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Siemens SINUMERIK 840D manuals
SINUMERIK 840D
Table of contents
- technical support
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- SINUMERIK Integrate AMB, AMC, AMM, Function Manual (FH) -
- Overview of functions
- Operating Concept
- Machine information
- Current control software
- Machine events - List view
- Machine events - Detailed view
- Evaluation of workflow actions
- Evaluation of diagnostics data
- Variable monitors – time Series – measurements and measurement series
- Operating diagrams
- Control elements of the diagrams for individual measurements
- Circularity test
- Equability test
- Universal axis test
- Variable monitors
- Deleting measurements and data points
- Test series on the machine
- Test requirements
- Prolog and epilog program for a measurement
- Program example
- Measurement commissioning
- Release protocol between PLC and SINUMERIK Integrate
- Archives
- Maintenance
- Remote access
- Setting up functions
- Configuring variable monitors
- Content
- Configuring measurements and measurement series
- Performing test series
- User-defined variables
- User-defined variables – Detailed view
- Fault services
- Control monitors - Detailed view
- Machine trigger, server trigger and conditions
- Machine trigger on "alarm group"
- Machine trigger on "PLC variable"
- Machine trigger for "PLC timeout trigger"
- Machine trigger on "new value of a user-defined variable"
- Combined machine trigger on "alarm group" and "PLC variable"
- Trigger on "Fault message on HMI"
- Machine trigger "Time trigger"
- Variable triggers
- Trigger on synchronization
- Trigger on control monitor script error
- Server trigger on "Measurement series reaches limit value"
- Server trigger on "Trigger on due maintenance tickets"
- Server trigger on "Variable monitor reaches limit value"
- Server trigger on "Cyclic trigger on variable monitors"
- Fault message on PC
- Server trigger on "Time trigger"
- Workflow actions
- Diagnostic actions
- SIMATIC S7
- Creating and uploading archives
- Global settings
- PLC and NC settings
- Copy
- Copying function settings to several machines
- Client-server communication
- Offline synchronization
- Monitoring of ePS services
- Making files available for download to the machine
- Organizational tasks
- Selecting a maintenance job on a machine
- Opening a maintenance job (PC)
- Executing/closing a maintenance job (control)
- Service cases - List view
- Service cases - Detailed view
- Requesting fault processing on the control
- Statistics/export
- Multi-machine views
- Summary of machine events
- Measuring series
- Reports
- Management
- Comparing Configurations
- Comparing installed components
- Import
- Active import processes
- Importing a directory (requires ActiveX)
- Export
- Synchronization overview
- Administration
- Addresses
- Users
- Maschines
- Editing the master data of a machine
- Creating a new machine as a copy
- Organizational data
- Exporting and importing a machine
- Download areas
- Personal settings
- Establishing a connection and
- Uploading an alarm model
- Synchronizing the machine
- Disconnecting the machine (on the control and on the PC)
- Repetition strategy
- Editing prolog and epilog program
- Cooperation areas
- Releasing a machine to an organization
- Machines in a cooperation area
- Client diagnostics
- Components of client diagnostics
- Performing a diagnostics session
- Other functions
- Configuring 1:N connections
- A.1 Useful functions of the various device classes
- A.2 Functions of the individual roles (privilege matrix)
- A.3 Abbreviations
SINUMERIK 840D
Table of contents
- technical support
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- ePS Network Services, Function Manual (FH) -
- Overview of functions
- Operating concept
- Machine Information
- Current control software
- Machine events - List view
- Machine events - Detailed view
- Evaluation of workflow actions
- Evaluation of diagnostics data
- Variable monitors – time series – measurements and measurement series
- Operating diagrams
- Control elements of the diagrams for individual measurements
- Circularity test
- Equability test
- Universal axis test
- Variable monitors
- Deleting measurements and data points
- Test series on the machine
- Requirements for performing the test
- Prolog and epilog program for a measurement
- Program example
- Commissioning measurements
- Release protocol between PLC and ePS system
- Archives
- Maintenance
- Remote access
- Setting up functions
- Configuring variable monitors
- Contents
- Configuring measurements and measurement series
- Performing a test series
- ePS variables
- ePS variables - Detailed view
- Fault services
- Control monitors - Detailed view
- Machine triggers, server triggers and conditions
- Machine trigger on "Alarm group"
- Machine trigger on "PLC variable"
- Machine trigger for "PLC timeout trigger"
- Machine trigger on "New value of an ePS variable"
- Combined machine trigger on "Alarm group" and "PLC variable"
- Machine trigger for "Time-based trigger"
- Trigger on "Fault message at HMI"
- Server trigger on "Measurement series reaches limit value"
- Server trigger on "Maintenance jobs due"
- Server trigger on "Variable monitor reaches limit value"
- Cyclic server trigger for variable monitors
- Server trigger for "Time-based trigger"
- Trigger on end of data acquisition (AMP function)
- Variable trigger
- Trigger on synchronization
- Trigger on malfunctioning control monitors
- Trigger on successful diagnostic action
- Trigger on unsuccessful diagnostic action
- Trigger on configuration change in a variable monitor
- Workflow actions
- Diagnostic actions
- Creating and uploading archives
- Global settings
- PLC and NC settings
- Copy
- Copying functions to several machines
- Client-server communication
- Offline synchronization
- Monitoring of ePS services
- Preparing files to be downloaded to the machine
- Organizational tasks
- Selecting a maintenance job on a machine
- Opening a maintenance job (PC)
- Executing/closing a maintenance job (control)
- Service cases
- Service cases - List view
- Service cases - Detailed view
- Requesting fault processing on the control
- Statistics/Export
- Multi-machine views
- Summary of machine events
- Measurement series
- Reports
- Comparing configurations
- Import
- Active import processes
- Importing a file
- Export
- Synchronization overview
- Management
- Addresses
- Users
- Machines
- SINUMERIK, SIMATIC S7
- Editing the master data of a machine
- Creating a new machine as a copy
- Organizational data
- Exporting and importing a machine
- Download areas
- Personal settings
- Establishing a connection and diagnostics
- Uploading an alarm model
- Synchronizing the machine
- Disconnecting the machine (on the control and on the PC)
- Repetition strategy
- Editing the prolog and epilog program
- Cooperation areas
- Releasing a machine to an organization
- Machines in a cooperation area
- Client diagnostics
- Components of client diagnostics
- Performing a diagnostics session
- Other functions
- Configuring 1:N connections
- A Appendix
- A.2 Functions of the various roles (privilege matrix)
- A.3 References
SINUMERIK 840D
Table of contents
- technical support
- ec declaration of conformity
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Introduction
- Overview of functions
- data services
- Operating concept
- Maschine information
- Current control software
- Machine events – Detailed view
- Evaluation of workflow actions
- Evaluation of diagnostics data
- file list
- Variable monitors - Measurements and measurement series
- Operating diagrams
- Control elements of the diagrams for individual measurements
- Circularity test
- Equability test
- Universal axis test
- Variable monitors
- Test series on the machine
- Requirements for performing the test
- Prolog and epilog program for a measurement
- Program example
- Commissioning measurements
- Contour test
- Maintenance
- Remote access
- Functions of a service session
- Starting a service session
- Example of a session via remote access
- Granting permission to execute functions
- Contents
- Setting up a service conference call
- Remote control via the keyboard
- Setting up functions
- Configuring variable monitors
- Configuring measurements and measurement series
- Performing test series
- ePS variables
- ePS variables – Detailed view
- Fault services
- Control monitors – Detailed view
- Machine triggers and server triggers
- Machine trigger on "alarm group"
- Machine trigger on "PLC variable"
- Machine trigger for "PLC timeout trigger"
- Machine trigger on "new value of ePS variable"
- Combined machine trigger on "alarm group" AND "PLC variable"
- Machine trigger for "Time-based trigger"
- Trigger on "Fault message at HMI/PC"
- Server trigger on "Measurement series reaches limit value"
- Server trigger on "Maintenance jobs due"
- Server trigger on "Variable monitor reaches limit value"
- Cyclic server trigger for variable monitors
- Workflow actions
- Diagnostic actions
- Global settings
- Copying
- Copying functions to multiple machines
- Client/server communication
- Offline synchronization
- Monitoring ePS services
- Organizational tasks
- Selecting a maintenance job on a machine
- Opening a maintenance job (PC)
- Executing/closing a maintenance job (HMI)
- Service cases
- Service cases - List view
- Service cases – Detailed view
- Requesting fault processing at the HMI
- Statistics/export
- Multi-machine views
- Summary of machine events
- Measurement series
- Reports
- Import
- Active import processes
- Importing a file
- Export
- Overviews
- Management
- Addresses
- Users
- Machines
- Editing the master data of a machine
- Creating a machine in the form of a copy
- Organizational data
- Download areas
- Personal settings
- Establishing a connection and diagnostics
- Uploading an alarm model
- Synchronizing the machine
- Disconnecting the machine (at HMI and PC)
- Repetition strategy
- Editing the prolog and epilog program
- Cooperation areas
- Releasing a machine to an organization
- Machines in a cooperation area
- Client diagnostics
- Components of client diagnostics
- client configuration
- Performing a diagnostics session
- Other functions
- Configuring 1:N connections
- saving the configuration
- A.3 References
SINUMERIK 840D
Table of contents
- technical support
- safety instructions
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table of Contents
- Programming Basics
- Switchover
- Decimal point programming
- Comments
- Basics of feed function
- F1-digit feed
- Feed per minute function (G94)
- Commands Calling
- Linear interpolation (G01)
- Circular interpolation (G02, G03)
- end point
- Helical interpolation (G02, G03)
- Reference point return
- Reference point return check (G27)
- Second to fourth reference point return (G30)
- Movement Control Commands
- Machine coordinate system (G53)
- Workpiece coordinate system (G92)
- Resetting the work (G92.1)
- Local coordinate system (G52)
- Plane selection (G17, G18, G19)
- Rotation of coordinate system (G68, G69)
- D rotation G68 / G69
- Determining the coordinate value input modes
- Inch/Metric input designation (G20, G21)
- Scaling (G50, G51)
- Programmable mirror image (G50.1, G51.1)
- G60: Oriented positioning
- Time-controlling commands
- Cutting feedrate control
- Compressor in ISO dialect mode
- Exact stop (G09, G61), cutting mode (G64), tapping mode (G63)
- Tool offset functions
- Cutter radius compensation (G40, G41, G42)
- Collision monitoring
- S, T, M, and B functions
- Tool function (T function)
- Internally processed M codes
- General purpose M codes
- Enhanced Level
- Index
- High--speed peck drilling cycle (G73)
- Fine boring cycle (G76)
- Drilling cycle, spot drilling (G81)
- Drilling cycle, counter boring cycle (G82)
- Peck drilling cycle (G83)
- Boring cycle (G85)
- Boring cycle (G86)
- Boring cycle, back boring cycle (G87)
- Drilling cycle (G89), retract using G01
- Rigid tapping cycle (G84)
- Left--handed rigid tapping cycle (G74)
- Peck tapping cycle (G84 or G74)
- Canned cycle cancel (G80)
- Program example using tool length offset and canned cycles
- Multiple threads with G33
- Threads with variable lead (G34)
- Programmable data input (G10)
- Subprogram call up function (M98, M99)
- Eight--digit program number
- Polar coordinate command (G15, G16)
- Polar coordinate interpolation (G12.1, G13.1)
- Cylindrical interpolation (G07.1)
- Program support functions (2)
- Chamfering and corner rounding commands
- Automating support functions
- Multistage skip (G31, P1 -- P4)
- Program interrupt function (M96, M97)
- Tool life control function
- Macroprograms
- Macro Call via G Function
- Additional functions
- Switchover modes for DryRun and skip levels
- Interrupt programm with M96 / M97 (ASUB)
