INITIALIZATION
Knowledgebase: ki-dev
Base Query: Bitte geben Sie die folgenden Informationen tabellarisch an:
Kunde: Wer ist der Kunde? (Bitte geben Sie die Kundendetails an) Endkunde: Wer ist der Endkunde? Aufstellort: Wo ist der Aufstellort der Anlage (Ort, Werk des Endkunden, Gebäude)? Hallenhöhe: Wie hoch ist die Hallenhöhe des Werkes oder Gebäudes, in dem die Anlage aufgestellt werden soll - Hallenhöhe kann auch als (Anlagenhöhe) definiert werden? Bitte keine Erläuterungen hinzufügen, nur die Tabelle mit dem Titel: Kunde, Endkunde, Aufstellort, Hallenhöhe (ohne die anderen Definitionen zu nennen).
Model: gemini-1.5-pro-preview-0409
Use Curl?: None
==================================================
QUESTIONING
Clarity Score: 10
Give follow-up?: False
Follow-up query:
==================================================
ROUTING
Query type: research
==================================================
PRIMER
Primer:
You are a highly intelligent personal assistant. Your role is to act as an expert
at reading the information provided by the user and giving the most relevant information.
In your responses to enterprise users, prioritize clarity, trustworthiness, and appropriate formality.
Be honest by admitting when a topic falls outside your scope of knowledge, and suggest
alternative avenues for obtaining information when necessary.
Make effective use of chat history to avoid redundancy and enhance response relevance, continuously
adapting to integrate all necessary details in your interactions.
Focus on precision and accuracy of your answers information.
==================================================
FINAL QUERY
Final Query: CONTEXT: ##########
File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 3
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
2.0
Table of Content
| | Description | Page Number |
| -------- | -------- | -------- |
| 1.0 | Revision History | 2 |
| 2.0 | Table of Content | 3 |
| 3.0 | Cognex Overview | 4 |
| 3.1 | Service & Support | 4 |
| 3.2 | Primary Project Contacts | 5 |
| 3.3 | Worldwide Locations | 5 |
| 4.0 | Preparation of a requirement specification and a system specification | 6 |
| 5.0 | Successfully machine vision requirement/system specification | 7 |
| 5.1 | Concept automations systems | 7 |
| 5.2 | General requirements for a vision system | 8 |
| 5.3 | Auto ID/Traceability | 11 |
| 5.4 | In Process Verifications | 13 |
| 5.5 | Dimensional Gaging | 14 |
| 5.6 | RTV glue bead seal inspections | 15 |
| 5.7 | Vision Guided Robotics | 15 |
| 6.0 | Products | 18 |
| 6.1 | ID Readers - Dataman | 18 |
| 6.2 | Smart Camera Solutions- In-sight series | 20 |
| 6.3 | PC based Vision Solution- VisionPro & Designer | 23 |
| 7.0 | Backup vision system | 26 |
| 7.1 | Backup camera/controller | 26 |
| 8.0 | Industrial PC for machine vision solution | 27 |
| A.0 | Approved source list | 28 |
####################
File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 10
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
5.2.9
Education and basic skill machine vision
To get basic skill for machine vision Cognex have education and training material in several language for
classroom, on-demand training video, recorded and helping documents for all products.
www.cognex.com/training.
For most vision system from smart camera to PC based machine vision Its highly recommended to have at
least knowledge corresponding Certified Vision Professional Basic from Association for Advancing
Automation A3. Certification and courses are available online or as PDF documentation.
www.automate.org
5.2.10 Technical documentation and system specification
Basically, state how application is solved
Lighting method and placement of lighting
Type of camera and placement of camera
Description of techniques for Image Pre-Processing
Parameter description
Description of characteristic from process or product to validate/measure
Description about defects or features which can be detected
Interfaces with other system
Instructions for calibration/backup/restoring/maintenance of system
####################
File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 14
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
5.5
Dimensional Gaging
With their precise recognition capabilities and easy programmability, machine vision systems excels to ensuring
that measurements are correct. Dimensional gaging by machine vision often involves a variety of odd lines,
angles, arcs, diameters, and tolerances. Almost without exception, the systems can measure much more
quickly, and with far greater reliability and accuracy than would be possible with most manual methods.
Measurement in a “strict sense” requires the measurements result to be traceable and also when doing inline
measurement or metrological confirmation equipment need to perform Measurement system analysis “MSA”
Dimensional measurement and counting of holes
Requirement
System needs to be calibrated and mapping pixels in camera sensor to a “world coordinate
systems” in mm.
For process data that have traceability requirements logging of data should be prepared to
communication with MES Systems or Quality database storage.
otsoso.ne..,
ame: Cortal
re
ter
tt Sh
mm Pre
erry
5000
000
ee
rary
fr
####################
File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 17
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
De-palletizing of bedplate
Requirement
Mastering procedure between camera and robot need to be automatically so we don't need
manually calculate measurements or move robot manually to get camera and robot calibrated
Mastering or calibration of camera/robot should not exceed 1h in case of replacement.
We should have mechanic master position and master part and function so we can check that
measured value is stable.
Efficient object position determination in 4 degrees = x, y, z and Rz
####################
File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 19
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
Fixed mount readers
####################
File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 28
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
A.0
Approved source list
These equipment and accessories are preferred models to be used for Aurobay/VCPC production line.
Attention for Firmware version especially for In-sight and dataman product series that have change Profinet
communication interface to Profinet class B for many products that require to change GSD file in PLC etc.
In-Sight 2800 series
Simple Inspection and assembly error-proofing
*For other resolutions or color Contact Aurobay/VCPC for advice
| Product no | Description | Aurobay Part No | Firmware/Software |
| -------- | -------- | -------- | -------- |
| IS2801M-24520-EA | In-Sight 2800 – 1.6 MP ME 12MM
HSLL Torch RGBW Diff | | In-Sight Vision Suite
*Attention Profinet B class |
| Accessory’s part nr | Description | Aurobay Part No | |
| CCB-84901-2001-05 | X CODE M12X8 TO RJ45 CBL | | |
| CCB-PWRIO-15 | Power/IO 15 M12-12 Flying leads | 6600042745 | |
In-Sight 7000 series
Fixed-mount smart camera general applications
| Product no | Description | Aurobay Part No | Firmware |
| -------- | -------- | -------- | -------- |
| IS7600M-363-50 | IN-Sight 7600 Patmax SVGA or
VGA resolution Mono | | In-Sight 6.5.0
*Attention Profinet B class |
| IS7600C-363-50 | IN-Sight 7600 Patmax SVGA or
VGA resolution Colour | | In-Sight 6.5.0
*Attention Profinet B class |
| IS7802M-373-50 | IN-Sight 7800 Patmax Redline2MP resolution Mono | | In-Sight 6.5.0*Attention Profinet B class |
| IS7905M-373-50 | IN-Sight 7900 Patmax Redline
5MP resolution Mono | | In-Sight 6.5.0
*Attention Profinet B class |
Up to 104.4 mm
####################
File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 33
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
In-Sight 3DL4000
Smart camera with 3D laser displacement for use of both 3D and 2D vision tool
| Product no | Description | | Aurobay Part no | Firmware | | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| IS3DL4300-20-3760 | In-Sight 3D-L4300 | | | | 3D-L4000 1.0.1 | |
| IS3D-CORR40-00 | | 40 mm Correction | | | | |
| | | Target | | | | |
| Accessories part no | Description | | Aurobay Part no | Firmware | | |
| Contact Aurobay/VCPC for related accessories | | | | | | |
In-Sight 3D-L4000 working distance
WORKING DISTANGE
NON
Clearance distance (CD) 92 mm 130 mm 180 mm
Near field of view 55 mm 75 mm 95 mm
Far field of view 90 mm 180 mm 460 mm
Measurement range (MR) 106 mm 235 mm 745 mm
—>
Far FOV
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File: E4.8%20Project%20manual%20Cognex%202023.pdf
Page: 36
Context: Cognex Corporation One Vision Drive Natick, MA 01760-2059 (508) 650-3000 fax (508) 650-3333 www.cognex.com
| 280-TORCH-DOME | Multi torch dome front
cover accessories | | |
| -------- | -------- | -------- | -------- |
| DM300-LENS-25 | Lenses 25MM M12 | 6600129484 | |
| DM300-EXT | Extension | 6600129482 | |
| DM30X-HPIA3-IR | Integrated IR light | 6600129473 | |
| IVSL-ODDM-S75-625 | Direct connected
External brick light (red) | | |
| IVSL-YLW2X-625 | Direct connected
External bar light
(625nm, red) | | |
| IVSL-YLW2X-850 | Direct connected
External bar light
(850nm, IR) | | |
| IVSL-M12X5-J300 | Cable external brick/bar
light 0,3m | | |
| IVSL-M12X5-J1000 | Cable external brick/bar
light 1m | | |
Vision 3D Area scan systems
3D-A5000
Used PC need to be approved by Aurobay/VCPC
| Product no | Description | Aurobay Part No | Firmware |
| -------- | -------- | -------- | -------- |
| 3D-A5120-2101-U | 3D AreaScan with
Deployment kit | | Software included in the
part nr |
COGNEX
‘2E0-TORCHOOME | Mult toreh dome front
‘DMB00-LENS 25 Lenses 25m ura | 6s00r20404
‘Dw00-EXT Extension ‘500120482,
NOX APIA Integrated Right | 6so0'20473
INSL-OD0W-S75825 | Direct connected.
External brick ight (ed)
WSLYLWAKE2S ‘Direct connected
External bar ight
(625nm, ea),
WSLYLW2KES0 ‘Direct connected
External bar ight
Ry
TWSL-WFaXE 300 ‘Cable extemal biekbar
ont om
WSLAT2XE-11000 [cable extemal bieKbar
nt im
Vision 20 Area scan systems
D-AS000
Used PC need to be sporoved by AubayVEPC.
Product no Description ‘Aurobay PartNo Firmware
Aston. ‘30 AreaScan with ‘Software included nthe
Deployment kit pertne
CcopexCapraten One Vion Ove MNalMAOITSEEE (ERS ae OHSS wx
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 3
Context: 3
Decentralized technology – best practice installation guidance:
Installers should consider the best location for decentralized drives for the application, taking into account the
points below. If for there is a basis to use an alternative strategy to that suggested for specific applications then
that should be raised as a deviation request with Aurobay/VCPC.
It is generally recommended to mount those products close to the equipment being controlled. This is generally
more economical and can be technically advantageous, note points below:
-
Shorter cable runs reduce risks caused by; e.g. high cable capacitance, high leakage currents, EMC etc.
-
Reduced Cabling costs.
-
Reduced use of space for cabling/cable trays etc.
-
Easier to identify which controller relates to which application.
-
Majority of I/O (sensors) are routed via drives I/O – cabling is significantly reduced and easier to access if
the controllers are in closer proximity.
-
Enables more modular commissioning possibilities, when the equipment (eg. Conveyor) is installed as a
self-contained unit (ie. with its I/O and controller linked/associated).
-
Further detailed information can be found in the specific product manuals.
Hybrid pre-fabricated cables:
It is generally preferred practice to utilize pre-fabricated cables for connecting specific SEW equipment as are de-
tailed in this project book. It is generally found that this reduces problems during installation and reduces ongoing
risk due to EMC and other potential installation related issues. Take care when selecting required lengths of ca-
bles not to over order by too much, but if you do finish up with excess length then consider the following best prac-
tices:
-
Where possible, double back excessive lengths in the cable duct, taking care not to overfill ducts or com-
promise the general installation guidance of that or other cables e.g. mixing with low signal level cables,
compromising cable bending radiuses.
-
Where it’s necessary to coil the cable, keep the coil loose and as large as possible and locate as practi-
cally as possible (ie. not jammed between the inverter and its fixings, or next to other control equipment or
heat sources etc).
For more general installation details please refer to the specific product manuals and general EMC installation
Guidelines available via the following link.
EMC-Complaint installation Practice
Duty / Standby drive arrangements:
Standby drives are not normally required unless specifically asked for in the RFQ, however all drives should use
plugs and sockets to ensure the MTTR figure is as low as possible. On certain applications (e.g. Drop Sections),
duty/standby motor gearboxes are required, this will be stated in the RFQ
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 10
Context: 10
2 Product specifications
2.1 Product overview
Note: This is only an overview. For detailed information about standardized variants of each type refer to corre-
sponding chapter below.
| Standard
Only for needs with technical reasons,
written Aurobay/ VCPC agreement
MOVIMOT required
felxible (MMF3)
IES drive
MOVIGEAR
perfomance
MOVIMOT
performance
Asyne. motor
DRN series
(IE3)
ie
MOVIMOT
advanced
ES
Medium inertia
synchronous servo motor
CM3C
Asynchronous
‘servo motor
DRL
Generation MOVI-C
Cabinet versions
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 14
Context: 14
2.4 MOVI-C electronics cover
| Electronic cover
Sample type code | DFC20A-0032-503-A-000-001 /SBA /B | |
| -------- | -------- | -------- |
| Product family | DFC | DFC = Electronic cover for Direct Fieldbus Communication |
| Communication type
Connection | 2
0 | 2 = PROFINET IO
0 = Standard, M12 plug connection |
| Version communication | A | |
| |- | |
| Nominal output current | 0032 | 0020 = 2,0A (size 1)
0025 = 2,5A (size 1)
0032 = 3,2 A (size 1) (preferred or for stock)
0040 = 4,0A (size 1E)
0055 = 5,5 A (size 1E) (preferred or for stock) |
| |- | |
| Supply voltage
EMC variant
Supply type | 5
0
3 | 5 = AC 380 – 500 V
0 = standard
3 = 3-phase |
| |- | |
| Version | A | |
| |- | |
| Device variant
technology level
application level
(see chapter 2.2.1 MOVIKIT ap-
plication modules) | 0
0
X | 0 = standard (process data communication)
0 = Technology level standard
X = 0: SEW MOVIKIT velocity
X = 1: SEW MOVIKIT velocity, positioning, …
For stock only application level 1 |
| |- | |
| MOVIKIT® version | 001 | 001 = MOVIKIT® velocity preinstalled |
| Optional for first installation | | |
| Options | /SBA
/B | Safety option with PROFIsafe
Integrated brake control |
SBA add the safety option CSB51A for PROFIsafe communication and basic safety function STO, SS1.
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 18
Context: 18
2.5.3 Plug configuration MOVIGEAR performance
Connection box (lower part):
Plug color code:
| | M23 power for mains angled version Optional: M23 OUT, MANDATORY FOR SPARES | | | X1203_1 / position X (in) X1203_2 / position X (out) | | | black black | |
| |Optional: 1x M12 engineering | | | X4142 / position 3 | | | | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| | Optional: M12 5 pin L-coded 24V support (in/out) | | | X1523 (in) / position X | | light grey | light grey | |
| |(mandatory for spare part) | | | X2313 (out) position 2 | | | | |
Electronics cover:
2x M12 communication in/out
3x M12 for DI / DIO
(see chapter 2.4 MOVI-C electronics cover)
X4233_1 / X4233_2
X5133_1 (DI01 / DI02)
X5133_2 (DI03 / DI04)
X5133_3 (DIO01 / DIO02)
H
x1203_2
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 20
Context: 20
2.6.2 MOVI-C MOVIMOT® advanced – standard configuration
2.6.2.1
Standard assignment for DRN motor 230/400V 50Hz in STAR connection
| MOVIMOT® advanced | DRN.. 71M4.. | 80MK4.. | 80M4.. | 90S4.. | 90L4.. | 100LS4.. |
| Electronics cover | 0020 | 0020 | 0025 | 0032 | 0040 | 0055 |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| Nominal power kW | 0.37 | 0.55 | 0.75 | 1.1 | 1.5 | 2.2 |
| Nominal torque (MN) Nm | 2.5 | 3.7 | 5.1 | 7.5 | 10.2 | 15 |
| Overload capacity of MN % | 210 | 210 | 210 | 210 | 210 | 210 |
| Nominal speed min-1 | 1400 | 1400 | 1400 | 1400 | 1400 | 1400 |
| Speed range without encoder | 1/10 | 1/10 | 1/10 | 1/10 | 1/10 | 1/10 |
| Speed range with encoder | 1/1400 | 1/1400 | 1/1400 | 1/1400 | 1/1400 | 1/1400 |
| Brake type
Brake torque 3 Nm
Brake voltage: V | BE05
5
230 | BE1
7
230 | BE1
10
230 | BE2
14
230 | BE2
20
230 | BE5
28
230 |
2.6.2.2
Standard assignment for DRN motor 230/400V 50Hz in DELTA connection
| MOVIMOT® advanced | DRN.. 71M4.. | 80MK4.. | 80M4.. | 90S4.. | 90L4.. | |
| Electronics cover | 0020 | 0025 | 0032 | 0040 | 0055 | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| Nominal power kW | 0.55 | 0.75 | 1.1 | 1.5 | 2.2 | |
| Nominal torque (MN) Nm | 1.8 | 2.5 | 3.6 | 4.9 | 7.2 | |
| Overload capacity of MN % | 210 | 210 | 210 | 210 | 210 | |
| Nominal speed min-1 | 2900 | 2900 | 2900 | 2900 | 2900 | |
| Speed range without encoder | 1/20 | 1/20 | 1/20 | 1/20 | 1/20 | |
| Speed range with encoder | 1/2900 | 1/2900 | 1/2900 | 1/2900 | 1/2900 | |
| Brake type
Brake torque 4 Nm
Brake voltage V | BE05
5
230 | BE1
7
230 | BE1
10
230 | BE2
14
230 | BE2
14
230 | |
3 Other combination or brake torque only after approval.
4 Other combination or brake torque only after approval.
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 22
Context: 22
2.6.3 Plug configuration MOVIMOT® advanced
Connection box (lower part):
Plug color code:
| | M23 power for mains Optional: M23 OUT, MANDATORY FOR SPARES | | | X1203_1 / position 3 (in) X1203_2 / position 3 (out) | | | black black | |
| |Optional: 1x M12 engineering | | | X4142 / position X | | | | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| | Optional: M12 5 pin L-coded 24V support (in/out) | | | X1523 (in) / X2313 (out) position 3 | | | light grey | |
Electronics cover:
2x M12 communication in/out
3x M12 for DI / DIO
(see chapter 2.4 MOVI-C electronics cover)
X4233_1 / X4233_2
X5133_1 (DI01 / DI02)
X5133_2 (DI03 / DI04)
X5133_3 (DIO01 / DIO02)
X1203 2
1206
2242
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 24
Context: 24
2.7.1 Plug configuration MMF3
The MMF are to be delivered with following plug configuration:
Connection box:
Plug color code:
| 2x M23 power for mains | | | | X1203_1 / position X (in) X1203_2 / position X (out) | | | | | | black black | |
| |1x M23 motor connector | | | X2104 / position X (motors with MOVILINK® DDI) | | | | | | without | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| | Optional: M12 5 pin L-coded 24V support (in/out) | | | | | | X1523 (in) / X2313 (out) position X | | | light grey | |
1x M23 motor connector
X2104 / position 3 (motors with MOVILINK® DDI)
without
Electronics cover:
2x M12 communication in/out
3x M12 for DI / DIO
(see chapter
2.4 MOVI-C electronics cover)
X4233_1 / X4233_2
X5133_1 (DI01 / DI02)
X5133_2 (DI03 / DI04)
X5133_3 (DIO01 / DIO02)
SEW
2.7.1 Plug configuration MMF3
‘The MMF are tobe delivered with following plug caniguration:
Connection box: Plug color code:
1x M23 motor connector X2104 postion 3 (motors with MOVILINK® DDI) without
Electronics cover:
‘2 M2 communication inlout Xi233 11102232
312 for DI/ DIO 5133-1 (D101 / D102)
(see chapter 5133-2 (0103 0104)
2AMOVI-C electronics cover) __X5133_3 (01001 / 01002)
24
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 30
Context: 30
MMF.
Conformity: CE / UL
Motor
Installation type
Order number
| X2104
(female) | | srotom
suonorhcnys
rof
)elam(
dna
1DK
suonorhcnysa | 4x 1.5 mm2
+
28123905 4x 1.0 mm2
+
Fixed installation:
RG58
4x 2.5 mm2
+
28123913 4x 1.0 mm2
+
RG58 4x 1.5 mm2
+
28123859 4x 1.0 mm2
+
Cable carrier: RG58
4x 2.5 mm2
+
28123867 4x 1.0 mm2
+
RG58 |
| X2104
(female) | | open | 4x 1.5 mm2
+
28124367 4x 1.0 mm2
+
Fixed installation:
RG58
4x 2.5 mm2
+
28124375 4x 1.0 mm2
+
RG58 |
| -------- | -------- | -------- | -------- |
| | | | 4x 1.5 mm2+28124332 4x 1.0 mm2+Cable carrier: RG584x 2.5 mm2+28124340 4x 1.0 mm2+RG58 |
Conformity CE / UL
Mote
instalation ype
Corder umber
SEW
xe108
(female)
> — eq
ing ea
KO (ale for
synchronous and eynewengus mators
2a23005
aaa
ats
418
425
ad
om
mn?
on
mn?
cable carer
2a2s860
2avase6
ats
and
“23
418
on
me
om
mn?
xe108
(female)
oven
2a124067
aaa
ats
418
425
ad
om
mn?
on
mn?
cable carer
aaa
az
“is
418
42s
418
om
me
om
mn?
0
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 34
Context: 34
2.10 Gear boxes – overview
Note: This is only an overview. For detailed information about standardized variants of each gear box type refer to
corresponding chapter below.
Example type code: 9
…..
…..
Followed by connected parts, typically direct mounted motor
Followed by connected parts, typically direct mounted motor
K
K
37
37
/T
/T
Gear box option:
/T for torque arm
Gear box option:
/T for torque arm
Gear box size
Gear box size
Gear box type:
K for helical bevel gear
Gear box type:
K for helical bevel gear
A
A
Gear box type:
only present if no solid shaft: A for hollow key shaft
Gear box type:
only present if no solid shaft: A for hollow key shaft
9 Important: The type code does not contain all available information (e.g. gear ratio). Those information can be
found on the nameplate or by using the SEW serial number.
® standard
Helical gear: a With written Aurobay/ VCPC agreement
Type-R. .
ype Type-F.
Helical-worm gear:
Spiroplan gear: Type-S.
Type -W.
Helical-bevel gear:
Type-K.
Servo
helical-bevel gear:
Type -BS.F
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 36
Context: 36
2.10.2 Parallel-shaft-helical-gear boxes – F- type
Design:
Metric (e.g. Shafts, flanges etc.)
