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Optimization of Scaffolding Processes with Software
1. Apollo Bridge
Architect: Ing. Miroslav Maťaščík - Alfa 04 a.s., Bratislava
Design: Dopravoprojekt a.s., Bratislava
Apollo Bridge
Architect: Ing. Miroslav Maťaščík - Alfa 04 a.s., Bratislava
Design: Dopravoprojekt a.s., Bratislava
Optimization of processes in scaffolding
Integration of the scaffolding process into a software-solution
for fast and accurate modelling, dimensioning, drawing and execution
Rudi Vanmechelen
Account Manager - Nemetschek Scia
Consultant - Scia Scaffolding
Version (print update) 07.2012
29/07/2013
2. Contents of this presentation
The current processes
• For simple scaffolds
• For complex scaffolds
From order to execution
• For simple scaffolds
• For complex sacffolds
How do you work?
• What do users need?• What do users need?
• What is the vision
Realization of the vision
• Integrating processes
• The “Scia Scaffolding Suite”
Results of this vision
• Advantages
Media
• References
• Movie and client examples
2
3. Current process in scaffolding companies
Current working method up to the order
Requests
• Lots of requests for quotation
Type of
scaffold
• Simple or complex scaffold?
scaffold
Simple
scaffold
• Needs fast and precise bill of material and prices
• Nice presentation is an extra sales argument
Reality
• Often no drawing, no calculation checks
• Price based on rough estimations and experience
3
4. Current process in scaffolding companies
Current working method for complex scaffolds … up to the
order
Complex
scaffold
• In general … More details are needed
• Drawings, survey on site, basic / advanced checks
Drawing
• Drawings, cuts, views …
• Currently often in 2D
Checks
• Currently based on manufacturers tables
• Currently simple 2D checks on some critical points
Quantities
• Choice of scaffold elements (tubes, couplers …)
• Price based on estimation of quantities
4
5. Current process to execution – simple scaffolds
From order up to execution
Order Planning Execution
Admin.
tasks
Transportation lists
Articles
Bill of material
Invoicing
Stockyard
5
8. Current process to execution – complex scaffolds
From order up to execution – Do some calculations
Order Drawing
Analysis
model
Calculation
Planning
Execution
Admin.
tasks
How? Problems!
8
9. Current process to execution – complex scaffolds
From order up to execution – Planning and Execution
Order Drawing
Analysis
model
Calculation
Planning
Execution
Admin.
tasks
How? Problems!
9
10. Current process to execution – complex scaffolds
Complete … from order up to execution
Transportation lists
Articles
Material
Order Drawing
Analysis
model
Calculation
Planning
Execution
Admin.
tasks
Invoicing
Stockyard
10
11. Current process to execution – complex scaffolds
The information-flow in “real life”
Order Drawing
Analysis
model
Calculation
Planning
Execution
Admin.
tasks
How? Problems!
X Y
Z
11
12. Current process in scaffolding companies
What about you?
Do you also
face these
problems in
your daily
business?
What is
the vision
of the market?
Do you also want
to save time,
build more
accurate
scaffolds, and
work according
the latest
prescriptions?
Do you also
want to
improve
your
processes?
of the market?