- C.1 G code table
- D.1 Machine/Setting data
- D.2 Channel-specific machine data
- D.3 Axis-specific setting data
- D.4 Channel-specific setting data
- E.1 Machine data
- E.2 Setting data
- E.3 Variables
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table of Contents
- Programming Basics
- Switchover
- Selection of G code system A, B, or C
- Comments
- Block skip
- Basics of feed function
- Commands Calling
- Linear interpolation (G01)
- Circular interpolation (G02, G03)
- Cylindrical interpolation (G07.1)
- Polar coordinate interpolation (G12.1, G13.1)
- Using the thread cutting function
- Continuous thread cutting
- Multiple-thread cutting (G33)
- Variable lead thread cutting (G34)
- Reference point return
- Reference point return check (G27)
- Second to fourth reference point return (G30)
- Rapid lift with G10.6
- Tool retract (G10.6)
- Movement Control Commands
- Machine coordinate system (G53)
- Workpiece coordinate system (G92)
- How to select a workpiece coordinate system
- Determining the coordinate value input modes
- Diametric and radial commands for X-axis
- Inch/metric input designation (G20, G21)
- G60: Oriented positioning
- Time-controlling commands
- Tool offset functions
- Spindle function (S function)
- Constant surface speed control (G96, G97)
- Tool function (T function)
- Internally processed M codes
- General purpose M codes
- Enhanced Level
- Multiple repetitive cycles
- Hole-machining canned cycles (G80 to G89)
- Program support functions (2)
- Subprogram call up function (M98, M99)
- Eight-digit program number
- Automating support functions
- Multistage skip (G31, P1--P2)
- Macroprograms
- Index
- Advanced functions
- Polygonal turning
- Compressor in ISO dialect mode
- Switchover modes for DryRun and skip levels
- Interrupt programm with M96 / M97 (ASUP)
- C.1 G code table
- D.1 Machine/Setting Data
- D.2 Channel-specific machine data
- D.3 Axis-specific setting data
- D.4 Channel-specific setting data
- E.1 Machine data
- E.2 Setting data
SINUMERIK 840D
Table of contents
- Preface
- Table Of Contents
- Table Of Contents
- Manage MyResources, Optimize MyProgramming /NX-Cam Editor
- Fundamental safety instructions
- Warranty and liability for application examples
- Industrial security
- Introduction
- System prerequisites
- Activating tool statistics (Manage MyResources only)
- Overview of the client version and required TLS/SSL
- Installing/configuring Windows services
- Setting up Internet Information Services and .NET Framework
- SQL Server 2012
- Configuring SQL Server 2012
- Configuring the SQL Server 2012 with remote database
- Create databases and user in SQL Server 2012
- SQL Server 2016
- Configuring SQL Server 2016
- Configuring the SQL Server 2016 with remote database
- Create databases and user in SQL Server 2016
- Further installations
- Setting up encrypted communication
- Installing/uninstalling/modifying the SINUMERIK Integrate server
- Set license server
- Installing the server setup
- Installing the server update
- Modifying/repairing the server setup
- Uninstalling the server setup
- Silent Installation and log files
- Log files
- Setting up an encrypted connection
- Inserting the certificate at the client with SINUMERIK Operate
- Inserting the certificate at the client with HMI-Advanced
- Configuring the settings
- Configuring the external authentication provider
- Configuring with secret
- Installing SINUMERIK Integrate
- Enabling use
- Basis installation, uninstalling Installer
- Client update
- Client update under Linux
- SINUMERIK Integrate with HMI-Advanced
- Correcting connection problems
- Integrating the client setup as external applications
- Changing, repairing and uninstalling programs
- Connecting applications with the SINUMERIK control system
- Creating the SINUMERIK controller
- SINUMERIK controller is ONBOARDED
- Manage applications on machines
- Uninstalling the Manage MyResources client
- Uninstalling with HMI-Advanced
- Configuring applications
- Manage MyResources /Programs
- Optimize MyProgramming /NX-Cam Editor
- Troubleshooting
- A.1 List of abbreviations
- Index
SINUMERIK 840D
Table of contents
- Preface
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Basics
- General prerequisites
- Behavior on block search, dry run, program testing, simulation
- Reference points on the machine and workpiece
- Definition of the planes, tool types
- Probes that can be used
- Probe, calibration body, calibration tool
- Measuring tools on milling machines, machining centers
- Measuring workpieces at the turning machines
- Measuring tools at lathes
- Measurement principle
- Measuring strategy for measuring workpieces with tool offset
- Parameters for checking the measurement result and offset
- Effect of empirical value, mean value, and tolerance parameters
- Overview of measuring cycle functions for milling technology
- Calibrating workpiece probes
- Workpiece measurement at one point
- Measuring the workpiece parallel to the axis
- Measuring a workpiece at an angle
- Measuring a surface at an angle
- Measuring spheres
- Workpiece measurement: Setting-up a corner
- Overview of measuring cycle functions for turning technology
- Measuring workpieces at lathes: 1-point measurement
- Measuring workpieces at lathes: 2-point measurement
- Parameter concept of the measuring cycles
- Parameter overview
- Result parameters
- Description of the most important defining parameters
- Tool number and tool name: _TNUM and _TNAME
- Offset number: _KNUM
- Offset number _KNUM extended for tool offset: up to 9 digits
- Correcting setup and additive offset in workpiece measurement: _DLNUM
- Correcting the tool of a stored tool environment: _TENV
- Variable measuring velocity: _VMS
- Tolerance parameters: _TZL, _TMV, _TUL, _TLL, _TDIF and _TSA
- Measurement path: _FA
- Probe type, probe number: _PRNUM
- Empirical value, mean value: _EVNUM
- Multiple measurement at the same location: _NMSP
- Package structure of the measuring cycles
- Measuring cycle subroutines
- CYCLE116: Calculation of center point and radius of a circle
- Measuring cycle user programs
- Measuring in JOG
- Overview of the auxiliary programs required
- CYCLE971 tool: Measuring milling tools, drills
- Measurement and correction strategy
- Compensation strategy
- Compensation with correction table when measuring with rotating spindle
- Calibrating tool probes
- Programming example 1
- Programming example 2
- Operational sequence
- Calibrating tool probes automatically
- Programming example
- Measuring tool
- Programming examples 1
- CYCLE976 calibrate workpiece probe
- Calibrating a workpiece probe in a hole of known hole center point
- Calibrating a workpiece probe in a hole of unknown hole center point
- Calibration of a workpiece probe on a surface
- CYCLE977 workpiece: Measure hole/shaft/groove/web/rectangle parallel to axes
- Measuring contour elements
- Measuring and tool offset
- Measurement and ZO determination
- CYCLE978 workpiece: Measuring a surface parallel to the axis
- Measuring the surface
- CYCLE979 workpiece: Measure hole/shaft/groove/rib at an angle
- Measure shaft, groove, web
- CYCLE998 workpiece: Angle measurement and ZO determination
- angle measurement
- CYCLE961 workpiece: Setup inside and outside corner
- Setting up a corner with definition of distances and angles
- Setting up a corner with 4 points
- CYCLE997 workpiece: Measuring a sphere and ZO determination
- Programming example CYCLE997
- CYCLE119: Arithmetic cycle for determining position in space
- CYCLE996 workpiece: Measure kinematics
- Measurement procedure
- Measuring an individual ball position
- Example of the procedure to measure the kinematics (CYCLE996)
- Activation of the function
- Programming via a screen form
- Parameters of "1st, 2nd, 3rd measurement" screen form
- Parameters of "Calculate kinematics" screen form
- Result bit
- Result parameters, intermediate results
- Programmable adjustable parameters
- Measuring Cycles for Turning Machines
- Call and return conditions
- CYCLE982 Tool: Measure turning tools
- Calibrate tool probe (machine-related)
- Determining dimensions of calibration
- Measure turning tool (machine-related)
- CYCLE982 tool: Measure turning and milling tools
- Automatic tool measurement
- Incremental calibration
- Incremental measurement
- Milling tool: Suppression of start angle positioning _STA1
- Measuring drills - Special applications
- Measuring a tool with orientational tool carriers - 90° multiples of tool position (measuring cycle release SW 6.3 and higher)
- Measuring turning tools - 90° multiples of the tool position
- Measuring milling/drilling tools - 90° multiples of the tool position
- CYCLE973 Calibrating workpiece probes
- Calibrating in the reference groove
- CYCLE974 workpiece: 1-point measurement
- point measurement and ZO determination
- point measurement with reversal and tool offset
- CYCLE994 workpiece: 2-point measurement
- Complex example for tool measurement
- Log measurement results
- Measuring cycle support in the program editor
- Menus, explanation of the cycles
- Softkey bars for turning
- Softkey bars for milling
- Presetting measuring cycle support in HMI sl
- Measuring result screens
- Hardware/software
- Software prerequisites for HMI sl
- Function check for HMI sl
- Data description
- Cycle data
- Data adjustment to a specific machine
- Central values
- Central bits
- Detailed description
- Channel-oriented values
- Channel-oriented bits
- Data for measuring in JOG
- Start-up (hardware)
- Alarm, error, and system messages
- parameters as of measuring cycles version 2.6, with reference to measuring function
- A.2 GUD variables that can no longer be used
- A.3 Changes to names of cycle programs and GUD modules
- A.4 Overview of measuring cycle parameters
- list of abbreviations
- E Overview
- Glossary
- Index
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Introduction
- Product overview
- Handling information
- Switching on/switching off the control
- Operator Components
- Operator panel front
- Standard full keyboard
- Machine control panel (MCP)
- EMERGENCY STOP button
- Feedrate control
- Spindle control
- Key-operated switch
- Program control
- SINUMERIK HT 8
- Screen layout
- Global machine status display
- Program control display
- General operating sequences
- Changing the menu window
- Selecting a directory/file
- Editing inputs/values
- Confirm/cancel input
- Edit the part program in the ASCII editor
- Switching over the channel
- Packet calculator
- Calling the help function
- Editor help
- Quick help for program commands
- Extended help for program commands
- Job list
- Syntax description for job lists
- Example of a job list with two-channel 1:1 links
- Example of a job list with multi-channel m:n links
- Execute job list" operating sequence
- Re-naming workpieces with job lists
- Copying workpieces with job lists
- Example of Operation
- Machine
- Parameters
- Program
- Modes group and channels
- Cross-channel status display via symbols
- Two-channel display
- Mode selection, mode change
- Services
- General functions and displays
- Displaying the program level
- Switching over the machine/workpiece coordinate system (MCS/WCS)
- Displaying several transverse axes
- Displaying axis feedrates
- Display G functions, transformations and swivel data
- Displaying auxiliary functions
- Displaying spindles
- Handwheel
- Commissioning
- Preset
- Setting the actual value
- Inch ↔ Metric switchover
- Reference point approach
- JOG mode
- Traversing axes
- Inc: Increment
- REPOS (repositioning)
- SI (Safety Integrated): User agreement
- Scratching
- Displaying system frames
- MDA mode
- Saving the program, file function
- Teach in
- Automatic mode
- Program overview
- Loading and unloading the workpiece/part program
- Protocol: Program loading list
- Executing from the hard disk
- Accessing an external network drive
- Program editing
- Setting the block search/search target
- Accelerated external block search
- Block search in Program test mode, multi-channel
- Overstore
- DRF offset
- Parameters operating area
- Tool data
- Tool offset
- New tool
- Display tool
- Deleting a tool
- New cutting edge
- Deleting a cutting edge
- Make tool offset immediately effective
- Tool management
- Main tool management functions
- Displaying/editing tool data
- Change in the significance/representation of tool wear values
- Grinding data expansion
- Load
- Unload
- Relocating
- Tool master data in the tool catalog
- Tool offset data in the tool cabinet
- Job processing of tools
- R parameters (calculation parameters)
- Setting data
- JOG data
- Spindle data
- Dry run feedrate for dry run operation DRY
- Starting angle for thread cutting
- Miscellaneous setting data
- Protection zones
- Electronic gear
- Zero/work offset
- Edit the settable work offset (G54 ...)
