Tutorials

I Built a Military Robot

42 6 Intermediate
Mobile, military robot optimized for use in desert environments which can be controlled remotely or autonomously and can collect/ stream video to a VR headset via its front mounted camera. The method of movement is a continuous track, created using steel roller chain connected by fasteners with 3D printed links. These loops sit on a custom designed drive sprocket and idler sprocket with 4 shock absorber loaded roller pins that act as the suspension system. The drive motors are powered by '18650' batteries, directed by a raspberry pi 4 and connected to a motor controller. For connectivity, a mobile device can connect to the pi's external antenna as it is a WiFi access point. From here, directions can be sent to the robot from the mobile device using the Node Red GUI and additionally, the entirety of the main raspberry pi computer can be accessed for the use of sending custom commands for autonomous movement.

Complete AI Robotic Arm Design Overview

23 1 Intermediate
Components used: 1) Raspberry Pi 4 extension 2) Servo motor Driver 3) High torque Servo Motors 4) Aluminium frame 360 freedom 5) Sony WebCam and Microphone Do like it..

{​VIDEO}​ How to Route Electrical Cables & Twist Wires in Fusion 360

21 0 Beginner
How to Route Electrical Cables & Twist Wires in Fusion 360: [Please Thumbs Up!]

How to design Complete Robot using Voice Assistant like JARVIS in Fusion 360

13 1 Intermediate
4-wheeled Robot Design Frame is 3D printable. Components - 1. Raspberry pi 4 2. Sony WebCam 3. Normal 3.5 mm jack Speaker 4. Custom Frame 5. MI 20000 mAh powerbank 6. 100 RPM Dual Shaft BO Motor - Straight with wheels Custom Voice Assistance code is running in background. Voice assistance code is connected with database which is having values like quantity and dimensions of components. Mail me for Jarvis source code. Like this video... 🤘

Robotic Tank Tread Assembly- Fusion 360 Tutorial (Tracked Robot Part 2)

10 3 Beginner
#Fusion360 #Fusion360Tutorial #AutodeskFusion360 Buy this chain: https://amzn.to/3f2FZEl In this series, we will design and develop a tracked, tank-like mobile robot optimized for use on sand and in desert environments. The modeling of the treads, custom sprocket, idler rollers and 3D printed suspension system will be shown in great detail. We will first create the chain links themselves and the tread pieces, then pattern them along the shape of the loop. Once we finish this, we will create the custom sprocket and motor connection followed by the idler spindle and finally the suspension system. In the end, we can mirror our entire assembly to the other side to create the right side tread. Working on only one side at a time makes it easier on our computers and allows us to work faster with less lag-time.

How to Build a Military Robot

10 0 Intermediate
https://www.youtube.com/watch?v=5bgXjKqfwAk

ROBOTIC ARM COMPLETE DESIGN

6 0 Intermediate
ROBOTIC ARM COMPLETE DESIGN

Robotic Suspension System 4- Fusion 360 Tutorial (Tracked Robot Part 9)

6 0 Beginner
#Fusion360 #Fusion360Tutorial #AutodeskFusion360 Robotic Suspension System 4- Fusion 360 Tutorial (Tracked Robot Part 9)

ROBOTIC ARM DESIGN

4 0 Beginner
A robotic arm is a type of mechanical arm, usually programmable, with similar functions to a human arm; the arm may be the sum total of the mechanism or may be part of a more complex robot. The links of such a manipulator are connected by joints allowing either rotational motion (such as in an articulated robot) or translational (linear) displacement.[1][2] The links of the manipulator can be considered to form a kinematic chain. The terminus of the kinematic chain of the manipulator is called the end effector and it is analogous to the human hand. However, the term "robotic hand" as a synonym of the robotic arm is often proscribed.

How to Model a Suspension System- Fusion 360 Tutorial (Tracked Robot Part 6)

3 0 Intermediate
#Fusion360 #Fusion360Tutorial #AutodeskFusion360 In this series, we will design and develop a tracked, tank-like mobile robot optimized for use on sand and in desert environments. The modeling of the treads, custom sprocket, idler rollers and 3D printed suspension system will be shown in great detail. We will first create the chain links themselves and the tread pieces, then pattern them along the shape of the loop. Once we finish this, we will create the custom sprocket and motor connection followed by the idler spindle and finally the suspension system. In the end, we can mirror our entire assembly to the other side to create the right side tread. Working on only one side at a time makes it easier on our computers and allows us to work faster with less lag-time.

Industrial Robot Assembly Tutorial || NX Tutorials

3 0 Intermediate
This is the final tutorial of industrial robot assembly. There are total 8 parts in this assembly and In this tutorial i am going to assemble all these 8 parts to create the Industrial Robot. I am going to use different tools and techniques of NX CAD software to create this part.

ROBOTIC ARM DESIGN

3 0 Beginner
FOLLOW THE VIDEO

Control 2 DC Motors with Raspberry Pi!

2 0 Intermediate
Motor Controller: https://amzn.to/3h3C4sG *Electrical:* • Power Supply: https://amzn.to/37DdKLk • Motors Used: https://amzn.to/3aticxT • Motor Controller Shown: https://amzn.to/3h3C4sG

Electric Scooter Design

2 0 Beginner
An e-scooter is an electric powered vehicle, two-axle, with a steering wheel, without a seat and without pedals, designed to be driven only by the rider on that vehicle.

ROBOTIC ARM DESIGN

1 0 Beginner
DESIGN OF ROBOTIC ARM