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Add the designs and sketches for the ACME Trebes.

This commit is contained in:
Matt McWilliams 2024-04-19 18:09:44 -06:00
parent 18875a01c6
commit 66096fa2ea
6 changed files with 489 additions and 6 deletions
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74
ino/mcopy_ACME_Trebes_Nanolab/McopySerial.cpp Normal file
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@ -0,0 +1,74 @@
/// mcopy Serial Library
#include "McopySerial.h"
McopySerial::McopySerial () {}
void McopySerial::begin (char identity) {
id = identity;
Serial.begin(baud);
Serial.flush();
Serial.setTimeout(serialDelay);
}
char McopySerial::loop () {
if (Serial.available()) {
cmdChar = (char) Serial.read();
_internal();
} else {
cmdChar = 'z';
}
return cmdChar;
}
void McopySerial::_internal () {
if (cmdChar == DEBUG) {
debug(!debugOn);
} else if (cmdChar == CONNECT) {
_connect();
} else if (cmdChar == MCOPY_IDENTIFIER) {
_identify();
}
}
void McopySerial::_connect () {
connected = true;
Serial.println(CONNECT);
log("connect()");
}
void McopySerial::_identify () {
identified = true;
Serial.println(id);
log("identify()");
}
void McopySerial::debug (bool state) {
debugOn = state;
log("debug()");
}
void McopySerial::confirm (char cmd) {
Serial.println(cmd);
}
void McopySerial::log (String message) {
if (debugOn) {
Serial.println(message);
}
}
String McopySerial::getString () {
while (Serial.available() == 0) {
//Wait for value string
}
return Serial.readString();
}
void McopySerial::sendString (String str) {
Serial.println(str);
}
void McopySerial::print (String message) {
Serial.println(message);
}

89
ino/mcopy_ACME_Trebes_Nanolab/McopySerial.h Normal file
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#ifndef MCOPY_SERIAL
#define MCOPY_SERIAL
#include <Arduino.h>
class McopySerial {
private:
const uint16_t serialDelay = 5;
const uint16_t baud = 57600;
volatile bool debugOn = false;
volatile char cmdChar = 'z';
volatile char id;
void _internal ();
void _connect ();
void _identify ();
public:
volatile bool connected = false;
volatile bool identified = false;
/* CMD FLAGS */
const char BLACK = 'b';
const char CAMERA = 'c';
const char CAMERA_BACKWARD = 'f';
const char CAMERA_CAPPER_IDENTIFIER = '8';
const char CAMERA_CAPPER_PROJECTOR_IDENTIFIER = '9';
const char CAMERA_CAPPER_PROJECTORS_IDENTIFIER = '0';
const char CAMERA_EXPOSURE = 'G';
const char CAMERA_FORWARD = 'e';
const char CAMERA_IDENTIFIER = 'k';
const char CAMERA_PROJECTORS_IDENTIFIER = '5';
const char CAMERA_SECOND = '3';
const char CAMERA_SECOND_BACKWARD = '2';
const char CAMERA_SECOND_FORWARD = '1';
const char CAMERA_SECOND_IDENTIFIER = 'y';
const char CAMERA_TIMED = 'n';
const char CAMERAS = '4';
const char CAMERAS_IDENTIFIER = 'a';
const char CAMERAS_PROJECTOR_IDENTIFIER = '6';
const char CAMERAS_PROJECTORS_IDENTIFIER = '7';
const char CAPPER_IDENTIFIER = 'C';
const char CAPPER_OFF = 'B';
const char CAPPER_ON = 'A';
const char CONNECT = 'i';
const char DEBUG = 'd';
const char ERROR = 'E';
const char HOME = 'I';
const char LIGHT = 'l';
const char LIGHT_IDENTIFIER = 'o';
const char MCOPY_IDENTIFIER = 'm';
const char OFFSET = 'O';
const char PROJECTOR = 'p';
const char PROJECTOR_BACKWARD = 'h';
const char PROJECTOR_CAMERA_IDENTIFIER = 's';
const char PROJECTOR_CAMERA_LIGHT_IDENTIFIER = 'r';
const char PROJECTOR_FORWARD = 'g';
const char PROJECTOR_IDENTIFIER = 'j';
const char PROJECTOR_LIGHT_IDENTIFIER = 'q';
const char PROJECTOR_SECOND = 'w';
const char PROJECTOR_SECOND_BACKWARD = 'v';
const char PROJECTOR_SECOND_FORWARD = 'u';
const char PROJECTOR_SECOND_IDENTIFIER = 't';
const char PROJECTORS = 'x';
const char PROJECTORS_IDENTIFIER = 'd';
const char STATE = 'H';
const char TAKEUP_BACKWARD = 'F';
const char TAKEUP_FORWARD = 'D';
/* END CMD FLAGS */
McopySerial();
void begin(char identity);
char loop();
void confirm(char cmd);
String getString();
void print(String message);
void sendString(String str);
void debug (bool state);
void log (String message);
};
#endif

242
ino/mcopy_ACME_Trebes_Nanolab/mcopy_ACME_Trebes_Nanolab.ino Normal file
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@ -0,0 +1,242 @@
/*
* Sketch containing firmware for the ACME Trebes
* optical printer with an existing Nanolab modification.