- Displaying an active settable work offset
- Displaying an active programmable work offset
- Displaying an active external work offset
- Activate active work offset and basic frame immediately
- Define user data
- Editing/finding user data
- Activate user data (GUD)
- Display system variables
- Creating variable views
- Managing variable views
- Logging system variables
- Program" operating area
- Program types
- Templates
- Main screen program
- Edit programs iin the standard ASCII Editor
- Undo and redo in the standard ASCII editor
- Additional optional editors
- Structured step sequence display (option)
- Multi-channel step sequence programming (option)
- Multi-channel workpiece program views
- Activating timing
- Activating simulation
- Multiple editor (option)
- Alignment of the channels/MPFs to be displayed
- Free contour programming
- Programming a contour
- Undercuts for turning technology
- Parameterizing contour elements
- Graphically displaying the contour
- Symmetrical contours with milling technology
- Specifying contour elements in polar coordinates, closing the contour
- Support for contour programming
- Parameter description of the contour elements straight line/circle
- Programming examples for freely programming a contour
- Cycle support
- Program simulation
- Using the simulation function
- Simulation settings
- Setting downtimes
- Display and colors
- Section-by-section simulation
- Quick display in the simulation for mold making
- Simulation with external network drive
- Simulation for orientable toolholder
- New workpiece/part program
- Create programs/data in a workpiece directory
- Saving setup data
- Selecting a program to be executed
- Loading/unloading a program
- Manage programs
- Copying/inserting
- Deleting
- Renaming
- Enabling
- Protocol
- Accessing an external network drive/computer
- Services operating area
- Services main screen
- Reading-in data
- Reading-out data
- Displaying the log
- Managing data
- New file/new directory
- Copying and inserting
- Changing properties
- Data selection
- Special directories and memory areas
- Data on the hard disk
- Transfer display MD from HMI Embedded
- V.24 interface
- Using the V.24 interface
- Diagnostics operating area
- Diagnostics main screen
- Remote diagnostics
- Service displays
- Service axis
- Service drive
- Service SI (Safety Integrated)
- Systemressourcen anzeigen
- Configuration data output
- Action log
- Sorting and saving version data
- Display the version screens for cycles
- Cycle version output
- Interrogating the PLC status
- Changing/deleting a value
- Assign symbolic PLC addresses
- Select operand screens for PLC status
- File functions
- Commissioning operating area
- Startup main screen
- Machine data
- Optimization/test (SINUMERIK powerline)
- Maintenance
- Operating data
- Cleaning
- A Abbreviations
- Index
- I.2 Commands and Identifier
SINUMERIK 840D
Table of contents
- NCU system software for 840D sl/840DE sl
- Cycle Times (G3)
- Contour Tunnel Monitoring
- Axis Couplings and ESR
- Setpoint Exchange (S9)
- Tangential Control (T3)
- Installation and Activation of
- Simulation of Compile Cycles (TE02)
- Clearance Control (TE1)
- Analog Axis (TE2)
- Handling Transformation
- MCS Coupling (TE6)
- Retrace Support (TE7)
- Cycle-Independent Path
- Preprocessing (V2)
- Path length evaluation (W6)
- Gantry Axes (G1
- Synchronous Signal Output
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- DNC Plant/DNC Cell (FBDN1)
- Introduction
- Product description
- MCIS for machine tools
- DNC NC program management
- Fields of application and system variants
- DNC HMI
- DNC Cell
- DNC IFC SINUMERIK
- DNC IFC Serial
- Plant structure
- Plant topology
- DNC functions on hardware components
- Station PC
- Controller
- Operator interface
- Explorer layout for DNC and DNC Admin
- Table 3-1: DNC and DNC Admin menu
- Fig. 3-2: Toolbar on the user interface
- Fig. 3-4: Quick filter bar on the user interface
- Display formats
- Operation
- View filter
- Creating or changing filters
- Table 3-4: Filter operands
- Saving the filter criteria
- Examples of the view filter
- User-specific tree view
- Print function
- Print preview
- Printing
- Creating a CSV file
- NC data management
- Maintenance functions
- Fig. 4-1: NC data properties / tab: General
- Fig. 4-2: NC data properties / tab: Information
- Fig. 4-3: NC data properties / tab: Attachments
- Fig. 4-4: Machine properties / tab: Configuration
- Importing NC data
- Fig. 4-5: Dialog: Confirm file import
- Table 4-2: Import file with header
- Table 4-3: Structure of the import file for an automatic import
- Editing NC data
- Download/upload functions
- Fig. 4-8: Indication of download/upload functions in DNC
- Downloading NC data
- Downloading NC data to SINUMERIK* with DNC IFC SINUMERIK
- Uploading NC data
- Fig. 4-12: Cancel upload (data reception)
- Uploading NC data from SINUMERIK*
- Version management and release / trial cut identifier
- Fig. 4-14: Delete Version dialog
- Release / trial cut identifier
- DNC Compare
- Table 4-4: Sample file for a comparison result
- Individual NC data comparison
- Print function for the individual NC data comparison
- Fig. 4-17: Example of a printout of all the results of the individual NC data comparison
- Archiving (manual)
- Archive results
- Displaying archive results
- Data organization
- Fig. 4-19: Database structure of the machines, NC and NC type data
- Table 4-6: DNCDATA database table
- Table 4-7: DNCDATATYPE database table
- File system
- Consistency check
- Consistency check when DNC Admin is started
- Consistency Check dialog
- Fig. 4-23: Consistency Check dialog: Missing files
- Fig. 4-24: Consistency Check dialog: Missing database entries for NC data
- Fig. 4-25: Consistency Check dialog: Missing database entries for directories
- Fig. 4-26: Consistency Check dialog: Missing workpieces in the workpiece table of the database
- User administration
- Structure of the user administration
- Creating new users / changing user properties
- Assigning filters for users
- Managing user groups
- Name of the user group
- User rights
- Display group
- Dialog function
- General information about the dialog function
- Dialog program
- Examples
- Dialog program responses
- Configuration parameters
- Code conversion function
- Code conversion
- Code conversion tables
- Table 7-5: Code conversion table: EIA_OUT
- Table 7-7: Code conversion table: ISO_OUT
- System platform
- Hardware
- Requirements for DNC Plant
- Software
- Software structure
- Machine server
- External dialog interpreter
- Configuration
- General
- Differences
- Defining the station name and type
- Machine connections
- Fig. 10-3: DNC Plant: Machine properties transmission mode: Serial without protocol
- Fig. 10-4: DNC Cell: Machine properties transmission mode: SINUMERIK*
- Machine configuration files
- Table 10-2: Controller types for machine configuration file templates
- Fig. 10-5: Template selection for serial transmission without protocol
- Configuration for the serial connection without protocol
- Fig. 10-7: Config dialog / tab: Machine Server
- Fig. 10-8: Config dialog / tab: Code Conversion Server
- Fig. 10-9: Config dialog / tab: Interface
- Table 10-3: Parity of the serial interface
- Table 10-4: Flow control of the serial interface
- Fig. 10-10: Config dialog / tab: Send
- Table 10-6: Comment during transmission
- Table 10-7: End-of-line character conversion during download
- Fig. 10-11: Config dialog / Receive tab page
- Fig. 10-12: Config dialog / Dialog Function tab page
- Fig. 10-13: Config dialog / Data Stream Interpretation tab page
- Table 10-8: Data stream interpretation: Interpretation mode: NCSplit parameter
- Table 10-10: Example: Data stream interpretation
- Table 10-11: Example of a standard machine configuration file for serial connection without protocol
- Configuration dialog for the SINUMERIK* connection type
- Fig. 10-15: Config dialog SINUMERIK* / FTP tab page
- Fig. 10-16: Config dialog SINUMERIK* / Upload Dialog tab page
- Fig. 10-17: Config dialog SINUMERIK* / Comparison Directories tab page
- Fig. 10-18: Config dialog SINUMERIK* / Job Archive Server tab page
- Fig. 10-19: Config dialog SINUMERIK* / Remote Login tab page
- Table 10-12: Example of a standard machine configuration file for the SINUMERIK connection type
- Configuration for the file system connection type
- Table 10-13: Example of a standard machine configuration file for the file system connection type
- Dialog function configuration dialog
- Fig. 10-22: List description for dialog function lists
- Fig. 10-23: Response list for a dialog function request
- Fig. 10-24: Communication error on machine server with the dialog function
- Configuration dialog for the tool setting device
- Editing database tables
- Global settings
- Version strategy for upload
- Storage strategy for editing
- Machine-specific version management
- List editor
- Fig. 10-27: List Editor
- Description of the 1st section of the List Editor
- Description of the 2nd section of the List Editor
- Fig. 10-29: Left-hand section of the List Editor (2nd section)
- Screen editor
- Fig. 10-31: Screen Editor preview
- Description of the 1st section of the Screen Editor
- Description of the 2nd section of the Screen Editor
- Table 10-18: Field types
- Fig. 10-34: Screen Editor – field names
- Fig. 10-35: Screen Editor - coordinates
- Fig. 10-37: Screen Editor - length
- Saving the screen display in the database
- Fig. 10-38: Order number of the fields in the screen output
- Error management
- Displaying the messages
- Filtering log data
- Deleting errors/messages
- Separate execution sequence log
- Auto archiving
- Function of DNC Auto Archive
- Configuring the auto archive function
- Configuration in DNC Admin
- Configuration in the machine configuration file
- Backing up NC active controller data
- Fig. 12-3: Dialog for selecting data areas
- Start parameters for auto archive
- Starting the auto archive function automatically
- Comparison results
- I.1 Keyword index
SINUMERIK 840D
Table of contents
- Foreword
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Brief description
- Components of synchronized actions
- Definition of motion-synchronous actions
- Real-time evaluations and calculations
- Special real-time variables for synchronized actions
- Marker/counter variables
- Timers
- Synchronized action parameters
- R parameters
- FIFO variables (circulating memory)
- System variables saved in SRAM (SW 6.3 and later)
- Determining the path tangent in synchronized actions
- Determining the current override
- Capacity evaluation using time requirement for synchronized actions
- List of system variables relevant to synchronized actions
- Actions in synchronized actions
- Output of M, S and H auxiliary functions to the PLC
- Setting (writing) and reading of real-time variables
- Changing of SW cam positions and times (setting data)
- FCTDEF
- Polynomial evaluation SYNFCT
- Overlaid movements $AA_OFF settable (SW 6 and later)
- Online tool offset FTOC
- Online tool length offset $AA_TOFF[Index]
- RDISABLE
- DELDTG
- Disabling a programmed axis motion
- Starting command axes
- Axial feedrate from synchronized actions
- Starting/Stopping axes from synchronized actions
- Axis replacement from synchronized actions
- Spindle motions from synchronized actions
- Setting actual values from synchronized actions
- Activating/deactivating coupled motions and couplings
- Measurements from synchronized actions
- Setting and deleting wait markers for channel synchronization
- Set alarm/error reactions
- Evaluating data for machine maintenance
- Call of Technology Cycles
- Coordination of synchronized actions, technology cycles, part program (and PLC)
- Control and protection of synchronized actions
- Protected synchronized actions