Lubricants:
Standard as supplied by SEW
Notes:
No overhung force to TorqLOC® or Shrink-Disk gear
FH gear if FT is not available (depending on gear box size)
Preferred mounting position is M1 11
11 Other mounting positions for constructive or maintenance reasons only.
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 37
Context: 37
2.10.3 Helical-gear boxes – R- type
Design:
Metric (e.g. Shafts, flanges etc.)
Lubricants:
Standard as supplied by SEW
Notes:
Preferred mounting position is M1 12
12 Other mounting positions for constructive or maintenance reasons only.
####################
File: E4.6%20Project%20manual%20SEW.pdf
Page: 40
Context: 40
2.11.3 Asynchronous DRN – motor for mains operation
Note: The preferred application solution is with VFD. Specifications for motors for VFD operation you can
find in corresponding chapters above.
General information
Motor types:
DRN (IE3) type of Asynchronous Three Phase Motor with or without brakes
Motor version:
SEW standard IEC motor (CE)
All sizes:
DRN motor
Only 4-pole motors are to be used
Voltage:
230/400V, 50Hz
Insulation class:
F
Motor protection:
VFD use TF thermistor with motors above 4kW
Motor connection:
IS
from DRN63MS4 up to DRN132S4 (IEC power 5,5kW) 17
Terminals
bigger motors than DRN132S4
Position of terminal
box and cable entry /
connector position:
Preferred: 0° / X 18
Name plate:
according to SEW standard
Optional accessories
Brake:
BE single disk for asynchronous motors (DRN) 19
Brake voltage:
400V
Brake rectifier:
(cabinet installation)
BMKB for motors with line installation
Encoder:
n.a.
Forced cooling:
n.a.
Diagnostic sensors:
DUE-d8/DUE-d6 contactless Brake diagnostic sensor (function and abrasion) for
DRN-motors always with evaluation unit DUE-1K for BE brakes
PK temperature sensor PT1000
17 star or delta connection referring to proper project planning
18 Must be optimized referring to mounting position of complete gear motor
19 Brake size and torque to be defined by proper project planning, SEW standard assignment preferred
####################
File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: functional RELIABILITY
Design principles
Design principles - Connection of supply conductor N/A
Are supply conductor connected directly to the main switch? ☐
☒ Yes J
☐ No L
Note:
Where is the main switch mounted? ☐
☒ Side of the electrical cabinet J
☐ Front of the electrical cabinet K
☐ Door at the electrical cabinet L
Note:
What type of main switch is used? ☐
☒ Circuit breaker with overload and short circuit protection J
☐ Switch disconnector KL
Note:
Is there a load on the neutral conductor? ☐
☒ No J
☐ Yes KL Define and State I0 for each machine:
Note:
Has the equipment more than one supply point? ☐
☒ No J
☐ Yes L Define:
Note:
Is any part of the equipment supplied with power prior to the main switch? ☐
☒ No J
☐ Yes KL Define:
Note:
Design principles - Circuit protective technology N/A
What circuit protective technology is used in power circuits? ☐
☒ Fuse-free solution J Define Icu value of used devices:
☐ Other K Define:
Note:
Are circuit protection for power and control circuits divided in groups and individually supervised? ☐
☒ Yes J
☐ No L
Note:
Design principles - Voltages N/A
Can the nominal voltage values, for circuits suggested below, be used? ☐
U CONTROL CIRCUIT = 24VDC Max deviation in circuit = 5 %
U POWER CIRCUIT = 380/400 VAC Max deviation in circuit = 5 %
U EMERGENCY STOPS CIRCUIT = 24VDC Max deviation in circuit = 5 %
U PROTECTIVE STOP CIRCUIT = 24VDC Max deviation in circuit = 5 %
U TO OTHER EQUIPMENT = 24VDC
####################
File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: Fault detectability
Fault detectability - Test connections N/A
Are there connections for programming equipment on the outside of the main panel for? ☐
☒ 230 VAC J
☒ PLC connection and label with IP information J
☒ NC connection and label with IP information J
☒ HMI connection and label with IP information J
☐ Nutrunner connection and label with IP information J
☐ Other system Define:
Note:
Fault detectability - Diagnostics, Indications N/A
What components and connectors are equipped with LED indicators? ☐
☒ Limit switches J
☒ Inductive sensors J
☒ Level switches J
☐ Photocells J
☐ Capacitive sensors J
☒ Cylinder sensors J
☒ Connectors for sensors J
☒ Connectors for valves J
Note:
####################
File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: How are robot axis prevented to reach out from safety area? ☒
☐ Programed safety J (SafeMove, Dual Check Safety, Electronic Safety Circuit...)
☐ Mechanical limits L
☐ Other Define:
Note:
How is the robot safety synchronization performed? ☒
☐ Hardware J
☐ Software J
☐ Other Define:
Note:
Does the robot have automatic cyclic brake check? ☒
☐ Yes J
☐ No L Define:
Note:
Design principles - EMC N/A
Which actions are taken to fulfil the EMC requirements? ☐
Describe: Separate power/signal cables as far as possible in the cabinet. Divided in cable trunks on the machine.
Note:
Are all components and systems assembled according to supplier’s installation instructions? ☐
☒ Yes J
☐ No L
Note:
Are all coils e.g. relay coils, valves etc. equipped with interference eliminator? ☐
☒ Yes J
☐ No L
Note:
Design principles - Hardware, control systems N/A
State applications from defined Project Manual that will be used for the control system ☐
Applications from defined Project ManualJ: NC with ITC
For control systems outside of the Project Manual please describe and append sample control system layoutL: Define:
Note:
What is the maximum scan time for the CPU? ☐
State C.t. CPU MAX = ca. 4 ms
Note:
How are cables and wires connected? ☐
☒ Screw connectors J
☒ Cage clamp (spring force) connectors J
☐ Crimp connectors L
Note:
Are any kind of wireless communication used? ☐
☒ No J
☐ Yes K Define:
Note:
Design principles - Software, control systems N/A
Does the company have a standardized and documented software structure for Robot, PLC, NC and HMI programming? ☐
PLC ☒ Yes J ☐ No L
NC ☒ Yes J ☐ No L
####################
File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: Note:
What manufacturer and type code is the temperature regulation unit, electrical cabinet? ☐
Manufacturer: Rittal Type code:
Note:
What manufacturer and type code is the Lighting, electrical cabinet? ☐
Manufacturer: Rittal Type code:
State if LED’s are used:
☒ Yes J
☐ No L
Note:
What manufacturer and type code is the Lighting, machining area? ☒
Manufacturer: Type code:
State if 24VDC LED’s are used:
☐ Yes J
☐ No L
Note:
What manufacturer and type code is the Lighting, maintenance area? ☒
Manufacturer: Type code:
State if 24VDC LED’s are used:
☐ Yes J
☐ No L
Note:
Material - Cables N/A
What manufacturer and type code is the Cables fixed installed in machine? ☐
Manufacturer: LAPP, MURR Type code:
Note:
What manufacturer and type code is the Cables for frequent movements? ☐
Manufacturer: LAPP, MURR Type code:
Note:
What manufacturer and type code is the Servo motor cable? ☐
Manufacturer: Siemens Type code:
Note:
What manufacturer and type code is the Encoder cable? ☐
Manufacturer: Siemens Type code:
Note:
What manufacturer and type code is the Motor cable? ☐
Manufacturer: LAPP Type code:
Note:
Material – Switches, Circuit protective devices and Motor Starter Protectors N/A
What manufacturer and type code is the Main switch? ☐
Manufacturer: Siemens or Eaton Type code: 3VA… or NZM…
Note:
What manufacturer and type code is the Circuit breakers? ☐
Manufacturer: Siemens Type code: 5SY…
Note:
What manufacturer and type code is the Motor starter protectors? ☐
Manufacturer: Siemens Type code: 3RV…
Note:
Material - Dialogue, operator/machine N/A
What manufacturer and type code is the Signal lamps, Push-buttons, Switches, Key switches? ☐
Manufacturer: Siemens Type code: 3SU…
State if LED’s are used in signal lamps:
☒ Yes J
☐ No L
Note:
What manufacturer and type code is the Status traffic light? ☐
Manufacturer: Siemens, WERMA Type code: 8WD44…
State if LED’s are used:
☒ Yes J
☐ No L
Note:
Material - Power supply N/A
####################
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Page: 1
Context: | | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
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File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: Note:
Design principles - Spare capacity N/A
Will the Aurobay requested spare spaces be fulfilled? ☐
Conductors between the connection boxes and the electrical cabinet: ≥10%
Spare spaces in the cable ducts on the machine: ≥20%
Spare spaces in the cable trailers on the machine: ≥20%
Spare space on the mounting plates in the enclosures: ≥10%
Spare space in the cable ducts in the enclosures: ≥20%
Inputs in spare after start-up of the machine: ≥10%
Outputs in spare after start-up of the machine:: ≥10%
Free program memory after start-up of the machine: ≥20%
☒ Yes J
☐ No KL Define:
Note:
Material
Material - Safety components N/A
What manufacturer and type code is the emergency stop module? ☐
Manufacturer: Siemens, Pilz Type code: FailSafe I/O + Pilz PNOZ to machines
Note:
What manufacturer and type code is the emergency stop button? ☐
Manufacturer: Siemens Type code:
Note:
What manufacturer and type code is the Safety stop module? ☐
Manufacturer: Siemens Type code: FailSafe I/O + FailSafe Profinet
Note:
What manufacturer and type code is the Electro mechanic safety switch? ☐
Manufacturer: Euchner Type code: MGB, CET3
Note: Agree on type during design
What manufacturer and type code is the Light curtain? ☒
Manufacturer: Type code:
Note:
What manufacturer and type code is the Enabling device? ☐
Manufacturer: Siemens Type code: HT10
Note:
What manufacturer and type code is the additional safety components? ☐
Function: Safety switch Manufacturer / Type code: Euchner CES
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Note:
Material - Enclosures N/A
What manufacturer and type code is the Electrical cabinet? ☐
Manufacturer: Rittal Type code: VX25
State if locking device for Assa/Abloy (Aurobay Specific) are used:
☒ Yes J
☐ No L
Note:
What manufacturer and type code is the Connecting boxes? ☐
Manufacturer: Rittal Type code: AE
State if “double bit” locking device are used:
☒ Yes J
☐ No L
Note:
What manufacturer and type code is the Operator panels? ☐
Manufacturer: Rittal Type code: AE
State if “double bit” locking device are used:
☒ Yes J
☐ No L
Note:
####################
File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: Function: HMI screen Manufacturer / Type code: Siemens ITC1900
Function: Pushbutton panel Manufacturer / Type code: Siemens MPP464
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Note:
Are NC controls according to the defined Project Manual? ☐
☒ Yes J please state the main components in the list below
☐ Partly LK please state all components in the list below
☐ No L please state all components in the list below
Function: NCU Manufacturer / Type code: Siemens NCU1750
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Note:
Are Bus connected I/O modules according to the defined Project Manual? ☐
☒ Yes J please state the main components in the list below
☐ Partly LK please state all components in the list below
☐ No L please state all components in the list below
Function: I/O Manufacturer / Type code: Siemens ET200Eco/Pro
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Note:
Are Robot controls according to the defined Project Manual? ☒
☐ Yes J please state the main components in the list below
☐ Partly LK please state all components in the list below
☐ No L please state all components in the list below
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Note:
Are Nut runner according to the defined Project Manual? ☒
####################
File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: Note:
Material - Power supply N/A
What manufacturer and type code is the Power supply unit? ☐
Manufacturer: Siemens Type code: Sitop
Note:
Material - Signal collection N/A
Are sensors and sensor cables according to the defined Project Manual? ☐
☒ Yes J
☐ PartlyLK please state all sensors used outside the Project Manual in the list below
☐ No L please state all sensors used in the list below
Function: Manufacturer / Type code: IFM
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Note:
What manufacturer and type code is the Linear encoder? ☒
Manufacturer: Type code:
State if absolute or incremental technology is used:
☐ Absolute J
☐ Incremental L
Note:
What manufacturer and type code is the Rotating encoder? ☒
Manufacturer: Type code:
State if absolute or incremental technology is used:
☐ Absolute J
☐ Incremental L
Note:
What manufacturer and type code is the Data carrier (RFID) e.g. Balluff, Moby? ☒
Manufacturer: Type code:
Note:
What manufacturer and type code is the additional Signal collection? ☐
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Function: Manufacturer / Type code:
Note: Delivery during the project planning phase
Material - Electrical motor N/A
What manufacturer and type code is the Asynchronous motor? ☐
Manufacturer: SEW Type code:
Brake Voltage:
####################
File: E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx
Page: 1
Context: maintenance SUPPORTABILITY
Documentation
Documentation - Electrical equipment N/A
In what system are the electrical diagrams made and delivered? ☐
☒ EPLAN J Version: 2023
☐ Autocad K Version:
☐ Other system L Define:
Append sample of documentation for electrical equipment
Note:
Will the symbols standard EN 60617 (EPLAN standard) be used? ☐
☒ Yes J
☐ No KL
Append sample drawing with reference symbols.
Note:
Will the standard EN 81346-1 be used for reference designations? ☐
☒ Yes based on I/O numbering J
☐ Yes K
☐ No KL
Append sample drawing with reference designations.
Note:
Which language(s) is/are used for the information in the electrical diagrams? ☐
State language (s) for texts: English
Note:
Are English abbreviations for inputs and outputs are used (I &Q)? ☐
☒ Yes J
☐ No L
Note:
How many paper copies will be delivered? ☐
State number = 1 copies
State format = A4
Note:
What does the documentation for the electrical diagram include? ☐
☒ Contents
☒ Layout machine/plant with all electrical components
☒ Layout electrical cabinet
☒ Layout control panel
☒ Circuit diagram
☒ Cable diagram
☒ Connection table
☒ External connections
☒ Parts list electrical cabinet
☒ Parts list machine/plant (“external components”)
☒ Recommended spare parts list
Note: Sparepart list as Excel
Documentation - Manuals N/A
Which of the instruction books/manuals below are included in the ☐
complete documentation for the electrical equipment?
☒ Clear and general description of the equipment, installation and assembling and connection to supply/supplies J
☒ Information on programming J
☒ Instructions for preventive maintenance J
☒ Instructions for adjustment, maintenance and repairs J
☒ Manuals from sub supplier J
Note:
In what file format(s) will the manuals be delivered? ☐
State file type = PDF
Note:
How many sets of paper manuals will be delivered? ☐
State number = 1 copies
State format = A4
Note:
Which language(s) is/are used for the information in the manuals? ☐
State language(s): English
Note:
Documentation - Program documentation N/A
What softwares are used and delivered for programmable obje
####################
File: Op110_ERAD_S700272_10.pdf
Page: 1
Context: 03
03
03
04 A Carlsson 20230125
Added axial run out R-AA
04
Ra 2.5
05
A Carlsson 20230405
Surface demand added
05
9°*
06
06
06
A Carlsson 20230502
Measure Ø28.785, Ø33.5 was Ø29.325±0.015, Ø33.3±0.02
T B D
4.43 (Ø28.8-Ø28.83)
n28.83
07
A Carlsson 20230505
Measure Ø28.8, Ø33.4, 9° was Ø28.785, Ø33.5, 14°
07
07
07
07
A Carlsson 20230505
Measure Ø28.83 addaed
07
(0.57)
[HIC]
08
A Carlsson 20230704
[HIC] Added on RunOut demand
08
*) To be measured perpendicular
to the chamfer surface.
*
09
09
A Carlsson 20230904
Note added on Roundness demand (*)
09
09
A Carlsson 20230904
232.56±0.04 was 232.6±0.05, Ø26.85 was 25.85
09
####################
File: Op110_ERAD_S700272_10.pdf
Page: 1
Context: H-H
L ( 2 : 1 )
M ( 2 : 1 )
J ( 5 : 1 )
H
H
L
M
J
TEMPLATE: ISSUE09
Powertrain Engineering Sweden AB
Skövde
PROCESS DRAWING
CAD system
Inventor,drawing may not be changed manually
Op Benämning/ Op Name
Variant
Detalj/ Part
Datum/ Date
Ritad av/ Drawn by
Godk av/ Appr by
Ritn Nr/ Draw No
Op Station
Blad/ Sheet Utg/ Rev
S-700272
A Carlsson
2021-07-12
1 / 1
10
Marie Gonzaga
110
Turning; DriveEnd side complete
PostProcessGauge
Rotorshaft
GEN3 ERAD
VERKTYGFÖRTECKNING/ TOOL LIST
FÖR PRODUKTION/ FOR PRODUCTION
Nr/ No
Datum/ Date
Namn/ Name
Ändringens art/ Change
Granskad av/ Checked by
Godkänd av/ Approved by
Datum/ Date
Datum/ Date
Sign
Sign
PT H-FAB
DRIFT H-FAB
Verktyg/Tool
Nr/No Antal Pos Art.Nr/Item.No Antal/No Benämning Dimension/ Name Dimension
(n36)
Outgoing material from operation
(incl. finish contour and remaining stock from op)
DD1
0.15
0
13.5 `0.2
32.12 `0.2
19.672 `0.05
30.35 `0.2
36.255 `0.15
(41.442)
70.825 `0.1
83.15 `0.05
(n19.26)
1 `0.1
(2.82)
n35.308
`0.1
n27.61
`0.1
n31.642
`0.1
n33.4
`0.015
30° `3°
R1.3
R
5
n28.8
`0.015**
M1
(332.24)
| 0.02 R-AA
h | | | | | | | | | | | | | | | | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| | | | | | | | | | | | | | | | | |
| | | | | | | | | | | | | | | | | |
R1.3
20
n
*) Angle become 19°
after cold forming Op.130
**) Ø28.8 (calculated)
expand in Op.130
and grinded in Op.160
16° `3°
15° `3°
(n22.71)
n34.472
`0.2
n26.85
`0.2
(n16)
(n23
)
Weight; 2.148 kg
Incoming material
Weight; 2.324 kg
0.15
R2
(n50.342)
0.4 `0.15
R1.3
0.85 `0.1
(n35.308)
0.025 R-DD2
h 0.025
R-AA
n49.034
`0.1
7.5° `3°
20° `3°
28
n
S
75° `5°
30° `3°
60° `1°
120° `3°
h
0.1
DD1-DD2
e 0.025
Ra 2
AA
DD2
C
20
232.56 `0.04
30° `3°
Ra 1.6
128
55
0
0.2
03
A Carlsson 20230113
Design changed, rotorshaft 33996774 Rev 17
03
A Carlsson 20230113
Meas. 5.5,Ø29.325,Ø31.642,14° was 2.5,Ø29.025,Ø31.6,19°
####################
File: E3.3%20MQTT_MES_Interface%20Functional_Specification_Supplier_v1_1.pdf
Page: 12
Context: Name of document
Issue
Issue date
Page
Page
MQTT_MES_Interface Functional_Specification_Supplier_v1_1
12 (29)
Type of document
Security class:
Version
Issue date
Date
Specification
Proprietary
1.1
2022-01-18
Issuer
Issue
Issue date
Page
Appendix
64331 Global Line & Equip, Thore Andersson
RecipeRequest
Purpose
The Request Type RecipeRequest controls communication necessary to fetch a recipe with
instructions from MES when a part enters a Work Unit.
A Request Event is initiated when a part enters the station and is ended when the part is ready to
be processed.
State machine
0
Init
Sent
Material Identified
Verification failed
Received
Receipe
New part arrives
1
Wait for
message
10
2
Start
Operation
Reset Alarm
Received
Release Material
3
Release
Part
Received
Material Identified
Negative Acknowledge
Received
RecipeOnHold
Rn
Te
MATT MES inetace Funct en
Speciation Proprietary 2022-01-18,
164331 Global Line & Equip, Thore Andersson
4.2. RecipeRequest
4.2.1. Purpose
‘The Request Type RecipeRequest controls communication necessary to fetch a recipe with
instructions from MES when a part enters a Work Uni.
‘A Request Event is infiated when a part enters the station and is ended when Ihe par is ready to
be processed.
4,22. State machine
sent
Ne uae Material entifies
Received
“Release Material”
7 I
7
Received
“*Receipe”
. 7
####################
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Page: 14
Context: Name of document
Issue
Issue date
Page
Page
MQTT_MES_Interface Functional_Specification_Supplier_v1_1
14 (29)
Type of document
Security class:
Version
Issue date
Date
Specification
Proprietary
1.1
2022-01-18
Issuer
Issue
Issue date
Page
Appendix
64331 Global Line & Equip, Thore Andersson
Following part specify the sequence and management of the Request Type Recipe Request,
referring to references pointed in the sequence diagram
4.2.3.1.
Send ‘Material Identified’ (ref.1)
MES Interface
1. New part arrives to the station
2. Store timestamp for Performance Indicator event type Part In Work Unit
3. Part is identified
4. Store timestamp for Performance Indicator event type Trig MaterialIdentified
5. Send Material Identified message
a. Depending on type of identification that are used different identification objects used in
Material Identified
MES
6. MES evaluate the status and the preparation of the part, based on this decide how to proceed
7. MES send response message depending on decision (see alternatives below)
4.2.3.2.
Receive ‘Recipe’ (ref.2)
If evaluation in MES gives that operations shall be performed in the actual equipment.
MES
8. Send Recipe message
a. The message contains all the information needed for perform the operation in the actual
equipment (Activities, Program Codes, Parameters, Handling Parameters etc.)
MES Interface
9. Receive Recipe message
10. Verify content in message
a. If verification fails: View alarm and stop execution of the actual Request Event
b. If verification succeeds: Continue with next step
11. Start operation in equipment according data given in the Recipe message
12. Store timestamp for Performance Indicator event type Start Of Processing
13. Send Performance Indicator message with all stored events and corresponding timestamps
####################
File: E3.3%20MQTT_MES_Interface%20Functional_Specification_Supplier_v1_1.pdf
Page: 15
Context: Name of document
Issue
Issue date
Page
Page
MQTT_MES_Interface Functional_Specification_Supplier_v1_1
15 (29)
Type of document
Security class:
Version
Issue date
Date
Specification
Proprietary
1.1
2022-01-18
Issuer
Issue
Issue date
Page
Appendix
64331 Global Line & Equip, Thore Andersson
4.2.3.3.
Receive ‘Release Material’ (ref.3)
If evaluation in MES gives that no operations shall be performed in the actual equipment.