*
* Uses an Arduino Uno compatible board, a Sainsmart
* 8 relay module board and an ON/OFF toggle switch.
* Each relay is wired into a momentary switch in
* the Nanolab modification box.
Wiring
CAMERA (OPTIONAL) + PROJECTOR + PROJECTOR 2
Wire to corresponding pins
Arduino 2 3 4 5 6 7 5V GND
Relay 1 2 3 4 5 6 VCC GND
Nanolab P2B P2F PB PF CB CF
Arduino 12 GND
Switch A B
*/
#include "McopySerial.h"
//CAMERA CONSTANTS
const int CAMERA_FORWARD_PIN = 7;
const int CAMERA_BACKWARD_PIN = 6;
const int CAMERA_MOMENT = 300;
const int CAMERA_LENGTH = 1000;
//PROJECTOR CONSTANTS
const int PROJECTOR_FORWARD_PIN = 5;
const int PROJECTOR_BACKWARD_PIN = 4;
const int PROJECTOR_SECOND_FORWARD_PIN = 3;
const int PROJECTOR_SECOND_BACKWARD_PIN = 2;
const int PROJECTOR_MOMENT = 500;
const int PROJECTOR_LENGTH = 600;
//OTHER CONSTATNS
const int MODE_SWITCH_PIN = 12;
const int LED_PIN = 13;
//VARIABLES
volatile bool cameraModeOn = false;
volatile char cmdChar = 'z';
volatile long now;
bool cam_dir = true;
bool proj_dir = true;
bool proj2_dir = true;
McopySerial mc;
void setup () {
pins();
digitalWrite(LED_PIN, HIGH);
cameraMode();
if (cameraModeOn) {
mc.begin(mc.CAMERA_PROJECTORS_IDENTIFIER);
} else {
mc.begin(mc.PROJECTORS_IDENTIFIER);
}
delay(42);
digitalWrite(LED_PIN, HIGH);
}
void loop () {
now = millis();
cmdChar = mc.loop();
cmd(cmdChar);
}
void cameraMode () {
for (uint8_t i = 0; i < 3; i++) {
//low
if (digitalRead(MODE_SWITCH_PIN) == LOW && !cameraModeOn) {
cameraModeOn = true;
}
delay(3);
}
}
void pins () {
pinMode(MODE_SWITCH_PIN, INPUT_PULLUP);
pinMode(LED_PIN, OUTPUT);
pinMode(CAMERA_FORWARD_PIN, OUTPUT);
pinMode(CAMERA_BACKWARD_PIN, OUTPUT);
pinMode(PROJECTOR_FORWARD_PIN, OUTPUT);
pinMode(PROJECTOR_BACKWARD_PIN, OUTPUT);
pinMode(PROJECTOR_SECOND_FORWARD_PIN, OUTPUT);
pinMode(PROJECTOR_SECOND_BACKWARD_PIN, OUTPUT);
digitalWrite(CAMERA_FORWARD_PIN, HIGH);
digitalWrite(CAMERA_BACKWARD_PIN, HIGH);
digitalWrite(PROJECTOR_FORWARD_PIN, HIGH);
digitalWrite(PROJECTOR_BACKWARD_PIN, HIGH);
digitalWrite(PROJECTOR_SECOND_FORWARD_PIN, HIGH);
digitalWrite(PROJECTOR_SECOND_BACKWARD_PIN, HIGH);
}
void cmd (char val) {
if (cameraModeOn && val == mc.CAMERA_FORWARD) {
camera_direction(true);
} else if (cameraModeOn && val == mc.CAMERA_BACKWARD) {
camera_direction(false);
} else if (cameraModeOn && val == mc.CAMERA) {
camera();
} else if (val == mc.PROJECTOR_FORWARD) {
projector_direction(true);
} else if (val == mc.PROJECTOR_BACKWARD) {
projector_direction(false);
} else if (val == mc.PROJECTOR) {
projector();
} else if (val == mc.PROJECTOR_SECOND_FORWARD) {
projector_second_direction(true);
} else if (val == mc.PROJECTOR_SECOND_BACKWARD) {
projector_second_direction(false);
} else if (val == mc.PROJECTOR_SECOND) {
projector_second();
} else if (val == mc.PROJECTORS) {
projectors();
}
}
void camera_direction (bool dir) {
cam_dir = dir;
if (cam_dir) {
mc.log("Camera direction set to forward");
mc.confirm(mc.CAMERA_FORWARD);
} else {
mc.log("Camera direction set to backward");
mc.confirm(mc.CAMERA_BACKWARD);
}
}
void camera () {
if (cam_dir) {
digitalWrite(CAMERA_FORWARD_PIN, LOW);