- Control system response for synchronized actions in specific operational states
- NC STOP
- Mode change
- Response of active synchronized actions to end of program and change in operating mode
- Program interruption by ASUB
- Configuration
- Diagnostics (only with HMI Advanced)
- Displaying status of synchronized actions
- Displaying main run variables
- Boundary conditions
- Signal Descriptions
- Examples of conditions in synchronized actions
- Reading and writing of SD/MD from synchronized actions
- Examples of adaptive control
- Clearance control with variable upper limit
- Feedrate control
- Control velocity as a function of normalized path
- Monitoring a safety clearance between two axes
- Store execution times in R parameters
- Axis couplings via synchronized actions
- Non-circular grinding via master value coupling
- On-the-fly parting
- Technology cycles position spindle
- Synchronized actions in the TC/MC area
- Machine data
- Axis-specific machine data
- Signals
- A.1 Publication-specific information
- A.1.2 Overview
- Index
SINUMERIK 840D
Table of contents
- Table Of Contents
- Brief Description
- Detailed Description
- Ready signals to PLC
- Alarm signals to PLC
- Signals to/from panel front
- Index
- Signals to channel
- Signals from axis/spindle
- Signals to axis/spindle (digital drives)
- Signals from axis/spindle (digital drives)
- Functions
- Settings for involute interpolation
- Activate DEFAULT memory
- Supplementary Conditions
- Access protection via password and keyswitch
- Password
- Keyswitch settings (DB10, DBX56.4 to 7)
- Parameterizable protection levels
- Data Lists
- NC-specific machine data
- Channelspecific machine data
- System variables
- Signals to operator panel front
- Signals from operator panel front
- channel status
SINUMERIK 840D
Table of contents
- Expanding the Operator Interface (BE1)
- HMI Advanced
- Function...........................................................................................................................BE1/2
- Arrays ..............................................................................................................................BE1/3
- Function ...............................................................................................................................BE1/3
- MDA...............................................................................................................................BE1/5
- Program.........................................................................................................................BE1/5
- error messages
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Basics
- General prerequisites
- Behavior on block search, dry run, program testing, simulation
- Reference points on the machine and workpiece
- Definition of the planes, tool types
- Probes that can be used
- Probe, calibration body, calibration tool
- Measuring tools on milling machines, machining centers
- Measuring workpieces at the turning machines
- Measuring tools at lathes
- Measurement principle
- Measuring strategy for measuring workpieces with tool offset
- Parameters for checking the measurement result and offset
- Effect of empirical value, mean value, and tolerance parameters
- Overview of measuring cycle functions for milling technology
- Calibrating workpiece probes
- Measuring the workpiece parallel to the axis
- Measuring a workpiece at an angle
- Measuring a surface at an angle
- Measuring spheres
- Workpiece measurement: Setting-up a corner
- Overview of measuring cycle functions for turning technology
- Measuring workpieces at lathes: 1-point measurement
- Measuring workpieces at lathes: 2-point measurement
- Parameter concept of the measuring cycles
- Parameter overview
- Result parameters
- Description of the most important defining parameters
- Tool number and tool name: _TNUM and _TNAME
- Offset number: _KNUM
- Offset number _KNUM extended for tool offset: up to 9 digits
- Correcting setup and additive offset in workpiece measurement: _DLNUM
- Correcting the tool of a stored tool environment: _TENV
- Variable measuring velocity: _VMS
- Tolerance parameters: _TZL, _TMV, _TUL, _TLL, _TDIF and _TSA
- Measurement path: _FA
- Probe type, probe number: _PRNUM
- Empirical value, mean value: _EVNUM
- Multiple measurement at the same location: _NMSP
- Measuring cycle subroutines
- CYCLE116: Calculation of center point and radius of a circle
- Measuring cycle user programs
- Package structure of the measuring cycles
- Overview
- Workpiece measurement
- Function interface of the measuring point softkeys (P1...P4)", in the PLC
- Measuring in JOG with active TRAORI
- Calibrating the workpiece probe
- Calibrating probe length
- Calibrating probe radius
- Measure edge
- Setting the edge
- Orienting the edge
- Distance 2 edges
- Measuring corner
- Right-angled corner
- Any corner
- Measuring pocket, hole or spigot
- Rectangular pocket or 1 hole or 1 spigot
- holes or 2 circular spigots
- holes or 3 circular spigots
- holes or 4 circular spigots
- Align plane
- Measuring a plane that is oblique in space
- Rejection, repetition, end of measurement
- Cascaded measurement
- Support of set-up in JOG - after measurement
- Example 1
- Example 2
- Measuring the tool
- Measuring milling or drilling tools
- Overview of the auxiliary programs required
- CYCLE971 tool: Measuring milling tools, drills
- Measurement and correction strategy
- Compensation strategy
- Compensation with correction table when measuring with rotating spindle
- Calibrating tool probes
- Programming example 1
- Programming example 2
- Operational sequence
- Calibrating tool probes automatically
- Programming example
- Measuring tool
- Programming examples 1
- CYCLE976 calibrate workpiece probe
- Calibrating a workpiece probe in a hole of known hole center point
- Calibrating a workpiece probe in a hole of unknown hole center point
- Calibration of a workpiece probe on a surface
- CYCLE977 workpiece: Measure hole/shaft/groove/web/rectangle parallel to axes
- Measuring contour elements
- Measuring and tool offset
- Measurement and ZO determination
- CYCLE978 workpiece: Measuring a surface parallel to the axis
- Measuring the surface
- CYCLE979 workpiece: Measure hole/shaft/groove/rib at an angle
- Measure shaft, groove, web
- CYCLE998 workpiece: Angle measurement and ZO determination
- angle measurement
- CYCLE961 workpiece: Setup inside and outside corner
- Setting up a corner with definition of distances and angles
- Setting up a corner with 4 points
- CYCLE997 workpiece: Measuring a sphere and ZO determination
- Programming example CYCLE997
- CYCLE119: Arithmetic cycle for determining position in space
- Call and return conditions
- CYCLE982, CYCLE972 Tool: Measure turning tools
- Calibrate tool probe (machine-related)
- Determining dimensions of calibration
- Measure turning tool (machine-related)
- CYCLE982 tool: Measure turning and milling tools
- Special aspects with milling tools
- Measuring variants
- Automatic tool measurement
- Incremental calibration
- Incremental measurement
- Milling tool: Suppression of start angle positioning _STA1
- Measuring drills – special applications (from measuring cycles SW 6.3)
- CYCLE973 Calibrating workpiece probes
- Calibrating in the reference groove
- CYCLE974 workpiece: 1-point measurement
- point measurement and ZO determination
- CYCLE994 workpiece: 2-point measurement
- Complex example for tool measurement
- Log measurement results
- Handling the log cycles
- CYCLE105(PAR1) Creating log content
- Programming example for formatting a single number
- Variables when logging
- Selection of the log content
- Log format
- Log header
- Example: Creating a measurement result log
- Measuring cycle support in the program editor (up to measuring cycles SW 5.4)
- Load the measuring cycle support
- Description of the parameterizing cycles
- Calibrate tool probe - CYCLE_CAL_TOOLSETTER
- Calibration in groove - CYCLE_973
- Measuring milling tools - CYCLE_971
- Hole, measure shaft – CYCLE_977_979A
- Measure rectangle - CYCLE_977_979C
- Single-point measurement - CYCLE_978
- Corner measurement with specification of points - CYCLE_961_P
- Single-point measurement - CYCLE_974
- Two-point measurement - CYCLE_994
- Measuring cycle support in the program editor (from measuring cycles SW 6.2)
- Softkey bars for turning
- Softkey bars for milling
- Pre-setting of the measuring cycle support
- Measuring result screens
- Hardware/software
- SINUMERIK 840D sl (solution line) probe connection to X122, NCU 7x0
- Measuring in JOG
- Function test
- Data description
- Memory configuring machine data, SRAM
- Memory configuring machine data, DRAM
- Other machine data
- Cycle data
- Data adjustment to a specific machine
- Central values
- Central bits
- Detailed description
- Central strings
- Channel-oriented values
- Channel-oriented bits
- Data for measuring in JOG
- Modifying the GUD7 data block
- Settings in data block GUD6
- Loading files for measuring in JOG
- Commissioning measuring cycles for the first time
- Steps for commissioning measuring cycles for the first time
- Step 0.3 - set up machine data for measuring in JOG
- and/or SW 06.04.08
- Step 2 – load cycle programs
- Step 3 – load measuring cycle text files
- Step 6 – activate measuring cycle support, configure
- Step 8 – set measuring cycle data
- Step 4 – menu tree for extending measuring cycles
- Step 5 – configure measuring cycle support
- Step 7 – incorporate files for measurement result display
- Step 9 – incorporate displays for measuring cycle support
- Commissioning measuring cycles, HMI-Embedded TCU solution line SW 1.x
- Step 2 – activate definition files
- Upgrading measuring cycles
- of SW 06.04.10 and HMI-Advanced PCU50 solution line
- Step 1 – load definition files
- Step 3 – update Bitmaps
- Sequence for probe installation
- Example of calculating the repeat accuracy
- Alarm, error, and system messages
- Adaptation of the Measuring Cycles to Previous Software Versions
- A.1 Overview of measuring cycle parameters
- Glossary
SINUMERIK 840D
Table of contents
- Preface
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Description of workpiece points
- Definition of workpiece positions
- Polar coordinates
- Incremental dimension
- Plane designations
- Position of zero points
- Position of coordinate systems
- Machine coordinate system
- Basic coordinate system
- Workpiece coordinate system
- Frame system
- Assignment of workpiece coordinate system to machine axes
- Current workpiece coordinate system
- Main axes/Geometry axes
- Special axes
- Channel axes
- Synchronized axes
- Command axes
- Lead link axes
- Coordinate systems and workpiece machining
- Structure and contents of an NC program
- Language elements of the programming language
- Programming a sample workpiece
- First programming example for milling application
- Second programming example for milling application
- Programming example for turning application
- General notes
- Absolute/relative dimensions
- Incremental dimensions (G91, X=IC)
- Absolute dimension for rotary axes (DC, ACP, ACN)
- Dimensions inch/metric, (G70/G700, G71/G710)
- Special turning functions
- Position of workpiece
- Zero offset frame, (G54 to G57, G505 to G599, G53, G500/SUPA
- Selection of working plane (G17 to G19)
- Working area limitation in BCS (G25/G26, WALIMON, WALIMOF)
- Working area limitation in WCS/SZS (WALCS0 ... WALCS10)
- Reference point approach (G74)
- Travel commands with polar coordinates, polar angle, polar radius
- Traversing commands with polar coordinates, (G0, G1, G2, G3 AP=..., RP=...)
- Rapid traverse movement (G0, RTLION, RTLIOF)
- Linear interpolation (G1)
- Circular interpolation types, (G2/G3, CIP, CT)
- Circular interpolation with center point and end point (G2/G3, I=, J=, K=AC...)
