flo/solarCtrlServerbased_dockercompose
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add some logging informations and added function that solarumschichtung does not switch on if the woodstove is active

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This commit is contained in:
Florian Weber 2024-12-15 16:45:37 +00:00
parent 732eb79cb3
commit a5b0b2b113
3 changed files with 75 additions and 25 deletions
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2
docker-compose.yml
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@ -1,5 +1,3 @@
version: '3'
services:
influxdb:
image: influxdb:2.7-alpine

21
nodeApp/config.json
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@ -190,12 +190,21 @@
"Notumschichtung": {
"Temperaturlabel": "PufferHeizraumTemperatur5",
"Ton": 70.0,
"Toff": 65.0,
"mqtt": {
"ctrlTopic": "RelaisUmschichtung/cmnd/POWER1",
"msgOn": "ON",
"msgOff": "OFF"
}
"Toff": 65.0
},
"mqtt": {
"ctrlTopic": "RelaisUmschichtung/cmnd/POWER1",
"msgOn": "ON",
"msgOff": "OFF"
},
"Differenzregelung": {
"QuelltemperaturLabel": "PufferHeizraumTemperatur3",
"ZieltemperaturLabel": "PufferHolzraumTemperatur1",
"dTon": 2.0,
"dToff": 1.0
},
"FreigabeHolzofen":{
"KesselstatusAus": 43
}
}
}

77
nodeApp/index.js
View File

@ -29,7 +29,7 @@ let configuredInputs = {};
// use socket.on('open', ...) when using serialport
socket.on('connect', function () {
// make some calls
console.log("socket connected starting interval timer");
setInterval(() => {
requestTemps();
}, config.interval);
@ -44,8 +44,11 @@ fs.readFile('config.json', function (err, data) {
configuredInputs.forEach(element => {
inputValues[element.label] = { value: null, synced: false, unitConversionDivider: 1 };
});
console.log("config read");
console.log("now connecting to influxdb");
influxClient = new InfluxDB({ url: influxUrl, token: config.influxToken });
influxWriteClient = influxClient.getWriteApi(influxOrg, influxBucket, 'ms');
console.log("connected to influxdb, now trying to connect to modbus tcp and mqtt");
socket.connect(options);
mqttClient = mqtt.connect(config.mqttBrokerAddress, {
username: config.mqttUser,
@ -115,17 +118,17 @@ async function writeToInflux() {
for (const key in inputValues) {
if (Object.hasOwnProperty.call(inputValues, key)) {
let point = new Point('CF2').floatField(key, inputValues[key].value);
influxWriteClient.writePoint(point);
influxWriteClient.flush();
influxWriteClient.writePoint(point);
}
}
influxWriteClient.flush();
}
async function sendMQTT(topic, msg) {
let notumschichtung = config.UmschichtungSolar.Notumschichtung
let mqttConfig = config.UmschichtungSolar.mqtt;
if (typeof mqttClient !== 'undefined' || mqttClient !== null) {
if (mqttClient.connected) {
mqttClient.publish(topic, msg, { retain: true });
console.log(msg);
//console.log(msg);
} else {
console.log("client not connected to the mqtt broker");
}
@ -135,28 +138,68 @@ async function sendMQTT(topic, msg) {
//send status over mqtt
let val = 0.0;
if (msg == notumschichtung.mqtt.msgOn) {
if (msg == mqttConfig.msgOn) {
val = 100.0;
} else if (msg == notumschichtung.mqtt.msgOff) {
} else if (msg == mqttConfig.msgOff) {
val = 0.0;
}
let point = new Point('Solarumschichtung').floatField("pumpePercent", val);
influxWriteClient.writePoint(point);
influxWriteClient.flush();
}
let outputRegler1 = false;
let outputRegler2 = false;
async function calculateLogic() {
let notumschichtung = config.UmschichtungSolar.Notumschichtung
let temp = inputValues[notumschichtung.Temperaturlabel];
let topic = notumschichtung.mqtt.ctrlTopic;
let msgOn = notumschichtung.mqtt.msgOn;
let msgOff = notumschichtung.mqtt.msgOff;
let Ton = notumschichtung.Ton;
let Toff = notumschichtung.Toff;
//Notumschichtung regler 1
let umschichtungSolar = config.UmschichtungSolar;
let notumschichtung = umschichtungSolar.Notumschichtung
let temptNotumschichtung = inputValues[notumschichtung.Temperaturlabel].value;
let TonNotumschichtung = notumschichtung.Ton;
let ToffNotumschichtung = notumschichtung.Toff;
//mqtt relais
//console.log(umschichtungSolar);
let topic = umschichtungSolar.mqtt.ctrlTopic;
let msgOn = umschichtungSolar.mqtt.msgOn;
let msgOff = umschichtungSolar.mqtt.msgOff;
//Differenzregelung
let differenzregelung = umschichtungSolar.Differenzregelung
let quellTemperatur = inputValues[differenzregelung.QuelltemperaturLabel].value;
let zielTemperatur = inputValues[differenzregelung.ZieltemperaturLabel].value;
let dTon = differenzregelung.dTon;
let dToff = differenzregelung.dToff;
if (temp.value >= Ton) {
//Freigabe Holzofen
let kesselstatus = inputValues["Kesselstatus"].value;
let freigabeHolzofen = kesselstatus === umschichtungSolar.FreigabeHolzofen.KesselstatusAus ? true : false;
if (temptNotumschichtung >= TonNotumschichtung) {
outputRegler1 = true;
} else if (temptNotumschichtung <= ToffNotumschichtung) {
outputRegler1 = false;
}
let diff = quellTemperatur - zielTemperatur;
if(diff >= dTon){
outputRegler2 = true;
}else if (diff <= dToff) {
outputRegler2 = false;
}
let point = new Point('Solarumschichtung').floatField("regler1", outputRegler1 ? 100.0 : 0.0);
influxWriteClient.writePoint(point);
point = new Point('Solarumschichtung').floatField("regler2", outputRegler2 ? 100.0 : 0.0);
influxWriteClient.writePoint(point);
point = new Point('Solarumschichtung').floatField("freigabeHolzofen", freigabeHolzofen ? 100.0 : 0.0);
influxWriteClient.writePoint(point);
influxWriteClient.flush();
if(freigabeHolzofen && outputRegler1 && outputRegler2){
sendMQTT(topic, msgOn);
} else if (temp.value <= Toff) {
}else{
sendMQTT(topic, msgOff);
}
}