Product details of 3 in 1 Robot Kit Set || Special RoboBox-5 || Plug and Play
Line Following Robot
Bluetooth Controlled Robot
Obstacle Avoiding Robot
- Learn Robotics from the beginning
- Build 3 different robot, within cost of one chassis
- Ultrasonic Sensor based Obstacle Avoiding Robot Car
- IR based line follower car
- Android controlled Bluetooth car
- Simple plug & play type robotics project (Do-it-yourself project)
বক্সের ভিতরে QR স্ক্যান করলেই পাবেন সমস্ত কোড, সার্কিট ডায়াগ্রাম এবং রোবট বানানোর নির্দেশনাবলী
Inside the Box Includes:
- Hardware: Arduino Uno R3 Dip(1), Arduino cable, Motor driver shield(1), Gear motors (4), Robot wheels (4), Chassis board(1), Li-ion batteries (2), Battery holder(1), Battery charger(1), on/off switch(1), Ultrasonic sensor(1), Ultrasonic sensor holder(1), Servo motor(1), Bluetooth module(1), IR sensor modules (2), Jumper wires (M-M, M-F, F-F), Double-sided tape, Zip ties, Screwdriver, and
scissors. - Software: Arduino code, Circuit diagrams, and an app.
- Service: Step-by-step tutorials.
Build Three Unique Robots with the above Set of Components
বক্সের ভিতর parts and devices ব্যবহার করে আপনি তিনটি মজার রোবট তৈরি করতে পারেন—লাইন ফলোয়িং রোবট, ব্লুটুথ নিয়ন্ত্রিত রোবট, এবং অবস্টেকল এভয়েডিং রোবট। প্রতিটি রোবট ভিন্ন কাজ করে, এবং কিছু parts and devices বদলালেই আপনি একটি রোবট থাকে অন্য একটি রোবট তৈরী করতে পারবেন। দেখে নিন, আপনি কীভাবে এটি করবেন:
Line Following Robot
লাইন ফলোয়ার রোবট: এই রোবটটি একটি কালো লাইনের দ্বারা চিহ্নিত পথ অনুসরণ করার জন্য ডিজাইন করা হয়েছে। এটি মৌলিক রোবটিক্স এবং সেন্সর সংযোগের সঙ্গে পরিচিত হওয়ার জন্য একটি চমৎকার রোবোটিক্স প্রজেক্ট ।
Components:
- Arduino Uno
- Motor driver shield
- Gear motors and wheels
- IR sensors (2)
- Li-ion battery and holder
- Chassis board
- Jumper wires
Steps:
- Programming: Use simple logic to detect the line. The robot will follow the line using the IR sensors to adjust its direction.(you will get the program inside the box)
- Assembly: Attach the motors and wheels to the chassis and connect the motor driver shield to the Arduino Uno. Mount the IR sensors at the front underside of the robot.(you will get the circuit diagram inside the box)
- Wiring: Connect the IR sensors to the Arduino (VCC to 5V, GND to GND, signal to analog pins) and wire the motors to the motor driver shield.
- Testing: Place the robot on a black-lined track and observe how it follows the path.
Transition to
Bluetooth Controlled Robot
ব্লুটুথ কন্ট্রোল রোবট, যা আপনাকে স্মার্টফোনের মাধ্যমে দূর থেকে রোবটি নিয়ন্ত্রণ করার সুযোগ দিবে।
Changes:
- Remove: IR sensors from the Line Following Robot.
- Add: Bluetooth module for wireless control.
Components:
- Arduino Uno
- Motor driver shield
- Gear motors and wheels
- Bluetooth module
- Li-ion battery and holder
- Chassis board
- Jumper wires
Steps:
- Programming: Upload a program that reads Bluetooth signals from your smartphone app to control the robot’s movement.(you will get the program inside the box)
- Assembly: Reuse the chassis, motors, and shield.Keep the setup as it is only replace the IR sensors with the Bluetooth module. (you will get the circuit diagram inside the box)
- Wiring: Connect the Bluetooth module to the Arduino (TX to RX and RX to TX).
- Testing: Pair the Bluetooth module with your smartphone, open a Bluetooth control app, and navigate the robot wirelessly.
Transition to
Obstacle Avoiding Robot
অবস্টেকল এভয়েডিং রোবট: এই রোবটটি বাধা সনাক্ত করে এবং সেগুলো এড়িয়ে চলে, যা রোবটিকে সত্যিই স্মার্ট করে তোলে।
Changes:
- Remove: Bluetooth module.
- Add: Ultrasonic sensor and servo motor for obstacle detection and avoidance.
Components:
- Arduino Uno
- Motor driver shield
- Gear motors and wheels
- Ultrasonic sensor
- Servo motor
- Li-ion battery and holder
- Chassis board
- Jumper wires
Steps:
- Programming: Write code to scan for obstacles using the ultrasonic sensor. The robot will change direction if an object is detected.(you will get the program inside the box)
- Assembly: Keep the chassis, motors, and shield. Keep the setup as it is just remove the Bluetooth module and Mount the ultrasonic sensor on the servo motor and attach it to the front of the robot.(you will get the circuit diagram inside the box)
- Wiring: Connect the ultrasonic sensor (VCC, GND, Trig, and Echo) and the servo motor to the Arduino.
- Testing: Test the robot’s ability to navigate around obstacles, avoiding collisions in real-time.
Why follow this robot making approach
This approach is both time-saving and highly efficient for anyone looking to explore robotics. By making simple swaps in components between builds, you can explore different areas of robotics—from line following and remote control to obstacle avoidance. This modular approach lets you experience various types of automation and control without needing an entirely new set of parts for each project.
By using a modular setup, you can:
- Quickly switch between projects: With just a few component swaps, you can go from building a line-following robot to a Bluetooth-controlled or obstacle-avoiding one.
- Maximize learning: Instead of focusing on just one type of robot, you get to experiment with different technologies like sensors (IR and ultrasonic), wireless control (Bluetooth), and motor drivers—all using the same foundational components.
- Hands-on experience: You’ll get practical knowledge in multiple areas—like sensor integration, motor control, and wireless communication—allowing you to build a solid foundation in robotics.
Warning: Don’t power your Arduino, Motor Driver Shield and specially the Bluetooth, IR Array & Servo Motor wrongly. If you do so, all the equipment will be damaged permanently. Before you start, make sure you know the positive and negative terminal of every equipment and battery as well. Watch the tutorial carefully and if you need any support let us know.
**As it is a DIY Robot kit, the aim of this robot kit is, you will make this robot yourself. So that you can get the hands on experience on robotics. You can also order the Ready made (Assembled) robot or you can also hire a robotics engineer who will teach you live how to make the robot.**
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