_4p3 = ["SSD1963_4p3", "LCD display SSD1963 4.3\"", 105.5, 67.2, 3.4, SSD
         [[0, -34.5], [12, -31.5]],
         ];
 
-displays = [HDMI5, SSD1963_4p3, LCD1602A, LCDS7282B];
+BigTreeTech_TFT35v3_0_PCB = ["", "",
+    110, 55.77, 1.6, 0, 3, 0, "green",  false,
+    [ [-3.12, 3.17], [-3.12, -3.17], [3.12, -3.17], [3.12, 3.17] ],
+    [
+        [  10, 7.5,    0, "-button_6mm" ],
+        [   9,  43,    0, "-buzzer", 5, 9 ],
+        [   9,  27,    0, "-potentiometer" ],
+        [ 102,28.82,   0, "uSD", [26.5, 16, 3] ],
+        [16.5, 5.9,    0, "2p54boxhdr", 5, 2 ],
+        [36.5, 5.9,    0, "2p54boxhdr", 5, 2 ],
+        [56.5, 5.9,    0, "2p54boxhdr", 5, 2 ],
+        [82.5,   4,    0, "jst_xh", 5 ],
+        [26.5, 52.8, 180, "jst_xh", 2 ],
+        [39.5, 52.8, 180, "jst_xh", 3 ],
+        [52.5, 52.8, 180, "jst_xh", 3 ],
+        [65.5, 52.8, 180, "jst_xh", 3 ],
+        [78.5, 52.8, 180, "jst_xh", 3 ],
+        [94.5, 52.8, 180, "jst_xh", 5 ],
+        [   8,  43,  180, "usb_A" ],
+        [  97,   4,    0, "chip", 9, 3.5, 1, grey(20) ],
+        // ESP-8266
+        [  23,  28,   90, "2p54socket", 4, 2 ],
+    ],
+    []
+];
+
+BigTreeTech_TFT35v3_0 = ["BigTreeTech_TFT35v3_0", "BigTreeTech TFT35 v3.0",
+    84.5, 54.5, 4, BigTreeTech_TFT35v3_0_PCB,
+    [-6, 0, 0],                         // pcb offset
+    [[-40, -26.5], [41.5, 26.5, 0.5]],  // aperture
+    [],                                 // touch screen
+    0,                                  // thread length
+    [],                                 // clearance need for the ts ribbon
+];
+
+
+displays = [HDMI5, SSD1963_4p3, BigTreeTech_TFT35v3_0, LCD1602A, LCDS7282B];
 
 use <display.scad>

vitamins/e3d.scad

@@ -26,6 +26,8 @@ include <tubings.scad>
 include <zipties.scad>
 include <fans.scad>
 
+use <../utils/rounded_cylinder.scad>
+use <../utils/thread.scad>
 use <../utils/tube.scad>
 
 rad_dia = 22; // Diam of the part with ailettes
@@ -94,7 +96,34 @@ module heater_block(type, naked = false, resistor_wire_rotate = [0,0,0]) {
     }
 }
 
+module bowden_connector(cap_colour = grey(20)) {
+    ir = 4.25 / 2;
+    body_colour = silver;
 
+    color(body_colour) {
+        translate_z(-4.5) {
+            tube(or = 2.5, ir = ir, h = 4.5, center = false);
+            male_metric_thread(6, metric_coarse_pitch(5), length = 4.5, center = false, solid = false, colour = body_colour);
+        }
+        tube(or = 7.7 / 2, ir = ir, h = 2, center = false);
+        translate_z(2)
+            linear_extrude(6.5)
+                difference() {
+                    circle(d = 11.55, $fn = 6);
+                    circle(r = ir);
+                }
+        translate_z(8.5)
+            rounded_cylinder(r = 9.8 / 2, h = 2, r2 = 1.5, ir = ir);
+        translate_z(10.5)
+            tube(or = 3.5, ir = ir, h = 0.5, center = false);
+    }
+    color(cap_colour) {
+        translate_z(11)
+            tube(or = 3, ir = ir, h = 1, center = false);
+        translate_z(12)
+            tube(or = 5.5, ir = ir, h = 1.75, center = false);
+    }
+}
 
 module e3d_fan_duct(type) {
     color("DeepSkyBlue")
@@ -123,7 +152,7 @@ module e3d_fan(type) {
                 fan(fan30x10);
 }
 