The reason can be one following
•
If the “Identifier” has a logical empty status
•
If the part has status 'To rectifying/repair without intermediate assembly' (e.g.REPNO)
•
If there are no activities prepared in the for the part
•
If all activities for the actual WorkUnit are OK (=already done)
MES
8. Send ‘Release Material’ message
a. The message contains all the information needed to release/transport further in the route
(Next Destination, Handling Parameters)
MES Interface
9. Receive ‘Release Material’ message
10. Verify content in message
a. If verification fails: View alarm and stop execution of the actual Request Event
b. If verification succeeds: Continue with next step
11. Release part from station according to data given in the ‘Release Material’ message
12. Store timestamp for Performance Indicator event type Direct Release
13. Send ‘Performance Indicator’ message with all stored events
4.2.3.4.
Receive ‘Recipe On Hold’ (ref.4)
If evaluation in MES gives that the status for the actual WorkUnit is “On Hold”.
The reason can be one of following
•
At a start station: No orders to start in MES for the moment, wait for orders from ERP.
•
Waiting for approved testsample connected to the actual WorkUnit
•
Zone-WIP – management: Control number of parts within a certain area of the line (eventual future
MES functionality)
MES
8. Send ‘Recipe On Hold’ message
a. The message contains information about the reason of the ‘Recipe On Hold’
MES Interface
9. Receive ‘Recipe On Hold’ message
10. Verify content in message
a. If verification fails: View alarm and stop execution of the actual Request Event
b. If verification succeeds: Continue with next step
11. Manage warning
12. Continue to wait for a response message from MES
####################
File: E3.3%20MQTT_MES_Interface%20Functional_Specification_Supplier_v1_1.pdf
Page: 19
Context: Name of document
Issue
Issue date
Page
Page
MQTT_MES_Interface Functional_Specification_Supplier_v1_1
19 (29)
Type of document
Security class:
Version
Issue date
Date
Specification
Proprietary
1.1
2022-01-18
Issuer
Issue
Issue date
Page
Appendix
64331 Global Line & Equip, Thore Andersson
4.3.3.2.
Receive ‘Release Material’ (ref.2)
If evaluation in MES of the content in the Result message are correct and following routing of the
part is decided
MES
6. Send ‘Release Material’ message
a. The message contains all the information needed to release/transport further in the route
(Next Destination, Handling Parameters)
MES Interface
1. Receive ‘Release Material’ message
2. Verify content in message
a. If verification fails: Manage alarm and stop execution of the actual Request Event
b. If verification succeeds: Continue with next step
3. Release part from station according to data given in the ‘Release Material’ message
4. Store timestamp for Performance Indicator event type Part Leave WorkUnit
5. Send ‘Performance Indicator’ message with all stored events and corresponding timestamps
4.3.3.3.
Receive ‘Result Acknowledge’ (ref.3)
If evaluation in MES fails and of some reason it’s not possible to decide further actions.
MES
6. Send ‘Material Identified Negative Acknowledge’ message
a. The message contains information about the reason of failed execution in MES
MES Interface
7. Receive ‘Material Identified Negative Acknowledge’ message
8. Verify content in message
a. If verification fails: Manage alarm and stop execution of the actual Request Event
b. If verification succeeds: Continue with next step
9. Manage alarm
4.3.3.4.
Timeout (ref.4), optional
If specified the MES Interface shall monitor the time elapsed between sending a request message
and when a response message is received from MES
MES Interface
4. Monitor response time and initiate a warning if time pass limit
5. Manage warning
6. Continue to wait for a response message from MES
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 2
Context: Index
Contacts, Europé
3
Contacts, Global
4
Contacts, Germany, HOT-LINE_ MAIL
5
Update, Version
6
Spindle, 2151B
7
Spindle, 2151B Size 1, Dimensions
8
Spindle, 2151B Size 2, Dimensions
9
Spindle, 2151B, Part list
10
Spindle, 2152B
11
Spindle, 2152B, Dimensions
12
Spindle, 2152B, Dimensions
13
Spindle, 2152B, Part list
14
Spindle, 2153A
15
Spindle, 2153A, Dimensions
16
Spindle, 2153A, Dimensions
17
Spindle, 2153A, Part list
18
Spindle, 2162A
19
Spindle, 2162A, Dimensions
20
Spindle, 2162A, Part list
21
Spindle, 2162A, configurator
22
Spindle, 2157B
23
Spindle, 2157B_1, Dimensions, straight
24
Spindle, 2157B_1, Dimensions, angular
25
Spindle, 2157B. Part list
26
MaXYmos NC, Measuring module MEM + Display DIM
27
MaXYmos NC, MEM + DIM, Dimensions
28
MaXYmos NC, MEM + DIM, Technical spec
29
MaXYmos NC, MEM + DIM, Technical spec
30
Driver, Indra Drive
31
Driver, Dimensions 12A
32
Driver, Dimensions 28A
33
Driver, Dimensions 54A
34
Driver, Dimensions 70A
35
Driver, Dimensions 100A
36
Documentation
37
Misc
38
2
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 7
Context: Measuring chain MaXYmos NC, 2151B
Complete measuring chain MaXYmos NC, 1-60 kN
Model: 2151B Size 1
2151B Size 2
Force:
1-15 kN
30-60 kN
Stroke: 200 mm
400 mm
Speed:
Up to 300 mm/s
Up to 700 mm/s
Bosch integrated safety
7
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 10
Context: Part list, 2151B
Type
Product
2151B02012001
Spindle
Spindle, size 1, 200mm, 2/1 kN
NCFH 02 01 200 1
2151B05012001
Spindle
Spindle, size 1, 200mm, 5/1 kN
NCFH 05 01 200 1
2151B05022001
Spindle
Spindle, size 1, 200mm, 5/2 kN
NCFH 05 02 200 1
2151B10012001
Spindle
Spindle, size 1, 200mm, 10/1 kN
NCFH 10 01 200 1
2151B10022001
Spindle
Spindle, size 1, 200mm, 10/2 kN
NCFH 10 02 200 1
2151B10052001
Spindle
Spindle, size 1, 200mm, 10/5 kN
NCFH 10 05 200 1
2151B15022001
Spindle
Spindle, size 1, 200mm, 15/2 kN
NCFH 15 02 200 1
2151B15052001
Spindle
Spindle, size 1, 200mm, 15/5 kN
NCFH 15 05 200 1
2151B30154002
Spindle
Spindle, size 2, 400mm, 30/15 kN
NCFH 30 15 400 2
2151B60154002
Spindle
Spindle, size 2, 400mm, 60/15 kN
NCFH 60 15 400 2
2151B60304002
Spindle
Spindle, size 2, 400mm, 60/30 kN
NCFH 60 30 400 2
2180ANCFH0215SB
Driver
Servo amplifier for NCFH up to 15 kN, size 1
IndraDrive 28 A
2180ANCFH0030SB
Driver
Servo amplifier for NCFH 30 kN, size 2
IndraDrive 54 A
2180ANCFH0060SB
Driver
Servo amplifier for NCFH 60 kN, size 2
IndraDrive 70 A
5847B0
Evaluation
maXYmos NC MEM
5847B0
5877AZ000
Display
maXYmos DIM
5877AZ000
KSM333040-5
Cable
NCFH size 1 motor cable 2,5 qmm
NCFH size 1 motor cable length 5 m
KSM333040-10
Cable
NCFH size 1 motor cable 2,5 qmm
NCFH size 1 motor cable length 10 m
KSM333040-15
Cable
NCFH size 1 motor cable 2,5 qmm
NCFH size 1 motor cable length 15 m
KSM333040-20
Cable
NCFH size 1 motor cable 2,5 qmm
NCFH size 1 motor cable length 20 m
KSM333010-5
Cable
NCFH size 2 motor cable 6 qmm
NCFH size 2 motor cable length 5 m
KSM333010-10
Cable
NCFH size 2 motor cable 6 qmm
NCFH size 2 motor cable length 10 m
KSM333010-15
Cable
NCFH size 2 motor cable 6 qmm
NCFH size 2 motor cable length 15 m
KSM333010-20
Cable
NCFH size 2 motor cable 6 qmm
NCFH size 2 motor cable length 20 m
KSM18028885-5
Cable
NCFH feedback cable
NCFH feedback cable length 5 m
KSM18028885-10
Cable
NCFH feedback cable
NCFH feedback cable length 10 m
KSM18028885-15
Cable
NCFH feedback cable
NCFH feedback cable length 15 m
KSM18028885-20
Cable
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 13
Context: Assembly option, 2152B
13
Possible Assembly
Fig. 3: Extremly narrow assembly space requirements
from NC joining module NCFS
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 15
Context: Measuring chain MaXYmos NC, 2153A
Model: 2153A
Force:
5-800 kN
Stroke: 0-400,
Optional
Speed:
up to 300 mm/s
Bosch integrated safety
15
Functional Principle with maXYmos NC Type 5847A..
PROFIBUS
NC Joining Module PROFINET
NCFN Type 21534... EtherNet/IP
Analog force signal EtherCAT Machine Interface PLC
__Absoulte encoder >
Measurement range switch KSM18028884-5 Nominal Value/Actual Value
‘Commands
AC servo motor ORNS
Safety zone IndraDrive
box Servo amplifier MEM DIM
Strain gage < > t
force sensor \
oe <> <<
Threaded Cable SERCOS III Cable
spindle drive safety zone box KSM18029160-5 144,9 120021614...
KSM18029161-1 (Cable length max. 5 m)
Configuration, parameterization,
evaluation and visualization
Motor Control maXYmos NC Type 58474...
Feedback +
t PC
Ethernet interface
CSV, Q-DAS®, PDF, XML,
Visualization via VNC®
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 17
Context: Dimension, 2153A
17
Dimensions
ine ala ls |al«xlalalalalerlo ® ee | calx |vlov
21538. w
cosi00 | eras | - [35 | 3 Beeren | >
com00 | 778.3 | = | 335 | 50 | 7 | 20 [5 [8 [100] 70 | 70] mane | 49 [50] wef ]s |=
‘o1a200 | 9043 | Toes | 00 | 20 [170 | 30 [5 [137 | v20| 100 [100] mioa0 ol 70 [70] 190] 20 [a5] 17
‘oros00 | 1105 | 1263 | zoo | eo [110 | s0 [5 [157 [120 100| 100] mio0(| 70 [70 | 180[ 20 [45] 11
‚013200 | 9043 | toss [soo | eo | 110 | 30 [5 [157 [120 10 [100] mioworaw| 70 [70 | 180[ 20 [45] 11
‚015400 | 1105 | 1263 | 00 | eo [110 | s0 [5 [157 [120 10 [100] miowotaw| 70 [70 | 1s0] 20 [as 1
‘o30200 | 1082 | 1237 | 52e | 90 | 120 | 50[5 [148] 150] 100|100] mazes [75 [75 | 215] 20 [4517
02000 | 1282 | 1437 [28 | so [120 [50 [5 [148 | 150 | 100|100| _mtaea | 75 [75 | 215] 20 [45 [01
‘og0200 | 1 150 1345 | sa | 110 | 150 | 50 [5 [177 | 180 | 130] 130] _mnee2 | 90 [90 | 215] 20 [45 [iss
Season | 1350 | 1595 [724 | mo [so [so [3 [177 | tao] 130] 130] _mneaa | 90 [30 | 215] 20 [45 [a5
100200 [73525] 157.5] e10 | 160 [195 | 50 | 5 1227 [230| 170] 170] mano | 115 [115] 200] 28 |e [175
100400 [15325] 1757.5] 240 | 160 | 195 | 50 | 5 1227 [2:0 | 170] 170[ ma0a0 | 115 [115 200] 28 [es [175
200100 [1732.5] 1957.5] 968 | 160 | 200 | 50 [5 [247 | 250 | 190[190| 20x80 | 115195] 282] 36 [9 | 22
‘300800 [1685.5] 2110.8] 035 | 200 [240 | 72 [8 I2e 120012101210] maaxas | 150 [150] 77] 36 [9 [26
© Dimension with safety device
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 19
Context: Measuring chain MaXYmos NC, 2162A
Model: 2162A
Force:
10, 20, 40 and 90 KN
Stroke: 0-350
Speed:
200 - 250 mm/s
Without Bosch integrated safety
19
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 24
Context: Measuring chain MaXYmos NC, 2157B
Model:2157B
Force: Up to 1,5KN
Stroke:0-250mm
Speed: up to 400 mm/s
Bosch integrated safety
23
Functional principle with maXYmos NC Type 5847...
PROFIRUS
INC Joining Module PROFINET
NCEN Type 21578. EtherNet/P
Analog force signal
Measurement range switch KONVTBO2EE84-5
Safety zone IndraDrive
box Servo amplifier mem
able Sercos u
safety zone box KSMIEOBS160-5
KSM1BO2S161-1 (Cable length max. 5 m)
Configuration, parameterization,
‘evaluation and vauazation
‘Motor Control ‘max¥mos NC Type 5847.
force sensor Feedback
Charge ample +
x
heel merce
(CSV, C-DAS', PDF, XML,
‘Visualization via INC“
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 35
Context: Servo drive for press type:
2157, < 1,5KN
Part list, Bosch Indra drive 12A. For spindle type 2157
Control unit
CSB02.1B-ET-EC-NN-S4-NN-NN-FW
same for all sizes of power units
Firmware
FWA-INDRV*-MPB-18VRS-D5-1-SRV-NN
same for all sizes of power units
Power unit
HCS02.1E-W0012-A-03-NNNN
size pending
Shield connection
HAS02.1-002-NNN-NN
Line filter
NFD3.1-480-007
size pending
Safety zone module
HSZ01.1-D08-D04-NNNN
same for all sizes of power units
Only Complete driver package can be purchased via Kistler
Spareparts, separate parts of the driver can be purchased via Bosch directly
32
Dimensions of power section/converter HCS02.1E-W0012
4
80
min
03
316:
290
80
nin
80
min
95
ein
Ht
A: minimal instalation space (when using the accessory HASO2.1); addtional space for cable
B: minimal installation space; additonal space for cable
Dimensions of line filter NFDO3.1-480-007.
Power section
ine filter
HCS02.1E-woo12]
|NFDO3.1-490:007
Dimensions of ne Fiter NFDO3.1-480.007
H
D
160
0
w
20
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 36
Context: Servo drive for press type:
2151B, < 15KN
Part list, Bosch Indra drive 28A. For spindle type 2151B 15kN/10kN/05kN
Control unit
CSB02.1B-ET-EC-NN-S4-NN-NN-FW
same for all sizes of power units
Firmware
FWA-INDRV*-MPB-18VRS-D5-1-SRV-NN
same for all sizes of power units
Power unit
HCS02.1E-W0028-A-03-NNNN
size pending
Shield connection
HAS02.1-002-NNN-NN
Line filter
NFD3.1-480-007
size pending
Safety zone module
HSZ01.1-D08-D04-NNNN
same for all sizes of power units
Only Complete driver package can be purchased via Kistler
Spareparts, separate parts of the driver can be purchased via Bosch directly
33
Dimensions of power section/converter HCS02.1E-W0028
min. 265
206.5
80
A: minimal instalation space (when using the accessory HASO2.1); addtional space for cable
B: minimal installation space; additonal space for cable
Dimensions of line filter NFDO3.1-480-007.
For Til al Ea
ens [ean aa
i i ar TT
= 2 7
IB 5 =
I
2 T
####################
File: E4.5%20Project%20manual%20Kistler.pdf
Page: 37
Context: Servo drive for press type:
2151B, < 60KN
Part list, Bosch Indra drive 54A. For spindle type 2151B 30kN
Control unit
CSB02.1B-ET-EC-NN-S4-NN-NN-FW
same for all sizes of power units
Firmware
FWA-INDRV*-MPB-18VRS-D5-1-SRV-NN
same for all sizes of power units
Power unit
HCS02.1E-W0054-A-03-NNNN
size pending
Shield connection
HAS02.1-002-NNN-NN
Line filter
NFD3.1-480-016
size pending
Safety zone module
HSZ01.1-D08-D04-NNNN
same for all sizes of power units
Part list, Bosch Indra drive 70A. For spindle type 2151B 60kN
Control unit
CSB02.1B-ET-EC-NN-S4-NN-NN-FW
same for all sizes of power units
Firmware
FWA-INDRV*-MPB-18VRS-D5-1-SRV-NN
same for all sizes of power units
Power unit
HCS02.1E-W0070-A-03-NNNN
size pending
Shield connection
HAS02.1-002-NNN-NN
Line filter
NFD3.1-480-016
size pending
Safety zone module
HSZ01.1-D08-D04-NNNN
same for all sizes of power units
Only Complete driver package can be purchased via Kistler
Spareparts, separate parts of the driver can be purchased via Bosch directly
34
Dimensions of power section/converter HCS02.1E-W0054 and HCS02.1E-W0070
25 min. 265
206.5
80
IM
Pi
nin.s5
105
A minimal installation space (when using the acessory HASO2.); addtional space for cable
8: minimal instalation space; addtional space for cable
Dimensions of lin filter NFDO3.1-480-016
Fri [ Et al Ea
ans fun rom
HCS02.1&.w0070_| NFDO3.1-480-016
Dimensions of line Fiter NFDO3.1-480.016.
H D w
220 0 = |
####################
File: E4.3%20Project%20manual_IFM%20electric.pdf
Page: 13
Context: | | Aurobay/VCPC
ifm Project Manual | | | |
| -------- | -------- | -------- | -------- | -------- |
| Cylinder sensors
Sensor photo Article no. Description Comment
Magnetic sensitivity 2,8 mT; for T-slot cylinders;
MK5100 Travel speed > 10m/s; normally open; with GMR cell;
24V DC; PNP; flush mountable PUR cable / 2m
for T-slot cylinders
Magnetic sensitivity 2,8 mT; with GMR cell;
MK5102 Travel speed > 10m/s; normally open; PUR-cable / 0,3m;
24V DC; PNP; flush mountable connector M8
Turnable coupling ring
for T-slot cylinders
Magnetic sensitivity 2,8 mT; GMR cell;
MK5116 Travel speed > 10m/s; normally open; PUR-cable / 1 m; cross-linked;
24V DC; PNP; flush mountable connector M12
Turnable coupling ring
for T-slot cylinders
Magnetic sensitivity 2,8 mT; GMR cell;
MK5142 Travel speed > 10m/s; normally open; PUR-cable / 2 m;
24V DC; PNP; flush mountable connector M12
Turnable coupling ring
for C-slot cylinders
GMR cell;
MK5314 Magnetic sensitivity 2,8 mT;
PUR-cable / 0,3 m;
Travel speed > 10m/s; normally open;
connector M12
24V DC; PNP; flush mountable
Turnable coupling ring
For detailed information about the respective article no. please click on the article no.
to get linked to the datasheet on the ifm homepage.
For accessories please click „Accessories“ on the left side of the datasheet-page at
the ifm homepage. | | | | |
| Version 2.2
release November 2021 | | | page 13 of 31 | |
®
Aurobay/VCPC
ifm Project Manual
Cylinder sensors
Sensor photo | Atle no. Desrpion Conment
ate matey 28 0 trae eae
aan | Sevag oo
Te ratofioe
at may an, ae
uncıan | Brei | Ri
GE hing a
nt matey 28. a
rare Be a sorte
rt many 2a aa
wann | Keen yon
canon
mss1a | Maan snsiviy 28 mt MR el
~ lush mountable Turmable coupling rin
For detailed information about the respective article no. please click on the article no.
to get linked to the datasheet on the ifm homepage.
For accessories please click „Accessories“ on the left side of the datasheet-page at
the ifm homepage.
Version 22
release November 2021
im - elose +0 you!
Page 130131
####################
File: E4.3%20Project%20manual_IFM%20electric.pdf
Page: 24
Context: | | Aurobay/VCPC
ifm Project Manual | | | |
| -------- | -------- | -------- | -------- | -------- |
| Memory plug, IO-Link sensors
Memory plug for IO-Link sensors ,
OUT1: DC PNP / OUT2: electrically
E30398 connected , Operating voltage: 18...32
V DC Parameter memory for IO-Link
sensors , Storage capacity: 2 Kbytes
For detailed information about the respective article no. please click on the article no.
to get linked to the datasheet on the ifm homepage.
For accessories please click „Accessories“ on the left side of the datasheet-page at
the ifm homepage. | | | | |
| Version 2.2
release November 2021 | | | page 24 of 31 | |
Aurobay/VCPC
ifm Project Manual
OUT BEFNB our eeany
Sind: unig a
a non emadiy Zihyee
For detailed information about the respective article no. please click on the article no.
to get linked to the datasheet on the ifm homepage.
For accessories please click „Accessories“ on the left side of the datasheet-page at
the ifm homepage.
Version 22
release November 2021
im - elose +0 you!
page 2431
####################
File: E4.3%20Project%20manual_IFM%20electric.pdf
Page: 29
Context: | | Aurobay/VCPC
ifm Project Manual | | | |
| -------- | -------- | -------- | -------- | -------- |
| Sockets M8
Socket photo Article no. Description Comment
4-wire;
Socket with M8 connector; straight;
EVC151
PUR cable / 5 m; without LED free from halogen and silicone
gold-plated contacts
3-wire;
Socket with M8 connector; straight;
EVC141
PUR cable / 2 m; without LED free from halogen and silicone
gold-plated contacts
3-wire;
Socket with M8 connector; angled;
EVC147
PUR cable / 2 m; with LED free from halogen and silicone
gold-plated contacts
3-wire;
Socket with M8 connector; angled;
EVC148
PUR cable / 5 m; with LED free from halogen and silicone
gold-plated contacts
For detailed information about the respective article no. please click on the article no.
to get linked to the datasheet on the ifm homepage.
For accessories please click „Accessories“ on the left side of the datasheet-page at
the ifm homepage. | | | | |
| Version 2.2
release November 2021 | | | page 29 of 31 | |
Aurobay/VCPC
ifm Project Manual
Sockets M8
Socket photo | Article no. Description
Comment
avast | ueatie sm: wow LED
fre rom halogen an icon
zu Manege
EvouT | Puneater tm wins
angled:
ine rom halogen and scone
oldie contacts
cous [seta
angled:
tre rom halogen an icon
‘opined contacts
For detailed information about the respective article no. please click on the article no.
to get linked to the datasheet on the ifm homepage.
For accessories please click „Accessories“ on the left side of the datasheet-page at
the ifm homepage.
Version 22
a !
teen aot ifm - elose +0 you!
page 29031
####################
File: E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf
Page: 13
Context: Name of document
Issue
Issue date
Page
Page
VDcom_v2_2_1_Functional_Specification_Supplier_2
13 (110)
Type of document
Security class:
Version
Issue date
Date
Specification
Proprietary
2
2022-01-19
Issuer
Issue
Issue date
Page
Appendix
64331 Global Line & Equip, Thore Andersson
4.3 Verifications of received information
The machine logic has the responsibility to verify the received information in messages from the
host system.
