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Track technology

  (Redirected from Track Technology)

Depending on the supplier, track technology has been variously termed an intelligent track system, industrial transport system, independent cart technology, smart carriage technology, linear or extended or flexible transport system, or simply a conveyor or conveyance platform. They are also referred to as linear motors or long stator linear motors, reflecting the underlying technology of the track (stator) and shuttles (platen, equivalent to the rotor in a conventional rotary electric motor).  Shuttles have also been called carriers, movers, platforms and pallets.

List of commercially available track systems

In the following commercially available track systems are listed in alphabetic order of the product name:

Technology adoption and maturity

  • According to Packaging World magazine in a January 2018 article, adoption of the technology continues to grow with a third generation of the technology reaching maturity.  The article cites freedom from mechanical constraints, shortening changeovers and smaller machine footprints as reasons.[1]
  • Track technology itself is not new. For example, Magnemotion (now part of Rockwell Automation) was founded in 1996, and they were not the first to develop the technology.[2]
  • In a 2007 technical paper, MagneMotion explained the principles of operation, which they describe as a linear synchronous motor.[3]
  • A 2014 case study article described the system's application in medical device assembly.[4]
  • A 2013 case study described the use of ATS Automation's SuperTrak system in a flexible cartoning machine used in packaging lines.[5]
  • This article, also from 2013, describes early packaging applications and principles of operation for track technology.[6]
  • This article described a number of food processing applications, including the automation of labor-intensive tasks such as lasagna production and rainbow packng. It also mentions a unique capability to prevent containers of liquids from sloshing, by matching the frequency of a shuttle's motion to the frequency that causes the sloshing.[7]
  • This article summarized the activities of major players in track technology as of July 2018.[8]

Areas of application

Track technology is – among other technologies like machine vision and robotics – one of the key enablers for the adaptive machine.

The concept of the adaptive machine also goes beyond track technology to achieve their high levels of flexibility.  One complementary technology is the industrial robot, which by definition possesses the same programmable flexibility.  Of particular interest is the ability of both robots and track systems to operate safely along with humans in a collaborative environment. This recent development allows for a combination of manual and automated assembly tasks, maintenance and materials replenishment without stopping production.[9][10]

Machine vision can play a pivotal role when integrated into an adaptive machine. Vision can identify individual shuttles and their contents in order to guide them to the appropriate workstations. Vision has long been used to automate robot guidance, inspection, orientation and related tasks.

Given the adaptive machine's flexibility to respond to consumer demand generation, Internet of Things and e-commerce technologies are complementary, providing the connection between internal production resources and commercial systems in a manufacturer's digital business model.

References

  1. ^ "Linear servo track adoption grows". Packaging World. January 2018. Retrieved 5 August 2020.
  2. ^ "Devens Firm Puts Labs On The Move". Worcester Business Journal. October 2010. Retrieved 5 August 2020.
  3. ^ "MagneMotion's linear synchronous motor (LSM) driven assembly automation and material handling system designs". April 2007. Retrieved 5 August 2020.
  4. ^ "Flexible conveying system improves medical device automated assembly". Design World. 9 April 2014. Retrieved 5 August 2020.
  5. ^ "Linear Servo Motor Permits Unique Cartoning System". Automation World. 9 August 2013. Retrieved 5 August 2020.
  6. ^ "A new breed of linear servo motor finds packaging applications". Packaging World. 2 April 2013. Retrieved 5 August 2020.
  7. ^ "Batch-of-One Operations Demand Flexibility". Pro Food World. 29 December 2016. Retrieved 5 August 2020.
  8. ^ "Flexible movers could revamp production lines". Smart Machines & Factories. 3 July 2018. Retrieved 5 August 2020.
  9. ^ "The Realm of Collaborative Robots – Empowering Us in Many Forms". Robotics Online. 17 June 2014. Retrieved 5 August 2020.
  10. ^ "Intelligent Transport Systems Enhance Human-Robot Collaboration". Design News. 5 July 2019. Retrieved 5 August 2020.

This page was last updated at 2021-07-09 23:29, update this pageView original page

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