} else {
digitalWrite(CAMERA_BACKWARD_PIN, LOW);
}
delay(CAMERA_MOMENT);
if (cam_dir) {
digitalWrite(CAMERA_FORWARD_PIN, HIGH);
} else {
digitalWrite(CAMERA_BACKWARD_PIN, HIGH);
}
delay(CAMERA_LENGTH - CAMERA_MOMENT);
mc.log("camera()");
mc.confirm(mc.CAMERA);
}
void projector_direction (bool dir) {
proj_dir = dir;
if (proj_dir) {
mc.log("Projector direction set to forward");
mc.confirm(mc.PROJECTOR_FORWARD);
} else {
mc.log("Projector direction set to backward");
mc.confirm(mc.PROJECTOR_BACKWARD);
}
}
void projector () {
if (proj_dir) {
digitalWrite(PROJECTOR_FORWARD_PIN, LOW);
} else {
digitalWrite(PROJECTOR_BACKWARD_PIN, LOW);
}
delay(PROJECTOR_MOMENT);
if (proj_dir) {
digitalWrite(PROJECTOR_FORWARD_PIN, HIGH);
} else {
digitalWrite(PROJECTOR_BACKWARD_PIN, HIGH);
}
delay(PROJECTOR_LENGTH - PROJECTOR_MOMENT);
mc.log("projector()");
mc.confirm(mc.PROJECTOR);
}
void projector_second_direction (bool dir) {
proj2_dir = dir;
if (proj2_dir) {
mc.log("Projector second direction set to forward");
mc.confirm(mc.PROJECTOR_SECOND_FORWARD);
} else {
mc.log("Projector second direction set to backward");
mc.confirm(mc.PROJECTOR_SECOND_BACKWARD);
}
}
void projector_second () {
if (proj2_dir) {
digitalWrite(PROJECTOR_SECOND_FORWARD_PIN, LOW);
} else {
digitalWrite(PROJECTOR_SECOND_BACKWARD_PIN, LOW);
}
delay(PROJECTOR_MOMENT);
if (proj2_dir) {
digitalWrite(PROJECTOR_SECOND_FORWARD_PIN, HIGH);
} else {
digitalWrite(PROJECTOR_SECOND_BACKWARD_PIN, HIGH);
}
delay(PROJECTOR_LENGTH - PROJECTOR_MOMENT);
mc.log("projector_second()");
mc.confirm(mc.PROJECTOR_SECOND);
}
void projectors () {
if (proj_dir) {
digitalWrite(PROJECTOR_FORWARD_PIN, LOW);
} else {
digitalWrite(PROJECTOR_BACKWARD_PIN, LOW);
}
delay(PROJECTOR_MOMENT);
if (proj_dir) {
digitalWrite(PROJECTOR_FORWARD_PIN, HIGH);
} else {
digitalWrite(PROJECTOR_BACKWARD_PIN, HIGH);
}
delay(PROJECTOR_LENGTH - PROJECTOR_MOMENT);
if (proj2_dir) {
digitalWrite(PROJECTOR_SECOND_FORWARD_PIN, LOW);
} else {
digitalWrite(PROJECTOR_SECOND_BACKWARD_PIN, LOW);
}
delay(PROJECTOR_MOMENT);
if (proj2_dir) {
digitalWrite(PROJECTOR_SECOND_FORWARD_PIN, HIGH);
} else {
digitalWrite(PROJECTOR_SECOND_BACKWARD_PIN, HIGH);
}
delay(PROJECTOR_LENGTH - PROJECTOR_MOMENT);
mc.log("projectors()");
mc.confirm(mc.PROJECTORS);
}

4
ino/mcopy_cam_relay/mcopy_cam_relay.ino
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@ -28,12 +28,12 @@ const int LED = 8;
const int CAMERA_MOMENT = 240;
//VARIABLES
volatile int cameraFrame = 2000;
volatile int cameraFrame = 1000;
volatile char cmdChar = 'z';
volatile long now;
volatile String exposureString;
volatile long exposureTarget = 2000;
volatile long exposureTarget = 1000;
McopySerial mc;

85
scad/canon_rf_ACME_camera_mount.scad
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@ -1,16 +1,93 @@
include <./common/common.scad>;
FrontToBolt = 26.65;
FrontToFilmPlane = 15.85;
BaseBoltD = 6.75;
BaseRegistrationPinD = 6.5;
ChannelX = 15.5;
ChannelZ = 2.3;
PlatformX = 90.6 + 15.5 + 80.5;
PlatformY = 105 + 73;
MountX = 55;
MountY = 40;
MountZ = 70;
ExtensionY = 100;
PlatformCenterX = (PlatformX / 2) - (80.5 + 7.75);
