Infinity Gauntlet Controlled Home Automation

I control appliances when I move this Infinity Gauntlet

Similar projects worth following
I made a home automation system using cardboard infinity gauntlet. For making Infinity Gauntlet Controlled Home Automation, I used Arduino unos, An Arduino nano, Servo motors,Led strip, and NRF24L01+ 2.4GHz Wireless RF Transceiver Modules to communicate between two Arduino boards wirelessly.

Hardware and Materials Required

Arduino Mega + USB Cable II Arduino Uno : II Arduino nano:

9v battery:

AA battery:

Resin :


Jumper wires:

Male DC Barrel Jack Adapter for Arduino :

Micro Servo 9g :

Mini Breadboard :

9v Battery Clip Connector :

Cardboard :

Ruby :

NRF24L01+ 2.4GHz Wireless RF Transceiver Module:

MPU 6050 :

LED Strips :

ino - 1.11 kB - 07/29/2019 at 03:39


ino - 1.19 kB - 07/29/2019 at 03:39


ino - 1.11 kB - 07/29/2019 at 03:38


ino - 1.17 kB - 07/29/2019 at 03:38


ino - 1.21 kB - 07/29/2019 at 03:38


View all 7 files

  • 1
    Making the Infinity Stones and the Infinity Gauntlet From Cardboard

    For making infinity stones, I used ruby, epoxy resin + Hardener, colour paint, and clay (you can use silicon). - Push ruby into the clay and pull it out.

    - Mix the resin, hardener, colour paint and divide it into six different cups, one for each color.

    - Pour the epoxy into the mold and Let it dry.

    You can watch this video , if you want to know how I made infinity gauntlet from cardboard.

  • 2
    Arduino Wireless Network With Multiple NRF24L01 Modules

    A single NRF24L01 module can actively listen up to 6 other modules at the same time. You can define the addresses of the nodes in octal format. In this project, the address of the base (Infinity Gauntlet) is 00, the base children addresses are 01 to 0. So from the base (Infinity Gauntlet) , using a MPU6050 we will control the servo motor at the node 01 – 0.

  • 3
    Wiring Diagram for Infinity Gauntlet

View all 5 instructions

Enjoy this project?



Similar Projects

Does this project spark your interest?

Become a member to follow this project and never miss any updates