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Epson releases the robots (video demo)

Thursday, 14 December 2017
By Print21

Epson has unveiled a “seeing, sensing, thinking, working” autonomous dual-arm robot named the WorkSense W-01 (pictured) that it says will expand the scope of automated production.

“We are refining our core technologies that combine sensors and smart features, as well as our efficient, compact, and precision technologies, with the aim of realising a future in which robots are widely used to serve and support people,” says Yoshifumi Yoshida, chief operating officer of Epson’s Robotics Solutions Operations Division. “We see the WorkSense W-01, which harnesses the power of Epson’s deep portfolio of technology, as bringing us one step closer to bringing about such a future.”

Industrial robots are conventionally installed in a fixed location on a line to perform a given task. The WorkSense W-01, however, was developed for easy mobility so that it can be wheeled from place to place to perform assembly, transport, and other tasks.

Epson says the WorkSense brand name was coined to represent the concept of a robot that sees, senses, thinks, and works:

Seeing
The robot is equipped with 4 head-unit cameras and 2 arm-mounted cameras that give the robot human-like vision, enabling it to accurately detect an object’s position and orientation in three-dimensional space. Even if the location of objects and obstacles changes, the robot is able to independently “see” and determine their position.

Sensing
The robot arms are outfitted with Epson’s highly sensitive, precision force sensors, which are already available on sale. The robot is thus able to perform delicate assembly, transport, and other tasks that require human-like force control to avoid damaging objects. Multipurpose hands that can grasp, grip, and clamp objects of various shapes and sizes are included as standard end-of-arm tooling. They can manipulate tools and jigs that were designed for humans.

Thinking
The robot is able to accurately detect the position and orientation of objects in three-dimensional space, so even if the robot is relocated, it can immediately start work—with no programming change required. This gives the robot the ability to flexibly adapt to sudden changes in production. So, for example, it can be wheeled to different locations to perform different tasks every day, if need be. The robot independently decides the path and orientation of its 7-axis arms and is able to avoid obstacles.

Working
The robot’s two 7-axis arms move like human arms. The dual arms move independently from one another to allow the robot to perform tasks that a single-arm robot cannot, such as tightening a screw in a component with one arm while holding the component in place with the other. 

 

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