Download - Lecture 5 DFA Boothro
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Boothroyd & Dewhurst’s DFA Analysis• B&D offer eight rules or guidelines which are important
during design for manual assembly (listed in decreasing order of importance):
1. Reduce part count and part types
2. Strive to eliminate adjustments
3. Design parts to be self-aligning and self-locating
4. Ensure adequate access and unrestricted vision
5. Ensure the ease of handling parts from bulk
6. Minimize the need for re-orientations during assembly
7. Design parts that cannot be installed incorrectly
8. Maximize part symmetry if possible or make parts obviously asymmetrical
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Boothroyd & Dewhurst’s DFA Analysis (cont.)Step 1: Obtain information about the product or assembly from
drawings, prototypes, or an existing product
Step 2: Take the product or assembly apart and assign an identification number to each item as it is removed
Step 3: Begin to reassemble the product beginning with the highest identification number and add the remaining parts one-by-one –Complete one row of the DFA worksheet for each part–Never assume that parts are grasped one in each hand and
then assembled together before placing them in a partially-completed assembly
• Step 4: Complete DFA worksheet, computing total manual assembly time, cost, and design efficiency
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TM CM NM
DFA Worksheet
Design EfficiencyEM = (3 x NM)/TM
Obtained from B&D Manual Handling Worksheet
Obtained from B&D Manual Insertion Worksheet
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Estimating Theoretical Minimum Number of Parts
First Part;Theoretical # of parts = 1
Is there a need for significant movement between parts?
Add zero to the minimum theoretical
number of parts
Add one to the minimum theoretical
number of parts
Add next part
Add a part
Keep the twoparts separate
Yes
Yes
YesWould assembly or disassembly of theproduct be prevented by combining two parts?
No
Is there a need for interfacingparts to be isolated?
No
Combine the two partsNo
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Assumptions for BDI DFMA
• Parts are provided in bulk and randomly oriented in a bin.
• Parts are handled and inserted one at a time.• Products weigh a few grams to a few tens of
kilograms and are electro-mechanical in nature.• Assembly sequence is optimized for one
operator.
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Estimate assembly time:–Time to assemble a part:
»Time to handle a part»Time to insert a part
–Time to assemble all parts, one at a time
Assembly Time Estimate by Boothroyd/Dewhurst DFMA
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BDI DFMA: Assembly Time
• Time to handle a part:–Pick a part, orient & get ready to insert it–1.13 ~10 seconds depending on:
»Symmetry; Primary(-) & secondary(-)»Size: Thickness, dimension, weight, …»Handling ease: Tool, flexible, tangling, ...
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BDI DFMA: Part Symmetry
• Primary (-) symmetry: Rotational symmetry perpendicular to the axis of insertion
= 180o
= 360o
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BDI DFMA: Part Symmetry
• Secondary (-) symmetry: Rotational symmetry about the axis of insertion
= 0o = 360o
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DFA Worksheet Part Orientation
• asymmetry: rotational symmetry •about an axis perpendicular to the •axis of insertion
=
=
1800 3600 ?
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symmetry: rotational symmetry about its axis of insertion
DFA WorksheetPart Orientation
= 00 = 1800 = ?
