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Robtics - Coggle Diagram
Robtics
Sustainability
Compact design to save materials.
Improve energy efficiency.
Reduce any electronic waste materials.
Biodegradable or recyclable materials.
Reduce the amount of material wasted during the 3D printing process.
Use the robot to do eco-friendly activities.
Plan for simple disassembly and recycling of components.
Manufacturing Process
Create initial sketches of the robot's structure.
Create 3D computer-aided design robot models.
Check for Arduino component compatibility.
Based on the robot's function, select Arduino boards, sensors, and actuators.
Make certain that compatibility and availability are met.
Printing settings should be optimised for speed and quality.
Perform quality control checks at each level of the manufacturing process.
Check that all of the components work properly.
Determine that the robot meets all safety guidelines and regulations.
Technologies
Initial Components:
Arduino Board
Power Supply
LEDs
Programming will be used on Adruino
Will be made for user friendly
Energy Efficient
Remote control to be used
Wireless control could be used
Materials that can be used
PLA (Polylactic Acid)
Because to its simplicity of usage, biodegradability, and low cost, PLA is one of the most popular 3D printing materials. It's ideal for prototyping and making lightweight, not carrying a load robot components.
ABS (Acrylonitrile Butadiene Styrene)
ABS is well-known for its toughness and impact resistance. It's typically utilised for stronger robot parts, such as frames and structural components. However, due to warping concerns, 3D printing with ABS can be difficult, therefore an enclosed printer or a heated build plate may be required.
Nylon
Nylon is a strong and flexible material that may be used to make robot parts that require both strength and flexibility, such as gears or connections. It can be more difficult to