Sale!

ROBOT SMART CAR DC MOTOR DIY 3-6V DOUBLE SHAFT MOBO

149.00 99.00

    1. Voltage Range: Operates between 3V and 6V for compatibility with various power sources
    2. Double Shaft Design: Features dual shafts, allowing for easy attachment of wheels, gears, or other components on both sides
    3. High Efficiency: Low power consumption for reliable and consistent performance in robotics and DIY projects
    4. Versatile Application: Ideal for smart cars, robotics kits, model vehicles, and small automation systems
    5. Compact & Lightweight: Small size makes it easy to integrate into tight spaces or small robotic setups
    6. Durable Construction: Built with high-quality materials for long-lasting, dependable operation
    7. Smooth & Quiet Operation: Low vibration and noise, ensuring precision and stability in movement
    8. Easy Integration: Compatible with standard DIY components like wheels, gears, and controllers, making it beginner-friendly
    9. Low Maintenance: Designed for minimal upkeep, ensuring consistent performance over time
    10. Ideal for DIY & Educational Projects: Perfect for building custom robots, smart vehicles, and learning kits for robotics and STEM education
Category: Tag:

Description

ROBOT SMART CAR DC MOTOR DIY 3-6V DOUBLE SHAFT MOBO

The Robot Smart Car DC Motor DIY 3-6V Double Shaft is a versatile and high-performance motor designed specifically for robotics enthusiasts and DIY projects. Operating at a voltage range of 3V to 6V, this motor is ideal for powering small robotic vehicles, automation systems, or other mechanical projects that require moderate speed and reliable performance. Featuring a double shaft design, this motor offers enhanced flexibility, enabling you to connect additional components such as wheels, gears, or linkages on both sides. Its compact size, durability, and efficient power usage make it an excellent choice for beginners, hobbyists, and professionals looking to create custom robotic systems or automated vehicles.

Key Features:

  • Voltage Range: Operates efficiently within a voltage range of 3V to 6V, allowing for compatibility with a wide range of power sources.
  • Double Shaft Design: Dual shafts provide additional mounting flexibility for attaching wheels, gears, or other components on both sides of the motor.
  • High Efficiency: Designed for low power consumption while delivering consistent and reliable rotational motion.
  • Versatile Application: Ideal for use in DIY robotics projects, smart cars, model vehicles, and other automation systems.
  • Compact Size: Small and lightweight, making it easy to integrate into space-constrained systems.
  • Durable Build: Constructed from high-quality materials to ensure longevity and dependable performance over time.
  • Smooth Operation: Operates quietly with minimal vibration, ideal for robotics and precision movement.
  • Easy Integration: Simple to use with standard components like wheels, gears, and controllers, making it beginner-friendly for DIY projects.
  • Low Maintenance: Designed for minimal upkeep, ensuring reliability and consistent performance over time.

Specifications:

  • Motor Type: DC Motor (Double Shaft)
  • Voltage: 3V to 6V DC
  • Speed: Varies depending on voltage input; typically around 200 to 300 RPM (at 6V)
  • Shaft Type: Double Shaft for additional versatility in mounting components
  • Shaft Diameter: Typically 3mm (standard size for motor-compatible accessories)
  • Current: Low current draw for energy-efficient performance
  • Motor Dimensions: Compact size, typically around 27mm (L) x 18mm (W) x 12mm (H)
  • Mounting Type: Shaft output allows easy attachment of wheels, gears, and linkages
  • Noise Level: Quiet operation with low vibration, ideal for precise movements
  • Temperature Range: Operates within a typical range of -10°C to 40°C
  • Applications: Robotics, smart car kits, model vehicles, DIY projects, and automation systems

Ideal Applications:

  • DIY Robotics Projects: Perfect for creating small robots, robotic arms, or mobile platforms
  • Smart Cars: Ideal for building remote-controlled or autonomous smart cars and vehicles
  • Model Vehicles: Great for powering model cars, trucks, and other hobby vehicles
  • Automation Systems: Suitable for custom automation solutions requiring moderate-speed, controlled rotation
  • Educational Kits: Perfect for STEM education kits or robotics learning projects
  • Prototyping: Ideal for building and testing prototypes that require reliable motorized movement