body/body.scad


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include <design.scad>
include <helpers.scad>
include <holes.scad>
include <m12_connectors.scad>
include <m12_lense_holder.scad>
include <m12_lense_holder_adapter.scad>
include <noctua_nf_a4x20.scad>
include <radxa_zero_3e.scad>
include <veye_imx287.scad>

// wall and wall thickness
$wawt = -$scannerBodyFrontWallOffsetMm + $scannerBodyWallThicknessMm;

module cam_and_lense()
{
    translate([0, 0, $lenseYPosMm])
    rotate([-$opticalAxisAngleDegrees, 0, 0])
    {
        m12_lense_holder();
        %m12_lense();

        translate([0, -$lenseSensorDistanceMm, 0])
        rotate([$sensorLenseAngleDegrees, 0, 0])
        veye_imx287_natural();
    }
}

module camera_hole()
{
    // TODO: calc Y (scanner coords) offset instead of
    // hardcoding it
    y_offset = 100;
    translate([0, 0, y_offset])
    // move to the front border of scanner body
    translate([0, $wawt, 0])
    front_glass_hole(gw = 26.6, gh = 19.6, gt = 2, gcr = 1);
}

module laser_hole()
{
    // TODO: calc Y (scanner coords) offset instead of
    // hardcoding it
    y_offset = 0;
    translate([0, 0, y_offset])
    // move to the front border of scanner body
    translate([0, $wawt, 0])
    front_glass_hole(gw = 14, gh = 6, gt = 2, gcr = 1);
}

module visualize_yz_range()
{
    lenseY = $lenseYPosMm;
    zBase = $actualZBaseMm + $wawt;
    farZ = zBase + $actualZRangeMm;
    
    color("red", 0.3)
    rotate([0, -90, 0])
    %polygon([
        [lenseY, 0],
        [0, zBase],
        [0, farZ],
    ]);
}

module visualize_xz_range()
{
    zBase = $actualZBaseMm + $wawt;
    farZ = zBase + $actualZRangeMm;
    
    color("red", 0.3)
    %polygon(
        [[$actualXStartMm / 2, zBase],
        [-$actualXStartMm / 2, zBase],
        [-$actualXEndMm / 2, farZ],
        [$actualXEndMm / 2, farZ],]);
}

cam_and_lense();
camera_hole();
laser_hole();
visualize_yz_range();
visualize_xz_range();

// laser
translate([0, -$laserZOffsetMm, 0])
{
    %laser_body();
    laser_holder();
}

// radxa
translate([0, 0, 20])
translate([
    0,
    -$scannerBodyFrontWallOffsetMm - 5,
    radxa_zero_3e_pcb_h - 10])
rotate([90, 0, 0])
//radxa_zero_3e_with_protoboard();
radxa_zero_3e_with_protoboard_and_connectors();

// noctua fan
//translate([0, -$laserBodyLengthMm, $lenseYPosMm + 20])
translate([0, -$scannerBodyFrontWallOffsetMm, 40])
*noctua_nf_a4x20();

// main frame
module scanner_main_frame()
{
    lhs = laser_holder_size();
    wt = $scannerBodyWallThicknessMm;
    wzo = $scannerBodyFrontWallOffsetMm;
    
    // in scanner coords
    // inner height is a bit random
    // TODO: choose constant size to use one frame for
    // many similar ranges
    main_frame_height_y = 150;
    main_frame_width_x = 34;
    main_frame_depth_z = 56;
    
    // inner height, width, depth and radius
    ih = main_frame_height_y;
    iw = main_frame_width_x;
    id = main_frame_depth_z;
    ir = wt;
    
    // now try to cut body with rounded corners to simplify
    // cnc manufacturing
    // TODO: move this shit to a module
    difference()
    {
        hull()
        {
            // outer cylinders
            union()
            {
                for (yd = [0, -id], zd = [0, ih])
                {
                    translate([0, -wzo + yd, -lhs[2] / 2 + zd])
                    rotate([0, 90, 0])
                    cylinder($fn = dToFn(ir * 2), r = ir, h = iw, center = true);
                }
            }
        }
        // inner cylinders
        hull()
        {
            union()
            {
                for (yd = [0 - ir, -id + ir], zd = [0 + ir, ih - ir])
                {
                    translate([0, -wzo + yd, -lhs[2] / 2 + zd])
                    rotate([0, 90, 0])
                    // scale by x a bit to fully cut
                    cylinder($fn = dToFn(ir * 2), r = ir, h = iw * 1.1, center = true);
                }
            }
        }
    }
    
    // TODO: and now add some stands for screwing left/right covers
    // TODO: simplify inner cut cube after implementing this:
    // rounded corners won't be needed anymore
    
    // add outer m12 connectors
    translate([0, -wzo - id, 20 + m12_male_conn_body_thick_part_d + 5])
    m12_female_connector();
    
    translate([0, -wzo - id, 20])
    m12_male_connector();
    
    // chinese fan
    //translate([0, -$scannerBodyFrontWallOffsetMm, 40])
    translate([0, ld3007ms_t - wzo - id, 80])
    %ld3007ms();
}

%scanner_main_frame();