The concept of utilizing industrial robotics in mass production is nothing new. In fact, the use of robotics and automation go back to the 1970s as industries wanted to find new ways to increase product quality and productivity without increasing costs. In the 1990s, a group of innovative, take-charge individuals at Willamette Valley Company saw the benefits of industrial automation for metering chemical products and launched our robotics division. This division was later named “PRE-TEC” in 2009.
As mass production evolves and grows, our PRE-TEC engineers understand that the use of industrial robots is a cost-effective way to produce higher quality products and increase productivity. Our team of engineers and scientists work closely with our industry partners to contribute innovative ideas and stay ahead of the curve when it comes to advances in the robotics field.
Our robotics partner, Robotic Industries Association (RIA), believes that the use industrial automation equipment is significantly on the rise. As the technology develops, it is estimated that the number of industrial automation and robots deployed worldwide will go up to 2.6 million units by 2019.
There have been numerous exciting advances made in industrial robotics over the years. One example is the use of Vision-Guided Robot (VGR) Systems. VGR robots, robotic systems fitted with vision sensors, are able to work for longer periods of time with a high level of speed and reliability. VGR systems not only surpass the use of traditional “blind” robots, they are highly adaptable and easy to implement.
“Flexibility is a key driver of ROI in robotics,” says RIA in this article. “3D vision capabilities have allowed robots to complete more than one task without reprogramming, as well as the ability to account for unforeseen variables in work environments. Further, 3D vision allows a robot to recognize what’s in front of it, to a certain extent, and react accordingly.”
By automating tasks that previously were done manually, 3D vision-guided robots are revolutionizing mass production. Using 3D smart sensors with onboard software, an industrial robot can perform tasks like “Pick and Place”, the action of automatically sensing and picking up the correct parts and placing them in the desired order and location. This function, something that could previously only be done by a skilled worker, was once a challenge for robots, but it is now a common practice in the day-to-day operations in most factories.
To learn more about 3D Smart Sensors in Vision-Guided Robotic Systems, click here.
PRE-TEC’s New Fanuc SCARA Robot Line
Another exciting advance in industrial robotics technology is the ability for robots to work in a more efficient and compact workspace. PRE-TEC’s new Fanuc SCARA robot line is the new standard for precision high-speed picking and tracking. Equipped with a 360-degree radius work envelope, work can be completed behind the SCARA robot with a compact inner radius that leaves more workstations around the machine for additional efficiencies. Click here to learn more about the Fanuc SCARA robot line.
The PRE-TEC division of Willamette Valley Company is currently the largest custom robotic integrator on the West Coast having installed systems throughout North America. PRE-TEC offers support in areas of training, programming, spare parts, and preventive maintenance. Please visit www.wilvaco.com to learn more about WVCO’s other divisions.