OEMs and manufacturers look to Parker because they know our extensive motion system design experience, systematic project management process, and global infrastructure ensure their needs are met. Parker's Electromechanical Automation Division is able to meet a variety of application needs, ranging from major systems work through custom products designed specifically for one customer.
Through years of motion system design and manufacturing, Parker's Engineered Precision Motion System teams have developed a collaborative development cycle and systematic six-step project management process that lead the motion industry. Parker's Engineered Solutions incorporate air-bearing, linear motor, and pneumatic technology with composite or conventional materials to create a total solution.
The Custom Engineering Group specializes in assemblies for servo and step motor control. The group also integrates multiple axes of controls and amplifiers into customer-specified packages and provides custom software engineering where necessary. Parker also has a team focused on specialized motors, and can modify any of our motors to better meet customer requirements.
A Complete Family of Motor Products
We offer a complete line of motor products meeting a broad range of applications. Parker Trilogy’s linear motors offer industry leading solutions for both ironcore and ironless technologies. Our complete family of servo motors includes the high torque MPP family, the smooth/high interia SM family and the cost effective BE family. Parker Bayside offers unique variants of servo motors such as gearmotors, kit motors and stainless steel motors. We also have a wide variety of step motors offering cost effective solutions. Finally, we have the ability to build a broad range of custom servo motors.
A Complete Family of Gantry Robots
Parker’s seven standard system configurations are designed to satisfy the vast majority of gantry robot applications. Standardizing on these configurations, has simplified sizing and selection, shortened lead times, and reduced costs. Utilization of these pre-engineered systems enables the user to redirect scarce engineering resources from motion system design to machine or process functionality.