-module e3d_hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0]) {
+module e3d_hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0], bowden = false) {
     insulator_length = hot_end_insulator_length(type);
     inset = hot_end_inset(type);
     h_ailettes = rad_len / (2 * rad_nb_ailettes - 1);
@@ -150,6 +179,10 @@ module e3d_hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0]
                         square([100, hot_end_groove(type)]);
             }
 
+    if(bowden)
+        translate_z(inset)
+            bowden_connector();
+
     rotate(90)
         heater_block(type, naked, resistor_wire_rotate);
 
@@ -158,10 +191,10 @@ module e3d_hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0]
             e3d_fan();
 }
 
-module e3d_hot_end_assembly(type, filament, naked = false, resistor_wire_rotate = [0,0,0]) {
+module e3d_hot_end_assembly(type, filament, naked = false, resistor_wire_rotate = [0,0,0], bowden = false) {
     bundle = 3.2;
 
-    e3d_hot_end(type, filament, naked, resistor_wire_rotate);
+    e3d_hot_end(type, filament, naked, resistor_wire_rotate, bowden);
 
     // Wire and ziptie
     if(!naked)

vitamins/hot_end.scad

@@ -44,10 +44,10 @@ function hot_end_length(type) = hot_end_total_length(type) - hot_end_inset(type)
 use <jhead.scad>
 use <e3d.scad>
 
-module hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0]) { //! Draw specified hot end
+module hot_end(type, filament, naked = false, resistor_wire_rotate = [0,0,0], bowden = false) { //! Draw specified hot end
     if(hot_end_style(type) == jhead)
         jhead_hot_end_assembly(type, filament, naked);
 
     if(hot_end_style(type) == e3d)
-        e3d_hot_end_assembly(type, filament, naked, resistor_wire_rotate);
+        e3d_hot_end_assembly(type, filament, naked, resistor_wire_rotate, bowden);
 }

vitamins/panel_meters.scad

@@ -41,7 +41,7 @@ DSP5005   = ["DSP5005", "Ruideng DSP5005 Power supply module",                [7
                 [[-25,  9, 0], [ 6.5, 4.5, 1], 0.5,  "yellow"],
                ]];
 
-DSN_VC288PCB = ["", "", 41, 21, 1, 0, 0, 0, "green", false, [], [[ 5,  -3,   0, "jst_xh", 3], ], []];
+DSN_VC288PCB = ["", "", 41, 21, 1, 0, 0, 0, "green", false, [], [[ 5,  -3.525,   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];

vitamins/pcb.scad

@@ -1021,8 +1021,6 @@ module pcb(type) { //! Draw specified PCB
     for(part = pcb_accessories(type))
         vitamin(part);
 
-    pcb_components(type);
-
     color(pcb_colour(type)) linear_extrude(t) difference() {
         if(Len(pcb_polygon(type)))
             polygon(pcb_polygon(type));
@@ -1076,6 +1074,8 @@ module pcb(type) { //! Draw specified PCB
                                             circle(d = 2);
                     }
                 }
+
+    pcb_components(type);
 }
 
 module pcb_spacer(screw, height, wall = 1.8, taper = 0) { //! Generate STL for PCB spacer

vitamins/pcbs.scad

@@ -348,7 +348,7 @@ PI_IO = ["PI_IO", "PI_IO V2",       35.56, 25.4, 1.6, 0,    0,   0, "green", tru
     ], []];
 
