deleted duplicates

printer_mods/techprolet/README.md

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-## 2020 Aplic Cam Mount
-
-![2020 Aplic Cam Mount installation example](img/2020_aplic_cam_mount.jpg)
-
-2020 Aplic Cam Mount is a 3D printed part that is used to mount a cheapo aplic hd camera to the 2020 frame at bed level. The mount is designed to be held in place with a M3 screw and a M3 nut. Additionaly, you need 4 M3 heat inserts, 4 M3 spacers and 4 M3x6 screws for mounting the camera on the mount (pun intended).
-
-
-### Files
-* `aplic_cam_mount_voron_2_4_300x300.stl` - The mount STL, angled for the Voron 2.4 300x300mm geometry.
-* `aplic_cam_mount.scad` - The OpenSCAD file for the mount (you can play modify the parameters for your own printer's geometry).
-
-### Parts
-The mount is designed to be used with the following parts: 
-```
-- 1x 3d printed 2020 Aplic Cam Mount
-- 1x Aplic Webcam - 1920x1080P 
-- 1x M3x10 screw
-- 2x M3 nut
-- 4x M3 heat insert
-- 4x M3 spacer
-- 4x M3x6 screws
-```
-### Printing
-The mount is printed in the orientation that it is in the STL file. The mount is printed should be printed with the recommended Voron settings (40% infill and 4 perimeters) in ABS/ASA. That said, I've printed mine PETG and it still holds. No supports or mount needed
-
-
-
-### Credits and license
-The mount was designed around the **2020 Cable Clamp** by ed_419522  https://www.printables.com/model/307909-2020-cable-clamp
-
-Copyright 2024, Pavlos Iliopoulos.
-
-    2020 Aplic Cam Mount 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.
-
-    2020 Aplic Cam Mount 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 this program. If not, see <https://www.gnu.org/licenses/>. 
-
-The author does not hold any copyright or has any affiliation with aplic and/or its products.

printer_mods/techprolet/aplic_cam_mount.scad

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-/*
-Copyright 2024, Pavlos Iliopoulos.
-
-    2020 Aplic Cam Mount 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.
-
-    2020 Aplic Cam Mount 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 this program. If not, see <https://www.gnu.org/licenses/>. 
-
-The author does not hold any copyright or has any affiliation with aplic and/or its products.
-    */
-
-
-
-$fn = 64;
-
-// Wall thickness
-wall_thickness = 3;
-
-// Dimensions of the anchor
-anchor_l = 15;
-anchor_w = 12;
-anchor_h = 6;
-
-// Hole distances
-hole_distance_x = 54;
-hole_distance_y = 17;
-corrective_hole_x_offset = 0.8;
-
-// Dimensions of the wall
-wall_l = hole_distance_x + 3 * wall_thickness;
-wall_w = hole_distance_y + 3 * wall_thickness;
-
-// Camera elevation
-cam_elevation = 25;
-
-// Screw dimensions
-screw_length = 10;
-screw_receiver_d = 6;
-
-// Hex hole dimensions
-hex_hole_y = -7;
-hex_hole_d = 6;
-
-// Support dimensions
-support_w = anchor_l - 2 * wall_thickness;
-support_x_offset = (anchor_w - wall_thickness) / 2;
-
-// Heat insert dimensions
-heat_insert_d = 4.4;
-heat_insert_thickness = 13;
-
-// Calculate the camera viewing angle
-cam_viewing_angle_x = atan(74 / 148); // arctan( (distance between 2 rods/2) / (distance from back + stage side/2) )
-echo("CAM VIEWING ANGLE x:", cam_viewing_angle_x);
-
-// Define the solid anchor module
-module solid_anchor() {
-    anchor_l = 15;
-    anchor_w = 12;
-    anchor_h = 6;
-
-    tie_w = 4;
-    tie_offset_y = 9;
-    border_w = 0.5;
-
-    // Length is 15mm, width is 12mm
-    union() {
-        import("./M3_CABLE_ANCHOR.STL");
-        translate([border_w, tie_offset_y, 0]) {
-            cube([anchor_w - 2 * border_w, tie_w, anchor_h]);
-        }
-    }
-}
-
-// Define the back panel module
-module back_panel() {
-    hull() {
-        translate([0, wall_thickness / 2, anchor_h / 2]) {
-            cube([anchor_w, wall_thickness, anchor_h], center = true);
-        }
-        translate([0, wall_thickness / 2, wall_w / 2 + anchor_h + cam_elevation]) {
-            cube([wall_l, wall_thickness, wall_w], center = true);
-        }
-    }
-}
-
-// Define the inserts module
-module inserts() {
-    translate([0, 0, wall_w / 2 + anchor_h + cam_elevation]) {
-        translate([wall_thickness, -(wall_l * sin(cam_viewing_angle_x) / 2), 0]) {
-            rotate([0, 0, cam_viewing_angle_x]) {
-                for (x = [-1, 1]) {
-                    for (y = [-1, 1]) {
-                        translate([corrective_hole_x_offset + x * hole_distance_x / 2, heat_insert_thickness / 2, y * hole_distance_y / 2]) {
-                            rotate([90, 0, 0]) {
-                                cylinder(h = heat_insert_thickness, d = heat_insert_d);
-                            }
-                        }
-                    }
-                }
-            }
-        }
-    }
-}
-
-module rotated_wall() {
-    translate([wall_thickness, -(wall_l * sin(cam_viewing_angle_x) / 2), 0]) {
-        rotate([0, 0, cam_viewing_angle_x]) {
-            cube([wall_l, wall_thickness, wall_w], center = true);
-        }
-    }
-}
-
-module cam_mount() {
-    difference() {
-        translate([0, wall_thickness / 2, wall_w / 2 + anchor_h + cam_elevation]) {
-            hull() {
-                #cube([wall_l, wall_thickness, wall_w], center=true);
-                #rotated_wall();
-            }
-        }
-
-        #translate([0, hex_hole_y, 0]) {
-        cylinder(h = anchor_h + cam_elevation + wall_w, d = hex_hole_d);
-        }
-    }
-}
-
-module supports() {
-    for (i = [-1, 1]) {
-        translate([i * support_x_offset, -support_w / 2, (cam_elevation + anchor_h) / 2]) {
-            cube([wall_thickness, support_w, cam_elevation + anchor_h], center = true);
-        }
-    }
-}
-
-module aplic_complete_mount() {
-    translate([-anchor_w / 2, wall_thickness - anchor_l, 0]) {
-        solid_anchor();
-    }
-    difference() {
-        union() {
-            back_panel();
-            cam_mount();
-        }
-
-        #inserts ();
-    }
-
-    supports();
-}
-
-rotate([270, 0, 0]){
-    aplic_complete_mount();
-}