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BDI DFMA: Part Symmetry
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BDI DFMA: Part Size
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BDI DFMA: Assembly Time
• Time to insert a part:– Time to insert and secure a part –1.5 ~ 12 seconds depending on:
»Ease of access: Visual & hand access»Ease of positioning: Hold-down,
alignment, insertion force, ..»Securing requirement: Screw, snap,
bending, soldering, ….• Time to assemble all parts, one at a time
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BDI DFMA: Assembly Time
• Time to insert a part
• Two-digit insertion codes for piston:_ _ _ _
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BDI DFMA: Assembly Time
• Time to insert a part
• Two-digit insertion codes for washer:_ _ _ _
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BDI DFMA: Assembly Time• Handling Time
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BDI DFMA: Assembly Time• Insertion Time
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BDI DFMA: Assembly Time
• Total Assembly Time
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
123456
Total Assembly Time
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Pneumatic Pump Exercise withBoothroyd/Dewhurst DFMA
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BDI DFMA: Pneumatic Pump
• Assembly Sequence:
6. Two screws5. One cover4. One spring3. One piston stop2. One piston1. One main body
• Tool:–A screw driver
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BDI DFMA: Pneumatic Pump
• Assembly Time:
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
1 Main Block 12 Piston 13 Piston Stop 14 Spring 15 Cover 16 Screws 2
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BDI DFMA: Pneumatic Pump
• Assembly Time:
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
1 Main Block 1 30 1.95 00 1.50 3.452 Piston 13 Piston Stop 14 Spring 15 Cover 16 Screws 2
Total Assembly Time
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BDI DFMA: Pneumatic Pump
• Assembly Time:
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
1 Main Block 1 30 1.95 00 1.50 3.452 Piston 1 10 1.50 10 4.00 5.503 Piston Stop 14 Spring 15 Cover 16 Screws 2
Total Assembly Time
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BDI DFMA: Pneumatic Pump
• Assembly Time:
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
1 Main Block 1 30 1.95 00 1.50 3.452 Piston 1 10 1.50 10 4.00 5.503 Piston Stop 1 10 1.50 00 1.50 3.004 Spring 15 Cover 16 Screws 2
Total Assembly Time
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BDI DFMA: Pneumatic Pump
• Assembly Time:
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
1 Main Block 1 30 1.95 00 1.50 3.452 Piston 1 10 1.50 10 4.00 5.503 Piston Stop 1 10 1.50 00 1.50 3.004 Spring 1 05 1.84 00 1.50 3.345 Cover 16 Screws 2
Total Assembly Time
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BDI DFMA: Pneumatic Pump
• Assembly Time:
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
1 Main Block 1 30 1.95 00 1.50 3.452 Piston 1 10 1.50 10 4.00 5.503 Piston Stop 1 10 1.50 00 1.50 3.004 Spring 1 05 1.84 00 1.50 3.345 Cover 1 12 2.36 08 6.50 8.866 Screws 2
Total Assembly Time
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BDI DFMA: Pneumatic Pump
• Assembly Time:
Part # Part Name Qty (n)
Handling Code
Handling Time
Insertion Code
Insertion Time
Assembly Time (n Parts)
1 Main Block 1 30 1.95 00 1.50 3.452 Piston 1 10 1.50 10 4.00 5.503 Piston Stop 1 10 1.50 00 1.50 3.004 Spring 1 05 1.84 00 1.50 3.345 Cover 1 12 2.36 08 6.50 8.866 Screws 2 11 1.80 39 8.00 16.60
Total Assembly Time 40.75 Seconds
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Part Reduction Method by Boothroyd/Dewhurst DFMA
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BDI DFMA: Part Reduction• Estimate assembly time:• Identify critical parts & candidates for
elimination/combination. Let’s assume a product consists of a number of parts:–Are they all critical part? –What if a part is missing or broken?–What if two parts are replaced by a larger
or different part• Determine design efficiency
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BDI DFMA: Part Reduction
When ready to assemble a part, should this part:
• Move relative to all already assembled parts?• Be made of different material from all already
assembled parts?• Be a separate part from all already assembled
parts for assembly and disassembly?
If any answer is a “yes”, this part is a critical part and may not be eliminated or combined!
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BDI DFMA: Why Reduce Parts?
