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MFGE 404 Computer Integrated Manufacturing CIM A T I L I M U N I V E R S I T Y Manufacturing Engineering Department Lecture 6– Group Technology and Cellular Manufacturing Fall 2005/2006 Dr. Saleh AMAITIK
Introduction to Group Technology (GT) • Group Technology (GT) is a manufacturing philosophy in which similar parts are identified and grouped together to make advantage of their similarities in design and production. • Similar parts bare arranged into part families, where each part family possesses similar design and/or manufacturing characteristics. • Grouping the production equipment into machine cells, where each cell specializes in the production of a part family, is called cellular manufacturing.
• There are two major tasks that a company must undertake when it implements Group Technology. Implementing Group Technology (GT) 1. Identifying the part families. If the plant makes 10,000 different parts, reviewing all of the part drawings and grouping the parts into families is a substantial task that consumes a significant amount of time. 2. Rearranging production machines into cells. It is time consuming and costly to plan and accomplish this rearrangement, and the machines are not producing during the changeover.
Benefits of Group Technology (GT) • GT promotes standardiztion of tooling, fixturing, and setups. • Material handling is reduced because parts are moved within a machine cell rather than within the entire factory. • Process planning and production scheduling are simplified. • Setup times are reduced, resulting in lower manufacturing lead times
Part Families • A part family is a collection of parts that are similar either because of geometric shape and size or because similar processing steps are required in their manufacture. • The parts within a family are different, but their similarities are close enough to merit their inclusion as members of the part family. Rotational part family requiring similar turning operations
Part Families Similar prismatic parts requiring similar milling operations Dissimilar parts requiring similar machining operations (hole drilling, surface milling Identical designed parts requiring completely different manufacturing processes
• One of the important manufacturing advantages of grouping workparts into families can be explained with reference to figures below
Grouping Part Families • There are three general methods for solving part families grouping. All the three are time consuming and involve the analysis of much of data by properly trained personnel. • The three methods are: 1. Visual inspection. 2. Parts classification and coding. 3. Production flow analysis.
1- Visual Inspection Method • The visual inspection method is the least sophisticated and least expensive method. • It involves the classification of parts into families by looking at either the physical parts or their photographs and arranging them into groups having similar features.
2- Parts classification and Coding • In parts classification and coding, similarities among parts are identified, and these similarities are related in a coding system. • Two categories of part similarities can be distinguished: 1. Design attributes, which concerned with part characteristics such as geometry, size and material. 2. Manufacturing attributes, which consider the sequence of processing steps required to make a part.
2- Parts classification and Coding • Reasons for using a classification and coding system: 1. Design retrieval. A designer faced with the task of developing a new part can use a design retrieval system to determine if a similar part already exist. A simple change in an existing part would take much less time than designing a whole new part from scratch. 2. Automated process planning. The part code for a new part can be used to search for process plans for existing parts with identical or similar codes. 3. Machine cell design. The part codes can be used to design machine cells capable of producing all members of a particular part family, using the composite part concept.
2- Parts classification and Coding • A part coding system consists of a sequence of symbols that identify the part’s design and/or manufacturing attributes. • The symbols are usually alphanumeric, although most systems use only numbers. • The three basic coding structures are: 1. Chain-type structure, also known as a polycode, in which the interpretation of each symbol in the sequence is always the same, it does not depend on the value of the preceding symbols.
2- Parts classification and Coding 2. Hierarchical structure, also known as a monocode, in which the interpretation of each successive symbol depends on the value of the preceding symbols. 3. Hybrid structure, a combination of hierarchical and chain-type structures.
Opitz Classification and Coding System • It is intended for machined parts and uses the following digits sequence • Form Code 1 2 3 4 5 for design attributes • Supplementary Code 6 7 8 9 for manufacturing attributes • Secondary Code A B C D for production operation type & sequence
Digits (1-5) for Rotational parts in the Opitz System
Example: Optiz part coding System • Given the rotational part design below, determine the form code in the Optiz parts classification and coding system. Solution • Length-to-diameter ratio: L/D = 1.5 Digit 1 = 1 • External shape: both ends stepped with screw thread on one end Digit 2 = 5 • Internal shape: part contains a through hole Digit 3 = 1 • Plane surface machining: none Digit 4 = 0 • Auxiliary holes, gear teeth, etc.: none Digit 5 = 0 The form code in the Optiz system is 15100
3- Production Flow Analysis (PFA) • Production flow analysis (PFA) is a method for identifying part families and associated machine groupings that uses the information contained on process plans rather than on part drawings. • Workparts with identical or similar process plans are classified into part families. These families can then be used to form logical machine cells in a group technology layout. • The procedure in production flow analysis must begin by defining the scope of the study, which means deciding on the population of parts to be analyzed.
3- Production Flow Analysis (PFA) • The procedure of Production flow analysis (PFA) consists of the following steps: 1. Data Collection. The minimum data needed in the analysis are the part number and operation sequence, which is obtained from process plans. 2. Sortation of process plans. A sortation procedure is used to group parts with identical process plans. 3. PFA Chart. The processes used for each group are then displayed in a PFA chart as shown below.
3- Production Flow Analysis (PFA) 4. Clustering Analysis. From the pattern of data in the PFA chart, related groupings are identified and rearranged into a new pattern that brings together groups with similar machine sequences.