12
13. Vision to better processes in scaffolding
Needs for every user
Salesforce
Scaffold builder
Fast estimation (m2-m3) + BOM
Presentation drawings
Simple user-interface
Librairies manufacturers
Easy CAD-import
Easy load generation (e.g. wind)
Engineering of
simple scaffolds
Engineering of
complex scaffolds
Easy load generation (e.g. wind)
Practical modelling of supports,
bracings, base jacks …
Fast calculation in 3D
Easy check of section
Templates for reporting
Advanced modelling (couplers …)
Advanced calculations and checks
according EN 12810-12811
13
17. Focus on safety
Increase safety in scaffolding – execution rules DO and DON’T
Anchors
Ballast Supports
17
Ballast Supports
18. Focus on safety
Increase safety in scaffolding – execution rules DO and DON’T
Fall protection
Loading
18
NOT OK
19. Current method of design
2D constructions
Linear analysis
Effective length method
Focus on safety
Increase safety in scaffolding – calculation rules
Internal forces derived from
1st order analysis
Design according
Relevant design code (e.g. EC3)
19
20. Complexity of scaffolds
High degree of non-linearity
Large deflections
Non-linearities
Focus on safety
Increase safety in scaffolding – calculation rules
Couplers (non-lin. behaviour)
Base jacks (friction)
Excentricities (bracings)
Large deflections
2nd order effects very important
Inclined scaffold (also base jacks)
Vertical loading → horizontal loading
20
21. New prescriptions (EC 12811)
• Non-linear coupler behaviour
• 2nd order is the preferred way of
analysis
• Equilibrium of the displaced system
is taken into account directly
Focus on safety
Increase safety in scaffolding – calculation rules
is taken into account directly
• Global effects (P-∆) = buckling
• Local effects (P-δ) = bow-imperfection
• Perform section check only
• Stability
• Generates buckling form
• Includes P-∆ and P-δ
• Input for 2nd order calculation
21
22. Focus on safety
Increase safety in scaffolding – calculation rules “how it works”
22
Based on critical loadfactor αcr
23. Input Process Output
Central open
database
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
How to set up an accurate model
• Analysis- and CAD-model
• Manufacturer librairies
• Own user librairies
• Couplers
• Templates
• Calculation methods
• Prices
• …
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
23
24. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with XLS interface
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
24
25. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with XLS interface
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
25
26. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with XLS interface
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
26
27. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with XLS interface
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
27
28. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with XLS interface
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
28
29. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Scia Engineer
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
29
30. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Scia Engineer
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
30
31. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Scia Engineer
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
31
32. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Scia Engineer
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
32
33. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with DXF-DWG
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
33
34. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with DXF-DWG
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
34
35. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with DXF-DWG
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
35
36. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with DXF-DWG
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
36
37. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with DXF-DWG
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML …)
Dedicated
modeller Model-IT
37
38. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with intelligent CAD-applications
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML)
Dedicated
modeller Model-IT
38
39. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Model IT
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML)
Dedicated
modeller Model-IT
39
40. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Model IT
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML)
Dedicated
modeller Model-IT
40
41. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Model IT
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML)
Dedicated
modeller Model-IT
41
42. Input Process Output
Company
development
(e.g. Excel)
Interactive
graphical input
Focus on safety
Modelling with Model IT
graphical input
Fixed or
parametric blocs
DXF – DWG
(not intelligent)
Intelligent
CAD-applications
(IFC2x3, CIS2, XML)
Dedicated
modeller Model-IT
42
43. Couplers
• Open library in Scia Engineer
• Non-linear springs
• Data available at manufacturer
• E.g. Layher, Cuplok …
• Resistance values for checks
Focus on safety
Increase safety in scaffolding – model data
43
44. Couplers
• Open library in Scia Engineer
• Non-linear springs
• Data available at manufacturer
• E.g. Layher, Cuplok …
• Resistance values for checks
Focus on safety
Increase safety in scaffolding – model data
Tube and fitting System scaffolds Frames
44
Tube and fitting System scaffolds Frames
45. Diagonals
• With excentricity
• Generates torsion in the standards
Focus on safety
Increase safety in scaffolding – model data
45
46. Diagonals
• With excentricity
• Generates torsion in the standards
Focus on safety