The purpose of the verification is to secure that the operation in the equipment can be performed in
a correct way and prevent that no undefined scenario occurs that can have:
•
Impact on Product quality
•
Impact on Personal safety
•
Cause mechanically destruction of the equipment
The verification shall secure that the equipment is prepared both hardware and software’s wise to
execute the operation according to received information (example: Program Code and Parameters
received in the Recipe)
If the verification detects any non-approved information in a received message, the machine cycle
shall be stopped and an alarm shall be raised and handled by the equipment’s common alarm
handling (indicated on HMI and/or stack lights and viewed in the common alarm list).
Defining which information that shall be verified in received messages shall be done together with
Aurobay/VCPC for each implementation.
4.4 Alarm handling and reset of statemachine
4.4.1 VDcom “Communication NOK”
The main VDcom block FC7000 that shall be called in OB1 (see further in) have an output
oComNOK that indicates if VDcom not have a connection established with the host application
VirtualDevice (VD).
4.4.2 Supervision of “Communication NOK”
The output oComNOK shall be supervised but the outcome due to lost connection must differ
depending on what state the equipment is in.
oComNOK = 1 warning when the equipment is idle = warning.
oComNOK = 1 when the equipment is trying to communicate and causing stop of cycle = alarm.
Following alarm/warning text shall be used:
•
Swedish: “Ingen uppkoppling mot host”
•
English: “No connection to host”
Network 1: Main loop for VDCom
Comment
%C7000
"VDC_System_1"
EN ENO
61.0 0ComNOk —#tComNok
"FirstScan’ — jFirstscan
####################
File: E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf
Page: 21
Context: Name of document
Issue
Issue date
Page
Page
VDcom_v2_2_1_Functional_Specification_Supplier_2
21 (110)
Type of document
Security class:
Version
Issue date
Date
Specification
Proprietary
2
2022-01-19
Issuer
Issue
Issue date
Page
Appendix
64331 Global Line & Equip, Thore Andersson
5.3 S1_RecipeRequest
The state machine S1_RecipeRequest controls communication necessary to fetch a recipe with
instructions from MES when a part enters a Work Unit.
The state machine is initiated when a part enters the station and is ended when the part is ready to
be processed.
5.3.1 State machine
0
Init
Sent
Material Identified
Verification failed
Received
Receipe
New part arrives
1
Wait for
message
10
2
Wait for
equip. ack.
Receipe
Reset Alarm
Equipment
acknowledge
Received
Release Material
3
Wait for
equip. Ack.
Release
Equipment
acknowledge
Received
Material Identified
Negative Acknowledge
[WaitForResponse = false]
Received
Material Identified
Negative Acknowledge
[WaitForResponse = true]
####################
File: E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf
Page: 27
Context: Name of document
Issue
Issue date
Page
Page
VDcom_v2_2_1_Functional_Specification_Supplier_2
27 (110)
Type of document
Security class:
Version
Issue date
Date
Specification
Proprietary
2
2022-01-19
Issuer
Issue
Issue date
Page
Appendix
64331 Global Line & Equip, Thore Andersson
5.4.3 Activity diagram
S2.1 Part processing
is done
S2.5 Release part
Reset message
S2.8 Reset
State Machine
S2.9 | R e se n d | m e ssa g e |
| -------- | -------- |
Resend message
Alarm
S2.3 Wait for reply
"Release Material" received
S2.2 Prepare
"Result" DB & send
message
S2.4 Fetch
information from
"Release Material"
DB
S2.7 Trigger on error
S2.6 Trigger on
warning
Warning
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5.4.4 MES behavior
This part describes how MES will respond to the message 3505Result based on material status,
part preparation and part workflow.
5.4.4.1 Release Material
Message 3503ReleaseMaterial is sent from MES to the equipment if the result has been
stored and corrected executed in MES. The message contains information about Next destination
in route and HandlingParameters if applicable
5.4.4.2 Result Acknowledge (with success = False)
Message 3506ResultAcknowledge (with success = False) can be sent from MES due to
following reasons:
1. Abnormal scenario: If MES are not able to store the result or execute correctly.
2. Normal scenario: If release of the actual WorkUnit shall be blocked of any reasons. Then the
equipment can be set to “Wait for Response”-mode and continue waiting for a respond from MES.
Aurobay/VCPC will specify in detail if the “Wait for Response”-functionality shall be used.
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S3.9
Reset statemachine to resend message (State: 10, Actor: Equipment)
1
Pulse iS3MsgReset.
5.5.4 MES behavior
This part describes how MES will respond to the message 3501MaterialIdentified based
on material status, part preparation and part workflow.
5.5.4.1 Release Material
Message 3503ReleaseMaterial is sent from MES to the equipment if the request is corrected
executed in MES. The message contains information about Next destination in route and
HandlingParameters if applicable
5.5.4.2 Material Identified Negative Acknowledge
Message 3504MaterialIdentifiedNegativeAcknowledge can be sent from MES due to
following reasons:
1. Abnormal scenario: The MES can’t give a correct respond to the request, due to incorrect data (part
status or preparation)
2. Normal scenario: If start of the actual WorkUnit is blocked of any reasons. Then the equipment can
be set to “Wait for Response”-mode and continue waiting for a respond from MES. Aurobay/VCPC
will specify in detail if the “Wait for Response”-functionality shall be used.
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5.7.3 Activity diagram
S5.4 Manage info
Reset message
S5.7 Reset
State Machine
S5.8 | R e s e n d | m e s s a g |
| -------- | -------- |
Resend message
Alarm
S5.2 Wait for reply
"Dynamic Event Acknowledge"
received
S5.1 Prepare
"Dynamic Event" DB
& send message
S5.3 Fetch
information from
"Dynamic Event
Acknowledge" DB
S5.6 Trigger on error
S5.5 Trigger on
warning
Warning
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5.9.4 MES behavior
When using the S7_RecipeAsynchrous statemachine the Material Identified message is sent from
another equipment(datapoint) that manage the transport and identification.
MES will evaluate based on material status, part preparation and part workflow if any operation
shall be performed in the actual equipment
If any operation shall be performed a 3502Recipe message is sent from MES. The message
contains all the information needed for perform the operation in the actual equipment.
No error messages will be sent from MES to S7_RecipeAsynchrous statemachine.
5.9.5 Additional information
5.9.5.1 Instances of statemachines
Both statemachines types S1_RecipeRequest and S7_RecipeAsynchronous can be used in
parallel in the same subsystem if needed.
Only one instance of the statemachines type S7_RecipeAsynchronous can be used per
subsystem
5.9.5.2 Use together with S8_ ResultAsynchronous
The S7_RecipeAsynchronous is normally used together with S8_ ResultAsynchronous for manage
the sending of the result message.
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5.10.4 MES behavior
This part describes how MES will respond to the message 3505Result based on material status,
part preparation and part workflow.
5.10.4.1
Result Acknowledge, with success = True
Message 3506ResultAcknowledge (with success = True) is sent from MES to the equipment if
the result has been stored and corrected executed in MES.
5.10.4.2
Result Acknowledge, with success = False
Message 3506ResultAcknowledge (with success = False) can be sent if MES are not able to
store the result or execute correctly.
5.10.5 Additional information
5.10.5.1
Instances of statemachines
Both statemachines types S2_ResultSending and S8_ResultAsynchronous can be used in parallel
in the same subsystem if needed.
Only one instance of the statemachines type S8_ResultAsynchronous can be used per subsystem
5.10.5.2
Use together with S7_RecipeAsynchronous
The S8_ ResultAsynchronous is normally used together with S7_RecipeAsynchronous for manage
the receiving of the recipe message.
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Name
Type
Comment
“FinalMaterialIdentifier.SupplierID”
iAlarmIn_Pos7
Bool
True = Alarm in position 7
iComponentPartNo_Pos7
String [18] Space = No component in position 7.
“FinalMaterialIdentifier.Partnumber”
iComponentSerialNo_Pos7
String [18] Space = No component in position 7.
“FinalMaterialIdentifier.Serialnumber”
iComponentSupplierID_Pos7 String [16] Space = No component in position 7.
“FinalMaterialIdentifier.SupplierID”
iAlarmIn_Pos8
Bool
True = Alarm in position 8
iComponentPartNo_Pos8
String [18] Space = No component in position 8.
“FinalMaterialIdentifier.Partnumber”
iComponentSerialNo_Pos8
String [18] Space = No component in position 8.
“FinalMaterialIdentifier.Serialnumber”
iComponentSupplierID_Pos8 String [16] Space = No component in position 8.
“FinalMaterialIdentifier.SupplierID”
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6.1.2.3 Configure “Subsystem Name” (Optional)
Subsystem name is viewed on several VDcom HMI pages and it’s possible to define other names
that describes the equipment and/or operation (example: Robot, Drilling1 …..)
This information are used for following purpose:
•
Viewed in VDcom HMI / Page:
o
VDcom Subsystem Overview
o
VDcom State Machines Overview
o
VDcom State Machine
Default is Subsys 1 defined
NER sub! > Subsystem name
Comment
s_MovE
EN —
IN our — #tSubhame
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7.8 Reset-button HMI
Following pictures shows have the “Reset” – button will behave.
Reset button indicator
changed to blue if button
is pressed →
oSxResetFromHMI is set to
TRUE. When the machine
logic have done the reset
by set iSxActive to FALSE,
the indicator will change
back to grey
Reset button is viewed
and button is enabled if
iSxEnableHMIReset is set to
TRUE
No reset button is viewed
and button is disabled if
iSxEnableHMIReset is set to
FALSE
82 (140)
Speciation
164331 Global Line & Equip. Thore Andersson
2 2022.01.19,
7.8 Reset-button HMI
Following pictures shows have the "Reset" - button will behave.
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7.9.3 Result Template
HMI Page to show important information that is sent in the “Result” message.
Fi
F3
FS
| |
A|
©
F11
F13
Result
Material Identifier
mg = |
[Operator | rag | PartNumber Serialtumber Supplied |
| eo | |
| Raw |
| PartNumber Serialtiumber Supplierid |
| |
No of Activities: 0
‘Activity Information
ActivityiD | Actmityrype | Status | Manualapproval | Operatorid |Partfunctionselected| Operatorid
| 0 | o | 0 | Lo |
[0 | oped Ld
[0 | oped Ld
[0 | oped Ld
[0 | oped Ld
[| op Ld
F2
F4
F6
Fs
F10
F12
F14
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HEX
DEC
HMI text
Comment
Suggested Solution
2) Configuration error - Wrong Contract ID is set in
FC7001
50A
1290
INT Rcv 3510: Message not empty at start
Statemachine has been activated but there is data in
message
Check if the template for this message is empty
50C
1292
INT Snd 3509: Send block active
Sendblock that is connected to the statemachine is not
in correct state
Send block is active, probably internal error. Contact
the VDcom group
1) Check link between statemachine and send block
2) Most likely an error in the sendblock
50D
1293
INT Rcv 3510: Receive block active
Receiveblock that is connected to the statemachine is
not in correct state
Receiveblock is active, probably internal error.
Contact the VDcom group
1) Check link between statemachine and send block
2) Most likely an error in the sendblock
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File: D0_Obligations%20suppl_purch%20v2.1.docx
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Context: Contract Appendix D
The supplier’s and the purchaser’s respective obligations
Project: MEPX
EOL and COP/AUDIT
Issue: 2.1
Change log| Station | Type of change | Date | Added in version | Signature |
| -------- | -------- | -------- | -------- | -------- |
| Created document | 2021-12-08 | 1.0 | Karl Sjöstrand |
| Annual update | 2022-11-23 | 2.1 | Karl Sjöstrand |
| | | | |
| | | | |
| | | | |
| | | | |
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Context: 62 | Electrodes | ☒ | ☐ | ☒ | ☐ | |
63 | Electrical energy 400 V, 3- phase | ☐ | ☒ | ☐ | ☒ | |
64 | Electrical energy 230 V, 1- phase | ☐ | ☒ | ☐ | ☒ | |
65 | Oil, lubricants | ☐ | ☒ | ☐ | ☒ | Except first filling taken care of by supplier |
66 | Compressed air | ☐ | ☒ | ☐ | ☒ | Capacity, pressure: |
67 | Water, including piping, etc | ☐ | ☒ | ☐ | ☒ | Quality, quantity/capacity, pressure: |
68 | Drainage | ☐ | ☒ | ☐ | ☒ | Type, capacity: |
TEST MATERIALS | | | | | |
69 | Consumption goods and wear details before warranty period starts | ☐ | ☐ | ☐ | ☐ | NA |
CLEANING ETC | | | | | |
70 | Cleaning of the Plant before painting | ☒ | ☐ | ☒ | ☐ | |
71 | Cleaning of the Plant at taking over | ☒ | ☐ | ☒ | ☐ | |
72 | Cleaning material | ☒ | ☐ | ☒ | ☐ | |
73 | Removal of scrapped materials, waste, rubbish etc. | ☒ | ☐ | ☒ | ☐ | Packaging material to be handled by VCC (incl. cost) |
74 | Waste material dangerous to environment | ☒ | ☐ | ☒ | ☐ | To be handled in accordance with municipal refuse collection regulation |
SECURITY ETC. | | | | | |
75 | Security personnel, guarding the Plant Site | ☐ | ☒ | ☐ | ☒ | |
76 | Fire-fighting equipment | ☐ | ☒ | ☐ | ☒ | |
77 | Notices, signs etc. at the Plant Site | ☐ | ☒ | ☐ | ☒ | |
78 | Fire-watcher during work with machines etc. liable to cause fires | ☐ | ☒ | ☐ | ☒ | |
MAKING GOOD OF DEFECTS IN THE PLANT | |
79 | Repair or replacement of parts of the Plant | ☒ | ☐ | ☒ | ☐ | |
80 | Transport from/to the Plant Site of defective/repaired or replaced parts | ☒ | ☐ | ☒ | ☐ | |
81 | Travel, board, lodging for the Supplier’s personnel | ☒ | ☐ | ☒ | ☐ | |
82 | Travel, board, lodging for the Purchaser’s personnel | ☐ | ☒ | ☐ | ☒ | |
83 | Disassembly of the Plant | ☒ | ☐ | ☒ | ☐ | |
84 | Erection of the plant | ☒ | ☐ | ☒ | ☐ | |
85 | Chasing, making holes, making good | ☒ | ☐ | ☒ | ☐ | |
86 | Disassembly and erection of parts not belonging to the Plant | ☐ | ☒ | ☐ | ☒ | |
87 | Supplies | ☐ | ☒ | ☐ | ☒ | Type, quantity, etc:
|
88 | Inspection and testing performed by independent inspector as required by Authorities | ☐ | ☐ | ☐ | ☐ | NA (CE-conformity) |
89 | Inspection and testing performed by independent inspector as required by the Purchaser | ☒ | ☐ | ☐ | ☒ | |
90 | Inspection and testing performed by independent inspector as required by the Supplier | ☒ | ☐ | ☒ | ☐ | |
91 | Test materials | ☐ | ☒ | ☐ | ☒ | Type, quantity, etc:
|
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Type of document
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Aurobay (Powertrain Engineering Sweden AB)
Instruction
Chief Information Security Officer
Name of document
Version
Issue date
Page
Operational Technology Security Conditions
1.0
2022-04-25
4 (11)
Information Classification: Internal
OT Security Conditions
Page 4(11)
General
The purpose of this document is to ensure the Availability, Security and Safety of Operational Technology (OT)
Systems and Infrastructure supporting Aurobay’s factory and production environments. The document is an extract
of Aurobay’s information security Policies and Directives and presents the minimum-security requirements and
measures for OT-Systems.
The conditions are primarily written for Operational Technology Systems that goes by the definition: “Operational
technology (OT) is hardware and software that detects or causes a change, through the direct monitoring and/or
control of industrial equipment, assets, processes and events”.
The conditions are based on the seven Foundational Requirements (FRs) described in IEC 62443‑1‑1 along with the
defined Security Requirements (SRs) from IEC 62443-3-3. Both FRs and SRs is being referenced throughout the
document. Some controls are adapted towards Aurobay’s Operational Technology needs. The conditions do not
supersede any additional security or safety requirement that might be mandatory for the implemented System.
Section 1: Definitions
“Agreement” means the agreement (including all annexes, appendixes and amendments) to which these OT
Security Conditions are attached to.
“Asset Owner” individual or company responsible for the System or function. The term "Asset Owner" is used in
place of the generic term "end user" or “System Owner” to provide differentiation.
“Integrity” property of protecting the accuracy and completeness of assets.
“Product Supplier” manufacturer of hardware and/or software product.
“System” is used to specify the System under consideration along with its hardware and software components.
Throughout the document System refers to the installation, upgrade or extension of new or already existing
Operational Technology Systems in Aurobay’s infrastructure. The addition of “OT” before “System” is used whenever
needed to differentiate between other Aurobay Systems (such as IT-Systems) and the System under consideration
(Operational Technology).
“System integrator” person or company that specialises in bringing together component subsystems into a whole
and ensuring that those subsystems perform in accordance with project specifications.
“Zone(s)” grouping of logical or physical assets that share purpose and security requirements, common to be a
limited network range with boundary control (limited data flow).
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Instruction
Chief Information Security Officer
Name of document
Version
Issue date
Page
Operational Technology Security Conditions
1.0
2022-04-25
5 (11)
Information Classification: Internal
OT Security Conditions
Page 5(11)
Section 2: FR 1 – Identification and authentication control (IAC)
| | Rationale: Asset Owners will have to develop a list of all users (humans, software processes and devices) and to determine for each System component the required level of IAC protection. The goal of | |
| |IAC is to protect the System by verifying the identity of any user requesting access to the System before | |
| -------- | -------- | -------- |
| | activating the communication. | |
a) SR 1.1 - The System shall provide the capability to identify and authenticate all human users. This capability
shall enforce such identification and authentication on all interfaces which provide human user access to the
System to support segregation of duties and least privilege.
i. Accounts within the System should be role based and follow a logical structure; User Account, Group
Account (e.g. operator account), Administrator Account (e.g. a maintenance engineer account), Service
Account/Technical Account (e.g. an account for solutions and OPC integrations).
ii. The account names themselves should indicate type of account, e.g. Operator accounts, Group accounts
and Service accounts should preferably indicate purpose of the account.
iii. Accounts should be limited based on their role and only available for intended users, e.g. Operator account
should be limited to only necessary functions within the System.
b) SR 1.3 - The System shall provide the capability to support the management of all accounts by authorized users,
including adding, activating, modifying, disabling and removing accounts.
i. For Systems utilizing password-based authentication, the System shall provide the capability to enforce
configurable password strength based on minimum length and variety of character types.
ii. All passwords (authentication data) shall be managed as confidential data and stored encrypted within the
device, application, System or System documentation (and not kept in clear text).
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Instruction
Chief Information Security Officer
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Version
Issue date
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Operational Technology Security Conditions
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Information Classification: Internal
OT Security Conditions
Page 8(11)
Section 5: FR 4 – Data confidentiality (Encryption)
| | Rationale: Some System-generated information, whether at rest or in transit, is of a confidential or sensitive nature. This implies that some communication channels and data-stores require protection | |
| |against eavesdropping and unauthorized access. | |
a) SR 4.1 - The System shall provide the capability to protect sensitive or confidential information for which explicit
read authorization is supported, whether at rest or in transit.
i. Protection of information, at rest or in transit, can be maintained through encryption, authentication and
access management (such as passwords) among other techniques. It is crucial that the technique chosen
considers the potential ramifications on System performance and the capability to recover from System
failure or attack.
ii. The System shall provide the capability to protect sensitive or confidential information traversing any
network Zone boundary. Through encrypted communication or authentication and access management
(such as passwords) among other techniques.
b) SR 4.3 - If cryptography is required, the System shall use cryptographic algorithms, key size and mechanisms
for key establishment and management according to commonly accepted security industry best practices and
recommendations.
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Instruction
Chief Information Security Officer
Name of document
Version
Issue date
Page
Operational Technology Security Conditions
1.0
2022-04-25
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Information Classification: Internal
OT Security Conditions
Page 9(11)
Section 6: FR 5 - Restricted Data Flow (Network Architecture)
| | Rationale: Network segmentation is used by organisations for a variety of purposes, including cyber security. The main reasons for segmenting networks are to reduce the exposure, or ingress, of network | |
| |traffic into a System and reduce the spread, or egress, of network traffic from a System. Aurobay | |
| -------- | -------- | -------- |
| | Operational Technology (OT) Systems and networks should be segmented and segregated from Aurobay | |
| |IT-business networks, WAN environments and external solutions using firewall technology. | |
a) SR 5.1 - The System shall provide the capability to logically segment OT-System networks from non-OT-System
networks and to logically segment OT-System networks from other OT-System networks.
i. The System integrator shall together with the Asset Owner and Product Supplier determine if the System
shall be part of an already existing network Zone, or if a new network Zone is to be created.
ii. Network Zone and segmentation criteria shall be determined by the Product Supplier or System integrator
and Asset Owner. The decisions shall be documented in the technical project specification with minimum
areas covered:
•
System IP address - The System (network) should have an IP-address range assigned or approved by
Aurobay ensuring that the network segment is routable allowing Aurobay to align the System with the
overall network architecture of Aurobay and the manufacturing site.
•
Integrations – To secure integrations between the System zone and other network Zones the System
Integrator shall specify any (ingress and/or egress) integrations needed across the System network
Zone boundary (such as, remote access, update services and MES integrations).
b) Aurobay’s managed remote access should always be evaluated as remote access method before considering a
Product Supplier’s or System integrator’s remote access method. Any third party, Product Supplier or System
integrator solution (not Aurobay standard) must be reviewed by Aurobay before implementation.
c) If the System is installed in an air-gaped network (without any connections to other networks Zones) the System
integrator or Product Supplier shall verify the physical isolation during site acceptance test.
d) SR 5.2 - The System shall provide the capability to monitor and control communications at Zone boundaries to
enforce the compartmentalization defined in the risk-based Zones and conduits model in IEC62443.
i. All boundaries implemented with firewall technology between the System network Zone and Aurobay IT-
business networks and oth
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Context: Contract
Price
shall
be
correspondingly
adjusted upwards or downwards.
6.
INTELLECTUAL PROPERTY RIGHTS,
TRADEMARKS, LOGOTYPES ETC.
6.1
Contractor warrants to Purchaser that it has and
will maintain sufficient rights and interests in all
Intellectual Property related to the Works
necessary to fulfil its obligations and grant any
rights hereunder.