CameraBoltD = 6.8;
module bolt_slot (pos = [0, 0, 0], D = 10, H = 10, Length = 1) {
$fn = 80;
translate (pos) {
cube([D, Length, H + 1], center = true);
translate([0, Length / 2, 0]) cylinder(r = R(D), h = H + 1, center = true);
translate([0, -Length / 2, 0]) cylinder(r = R(D), h = H + 1, center = true);
}
}
module debug_camera() {
X = 122;
Y = 34.75;
Z = 74;
cube([X, Y, Z], center = true);
cylinder(r = R(5), h = Z + 1, center = true, $fn = 30);
difference () {
cube([X, Y, Z], center = true);
translate([0, -(Y / 2) + FrontToBolt, 0]) cylinder(r = R(5), h = Z + 1, center = true, $fn = 30);
translate([0, -Y + FrontToFilmPlane, 39.75]) cube([X - 20, Y, Z], center = true);
}
}
module debug_platform () {
H = 20;
$fn = 60;
translate([0, 0, -H / 2]) {
difference () {
cube([PlatformX, PlatformY, H], center = true);
translate([PlatformCenterX, 0, (H / 2) - (ChannelZ / 2) + 0.01]) cube([ChannelX, PlatformY + 1, ChannelZ], center = true);
translate([PlatformCenterX, -(PlatformY / 2) + 84, 7 / 2]) cylinder(r = R(BaseBoltD), h = H + 1, center = true);
translate([PlatformCenterX, -(PlatformY / 2) + 20.25, 7 / 2]) cylinder(r = R(BaseBoltD), h = H + 1, center = true);
}
translate([PlatformCenterX, -(PlatformY / 2) + (16 / 2), 2 / 2]) cube([ChannelX, 16, H + 2], center = true);
translate([PlatformCenterX, -(PlatformY / 2) + 32.9, 7 / 2]) cylinder(r = R(BaseRegistrationPinD), h = H + 7, center = true);
}
}
module canon_rf_ACME_camera_mount () {
$fn = 80;
difference () {
union () {
cube([MountX, MountY, MountZ], center = true);
translate([0, -(MountY / 2) + (ExtensionY / 2), -(MountZ / 2) + (10 / 2)]) cube([MountY + 1, ExtensionY, 10], center = true);
translate([0, -(MountY / 2) + (ExtensionY / 2), -(MountZ / 2) - (ChannelZ / 2)]) cube([ChannelX, ExtensionY, ChannelZ], center = true);
}
cube([MountX - 20, MountY + 1, MountZ - 20], center = true);
translate([0, -(MountY / 2) + (17 / 2), -MountZ / 2]) cube([ChannelX + 0.1, 17.01, 6], center = true);
//front bolt
translate([0, 0, -MountZ / 2]) cylinder(r = R(11), h = 30, center = true);
bolt_slot([0, 13, -MountZ / 2], D = BaseRegistrationPinD, H = 30, Length = 2);
translate([0, -(MountY / 2) + 84, -MountZ / 2]) cylinder(r = R(7), h = 30, center = true);
translate([0, -(MountY / 2) + 84, -(MountZ / 2) + 22.5]) cylinder(r = R(10), h = 30, center = true);
//camera bolt
translate([0, -2, MountZ / 2]) cylinder(r = R(CameraBoltD), h = 30, center = true);
}
}
canon_rf_ACME_camera_mount();
debug_camera();
module debug () {
translate([PlatformCenterX, -69, MountZ / 2]) difference() {
canon_rf_ACME_camera_mount();
translate([50, 0, 0]) cube([100, 200, 100], center = true);
}
translate([PlatformCenterX, -60, (110/2)]) cube([1, 63.5, 110], center = true);
translate([PlatformCenterX, -80, 105]) debug_camera();
//color("red") debug_platform();
}
rotate([90, 0, 0]) canon_rf_ACME_camera_mount();

1
scripts/ino.sh
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@ -24,6 +24,7 @@ SKETCHES=(
mcopy_JKMM100_work
components/mcopy_light
mcopy_projector_firmware
mcopy_ACME_Trebes_Nanolab
)
for sketch in "${SKETCHES[@]}"; do