Design for Manufacturing and Assemblymontalee.ie.engr.tu.ac.th/ch8english.pdf · • Level 2...
Transcript of Design for Manufacturing and Assemblymontalee.ie.engr.tu.ac.th/ch8english.pdf · • Level 2...
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Design for Manufacturing and
Assembly
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Design for Assembly
• Is a technique which can be used in many stages of product
design and development such as product teardown, reverse
engineering, improvement of product concept.
• Benefits of DFM
– SIMPLIFY the design of product
– Reduce the number of parts, and the cost of parts
– Reduce the time of manufacturing and assembly
– Increase quality and reliability of product
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DFM Process
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Manufacturing cost estimation
• In estimating manufacturing cost per unit of
product, there are 3 cost categories
–Cost of parts
–Cost of assembly
–Overhead cost
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Accuracy of manufacturing cost estimation
• Level 1 estimation – relies on experience of expert
engineer
• Takes less than 10 minutes for a system with 50 parts,
and is within 20 % accuracy
• Level 2 estimation – list the costs explicitly by relying
on experience from similar product, expert experience,
and vendor information
• Takes approx. 1 day for a system with 50 parts, and is
within 5 % accuracy
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• Level 3 estimation – Cost accounting
– cost calculation of every part
– Use database of material cost estimation and motion/ time
study
• Take approx. 1 week for product with 50 parts and is
within 1 % accuracy
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How to reduce the cost of parts
• Understand manufacturing process capability
• Redesign the parts to eliminate manufacturing steps
• Choose production size suitable with manufacturing
process
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How to reduce the cost of assembly
• Even though assembly cost contributes only a small part
of total manufacturing cost, assembly cost reduction is
beneficial because of several indirect effects:
– Number of parts is reduced
– Process complexity is reduced
– Cost of manufacturing support is reduced
• A technique for reducing cost of assembly is design for
assembly (DFA)
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Design for Assembly
• System design
• Design for ease of handling
• Design for ease of insertion
• Design for fastening
• Design for manufacturing processes
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System design
• MODULARITY - a module is a self-contained component that is equipped with standard interfaces that allow it to be integratedinto a larger system
• Modules form “building blocks” that can be used interchangeably in different products.
• Design for modularity has several benefits:
– Easy to reassemble
– Easy to detect quality problems
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Steel support bracket
Left: one-part product (simple, easy to manufacture)
Right: several part product (joined by spot welding)
– Another way to achieve system design for assembly –simple design, and eliminate unnecessary parts
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(a) Original design (b) Redesigned housing unit
The redesigned part facilitates product assembly, as well
as the servicing of the units.
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• A common electric outlet box.
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• 13 parts, including screws, and must be assembled
by tedious hand methods.
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• A one-piece plastic electric box is injection molded
with the nails in place, and requires no assembly.
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Criteria for analyzing unnecessary parts• Boothroyd and Dewhurst (1994) suggests that unnecessary parts
are those that answer “No” to the following questions:
• Does the part move relative to other parts in normal operating
condition of product?
• Is it necessary that the part is made of different materials or
isolated from other parts such as electrical insulation, heat
insulation, or vibration reduction?
• Does the part have to be isolated from other parts otherwise it is
impossible to assemble the products?
• If the answer is “no”, the part is unnecessary and can be
integrated with other parts.
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• Another approach for system design
– reduce variability of parts
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Handling Guidelines
• Maximize part symmetry
• Provide orienting features
on non-symmetries
• Prevent nesting of parts
• Eliminate tangly parts
• Avoid sharp ends
• Provide orienting features
on non-symmetries
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(ข)
(ค)
(ง)
(จ)
(ฉ)
ยืดหยุนได
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• Parts made symmetrical for easier orientation
From Stoll (1999)
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• Adding external features (such as chamfers, slots, and flats) to
facilitate orientation From Stoll ( 1999)
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Provide orienting features on non-symmetriesFrom Priest (2001)
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Provide orienting features for labelFrom Priest (2001)
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• Shingling or overlapping can be avoided by providing thicker contact
edges, or vertical, or highly angled surfaces.