 ZC_A0591 = ["ZC_A0591", "ZC-A0591 ULN2003 driver PCB", 35, 32, 1.6, 0, 2.5, 0, "green", false, [[2.25, 3.25], [-2.25, 3.25], [2.25, -3.25], [-2.25, -3.25] ],
-    [ [ 12.25,  8.3,  -90, "jst_xh", 5],
+    [ [ 11.725, 8.3,  -90, "jst_xh", 5],
       [ -6.5,  10,      0, "2p54header", 1, 4],
       [ 20.4,  -4.5,    0, "2p54header", 4, 1],
       [ 20.4,  11,  180, "pdip", 16, "ULN2803AN", true],
@@ -408,7 +408,7 @@ RAMPSEndstop = ["RAMPSEndstop", "RAMPS Endstop Switch",
         [2, 2, false], [2, 13.5, false], [17, 13.5], [36, 13.5]
     ],
     [
-        [ 12,    8,   -90, "jst_xh", 3, true, "white", "silver"],
+        [ 11.6,  8,   -90, "jst_xh", 3, true, "white", "silver"],
         [ 26.5, 12.75,  0, "microswitch", small_microswitch],
         [ 27.5, 17.5,  15, "chip", 15, 0.5, 4.5, "silver"],
     ],

vitamins/pin_header.scad

@@ -29,13 +29,18 @@ function hdr_pin_width(type)    = type[4];  //! Header pin size
 function hdr_pin_colour(type)   = type[5];  //! Header pin colour
 function hdr_base_colour(type)  = type[6];  //! Header insulator colour
 function hdr_socket_depth(type) = type[7];  //! Socket depth for female housing
+function hdr_box_size(type)     = type[8];  //! Box header outside dimensions
+function hdr_box_wall(type)     = type[9];  //! Box header wall thickness
+function hdr_y_offset(type)     = type[10]; //! Y offset of pins from center of the box
+function hdr_ra_box_offset(type)= type[11]; //! Offset between back of the box and the pins
+function hdr_ra_height(type)    = type[12]; //! Height of right angle connector
 
 module pin(type, length = undef) { //! Draw a header pin
     w = hdr_pin_width(type);
     l = length == undef ? hdr_pin_length(type) : length;
     chamfer = w / 2;
     color(hdr_pin_colour(type))
-        translate_z(l / 2 -hdr_pin_below(type))
+        translate_z(l / 2 - hdr_pin_below(type))
             hull() {
                 cube([w, w, l - 2 * chamfer], center = true);
 
@@ -108,9 +113,11 @@ module pin_header(type, cols = 1, rows = 1, smt = false, right_angle = false, cu
 
 module box_header(type, cols = 1, rows = 1, smt = false, cutout = false) { //! Draw box header
     pitch =  hdr_pitch(type);
+    size = hdr_box_size(type);
     w = cols * pitch + 7.62;
     l = rows * pitch + 3.52;
-    h = 8.7;
+    h = size.z;
+    t = hdr_box_wall(type);
     base = h - 6.4;
 
     if(cutout)
@@ -131,7 +138,7 @@ module box_header(type, cols = 1, rows = 1, smt = false, cutout = false) { //! D
                     difference() {
                         square([w, l], center = true);
 
-                        square([w - 2.4, l - 2.4], center = true);
+                        square([w - t, l - t], center = true);
 
                         translate([0, -l / 2])
                             square([4.5, 4.5], center = true);
@@ -225,65 +232,95 @@ 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 = 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;
     pitch = hdr_pitch(type);
+    size = hdr_box_size(type) + [(pin_count - 1) * pitch, 0, 0];
+    pinOffsetX = hdr_box_size(type).x / 2;                          // Offset from last pin to box edge
+    wallThickness = hdr_box_wall(type);
+    y_offset = hdr_y_offset(type);
+    ra_box_offset = hdr_ra_box_offset(type);
+    ra_h = hdr_ra_height(type);
+    ra_z = ra_h - size.y / 2;
+    ra_extra = ra_h - size.y;                                   // thicker base for right angle version
+    pinWidth = hdr_pin_width(type);
 