- Circular interpolation with radius and end point (G2/G3, CR)
- Circular interpolation with arc angle and center point (G2/G3, AR=)
- Circular interpolation with polar coordinates (G2/G3, AP=, RP=)
- Circular interpolation with intermediate and end points (CIP)
- Circular interpolation with tangential transition (CT)
- Helical interpolation (G2/G3, TURN=)
- Involute interpolation (INVCW, INVCCW)
- Contour definitions
- Two straight lines (ANG1, X3... Z3... ANG2)
- Three straight lines (ANG1, X3... Z3... ANG2, X4... Z4...)
- End point programming with angle
- Thread cutting with constant lead (G33)
- Programmable run-in and run-out paths (DITS, DITE)
- Linear progressive/degressive thread pitch change (G34, G35)
- Tapping without compensating chuck (G331, G332)
- Tapping with compensating chuck (G63)
- Stop with thread cutting (LFOF, LFON, LFTXT, LFWP, LFPOS)
- Lifting on retraction (LFTXT, LFWP, LFPOS, POLF, POLFMASK; POLFMLIN)
- Approaching a fixed point (G75)
- Travel to fixed stop (FXS, FXST, FXSW)
- Chamfer, rounding (CHF, CHR, RND, RNDM, FRC, FRCM)
- Exact stop (G60, G9, G601, G602, G603)
- Continuous-path mode (G64, G641, G642, G643, G644)
- Acceleration behavior
- Influence of acceleration on following axes (VELOLIMA, ACCLIMA, JERKLIMA)
- Technology G group (DYNNORM, DYNPOS, DYNROUGH, DYNSEMIFIN, DYNFINISH)
- Smoothing the path velocity
- Traversing with feedforward control, FFWON, FFWOF
- Contour accuracy, CPRECON, CPRECOF
- Dwell time, delay (G4, WRTPR)
- Internal preprocessing stop
- General
- Frame instructions
- Programmable zero offset
- Axial zero offset (G58, G59)
- Programmable rotation (ROT, AROT, RPL)
- Programmable frame rotations with solid angles (ROTS, AROTS, CROTS)
- Programmable scale factor (SCALE, ASCALE)
- Programmable mirroring (MIRROR, AMIRROR)
- Frame generation according to tool orientation (TOFRAME, TOROT, PAROT)
- Deselect frame (G53, G153, SUPA, G500)
- Deselect DRF (handwheel) offsets, overlaid motions (DRFOF, CORROF)
- Feedrate (G93, G94, G95 or F..., FGROUP, FGREF)
- Traversing positioning axes (POS, POSA, POSP, FA, WAITP, WAITMC)
- Position-controlled spindle operation (SPCON, SPCOF)
- Positioning spindles (SPOS, M19 and SPOSA, WAITS)
- Feedrate for positioning axes/spindles (FA, FPR, FPRAON, FPRAOF)
- Percentage feedrate override (OVR, OVRA)
- Feedrate with handwheel override (FD, FDA)
- Percentage acceleration override (ACC option)
- Feedrate optimization for curved path sections (CFTCP, CFC, CFIN)
- Spindle speed (S), direction of spindle rotation (M3, M4, M5)
- Constant cutting rate (G96/G961/G962, G97/G971/G972, G973, LIMS, SCC[AX])
- Constant grinding wheel peripheral speed (GWPSON, GWPSOF)
- Programmable spindle speed limitation (G25, G26)
- Multiple feedrate values in one block (F.., ST=.., SR=.., FMA.., STA
- Blockwise feed (FB...)
- Tool offsets in the control's offset memory
- List of tool types
- Tool selection/tool call T
- Tool change with M06 (mill)
- Tool offset D
- Tool selection T with tool management
- Turning machine with circular magazine (T selection)
- Milling machine with chain magazine (T selection)
- Tool offset call D with tool management
- Milling machine with chain magazine (D call)
- Activating the active tool offset immediately
- Contour approach and retraction (NORM, KONT, KONTC, KONTT)
- Compensation at the outside corners (G450, G451)
- Smooth approach and retraction
- Approach and retraction with enhanced retraction strategies (G460, G461, G462)
- Collision monitoring (CDON, CDOF, CDOF2)
- D tool compensation (CUT2D, CUT2DF)
- Tool length compensation for orientable toolholders (TCARR, TCOABS, TCOFR)
- Grinding-specific tool monitoring in parts programs (TMON, TMOF)
- Additive offsets
- Select offsets (via DL numbers)
- Specify wear and setup values ($TC_SCPxy[t,d], $TC_ECPxy[t,d])
- Delete additive offsets (DELDL)
- Special handling of tool offsets
- Mirroring of tool lengths
- Wear sign evaluation
- Tool length and plane change
- Tools with a relevant cutting edge length
- Special functions
- M functions
- H functions
- Arithmetic Parameters and Program Jumps
- Unconditional program jumps
- Conditional program jumps (IF, GOTOB, GOTOF, GOTO, GOTOC)
- Program section repetition
- Tables
- List of addresses
- List of G functions/preparatory functions
- List of predefined subprograms
- Predefined subroutine calls in motion-synchronous actions
- Predefined functions
- Data types
- A Appendix
- A.1 List of abbreviations
- A.2 List of abbreviations
- A.2.2 Overview
- Glossary
- Index
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Flexible NC programming
- Variable definition (DEF user-defined variables LUD, GUD, PUD)
- Array definitions (DEF, SET, REP)
- Indirect programming
- Tables
- Run string as parts program line (EXECSTRING)
- Assignments
- Arithmetic operations/functions
- Comparison and logical operations
- Precision correction on comparison errors (TRUNC)
- Priority of the operations
- Possible type conversions
- String operations
- Type conversion to STRING
- Type conversion of STRING
- Conversion to lower/upper case
- Look for character/string in the string
- Selection of a substring
- Selection of a single character
- CASE statement
- Control structures
- Program coordination
- Interrupt routine (SETINT, DISABLE, ENABLE, CLRINT)
- Axis replacement, spindle replacement (RELEASE, GET, GETD)
- Transfer axis to another channel (AXTOCHAN)
- NEWCONF: Setting machine data effective
- WRITE: Write file
- DELETE: Delete file
- READ: Read lines in the file
- ISFILE: File present in the NCK user memory
- FILEDATE/TIME/SIZE/STAT/INFO: File information
- CHECKSUM: Form the checksum over an array
- ROUNDUP: Round up
- Subroutines, Macros
- Subroutines with SAVE mechanism
- Subroutines with parameter transfer (PROC, VAR)
- Call subroutines (L or EXTERN)
- Parameterized subroutine return (RET)
- Subroutine with program repetition (P)
- Modal subroutine (MCALL)
- Indirect subroutine call (CALL)
- Repeating program sections with indirect programming (CALL)
- Indirect call of a program programmed in ISO language (ISOCALL)
- Calling subroutine with path specification and parameters (PCALL)
- Search path adaptation of the subroutines prepared during startup
- Execute external subroutine (EXTCALL)
- Subroutine call with M, T and D functions
- Suppress individual block (SBLOF, SBLON)
- Suppress current block display (DISPLOF)
- Cycles: Setting parameters for user cycles
- Macro technique (DEFINE...AS)
- File and Program Management
- Working memory
- Defining user data
- Protection levels for user data, MD, SD and NC commands
- Automatic activation of GUDs and MACs
- Change the protection data for the machine and setting data (REDEF MD, SD)
- Protection levels for NC commands (REDEF)
- REDEF Changing the attributes of the NC language elements
- SEFORM structuring statement in the Step editor
- Protection zones
- Activating, deactivating protection zones (CPROT, NPROT)
- Checking for protection zone violation, working area limitation and software limits
- Special Motion Commands
- Spline interpolation (ASPLINE, BSPLINE, CSPLINE, BAUTO, BNAT, BTAN)
- Spline grouping (SPLINEPATH)
- Compressor (COMPOF/ON, COMPCURV, COMPCAD)
- Polynomial interpolation (POLY, POLYPATH)
- Settable path reference (SPATH, UPATH)
- Measurements with touch trigger probe (MEAS, MEAW)
- Extended measuring function (MEASA, MEAWA, MEAC) (option)
- Special functions for OEM users (OEMIPO1, OEMIPO2, G810 to G829)
- Programmable servo parameter set (SCPARA)
- Coordinate transformation via frame variables
- Predefined frame variable ($P_BFRAME, $P_IFRAME, $P_PFRAME, $P_ACTFRAME)
- Frame variables / assigning values to frames
- Reading and changing frame components (TR, FI, RT, SC, MI)
- Linking complete frames
- Defining new frames (DEF FRAME)
- Coarse and fine offsets (CFINE; CTRANS)
- DRF offset
- External zero offset
- Preset offset (PRESETON)
- Deactivating frames (DRFOF, G53, G153, and SUPA)
- Frame calculation from three measuring points in space (MEAFRAME)
- NCU global frames
- Channel-specific frames ($P_CHBFR, $P_UBFR)
- Frames active in the channel
- General programming of transformation types
- Orientation movements for transformations
- Overview of orientation transformation TRAORI
- Three, four and five axis transformation (TRAORI)
- Variants of orientation programming and initial setting (OTIRESET)
- Programming of the tool orientation (A..., B..., C..., LEAD, TILT)
- Face milling (3D-milling A4, B4, C4, A5, B5, C5)
- Orientation axis reference (ORIWKS, ORIMKS)
- Programming the orientation axes (ORIAXES, ORIVECT, ORIEULER, ORIRPY)
- Orientation programming along the peripheral surface of a taper (ORIPLANE, ORICONxx)
- Orientation polynomials (PO[angle], PO[coordinate])
- Rotations of the tool orientation (ORIROTA, ORIROTR/TT, ORIROTC, THETA)
- Orientations relative to the path
- Interpolation of the tool rotation relative to the path (ORIROTC, THETA)
- Smoothing of orientation characteristic (ORIPATHS A8=, B8=, C8=)
- Compression of the orientation COMPON (A..., B..., C..., THETA)
- Online tool length compensation (TOFFON, TOFFOF)
- Kinematic transformation
- Cylinder surface transformation (TRACYL)
- Inclined axis (TRAANG)
- Inclined axis programming (G05, G07)
- Cartesian PTP travel
- PTP for TRANSMIT
- Constraints when selecting a transformation
- Deselect transformation (TRAFOOF)
- Chained transformations (TRACON, TRAFOOF)
- Replaceable geometry axes (GEOAX)
- Offset memory
- Language commands for tool management
- Online tool compensation (PUTFTOCF, PUTFTOC, FTOCON, FTOCOF)
- Keep tool radius compensation constant (CUTCONON)
- Activate 3D tool offsets (CUT3DC..., CUT3DF...)
