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Robotic sweeper - Coggle Diagram
Robotic sweeper
Sustainability
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Long battery life materials that can recycled or replaced and reduce carbon footprint whist simultaneously boosting life span
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Disposal
Users can easily replace componenets such as brushes filters sensors without discarding the entire device. Recyclable plastics eco friendly finishes (water based paints) and information on how to properly dispose of lithium ion batteries.
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Target market
Firms such as amazon warehouses, families with young children
Property renovation Airbnb hosts
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Safety
Sensors that detect dramatic changes in surface height and prompt the device to change directions or completely stop.
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Ergonomics
User friendly interfaces such as led indicators buttons and charging ports. Due to its Low profile design allows for swift manouveres ensuring thorough cleaning wihtout manual effort.
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Materials
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Polyethylene terephthalate commonly used for the brush stainless steel aluminum for the base and plastics ABS and polypropylene/polyethylene
The materials that are used for the wheels rubber or silicone. additional components may include sensors, motors, and a rechargeable battery.
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Function
Acts like a vacuum that pick up dirt and debris from various floor surfaces and can reach surfaces that humans struggle to clean. This can be done by being controlled remotely.
Competition
Samsung and Dyson are the top competitors in the industry. That has models which integrate with smart home ecosystems and feature advanced sensors. Nevertheless this is still a nice product that has a lot more potential to be explored.
Aesthetics
powder coating LED lights buttons all enhance the aesthetics of the robotic sweeper. Powder coating gives ti a sleek more modern look whilst Led lights /buttons give it a more sophisticated appearance
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