6.2
Contractor
shall
indemnify
Purchaser,
its
Affiliates and representatives from and against
any and all losses, damages, costs and expenses
incurred as a result of any and all claims, suits,
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Context: 4 (16)
2021-10-25
actions or proceedings (each a “Claim”) brought
against Purchaser, its Affiliates or representatives
arising out of an allegation that the Works (or any
use or other activity related thereto) infringe any
Intellectual Property of a third party. Purchaser
shall (i) notify Contractor without undue delay in
writing of any Claim; (ii) allow Contractor to
control the defence of and potentially settle such
Claim; and (iii) provide reasonable assistance (at
Contractor’s expense) in connection thereto.
6.3
Contractor and its subcontractors may not use
any of Purchaser’s trademarks or logotypes
(whether for advertisement, exhibitions or any
other purpose) without the prior written consent
of Purchaser and, if consent is given, strictly in
accordance with the explicit instructions and
requirements of Purchaser.
7.
ENVIRONMENTAL MATTERS
7.1
7.2
7.3
7.4
Purchaser strives to strategically implement a
“circular economy”, which is why Contractor shall
adopt a holistic view of the environmental impact
that the Works may have, taking into account the
waste hierarchy and the complete life cycle of the
Works. Contractor shall take all reasonable steps
to protect the environment in compliance with
applicable laws, rules and regulations and
Purchaser’s reasonable instructions.
Contractor shall continuously and without delay
provide Purchaser with all information and
documentation (in the local language of
destination of the Works, if not otherwise
requested by Purchaser) required by applicable
laws, rules and regulations. The documentation
shall
be
submitted through https://
www.aurobay.com/supplier/.
For Works purchased outside the European
Economic Area and subject to any REACH-
regulation (European Union (EC) 1907/2006
concerning
Registration,
Evaluation
and
Authorization of Chemicals) being applicable,
Contractor shall take – and confirm in writing to
Purchaser that it has taken – the importer role
by nominating a so-called Only Representative
to fulfil the obligations of importers under
REACH.
Contractor shall keep Purchaser informed of any
Works that are classified as dangerous goods
under applicable laws, rules and regulations.
That information
shall
be
submitted
by
through https://www.aurobay.com/supplier/.
7.5
Further, Contractor shall appoint a single
pointof contact regarding such Works and
inform Purchaser thereof.
Upon Purchaser’s request, Contractor shall
provide Purchaser with a complete sustainability
assessment note in substance and form
reasonably acceptable to Purchaser.
8.
AUDIT RIGHTS
8.1
Each Party shall continuously inform the other
Party, in written English, on all matters that are
of importance to its performance under the
Agreement.
8.2
Upon Purchaser’s request, Contractor shall on a
monthly basis provide Purchaser with statistics
on performed work, costs, delivery performance
and any other information which Purchaser may
reasonably reque
####################
File: Orgalime%20SE01%20Addendum%202021-10-25.pdf
Page: 7
Context: matter.
15.14 No amendment of this Agreement will be
effective unless it is In Writing and signed by both
Parties.
15.15 No failure by either Party, at any time, to require
the other Party to perform shall in any way affect
the right to require such performance at any time
thereafter, nor shall the waiver of either Party of
a breach under the Agreement constitute a
waiver of any later breach of the same or any
other provision.
####################
File: Orgalime%20SE01%20Addendum%202021-10-25.pdf
Page: 14
Context: Contractor has fulfilled his obligations in respect of a
defect when he (i) delivers to the Purchaser a duly
repaired or replaced part or, where applicable, (ii)
reimburses the Purchaser for the costs or expenses
(including, for the avoidance of doubt, those set forth
in Clause 57 of the General Conditions as amended by
this Addendum) incurred by him in connection with
remedying the defect himself or employing a third
party to remedy the defect in accordance with
paragraph 3 of this Clause 55 of the General
Conditions.
57.
Clause 57 of the General Conditions is deleted
and replace by the following:
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Functional reliability – Material (example see page 3)
| Name | Make | Type/Standard |
| -------- | -------- | -------- |
| | |
| | |
| | |
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Note:
Maintainability - Reparability n/a
Slides and guides ☐
☐ It is possible to check if a guide runs heavily. J
State how:
☒ The reference positions are marked out on the guides. J
State how: By Nonius plates
☒ How to change linear encoders is described in the maintenance manual. J
☐ Linear encoders are equipped with a pneumatic overpressure, for contamination protection. J
☒ It is possible to lock the vertical slide unit mechanically during maintenance work. J
☐ It is possible to lock the vertical slide unit's counterweight mechanically during maintenance work. J
☒ It is possible to adjust the guide runners (rollers). J
☐ Traditional slide is equipped with a wedge, for gap adjustment. J
Note:
Additional about Slides / guides
Note:
FixturEs / CLAMPing
Functional Reliability - Design n/a
State what type of clamping device and power supply is used? ☒
Example on clamping: Chuck, Support, Steady rest, Fixture, etc.
Example on media: Hydraulic, Pneumatic, Electric, Disc spring, etc.
| Type of clamping device | Type of media |
| -------- | -------- |
| |
| |
Note:
Clamping unit / fixture ☒
☐ The clamping unit is connected to the central lubrication system. J
☐ The clamping unit remains in position in case of power failure. J
☐ There is positive pneumatic pressure in the fixture, to prevent dirt/fluid from entering the unit. J
☐ There is a drainage hole drilled, to allow fluid drainage. J
☐ There is flushing through the clamping shoulders, to prevent dirt/swarfs on clamping surfaces. J
☐ There are reference washers for index and clamping shoulders, to simplify aligning. J
☐ The clamping unit/fixture is screwed and pinned to the standJ
☐ There is part seat monitoring of the work peace. J
State how:
☐ There is clamping control. J
State how:
☐ Measuring protocol of fixtures will be delivered. J
Note:
Functional Reliability – Material (See example on page 3)
| Name | Make | Type/Standard |
| -------- | -------- | -------- |
| | |
| | |
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Note: l/min
Are main valves chosen to prevent pressure peaks ☒
☐ YesJ
☐ NoL
Closing time: ms
Opening time: ms
Functional reliability – Material /example see page 3)
| Name | Make | Type/Standard |
| -------- | -------- | -------- |
| | |
| | |
| | |
Note:
Maintainability - Reparability n/a
Pumps ☒
☐ The pump is possible to bleed. J
☐ The pump is fitted with a so called spacer fitting between the motor and pumpJ
☐ The pump motor is equipped with set screws to simplify alignment motor/pumpJ
Note:
Valves ☒
☐ There are signs indicating the status of the valve, e.g. open, closed, in operation, emptying tank etcJ
Note:
Pipes ☒
☐ Manometers are fitted on pressure pipes. J
☐ Pipes are marked with flow direction and type of fluid. J
☐ Flowmeters are fitted on critical flows. J
Note:
Additional about Cutting fluid / Chip disposal
Note:
Special equipment
Functional reliability - Design n/a
Liquid sealing ☒
State the type of applying method. (Rotospray, string, screening, etc)
State:
☐ The machine does not have to stop production during change of chemical. J
☐ It is designed according to the principal "touch free change" of the chemical. J
Note:
Marking equipment ☒
State what type of marking method is used. (Needle stamping, scribing, painting, laser, etc)
State:
☐ The marking equipment's stand or holder is so rigid that it cannot vibrate or "sway"J.
☐ Laser marking equipment's working area are encapsulated so no light can get out. J
Note:
Identification equipment ☐
State what type of identification method is used. (Vision camera, data chip, mechanical, etc.)
State:
☒ A vision camera's stand or holder is so rigid that it can not vibrate or "sway"J.
Note:
Nutrunners ☒
☐ The nutrunners are mounted in such a way that their cabling are fixed. (part moves to nutrunner) J
☐ Moving cabling is mounted so that no wear occurs. J
☐ Calibration protocol will be delivered with the final documentation. J
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Additional about Washing equipment
Note:
Cutting fluid / chip disposal
Functional reliability - Design n/a
How are chips disposed from machine? ☒
☐ Chip conveyor
State type:
☐ Cutting fluid
☐ Other
State:
Note:
Cutting fluid pumps ☒
☐ There are shut-off valves before and after the pumpJ
☐ There are compensators before the pumpJ
☐ There are compensators after the pumpJ
☐ There are check valves on the pressure pipesJ
☐ There is an eccentric cone (flat upper edge) on the suction pipeJ
☐ There are no bends directly before or after the pumpJ
☐ The pumps are frequency controlledJ
☐ The pumps are equipped with softstart K
----media/image2.wmf----
Note:
Cutting fluid tanks ☒
☐ All return pipes discharge below the minimum fluid level. J
☐ The tank is divided internally between suction and return sides. J
☐ The tank is equipped with level glass. J
☐ The tank is equipped with identification label stating the volume and type of tank (dirty/clean )J
☐ The tank is equipped with automatic filling of freshwater. J
☐ The pipe of freshwater filling ends over the top level of the tank. J
☐ There is an inspection hole to allow cleaning. J
☐ The suction pipe’s connection to the tank is made according to Fig A.
☐ The suction pipe’s connection to the tank is made according to Fig B.
☐ The lowest fluid level is twice the diameter of the suction pipe above the inlet of the suction pipe,
see fig. A and B.
Fig. A Fig. B
----media/image3.wmf---- ----media/image4.wmf----
Note:
What type of filter is used? ☒
☐ Cartridge filter (single) K
☐ Cartridge filter (changeable filter) J
☐ Back flush filterJ
☐ Filter basketK
☐ Filter bagK
☐ Band filterJ
☐ Centrifugal filterK
☐ Other
State:
Note:
Is there an oil separator? ☒
☐ Yes
State type:
☐ No
Note:
Is a chip-crushing mill used? ☒
☐ Yes
☐ No
Note:
Is a chip compressor used? ☒
☐ Yes
☐ No
Note:
What is the maximum flow? ☒
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Note:
Maintainability - Reparability n/a
Clamping unit (fixture)? ☒
☐ There is a master for setting and alignment. J
☐ It is possible to check the clamping force. J State how.
☐ The nominal/max clamping force value is stated in documentation. J
☐ It’s possible to remove fixture/clamping device as a unit, without disassembling it. J
☐ It is possible to, during maintenance, lift workpiece in and out. J
☐ There are screw holes for lifting eyebolts. To simplify dismount from machine. J
☐ There is a special tool needed for the part seat monitoring system. J
Note:
Additional about Fixtures / Clamping
Note:
Handling and transportation
Functional Reliability - Design n/a
Horizontal transportation ☐
☒ What type of transportation? (roller conveyor, chain conveyor, etc)
State: Accumulating pallet conveyor
☒ The transport's guiding to work piece is hardenedJ
☒ The transport is equipped with drip traysJ
☒ The legs of the base frame are adjustable. (vertically) J
☒ The transport is equipped with automatic chain/belt tensionJ
☒ There are mechanical stops at the end of the transportJ
☐ The horizontal transportation is equipped with impact cover where there is manual loading/unloading, to prevent damage (on conveyor sides). J
☐ The legs are equipped with impact cover, where there is loading/unloading with forklift. J
Note:
Stop/separation device ☐
☒ What power supply is used for stop/separation device? (pneumatic, hydraulic, electric, etc.)
State: Pneumatic
☒ The stops are fixed to the stand with pin, wedge or otherJ
☒ The stops are designed to withstand maximum technical loadJ
☐ The stops are provided with bumpersJ
☒ Stops remain in position at power failureJ
Note:
Locating/fixing device ☒
☐ How is locating/fixing carried out?
State:
☐ What power supply is used for locating/fixing device? (pneumatic, hydraulic, electric, etc.)
State:
☐ The locating/fixing devices are fixed to the stand with pin, wedge or otherJ
☐ Locating/fixing devices remain in position at power failureJ
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Note:
Maintainability - Reparability n/a
Machine base frame ☐
☐ Have "zero line marks", that states the coordinates (X/Y-axis), for aligning of the machine. J
☒ The "zero line" is stated in foundation layout. J
☐ Have a flat surface for a magnetic foot, for aligning of the machine and it's units. J
☒ Have a flat surface for a spirit level, for aligning of the machine and it's units. J
Note:
How will maintenance work on a high level be performed safely (>2000mm)?
☒ From a fixed maintenance platformJ
☐ OtherKState:
☐ There is no work over 2000mmJ
Note:
All necessary safety devices for maintenance work are included?
☒ YesJ
☐ OtherK state how:
☐ NoL
☐ There are no safety devices neededJ
Additional about Base frames
Note:
Machine covers
Functional reliability - Design n/a
Safety fence/covers ☐
☒ The guard is designed to contain and withstand ejected parts from workpiece, machinery, or tool
☒ The guard is designed to protect the operator to reach hazard zone
☐ The guard is designed for another purpose specify
☐ The guards equipped with safety glass to contain and withstand ejected parts from workpiece, machinery or tool is specified on a machine layout. J
☐ There are safety glass with limited lifetime L
State change interval:
☐ There are "guillotine type" hatches/doors on the machineL
☐ The “guillotine type hatches/door are equipped with a locking device.
State how the locking is performed:
Note:
Functional reliability – Material (See example on page 3)
| Name | Make | Type/Standard |
| -------- | -------- | -------- |
Safety fence | SSP | Steel grating |
Safety door | SSP | Manual swivelling door |
Safety switch | Euchner | Type MGB... |
Overhead machine door in case of parallel machines/ Overhead maintenance door per gantry | FLT | Pneumatic operated sliding door |
Safety switch | Euchner | CES... |
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Note:
Roller conveyor ☒
☐ There are accumulative rollers
☐ The accumulating rollers have adjustable friction drive
State how:
☐ There are fixed rollers
☐ There are rollers with guide flange on
☐ The rollers are hardenedJ
☐ The rollers have ball bearingsJ
☐ The rollers are pre lubricated for lifeJ
Note:
Vertical transportation ☒
☐ What type of vertical transportation? (Elevator, lift table, etc)
State:
☐ There is weight equilibration. (pneumatic, hydraulic, counterweight, etc)
State type:
☐ There is a redundant system for the lifting cables. (wire, belt, etc) J
State type:
☐ The vertical transport device is dedicated to carriage of passengers.
☐ There is fall protection. J
☐ There is a supporting device attached to the elevator column.
☐ The vertical motion is equipped with mechanical hard stops. J
Note:
Transfer function trough machine ☐
☒ What type of transport is used? Transfer (lift and carry), Gantry, etc.
State: FLT standard gantry type LGR4
☐ There is turning and tilting of work piece in machine. K
☒ Lifting motion remains in position in case of power failure. J
Note:
Tilt/turntable ☒
☐ What type of tilt/turntable is used?
State:
☐ The turntable is equipped with a safety clutch.
Note:
Grippers ☐
☒ What power supply is used? (Pneumatic, hydraulic, etc)
State: Pneumatic
☐ Gripper has multifunctional use, lifting both work piece and packing materials. K
☒ The gripper is fixed to the stand with key pin or similar, to simplify aligning. J
☒ The gripper fingers are hardened. J
☒ The gripper fingers have changeable inserts. J
☒ Gripper remains in position in case of power failure. J
☐ The gripper is equipped with a tool change system. K
☒ There is a sensor to check the gripper status shut and empty. J
☒ There is a sensor to check the gripper status shut with material. J
☒ There is a sensor to check the gripper status open. J
Note: Standard lever gripper: The endeffector is power fail safe, the clamping force is obtained by means of
spring pressure within the gripper.
Part clamping pneumatically.
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Gripper width adjustment: Gripping width parallel adjustable by 2 x 80 mm servodriven adjustment unit,
adjusting speed 30 mm/sec.
Adjustment unit based on the FLT standard gripper module “Motorgrip” size 4.
Adjustment controlled by Siemens servodrive 1FK7…, power transmission via
trapezoidal spindle.
Pallets ☐
☒ What type of material? Steel, Aluminium, etc.
State: Basis pallet made of aluminium, workpiece touching parts made of hardened steel
☒ What is the weight of the pallet?
State: appr. 15 kg
☐ The pallet is used as fixture in the machine.
☐ Aluminium pallet; threaded holes are equipped with thread inserts. J
☒ All guides on pallet are hardened, e.g., index holes, stop lugs, etc. J
☒ The pallet has no moving components attached, e.g. bearings, shock absorbers, etc. J
☒ No holes (dirt/water collector) such as recesses, allen screws, etc points upwardsJ.
☐ The pallet is id marked, with unique marking on each pallet. J
☐ The pallet is equipped with bumpers. State:
☒ All screws are locked and secured. J
☐ All screwed on wear parts are fixed in position. (for easy exchange) J
☐ The escort memory is accessible and replaceable with work piece still on the pallet. J
Note: Aluminium pallet has no threaded holes its with bolt and nut.
Component feeders ☒
Which types are used? Vibrator feeder, Step feeder, Conveyor belt, Stacker magazine, Other
State:
What power supply is used for component feeder? (Pneumatic, hydraulic, electric, etc.)
State:
☐ The component feeder is mechanically designed so that it is impossible for a wrong type or size of component to reach assembly positionJ
☐ The component feeder is mechanically designed so that it is impossible for a wrong oriented component to reach assembly positionJ
☐ The component feeder is designed so that the dirt, coming with the component, does not reach assembly position E.g. oil, debris, etc.J
Note:
Robot ☐
####################
File: E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx
Page: 1
Context: Note:
Maintainability - repairability n/a
Signs / labels ☐
☒All components are identification marked on the machine (with a sign) and in drawingJ.
☒All pipes and hoses are identification marked on the machine (with a sign) and in drawing. J
☒All set values on pressure switches, etc are stated on the machine (with a sign) and in drawingJ.
Note:
Additional about Pneumatics
Note:
Hydraulics
Functional reliability - Design n/a
Aurobay/VCPC requires performance level (D) and category (3) according to EN ISO 13849-1 describe how the hydraulic system is designed to reach this level
State how:
Hydraulic system general ☒
☐ Pressure peaks do not exceed the maximum system pressure by more than 20%.J
☐ The hoses are mounted in the equipment according to DIN 20066. J
☐ The hydraulic system does not need to be cooled. J
☐ The hydraulic system is designed for a filter change interval of min 365 days. J
☐ The hydraulic system is designed with energy saving function. J
☐ The hydraulic fluid to be used, is according to Aurobay/VCPC specification. J
State:
Note:
Hydraulic tank ☒
☐ All pipe connections through the tank cap are raised (by about 20mm) and welded. J
☐ The tank has sloping bottom. J
☐ All return pipes discharge below the minimum fluid level. J
☐ The tank is divided internally between suction and return sides. J
☐ There are drip channels on the sides of the tank. J
☐ The tank is equipped with level glass and level sensor. J
☐ The tank is equipped with thermometer. J
☐ The tank is equipped with lifting eyes. J
☐ The hydraulic tank is equipped with connections for a cleaning machine. J
☐ There is an inspection hatch to allow cleaning. J
☐ The tank size is according to the principle 2-4 times the pump capacity in l/min. J
Note:
Hydraulic pump ☒
☐ The pump and motor are mounted on vibration-damping elements. J
☐ The suction and pressure sides of the pump are connected with vibration
####################
File: Orgalime%20SE01%20General%20Conditions.pdf
Page: 1
Context: This document is used under sublicense from Teknikföretagen. It may not be stored on internal or external networks.
ORGALIME SE 01
GENERAL CONDITIONS FOR THE SUPPLY AND ERECTION
OF MECHANICAL, ELECTRICAL AND ELECTRONIC PRODUCTS
Brussels, September 2001
PREAMBLE
1.
These General Conditions shall apply when the parties
agree In Writing or otherwise thereto. When the General
Conditions apply to a specific contract, modifications of or
deviations from them must be agreed In Writing.
DEFINITIONS
2.
In these General Conditions the following terms shall
have the meanings herein assigned to them :
-
"Contract” shall mean the written agreement
between the parties concerning performance of the Works, and
all appendices, including agreed amendments and additions to
the said documents.
-
"Contract Price" shall mean the payment to be
made for the Works. If erection is to be carried out on a time
basis and has not been completed, the Contract Price for the
purposes of Clauses 17, 40, 41 and 47 shall be the price for
the Plant with the addition of 10 per cent or of any other
percentage that may have been agreed by the parties.
-
"Gross Negligence" shall mean an act or omission
implying either a failure to pay due regard to serious
consequences, which a conscientious contracting party would
normally foresee as likely to ensue, or a deliberate disregard of
the consequences of such act or omission.
-
"In Writing" shall mean communication by
document signed by the parties, or by letter, fax, electronic
mail and by such other means as are agreed by the parties.
-
"Plant" shall mean all machinery, apparatus,
materials and articles to be supplied by the Contractor under
the Contract.
-
"Site" shall mean the place where the Plant is to be
erected, including as much of the surrounding area as is
necessary for unloading, storage and internal transport of the
Plant and erection equipment.
-
"Works" shall mean the Plant including the erection
and other work to be carried out by the Contractor under the
Contract. If the Works according to the Contract shall be taken
over by separate sections intended to be used independently
from each other, these Conditions shall apply to each section
separately. The term “Works” shall then refer to the section in
question.
PRODUCT INFORMATION
3.
All information and data contained in general product
documentation and price lists, whether in electronic or any
other form, are binding only to the extent that they are by
reference expressly included in the Contract.
DRAWINGS AND DESCRIPTIONS
4.
All drawings and technical documents relating to the
Works submitted by one party to the other prior or subsequent
to the formation of the Contract shall remain the property of
the submitting party.
Drawings, technical documents or other technical
information received by one party shall not, without the
consent of the other party, be used f
####################
File: Orgalime%20SE01%20General%20Conditions.pdf
Page: 2
Context: This document is used under sublicense from Teknikföretagen. It may not be stored on internal or external networks.
2
PREPARATORY WORK AND WORKING
CONDITIONS
10. The Contractor shall provide in good time drawings
showing the manner in which the Plant is to be erected,
together with all information required for preparing suitable
foundations, for providing access for the Plant and any
necessary equipment to the point where the Plant is to be
erected, and for making all necessary connections to the
Works.
11. The Purchaser shall provide in good time all
installations, and ensure that the conditions necessary for the
erection of the Plant and for the correct operation of the
Works are fulfilled. This shall not apply to preparatory work
which according to the Contract shall be performed by the
Contractor.
12. The preparatory work shall be carried out by the
Purchaser in accordance with the drawings and information
provided by the Contractor under Clause 10. The work shall
be completed in good time. In any case the Purchaser shall
ensure that the foundations are structurally sound. If the
Purchaser is responsible for transporting the Plant to the
Site, he shall ensure that the Plant is on the Site in good
time.
13. If an error or omission in the drawings or information
referred to in Clause 10 is discovered by the Contractor or
notified to him In Writing before expiry of the period
referred to in Clause 52, the cost of any necessary remedial
work shall be borne by the Contractor.