- D tool radius compensation: peripheral milling, face milling
- Tool types/tool change with changed dimensions (G40, G41, G42)
- Compensation on the path, path curvature, and insertion depth ISD and tool status (CUT3DC)
- Inside corners/outside corners and intersection procedure (G450/G451)
- D circumferential milling with limitation surfaces general use
- Consideration of a limitation surface (CUT3DCC, CUT3DCCD)
- Tool orientation (ORIC, ORID, OSOF, OSC, OSS, OSSE, OSD, OST)
- Free assignment of D numbers, cutting edge numbers
- Checking D numbers (CHKDNO)
- Renaming D numbers (GETDNO, SETDNO)
- Deriving the T number from the specified D number (GETACTTD)
- Tool holder kinematics
- Tangential control (TANG, TANGON, TANGOF, TANGDEL)
- Coupled motion (TRAILON, TRAILOF)
- Curve tables (CTAB)
- Principal functions curve tables (CTABDEF, CTABEND, CTABDEL)
- Curve table forms (CTABDEL, CTABNOMEM, CTABFNO, CTABID, CTABLOCK CTABUNLOCK)
- Behavior at the edges of curve tables (CTABTSV, CTABTSP, CTABMIN, CTABMAX)
- Axial leading value coupling (LEADON, LEADOF)
- Feedrate response (FNORM, FLIN, FCUB, FPO)
- Program run with preprocessing memory (STARTFIFO, STOPFIFO, STOPRE)
- Conditionally interruptible program sections (DELAYFSTON, DELAYFSTOF)
- Preventing program position for SERUPRO (IPTRLOCK, IPTRUNLOCK)
- Repositioning at contour (REPOSA/L, REPOSQ/H, RMI, RMN, RMB, RME)
- Motion synchronous actions
- Programming and command elements
- Validity range: Identification number ID
- Cyclic checking of the condition
- Actions
- Operators for conditions and actions
- Main run variables for synchronized actions
- Implicit type conversion
- GUD variables for synchronous actions
- Default axis identifier (NO_AXIS)
- Synchronized action marker $AC_MARKER[n]
- Synchronized action parameters $AC_PARAM[n]
- Read and write NC machine and NC setting data
- Timer-Variable $AC_Timer[n]
- FIFO variable $AC_FIFO1[n] ... $AC_FIFO10[n]
- Information about the block types in the interpolator
- Actions in synchronized actions
- Output of auxiliary functions
- Cancel preprocessing stop (STOPREOF)
- Delete distance-to-go (DELDTG)
- Polynomial definition (FCTDEF)
- Synchronized function (SYNFCT)
- Clearance control with limited compensation $AA_OFF_MODE
- Online tool offset (FTOC)
- Online tool length offset ($AA_TOFF[tool direction])
- Positioning movements
- Position axis (POS)
- Position in specified reference range (POSRANGE)
- Start/stop axis (MOV)
- Axis replacement (RELEASE, GET)
- Axial feed (FA)
- Axis coordination
- Set actual values (PRESETON)
- Spindle motions
- Leading value coupling (LEADON, LEADOF)
- Measuring (MEAWA, MEAC)
- Initialization of array variables with SET, REP
- Set/delete wait markers with SETM, CLEARM
- Travel to fixed stop (FXS and FOCON/FOCOF)
- Determining the path tangent in synchronized actions
- Determining the current override
- Time use evaluation of synchronized actions
- Technology cycles
- Context variable ($P_TECCYCLE)
- Call by value parameters
- Control processing of technology cycles (ICYCOF, ICYCON)
- Cascading technology cycles
- IF check structures
- Lock, unlock, reset (LOCK, UNLOCK, RESET)
- Delete synchronized action (CANCEL)
- Restrictions
- Oscillation
- Control oscillation via synchronized actions
- Punching and nibbling
- Automatic path segmentation
- Path segmentation for path axes
- Path segmentation for single axes
- Additional functions
- Check scope of NC language present (STRINGIS)
- ISVAR ( ) function call and read machine array index
- Learn compensation characteristics (QECLRNON, QECLRNOF)
- Synchronous spindle
- Electronic gear (EG)
- Activate electronic gear (EGON)
- Deactivate electronic gear (EGOFS)
- Revolutional feedrate (G95)/electronic gear (FPR)
- Extended stop and retract
- Drive-independent responses to ESR
- NC-controlled reactions to retraction
- NC-controlled reactions to stoppage
- Drive-independent stopping
- Drive-independent retraction
- Link communication
- Access to a global NCU memory area
- Axis container (AXCTWE, AXCTWED)
- Program runtime/Workpiece counter
- Workpiece counter
- Interactive window call from parts program, command:
- Influencing the motion control
- Percentage velocity correction (VELOLIM)
- Master/slave grouping (MASLDEF, MASLDEL, MASLOF, MASLOF, MASLOFS)
- User stock removal programs
- Contour preparation (CONTPRON)
- Contour decoding (CONTDCON)
- Intersection of two contour elements (INTERSEC)
- Traversing a contour element from the table (EXECTAB)
- Calculate circle data (CALCDAT)
- List of statements
- Glossary
SINUMERIK 840D
Table of contents
SINUMERIK 840D
Table of contents
- SINUMERIK 840Di
- Table Of Contents
- SINUMERIK 840DE (export version)
- Flexible NC
- Subprograms, Macros
- File and Program
- Protection Zones
- Special Motion Commands
- Frames
- Transformations
- Tool Offsets
- Path Traversing Behavior
- Motion-Synchronous Action
- Oscillation
- Punching and Nibbling
- Additional Functions
- User Stock Removal Programs
- Tables
SINUMERIK 840D
Table of contents
- Table Of Contents
- SINUMERIK 840D powerline
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Introduction
- The product SINUMERIK 840D/810D
- Switching control system on and off
- Operating areas
- Operator Components/Operating Sequences
- Operator panels
- Operator panel keys
- Machine control panels
- Machine control panel keys
- Feedrate control
- Spindle control
- Key switch
- Program control
- Standard PC keyboard MF-II
- Mouse operability with HMI Embedded Win32
- Screen layout
- Global machine status display
- Program control display
- General operating sequences
- Selecting and opening directory/file
- Changing menu window
- Editing inputs/values
- Confirming/canceling input
- Channel switchover
- m:n communication links
- Pocket calculator
- Blue screen error status screen
- Operating Example
- Typical operating sequence
- Machine Operating Area
- Parameters
- Program
- Operating mode group and channels
- Selection of operating mode / changing operating mode
- Services
- General functions and displays
- Display program level
- Switching between the machine/workpiece coordinate system (MCS/WCS)
- Display axis feedrates
- Display spindles
- Display G functions, transformations and swivel data record
- Handwheel
- Set actual value
- Start-Up
- Inch/metric switchover
- Actual value display: Settable zero offset system, SZS
- Jog operating mode
- Traversing axes
- Inc: Incremental dimension
- Repos
- SI (Safety Integrated): User confirmation
- Determine scratching/zero offset
- Displaying system frames
- MDA operating mode
- Save program
- Automatic mode
- Execute program
- Program editing
- Setting block search/search destination
- Accelerated block search for execution from external source
- Overstoring
- DRF offset
- Parameters Operating Area
- Tool data
- Tool offset
- Create new tool
- Display tool
- Delete tool
- Create new cutting edge
- Find cutting edge
- Determine tool offsets
- Tool offsets with D-numbers only (flat D no.)
- Make active tool offset operative immediately
- Tool management
- Tool management basic display
- Select new tool
- Display and modify tool data
- Load tool
- Unloading of a tool
- Relocating a tool
- ShopMill tool management
- Function scope
- Select tool list
- Set up more than one edge for each tool
- Creating duplo/replacement tools
- Enter tool wear data
- Service
- Managing magazine locations
- Delete tools
- Load or unload tool in magazine
- Relocating tools
- Sorting tools in the tool list
- Tool management ShopTurn
- Setting up more than one cutting edge for each tool
- Sort tools
- Manage magazine locations
- R parameters
- Setting data
- Jog data
- Spindle data
- Dry run feedrate for DRY mode
- Other types of setting data
- Protection zones
- Zero offset
- Display zero/work offsets
- Changing the settable work/zero offset (G54 ...)
- Activate work/zero offset and basic frame immediately
- Global work/zero offset/frame (Basic WO)
- User data/user variables (GUD, PUD, LUD)
- Program Operating Area
- Program types
- Program basic display
- Operating data
- Edit programs
- Selective program protection: RO
- Hidden program lines: Display HD
- Defining and activating user data (GUD, LUD)
- Defining and activating user data (GUD, LUD) via RS-232 C
- Free contour programming
- Graphic representation of the contour
- Create contour
- Changing a contour
- Contour elements general
- Create, change, delete contour elements
- Help
- Parameter description of the contour elements line/circle and pole
- Programming example of free contour programming
- Program simulation
- Milling simulation before machining
- Milling simulation during machining
- Manage programs
- File types, blocks and directories
- Handling files
- Create new workpiece/part program
- Execute a program on the NC for execution
- Execute Program from network drive, compact flash card, disk
- Storing a program
- Copy file and insert
- Rename file
- Delete file
- Workpiece template" function
- EXTCALL
- Services Operating Area
- Function
- Data selection
- Formats for saving and importing data
- PC format binary format
- Interface parameterization
- Main services screen
- Setting the interface
- Reading in data via RS-232 interface
- Inserting data from the clipboard
- Reading out data via RS-232 interface
- Reading out PLC alarm texts and cycle texts
- Execution from external source via RS-232 interface
- Restoring the original status via NC card
- Saving data to NC card
- Series start-up
- Upgrading
- Diagnosis Operating Area
- Basic display diagnosis
- Displaying alarms and messages
- Service display
- Service drive
- Service safety integrated
- Display and modify system resources
- Display version data
- Displaying loadable compile cycles
- General
- Change/delete operand value
- Selecting/creating operand forms for PLC status
- Setting the time/date
- Activate remote diagnosis
- Start-Up Operating Area
- Start-up basic display
- Display machine data
- Display options: Masking filter
- NC settings
- PLC settings
- Change HMI surface
- Traverse log
- Change language
- Initiate NCK reset
- Display or modify system resources
- A Abbreviations
- C References
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- SINUMERIK 840D/810D Operator's Guide ManualTurn (BAM) – 08.02 Edition
- Siemens AG, 2002. All rights reserved
- Introduction
- The ManualTurn product
- Operator notes
- Switching on/switching off
- Operation
- Operator panels
- Machine control panel
- Mini handheld unit
- Graphics interface
- Operating system
- Operating modes
- Important function keys
- Important soft keys
- Pocket calculator
- Absolute and incremental dimensions
- Angle reference system
- Tool and cutting data
- Preparatory Functions for Machining
- Approach reference points
- Setup
- Incremental feed mode
- Offsets
- Preset
- Manual offset
- Delete manual offset
- Zero offset
- Spindle speed limitation
- Oriented spindle stop
- Tool
- Selecting/deselecting tool offset
- Measure tool
- Tool wear compensation
- Measuring system changeover inch/metric
- Turning Simple Contours
- Turning in manual mode
- Turning with path dimension input
- Turning with STRAIGHT mode
- Turning with CONICAL mode
- Turning with CIRCLE mode
- Turning with the contour handwheel and JOG keys +/–
- Turning with Cycles
- General notes
- Turning cycles in CYCLE mode
- Controlling thread cutting operations
- Re-working a thread
- Undercuts Form E and F
- Thread undercuts
- Drilling in longitudinal axis (center)
- Hole circle drilling
- Stock removal/grooving cycles in STOCK REMOVAL mode
- Grooving cycles
- Turning any Contours (Free Contour Input)
- Create new contour
- Symbolic representation of contour
- Graphic representation of contour
- Create contour elements
- Editing contour elements
- Stock removal against contour
- Machining residual material
- Single-cycle machining
- Program Creation with EasyStep and G Code
- Parts Program
- Creating a machining sequence
- Display machining sequence
- Program steps
- Special functions
- Insert G code step
- Program editor
- Switching off the program
- Single-step mode (single block)
- Tool nose radius compensation
- G code programming
- G code editor
- Create new parts program
- Editing program blocks
- Parts Program Management
- General
- Select a file
- Storing thread undercut and thread cycles
- Rename/copy file
- Error/transmission log
- General Functions
- Simulation and simultaneous recording
- Simulation
- Simultaneous recording
- Teach In
- Deselecting "Teach In"
- Transferring machining steps to system
- Transferring auxiliary functions to system
- Standard CNC operation
- Intervention in the Machining Process
- Aborting a machining operation
- Repositioning
- Saving manual offset with "Store offset" function
- Alarms and Messages
- Alarms and messages in ManualTurn cycles
- Messages in cycles
- Alarms with ManualTurn
- Description of alarms
- Examples
- Example 1: External machining with groove and thread
- Example 2: External machining with sphere
- Example 3: External machining with thread undercuts and grooves
- Example 4: External machining with thread undercut and groove
- Appendix
- A Abbreviations
- C References
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Delivery condition of the system
- Hard disk partitions
- system settings
- User administration
- Change service user
- Global user settings
- Specific user settings
- Boot up behavior of the PCU
- Boot up of the PCU: HMI program already installed
- BIOS settings
- Service menu functions (DOS function)
- Parameterizing the service menu (DOS)
- Operating the main menu
- Setting the SINUMERIK HMI environment
- Starting DOS shell and checking the software version
