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I Built a Military Robot

Engineering Juice
in Process
45 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.
Fusion 360 printed 3d rc programming pi raspberry electronics 360 fusion robot robotics

Complete AI Robotic Arm Design Overview

Rugved Chavan
in Modeling
26 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..
Fusion 360 robotics fusion360 raspberrypi roboticarm

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

Rugved Chavan
in Process
17 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... 🤘
Fusion 360 automation electronics robots arduino engineering technology robot robotics

How to Build a Military Robot

Engineering Juice
in Modeling
12 0 Intermediate
https://www.youtube.com/watch?v=5bgXjKqfwAk
Fusion 360 rollerchain raspberrypicamera led dcmotor raspberrypi robotics robot fusion360

ROBOTIC ARM COMPLETE DESIGN

MANIKANTHA P
in Modeling
8 0 Intermediate
ROBOTIC ARM COMPLETE DESIGN
NX Unigraphics assembly assemblies robot robotic arm robotics

VTOL UAV DESIGN AND FLIGHT TEST

RAMBO TECHNOLOGY SERVICES AND SOLUTIONS
in Design & CAD
8 0 Intermediate
This video contains all the design and flight testing details of the following VTOL UAVs. ➡️Coax Copter, ➡️Bi Copter, ➡️Tri Copter, ➡️Quad Copter, ➡️Hybrid Fixed-Wing VTOL UAV, ➡️Tilt Rotor VTOL UAV What is a MultiCopter and How Does it Work? A multicopter is a mechanically simple aerial vehicle whose movement is controlled by accelerating or decelerating multiple downward thrust motor/propeller units. Multicopters are aerodynamically unstable and require an onboard computer (autopilot) for stable flight. As a result, they are "fly by wire" systems and if the system doesn't work, you're not flying. The autopilot maintains a precise estimate of its orientation and position by integrating data from the gyroscopes and accelerometers of the small on-board MEMs. The quadcopter shown above is a simple type of multicopter, with each motor/propeller rotating in opposite directions from the two motors on either side of it (i.e. motors at opposite corners of the frame rotate in the same direction). A quadcopter can control its roll and pitch rotation by speeding up two motors on one side and slowing down the other two. For example, if the quadcopter wants to roll to the left, it will speed up the motors on the right side of the frame and slow down the two on the left. Similarly, if it wants to spin forward, it speeds up the rear two motors and slows down the front two. The copter can turn left or right by speeding up two motors that are diagonal to each other and slowing down the other two. Horizontal movement is accomplished by temporarily speeding up/decelerating some of the motors so that the vehicle leans in the desired direction of travel and increases the overall thrust of all the motors so that the vehicle moves forward. Generally, the more the vehicle leans, the faster it travels. Altitude is controlled by accelerating or decelerating all motors simultaneously. What is the difference between a MultiCopter and a UAV/Drone? A multicopter becomes a UAV or drone when it is capable of autonomous flight. Typically this means taking accelerometer and gyro information and combining it with barometer and GPS data so the flight controller understands not only its orientation, but also its position. For more details contact email: rambo.tss19@gmail.com
SOLIDWORKS robotics fpv vtoldrone drone uav vtol

Face Tracing Robot using Raspberry Pi | OpenCV | Computer Vision | Fusion 360

Rugved Chavan
in Process
5 0 Intermediate
Cloning Spot robot features in DIY 4wd raspberry pi robot. Face detection and robot control. Components used- 1) Raspberry pi 4 2) Sony webcam 3) 4 × 100 rpm bo dc motors 4) L298 Motor Driver 5) speaker 6) 4 × wheels 7) 3d printed robot chassis Soon uploading the scripts on github repository... 😊 Do like and share it! 🧡
electronics spot opencv tracing face vision computer pi raspberry robotics

DIY Multi-functional robot car using Arduino

AUBAI ALKHABBAZ
in Modeling
4 0 Intermediate
Assembly robot arm on chassis Arduino car
Fusion 360 arduino car robotics

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

Engineering Juice
in Modeling
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.
Fusion 360 autodesk robot robotics tutorial 360 fusion

Industrial Robot Assembly Tutorial || NX Tutorials

Aakash Kumar
in Assemblies
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.
NX Unigraphics tutorials assembly unigraphics nx robotics robot industrial

6 Axis Robotic Arm in CATIA V5 Tutorial | DMU Kinematics | Assembly

Vishal Bharat Patil
in Kinematics
3 0 Intermediate
In this tutorial, I have designed and simulate the 6 Axis Robotic Arm. Also, one can learn the simulation in CATIA V5 with precise commands and instructions to perform the operations. I'm very happy to get so much response from your YouTube family, Hoping for a Positive and vibrant response to this video. Please share and comment below doubts as well as feedbacks Or Mail me your query at vishalbharatpatil5@gmail.com
design robotics tutorial v5 catia arm robotic axis

Control 2 DC Motors with Raspberry Pi!

Engineering Juice
in Other
2 1 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
motors electronics dc motor pi raspberry robotics electrical

how to design the robot in Catia|| 6-axis robot

auto design solutions
in Modeling
2 0 Intermediate
in this tutorial, I show the how-to design the 6-axis robot in CATIA software. if you like do subscribe
CATIA animation robotics catia robot

Industrial Robot Assembly - Jaw 2 Tutorial || CollabCAD

Aakash Kumar
in Modeling
1 0 Intermediate
Jaw 2 Part Created in CollabCAD
Other industrial robotics robot tutorials collabcad jaw

Industrial Robot Assembly - Jaw 7 Tutorial || CollabCAD

Aakash Kumar
in Modeling
0 0 Intermediate
Jaw 7 Part Created in CollabCAD
Other industrial robotics robot tutorials collabcad jaw
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