14. The Purchaser shall ensure that:
a) the Contractor's personnel are able to start work in
accordance with the agreed time schedule and to work
during normal working hours. Provided that the Purchaser
has been given notice In Writing in reasonable time, work
may be performed outside normal working hours to the
extent deemed necessary by the Contractor.
b) he has, in good time before erection is started,
informed the Contractor In Writing of all relevant safety
regulations in force at the Site. The erection shall not be
carried out in unhealthy or dangerous surroundings. All the
necessary safety and precautionary measures shall have been
taken before erection is started and shall be maintained.
c) the Contractor's personnel are able to obtain
suitable and convenient board and lodging in the
neighbourhood of the Site and have access to internationally
acceptable hygiene facilities and medical services.
d) he has made available to the Contractor free of
charge at the proper time on the Site all necessary cranes,
lifting equipment and equipment for transport on the Site,
auxiliary tools, machinery, materials and supplies (including
fuel, oils, grease and other materials, gas, water, electricity,
steam, compressed air, heating, lighting, etc...), as well as
the measuring and testing instruments of the Purchaser
available on the Site. The Contractor shall specify In Writing
his requirements concerning such cr
####################
File: Orgalime%20SE01%20Agreement_2021-08-10.docx
Page: 1
Context: Payment Terms
The Purchaser shall pay the Contract Price with:
i) 80% at Completion of Erection; and
(ii) 20% at the Actual Date of Completion.
For the avoidance of doubt, the payment under (ii) above is conditional upon the Contractor having provided the Purchaser with necessary documentation to permit the Purchaser to commission, operate, repair and maintain the Works (e.g. any information and drawings.
Payment terms shall be 60 days net from the Purchaser’s receipt of invoice. The obligation of the Purchaser to pay an invoice within 60 days from the date of the invoice does not apply if any such invoice has been sent prematurely, i.e. before the Contractor and Purchaser agrees that the work corresponding to the relevant payment has been performed. If partial payment terms applies as between the parties, the Contractor shall send each invoice representing a partial payment separately.
Invoices shall state the Contractor’s name, relevant purchase order number, invoice period and the Contractor’s bank account for payment. The Contractor shall comply with Purchaser’s invoicing instructions.
The Purchaser's VAT No. is [●].
Liquidated Damages
If the Contractor fails to deliver a Key Milestone on time as set out in the Time Schedule and the delay is not caused by circumstances which according to the Contract entitles the Contractor to an extension of the Contractual Date of Completion, the Purchaser shall, in addition to any other right in the Contract, be entitled to liquidated damages, irrespective of whether the delay is caused by the Contractor or any of its sub-contractors.
The liquidated damages shall, in respect of any delayed Key Milestone, be payable at a rate of 1.5% of the Contract Price for each commenced week of delay.
The total amount of liquidated damages for all Key Milestone pursuant to this Section 7.1 shall not exceed 7.5% of the Contract Price.
In the event that the Contractor is delayed and thus the Actual Date of Completion, in accordance with Clause 36 of the General Conditions as amended by the Addendum, occurs later than the Contractual Date of Completion and the delay is not caused by circumstances which according to the Contract entitles the Contractor to an extension of the Contractual Date of Completion, the Purchaser shall be entitled to liquidated damages, irrespective of whether the delay is caused by the Contractor or any of its sub-contractors.
The liquidated damages shall be payable at a rate of 1.5% of the Contract Price for each commenced calendar week of delay.
The total amount of liquidated damages pursuant to this Section 7.2 shall not exceed 15% of the Contract Price.
Contractual Documents
The Contract comprises of the following contractual documents: This main document signed by the Parties;
Specification of the Contract Price including hourly rates for alteration and additional work, Appendix A1
List of sub-contractors, Appendix A2
Orgalime SE01 – Addendum (European Version), Appendix A3
####################
File: E4.7%20ABB%20Standard_Specification_Aurobay_VCPC_2023.xlsx
Page: 4
Context: | Foundry Plus basic Specification | Unnamed: 1 | Unnamed: 2 | Unnamed: 3 | Unnamed: 4 | Unnamed: 5 | Unnamed: 6 | Unnamed: 7 | Unnamed: 8 | Unnamed: 9 | Unnamed: 10 | Unnamed: 11 | Unnamed: 12 | Unnamed: 13 | Unnamed: 14 | Unnamed: 15 |
|:-----------------------------------|:--------------------------------------|:-------------|:-------------|:-------------|:-------------|:-------------|:-------------|:-------------|:-------------|:--------------|:--------------|:--------------|:--------------|:--------------|:-------------------------|
| | | | | | | | | | | | | | | | |
| Option | Specification | | | | | | | | | | | | | | |
| 287-3 | Foundry Plus | | | | | | | | | | | | | | |
| 334-2 | Signs on Manipulator, ABB and Foundry | | | | | | | | | | | | | | |
| 430-1 | Upper arm covers | | | | | | | | | | | | | | |
| 908-1 | Foundry Plus Cable Guard | | | | | | | | | | | | | | |
| | | | | | | | | | | | | | | | |
| | | | | | | | | | | | | |
####################
File: E4.7%20ABB%20Standard_Specification_Aurobay_VCPC_2023.xlsx
Page: 5
Context: | Foundry Plus basic Specification | Unnamed: 1 |
|:-----------------------------------|:--------------------------------------|
| | |
| Option | Specification |
| 287-6 | Foundry Prime |
| 334-2 | Signs on Manipulator, ABB and Foundry |
| 209-196 | ABB grey standard |
####################
File: E4.7%20ABB%20Standard_Specification_Aurobay_VCPC_2023.xlsx
Page: 16
Context: | This sheet is intended for project unique comments (additional options) which have to be approved by Volvo | Unnamed: 1 | Unnamed: 2 |
|:-------------------------------------------------------------------------------------------------------------|:-------------|:-------------|
| | | |
| Option number | Column2 | Column3 |
| Option number | Description | Price |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | |
####################
File: Op150_ERAD_S700280_06.pdf
Page: 1
Context: H-H ( 1 : 1 )
H
H
TEMPLATE: ISSUE09
Powertrain Engineering Sweden AB
Skövde
PROCESS DRAWING
CAD system
Inventor,drawing may not be changed manually
Op Benämning/ Op Name
Variant
Detalj/ Part
Datum/ Date
Ritad av/ Drawn by
Godk av/ Appr by
Ritn Nr/ Draw No
Op Station
Blad/ Sheet Utg/ Rev
S-700280
A Carlsson
2021-09-06
1 / 1
06
Marie Gonzaga
150
Grinding; Journals, guide Ø & grounding Ø
Rotorshaft
GEN3 ERAD
VERKTYGFÖRTECKNING/ TOOL LIST
FÖR PRODUKTION/ FOR PRODUCTION
Nr/ No
Datum/ Date
Namn/ Name
Ändringens art/ Change
Granskad av/ Checked by
Godkänd av/ Approved by
Datum/ Date
Datum/ Date
Sign
Sign
PT H-FAB
DRIFT H-FAB
Verktyg/Tool
Nr/No Antal Pos Art.Nr/Item.No Antal/No Benämning Dimension/ Name Dimension
C
n35.0075 `0.0055
[SC]
Rz 4
A
B
n32.9875
`0.0125
251.3
10.5
S
e 0.005
u 0.004
f 0.006 A-B
e 0.005
u 0.004
f 0.006 A-B
h 0.05 E-S
Process demand
h 0.05 E-S
Process demand
Rz 4
Rz 2-8
h
0.02
A-B
e 0.008
Rz 4
(83.14)
(232.6)
Section drawing show both product finished contour and for this operation
28
n
20
n
(n35.308)
Incoming material
(n35.308)
(n33.3)
00
A Carlsson 20220516
Design changed, rotorshaft 33996774 Rev 10
n35.0075
`0.0055 [SC]
D (Ø29)
Pitch Ø
E
01
01
A Carlsson 20220830
Parallelity 0.008 was 0.006
r Ø0.01
f 0.008 A-B
e 0.005
n32.992
`0.008 [SC]
02
A Carlsson 20230111
Rotorshaft 33996774 Rev 17, inner contour change
03
03
A Carlsson 20230308
Coaxial demand on Ref.B was RunOut 0.05 to R-S
04 A Carlsson 20230405
Op station was 160
04
05
A Carlsson 20230614
SC symols added, RunOut on Ref.B was Coaxial demand
(n33.4)
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
[SC]
*) Created primarily in Op.100
**) Created primarily in Op.110
h 0.05 A-B
[SC]
**
h 0.03 A-B
*
h 0.03 A-B
[SC]
[SC]
05
####################
File: E2.4%20NC%20questionnaire.doc
Page: 1
Context: Evaluation Only. Created with Aspose.Words. Copyright 2003-2024 Aspose Pty Ltd.NCNC PROGRAM
Project informationProject name:
Aurobay/VCPC order number:
Manufacturer:
Project number Manufacturer:
Machine type/Machine types:
Contact detailsProject Manager Manufacturer (Name/Tel no./E-mail):
Project Manager Aurobay/VCPC (Name/Tel no./E-mail):
Contact person Manufacturer (Name/Tel no./E-mail):
Contact person Aurobay/VCPC (Name/Tel no./E-mail):
Technical run throughInstance 1: Before purchaseDate:
For Manufacturer:
For Aurobay/VCPC:
Instance 2: DesignDate:
For Manufacturer:
For Aurobay/VCPC:
Instance 3: VerificationDate:
For Manufacturer:
For Aurobay/VCPC:
Comment:| Point | Comments | Date | Signature |
| -------- | -------- | -------- | -------- |
All | Document updated with Aurobay brand name | 220211 | JF |
| | | |
| | | |
| | | |
| | | |
| | |
This document was truncated here because it was created in the Evaluation Mode.
####################
File: E2.3%20Questionnaire_Tooling.docx
Page: 1
Context: Note:
Is it likely that this material will cause machining problems (bad tool life, chip problems etc.)? ☐
☐ Yes
☐ No
Note:
Metal working fluids
N/A
Is the machining dry (or minimum quantity lubrication used) in this operation? ☐
☐ Yes
☐ No
Note:
Are there any machining operations where special cleaning/filtering of metal working fluid is required? ☐
☐ Yes If yes, which tool and which cleanliness is required?
☐ No
Note:
If wet machining with neat oil, which type of oil? ☐
Type of oil:
Tank volume / Fluid volume: ltr.
Note:
If MQL (minimum quantity lubrication) is used, - How? ☐
☐ Internal application through the spindle / tool
☐ One channel system
☐ Two channel system
☐ External application
Tank volume: ltr.
Oil consumption per spindle: ml/h
Note:
How is the coolant (emulsion, neat oil) applied (to the cutting zone)? ☐
☐ Coolant through the spindle / tool
☐ External coolant
☐ Possibility to adjust direction
☐ Both internal and external flow at the same time
fluid pressure: Min / Max / bar;
flow rate: Min / Max / ltr/min
Please specify principal of the design of nozzles (Grinding)
Note:
How is fluid cleanliness maintained? ☐
☐ Police filter
☐ Back flush filter ☐ Automatic back flush during production
☐ Paper band filter
☐ Endless band filter
☐ Rake filter
☐ Bag filter
☐ Plain filter
☐ Double filter
☐ Other:
Note:
Recommended / required filtration degree:
According to ISO 4406, from central system; Steel and Cast iron: 18/14, Aluminum 19/15 (Additional filtering step is often required based on tools and machining methods)
When absolute filtration is required, – degree? μm.
Note:
Pump capacity? ☐
Min pressure: bar
Max pressure: bar
Min flow: ltr./min
Max flow: ltr./min
☐ Variable pressure and flow
☐ Possibility to adjust pressure individually per tool
☐ Flow indicator
☐ Pressure indicator
☐High pressure and low pressure system active at the same time
Note:
How is chip handling arranged? ☐
☐ The machine is prepared for dry machining
☐ Compressed air is used as chip transport media
☐ The cutting fluid is used as chip transport media
☐ The machine is equipped with chip-suction device
☐ The machine is equipped with mechanical chip-transport (screw, chain, conveyor belt, etc.),
direct into a collecting vessel
☐ Other;
Note:
Is there need for a chip crusher?
Are the coolant nozzles optimized to get a consistent laminar flow? ☐
☐ Yes
☐ No
Note:
Is it possible to adjust the direction of the coolant nozzle? ☐
☐ Yes
☐ No
####################
File: E2.3%20Questionnaire_Tooling.docx
Page: 1
Context: | | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
| | | |
####################
File: I0%20Guidelines%20for%20contractors%20and%20suppliers.pdf
Page: 3
Context: 4.1 Basic requirements ....................................................................................................................... 11
4.2 Electrical work ............................................................................................................................... 12
4.3 Conduct of electrical installation ................................................................................................ 12
4.4 Electrical equipment .................................................................................................................... 12
5. Chemical handling ............................................................................................................................. 13
6. Fire protection .................................................................................................................................... 13
6.1 Aerosols ........................................................................................................................................... 13
6.2 Disconnection of fire alarm ......................................................................................................... 13
6.3 Drilling and sawing ....................................................................................................................... 14
6.4 Groundworks ................................................................................................................................. 14
6.5 Fire cells ......................................................................................................................................... 14
6.6 Flammable products .................................................................................................................... 14
6.7 Fire alarm, permanent extinguishing devices .......................................................................... 14
6.8 Fire-Extinguishing Equipment .................................................................................................... 14
6.9 Building dryers .............................................................................................................................. 14
6.10 Hot works ..................................................................................................................................... 14
6.11 Information.................................................................................................................................... 15
6.12 Emergency Alarm ........................................................................................................................ 15
6.13 Welding with gas ........................................................................................................................ 15
6.14 Washing, rinsing and cleaning .................................................................................................. 15
6.15 Setting up of temporary offices, sheds or similar ..
####################
File: I0%20Guidelines%20for%20contractors%20and%20suppliers.pdf
Page: 5
Context: 2.1.1 Definition risk works
Below are examples of work that are classified as risk works and that require SSG-training and
also examples of work that does not require the training:
| Type of work | Education required YES | NO |
| Construction work – execution, management and project management | X | |
| -------- | -------- | -------- |
| Electrical installation work – execution, management and projectmanagement | X | |
| Machine installations, electrical and mechanical - execution,
management and project management | X | |
| Property management, electrical and mechanical - execution,
management and project management | X | |
| Maintenance work, electrical and mechanical - execution, management
and project management | X | |
| Inspection - / audit work on machine - or construction installation | X | |
| Industrial Cleaning, factory/workshops | X | |
| Building of racks | X | |
| Building of scaffolding | X | |
| Piping | X | |
| Building ventilation system | X | |
| Roadworks | X | |
| Excavation work | X | |
| Paintingwork | X | |
| Forestry work | X | |
| Cleaning, public spaces | | X |
| People working in offices | | X |
| Logistics transport | | X |
| Kitchen personnel | | X |
2.1.2 How it works for the contractor
1. If the contracting company is not registered with SSG, it must be registered at
ssg.se/nyentreprenor. When registering, the contractor shall register the name of the
person at the company who will be acting as the administrator relating to SSG Entre.
2. The company will then be given access to the administration tool My SSG, where the
contractor employees are registered and Powertrain Engineering Sweden’s (Aurobay)
####################
File: I0%20Guidelines%20for%20contractors%20and%20suppliers.pdf
Page: 13
Context: Cover electrical equipment and tie down cables so that they are not laying unprotected exposed
on the floor.
Contractors are responsible for keeping their own equipment in good condition and to use it
correctly.
Never start a machine, engine, or transmission, and never energize an electrical installation until
you have assured yourself that there are not any people that can be exposed to any danger
within the danger area.
All electrical equipment must be connected to the via a RCD on the construction site
5. Chemical handling
The contractor must timely provide the Client /Construction Work Coordinator (BAS) with a list
as well as safety data sheets (SDS) of the chemical products to be used in the current contract.
The contractor is responsible for the chemical products used are in accordance with current
legislation and Aurobay´s internal regulations. SDS must be available to those using the
chemical products in the places where they are used. No chemicals may be left at NewC´s area
after finalized construction.
Chemicals and chemical waste must be stored in accordance with Aurobay´s procedures and
guidelines.
6. Fire protection
6.1 Aerosols
The local fire protection organization must always be contacted before any work begins that
might create any kind of aerosols, such as spray painting, cleaning with compressed air,
solvents, etc.
6.2 Disconnection of fire alarm
Permission is required. Permission is sought from the local fire protection organization.
####################
File: E5.0%20Equipment_documentation_requirements.pdf
Page: 5
Context: 2 Mechanic Documentation
• Mechanical BOM
• Mechanical drawings 2D 3D
• Mechanical parts list
Example of documentation found here:
[D 0Machine Documentation ORSICH
[1 1 Electric Documentation 1353
[1 2 Mechanic Documentation 2H
[1 3Programs 34855
| 4Fluid Plans aie
|] 5 Machine Layout SEHE
2020-01-28 10:27
2020-01-28 10:27
2020-01-28 10:28
2020-01-28 10:28
2020-01-28 10:28
2020-01-28 10:28
File folder
File folder
File folder
File folder
File folder
File folder
####################
File: E5.0%20Equipment_documentation_requirements.pdf
Page: 7
Context: 2 Mechanic Documentation structure explanation continues
####################
File: E5.0%20Equipment_documentation_requirements.pdf
Page: 9
Context: BOM CATEGORIES Explained
Below categories shall be included in your delivery. It is not necessary in this specific order, use your common ledger extracted from your ERP/PDM (VAULT)
Drawing of part/component shall be delivered in your
final delivery. This is for us to see in an early stage if
your delivery covers our demands. Usually nuts,
bracket and switches are excluded.
Spare and wear parts is parts that you prior and think we will need in stock to secure our production. Spare or wear part?
A Wear part is most often a part touching the detail we are producing. A typical wear part is an index or clamping finger in a
robot gripper. A Spare part is for example the pneumatic cylinder for the
robot gripper, not in touch with our product but essential for the function of our robot gripper.
details.
Drawing number of assembly
& sub-assembly drawing. For
Example 1264-0175 contains
many part drawings and parts.
For all wear parts: a
manufacturing drawing.
(stp included) Shall be
delivered.
A carry over drawing (reused) is
already in use at Aurobay/VCPC.
We want to be notified if drawing
already excists in our systems.
‚Ass. & Subassembly Drawing-| Pos-jQuanf-j Par/Drawing number [7 Partname [=] Commer-| Manufacturer /-| Spare Wearparj-] Drawing included [-| Carry over drawi
1264-0175 0 SPOOPTT x
1264-0175 15 | 4 EIS ‘Switch bracket m
1264-0175 104 | 4 OGP7O1 Switch Im 5
1264-0175 103 | 4 | _2TLA020051R5400 Adam Safety switch Adam ABB
1264-0175 2 | ı Panel 2050x1500 Panel Troax
1264-0175 101 | 2 | 28601821 for panel 2050 Post Troax 60x40, Troax
mm
12640175 6 [4 12842218 Stop w x x
12640175 5 1 1284-1296] Protection plate x
12640175 a 1 1284-1276] Stand / frame Alex x
12640175 3 1 1254-0331 Locking x
12640175 2 1 1264-0174 ‘Attachment x
1264-0175 1 a 1264-0172 Drawer x
12540172 ° Drawer x
12640172 4 2 1264-1264 Ruler x
1264-0172 3 1 1264-1262 Gable , front x
####################
File: Op100_EFAD_S700305_09.pdf
Page: 1
Context: 11.87° `3°
(n50.342)
03
A Carlsson 20221114
Redesign Op.10 affect op100, Chuck moved (meas. 83)
03
83
20° `3°
04 A Carlsson 20230113
Design changed, rotorshaft 34024900 Rev 16
04
04
04
04 A Carlsson 20230113
Meas. 17.613,15.45,Ø32.688 was 17.616,15.444, Ø32.7
05
A Carlsson 20230124
Added axial run out BB-S
05
06
A Carlsson 20230209
Measure 36.9 was 36.95, Inner contour modified
06
06
[HIC]
07
A Carlsson 20230704
[HIC] Added on RunOut demand
07
08
A Carlsson 20230904
Note added on Roundness demand (*)
08
A Carlsson 20230904
185.934 was 185.974 ,meas. to Datum 0 changed 0.04
*
*) To be measured perpendicular
to the chamfer surface.
08
08
08
08
08
08
####################
File: Machine_Details_A2253.pptx
Page: 1
Context: Confident
ial
Equipment details
Incoming / Outgoing parts
• Conveyor-system with palettes
• RFI-tags for traceability
• One palett with different positions for ERAD/EFAD
• Never two parts on the same palett
Reused machines
• Grinding machines
• Previously loaded by gantry
Machine 4
• Max height machine: 2480mm
• Load/unload height: 1350mm
Machine 5
• Max height machine: 2300mm
• Load/unload height: 1050mm
New machines
• Turning machines
• Prepared for gantry-loading
Machine 1
• Max height machine: 2050mm
• Load/unload height: 1195mm
Machine 2
• Max height machine: 2000mm
• Load/unload height: 1150mm
Machine 3
• Max height machine: 2240mm
• Load/unload height: 1350mm
2D-layout of
machines available
on request
####################
File: Op110_EFAD_S700306_11.pdf
Page: 1
Context: 04
04
04 A Carlsson 20230113
Meas.5.5,Ø29.325,Ø31.642,14° was 2.5,Ø29.025,Ø31.6,19°
04
05
05
A Carlsson 20230125
Added axial run out R-AA
Ra 2.5
06
A Carlsson 20230405
Surface demand added
06
07
A Carlsson 20230502
Measure Ø28.785, Ø33.5 was Ø29.325±0.015, Ø33.3±0.02
07
07
9°*
n28.83
5
08
08
08
08
A Carlsson 20230505
Measure Ø28.8, Ø33.4, 9° was Ø28.785, Ø33.5, 14°
08
A Carlsson 20230505
Measure Ø28.83 addaed
4.43 (n28.8-n28.83)
[HIC]
09
A Carlsson 20230704
[HIC] Added on RunOut demand
09
*) To be measured perpendicular
to the chamfer surface.
