- How to Adjust X and Y Axis Scale in Arduino Serial Plotter (No Extra Software Needed)Posted 3 months ago
- Elettronici Entusiasti: Inspiring Makers at Maker Faire Rome 2024Posted 3 months ago
- makeITcircular 2024 content launched – Part of Maker Faire Rome 2024Posted 5 months ago
- Application For Maker Faire Rome 2024: Deadline June 20thPosted 7 months ago
- Building a 3D Digital Clock with ArduinoPosted 12 months ago
- Creating a controller for Minecraft with realistic body movements using ArduinoPosted 12 months ago
- Snowflake with ArduinoPosted 1 year ago
- Holographic Christmas TreePosted 1 year ago
- Segstick: Build Your Own Self-Balancing Vehicle in Just 2 Days with ArduinoPosted 1 year ago
- ZSWatch: An Open-Source Smartwatch Project Based on the Zephyr Operating SystemPosted 1 year ago
Arduino Mega Powered Hexapod Robot
Walking robots come in many forms, and each presents their own unique challenges. Bipedal style locomotion is considered particularly difficult to do well, however designs with more legs offer certain advantages. Hexapods offer the possibility of keeping several legs on the ground while others move, providing a useful degree of stability.
This type of robot can be constructed with as little as three servos, but the maker decided to employ a total of 22 servos to move his ant-inspired hexapod around. Three metal geared servos are used per leg, as well as a pair for the head, and one each for the mandibles and tail.
An Arduino Mega is the brains of the operation — it’s the only board in the Arduino family that can handle the number of servos needed — and a custom PCB was printed to accommodate wire attachment. An HC-05 Bluetooth module is used for communication with an Android app, which controls the ant. Furthermore ultrasonic sensors in the head allow the ant to automatically defend itself against predators that get too close its ultrasonic sensor eyes.
As the name suggests, the hexapod has six legs but in addition to that, it also has a tail or abdomen, a head, antennas, mandibles and even functional eyes. All of this, makes the hexapod look like an ant, so therefore we can also call it an Arduino Ant Robot.
For controlling the robot I made a custom-built Android application. The app has four buttons through which we can command the robot to move forward or backwards, as well as turn left or right. Along with these main functions, the robot can also move its head and tail, as well as it can bite, grab and drop things and even attack.