All capper work. Debug firmware for testing. STL of cap as printed.
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2f9201716a
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@ -1,6 +1,6 @@
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#include <Servo.h>
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boolean debug_state = false;
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boolean debug_state = true;
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/*
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----------------------------------------------------
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@ -30,9 +30,10 @@ volatile boolean cap_state = false;
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volatile boolean endstop_state = false;
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volatile int angle = 0;
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const int cap_on_angle = 0;
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const int cap_off_angle = 60;
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const int cap_on_angle = 153;
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const int cap_off_angle = 93;
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volatile long timer = 0;
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volatile int current_angle = 0;
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const char cmd_cap_on = 'A';
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const char cmd_cap_off = 'B';
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@ -48,7 +49,7 @@ const int serialDelay = 5;
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Servo servo;
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//SG-5010 speed 0.18s / 60 degree
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//converted to milliseconds/angle
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const float servoSpeed = 180.0 / 60.0;
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const float servoSpeed = 200.0 / 60.0;
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void setup() {
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Serial.begin(57600);
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@ -108,14 +109,10 @@ void Pins_init () {
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void Servo_init () {
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servo.attach(PIN_SERVO);
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delay(100);
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servo.write(180);
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delay(500);
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servo.write(0);
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delay(500);
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if (!Read_endstop()) {
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Cap_off(true);
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}
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/*if (!Read_endstop()) {
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Cap_off(true);
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}*/
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}
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boolean Read_endstop () {
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@ -124,7 +121,7 @@ boolean Read_endstop () {
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void Servo_angle (int newAngle) {
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servo.write(newAngle);
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delay(Servo_delay(newAngle, angle));
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delay(Servo_delay(newAngle, angle) + 50);
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angle = newAngle;
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}
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@ -134,7 +131,8 @@ int Servo_delay (int angleA, int angleB) {
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}
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void Cap_off (boolean suppress) {
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if (cap_state) {
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current_angle = servo.read();
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if (cap_state || current_angle != cap_off_angle) {
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Servo_angle(cap_off_angle);
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cap_state = false;
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} else {
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@ -147,7 +145,8 @@ void Cap_off (boolean suppress) {
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}
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void Cap_on (boolean suppress) {
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if (!cap_state) {
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current_angle = servo.read();
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if (!cap_state || current_angle != cap_on_angle) {
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Servo_angle(cap_on_angle);
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cap_state = true;
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} else {
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@ -11,8 +11,12 @@ LensY = 20;
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CapOffsetX = -50;
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CapOffsetY = -11;
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CapLengthX = 50;
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CapWidthZ = 4;
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BoltSpacingX = 10;
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BoltSpacingY = 49;
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BoltD = 5;
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module Mount () {
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$fn = 200;
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@ -31,7 +35,10 @@ module Mount () {
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cylinder(r=R(LensVoidDiameter), h=LensY+1, center=true);
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translate([50, 0, -6]) {
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cube([20, 40.25, 10], center = true);
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translate([0, BoltSpacingY/2, 0])
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translate([BoltSpacingX/2, BoltSpacingY/2, 0])cylinder(r=R(BoltD), h=20, center=true);
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translate([-BoltSpacingX/2, BoltSpacingY/2, 0])cylinder(r=R(BoltD), h=20, center=true);
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translate([BoltSpacingX/2, -BoltSpacingY/2, 0])cylinder(r=R(BoltD), h=20, center=true);
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translate([-BoltSpacingX/2, -BoltSpacingY/2, 0])cylinder(r=R(BoltD), h=20, center=true);
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}
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}
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}
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@ -46,13 +53,34 @@ module Cap () {
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union(){
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translate([CapOffsetX,CapOffsetY,0]){
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cylinder(r=R(LensVoidDiameter) + 4, h=4, center = true);
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translate([35,(LensVoidDiameter/4)+1,0]) cube([50,R(LensVoidDiameter),4], center=true);
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}
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cylinder(r=5,h=10,center=true);
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}
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cylinder(r=2,h=10+1,center=true);
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translate([35,(LensVoidDiameter/4)+1,0]) {
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difference () {
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cube([CapLengthX,R(LensVoidDiameter),CapWidthZ], center=true);
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translate([R(CapLengthX)-(R(LensVoidDiameter)/2), 0, 0]) difference() {
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cube([R(LensVoidDiameter),R(LensVoidDiameter), CapWidthZ+1], center=true);
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cylinder(r=R(LensVoidDiameter)/2, h=CapWidthZ+1+1, center=true);
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translate([-R(LensVoidDiameter)/2, 0, 0]) cube([R(LensVoidDiameter),R(LensVoidDiameter), CapWidthZ+1], center=true);
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}
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}
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}
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}
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translate([0, 0, -4]) cylinder(r=5,h=4,center=true);
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}
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translate([0, 0, -4]) cylinder(r1=R(5.5), r2=R(5.4),h=4.01,center=true);
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cylinder(r=R(5.4),h=10,center=true);
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}
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}
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module Debug () {
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Mount();
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translate([-CapOffsetX,-CapOffsetY,0]) rotate([0,0,-60]) Cap();
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}
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Render="Debug";
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if (Render=="Debug") {
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Debug();
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} else if (Render=="Cap") {
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Cap();
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} else if (Render=="Mount") {
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Mount();
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}
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