The 4WD Double Layer Robot Car Chassis Kit is designed as a reliable base for building mobile robotics systems. It uses a dual-layer acrylic frame that provides additional space for mounting controllers, batteries, and sensors while maintaining structural strength. The 4-wheel drive configuration distributes power across all wheels, offering improved grip and movement on different surfaces.
This robot chassis operates within a safe 3V to 6V range, making it suitable for battery-powered applications and learning environments. The integrated BO motors enable smooth forward, reverse, and turning operations, helping users understand basic motion control concepts.
The 4WD chassis can be integrated with platforms like Arduino or Raspberry Pi using motor driver modules such as L298N or L293D. StemVolt offers this as a practical solution for students, hobbyists, and developers working on embedded and automation projects. It also serves as a strong base for a RC Robot kit in STEM projects.
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Features:
• Durable chassis kit with dual-layer structural design
• Compatible with Arduino, Raspberry Pi, and driver modules
• Supports sensors and additional electronics
• Easy DIY assembly suitable for students and beginners
• Suitable for prototyping and testing robotics concepts
Technical Specifications:
| Specification | Details |
|---|---|
| Model | 4WD Double Layer Robot Car Chassis Kit |
| Operating Voltage (VDC) | 3V to 6V |
| Material | Acrylic |
| Motor Type | 4 BO Motor |
| Wheels | 4-Wheel |
| Number of Layers | 2 Layers |
| Assembly | DIY |
| Compatibility | Arduino, Raspberry Pi, Motor Driver Modules (L298N/L293D) |
Applications:
• Use in Robotics and automation projects
• DIY robotics competitions and projects
• Arduino car and embedded system applications
• STEM Kit and robotics learning platforms
• Compatible with motor driver modules for control systems
• Robotics parts integration and experimentation
Package Includes:
-
1 × 4WD Double Layer Robot Car Chassis Kit
Frequently Asked Questions
1. What is the 4WD Double Layer Robot Car Chassis Kit used for?
The 4WD Double Layer Robot Car Chassis Kit is used as a base platform for building mobile robotics projects. This robot chassis provides a strong structure for mounting motors, controllers, and sensors. It is commonly used in Arduino robot chassis kit setups and robotics parts applications, helping students and developers build functional robot kit systems like obstacle-avoiding robots and smart vehicles.
2. How does the 4WD Double Layer Robot Car Chassis Kit work?
The 4WD Double Layer Robot Car Chassis Kit works by using four DC motors connected to wheels, forming a 4 wheel robot chassis system. These motors are controlled using motor driver modules, allowing directional movement. The double-layer design provides space for mounting electronics, making it suitable for building a smart chassis with multiple sensors and control boards.
3. Is the 4WD Double Layer Robot Car Chassis Kit compatible with Arduino and motor drivers?
Yes, the 4WD Double Layer Robot Car Chassis Kit is fully compatible with Arduino and other controllers like ESP32. It is commonly used as an Arduino car base and works well with motor driver modules such as L298N or L293D. StemVolt provides this kit as a reliable Arduino robot chassis kit option for building programmable robotics systems.
4. What kind of projects can be built using the 4WD Double Layer Robot Car Chassis Kit?
With the 4WD Double Layer Robot Car Chassis Kit, you can build projects like line-following robots, obstacle-avoiding robots, Bluetooth-controlled cars, and autonomous navigation systems. This rc chassis kit supports multiple configurations, making it a versatile robot kit for students working on robotics parts integration and smart automation projects.
5. What should I consider when assembling the 4WD Double Layer Robot Car Chassis Kit?
While assembling the 4WD Double Layer Robot Car Chassis Kit, ensure proper motor alignment, secure wiring, and correct mounting of components. Using compatible motor driver modules is important for smooth operation. This smart chassis design allows efficient placement of batteries and controllers, making it easier to manage power and build stable Arduino car and robotics projects.
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