-    module jst_xh_socket(type, pin_count) {
-        socketSizeZ = hdr_socket_depth(type);
-        pinOffsetX = 2.45;
-        sizeY = 5.75;
-        wallThickness = 0.8;
-        size = [pinOffsetX * 2 + (pin_count - 1) * pitch, sizeY, socketSizeZ];
-        translate([-size[0] / 2, -size[1] / 2, 0]) {
-            // the base
-            cube([size[0], size[1], wallThickness]);
-            // the three full sides
-            translate([0, size[1] - wallThickness, 0])
-                cube([size[0], wallThickness, size[2]]);
-            cube([wallThickness, size[1], size[2]]);
-            translate([size[0] - wallThickness, 0, 0])
-                cube([wallThickness, size[1], size[2]]);
-            // the sides with cutouts
-            cube([size[0], wallThickness, 2]);
-            cutoutWidth = 1;
-            cutoutOffset = pinOffsetX - cutoutWidth / 2;
-            cube([cutoutOffset, wallThickness, size[2]]);
-            translate([size[0] - cutoutOffset, 0, 0])
-                cube([cutoutOffset, wallThickness, size[2]]);
-            cube([cutoutOffset, wallThickness, size[2]]);
-            translate([size[0]-cutoutOffset, 0, 0])
-                cube([cutoutOffset, wallThickness, size[2]]);
-            translate([cutoutOffset + cutoutWidth, 0, 0])
-                cube([size[0] - 2 * (cutoutWidth + cutoutOffset), wallThickness, size[2]]);
+    module jst_xh_socket(type, pin_count, ra = false) {
+        module wall() {
+            difference() {
+                square([size.x, size.y], center = true);
+
+                offset(-wallThickness)
+                    square([size.x, size.y], center = true);
+            }
+            if(right_angle)
+                translate([0, size.y / 2 + ra_extra / 2])
+                    square([size.x, ra_extra], center = true);
         }
-    } // end module
 
+        module slots() {
+            cutoutWidth = 1.3;
+            cutoutOffset = pinOffsetX + cutoutWidth / 2 - hdr_pin_width(type) / 2;
+            for(side = [-1, 1])
+                translate([side * (size.x / 2 - cutoutOffset), -size.y / 2 + wallThickness / 2])
+                    square([cutoutWidth, 2 * wallThickness], center = true);
+        }
+
+        linear_extrude(wallThickness)
+            square([size.x, size.y], center = true);                    // the base
+
+        linear_extrude(size.z / 2)                                      // full walls up to the slots
+            wall();
+
+        linear_extrude(size.z)                                          // slotted walls to the top
+            difference() {
+                wall();
+
+                if(type[0] == "jst_xh_header") {
+                    if(pin_count > 2)
+                        slots();
+                    else
+                        hull()
+                            slots();
+
+                    translate([0, -size.y / 2 + 3 * wallThickness / 2])
+                        square([size.x + 1, wallThickness], center = true);
+                }
+
+                if(type[0] == "jst_ph_header") {
+                    translate([0, -size.y / 2 + wallThickness / 2])
+                        square([max((pin_count - 2) * pitch, 1), 2 * wallThickness], center = true);
+
+                    translate([0, -y_offset / 2 - pinWidth / 4])
+                        square([size.x + 1, y_offset + pinWidth / 2], center = true);
+                }
+            }
+    } // end module
 
     color(colour)
         if(right_angle)
-            translate([0, -1, sizeY / 2])
+            translate([0, -ra_box_offset, ra_z])
                 rotate([-90, 0, 180])
-                    jst_xh_socket(type, pin_count);
+                    jst_xh_socket(type, pin_count, true);
         else
-            jst_xh_socket(type, pin_count);
+            translate([0, y_offset])
+                jst_xh_socket(type, pin_count);
 
     color(pin_colour)
         for(x = [0 : pin_count - 1]) {
-            pinWidth = hdr_pin_width(type);
-            verticalPinLength = right_angle ? hdr_pin_below(type) + sizeY / 2 : hdr_pin_length(type);
-            translate([pitch * (x - (pin_count - 1) / 2), 0, 0]) {
+            verticalPinLength = right_angle ? hdr_pin_below(type) + ra_z + y_offset : hdr_pin_length(type);
+            horizontalPinLength = hdr_pin_length(type) - hdr_pin_below(type) + ra_box_offset;
+            translate([pitch * (x - (pin_count - 1) / 2), 0]) {
                 pin(type, verticalPinLength);
 