Increase safety in scaffolding – model data
Gaps in diagonals
• Margin between pen and hole
• Influences overall buckling
46
47. Diagonals
• With excentricity
• Generates torsion in the standards
Focus on safety
Increase safety in scaffolding – model data
Gaps in diagonals
• Margin between pen and hole
• Influences overall buckling
47
Floorboards
• Wooden planks → additional loading
• Metal → include spring stiffness
48. Diagonals
• With excentricity
• Generates torsion in the standards
Focus on safety
Increase safety in scaffolding – model data
Gaps in diagonals
• Margin between pen and hole
• Influences overall buckling
48
Floorboards
• Wooden planks → additional loading
• Metal → include spring stiffness
Base jacks
• Not fixed to the ground → uplift
• Hor. resist. = f (vert. load) → friction
Anchorages, abutments
• Fixed, pressure only …
49. General
• Check in service → high working, minor wind loading
• Out of service → extreme wind, material on the scaffold
Focus on safety
Increase safety in scaffolding – loading data
Load cases and load combinations
• Prescribed in codes
• Include in template file in Scia Engineer
49
50. General
• Check in service → high working, minor wind loading
• Out of service → extreme wind, material on the scaffold
Focus on safety
Increase safety in scaffolding – loading data
Load cases and load combinations
• Prescribed in codes
• Include in template file in Scia Engineer
50
Floor loads
• Surface load → line load
Wind loads
• Plane load generator
51. Focus on safety
Increase safety in scaffolding – loading data
Load cases and load combinations
• Prescribed in codes
• Include in template file in Scia Engineer
General
• Check in service → high working, minor wind loading
• Out of service → extreme wind, material on the scaffold
51
Floor loads
• Surface load → line load
Wind loads
• Plane load generator
52. General
• Check in service → high working, minor wind loading
• Out of service → extreme wind, material on the scaffold
Focus on safety
Increase safety in scaffolding – loading data
Load cases and load combinations
• Prescribed in codes
• Include in template file in Scia Engineer
52
Floor loads
• Surface load → line load
Wind loads
• Plane load generator
53. General
• Check in service → high working, minor wind loading
• Out of service → extreme wind, material on the scaffold
Focus on safety
Increase safety in scaffolding – loading data
Load cases and load combinations
• Prescribed in codes
• Include in template file in Scia Engineer
53
Floor loads
• Surface load → line load
Wind loads
• Plane load generator
54. Calculation
• Linear calculation
• Non-linear effects : friction, gaps, couplers …
• Stability (global buckling) → αcr
• Non-linear stability
• 2nd order calculation
with global and local effects
Focus on safety
Increase safety in scaffolding –results
54
55. Results
• Deformed structure (also animated view)
• Reactions
• Internal forces
• Stresses
• Graphical and numerical output
• Complete structure, selection on member
Focus on safety
Increase safety in scaffolding – results
• Complete structure, selection on member
or member-family
• Configuration of colours for easy interpretation
55
56. Numerical checks in Scia Engineer
• EC3 checks steel: stresses, buckling, unity-check
• EC9 checks aluminium
• Automatic calculation of buckling lengths
• Buckling over several uprights
• EN 12810-12811 checks for tubes
• Coupler checks
Focus on safety
Increase safety in scaffolding – checks
• Coupler checks
• Detailed output !
56
57. Visual checks in Model IT
• Basic checks on execution (TG 20)
• Visual control
Focus on safety
Increase safety in scaffolding – checks
57
58. Collision checks in Scia Engineer
Focus on safety
Increase safety in scaffolding – checks
58
59. Checks in Solibri
• Based on IFC
• Rules
Focus on safety
Increase safety in scaffolding – checks
59
60. Vision to better processes in scaffolding
Realization of this vision with the “Scia Scaffolding Suite”
Model IT
B.O.M.
Pricing
DrawingsAnalysis
model
Salesforce
Builders
Engineering
scaffolds
Common
librairies
Structural
Edition
model
Scia Scaffolding
Base / Expert
Calculation
reports
Articles
Detailed BOM
Views
Paperspace
Plug-ins
DXF, DWG
Excel, XML
IFC2x3
Tekla, Revit,
Allplan …
Engineering
simplescaffolds
Engineering
complexscaffolds
60
61. Vision to better processes in scaffolding
Some screenshots of the applications
61
62. Vision to better processes in scaffolding
Some screenshots of the applications
62
63. Vision to better processes in scaffolding
Some screenshots of the applications
Structural
Edition
63
64. Vision to better processes in scaffolding
Some screenshots of the applications
Scia Scaffolding
Base / Expert
64
65. Vision to better processes in scaffolding
Some screenshots of the applications
Scia Scaffolding
Base / Expert
65
66. Vision to better processes in scaffolding
Some screenshots of the applications
Scia Scaffolding
Base / Expert
66
67. Vision to better processes in scaffolding
Some screenshots of the link between Model-IT and Scia
Scaffolding
Scia Scaffolding
Base / Expert
67
68. Vision to better processes in scaffolding
Your advantages in a nutshell
• Exact, fast and complete solution
• In every stage of the process
Completeness
• General or tailor-made solution
• For every kind of user (commercial, builder, technician …)
Versatility
• For every kind of user (commercial, builder, technician …)
• Create your own librairies and templates (company style)
• In full compliance with newest codes and prescriptions EN 12810-12811
• Import and export with industry standards (DXF, DWG, PDF, XML, IFC …)
Safe and open interface
• Integration in one environment leads to proven time-saving
• Simple and fast changes in one place lead to automatic update of all documents
Time-saving and profitability
68