Drones

Foam-squirting quadcopter becomes a flying 3D printer

Foam-squirting quadcopter becomes a flying 3D printer
The 3D-printing robotic quadcopter hovers over its target (Photo: Aerial Robotics Lab)
The 3D-printing robotic quadcopter hovers over its target (Photo: Aerial Robotics Lab)
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The drone-testing area (Photo: Aerial Robotics Lab)
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The drone-testing area (Photo: Aerial Robotics Lab)
The 3D-printing quadcopter and its target (Photo: Aerial Robotics Lab)
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The 3D-printing quadcopter and its target (Photo: Aerial Robotics Lab)
The 3D-printing robotic quadcopter hovers over its target (Photo: Aerial Robotics Lab)
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The 3D-printing robotic quadcopter hovers over its target (Photo: Aerial Robotics Lab)
The robot extrudes foam onto the target (Photo: Aerial Robotics Lab)
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The robot extrudes foam onto the target (Photo: Aerial Robotics Lab)
The hexacopter robot moves in ... (Photo: Aerial Robotics Lab)
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The hexacopter robot moves in ... (Photo: Aerial Robotics Lab)
... and carries away the target (Photo: Aerial Robotics Lab)
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... and carries away the target (Photo: Aerial Robotics Lab)
The 3D-printing quadcopter in flight (Photo: Aerial Robotics Lab)
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The 3D-printing quadcopter in flight (Photo: Aerial Robotics Lab)
A diagram of the quadcopter's foam extrusion system (Image: Aerial Robotics Lab)
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A diagram of the quadcopter's foam extrusion system (Image: Aerial Robotics Lab)
The target-lifting robotic hexacopter (Photo: Aerial Robotics Lab)
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The target-lifting robotic hexacopter (Photo: Aerial Robotics Lab)
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The swiftlet may not look much different than other little birds, but it has one unique ability – it builds its nest out of its own saliva. Inspired by the swiftlet, scientists at Imperial College London's Aerial Robotics Lab have created a robotic quadcopter that can extrude polyurethane foam while in flight. By targeting where that foam goes, it can build up simple structures, essentially becoming a flying 3D printer. The technology could have some very important applications.

Developed mainly by Graham Hunt and other members of a team led by Dr. Mirko Kovac, the robot's platform is made from inexpensive 3D-printed components and carbon fiber supports. It has two canisters containing separate liquid chemicals on its underside. When those chemicals mix together as they pass through its extrusion nozzle, a chemical reaction occurs and they turn to foam.

In its current form, the aircraft uses GPS and an external system of 16 infrared cameras to identify targets upon which to spray the foam, within an indoor lab. That sensor data is transmitted to a nearby laptop computer, that is able to compensate for the constantly-changing angle and mass of the copter's printing payload. Based on that processed data, the computer relays flight and extrusion commands back to the robot.

The 3D-printing quadcopter in flight (Photo: Aerial Robotics Lab)
The 3D-printing quadcopter in flight (Photo: Aerial Robotics Lab)

Down the road, however, Kovac's team hopes to create fully-autonomous UAVs equipped with their own high-speed cameras and 3D depth senors, that could function in a variety of chaotic, real-world conditions.

At that point, they could conceivably be used for applications such as performing repairs in areas too remote or dangerous for humans to easily access, such as wind turbines or nuclear reactors. They could also pick up and remove hazardous items such as bombs or radioactive waste – which is where the team's second robot comes into play.

The hexacopter robot moves in ... (Photo: Aerial Robotics Lab)
The hexacopter robot moves in ... (Photo: Aerial Robotics Lab)

It's a hexacopter, and instead of an extrusion system, it just has a disposable flat surface on its underside. After the first robot (the quadcopter) sprays foam onto a target, the hexacopter simply lands on that target, waits for the wet foam to cure onto its underside, then flies away with the target adhered to it.

Kovac ultimately envisions a whole bio-inspired system, in which swarms of such "wild robots" will autonomously build platforms that they could use as a base of operations, and where they could also recharge their fuel cells via built-in solar cells.

"Like in nature, the robots will have specialized functions and division of labor," he explains. "Using swarm intelligence, the robots will be able to perform very complex tasks of autonomous inspection and aerial construction effectively. For example, inspection drones will create a 3D scan to detect damage in hazardous environments and a second swarm of construction drones will selectively repair the structure with aerial 3D printing."

The quadcopter robot will be on display this weekend at the college's Imperial Festival, while a paper on the research will be presented later this month at the International Conference on Robotics and Automation, in Hong Kong.

Source: Imperial College London via New Scientist

View gallery - 9 images
7 comments
7 comments
The Skud
Sounds like it has a fair way to go yet. If the computer link goes down, accuracy is shot. I guess spare grant money has to be used somehow. There are many solutions around at present that will do this job easily without the complications.
Quad copterHQ
Yea still in the very developmental stages, and I imagine that precision is a serious issue given the constant battle on stability, especially when it is applying the foam. Still, interesting idea!
nutcase
Who didn't see this coming? I dreamt about this about six months ago.
Slowburn
@ Quad copterHQ The foam nozzle generates a knowable amount of thrust in known direction it is not a big problem to deal with. The gun on the F-15 is notably off center and produces hundreds of pounds of recoil which would make keeping the gun on target real hard except the plane automatically uses the rudders to compensate.
StWils
The ONLY worthwhile use for this otherwise idiot idea is to spray the lenses of traffic cameras. For those of us who resent persistent intrusive surveillance this particular Money Shot could be the last thing a reviewer sees on the tapes until maintenance crews spend some quality time cleaning off the lense.
Slowburn
@ StWils
While that is a good use it is not the only use.
Start by thinking of temporary roof repairs.
shield
Imagine 100s of these helping firefighters. Just saying. Fun useless projects always turn into practical applications if you have the imagination to build upon the initial idea.