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Layout Types: Manufacturing

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Title: Layout Types: Manufacturing


1
Facilities Planning - Unit 04Layout Types
Manufacturing
2
Hierarchy of Facility PlanningLayout Design
Facility Location
Structural Design
Facility Planning
Facility Design
Layout Design
Handling System Design
Source for Figure Tompkins and White, Facilities
Planning, 2nd edition, Wiley
3
Layout Design
  • Facility layout means planning
  • for the location of all machines, utilities,
    employee workstations, customer service areas,
    material storage areas, aisles, restrooms,
    lunchrooms, internal walls, offices, and computer
    rooms
  • for the flow patterns of materials and people
    around, into, and within buildings

4
Layout DesignPlanning for required Spaces and
Areas
  • Equipment
  • Work stations
  • Material storage
  • Rest/break areas
  • Utilities
  • Eating areas
  • Aisles
  • Offices

5
Layout Design Introduction Characteristics of
the Facility Layout Decision
  • Location of these various areas impacts the flow
    through the system.
  • The layout can affect productivity and costs
    generated by the system.
  • Layout alternatives are limited by
  • the amount and type of space required for the
    various areas
  • the amount and type of space available
  • the operations strategy

6
Basic Layout Types
  • Product Layouts
  • Process Layouts
  • Fixed-position layouts
  • Cellular/Group technology layouts

7
Basic Layout TypesProduct Volume vs. Product
Variety
8
Types of LayoutFixed Position Layout
9
Types of LayoutFixed Position Layout
  • Layout in which the product or project remains
    stationary, and workers, materials, and equipment
    are moved as needed.
  • Examples
  • Large construction projects (buildings, power
    plants, dams)
  • Shipbuilding, production of large aircraft
  • Rockets used to launch space missions

10
Types of LayoutFixed Position Layout Advantages
  • Material movement is reduced.
  • Promotes job enlargement by allowing individuals
    or teams to perform the whole job.
  • Continuity of operations and responsibility
    results from team.
  • Highly flexible can accommodate changes in
    product design, product mix, and product volume.
  • Independence of production centers allowing
    scheduling to achieve minimum total production
    time.

11
Types of LayoutFixed Position Layout Limitations
  • Increased movement of personnel and equipment.
  • Equipment duplication may occur.
  • Higher skill requirements for personnel.
  • General supervision required.
  • Cumbersome and costly positioning of material and
    machinery.
  • Low equipment utilization.

12
Types of LayoutProduct Type Layout
13
Types of LayoutProduct Type Layout - Requirements
  • Standardized product
  • High production volume
  • Stable production quantities
  • Uniform quality of raw materials components

14
Types of LayoutProduct Type Layout - Assumptions
  • Volume is adequate for high equipment utilization
  • Product demand is stable enough to justify high
    investment in specialized equipment
  • Product is standardized or approaching a phase of
    its life cycle that justifies investment in
    specialized equipment
  • Supplies of raw materials and components are
    adequate and of uniform quality ensure they will
    work with specialized equipment

15
Types of LayoutProduct Type Layout - Advantages
  • Since the layout corresponds to the sequence of
    operations, smooth and logical flow lines result.
  • Since the work from one process is fed directly
    into the next, small in-process inventories
    result.
  • Total production time per unit is short.
  • Since the machines are located so as to minimize
    distances between consecutive operations,
    material handling is reduced.
  • Little skill is usually required by operators at
    the production line hence, training is simple,
    short, and inexpensive.
  • Simple production planning control systems are
    possible.
  • Less space is occupied by work in transit and for
    temporary storage.

16
Types of LayoutProduct Type Layout - Limitations
  • A breakdown of one machine may lead to a complete
    stoppage of the line that follows that machine.
  • Since the layout is determined by the product, a
    change in product design may require major
    alternations in the layout.
  • The pace of production is determined by the
    slowest machine.
  • Supervision is general, rather than specialized.
  • Comparatively high investment is required, as
    identical machines (a few not fully utilized) are
    sometimes distributed along the line.

17
Types of LayoutProcess Type Layout
18
Types of LayoutProcess Type Layout
  • Process type layouts can handle varied processing
    requirements
  • The layouts feature departments or other
    functional groupings in which similar kinds of
    activities are performed
  • Examples Machine shops usually have separate
    departments for milling, grinding, drilling, and
    so on
  • Different products may present quite different
    processing requirements and sequences of
    operations

19
Types of LayoutProcess Type Layout
20
Types of LayoutProcess Type Layout - Advantages
  • A high degree of flexibility exists relative to
    equipment or manpower allocation for specific
    tasks.
  • Comparatively low investment in machines is
    required.
  • The diversity of tasks offers a more interesting
    and satisfying occupation for the operator.

21
Types of LayoutProcess Type Layout - Limitations
  • Since longer flow lines usually exist, material
    handling is more expensive.
  • Production planning and control systems are more
    involved.
  • Total production time is usually longer.
  • Comparatively large amounts of in-process
    inventory result.
  • Space and capital are tied up by work in process.
  • Because of the diversity of the jobs in
    specialized departments, higher grades of skill
    are required.