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group technology-and-cellular-manufacturing-i

  • 1. MFGE 404 Computer Integrated Manufacturing CIM A T I L I M U N I V E R S I T Y Manufacturing Engineering Department Lecture 6– Group Technology and Cellular Manufacturing Fall 2005/2006 Dr. Saleh AMAITIK
  • 2. Introduction to Group Technology (GT) • Group Technology (GT) is a manufacturing philosophy in which similar parts are identified and grouped together to make advantage of their similarities in design and production. • Similar parts bare arranged into part families, where each part family possesses similar design and/or manufacturing characteristics. • Grouping the production equipment into machine cells, where each cell specializes in the production of a part family, is called cellular manufacturing.
  • 3. • There are two major tasks that a company must undertake when it implements Group Technology. Implementing Group Technology (GT) 1. Identifying the part families. If the plant makes 10,000 different parts, reviewing all of the part drawings and grouping the parts into families is a substantial task that consumes a significant amount of time. 2. Rearranging production machines into cells. It is time consuming and costly to plan and accomplish this rearrangement, and the machines are not producing during the changeover.
  • 4. Benefits of Group Technology (GT) • GT promotes standardiztion of tooling, fixturing, and setups. • Material handling is reduced because parts are moved within a machine cell rather than within the entire factory. • Process planning and production scheduling are simplified. • Setup times are reduced, resulting in lower manufacturing lead times
  • 5. Part Families • A part family is a collection of parts that are similar either because of geometric shape and size or because similar processing steps are required in their manufacture. • The parts within a family are different, but their similarities are close enough to merit their inclusion as members of the part family. Rotational part family requiring similar turning operations
  • 6. Part Families Similar prismatic parts requiring similar milling operations Dissimilar parts requiring similar machining operations (hole drilling, surface milling Identical designed parts requiring completely different manufacturing processes
  • 7. • One of the important manufacturing advantages of grouping workparts into families can be explained with reference to figures below
  • 8.
  • 9. Grouping Part Families • There are three general methods for solving part families grouping. All the three are time consuming and involve the analysis of much of data by properly trained personnel. • The three methods are: 1. Visual inspection. 2. Parts classification and coding. 3. Production flow analysis.
  • 10. 1- Visual Inspection Method • The visual inspection method is the least sophisticated and least expensive method. • It involves the classification of parts into families by looking at either the physical parts or their photographs and arranging them into groups having similar features.
  • 11. 2- Parts classification and Coding • In parts classification and coding, similarities among parts are identified, and these similarities are related in a coding system. • Two categories of part similarities can be distinguished: 1. Design attributes, which concerned with part characteristics such as geometry, size and material. 2. Manufacturing attributes, which consider the sequence of processing steps required to make a part.
  • 12. 2- Parts classification and Coding • Reasons for using a classification and coding system: 1. Design retrieval. A designer faced with the task of developing a new part can use a design retrieval system to determine if a similar part already exist. A simple change in an existing part would take much less time than designing a whole new part from scratch. 2. Automated process planning. The part code for a new part can be used to search for process plans for existing parts with identical or similar codes. 3. Machine cell design. The part codes can be used to design machine cells capable of producing all members of a particular part family, using the composite part concept.
  • 13. 2- Parts classification and Coding • A part coding system consists of a sequence of symbols that identify the part’s design and/or manufacturing attributes. • The symbols are usually alphanumeric, although most systems use only numbers. • The three basic coding structures are: 1. Chain-type structure, also known as a polycode, in which the interpretation of each symbol in the sequence is always the same, it does not depend on the value of the preceding symbols.
  • 14. 2- Parts classification and Coding 2. Hierarchical structure, also known as a monocode, in which the interpretation of each successive symbol depends on the value of the preceding symbols. 3. Hybrid structure, a combination of hierarchical and chain-type structures.
  • 15. Opitz Classification and Coding System • It is intended for machined parts and uses the following digits sequence • Form Code 1 2 3 4 5 for design attributes • Supplementary Code 6 7 8 9 for manufacturing attributes • Secondary Code A B C D for production operation type & sequence
  • 16. Digits (1-5) for Rotational parts in the Opitz System
  • 17. Example: Optiz part coding System • Given the rotational part design below, determine the form code in the Optiz parts classification and coding system. Solution • Length-to-diameter ratio: L/D = 1.5 Digit 1 = 1 • External shape: both ends stepped with screw thread on one end Digit 2 = 5 • Internal shape: part contains a through hole Digit 3 = 1 • Plane surface machining: none Digit 4 = 0 • Auxiliary holes, gear teeth, etc.: none Digit 5 = 0 The form code in the Optiz system is 15100
  • 18. 3- Production Flow Analysis (PFA) • Production flow analysis (PFA) is a method for identifying part families and associated machine groupings that uses the information contained on process plans rather than on part drawings. • Workparts with identical or similar process plans are classified into part families. These families can then be used to form logical machine cells in a group technology layout. • The procedure in production flow analysis must begin by defining the scope of the study, which means deciding on the population of parts to be analyzed.
  • 19. 3- Production Flow Analysis (PFA) • The procedure of Production flow analysis (PFA) consists of the following steps: 1. Data Collection. The minimum data needed in the analysis are the part number and operation sequence, which is obtained from process plans. 2. Sortation of process plans. A sortation procedure is used to group parts with identical process plans. 3. PFA Chart. The processes used for each group are then displayed in a PFA chart as shown below.
  • 20. 3- Production Flow Analysis (PFA) 4. Clustering Analysis. From the pattern of data in the PFA chart, related groupings are identified and rearranged into a new pattern that brings together groups with similar machine sequences.