A non-existing part never:
• Causes a quality problem• Adds the cost• Creates an inventory problem• Requires design changes• Creates a shortage problem• Has a lead time
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BDI DFMA: Pneumatic Pump
• Assembly Sequence:
6. Two screws5. One cover4. One spring3. One piston stop2. One piston1. One main body
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BDI DFMA: Pneumatic Pump• Part Reduction:
Part # Part Name Qty With Respect to
Relative Motion
Different Material
Service & Assembly
Critical Part
1 Main Block 12 Piston 1 Main Block3 Piston Stop 1 Main Block
Piston4 Spring 1 Main Block
PistonPiston Stop
5 Cover 1 Main BlockPistonPiston StopSpring
6 Screws 2 Main BlockPistonPiston StopSpring
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BDI DFMA: Pneumatic Pump• Part Reduction:
Part # Part Name Qty With Respect to
Relative Motion
Different Material
Service & Assembly
Critical Part
1 Main Block 1 -- Yes2 Piston 1 Main Block3 Piston Stop 1 Main Block
Piston4 Spring 1 Main Block
PistonPiston Stop
5 Cover 1 Main BlockPistonPiston StopSpring
6 Screws 2 -- No
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BDI DFMA: Pneumatic Pump• Part Reduction:
Part # Part Name Qty With Respect to
Relative Motion
Different Material
Service & Assembly
Critical Part
1 Main Block 1 Yes2 Piston 1 Main Block Yes Yes3 Piston Stop 1 Main Block
Piston4 Spring 1 Main Block
PistonPiston Stop
5 Cover 1 Main BlockPistonPiston StopSpring
6 Screws 2 -- No
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BDI DFMA: Pneumatic Pump
• Part Reduction:Part # Part Name Qty With
Respect toRelative Motion
Different Material
Service & Assembly
Critical Part
1 Main Block 1 Yes2 Piston 1 Main Block Yes Yes3 Piston Stop 1 Main Block No No Yes Yes
Piston Yes Yes4 Spring 1 Main Block
PistonPiston Stop
5 Cover 1 Main BlockPistonPiston StopSpring
6 Screws 2 -- No
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BDI DFMA: Pneumatic Pump• Part Reduction:
Part # Part Name Qty With Respect to
Relative Motion
Different Material
Service & Assembly
Candidate for
Elimination
1 Main Block 1 Yes2 Piston 1 Main Block Yes Yes3 Piston Stop 1 Main Block No No Yes Yes
Piston Yes Yes4 Spring 1 Main Block Yes Yes
Piston Yes YesPiston Stop Yes Yes
5 Cover 1 Main BlockPistonPiston StopSpring
6 Screws 2 -- No•Yes
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BDI DFMA: Pneumatic Pump• Part Reduction:
Part # Part Name Qty With Respect to
Relative Motion
Different Material
Service & Assembly
Candidate for
Elimination
1 Main Block 1 Yes2 Piston 1 Main Block Yes Yes3 Piston Stop 1 Main Block No No Yes Yes
Piston Yes Yes4 Spring 1 Main Block Yes Yes
Piston Yes YesPiston Stop Yes Yes
5 Cover 1 Main Block No No Yes YesPiston Yes YesPiston Stop N o No No NoSpring Yes Yes
6 Screws 2 -- No•Yes
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• According to the piston stop, the cover is a candidate for elimination or combination:
–Can the cover be eliminated?–Can the cover be combined? If so with
what?• Fasteners are automatic candidates of
elimination:–How can the fasteners be eliminated?
DFA of Pneumatic Pump
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Part Reduction Is the Keyfor Design Improvement
• Eliminating one part reduces at least 3 seconds.
• In addition a non-existing part is the best since it never:– Requires purchasing and warehouse– Needs inspection– Causes a quality problem– Needs design changes and drawing– Be in shortage
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DFA of Pneumatic Pump
• According to the piston stop, the cover is a candidate for elimination or combination:
–Can the cover be eliminated? No!–Can the cover be combined? Yes!
Combine with piston!• Fasteners are automatic candidates of
elimination:–How can the fasteners be eliminated?
Yes! Press-fit the cover!