- Starting the service desktop
- Checking the hard disk
- Configuring the operator interface
- Displaying your own boot screen
- User-specific settings during boot up
- Starting service des ktop during boot up
- Starting OEM programs
- PCU with SITOP UPS module
- Starting and configuring the SITOP monitor
- Configuration of the SITOP UPS module
- Configuration for exiting the HMI
- Installing software and software update
- Silently" installing an upgrade or Service Pack
- Installation with FAT16 data file structure
- Installation with FAT32 data file structure
- Installation via network connection
- Settings for network drives
- Network operation with the Service desktop
- Installing and authorizing SIMATIC STEP 7
- Authorizing SIMATIC STEP 7 via the Service menu
- Backing up and Restoring Data
- Restoring the PCU hard disk from the PG/PC hard disk
- Commissioning a replacement hard disk
- Backing up and restoring PCU partitions locally
- Backing up partitions
- Restoring partitions
- Restoring Partition E: (Windows) on the PCU
- Deleting the backup image
- Defining an emergency backup image
- Restoring the emergency backup on partition E:
- Backing up/restoring data with a TCU configuration
- Index
SINUMERIK 840D
Table of contents
- Table Of Contents
- intended use
- explanation of symbols
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Introduction
- User interface
- user interface
- Display
- Status indicator
- Dialog window
- Machine control keys
- Softkeys
- Cursor block
- Menus/operating areas
- Parameters operating area
- Tool offset
- Correcting tool data
- Create new tool/new cutting edge
- R parameters
- Setting data
- Channel-specific setting data
- Axis-specific setting data
- Settable zero offset
- Offset (ZO)
- Rotation/Scale/Mirroring (ZO)
- User data
- Displaying and modifying user data
- Search user data
- Program operating area
- Directories
- Workpiece overview
- Create new workpiece
- Create new file
- Parts programs/subroutines
- Cycles
- memory information
- Edit program
- Text search
- Positioning the cursor
- Manual Mode – Operating Area Machine
- Reference point approach
- Machine operating area
- Repositioning
- MDA operating mode
- Automatic Mode – Operating Area Machine
- Current block
- Program level
- Overstoring
- Program control
- Teach-In
- Block selection
- Inserting a block
- Inserting a block – circular motion
- Inserting a block - A-Spline (option)
- Changing a block
- Replacing a block
- Correction mode
- Services
- Selecting a target directory
- Transfer
- Save to clipboard
- Fault log
- RS-232-C settings
- RS-232-C settings, special functions
- Output data
- Messages, Service Displays, PLC Data – Operating Area Diagnosis
- Diagnostics
- Messages
- Service axes
- NC utilization
- Communications log
- NCU version data
- HMI version data
- PLC status
- Date/time
- Remote diagnosis
- Start-Up
- General
- Operating areas
- Channel-specific machine data
- Drive configuration
- Display-specific machine data
- NC startup
- HMI startup
- Language selection
- Action log
- Setting the system parameters
- LCD contrast
- Processing the password
- Appendix
- A Abbreviations
- Functionality
- C References
- Handling information
SINUMERIK 840D
Table of contents
- SINUMERIK 840Di
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- SINUMERIK 810D
- Drilling Cycles and
- Siemens AG 2000 All rights reserved
- Milling Cycles
- General information
- Turning Cycles
- Cycle auxiliary subroutines
- Programming cycles
- Machine data
- Messages during execution of a cycle
- Cycle call and parameter list
- Simulation of cycles
- Cycle support in program editor (SW 4.3 and later)
- Overview of important files
- Configuring cycle selection
- Configuring input screenforms for parameter assignment
- Configuring help displays
- Configuring tools (MMC 100 only)
- Loading to the control
- Independence of language
- Operating the cycles support function
- Integrating user cycles into the MMC 103 simulation function
- Cycles support in the program editor (SW 5.1 and later)
- New functions in input screenforms
- Drilling Cycles and Drilling Patterns
- Drilling cycles
- Preconditions
- Drilling, centering – CYCLE81
- Drilling, counterboring – CYCLE82
- Deep-hole drilling – CYCLE83
- Rigid tapping – CYCLE84
- Tapping with compensating chuck – CYCLE840
- Boring 1 – CYCLE85
- Boring 2 – CYCLE86
- Boring 3 – CYCLE87
- Modal call of drilling cycles
- Drill pattern cycles
- Row of holes – HOLES1
- Hole circle – HOLES2
- Dot matrix – CYCLE801 (SW 5.3 and later)
- Thread cutting - CYCLE90
- Elongated holes on a circle - LONGHOLE
- Slots on a circle - SLOT1
- Circumferential slot - SLOT2
- Milling rectangular pockets - POCKET1
- Milling circular pockets - POCKET2
- Milling rectangular pockets - POCKET3
- Milling circular pockets - POCKET4
- Face milling - CYCLE71
- Path milling - CYCLE72
- Milling rectangular spigots - CYCLE76 (SW 5.3 and later)
- Milling circular spigots - CYCLE77 (SW 5.3 and later)
- Pocket milling with islands - CYCLE73, CYCLE74, CYCLE75 (SW 5.2 and later)
- Transfer pocket edge contour - CYCLE74
- Transfer island contour - CYCLE75
- Contour programming
- Pocket milling with islands - CYCLE73
- Grooving cycle – CYCLE93
- Undercut cycle – CYCLE94
- Stock removal cycle – CYCLE95
- Thread undercut – CYCLE96
- Thread cutting – CYCLE97
- Thread chaining – CYCLE98
- Thread recutting (SW 5.3 and later)
- Extended stock removal cycle - CYCLE950 (SW 5.3 and later)
- Error Messages and Error Handling
- Overview of cycle alarms
- Messages in the cycles
- Appendix
- A Abbreviations
- C References
SINUMERIK 840D
Table of contents
- Table Of Contents
- SINUMERIK 840D/840Di/810D Operator's Guide CAD Reader (CAD) – 03.02 Edition
- Appendix
- Introduction
- The CAD Reader product
- Scope of application
- Formats
- How to Use the CAD Reader
- General operating procedures
- Define the zero point
- Drill points
- Process an imported file
- Additional Settings
- Additional settings and displays
- Example of Application
- Example of application for a contour trace
- SINUMERIK 840Di
- SINUMERIK 810D
- I.1 Keyword Index
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- General Preparations
- Configuration
- Mechanical configuration
- Mains infeed module
- PLC Start-Up
- General configuration of SINUMERIK 840D system
- Motor connection
- Encoder connection
- Connection of MMC100 and MMC102/103
- Configuration of components for digitizing
- Settings, MPI/OPI
- MPI/OPI, network rules
- Standard configuration
- Standard configuration as from SW 3.2
- Connection to OPI bus
- Connection to MPI bus
- Example of a configuration of MCP and HHU via OPI
- Example of a configuration of HHU via MPI
- Handheld unit
- Settings on the HHU for software version 4.x and higher
- Example: Connecting the HHU to the SINUMERIK 840D
- Handheld programming unit
- Interface signals of the HPU
- Standard configuration of the HPU (without MCP)
- Machine control panel (MCP)
- Customer operator panel interface
- Second machine control panel
- Language default
- EMC / ESD Measures
- Measures to protect ESD-sensitive components
- Power On and Power-Up
- Startup sequence
- Power on
- MMC100 – MMC102/103 power-up
- Error during control power-up (NC)
- Machine control panel (MCP) power-up
- Assigning Parameters to the Control and the PLC Program
- Machine and setting data
- Handling machine and setting data
- Protection level concept
- Machine data masking filter (SW 4.2 and higher)
- Saving the filter settings
- Example of start-up design concept
- System data
- Memory configuration
- Dynamic RAM memory
- Static RAM memory
- Scaling machine data
- Axes and spindles
- Drive configuration (FDD, SLM, MSD)
- Setting the axis-specific setpoint/actual value parameters
- Drive parameterization (FDD, MSD)
- Parameterization of incremental measuring systems
- Drive Optimization
- Axis data
- Velocity matching (axis)
- Position controller data (axis)
- Monitoring functions (axis)
- Reference point approach (axis)
- Spindle data
- Spindle configuration
- Speeds and setpoint adjustment for spindle
- Spindle positioning
- Spindle synchronization
- Spindle monitoring
- Example: Start-up of NCK I/O devices
- Linear motors (1FN1 and 1FN3 motors)
- Start-up: Linear motor with one primary part
- Start-up: Linear motors with 2 identical primary parts
- Mounting dimensions
- Temperature sensors for 1FN1 and 1FN3 motors
- Measuring system
- Parallel connection of linear motors
- Test measurements on linear motor
- AM / U/F function
- System settings for power up, RESET and part program start
- Overview of organization blocks, function blocks and DBs
- Alarm and Message Texts
- Alarm text files for MMC 102/103
- Alarm text files for HPU
- Syntax for alarm text files
- Properties of alarm list
- Axis and Spindle Dry Run
- Axis test run
- Testing the spindle
- Drive Optimization with Start-Up Tool
- Instructions for use
- System requirements
- Starting the program
- Measuring functions
- Interface signals Traverse request and Motion enable drive test
- Aborting measuring functions
- Frequency response measurement
- Measurement of speed control loop
- Measurement of position control loop
- Graphic display
- Gantry axes (SW 5.1 and later)
- Trace function (SW 4.2 and higher)
- Operation, basic display
- Parameterization
- Performing measurement
- Display function
- File function
- Print graph
- Analog output (DAC)
- Flow chart for self-optimization
- Input options for self-optimization
- Data Backup
- Data backup via MMC 100
- Data backup via MMC 102/103
- Data backup via V24 on the MMC 102/103
- Output of drive data via V24 on MMC102/103
- Output of drive data via V24 on the MMC102/103
- PLC data output via V24 on MMC102/103
- Output of the series start-up file via V24 on MMC102/103
- Back up hard disk via Norton GhostR (SW 4.4 and higher)
- Saving user data
- Restore data to hard disk
- Several SW versions on one MMC 103 (SW 5.2 and higher)
- Installing a replacement hard disk (SW 4.4 and higher)
- Line checksums (MD 11230 MD_FILE_STYLE)
- Machine data numbers
- Machine/setting data
- Software and Hardware Replacement
- Upgrading the MMC 100/100.2/101 software
- Upgrade of MMC 102/103 software Version 4.x or earlier
- Upgrading the NC
- Series start-up via NC card (SW 4.4 and higher)
- SINUCOPY–FFS (SW 4.4 and higher)
- Hardware replacement
- Miscellaneous
- Machine data access via part program
- A Abbreviations
- B References
SINUMERIK 840D
Table of contents
- Table Of Contents
- SINUMERIK 840D powerline
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Introduction
- The SINUMERIK 840D/810D system
- Operator Components
- Notes on handling
- Activation/deactivation
- Operator Components/Sequence of Operations
- Operator panels
- OP 010S operator panel
- OP 012 operator panel
- Full standard keyboard
- Operator panel keys
- Machine control panels
- Machine control panel keys
- Feed control
- Spindle control
- Keyswitch
- Program control
- Screen layout
- Global machine status display
- Program control display
- General sequence of operation
- Switch menu window
- Select directory/file
- Edit input/values
- Confirm/cancel input
- Editing part programs in the ASCII editor
- Switch channel
- m:n Communication links
- Pocket calculator
- Help
- Editor help
- Quick help for program commands
- Extended help for program commands
- Job list
- Syntax description for job lists
- Example of a job list with two-channel 1:1 connections
- Example of a job list with multi-channel m:n connections
- Execute job list" operating sequence
- Rename workpieces with job lists
- Copy workpieces with job lists
- Example of Operation
- Machine Operating Area
- Data structure of the NC control
- Operating modes and machine functions
- Mode groups and channels
- Channel-wide status display with symbols (SW 6.2 and higher)
- Dual-channel display (SW 6.4 and higher)
- Operating mode selection/change
- Services
- General functions and displays
- Display program level
- Toggling between Machine/Work (MCS/WCS)
- Display axis feeds
- Display auxiliary functions
- Display spindles
- Handwheel
- Status of synchronized actions
- Preset
- Setting the actual value
- Inch/metric switchover
- Reference point approach
- JOG mode
- Traverse the axes
- Inc: Incremental dimensions
- Repos (repositioning)
- SI (Safety Integrated): User agreement
- Scratching (SW 6 or higher)
- Scratching (SW 5 and lower)
- Display system frames
- MDI mode
- Save program, file function
- Teach-in
- Automatic mode
- Program Overview
- Loading and unloading the workpiece/part program
- Log: Loading list of the programs
- Executing programs from the hard disk
- Access to external network drive
- Program editing
- Block search/setting the search destination
- Accelerated external block search
- Block search in program testing mode, multi-channel
- Overstore
- DRF offset
- Parameters" Operating Area
- Tool data
- Tool offsets
- New tool
- Display tool
- Delete tool
- New cutting edge
- Delete cutting edge
- Activate tool offset immediately
- Tool management
- Basic tool management functions
- Modifying/changing tool data
- Change of meaning/representation of tool wear data
- Grinding parameters extension in SW 6.2 or later
- Loading
- Unload
- Relocation
- Tool master data in the tool catalog
- Tool offset data in the tool cabinet
- Batch processing of tools
- R parameters (arithmetic parameters)
- Setting data
- Jog data
- Spindle data
- Dry run feedrate for dry run DRY
- Starting angle for thread cutting
- Other types of setting data
- Protection zones
- Electronic gears (SW 6.3 and higher)
- Work offset
- Changing the settable work offset (G54 ...)
