How to Create a Nano 33 IoT-Based Filtration and Flame Detection System for Your 3D Printer
Create a Nano 33 IoT-based filtration and flame detection system for your 3D printer
3D printing is becoming increasingly popular, but it can be dangerous to use without proper safety measures. To ensure the safe and efficient use of your 3D printer, consider creating a Nano 33 IoT-based filtration and flame detection system. This will help to reduce the risk of fire as well as other hazards. Here's how to create this system and what you'll need.
What You'll Need to Create a Nano 33 IoT-based Filtration and Flame Detection System:
- Nano 33 IoT board
- TDS sensor
- MQ-4 flame sensor
- Breadboard
- Arduino IDE
- Jumper wires
Steps to Create a Nano 33 IoT-based Filtration and Flame Detection System:
- Connect all components to the Nano 33 board using jumper wires. Start by connecting the TDS sensor and MQ-4 flame sensor to the board, and then connect the sensors to the breadboard.
- Download and install Arduino IDE software on your computer.
- Upload the code to your Nano 33 board using the Arduino IDE.
- Once the code is uploaded, the system should be ready to use. Test it out by introducing different concentrations of air and smoke to the sensors. The system should be able to detect when either one is present.
The Nano 33 IoT-based filtration and flame detection system will provide extra peace of mind while 3D printing, and give users the ability to monitor their 3D printer more closely. Be sure to follow all safety protocols when using your 3D printer.