TransmutationsDeBase

Révision de 4 mai 2016 à 09:05 par Oli44 (discussion | contributions) (code-source)

Révision de 4 mai 2016 à 09:05 par Oli44 (discussion | contributions) (code-source)


tableau électrique télécommandé pour performance phytoaquatique

20160426 183856.jpg

Contributeur·ice·s

Statut du projet

Prototype

Statut de la publication

License

GFDL

Inspiration

Fichiers source

Découpe laser capot transmutations.svg

Machines

Matériaux




Sommaire

introduction

Pour une performance faisant appel à des chauffe-ballons sans thermostat et des pompes d'aquarium, j'ai conçu un boitier permettant d'une part de mettre les personnes en sécurité (utilisation d'appareils électriques dans un environnement encombré par des aquariums), d'autre part de commander par radio des relais permettant de maintenir les chauffe-ballons à température constante.

plans

Découpe laser capot transmutations.svg

fichier fritzing du montage Arduino à venir

code-source

class Cooker

{

   byte relaisPin;
   unsigned long decalage;
   unsigned long intervalle;
   byte relaisEtat;
   byte cookingEtat;
   unsigned long prevMillis;
 public:
   Cooker(byte pin, unsigned long offset, unsigned long interval)
   {
     relaisPin = pin;
     pinMode(relaisPin, OUTPUT);
     decalage = offset;
     intervalle = interval;
     relaisEtat = LOW;
     cookingEtat = 0;
     prevMillis = 0;
   }
   void epochUpdate() {
     prevMillis = millis();
   }
   void Update()
   {
     unsigned long currMillis = millis();
     if ((cookingEtat == 0) && (relaisEtat == LOW) && (currMillis - prevMillis <= decalage)) {
       relaisEtat = HIGH;
       digitalWrite(relaisPin, relaisEtat);
       Serial.print(int(currMillis / 1000));
       Serial.print(" ColdStart relay ");
       Serial.println(relaisPin);
       Serial.println(" to ");
       Serial.println(relaisEtat);
     }
     else if ((cookingEtat == 0) && (currMillis - prevMillis >= decalage)) {
       cookingEtat = 1;
     }


     if ((cookingEtat) && (relaisEtat == LOW) && (currMillis - prevMillis <= intervalle)) {
       relaisEtat = HIGH;
       digitalWrite(relaisPin, relaisEtat);
       Serial.print(int(currMillis / 1000));
       Serial.print(" Cooking relay ");
       Serial.println(relaisPin);
       Serial.println(" to ");
       Serial.println(relaisEtat);
     }
     else if ((cookingEtat) && (relaisEtat == HIGH) && (currMillis - prevMillis >= intervalle)) {
       relaisEtat = LOW;
       digitalWrite(relaisPin, relaisEtat);
       Serial.print(int(currMillis / 1000));
       Serial.print(" Cooking relay ");
       Serial.println(relaisPin);
       Serial.println(" to ");
       Serial.println(relaisEtat);
     }
     else if ((cookingEtat) && (currMillis - prevMillis >= 10000)) {
       prevMillis = currMillis;
       Serial.print("RAZ Cooking relay ");
       Serial.println(relaisPin);
     }
   }
   void Stop() {
     if (relaisEtat == HIGH) {
       relaisEtat = LOW;
     }
   }
   void Full() {
     if (relaisEtat == LOW) {
       relaisEtat = HIGH;
     }
   }

};

// constants attribution des pins
//  2, 3, 4, 5, 14, 19
// constantes decalage des cb avant de passer etat 2 =
// 9000; 11400; 12000; 12600;           //
// Intervalle de chauffe durant l'etat 2 =
// 1500; 1900; 2200; 3000;           //
unsigned int globalState ;
unsigned int prevGlobalState = 0;
unsigned long epoch = 0;
// on instancie
Cooker relais0(2, 9000, 1500);
Cooker relais1(3, 11400, 1900);
Cooker relais2(4, 12000, 2200);
Cooker relais3(5, 12600, 3000);
Cooker relais4(14, 8000, 2200);
Cooker relais5(19, 14000, 3500);


////////////////////////////////////////////////
///////////////  telecommande RF ///////////////
////////////////////////////////////////////////
/*The following 4 pin definitions,correspond to 4 buttons on the remote control
  //(The telecontroller is Remote Wireless Keynob 315MHz(SKU:FIT0355))*/
const unsigned int D1 = 8;    //The digital output pin 1 of decoder chip(SC2272)
const unsigned int D2 = 9;    //The digital output pin 2 of decoder chip(SC2272)
const unsigned int D3 = 10;   //The digital output pin 3 of decoder chip(SC2272)
const unsigned int D4 = 11;   //The digital output pin 4 of decoder chip(SC2272)
const unsigned int ledPin = 13;   //Receiving indicator
volatile int stateRF = LOW;
void setup() {
 Serial.begin(9600);
 epoch = millis(); // pour stocker le chrono depuis le démarrage
 //========== RF =======================
 pinMode(D4, INPUT);  //Initialized to input pin, in order to read the level of
 //the output pins from the decoding chip
 pinMode(D2, INPUT);
 pinMode(D1, INPUT);
 pinMode(D3, INPUT);
 pinMode(ledPin, OUTPUT);
 attachInterrupt(1, blink, RISING); //Digital pin 3,interrupt 1,corresponds to
 //receiving interrupt pin of the decoding chip
 digitalWrite(ledPin, LOW);
}
void loop() {
 ecouteRadio(); // la commande RF actualise l'etat global
 if ((globalState == 1) || (globalState == 2)) {
   relais0.Update();
   relais1.Update();
   relais2.Update();
   relais3.Update();
   relais4.Update();
   relais5.Update();
 }
 else if (globalState == 0) {
   relais0.Stop();
   relais1.Stop();
   relais2.Stop();
   relais3.Stop();
   relais4.Stop();
   relais5.Stop();
 }
 else if (globalState == 3) {
   relais0.Full();
   relais1.Full();
   relais2.Full();
   relais3.Full();
   relais4.Full();
   relais5.Full();
 }
}
/////////////// les fonctions //////////////////////


void blink()
{
 stateRF = ! stateRF;
}
//////////////////////////////////
void ecouteRadio() {
 delay(1);
 digitalWrite(ledPin, HIGH);
 // Serial.print("Locked ");
 // Read individually output pins of the decoder chip,
 if ((digitalRead(D4) ==  1) && (globalState != 0)) {   // locked icon == stop
   globalState = 0;
   Serial.println("Locked = STOP");
 }
 if (digitalRead(D2) ==  1 && globalState != 1) {   // unlocked icon == cold start
   globalState = 1;
   epoch = millis();
   Serial.println("Unlocked : Cold Start");
 }
 if (digitalRead(D1) ==  1 && globalState != 2) {   // blitz icon == cooking
   globalState = 2;
   Serial.println("Blitz : Cooking");
 }
 if (digitalRead(D3) ==  1 && globalState != 3) {   // alarm icon == full throttle
   globalState = 3;
   Serial.println("Alarm : FULL");
 }
 digitalWrite(ledPin, LOW); 
}