(Stoll, 1999)
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Insertion Guidelines
• Minimize resistance
• Provide chamfer
• Design parts that locks into
place
• Insert new parts into assembly
from above (z axis)
ยึดอยูกับที่ไดเอง
(ก)
(ข)
(ค)
ติดขัดไมติดขัด
ไมติดขัด
(ง)
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(a) top-down Z axis assembly (b) avoid multi-motion insertion
(c) design assemblies as layered stacks with components positively located
(d) provide alignment features for guiding components (Stoll, 1999)
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Process in the open
(Boothroyd, Dewhurst, and Knight, 1994)
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• Design features that facilitate inserting and mounting of components
(Stoll, 1999)
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• Top-down assembly
• Note - Bottom of computer case is used as a conveyor pallet assembly fixture and
support for parts. (From Priest, 2001)
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Fastening guidelines
• Minimize the number of fasteners
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• Minimize the number of fasteners
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Assembly Efficiency
• Assembly Efficiency (Ema) , DFA index
Ema = Nmin ta / tma
Nmin = the theoretical minimum number of parts
ta = 3 sec (average time used to assemble one part which is not
difficult to handle, insert, or fasten together)
tma = approximate time to assemble the total number of parts
into a product
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Conclusion
• DFM is a technique which is aimed at reducing
manufacturing cost by decreasing the number of parts
in the design
• To do DFM, it is necessary to estimate manufacturing
cost.
• DFA is part of DFM, invented by Boothroyd, Dewhurst
and Knight. It is aimed at facilitating part assembly.
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Eco-efficiency
• Reduction of raw material
• Reduction of energy usage
• Reduction of emission
• Increase of recyclability
• Increase of sustainable use of renewable resources
• Increase product durability
• Increase the useful functions of product and service
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Regional and local environmental problems
• Acid rain
• Air pollution (smog)
• Water pollution
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GLOBAL environmental problems
1. Biodiversity loss
2. Ozone depletion
3. Climate change
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Design for Environment (DFE)
• is an umbrella term describing techniques used to incorporate an
environmental component into products and services before they
enter the production phase.
•DFE seeks to discover product innovations that will meet cost and
performance objectives while reducing pollution and waste
throughout the life-cycle.
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DFE Techniques
• 1. Techniques that are used to identify the environmental
impact of a product throughout its life cycle such as life-
cycle assessment.2. Techniques that help designers improve the environmental
performance of their products.– Design for recycling
– Design for disassembly
– Design for remanufacture
– Hazardous material minimization
– Design for finishing and labeling
– Design for energy efficiency– Design for disposability
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DFE in System Design
• Design multifunctional products
• Aim for minimum number of parts
• Avoid the use of spring, cable, pulley
• Use modular design
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Design for recycling
• Reduce material variability
• Reduce the use of high impact materials
• Use recycled materials
• Design for easy access of highest value materials
• Identify all materials in the product
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Design for disassembly
• Design parts so that they are secure during disassembly.
• Avoid the use of metal inserts in plastic parts
• Other guidelines are similar to DFMA.
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Fastening guidelines
• Minimize the number of fasteners
• Minimize the use of fastener-removing tools.
• Provide easy access to fasteners.
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Fastening (ตอ)
• Use fasteners which are made of materials
compatible with the parts.
• Avoid the use of adhesives unless compatible
with the parts.
• Minimize the use of cables.
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Design for remanufacturing/reuse
• Identify the parts which can be
remanufactured.
• Identify the packages which
can be remanufactured.
• Other guidelines are similar to
design for disassembly
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Hazardous material minimization
• Avoid the use of materials in the
controlled lists
• Identify materials on all parts
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Energy efficiency guidelines
• Specify best-in-class energy efficiency component
• Have subsystems power down when not in use
• Permit users to turn off systems in part or whole
• Make parts whose movement is powered as light as
possible
• Insulate heated systems
• Avoid nonrechargable battery