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New Design of Pneumatic Pump
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• The pneumatic pump:–Has 7 parts & needs 40.75 seconds to assemble–Has 4 critical parts & 3 non-critical parts
• If the product is designed perfectly:–Pump would consists of only four parts–Each part would take 3 seconds to assemble–Total assembly time would be 12 seconds
• Design efficiency from assembly view points is:–Design Efficiency = 12/40.75 = 29%
BDI DFMA: Design Efficiency
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BDI DFMA: Pneumatic Pump
• Assembly Time:Part # Part Name Qty
(n)Handling
CodeHandling
TimeInsertion
CodeInsertion
TimeAssembly
Time (n Parts)1 Main Block 1 30 1.95 00 1.50 3.452 Piston 1 10 1.50 10 4.00 5.503 Piston Stop 1 10 1.50 00 1.50 3.004 Spring 1 05 1.84 00 1.50 3.345 Cover 1 12 2.36 08 6.50 8.866 Screws 2 11 1.80 39 8.00 16.60
Total Assembly Time 40.75 Seconds
–What should we do to reduce handling time of the cover and insertion times of the cover and screws?
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BDI DFMA Assembly Time
• 1.13 ~10 seconds to handle a part depending on: –Symmetry; Primary(-) & secondary(-)–Size: Thickness, dimension, weight, …–Handling ease: Tool, flexible, tangling, …
• To reduce part handling time:–More part symmetry: - & -symmetry–Right part size : Thickness, dimension, …–No flexible, tangling parts
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To Reduce Handling Time
• Increase symmetry by introducing redundancy: symmetry from 360o to 180o
• Closed-end springs do not tangle
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BDI DFMA Assembly Time• 1.5 ~ 12 seconds to insert a part depending on:
–Visual & hand access–Hold-down, alignment, insertion force, –Securing: Screw, snap, bending, soldering, ..
• To reduce part insertion time:–Easy visual & hand access–No hold-down, easy alignment, low/no
insertion force, ..–Easy/No securing requirement: Snaps instead of
screw, bending, soldering, ….
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To Reduce Insertion Time
• The washer seat eliminates needs of holding
• The long shaft makes piston alignment easy
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New Design of Pneumatic Pump
• Piston & piston stop are combined• Cover is press-fitted
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New Design of Pneumatic Pump
• BDI DFMA Assembly Time Analysis:
Part # Part Name Qty Handling Code
Handling Time
Insertion Code
Insertion Time
Total Assy Time
1 Main Block 12 Piston 13 Spring 14 Cover 1
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New Design of Pneumatic Pump
• BDI DFMA Assembly Time Analysis:Part # Part Name Qty Handling
CodeHandling
TimeInsertion
CodeInsertion
TimeTotal Assy
Time 1 Main Block 1 30 1.95 00 1.50 3.452 Piston 1 10 1.50 00 1.50 3.003 Spring 1 05 1.84 00 1.50 3.344 Cover 1 10 1.50 30 2.00 3.50
Total Assembly Time 13.29 Seconds
• Design comparison:Old Design New Design % Change
Number of Parts 7 Parts 4 Parts 43% ReductionAssembly Time 40.75 Seconds 13.29 Seconds 67% Reduction
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Design Guidelines for Assembly
How to design a product for ease of assembly?
• Reduce the number of part• Design each part for ease of handling• Design each part for ease of insertion• Examine trade-offs, other cost and other X’s
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Design Guidelines for Assembly
• Reduce the number of part:–Eliminate unnecessary parts–Combine parts–Reduce the different kinds of parts–Reduce/eliminate fasteners
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Design Guidelines for Assembly
• Design each part for ease of handling:–Increase part symmetry but avoid near
symmetric parts–Avoid tangling, nesting and sticky parts–Reduce/eliminate fasteners–Avoid custom-designed parts & use standard
parts–Reduce part variability. If not possible, make
difference pronounced
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Design Guidelines for Assembly
• Design each part for ease of insertion:–Design for top-down layered assembly–Enhance self-locating & alignment capability–Provide in-process verification process–Design the base part for transportation &
orientation & the last part to lock the assembly–Avoid turnover & processing during assembly–Design for one-hand assembly–Design fixtures together with products
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Design Guidelines for Assembly
• Examine trade-offs, other cost and other X’s:• To hold a wash or provide a washer seat?• Several standard parts or a single custom part?• Different material?• Different joining method?• What about:
–Service & repair–Packing and shipping–Recycle ...Assembly is only one of many cost factors!