*
10
A Carlsson 20230904
Note added on Roundness demand (*)
10
A Carlsson 20230904
189.06±0.04 was 189.1±0.05, Ø26.85 was 25.85
10
10
10
####################
File: Op110_EFAD_S700306_11.pdf
Page: 1
Context: H-H
L ( 2 : 1 )
M ( 2 : 1 )
J ( 5 : 1 )
H
H
L
M
J
TEMPLATE: ISSUE09
Powertrain Engineering Sweden AB
Skövde
PROCESS DRAWING
CAD system
Inventor,drawing may not be changed manually
Op Benämning/ Op Name
Variant
Detalj/ Part
Datum/ Date
Ritad av/ Drawn by
Godk av/ Appr by
Ritn Nr/ Draw No
Op Station
Blad/ Sheet Utg/ Rev
S-700306
A Carlsson
2021-07-12
1 / 1
11
Marie Gonzaga
110
Turning; DriveEnd side complete
PostProcessGauge
Rotorshaft
GEN3 EFAD
VERKTYGFÖRTECKNING/ TOOL LIST
FÖR PRODUKTION/ FOR PRODUCTION
Nr/ No
Datum/ Date
Namn/ Name
Ändringens art/ Change
Granskad av/ Checked by
Godkänd av/ Approved by
Datum/ Date
Datum/ Date
Sign
Sign
PT H-FAB
DRIFT H-FAB
Verktyg/Tool
Nr/No Antal Pos Art.Nr/Item.No Antal/No Benämning Dimension/ Name Dimension
(n36)
Outgoing material from operation
(incl. finish contour and remaining stock from op)
DD1
0
13.5 `0.2
53.85 `0.2
19.672 `0.05
30.35 `0.2
36.255 `0.15
(41.442)
70.825 `0.1
83.15 `0.05
(n19.26)
1 `0.1
(2.82)
n35.308
`0.1
n27.61
`0.1
n31.642
`0.1
n33.4
`0.015
30° `3°
R1.3
R
(0.57)
n28.8
`0.015**
M1
(288.74)
| 0.02 R-AA
h | | | | | | | | | | | | | | | | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| | | | | | | | | | | | | | | | | |
| | | | | | | | | | | | | | | | | |
T B D
R1.3
20
n
*) Angle become 19°
after cold forming Op.130
**) Ø28.8 (Calculated)
expand in Op.130
and grinded in Op.160
16° `3°
15° `3°
(n22.71)
n34.472
`0.2
n26.85
`0.2
(n23
)
Weight; 1.816 kg
Incoming material
Weight; 2.01 kg
0.17
R2
(n50.342)
0.4 `0.15
R1.3
0.85 `0.1
(n35.308)
0.025 R-DD2
h 0.025
R-AA
n49.034
`0.1
7.5° `3°
20° `3°
28
n
S
75° `5°
30° `3°
60° `1°
120° `3°
h
0.1
DD1-DD2
e 0.025
Ra 2
AA
DD2
C
20
189.06 `0.04
30° `3°
Ra 1.6
03
55
(n16)
0.2
0.15
0
128
03
03
04 A Carlsson 20230113
Design changed, rotorshaft 34024900 Rev 16
04
04
04 A Carlsson 20230113
####################
File: E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf
Page: 3
Context: axlar eller framåtböjd rygg, medför en ogynnsam
belastning på leder och muskler vilket innebär risk
för skadlig inverkan.
One fixed working height does not suit everyone.
Individual height adjustment must be possible where
the task so requires.
En fast arbetshöjd passar inte alla. Individuell
höjdjustering måste kunna utföras där arbets-
uppgiften så kräver.
Printed copies are uncontrolled. Print date: 2018-11-06
####################
File: E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf
Page: 4
Context: STANDARD
VCS 8003,29
Volvo Car Corporation
Issue:
Page:
2018-11
Issue 6
4(14)
The working distance is crucial for the load applied to
the body. As short a distance as possible to the
gripping and working area shall always be strived for.
Arbetsavståndet är mycket avgörande för belast-
ningen på kroppen. Ett så kort avstånd som möjligt
till grip- och arbetsyta ska alltid eftersträvas.
2.1 Static load
2.1 Statisk belastning
Static load causes an increased risk of musculo-
skeletal disorders. Static loads can occur at, e.g.,
incorrect working height, wrong working distance or
be repetitive, physically monotonous work without
adequate recovery, precision work, poor lighting,
unfamiliarity/lack of experience and stress. The static
tension inhibits muscle function. Work intensity and
work duration, as well as the number of breaks are
decisive for the muscle’s ability to recover. The risk of
static load shall be considered when planning the
working arrangements, such as job content, job
rotation and work enlargement.
Statisk belastning innebär en ökad risk för belast-
ningsbesvär. Statisk belastning kan bl.a. uppstå vid
felaktig arbetshöjd, felaktigt arbetsavstånd eller vid
repetitivt ensidigt upprepat arbete utan tillräcklig
återhämtning, precisionsarbete, dålig belysning,
ovana/bristande erfarenhet och stress. Den
statiska spänningen hämmar muskelns funktion.
Arbetsintensiteten samt arbetstidens längd och
antalet pauser är avgörande för muskelns åter-
hämtningsförmåga. Risken för statisk belastning
ska beaktas vid planering av arbetsupplägg, t.ex.
arbetsinnehåll, arbetsrotation och arbetsutvidgning.
3 Manual handling and other
exertion of force
3 Manuell hantering och annan
kraftutövning
Efforts should focus on creating variation in move-
ments and loads during work performance. The
employee, regardless of age and gender, shall be
able to work with materials, equipment, and controls
without being exposed to physical loads that are
harmful to his/her health or unnecessarily fatiguing.
Insatserna bör inriktas på att skapa rörelse- och
belastningsmässig variation i arbetet. Arbetstag-
aren, oberoende av ålder och kön, ska kunna
arbeta med material, utrustning och reglage utan
att utsättas för hälsofarliga eller onödigt tröttande
fysiska belastningar.
Printed copies are uncontrolled. Print date: 2018-11-06
Female 1560mm Male 1910mm
####################
File: E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf
Page: 5
Context: STANDARD
VCS 8003,29
Volvo Car Corporation
Issue:
Page:
2018-11
Issue 6
5(14)
To avoid musculoskeletal injuries, the total load level
should be considered (postures, movements, manual
handling and other exertion of force).
För att undvika belastningsbesvär bör den totala
belastningsnivån beaktas (arbetsställningar,
arbetsrörelser, manuell hantering och annan
kraftutövning).
3.1 Materials handling
3.1 Materialhantering
Materials handling is often a large part of the work at a
workplace and is thus of great importance to the total
load level.
Materialhantering utgör ofta en stor del av arbetet
på arbetsplatsen och har därför stor betydelse för
den totala belastningsdosen.
For recommended working distance, working height
and weight, see figures 1, 2, and 3, and table 1 in the
appendix.
För rekommenderat arbetsavstånd, arbetshöjd och
vikt, se figur 1, 2 och 3 samt tabell 1 i bilagan.
The operator shall be able to handle materials with
his/her centre of gravity near the body.
Operatören ska kunna hantera material med
tyngdpunkten nära kroppen.
Simultaneous requirements on exertion and accuracy
shall be avoided.
Samtidiga kraft- och precisionskrav ska undvikas.
The degree of compaction of the material and packing
pattern shall allow easy access and appropriate hand
grips, such as underhand grip instead of overhand
grip.
Materialets packningsgrad och packningsmönster
ska medge god åtkomlighet och lämpliga hand-
grepp, t.ex. underhandsgrepp istället för
överhandsgrepp.
3.2 Fixtures/Magazines
3.2 Fixturer/Magasin
3.2.1 General
3.2.1 Allmänt
Clamps, guide lugs and pins shall be placed so that
the operator can work with the hand close to his/her
functional base position, see figures 1, 2, and 3 in the
appendix.
Accessibility and field of vision must not be restricted
by safety fencing, clamps, guide lugs, etc.
Pedals and controls shall be designed so that a
minimum of force needs to be used during prolonged
and repetitive work.
Spännen, styrklackar och pinnar ska placeras så
att operatören kan arbeta med handen nära hans/
hennes funktionella utgångsläge, se figur 1, 2 och
3 i bilagan.
Åtkomlighet och synfält får ej begränsas av
säkerhetsstaket, spännen, styrklackar, m.m.
Pedaler och reglage ska vara utformade så att
liten kraft behöver användas vid långvarigt och
upprepat arbete.
3.2.2 Working heights for manual work in
fixture/magazine
3.2.2 Arbetshöjder vid manuellt arbete i
fixtur/magasin
When the produced part shall be loaded into a fixture
without any special requirements concerning
precision, the working height should be between
800 mm and 1000 mm. For parts that are large or
heavy, the working height should not exceed 900 mm.
Note that when loading, it should not be necessary to
lift the parts over clamps or lugs.
I de fall detaljen ska laddas i en fixtur utan några
speciella krav på precision bör arbetshöjden vara
mellan 800 och 1000 mm. För stora eller tun
####################
File: E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf
Page: 9
Context: STANDARD
VCS 8003,29
Volvo Car Corporation
Issue:
Page:
2018-11
Issue 6
9(14)
The requirements specified below shall be
considered.
Nedanstående krav ska beaktas.
3.7.1 Weight
3.7.1 Vikt
Tools shall be as light as possible considering their
function. Tool weight, torque, frequency as well as the
working distance decide if load-relieving devices are
required (e.g. load-relieving lever, suspension device
or similar).
Verktyg ska vara så lätta som möjligt med hänsyn
till funktion. Verktygets vikt, moment, frekvens och
arbetsavståndet avgör om avlastningsanordningar
behövs (t.ex. avlastningsarm, upphängningsan-
ordning el. dylikt).
Battery-powered machines shall not be used in
frequently repeated assembly work due to their weight
and reaction torques. Alternative machine type shall
be investigated.
Batteridrivna maskiner ska inte användas i frekvent
monteringsarbete p.g.a. tyngd och reaktions-
moment. Alternativ maskintyp ska undersökas.
3.7.2 Grips, handles, controls
3.7.2 Grepp, handtag, reglage
Machine/equipment shall allow a good line of sight.
Maskin/utrustning måste medge goda
siktförhållanden.
Tools shall be well balanced. The ratio between the
grip/handle and the working parts shall be designed to
avoid extreme positions of joints in hands and arms.
Verktyg ska vara välbalanserade. Förhållandet
mellan handtaget och de arbetande delarna ska
vara avpassat så att man kan undvika ytterläges-
belastningar i händer och armar.
Grips/handles shall be long enough to fit the entire
width of the hand (incl. glove, when used), i.e. > 120
mm. Different handle sizes shall be considered to suit
both big and small hands.
Handtag ska vara så långt att hela handens bredd
ryms (inklusive handske när sådan används),
d.v.s. 120 mm. Olika storlekar på handtag ska
beaktas för att passa både stora och små händer.
Grip/handle parts shall be designed to accommodate
the requisite grips and forces so that the operator can
easily change his/her grip.
Greppdelar ska vara anpassade till de grepp och
den kraft som behövs så att det går lätt att växla
grepp.
The material in grip parts shall provide sufficient
friction also with oily/wet hands without requiring a
high spot load on hand/fingers.
Materialet i greppdelar ska ge god friktion även
med oljiga/fuktiga händer utan att ge hög punkt-
belastning i hand/fingrar.
Hand grips which require a pressure > 25 N/2,5 kP
shall be avoided.
Handgrepp som kräver > 25 N/2,5 kP tryck ska
undvikas.
All controls shall be easy to manoeuvre and easily
accessible for both right- and left-handed persons.
Samtliga reglage ska vara lätt manövrerbara och
lättåtkomliga för både höger- och vänsterhänta.
If necessary, it shall be possible to activate the starter
with the index finger and/or long finger.
Pådraget ska vid behov kunna aktiveras med pek-
och/eller långfinger.
It shall be possible to reach the reversing knob with
both the left and right hand without r
####################
File: E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf
Page: 15
Context: Standard
Appendix A to VCS 8003,29
Page 1(4)
Volvo Car Corporation
Work load, work postures, working
movements
172 cm = man/woman of average height
Fig.1
Assessment templates
Non-injurious impact
Possibly injurious impact depending on
number of movements or the duration of the
posture
Injurious impact when occurring for longer
periods of time, lengthy or often
Tabell 1 Lifting diagram*) **)
| Lifting area | A | | Lifting frequency times/hour
1-10 10 -30 30 - 60 60 -120 12,0 | 7 | 3 | 2 |
| |B | | 7,0 | 5 | 2 | 1 |
*) For higher frequencies/weights/distance an
ergonomics risk assessment is required
**) VCBC shall use:
Assembly: Before contract: Checklist “Checklista –
Miljö, media samt ergonomi för sammansättnings-
utrustning”, form No. 50751 (in Swedish only)
After contract: Checklist “Assembly follow-up”,
tab “2 Ergonomics”, form No. 50668
Stamping: Checklist: Physical work environment –
Stamping at VCBC (Volvo Cars Body Components),
form No 50431 (in Swedish only)
When handling several objects in the same work cycle, the frequency values shall be added.
When working sitting down, the mass values in the diagram shall be halved. A maximum of 7 kg shall be
lifted when sitting.
7‘
7‘
[>
####################
File: E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf
Page: 19
Context: Standard
Bilaga A till VCS 8003,29
Page 1(3)
Volvo Car Corporation
Arbetstyngd, arbetsställningar,
arbetsrörelser
172 cm = medellängd man/kvinna
Fig. 1
Bedömningsmallar
Ej skadlig inverkan
Möjlig skadlig inverkan beroende på antal
rörelser eller ställningens varaktighet
Skadlig inverkan vid förekomst längre
stunder, långvarigt eller ofta
Tabell 1 Lyft *) **)
| Lyftområde | A | | Lyftfrekvens ggr/tim
1-10 10 -30 30 - 60 60 -
120 12,0 | 7 | 3 | 2 |
| |B | | 7,0 | 5 | 2 | 1 |
*) För högre vikter/frekvenser/avstånd krävs
ergonomisk riskbedömning
**) VCBC ska använda:
Sammansättning: Innan kontrakt: Checklista –
Miljö, media samt ergonomi för sammansättnings-
utrustning, blankettnr 50751
Efter kontrakt: Checklista – Assembly follow-up,
flik 2 Ergonomics, blankettnr 50668
Pressning: Checklista; Fysisk arbetsmiljö –
Pressning på VCBC (Volvo Cars Body
Components), blankettnr 50431 (endast på
svenska)
Vid hantering av flera objekt i samma arbetscykel adderas frekvensen.
Vid sittande arbetsställning halveras vikterna i schemat. Max 7 kg får lyftas sittande.
Höjd
Avstånd
Fig. 2
Fig. 3
VOLVO Standard
Volvo Car Corpor
Bilaga A til VCS 8003,29 Page 109)
Arbetstyngd, arbetsstälninger, 172 cm = medellngd manıkvinna
arbetsrorelser
‘Bedémningsmallar
a Ej skadiginveckan
Mölig sag inverkan beroende pä antal
‘Breer eller sälningens varakighet
Stunder, lingvarigt ler ota
H Skacig invorkan vi förekomstlängre
Tabollt Lyf)"
Lomräde [Lyttrekvons gorim
1-10 |10-30 |20-50 |eo
120
if 120 7 32
8 7015 2_]ı
*) För högre vikerfrekvenserlauständ kräve
Orgonomisk ekbedömning
") VORO ska anvanda:
‘Sammansitring:Innan korvakt: Chocksta —
"Mi, media samt ergonomi för sammansättings
using, lankett 50751
Eiter konirak: Checklita ~ Assembly folow-up,
(ik 2 Ergonomics, bankeitr 50668
Pressning: Checklist: Fysisk arbotsmilé —
Pressning pä VCBC (Vovo Cars Body
Components), blankettn 50431 (endast pi Fiat
svenska}
Vid nantering av era objek samma arbelscykel adderasIrekvansen.
Vid sitande arbetstälning halvras vikterna| schemat. Max 7 kg tr fas sitande.
Heid Avständ
Fig.
Fig. 2 ®
####################
File: E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf
Page: 21
Context: Standard
Bilaga A till VCS 8003,29
Page 3(3)
Volvo Car Corporation
Frigång
arm/hand
Fig. 8
Fig. 9
Skulderrörelser
Armlyft framåt och åt sidan
Arbetsställningar som är höft/knäbelastande
Huksittande
Höftsittande
Knäsittande
Kliv
Sluttande plan
Fig. 10
Tabell 2 Skjuta- och dra-arbete − Modell för bedömning av skjuta- och dra-arbete vagnar
A. Vagnar, tyngre emballage
| Kraft (N) | | röd | | | gul | | | grön | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| Start | >300 (ca. 30 kp) | | | 300-150 | | | <150 | | |
| Kontinuerligt | >200 | | | 200-100 | | | <100 | | |
Gäller för vagnar och tyngre emballage på hjul eller skenor. Modellen ovan gäller vid bra ergonomiska
förhållanden, d.v.s symetriskt tvåhandsgerpp, väl utformade handtag placerade i lämplig höjd och under
goda omgivningsbetingelser. Om denna typ av arbete utförs ofta ska värdena ovan halveras.
Tabell 3
B. Upphängningsanordningar,
traverser, etc
| Kraft (N) | röd | grön |
| -------- | -------- | -------- |
| Start | >50 (ca. 5 kp) | <50 |
| Kontinuerligt | >40 | <40 |
Gäller för skjuta- och dra-arbete i den upprepade arbetscykeln vid för övrigt bra ergonomiska förhållanden
(traverser, upphängningsanordningar, lyftverktyg, avlastningsarmar, grimmor, handverktyg, svetstänger,
arbetsobjekt etc). Se schemat ovan.
VOLVO Standard
Volvo Car Corporation
Bilaga A til VCS 8003.29 Page 308)
Figg ara ant i
amare on
’ u
\
En. rs
Skulseröreser
Army ramät och Al sidan
Arbeisstälningar som ar hatUknabelastande
Huksitande Hottsitande Kndsitande kv Stuttande plan
Fig. 10
“Taboll2 Skjuta- och dra-arbete~ Model fr bedomning av shut ch dra-arbele agar
‘A Vagnar,tyngre embalage Kran cw) | sur CI
Star >800 30%) _]00-160 [<ıso
[Kontnuerigt |»200 200-100 [<100
Giller 6r vagnar och tyngre emballage pä hjul eller skenor. Modellen ovan gälle vid bra ergonomiska
‘erhillanden, dvs symetiskt Ivahandsgerpp, val utformade handtag placerade i mplg hod och under
oda omginingsbetingelser. Om denna typ av arbete ulés ofa ska vardena ovan halveras.
Tabor
8. Upphingingsanordingat, Kamm | zu
wravorser, dio [Start ‚>50 (ca. 5 kp) <50
Konimuerigt [40 =
Giller or skiuta- och dra-arbte i dan upprepade arbetscykeln vd fr &vrgt ba ergonomiska örhälanden
(averser, upphangeingsanordningar,lyfverktyg, avastringsarmar, grimmor, handverkty, svestanger,
atbetsobjokt ac). Se schemal ovan.
####################
File: B0%20Specification%20of%20works%20%28Machining%29.docx
Page: 1
Context: Automation
Suitable type of gantry-loader to be able to load/unload the machines within the specified cycletime.
The supplier will also be handling the RF-id reader/writer and the stops that is located on the conveyor.
The hardware (RF-id reader) will be supplied by a different supplier, but in the quotation the integration for these must be included.
The ASM-module for this shall be included in the quotation.
All gantrys have to communicate with MES.
SPC-place
There should be a SPC-box in each gantry, it will be used for frequent checks and NOK-parts.
It should be possible to re-introduce the parts into the flow by using the SPC, Aurobay will supply a datamatrix-reader (Cognex Dataman 8000-series) that can read the DM-code on the rotorshafts, the supplier must handle the integration of this reader.
Virtual Commissioning
The contractor must in the quotation state if they during design and commissioning phase use Virtual Commissioning as a way of working.
The main purpose of Virtual Commissioning is to shorten the commissioning time by enabling simultaneous activities before physical machine is completed, minimize project risks and reduce the risk for late costly modifications of the equipment.
Aurobay aims to bring activities earlier in the designs and manufacturing process of the equipment, the virtual way of working naturally promotes more remote way of working, which also opens up for more closer collaboration and frequent reconciliations during projects
Equipment specifications
Specification of suppliers
The sub-suppliers to be used, down to station level, must be stated in the quotation.
State the country used for manufacturing, both for main supplier and sub-suppliers.
Functional description
In the Functional description Aurobay is describing the functions of manufacturing equipment.
(See appendix B)
Size protection (Volume)
All machinery and equipment must be designed so that future geometrical changes of the Rotorshaft are protected for, according to the external dimensions given in Figure1 below.
If this drives a more expensive machine, please raise the question to Aurobay before proceeding in the quotation work.
----Image alt text---->A drawing of a tube
Description automatically generated<----media/image1.png----
Figure 1: Rotorshaft
Technical specifications (TS)
According to enclosure TS, the specifications given there, are to be followed.
If something in this inquiry deviate from what is specified in the TS, the specification of this inquiry is valid. (See appendix E).
Clamping, handling and gripping
All surfaces used in any equipment for handling, gripping, clamping etc have to be designed in such a way that the products aren’t damaged.
The surfaces and points that will be used have to be agreed with Aurobay, no other surfaces or points on the product can be used for handling.
Calibration
If quoted equipment includes any components which needs calibration the calibration shall be possible to perform without having to dis
####################
File: E1.1%20VCS%208010%2C39%20Safety%20of%20machinery.pdf
Page: 1
Context: STANDARD
VCS 8010,39
Volvo Car Corporation
Issue:
Page:
2020-11
5
1(22)
MACHINE SYSTEMS
Safety of machinery – General principles for design
– Risk assessment and risk reduction
Orientation
This standard is based on ISO 12100. This issue differs from issue 4 in the following:
•
Uniquely coded products must be used in some cases, as described in section 6.3.2.5.2.
•
Measures for laser safety are described in section 6.3.5.4.
•
Clarification about UL marking in the USA and CCC marking in China are described in section
5.4 Hazard identification.
•
Documentation of risk assessment and risk reduction is described in section 7.
This document constitutes Volvo Car Corporation’s (“Volvo Cars”) supplementary requirements to
ISO 12100 Safety of machinery - General principles for design - Risk assessment and risk reduction.
All deviations from this standard shall be documented and approved by Volvo Cars.
Contents
1
Scope and field of application ..................................................................................................... 1
2
Normative references .................................................................................................................... 2
3
Terms and definitions ................................................................................................................... 2
4
Strategy for risk assessment and risk reduction ....................................................................... 2
5
Risk assessment ........................................................................................................................... 3
6
Risk reduction ................................................................................................................................ 3
7
Documentation of risk assessment and risk reduction .......................................................... 12
Appendix 1 ........................................................................................................................................... 13
Appendix 2 ........................................................................................................................................... 17
Appendix 3 ........................................................................................................................................... 20
1 Scope and field of application
Where Volvo Cars’ requirements differ from ISO 12100, an indication is provided under the relevant
heading. It should be noted that the requirements in ISO 12100 still apply unless they directly conflict
with Volvo Cars’ requirements.
