With the new UR3 robot, Universal Robots brings the collaborative benefits of a user-friendly robot to the table.
The new compact table-top robot weighs only 24.3 lbs, but has a payload of 6.6 lbs, 360-degree rotation on all wrist joints and infinite rotation on the end joint. These unique features make UR3 a flexible, lightweight, table-top robot to work side-by-side with employees.
CTO and co-founder of Universal Robots, Esben Oestergaard, led the 3-year development phase of the new addition to the UR robot family: "With the UR3, table-top automation is easy, safe and flexible; a single worker can accomplish what traditionally would be a two-person task by having the UR3 robot as a third-hand helper. It's an ideal choice for applications that require 6-axis capabilities where size, safety and costs are critical," says Oestergaard. "UR3 is an optimal assistant in assembly, polish, glue, and screw applications requiring uniform product quality. Our new robot can also be used in a separate work station mounted on the table, picking, assembling and placing parts in optimized production flows. Because of its compact form and easy programming, it's easy to switch it between tasks to meet agile manufacturing needs making total cost of ownership low and payback period fast."
UR3 applications span manufacturing industries from medical devices to circuit boards and electronic components. "A big demand driver will be automating production in confined environments," says Oestergaard. With the UR3, we can now fit a 6-axis robot into more assembly and manufacturing lines where erecting large safety enclosures would not be feasible. The UR3 is ideal for relieving employees from working in environments with toxic or hazardous materials, and that scenario will also drive the adoption of UR3 robots."
UR3 has 15 advanced, adjustable safety settings. One of these is the unique force sensing that enables the UR3 to limit the forces at contact if the robot collides with an employee. The new robot has a default force sensing of 150 Newton but can be set to stop if it encounters a force as low as 50 Newton in its route.
By combing UR's easy programming technology with infinite rotation and improved force control, the UR3 will be an expert craftsman, according to the company. The robot can pick up screws, mount and tighten them applying the correct torque. In gluing applications UR3 can dose exactly the same amount of glue with constant and steady pressure along a narrowly defined path.
The UR3 features the same 0.1mm repeatability as the company's UR5 and UR10 robots and can follow the outline of a surface, such as the aluminum edge around a smartphone, by "feel" rather than through the programming of precise movements and coordinates, which otherwise would require more than 100 data points programmed into the application.
"With the UR5 and UR10 robots, we see end users integrating our robot arms in applications and industries that we didn't initially expect. I'm sure we will be equally surprised to witness the adaptation of the UR3 into new scenarios where robots haven't ventured before," says Oestergaard.
Dan Kara, Practice Director, Robotics, Automation and Intelligent Systems for ABI Research, notes: "Universal Robots has a well-deserved reputation for producing reliable industrial robotic arms that can be easily programmed to work safely and cooperatively with humans. With the introduction of the UR3, Universal is expanding the range of applications for their unique technology, as well as the number and types of business that can immediately benefit from robotic assembly and manufacturing automation. By doing so, the company has also greatly increased the scope of their own addressable markets. Everyone benefits."
Related Glossary Terms
- payload ( workload)
payload ( workload)
Maximum load that the robot can handle safely.
Discipline involving self-actuating and self-operating devices. Robots frequently imitate human capabilities, including the ability to manipulate physical objects while evaluating and reacting appropriately to various stimuli. See industrial robot; robot.