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https://github.com/surin-learning-lab/smoker_bellows_code

Arduino, Raspberry Pi, ESP32, ESP8266 Node MCU projects
https://github.com/surin-learning-lab/smoker_bellows_code

arduino-uno esp32-arduino esp8266 p pork raspberry-pi-pico sausages smoker

Last synced: 19 days ago
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Arduino, Raspberry Pi, ESP32, ESP8266 Node MCU projects

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README 

          
ESP32 Temperature Control System

Welcome to the ESP32 Temperature Control System project! This project utilizes an ESP32 microcontroller to monitor and control the temperature within a homemade smoker, using a thermocouple for precise temperature measurement and a servo to adjust air flow. The setup also features an OLED display for real-time status updates and a relay for additional control options. The project is highly versatile and can be adapted for other temperature-dependent applications.



Features

Precise Temperature Monitoring: Uses a MAX6675 thermocouple module to accurately measure temperatures.

Dynamic Control: Automatically adjusts a servo and a relay based on the temperature readings to maintain the desired conditions.

Real-Time Feedback: Displays current temperature and system status on an SSD1306 OLED display.

Web Interface: Includes a customizable HTML interface to monitor and control the system remotely.

Prerequisites

Before you start, make sure you have the following:



ESP32 development board

MAX6675 thermocouple module

Servo motor

Relay module

SSD1306 OLED display

Basic electronics tools (soldering iron, wires, breadboard)

Arduino IDE with ESP32 board definitions installed

Hardware Setup

Connect the Thermocouple:



DO to GPIO 19

CS to GPIO 23

CLK to GPIO 5

Setup the Servo:



Control wire to GPIO 14

Setup the Relay:



Control wire to GPIO 12

Connect the OLED Display:



SDA and SCL to the corresponding pins on the ESP32

Ensure all connections are secure and double-check your wiring before powering the device.



Software Setup

Install Required Libraries:



Adafruit GFX Library

Adafruit SSD1306 Library

MAX6675 Library



Load the sketch into Arduino IDE.

Adjust the network settings and pin configurations as necessary.

Upload the Code:



Connect the ESP32 via USB.

Select the correct board and port.

Upload the sketch.

Usage

Once the code is uploaded and the system is running:



The OLED display will show the current temperature and system status.

Access the web interface from any device on the same network to monitor or adjust settings.

Customizing

Web Interface: Modify the HTML and CSS in the web server files to match your specific needs or preferences.

Control Logic: Adjust the temperature thresholds and control parameters in the sketch according to your application requirements.

Contributing

Contributions to this project are welcome! Feel free to fork the repository and submit pull requests. You can also open issues for bugs or feature requests.



The smoker bellos 3d design is specific for my smoker. If you would like the file contact me and will send the files required to print or redesign.



License

This project is licensed under the MIT License - see the LICENSE file for details.



Acknowledgements

Thanks to the Arduino and ESP32 communities for their comprehensive resources and libraries.