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Janak Valaki (PhD)
Janak Valaki (PhD)

This is a presentation on flexible manufacturing system.

Engenharia
1 de 28
A Presentation by Prof. Dr. Janak B. Valaki Associate professor, Mechanical Engg. Dept., Government Engineering College, Bhavnagar janakvalaki@gmail.com, 09913715250
• The machines and handling system are arranged in a line. • It is most appropriate for a system in which the part progress from one workstation to the next in a well defined sequence with no back flow. • The operation of this type of system is very similar to transfer type. • Work always flows in unidirectional path as shown in Figure.
• The parts move in one direction around the loop, with the capability to stop and be transferred to any station. • The loading and unloading stations are located at one end of the loop. • One direction flow, but variations in processing sequence possible for different part types. • Secondary handling system at each workstation. • Parts can skip stations for flexibility. • Used for large part sizes. • Best for long process times.
• In this configuration, part loading and unloading stations are located at the same end. • The sequence of the operation/transfer of parts from one machine tool to another is in the form of ladder steps. • Loop with rungs to allow greater variation in processing sequence. • Parts can be sent to any machine in any sequence • Parts not limited to particular part families
• The open field layout is an adoption of the loop configuration. • The open field layout consists of loops and ladders organized to achieve the desired processing requirements. • This is used for the processing of a large family of parts. • The number of different machines may be limited, and the parts are routed to different workstations depending on availability of machines. • A possible arrangement of this layout is shown in fig.
• If a handling robot is used in a Flexible manufacturing system cell , the machines are laid out in a circle, such a layout is called circular layout. • A possible arrangement of this layout is shown in fig.
• Less waste • Fewer workstations • Quicker changes of tools, dies, and stamping machinery • Reduced downtime • Better control over quality • Reduced labor • More efficient use of machinery • Work-in-process inventory reduced • Increased capacity • Increased production flexibility

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FMS_Lecture_1_Intro.pptx

  • 1. A Presentation by Prof. Dr. Janak B. Valaki Associate professor, Mechanical Engg. Dept., Government Engineering College, Bhavnagar janakvalaki@gmail.com, 09913715250
  • 2.
  • 3.
  • 4.
  • 5.
  • 6.
  • 7.
  • 8.
  • 9.
  • 10.
  • 11.
  • 12.
  • 13.
  • 14.
  • 15.
  • 16.
  • 17.
  • 18.
  • 19.
  • 20.
  • 21. • The machines and handling system are arranged in a line. • It is most appropriate for a system in which the part progress from one workstation to the next in a well defined sequence with no back flow. • The operation of this type of system is very similar to transfer type. • Work always flows in unidirectional path as shown in Figure.
  • 22. • The parts move in one direction around the loop, with the capability to stop and be transferred to any station. • The loading and unloading stations are located at one end of the loop. • One direction flow, but variations in processing sequence possible for different part types. • Secondary handling system at each workstation. • Parts can skip stations for flexibility. • Used for large part sizes. • Best for long process times.
  • 23. • In this configuration, part loading and unloading stations are located at the same end. • The sequence of the operation/transfer of parts from one machine tool to another is in the form of ladder steps. • Loop with rungs to allow greater variation in processing sequence. • Parts can be sent to any machine in any sequence • Parts not limited to particular part families
  • 24. • The open field layout is an adoption of the loop configuration. • The open field layout consists of loops and ladders organized to achieve the desired processing requirements. • This is used for the processing of a large family of parts. • The number of different machines may be limited, and the parts are routed to different workstations depending on availability of machines. • A possible arrangement of this layout is shown in fig.
  • 25. • If a handling robot is used in a Flexible manufacturing system cell , the machines are laid out in a circle, such a layout is called circular layout. • A possible arrangement of this layout is shown in fig.
  • 26.
  • 27.
  • 28. • Less waste • Fewer workstations • Quicker changes of tools, dies, and stamping machinery • Reduced downtime • Better control over quality • Reduced labor • More efficient use of machinery • Work-in-process inventory reduced • Increased capacity • Increased production flexibility