Harmonized standards shall apply unless otherwise agreed in writing.
Printed copies are uncontrolled. Print date: 2020-11-13
####################
File: E1.1%20VCS%208010%2C39%20Safety%20of%20machinery.pdf
Page: 11
Context: STANDARD
VCS 8010,39
Volvo Car Corporation
Issue:
Page:
2020-11
5
11(22)
If equipment/machinery cannot be provided with safe service platforms, the contractor shall provide
the means to service the equipment/machinery in a safe manner. One solution could be to use fall-
protection equipment. The chosen solution shall be agreed with Volvo Cars.
The contractor shall provide the equipment with attachment points for fall protection in accordance
with applicable standards.
If a machine contains a confined space with a hazardous atmosphere, the entrance dimensions shall
be a minimum of 600 mm.
Vertical conveyors (not for passenger transport)
Vertical conveyors shall be designed for safe maintenance. Passenger transport is prohibited. Vertical
conveyors shall be surrounded by protection to prevent objects from falling out/off.
The operator entrance on all access levels shall be through an interlocked gate, not through the
material intake. If the risk assessment determines that the gates should not only be interlocked but
also locked with, e.g., lockable door handles that automatically unlock when the area is safe to enter,
these shall be used. This is to prevent anyone from entering the vertical conveyor area before the
counterweight and the vertical conveyor have been mechanically secured.
The opening and the floor area around vertical shafts shall be marked with yellow/black warning
colours and equipped with a highly visible profile curtain.
If there is a risk of persons being pulled in and falling down at the entrance of vertical conveyors, the
distance between the fence/guard rail and the vertical conveyor shaft shall be more than 2000 mm.
Vertical conveyor shafts shall be surrounded by a fence. The inlet and outlet openings shall be
equipped with a fence/guard rail that is as high as possible.
The size of the fence’s/guard rail’s inner surface shall be determined by the transport route.
Warning signs shall be posted.
Attachment points for fall protection harnesses shall be installed on a rail system according to the
applicable standard and be within safe reaching distance.
If the operator workplace is situated directly before or after the vertical conveyor, the opening shall be
provided with protection, for example interlocked roller doors.
The design shall be agreed with Volvo Cars.
A flashing yellow light shall only be used as the warning: DANGER - MACHINE STARTING.
6.4 Information for use
6.4.1 Markings, signs (pictograms), written warnings
There shall be warning signs/markings on the floor at every location where it is possible to
unintentionally step into a safety zone, e.g. at light beams or passages between safety zones.
Where there is a crush hazard or other hazard that could lead to personal injury, the hazard zone
shall be marked with yellow/black warning colours.
Where there is a risk of objects being loaded into fixtures getting caught in roller doors while waiting
for loa
####################
File: E1.1%20VCS%208010%2C39%20Safety%20of%20machinery.pdf
Page: 19
Context: STANDARD
VCS 8010,39
Volvo Car Corporation
Issue:
Page:
2020-11
5
19(22)
Risk areas enclosed with fences and interlocked doors or other safety devices, e.g. light beams, shall
have a Personal padlock sign informing operators that padlocks shall be used to lock out power
before entering the risk area.
Printed copies are uncontrolled. Print date: 2020-11-13
####################
File: Appendix%20A1.DOC
Page: 1
Context: Specification of the Contract Price
Specify the price, broken down in relevant positions, according to your price sheet.
Options, installation, commissioning, transport (DDP/DAP), warranty and other services to be separated from machine equipment.
Hourly rates for alteration and additional work
Include price sheet with hourly rates for Hourly rates for alteration and additional work
####################
File: E4.4%20Project%20manual%20Festo.pdf
Page: 40
Context: Festo SE & Co. KG
Page 40 from 41
13.01.2022
Volvo_Cars_Skövde_Zhangjiakou_Spezification_v1.5_2022-01_EN.docx
6
Alphabetically list of approved products
ADN-... ......................................................................... 12
ADN-…-ELx-… ............................................................... 34
ADN-…-KP-… ................................................................ 28
AEN-... ......................................................................... 12
CPX-............................................................................. 18
CPX-F8DE-P ................................................................. 34
CPX-FVDA-P2 ............................................................... 35
CRVZS-... ..................................................................... 23
DACS-… ....................................................................... 27
DFLC-… .................................................................. 12, 27
DFLG-… ........................................................................ 27
DFM-... ......................................................................... 13
DFSP-... ....................................................................... 14
DFST-... ........................................................................ 14
DGC-... ......................................................................... 13
DGC-…-1H…-PN-… ........................................................ 28
DGE-...-ZR .................................................................... 15
DGSL-…........................................................................ 13
DGSL-…-C-…................................................................. 28
DGSL--…-E3-….............................................................. 34
DGST-… ....................................................................... 13
DHPS-… ....................................................................... 16
DHRS-... ....................................................................... 16
DRRD-… ....................................................................... 14
DRVS-… ....................................................................... 14
DSBC-…-…-D3-PPSA-N3 ............................................... 12
DSBC-…-…-D3-PPVA-N3 ............................................... 12
DSBC-…-C-… ................................................................ 28
DSBC-…-E1-… .............................................................. 34
DSNU-... ...................................................................... 12
DSNU-…-KP-… .............................................................. 28
EGC-...-BS .................................................................... 15
EGC-...-TB .................................................................... 15
EMCA-… ....................................................................... 15
ERMB-... .....................................
####################
File: E6.1%20MEPS%20Fundamental%20principles%20for%20process%20design%20v1_3.xlsx
Page: 0
Context: | | | | | Parts orientation in container | Purpose:
Enable efficient picking of parts/ minimise Muda of walking for operators on the line. | | | | | Packaging design enables good/ ergonomic positions of the parts in the container. | |
| | | | | | Parts orientation in the container is optimised for picking. | | √ | | |
####################
File: E4.2%20Project%20manual%20Atlas%20Copco.pdf
Page: 17
Context: 17
Document owner: Jens Lindqvist. email: jens.lindqvist@volvocars.com
Aurobay_Projekt_Manual_AtlasCopco_ver2_0
The QST nut runners are suitable for yield / gradient tightening strategy.
| | Travel | Torque
range | | Speed | Min | Weight | | Square | |
| -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- | -------- |
| Model | mm | Nm | ft lb | r/min | C-C | kg | lb | in | Ordering No. |
| QST34-20CT-T50-L150-H10 | 50 | 4-20 | 2.9-14.7 | 1000 | 34 | 2 | 4.4 | 3/8 | 8435 6010 10 |
| QST42-20CT-T50-L134 -H10 | 50 | 6-20 | 4-14 | 2000 | 43 | 3.1 | 6.9 | 3/8 | 8435 6020 10 |
| QST42-50CT-T50-L134-H13 | 50 | 10-50 | 7-35 | 700 | 43 | 3.8 | 8.4 | 1/2 | 8435 6030 10 |
| QST42-50COT-T50-L134-H13 | 50 | 10-50 | 7-35 | 700 | 31 | 4.5 | 9.9 | 1/2 | 8435 6030 20 |
| QST50-150CT-T50-L137-H13 | 50 | 30-150 | 22-110 | 380 | 51 | 5.8 | 12.8 | 1/2 | 8435 6050 10 |
| QST62-230CT-T50-L152-H19 | 50 | 40-230 | 29-170 | 330 | 63 | 10.2 | 22.5 | 3/4 | 8435 6065 10 |
| QST62-230COT-T50-L152-H19 | 50 | 40-220 | 29-162 | 330 | 45 | 12.8 | 28.2 | 3/4 | 8435 6065 20 |
| QST62-350CT-T50-L152-H19 | 50 | 50-350 | 37-258 | 220 | 63 | 10.2 | 22.5 | 3/4 | 8435 6070 10 |
####################
File: E6.2%20Questionnaire%20KPI%20and%20Principles.xlsx
Page: 1
Context: | Version 1.1 | Unnamed: 1 | Input Parameter | Unnamed: 3 | Unnamed: 4 | Unnamed: 5 | Unit | Comment |
|:---------------------|:-------------|------------------:|:-----------------------------------------------|:-------------|:-------------|:----------|:----------|
| People | | 1 | Safety built in | | | OK/NOK/NA | |
| | | 2 | Ergonomic work stations | | | OK/NOK/NA | |
| | | 3 | Design for best team size | | | OK/NOK/NA | |
| Environment | | 4 | Minimize environmental impact | | | OK/NOK/NA | |
| Standardized
work | | 5 | Job element sequence | | | OK/NOK/NA | |
| | | 6 | Standard stock in process (SSIP) | | | OK/NOK/NA | |
| | | 7 | Takt time | | | OK/NOK/NA | |
| Flow | | 8 | Purpose allocated buffers | | | OK/NOK/NA | |
| | | 9 | Standard stock in transit | | | OK/NOK/NA | |
| | | 10 | Divide the production line into capacity zones | | | OK/NOK/NA | |
| | | 11 | Continuous flow | | | OK/NOK/NA | |
| | | 12 | Pull system | | | OK/NOK/NA | |
| | | 13 | Sub flows delivering just in sequence | | | OK/NOK/NA | |
| | | 14 | Full work system | | | OK/NOK/NA | |
| | | 15 | Andon | | | OK/NOK/NA | |
| | | 16 | Visibility | | | OK/NOK/NA | |
| | | 17 | Tracea
####################
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81510/64331 Global Line & Equip, C.Karlsson / D.Smedman
equipment that is protected against dangerous short-circuiting must
have a free area of at least 0.8 meters.
4.2.8
Design review
4.2.8.1
Before manufacturing
Before manufacturing starts or purchase from sub-suppliers is done,
Aurobay/VCPC has to be given the opportunity to perform a design
review. For hardware design all design drawings, electrical
drawings, safety documentation and parts lists, must be delivered to
Aurobay/VCPC.
For software design all design documents such as PLC, HMI, Robot
and safety templates, must be delivered to Aurobay/VCPC.
Manufacturing and purchase must not start prior to this review is
carried out by Aurobay/VCPC and for this a minimum of two
working weeks are needed. Gradually as drawings and schemes are
completed, these must be forwarded to Aurobay/VCPC.
NB: This review does not mean any kind of taking over of the
warranty or responsibility.
4.2.8.2
Changes
Aurobay/VCPC has to be given the opportunity to express its
viewpoints prior the supplier makes any changes to the
specifications in relation to earlier agreed design. Where very urgent
changes are concerned, which do not influence product quality, the
equipment layout, connections to media or interface to superior
control system, the Aurobay/VCPC viewpoints may be obtained
verbally and confirmed in writing.
4.3 Quality requirements
4.3.1
Measurable characteristics with tolerance limit
4.3.1.1
Demands
The corrected machine capability index Cmk must not be less than
2,0.
The requirement is applicable to all produced characteristics and
Aurobay/VCPC reserves the right to decide which properties that is
to be tested.
4.3.1.2
Test method
Cmk is determined on 50 consecutively produced parts if no other
agreement has been made.
The equipment must work inside specified cycle time during the
test.
Unless otherwise stated Cmk is the difference between the mean
value and the nearest tolerance limit divided by half the spread 3s.
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81510/64331 Global Line & Equip, C.Karlsson / D.Smedman
4.7 Manufacturing Execution system - interaction
General requirement
The main principal is that all equipment shall be controlled and
supervised by Aurobay/VCPC “Manufacturing Execution System”
(MES).
MES is the master and equipment’s are slaves in the context that the
equipment requests to perform activities for a part and MES
decides. In other words, all equipment’s should request for
information from MES before start activities and should send result
and wait for a response before the part is released to next station.
MES is responsible for routing decisions when applicable.
The equipment shall in real-time send performance information to
MES (e.g. operation modes and alarm events)
Preferred equipment interfaces
For Siemens PLC controllers will Aurobay/VCPC provide a
communication module as a PLC project, named VDcom, which
shall be integrated in the equipment’s PLC logic
For PC applications will Aurobay/VCPC provide a defined
MQTT/JSON interface.
If other interfaces is needed, alternatives can be discussed and
agreed.
Interface specifications
Applicable generic interface specifications are a part of the contract.
(Contractual Appendix E)
During the design phase will detailed specifications for each
equipment be created and supplied by Aurobay/VCPC.
Verification of supplier’s Digital implementation
Aurobay/VCPC will verify that the supplier has implemented and
programmed the equipment’s interaction with the Aurobay/VCPC
MES system (e.g., IT-tests) as specified. This verification will be
performed as a part of the overall project tests
•
Test before shipment
•
Taking-over test
Test before shipment: Prior to the test Aurobay/VCPC will prepare
and provide an application that emulate the equipment
communication towards MES.
Commissioning & Taking-over test: Will be done connected to the
plants factory network, running with the Aurobay/VCPC MES and
supporting applications.
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File: E5.1%20Requirements%20on%20deliveries%20of%203D%20models.doc
Page: 1
Context: This document is a supplement to Aurobay and Volvo Cars Propulsion Components (VCPC) Technical Specification (TS). It describes how 3D models and corresponding JT-files should be created to facilitate virtual analysis and verification in Aurobay/VCPC manufacturing’s product and process development projects.
The main driver is to store and use equipment models that will support the ability to show the equipment together with the product for all configurations and for every variant of the product. The 3D models must be created and stored in a way that will support kinematic analysis. The reason for this is that the systems used for analysis and verification can only move models relative to other models; they cannot move entities within models.
To get the best functionality, the JT-file should be in version 9.5 and XTBREP format.
The file size for the JT-file should be the smallest possible, the model of the product doesn’t need to be in high detail in the equipment model as this will only enlarge the model file but its important that the model of the product has correct volume geometry’s. The coloring of each equipment part should be as close to the reality as possible.
There should be a continuous delivery of updated JT-files during the project. The JT-files should be named according to TS but with an added date information. Ex NAME_YYYYMMDD
Minimum demand are deliveries during:
-- Concept review
-- Detailed design review
-- Manufacturing
-- Final documentation
If changes are made to the models between the manufacturing and final documentation delivery, Volvo should be informed, and the need of extra deliveries should be discussed.
Modeling
All parts in an equipment design shall be modeled as separate parts, one model per part.
These parts shall be grouped into subassemblies based on how they are physically connected.
Also, parts that move together relative to other parts of the equipment during use are natural subassemblies. This is valid for both 3D CAD models and JT-files.
Many types of equipment take on different configurations for different product variants. This is achieved either by moving parts of the equipment relative to each other or by removing and adding different parts of the equipment for different variants. In both cases, it is important that the equipment is modelled so that the models in their entirety can be moved or removed during analysis to allow the equipment to be visualized exactly the way it will look during operation.
Equipment close to the product should be modeled and delivered in the position where it is interacting with the product. The other positions are preferably added to the model as a separate subassembly. These different subassemblies should be possible to blank and unblank in an easy way. The name of the subassembly should clearly show what state it is representing.
For more complex stations, fixtures, gripper, etc, this may not be possible and should then be discussed with Aurobay/VCPC during des
##########
"""QUERY: Bitte geben Sie die folgenden Informationen tabellarisch an:
Kunde: Wer ist der Kunde? (Bitte geben Sie die Kundendetails an) Endkunde: Wer ist der Endkunde? Aufstellort: Wo ist der Aufstellort der Anlage (Ort, Werk des Endkunden, Gebäude)? Hallenhöhe: Wie hoch ist die Hallenhöhe des Werkes oder Gebäudes, in dem die Anlage aufgestellt werden soll - Hallenhöhe kann auch als (Anlagenhöhe) definiert werden? Bitte keine Erläuterungen hinzufügen, nur die Tabelle mit dem Titel: Kunde, Endkunde, Aufstellort, Hallenhöhe (ohne die anderen Definitionen zu nennen)."""
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Final Files Sources: E4.8%20Project%20manual%20Cognex%202023.pdf - Page 3, E4.8%20Project%20manual%20Cognex%202023.pdf - Page 10, E4.8%20Project%20manual%20Cognex%202023.pdf - Page 14, E4.8%20Project%20manual%20Cognex%202023.pdf - Page 17, E4.8%20Project%20manual%20Cognex%202023.pdf - Page 19, E4.8%20Project%20manual%20Cognex%202023.pdf - Page 28, E4.8%20Project%20manual%20Cognex%202023.pdf - Page 33, E4.8%20Project%20manual%20Cognex%202023.pdf - Page 36, E4.6%20Project%20manual%20SEW.pdf - Page 3, E4.6%20Project%20manual%20SEW.pdf - Page 10, E4.6%20Project%20manual%20SEW.pdf - Page 14, E4.6%20Project%20manual%20SEW.pdf - Page 18, E4.6%20Project%20manual%20SEW.pdf - Page 20, E4.6%20Project%20manual%20SEW.pdf - Page 22, E4.6%20Project%20manual%20SEW.pdf - Page 24, E4.6%20Project%20manual%20SEW.pdf - Page 30, E4.6%20Project%20manual%20SEW.pdf - Page 34, E4.6%20Project%20manual%20SEW.pdf - Page 36, E4.6%20Project%20manual%20SEW.pdf - Page 37, E4.6%20Project%20manual%20SEW.pdf - Page 40, E2.1%20Electrical%20Questionnaire%20Rotorshaft%20FLT%20v9.1.docx - Page 1, Op110_ERAD_S700272_10.pdf - Page 1, E3.3%20MQTT_MES_Interface%20Functional_Specification_Supplier_v1_1.pdf - Page 12, E3.3%20MQTT_MES_Interface%20Functional_Specification_Supplier_v1_1.pdf - Page 14, E3.3%20MQTT_MES_Interface%20Functional_Specification_Supplier_v1_1.pdf - Page 15, E3.3%20MQTT_MES_Interface%20Functional_Specification_Supplier_v1_1.pdf - Page 19, E4.5%20Project%20manual%20Kistler.pdf - Page 2, E4.5%20Project%20manual%20Kistler.pdf - Page 7, E4.5%20Project%20manual%20Kistler.pdf - Page 10, E4.5%20Project%20manual%20Kistler.pdf - Page 13, E4.5%20Project%20manual%20Kistler.pdf - Page 15, E4.5%20Project%20manual%20Kistler.pdf - Page 17, E4.5%20Project%20manual%20Kistler.pdf - Page 19, E4.5%20Project%20manual%20Kistler.pdf - Page 24, E4.5%20Project%20manual%20Kistler.pdf - Page 35, E4.5%20Project%20manual%20Kistler.pdf - Page 36, E4.5%20Project%20manual%20Kistler.pdf - Page 37, E4.3%20Project%20manual_IFM%20electric.pdf - Page 13, E4.3%20Project%20manual_IFM%20electric.pdf - Page 24, E4.3%20Project%20manual_IFM%20electric.pdf - Page 29, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 13, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 21, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 27, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 29, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 33, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 40, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 50, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 55, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 64, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 71, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 82, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 85, E3.2%20VDcom_v2_2_1_Functional_Specification_Supplier_2.pdf - Page 102, D0_Obligations%20suppl_purch%20v2.1.docx - Page 1, E3.5%20OT%20Security%20Conditions%20v1_0.pdf - Page 4, E3.5%20OT%20Security%20Conditions%20v1_0.pdf - Page 5, E3.5%20OT%20Security%20Conditions%20v1_0.pdf - Page 8, E3.5%20OT%20Security%20Conditions%20v1_0.pdf - Page 9, Orgalime%20SE01%20Addendum%202021-10-25.pdf - Page 3, Orgalime%20SE01%20Addendum%202021-10-25.pdf - Page 4, Orgalime%20SE01%20Addendum%202021-10-25.pdf - Page 7, Orgalime%20SE01%20Addendum%202021-10-25.pdf - Page 14, E2.2%20Mechanical%20Questionnaire%20Rotorshaft%20FLT%20v8.1.docx - Page 1, Orgalime%20SE01%20General%20Conditions.pdf - Page 1, Orgalime%20SE01%20General%20Conditions.pdf - Page 2, Orgalime%20SE01%20Agreement_2021-08-10.docx - Page 1, E4.7%20ABB%20Standard_Specification_Aurobay_VCPC_2023.xlsx - Page 4, E4.7%20ABB%20Standard_Specification_Aurobay_VCPC_2023.xlsx - Page 5, E4.7%20ABB%20Standard_Specification_Aurobay_VCPC_2023.xlsx - Page 16, Op150_ERAD_S700280_06.pdf - Page 1, E2.4%20NC%20questionnaire.doc - Page 1, E2.3%20Questionnaire_Tooling.docx - Page 1, I0%20Guidelines%20for%20contractors%20and%20suppliers.pdf - Page 3, I0%20Guidelines%20for%20contractors%20and%20suppliers.pdf - Page 5, I0%20Guidelines%20for%20contractors%20and%20suppliers.pdf - Page 13, E5.0%20Equipment_documentation_requirements.pdf - Page 5, E5.0%20Equipment_documentation_requirements.pdf - Page 7, E5.0%20Equipment_documentation_requirements.pdf - Page 9, Op100_EFAD_S700305_09.pdf - Page 1, Machine_Details_A2253.pptx - Page 1, Op110_EFAD_S700306_11.pdf - Page 1, E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf - Page 3, E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf - Page 4, E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf - Page 5, E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf - Page 9, E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf - Page 15, E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf - Page 19, E1.2%20VCS%208003%2C29%20Ergonomic%20requirements.pdf - Page 21, B0%20Specification%20of%20works%20%28Machining%29.docx - Page 1, E1.1%20VCS%208010%2C39%20Safety%20of%20machinery.pdf - Page 1, E1.1%20VCS%208010%2C39%20Safety%20of%20machinery.pdf - Page 11, E1.1%20VCS%208010%2C39%20Safety%20of%20machinery.pdf - Page 19, Appendix%20A1.DOC - Page 1, E4.4%20Project%20manual%20Festo.pdf - Page 40, E6.1%20MEPS%20Fundamental%20principles%20for%20process%20design%20v1_3.xlsx - Page 0, E4.2%20Project%20manual%20Atlas%20Copco.pdf - Page 17, E6.2%20Questionnaire%20KPI%20and%20Principles.xlsx - Page 1, E0%20Technical%20Specification%202023.pdf - Page 20, E0%20Technical%20Specification%202023.pdf - Page 25, E5.1%20Requirements%20on%20deliveries%20of%203D%20models.doc - Page 1
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FINAL ANSWER
Answer: ## Kunde, Endkunde, Aufstellort, Hallenhöhe
| Kunde | Endkunde | Aufstellort | Hallenhöhe |
|---|---|---|---|
| | Aurobay | Skövde | |
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