                 if(right_angle) {
-                    translate([0, -pinWidth / 2,  sizeY / 2 - pinWidth / 2])
+                    translate([0, -pinWidth / 2, ra_z - pinWidth / 2 + y_offset])
                         rotate([0, -90, 0])
                             rotate_extrude(angle = 90, $fn = 32)
                                 translate([0, -pinWidth / 2])
                                     square(pinWidth);
 
-                    translate([0, -sizeY / 2 - 3 * pinWidth / 4, sizeY / 2])
-                        rotate([90,0,0])
-                            pin(type, hdr_pin_length(type) - hdr_pin_below(type));
+                    translate([0, -hdr_pin_below(type), ra_z + y_offset])
+                        rotate([90, 0, 0])
+                            pin(type, horizontalPinLength);
                 }
             }
         }

vitamins/pin_headers.scad

@@ -17,15 +17,16 @@
 // 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
-//
-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];
+//                               p     p     b    p     p       b         s    b                 b    p      r     r
+//                               i     i     e    i     i       a         o    o                 o    i      a     a
+//                               t     n     l    n     n       s         c    x                 x    n
+//                               c           o                  e         k                                  b     h
+//                               h     l     w    w     c                      s                 t    y
+//                                                              c         h    z                             o
+//                                                                                                           f
+2p54header    = ["2p54header",   2.54, 11.6, 3.2, 0.66, "gold", grey(20), 8.5, [0,   0,    8.7], 2.4, 0,     0,    0  ];
+jst_xh_header = ["jst_xh_header",2.5,  10,   3.4, 0.64, "gold", grey(90), 0,   [4.9, 5.75, 7],   0.8, 0.525, 0.6,  6.1];
+jst_ph_header = ["jst_ph_header",2.0,   9,   3.4, 0.64, silver, grey(90), 0,   [3.9, 4.5,  6],   0.6, 0.55,  0.25, 4.8];
 
 pin_headers = [ 2p54header ];
 

vitamins/pulleys.scad

@@ -35,7 +35,8 @@ GT2x12_pulley        = ["GT2x12_pulley",        "GT2RD", 12,  7.15, GT2x6,  6.5,
 GT2x20_toothed_idler = ["GT2x20_toothed_idler", "GT2",   20, 12.22, GT2x6,  6.5,  18, 0,   4, 18.0, 1.0, 0, 0,    false,         0];
 GT2x20_plain_idler   = ["GT2x20_plain_idler",   "GT2",    0, 12.0,  GT2x6,  6.5,  18, 0,   4, 18.0, 1.0, 0, 0,    false,         0];
 GT2x16_toothed_idler = ["GT2x16_toothed_idler", "GT2",   16,  9.75, GT2x6,  6.5,  14, 0,   3, 14.0, 1.0, 0, 0,    false,         0];
-GT2x16_plain_idler   = ["GT2x16_plain_idler",   "GT2",    0,  9.63, GT2x6,  7.0,  13, 0,   3, 13.0, 1.0, 0, 0,    false,         0];
+GT2x16_plain_idler   = ["GT2x16_plain_idler",   "GT2",    0,  9.63, GT2x6,  6.5,  13, 0,   3, 13.0, 1.0, 0, 0,    false,         0];
+GT2x16x7_plain_idler = ["GT2x16x7_plain_idler", "GT2",    0,  9.63, GT2x6,  7.0,  13, 0,   3, 13.0, 1.0, 0, 0,    false,         0];
 
 pulleys = [T5x10_pulley,
            T2p5x16_pulley,
@@ -45,6 +46,7 @@ pulleys = [T5x10_pulley,
            GT2x20_toothed_idler,
            GT2x20_plain_idler,
            GT2x16_toothed_idler,
-           GT2x16_plain_idler];
+           GT2x16_plain_idler,
+           GT2x16x7_plain_idler];
 
