The Crowbot Bolt is a programmable smart robot car designed to make STEM education engaging and interactive. Equipped with AI-powered obstacle avoidance, infrared sensors, and ultrasonic detection, this robot can navigate autonomously while responding to its environment. It supports multiple control methods, including Bluetooth remote control, autonomous movement, and graphical programming with Letscode, making it an excellent tool for learning coding, robotics, and electronics.
The expandable design allows users to connect additional sensors for more advanced projects, ensuring long-term learning and exploration. Whether for beginners or advanced learners, the Crowbot Bolt provides a fun, hands-on learning experience in the world of robotics and automation.
Package List:
1x Chassis
1x Ultrasonic Sensor
1xBattery Holder
2x Wheels
4x M3*8mm Screws
2x M3*5mm Copper Column
2x Side Acrylic Plates
1x Front Acrylic Plates
1x Screwdriver
2x 4 Pin Crowtail Cable
1x Type C Cable x1
1x Infrared remote control
1x Instructions & Line Track Map
Wiki&User manual:
Wiki
CrowBot-BOLT_Assembly-Instruction
Joystick-for-CrowBot-BOLT_Assembly-Instruction
CrowBot BOLT Beginner's Guide
Key Features:
• AI-Powered Smart Robot Car – The Crowbot Bolt integrates artificial intelligence (AI) capabilities, allowing for smart obstacle avoidance and line-following functionalities.
• Multiple Control Modes – Supports various control methods, including remote control via Bluetooth, graphical programming, and autonomous navigation.
• Graphical Programming Support – Compatible with Letscode, a block-based visual programming software, enabling easy drag-and-drop coding for beginners.
• Infrared & Ultrasonic Sensors – Equipped with IR sensors and an ultrasonic module to detect and avoid obstacles, enhancing interactive play and learning.
• Expandable & Customizable – Features additional ports for connecting external sensors, enabling users to modify and expand its functionalities.
• STEM Learning Focus – Designed to introduce students to robotics, AI, and coding concepts through hands-on experiments and creative applications.