Beetlebot 3-in-1 Robot Car Kit

The Beetlebot 3-in-1 Robot Car Kit — a powerful STEM learning kit designed for hands-on coding, engineering, and creativity.

This innovative kit allows users to build three different robot models (soccer robot, handling robot, and siege robot), making learning more interactive and engaging. Powered by ESP32/Arduino,  in addition, it supports advanced features such as line tracking, obstacle avoidance, and light-following behavior, giving learners real-world robotics experience.

also, it Compatible with LEGO-style building blocks, this kit encourages creativity while teaching how sensors, motors, and code work together to create intelligent machines.

so, it Perfect for students, hobbyists, and educators, this kit transforms learning into an exciting, project-based experience.

Specifications

• Model: Beetlebot 3-in-1 Robot Car Kit
• Controller: ESP32 / Arduino / Raspberry Pi Pico compatible
• Programming: Arduino IDE (C/C++), graphical coding supported
• Connectivity: WiFi / Bluetooth / Remote control
• Robot Forms: 3 (soccer, siege, handling robot)
• Main Features:
  • Line tracking
  • Obstacle avoidance
  • Light-following system
• Components Included:
  • Motors and wheels
  • Ultrasonic sensor
  • Line tracking module
  • LED matrix display (8×8)
  • Remote control module
  • LEGO-compatible structure parts
• Learning Level: Beginner to Intermediate
• Use Case: STEM education, robotics learning, DIY projects

👉 The robot can perform obstacle avoidance, line tracking, and light-following while transforming into multiple forms

📚 3. Subjects Covered (Detailed)

it  provides a complete robotics and STEM learning experience, combining multiple disciplines:

🧠 Programming & Embedded Systems

• Learning Arduino programming (C/C++) for robot control
• Understanding logic structures (loops, conditions, variables)
• Writing code to control movement, sensors, and behaviors
• Introduction to embedded systems and real-time processing

🔌 Electronics & Sensor Integration

• Understanding how sensors (ultrasonic, line tracking, light) work
• Learning input/output systems and signal processing
• Integrating multiple modules into a working robotic system
• Understanding electrical principles in real applications

🤖 Robotics & Mechatronics

• Understanding robotic movement and navigation
• Learning how motors, sensors, and controllers interact
• Exploring mechanical design and robotic structures
• Building and programming mobile robots

🌐 Internet of Things (IoT) & Wireless Control

• Learning wireless communication via Bluetooth/WiFi
• Controlling robots remotely via apps or controllers
• Understanding real-time communication systems

⚙️ Automation & Intelligent Systems

• Designing systems that respond automatically to inputs
• Learning IF/THEN logic and decision-making systems
• Understanding autonomous robotic behavior

🎓 STEM & Engineering Design

• Hands-on project-based learning
• Developing problem-solving and critical thinking skills
• Encouraging creativity and innovation through building

🔧 4. Activities Performed (Detailed)

the kit enables users to perform advanced robotics projects and real-world experiments:

🚗 Robot Assembly & Multi-Model Building

• Building three different robot models (soccer, handling, siege)
• Assembling motors, sensors, and mechanical structures
• Learning modular design and engineering

📱 Remote Control & Smart Interaction

• Controlling the robot via remote or mobile app
• Driving forward, backward, and turning
• Creating custom control systems

📊 Sensor-Based Navigation Systems

• Using ultrasonic sensors for obstacle detection
• Building obstacle avoidance systems
• Programming robots to follow lines or light

⚙️ Motor Control & Movement Programming

• Controlling motor speed and direction
• Programming movement patterns
• Creating intelligent motion behaviors

🤖 Autonomous Robotics Projects

• Building robots that move independently
• Creating line-following robots
• Developing light-following and navigation systems

🎮 Interactive Robotics Experiments

• Creating user-controlled and automated modes
• Testing different robot behaviors
• Combining sensors for interactive systems

🧪 Experimentation & Innovation

• Modifying code for advanced performance
• Creating custom robotic designs
• Debugging and optimizing systems

🎓 5. Benefits for Students & Teachers

👨‍🎓 For Students:

• Learn robotics and coding through hands-on projects
• Understand how real robots and smart systems work
• Develop creativity, engineering thinking, and problem-solving skills
• Gain practical experience with sensors and automation
• Build confidence through real project completion

👩‍🏫 For Teachers:

• Complete robotics STEM teaching solution
• Supports project-based and interactive learning
• Covers programming, electronics, and engineering in one kit
• Saves preparation time with structured tutorials
• Engages students with real-world applications

Tutorial://fs.keyestudio.com/KS0543 （CH340 NANO）

//fs.keyestudio.com/KS5002 （ESP32）

//fs.keyestudio.com/KS3027 （Raspberry Pi Pico）

3 in 1 Beetlebot Robot Car for Arduino （CH340 NANO）

3 in 1 Beetlebot Robot Car for ESP32 （ESP32）

3 in 1 Beetlebot Robot Car for ESP32 （Raspberry Pi

Pico）