 use <pulley.scad>

vitamins/shaft_coupling.scad

@@ -0,0 +1,65 @@
+//
+// 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/>.
+
+//
+//! Shaft couplings
+//
+include <../core.scad>
+use <../utils/tube.scad>
+
+function sc_length(type)       = type[1]; //! Coupling length
+function sc_diameter(type)     = type[2]; //! Coupling outer diameter
+function sc_diameter1(type)    = type[3]; //! Diameter of smaller shaft
+function sc_diameter2(type)    = type[4]; //! Diameter of larger shaft
+
+module shaft_coupling(type, colour = "silver") { //! Draw the shaft coupling
+    vitamin(str("shaft_coupling(", type[0], "): Shaft coupling ", type[0]));
+
+    length = sc_length(type);
+    radius = sc_diameter(type) / 2;
+    r1 = sc_diameter1(type) / 2;
+    r2 = sc_diameter2(type) / 2;
+
+    grub_length = 3;
+    module grub_screw_positions() {
+        grub_offset_z = 5;
+        for(z = [-length / 2 + grub_offset_z, length / 2 - grub_offset_z])
+            translate_z(z)
+                for(a = [0, 90])
+                    rotate([-90, 0, a])
+                        translate_z(radius + 1)
+                            children();
+    }
+
+    color(colour) {
+        render(convexity=2) difference() {
+            union() {
+                translate_z(-length / 2)
+                    tube(radius, r1, length / 2, false);
+
+                tube(radius, r2, length / 2, false);
+            }
+            grub_screw_positions()
+                rotate([180, 0, 0])
+                    cylinder(r = screw_radius(M3_grub_screw), h = 5);
+        }
+    }
+
+    grub_screw_positions()
+        not_on_bom() screw(M3_grub_screw, grub_length);
+}

vitamins/shaft_couplings.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/>.
+//
+
+//
+//! Shaft couplings
+//
+
+//                                   L   D        d1   d2
+SC_5x8_rigid  = [ "SC_5x8_rigid",    25, 12.5,    5,   8 ];
+
+shaft_couplings = [SC_5x8_rigid];
+
+use <shaft_coupling.scad>

vitamins/stepper_motor.scad

@@ -23,8 +23,10 @@
 include <../core.scad>
 include <ring_terminals.scad>
 
+include <../vitamins/pin_headers.scad>
 use <../utils/tube.scad>
 use <../utils/thread.scad>
+use <../utils/round.scad>
 use <washer.scad>
 use <rod.scad>
 
@@ -37,9 +39,10 @@ function NEMA_boss_height(type) = type[6]; //! Boss height
 function NEMA_shaft_dia(type)   = type[7]; //! Shaft diameter
 function NEMA_shaft_length(type)= type[8]; //! Shaft length above the face, if a list then a leadscrew: length, lead, starts
 function NEMA_hole_pitch(type)  = type[9]; //! Screw hole pitch
+function NEMA_cap_heights(type) = type[10]; //! Height of the end cap at the corner and the side
+
 function NEMA_holes(type)       = [-NEMA_hole_pitch(type) / 2, NEMA_hole_pitch(type) / 2]; //! Screw positions for for loop
 function NEMA_big_hole(type)    = NEMA_boss_radius(type) + 0.2; //! Clearance hole for the big boss
-
 stepper_body_colour = "black";
 stepper_cap_colour  = grey(50);
 stepper_machined_colour = grey(90);
@@ -52,19 +55,20 @@ module NEMA_outline(type) //! 2D outline
         circle(NEMA_radius(type));
     }
 
