Applied Robotics Announces the New Safety Control Module

Applied Robotics Announces the New Safety Control Module

Glenville, New York – July 8th, 2013
ARI, a leading manufacturer of robotic end-of-arm tooling and connectivity solutions, announce the release of the Performance Level d (PLd) compliant Safety Control Module (SMC) for our Sigma Family of Tool Changers.

What is Performance Level?

The International Organization of Standardization (ISO) has made changes to the standards regarding the safety of machinery. Building on previous standards laid out in EN 954-1, European machine builders are now designing to a new set of standards defined in ISO EN-13849. The new standards require machine builders to do a risk assessment and determine what Category and Performance Level their machinery achieves.
Factors determining the Performance Level include and assessment of the degree and frequency of risk to the machine operator. Once these are determined, designers can begin reducing the amount of risk to an individual, achieved through the use of inherently safe parts, safeguards, or removing the individual from the process completely. However, when people are not able to be removed from the process, the ratings on safety related parts becomes even more important. Ther ratings include Mean time to Dangerous Failure, Diagnostic Coverage and Redundancy. It’s through the risk assessment of safety rated devices, and interaction between these devices that a desired Performance Level is achieved.

ARI’s SCM is a Tool Changer Safety Circuit within a Safety System

A Tool Changer Safety Circuit ensures the tool changer will not uncouple while it is not in a “safe condition.” A “safe condition” is defined as a tool changer engaged in a tool stand (not moving) or in movement without a tool attached to it. Therefore, the tool changer will not drop the tool. Even if the uncouple command is sent, the Safety Control Solution WILL NOT ALLOW the tool changer to uncouple, unless either “safe condition” is met. (More details are available in the SCM Users’ Guide; available on the ARI website www.arobotics.com or upon request from ARI.)

ARI’s Safety with Diagnostic Coverage

The diagnostic coverage monitors the status of the tool stand present, tool present, and the output valve spool position through a set of normally open and normally closed contacts. In order for proper operation of the system, al dual channel devices need to operate simultaneously. Using an LED status indicator, or a hard wired signal, the end-user can identify when the system becomes unsafe, and can prevent the system from operating in these unsafe conditions. ( More details are available in the SCM Users’ Guide; available on the ARI website www.arobotics.com or upon request from ARI.)

The machine safety would continues to change and evolve, and these new functional safety standards will ultimately provide safer machine control systems and more flexibility to achieve and cost-justify safer designs.

About Applied Robotics

Applied Robotics Inc., headquartered in Glenville, NY, is an ISO-9001 registered, employee-owned company serving the world’s automation market. Founded in 1983, ARI designs and manufactures end-of-arm tooling and connectivity solutions intended to solve complex automation problems and improve efficiencies. Serving a wide spectrum of customers and industries ranging from large Fortune 500 companies to small privately-held businesses, the company’s wrist-down solutions can be found in manufacturing, welding, assembly, material  removal and material handling applications throughout the United States, Canada, Mexico, Pacific Rim, South America, Australia, Africa and in Europe via Applied Robotics, Europe. More information can be found on the company’s website at www.arobotics.com

 

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