Arduino 4WD Smart Robot Car Chassis Kit

Arduino 4WD Smart Robot Car Chassis Kit with DC Motors

Rs.1,750.00 PKR
Sale price  Rs.1,750.00 PKR Regular price 
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Arduino 4WD Smart Robot Car Chassis Kit

Arduino 4WD Smart Robot Car Chassis Kit with DC Motors

Rs.1,750.00 PKR
Sale price  Rs.1,750.00 PKR Regular price 

Product Overview

The Arduino 4WD Smart Robot Car Chassis Kit is a complete educational robotics platform designed for beginners, students, and makers. Featuring a 4-wheel drive system, geared DC motors, and a programmable design, it is ideal for building obstacle-avoiding, line-following, Bluetooth-controlled, and autonomous robotic vehicles.

Description

The Arduino 4WD Smart Robot Car Chassis Kit with DC Motor Set is a versatile robotics development platform that enables users to learn programming, electronics, automation, and robotics through hands-on projects. Built around a durable acrylic chassis and powered by four geared DC motors, the kit provides a stable and reliable foundation for creating intelligent robotic vehicles.

Designed for compatibility with Arduino UNO, Arduino Mega, ESP32, Raspberry Pi, and other popular development boards, this chassis kit allows users to build a wide variety of smart robotics applications. The four-wheel-drive (4WD) configuration delivers excellent traction and maneuverability, making it suitable for both indoor and outdoor robotics experiments.

The platform can be expanded with motor driver modules such as the L298N, ultrasonic sensors for obstacle avoidance, IR tracking sensors for line following, Bluetooth modules for wireless control, and WiFi modules for IoT-based robotics projects.

Whether you're developing a self-driving robot, a Bluetooth-controlled vehicle, an autonomous obstacle avoidance robot, or a STEM learning project, this kit provides an excellent foundation for learning and innovation.

Its DIY assembly process helps students understand mechanical construction, motor control, sensor integration, and embedded programming while developing practical engineering skills.


Applications

  • Arduino robot car projects
  • STEM education and robotics learning
  • Obstacle avoidance robots
  • Line follower robots
  • Bluetooth-controlled vehicles
  • WiFi-controlled robot cars
  • Autonomous navigation systems
  • ESP32 robotics projects
  • Raspberry Pi robot vehicles
  • Artificial intelligence robotics
  • Smart vehicle development
  • Engineering and science projects
  • DIY automation systems
  • Robotics competitions

Key Features

  • Four-wheel-drive (4WD) robotic platform
  • Durable acrylic robot chassis
  • Includes 4 geared DC motors
  • Easy integration with Arduino and ESP32
  • Compatible with L298N motor drivers
  • Supports ultrasonic and IR sensors
  • Expandable with Bluetooth and WiFi modules
  • Ideal for obstacle avoidance projects
  • Perfect for line following robots
  • Excellent STEM learning platform
  • DIY assembly for hands-on experience
  • Suitable for beginners and advanced users

Technical Specifications

Specification Details
Product Type 4WD Smart Robot Car Chassis Kit
Drive System Four Wheel Drive (4WD)
Chassis Material Acrylic
Motor Type DC Geared Motors
Number of Motors 4
Typical Gear Ratio 1:48
Typical Motor Speed 125 RPM
Controller Compatibility Arduino UNO, Arduino Mega, ESP32, Raspberry Pi
Motor Driver Compatibility L298N, TB6612FNG and similar drivers
Expansion Support Ultrasonic Sensors, IR Sensors, Bluetooth Modules, WiFi Modules
Assembly Type DIY Kit

 


Datasheet Summary

Main Components

Component Description
Chassis Acrylic Robot Base
Motors 4 × DC Geared Motors
Wheels 4 × Robot Wheels
Battery Holder Included
Hardware Kit Screws, Nuts, Mounting Parts
Wiring Connection Wires Included

Compatible Electronics

Component Supported
Arduino UNO Yes
Arduino Mega Yes
ESP32 Yes
Raspberry Pi Yes
L298N Driver Yes
Ultrasonic Sensor Yes
IR Tracking Sensor Yes
Bluetooth Module Yes
WiFi Module Yes

How It Works

The robot car uses four DC geared motors connected to a motor driver module such as the L298N. An Arduino or other microcontroller acts as the brain of the robot, controlling motor movement based on programmed instructions and sensor inputs.

For example:

  • Obstacle Avoidance Robot: An ultrasonic sensor detects objects ahead and automatically changes direction.
  • Line Following Robot: IR sensors detect a black line on the ground and guide the robot along a predefined path.
  • Bluetooth-Controlled Robot: Commands are sent from a smartphone to control movement wirelessly.
  • WiFi Robot: The vehicle can be controlled through a web interface or mobile application.

By combining motors, sensors, and programming logic, users can create intelligent robotic systems while learning practical electronics and robotics skills

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