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6 Criteria for Designing Electromechanical Systems That Use Modular Linear Actuators

The use of electromechanical, or mechatronic, solutions in automated industrial systems continues to grow. This technology is developed via multidisciplinary branches of engineering with focus on both electrical and mechanical systems to create a complete integrated design. Emphasis has expanded to include combinations of robotics, electronics, Industrial Internet of Things (IIoT) systems and controls.Get more news about hardware electromechanical wholesaler,you can vist our website!

Some of the many applications include machine tool, packaging, material handling, assembly, test and measurement, medical, robotics and automation.

Modular linear actuators are flexible high-speed/precision positioning systems that provide motion using a drive and guidance device. They can be used as a single axis solution or configured for a multitude of gantry XY and XYZ positioning duties, including pick-and-place, part transfer, dispensing, handling, packing and palletizing.

This technology is ideal for many electromechanical automated systems in terms of cost, performance, reliability, efficiency, and environmental benefits. Linear motion components are a core mechanical factor of many electromechanical systems; about half of the Rockwell Automation servo motors in use are connected to linear solutions.

Mechanical Criteria First
When designing automated industrial systems, first consider the functionality of mechanical components. They’re designed before electrical in about 90% of applications, because mechanical engineers need to define the initial requirements before the ideal electrical components can be specified.
For example, electrical engineers wouldn’t be able to properly size a servo motor until the mechanical engineers have determined the motor drive and specifications for load, direction, duty cycle and accuracy.

Collaborative Development
As more companies strive to integrate completely engineered solutions of various technologies, remember that automation system optimization stems from open communication between electrical and mechanical engineers early in the development process. Effective collaboration between the two fields facilitates timely and efficient development of the proper integrated solution.

It’s important that mechanical and electrical engineers collaborate to understand how their applications will function together. Rather than simply thinking about the motor, engineers need to consider the entire machine functionality for the specific application, including the environment in which it will operate.

Design Considerations
When you’re looking at a possible replacement or upgrade for an existing industrial system, modular linear actuator systems can offer advantages in most applications. Resources to implement electromechanical solutions are available to make first-time design easier and subsequent designs repeatable.