22
Types of LayoutProcess Layout vs. Product Layout
23
Types of LayoutGroup Technology/Cellular/Product
Family Layout
24
Types of LayoutGroup Technology vs. Cellular
Manufacturing
  • Group Technology (GT) is a management philosophy
    that attempts to group products with similar
    design or manufacturing characteristics, or both.
  • Cellular Manufacturing (CM) is an application of
    GT that involves grouping machines based on the
    parts manufactured by them.
  • The main objective of CM is to identify machine
    cells and part families simultaneously, and to
    allocate part families to machine cells in a way
    that minimizes the intercellular movement of
    parts.

25
Original Process Layout
Types of LayoutGroup Technology/Cellular Layout
Example A (page 1)
26
Original Part Routing Matrix
Types of LayoutGroup Technology/Cellular Layout
Example A (page 2)
27
Reordered Part Routing Matrix
Types of LayoutGroup Technology/Cellular Layout
Example A (page 3)
28
Revised Cellular Layout
Types of LayoutGroup Technology/Cellular Layout
Example A (page 4)
29
Types of LayoutGroup Technology/Cellular Layout
Example B (page 1)
Unorganized Parts
30
Types of LayoutGroup Technology/Cellular Layout
Example B (page 2)
Process Flows before the Use of GT Cells
31
Types of LayoutGroup Technology/Cellular Layout
Example B (page 3)
Transition from Process Layout
  1. Grouping parts into families that follow a common
    sequence of steps.
  2. Identifying dominant flow patterns of parts
    families as a basis for location or relocation of
    processes.
  3. Physically grouping machines and processes into
    cells.

32
Types of LayoutGroup Technology/Cellular Layout
Example B (page 4)
Grouping parts into families
33
Types of LayoutGroup Technology/Cellular Layout
Example B (page 5)
Process flows after the Use of GT Cells
34
Types of LayoutGroup Technology/Cellular Layout
Related topic Mixed model Assembly/manufacturing
35
Types of LayoutGroup Technology/Cellular Layout
Grouping parts into families
36
Types of LayoutGroup Technology vs. Cellular
Manufacturing
Potential benefits of CM Potential benefits of CM
Setup time reduction Work-in-process (WIP) reduction Material handling cost reduction Direct/indirect labor cost reduction Improvement in quality Improvement in material flow Improvement in machine utilization Improvement in space utilization Improvement in employee moral
37
Basic Layout TypesProduct Volume vs. Product
Variety
38
Types of LayoutProcess (Functional) Layout vs.
Cellular Layout
Dimension Functional Cellular
Number of moves between departments Many Few
Travel distances Longer Shorter
Travel paths Variable Fixed
Job waiting times Greater Shorter
Throughput time Higher Lower
Amount of work in process Higher Lower
Supervision difficulty Higher Lower
Scheduling complexity Higher Lower
Equipment utilization Lower Higher
39
Types of Layout - Example
Layout Types Manufacturing - 39
40
Types of Layout - Example Manufacturing Cell
Animated Picture
41
Types of Layout - Example Manufacturing Cell
An example of a hybrid layout
42
Types of Layout - Example Automated Manufacturing
Cell
An example of a hybrid layout
43
Types of Layout - Example Flexible Manufacturing
Cell
An example of a hybrid layout
44
Types of LayoutWork Cell, Focused Work Center,
and Focused Factory
45
Principles of a Good LayoutManufacturing
  • Straight-line Flow Pattern when possible
  • Backtracking kept to a Minimum
  • Predictable Production Time
  • Little In-process materials storage
  • Open Floor plans so everyone can see what is
    going on
  • Bottlenecks under control
  • Workstations close together
  • Minimum of material handling
  • Easy adjustment to changing conditions

46
New Trends in Manufacturing Layouts
  • Designed for quality and flexibility
  • Ability to quickly shift to different product
    models or to different production rates
  • Cellular layout within larger process layouts
  • Automated material handling
  • U-shaped production lines use to better
    accomplish flow control
  • More open work areas with fewer walls,
    partitions, or other obstacles
  • Smaller and more compact factory layouts
  • Less space provided for storage of inventories
    throughout the layout

47
Wrap-UpWorld-Class Practices
  • Strive for flexibility in layouts
  • Multi-job training of workers
  • Sophisticated preventive-maintenance programs
  • Flexible machines
  • Empowered workers trained in problem solving
  • Layouts small and compact
  • Services follow the above practices plus
    incorporate customer needs in design

48
Wrap-upAttaining Lean Production
  • Focus on inventory reduction
  • Build systems that help employees
  • Reduce space requirements
  • Develop close relationships with suppliers
  • Educate suppliers
  • Eliminate all but value-added activities
  • Develop the workforce
  • Make jobs more challenging
  • Set sights on perfection!
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