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2018 Trends for Industrial Robots

LaserArc president Benedict Talan writes that 2018 trends aim to reduce complexity and justify the cost of automated systems and robotics. With lower cost, robotics will become more economical, even for smaller companies looking to become more competitive.

The industrial robotics industry has come a long way in the past decade, as more and more robots are integrated into a variety of production lines. But as LazerArc looks toward the year ahead, everyone wants to know what is on the horizon for 2018 and beyond. Here are just a few robotics trends to keep in mind before you finish planning your 2018 capital spend for improving production lines. They are:

7th-axis or flexible linear tracks for robots.



1. Growth in robot-as-a-service (RaaS)
Innova Research predicts that within the next two years, people should expect to see more commercial, service-based robots integrated into a variety of global industries. These specific robots will function as "pay-as-you-go" workers, "according to the service type and the time taken by the service." By 2020, this model will make up 30 percent of the global robotics market." A Brandeis University blog also lists the following as trends:

2. Ease of integration
Other notable trends on the horizon, according to a McKinsey article, include: "Ease of integration: Advances in computing power, software-development techniques, and networking technologies have made assembling, installing, and maintaining robots faster and less costly than before. For example, while sensors and actuators once had to be individually connected to robot controllers with dedicated wiring through terminal racks, connectors, and junction boxes, they now use plug-and-play technologies in which components can be connected using simpler network wiring. The components will identify themselves automatically to the control system, greatly reducing set-up time.

"These sensors and actuators can also monitor themselves and report their status to the control system to aid process control and collect data for maintenance, and for continuous improvement and troubleshooting purposes. Other standards and network technologies make it similarly straightforward to link robots to wider production systems."

3. The demand for 7th-axis or flexible linear tracks for robots continues to grow. Why?
Companies realize that using a robot for only one task is not an efficient use of floor space, and production can be slower and limit the products manufactured on a production line -- thus return on investment takes longer to achieve.

7th-axis robot transfer system



Companies installing robots on 7th-axis robot transfer units have sped up production, decreased the need for additional floor space, and reduced the amount of time required to prove return on investment for each robot. Another advantage to 7th-axis robotic slides is that more than one robotic arm can be placed on the same slide for additional productivity and flexibility.

The automotive, aerospace, packaging, solar/wind, medical, consumer goods industries, and more are starting to incorporate linear robot transfer units into production lines. By integrating these 7th-axis slides into a production environment, one robot will handle more than one assembly task. These tasks could include: loading/unloading, palletizing, product picking, moving products to another production line, welding, assembly, and more.

VIDEO: Robot Transfer Unit in action.

In order to address the growing needs of manufacturers that are looking to integrate robots on a linear robot transfer unit, LazerArc has begun manufacturing the customized 7th-Axis Slide, or Robot Transfer Unit, to fit a company's application.

To guarantee longevity of the unit, LazerArc provides heavy-duty design to address this issue. It is equipped with high-precision helical rack and pinions that can handle the high dynamic loads and required accuracy. LazerArc's Robot Transfer Units are manufactured in floor-mounted, elevated, or inverted configuration. LazerArc offers the highest precision guardrails, rack-and-pinion system, and closed-loop motor control system so companies can manufacture the best product possible.

To extend the reach of the robotic arm, it is placed on a support carriage on a 7th-axis slide and rack and pinions drive the axis. Using rack and pinions in their modular base design could achieve the unlimited travel lengths achieved by mounting them end to end.

The LazerArc Robot Transfer systems are capable of fitting into your automated robotic systems, whether it is a material-handling job, paint, and assembling or welding application. All of the units can be adapted to your specific servomotor or robot brand. LazerArc's RTU 7th-Axis system can also be engineered to any length that the customer requires. The design incorporates machined keyed ends that allow for sections to be added or removed easily, when repurposing.

Standard Features of LazerArc 7th-Axis Linear Robot Transfer Units:



Advantages for Design Engineers and Special Machine Builder:

Want more information? Click below.

LazerArc Robot Transfer Units

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