-module NEMA(type, shaft_angle = 0) { //! Draw specified NEMA stepper motor
+module NEMA(type, shaft_angle = 0, jst_connector = false) { //! Draw specified NEMA stepper motor
     side = NEMA_width(type);
     length = NEMA_length(type);
     body_rad = NEMA_body_radius(type);
     boss_rad = NEMA_boss_radius(type);
     boss_height =NEMA_boss_height(type);
     shaft_rad = NEMA_shaft_dia(type) / 2;
-    cap = 8;
+    cap = NEMA_cap_heights(type)[1];
+    cap2 = NEMA_cap_heights(type)[0];
     vitamin(str("NEMA(", type[0], "): Stepper motor NEMA", round(NEMA_width(type) / 2.54), " x ", length, "mm"));
-    thread_d = 3;                                                           // Is this always the case?
+    thread_d = 3;                                                       // Is this always the case?
 
     module cap_shape(end)
-        difference() {
+        round(0.5, $fn = 32) difference() {
             intersection() {
                 square([side, side], center = true);
 
@@ -92,12 +96,41 @@ module NEMA(type, shaft_angle = 0) { //! Draw specified NEMA stepper motor
             cap_shape(1);
     }
 
-    color(stepper_cap_colour)                                       // aluminium end caps
-        for(end = [-1, 1])
+    pcb_thickness = 1.6;
+    header = jst_ph_header;
+    socket_size = hdr_box_size(header);
+    tabSize = [16, 4, cap - hdr_ra_height(header) - pcb_thickness];
+    color(stepper_cap_colour) {                                     // aluminium end caps
+        for(end = [-1, 1]) {
             translate_z(-length / 2 + end * (length - cap) / 2)
                 linear_extrude(cap, center = true)
                     cap_shape(end);
 
+            translate_z(-length / 2 + end * (length - cap2) / 2)
+                linear_extrude(cap2, center = true)
+                    difference() {
+                        cap_shape(end);
+
+                        circle(body_rad);
+                    }
+        }
+
+        if(jst_connector)
+            translate([-tabSize.x / 2, side / 2, -length])
+                cube(tabSize);
+    }
+
+    if(jst_connector)
+        translate([0, side / 2, -length + cap - hdr_ra_height(header)]) {
+            rotate(180)
+                not_on_bom()
+                    jst_xh_header(header, 6, true);
+
+            translate_z(-pcb_thickness / 2)
+                color("green")
+                    cube([socket_size.x + 5 * 2, tabSize.y * 2, pcb_thickness], true);
+        }
+
     if(show_threads)
         for(x = NEMA_holes(type), y = NEMA_holes(type))
             translate([x, y, -cap / 2])
@@ -111,15 +144,16 @@ module NEMA(type, shaft_angle = 0) { //! Draw specified NEMA stepper motor
                     cylinder(r = shaft_rad, h = shaft + 5);  // shaft
             else
                 not_on_bom()
-                    leadscrew(shaft_rad * 2, shaft.x + 5, shaft.y, shaft.z, center = false)
+                    leadscrew(shaft_rad * 2, shaft.x + 5, shaft.y, shaft.z, center = false);
 
-    translate([0, side / 2, -length + cap / 2])
-        rotate([90, 0, 0])
-            for(i = [0 : 3])
-                rotate(225 + i * 90)
-                    color(["red", "blue","green","black"][i])
-                        translate([1, 0, 0])
-                            cylinder(r = 1.5 / 2, h = 12, center = true);
+    if(!jst_connector)
+        translate([0, side / 2, -length + cap / 2])
+            rotate([90, 0, 0])
+                for(i = [0 : 3])
+                    rotate(225 + i * 90)
+                        color(["red", "blue","green","black"][i])
+                            translate([1, 0, 0])
+                                cylinder(r = 1.5 / 2, h = 12, center = true);
 }
 
 module NEMA_screw_positions(type, n = 4) { //! Positions children at the screw holes

vitamins/stepper_motors.scad

@@ -22,14 +22,14 @@
 //
 
 //                                   corner  body    boss    boss          shaft
-//                     side, length, radius, radius, radius, depth, shaft, length,      holes
-NEMA17  = ["NEMA17",   42.3, 47,     53.6/2, 25,     11,     2,     5,     24,          31 ];
-NEMA17M = ["NEMA17M",  42.3, 40,     53.6/2, 25,     11,     2,     5,     20,          31 ];
-NEMA17M8= ["NEMA17M8", 42.3, 40,     53.6/2, 25,     11,     2,     8,     [280, 8, 4], 31 ];
-NEMA17S = ["NEMA17S",  42.3, 34,     53.6/2, 25,     11,     2,     5,     24,          31 ];
-NEMA16  = ["NEMA16",   39.5, 19.2,   50.6/2, 50.6/2, 11,     2,     5,     12,          31 ];
-NEMA14  = ["NEMA14",   35.2, 36,     46.4/2, 21,     11,     2,     5,     21,          26 ];
-NEMA23  = ["NEMA23",   56.4, 51.2,   75.7/2, 35,   38.1/2, 1.6,   6.35,    24,        47.1 ];
+//                     side, length, radius, radius, radius, depth, shaft, length,      holes, cap heights
+NEMA17  = ["NEMA17",   42.3, 47,     53.6/2, 25,     11,     2,     5,     24,          31,    [11.5,  9]];
+NEMA17M = ["NEMA17M",  42.3, 40,     53.6/2, 25,     11,     2,     5,     20,          31,    [12.5, 11]];
+NEMA17M8= ["NEMA17M8", 42.3, 40,     53.6/2, 25,     11,     2,     8,     [280, 8, 4], 31,    [12.5, 11]];
+NEMA17S = ["NEMA17S",  42.3, 34,     53.6/2, 25,     11,     2,     5,     24,          31,    [8,     8]];
+NEMA16  = ["NEMA16",   39.5, 19.2,   50.6/2, 50.6/2, 11,     2,     5,     12,          31,    [8,     8]];
+NEMA14  = ["NEMA14",   35.2, 36,     46.4/2, 21,     11,     2,     5,     21,          26,    [8,     8]];
+NEMA23  = ["NEMA23",   56.4, 51.2,   75.7/2, 35,   38.1/2, 1.6,   6.35,    24,        47.1,    [8,     8]];
 
 stepper_motors = [NEMA14, NEMA16, NEMA17S, NEMA17M, NEMA17, NEMA23];
 

vitamins/tubing.scad

@@ -21,6 +21,7 @@
 //! Tubing and sleeving. The internal diameter can be forced to stretch it over something.
 //
 include <../utils/core/core.scad>
+include <../utils/tube.scad>
 
 function tubing_material(type) = type[1]; //! Material description
 function tubing_od(type)       = type[2]; //! Outside diameter
@@ -38,10 +39,15 @@ module tubing(type, length = 15, forced_id = 0, center = true) { //! Draw specif
         vitamin(str("tubing(", type[0], arg(length, 15), "): ", tubing_material(type), " ID ", original_id, "mm x ",length, "mm"));
     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 = center, convexity = 4)
-            difference() {
-                circle(d = od);
-                circle(d = id);
-            }
+
+    if(tubing_material(type) == "Carbon fiber")
+        woven_tube(od / 2, id /2, center = center, length, colour = tubing_colour(type));
+    else
+        color(tubing_colour(type))
+            linear_extrude(length, center = center, convexity = 4)
+                difference() {
+                    circle(d = od);
+                    circle(d = id);
+                }
 }
+

vitamins/tubings.scad

@@ -19,22 +19,23 @@
 
 //
 // Tubing and sleeving
-//
-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, [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]];
+//                            Description           OD        ID  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, [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]];
+CARBONFIBER10 = ["CBNFIB10",  "Carbon fiber",       10.0,    8.0,  [0.3,0.3,0.3]];
 
-tubings = [PVC64, PVC85, NEOP85, PTFE07, PTFE20, PF7, PTFE2_3, PTFE2_4, PTFE4_6, HSHRNK16, HSHRNK24, HSHRNK64, HSHRNK100];
+tubings = [PVC64, PVC85, NEOP85, PTFE07, PTFE20, PF7, PTFE2_3, PTFE2_4, PTFE4_6, HSHRNK16, HSHRNK24, HSHRNK64, HSHRNK100, CARBONFIBER10];
 
 use <tubing.scad>