- Display active settable work offset
- Display active programmable work offset
- Display active work offset external
- Immediately activate work offset and basic frame
- Service
- Changing/finding user data/user variables
- Display system variables
- Creating/editing variable views
- Manage variable views
- Program" Operating Area
- Program types
- Storing programs
- Edit programs
- Undo and redo in the editor (from SW 6.3)
- Selective program protection: *RO*
- Reserved character strings
- Free contour programming
- Program contour
- Contour elements
- Graphic representation of the contour
- Input screens for setting parameters for contour elements
- Specifying contour elements in polar coordinates, closing the contour
- Undercuts in turning technology
- Parameter description of straight line/circle contour elements
- Examples of user-defined contour programming
- Cycle support
- Display in the step editor (option from SW 6.4)
- Program relationship in the dual editor (from SW 6.4)
- Synchronized display in the dual-step editor
- Multi-channel step display (option from SW 6.4)
- Program simulation
- Simulation operation
- Simulation settings
- Setting downtimes
- Display and colors
- Section by section simulation
- Multi-channel, section by section program simulation
- Simulation with orientable toolholder
- Quick display in the simulation for mold making
- Simulation with external network drive
- Manage programs
- NC data types and directories
- New workpiece/part program
- Saving setup data
- Select program for execution
- Load/unload program
- Copy/paste
- Delete
- Rename
- Enabling
- Accessing an external network drive/computer
- Services" Operating Area
- Function
- Hard disk
- Directories
- Data selection
- Formats for saving and importing data
- Punched tape format
- PC format
- RS-232 interface parameters
- Interface parameters
- Operation
- Setting the RS-232 interface
- Reading in data
- Reading out data
- Manage data
- Creating a new file/directory
- Deleting
- Changing the properties of a file/drive/archive
- Defining and activating user data (GUD)
- Start-up functions
- Restoring the original state via NC card
- Upgrade
- Diagnosis" Operating Area
- Diagnostics main screen
- Alarms/messages/alarm log
- Service display
- Service axis
- Service drive
- Service Safety Integrated
- Configuration data
- Action log
- Sorting and saving version information
- Displaying the version screen for cycles (from SW 6.3)
- Display cycle versions (from SW 6.3)
- Displaying loadable compile cycles (from SW 6.3)
- PLC status
- Changing/deleting values
- Symbolic PLC addresses
- Selecting/creating operand screens for PLC status
- File functions
- Displaying NC system resources
- Startup" Operating Area
- Machine data
- Display options: suppression filter
- User views
- Set time/clock
- Drives/servo
- Changing the HMI interface
- System settings
- Transferring display MD from HMI Embedded
- Maintenance
- Operating data
- Cleaning
- Appendix
- A Abbreviations
- C References
- E Commands, identifiers
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- ã Siemens AG, 2002. All rights reserved
- SINUMERIK 840D powerline
- ã Siemens AG, 2002. All rights reserved SINUMERIK 840D/840Di/810D Programming Guide Cycles (PGZ) – 11.02 Edition
- General
- General information
- Drilling cycles, drill pattern cycles, milling cycles and turning cycles
- Cycle auxiliary subroutines
- Programming cycles
- Messages during execution of a cycle
- Cycle call and parameter list
- Simulation of cycles
- Cycle support in program editor (SW 4.3 and higher)
- Overview of important files
- Configuring cycle selection
- Configuring input screen forms for parameter assignment
- Configuring help displays
- Configuring tools (MMC 100 / MMC 100.2 only)
- Loading to the control
- Independence of language
- Operating the cycles support function
- Typical user cycle configuration
- Cycle support in program editor (SW 5.1 and higher)
- New functions in input screen forms
- Drilling Cycles and
- Milling Cycles
- Cycle support for user cycles (SW 6.2 and higher)
- Cycle support configuration
- Bitmap size and screen resolution
- Storing bitmaps in data management for HMI Advanced
- Cycle startup (SW 6.2 and higher)
- Definition files for the cycles GUD7.DEF and SMAC.DEF
- New form of delivery for cycles in HMI Advanced
- Special functions for cycles
- Drilling Cycles and Drilling Patterns
- Drilling cycles
- Preconditions
- Drilling, centering – CYCLE81
- Drilling, counterboring – CYCLE82
- Deep-hole drilling – CYCLE83
- Rigid tapping – CYCLE84
- Tapping with compensating chuck – CYCLE840
- Boring 1 – CYCLE85
- Boring 2 – CYCLE86
- Boring 3 – CYCLE87
- Boring 4 – CYCLE88
- Boring 5 – CYCLE89
- Modal call of drilling cycles
- Drill pattern cycles
- Row of holes – HOLES1
- Hole circle – HOLES2
- Dot matrix – CYCLE801 (SW 5.3 and higher)
- Thread cutting – CYCLE90
- Elongated holes on a circle – LONGHOLE
- Slots on a circle – SLOT1
- Circumferential slot – SLOT2
- Milling rectangular pockets – POCKET1
- Milling circular pockets – POCKET2
- Milling rectangular pockets – POCKET3
- Milling circular pockets – POCKET4
- Face milling – CYCLE71
- Path milling – CYCLE72
- Milling rectangular spigots – CYCLE76 (SW 5.3 and higher)
- Milling circular spigots – CYCLE77 (SW 5.3 and higher)
- Pocket milling with islands – CYCLE73, CYCLE74, CYCLE75 (SW 5.2 and higher)
- Transfer pocket edge contour – CYCLE74
- Transfer island contour – CYCLE75
- Contour programming
- Pocket milling with islands – CYCLE73
- Swiveling – CYCLE800 (SW 6.2 and higher)
- Operation, parameter assignment, input screen form
- Operating instructions
- Parameters
- Starting up CYCLE800
- User cycle TOOLCARR.spf
- Error messages
- High Speed Settings – CYCLE832 (SW 6.3 and higher)
- Calling CYCLE832 in the HMI menu tree
- Customizing technology
- Interfaces
- Turning Cycles
- Grooving cycle – CYCLE93
- Undercut cycle – CYCLE94
- Stock removal cycle – CYCLE95
- Thread undercut – CYCLE96
- Thread cutting – CYCLE97
- Thread chaining – CYCLE98
- Thread recutting (SW 5.3 and higher)
- Extended stock removal cycle – CYCLE950 (SW 5.3 and higher)
- Error Messages and Error Handling
- Overview of cycle alarms
- Messages in the cycles
- Appendix
- A Abbreviations
- C References
- E Identifiers
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Description of workpiece points
- Definition of workpiece positions
- Polar coordinates
- Incremental dimension
- Plane designations
- Position of zero points
- Position of coordinate systems
- Machine coordinate system
- Basic coordinate system
- Workpiece coordinate system
- Frame system
- Assignment of workpiece coordinate system to machine axes
- Current workpiece coordinate system
- Axes
- Main axes/Geometry axes
- Special axes
- Channel axes
- Synchronized axes
- Command axes
- Lead link axes
- Coordinate systems and workpiece machining
- Structure and contents of an NC program
- Language elements of the programming language
- Programming a sample workpiece
- First programming example for milling application
- Second programming example for milling application
- Programming example for turning application
- General notes
- Absolute/relative dimensions
- Incremental dimensions (G91, X=IC)
- Absolute dimension for rotary axes (DC, ACP, ACN)
- Dimensions inch/metric, (G70/G700, G71/G710)
- Special turning functions
- Position of workpiece
- Zero offset (frame), G54 to G57, G505 to G599, G53, G500/SUPA
- Selection of working plane (G17 to G19)
- Working area limitation (G25/G26, WALIMON, WALIMOF)
- Reference point approach (G74)
- Travel commands with polar coordinates, polar angle, polar radius
- Traversing commands with polar coordinates, (G0, G1, G2, G3 AP=..., RP=...)
- Rapid traverse movement (G0, RTLION, RTLIOF)
- Linear interpolation (G1)
- Circular interpolation types, (G2/G3, CIP, CT)
- Circular interpolation with center point and end point (G2/G3, I=, J=, K=AC...)
- Circular interpolation with radius and end point (G2/G3, CR)
- Circular interpolation with arc angle and center point (G2/G3, AR=)
- Circular interpolation with polar coordinates (G2/G3, AP=, RP=)
- Circular interpolation with intermediate and end points (CIP)
- Circular interpolation with tangential transition (CT)
- Helical interpolation (G2/G3, TURN=)
- Involute interpolation (INVCW, INVCCW)
- Contour definitions
- Two straight lines (ANG1, X3... Z3... ANG2)
- Three straight lines (ANG1, X3... Z3... ANG2, X4... Z4...)
- End point programming with angle
- operating principle
- Programmable run-in and run-out paths (DITS, DITE)
- Linear progressive/degressive thread pitch change (G34, G35)
- Tapping without compensating chuck (G331, G332)
- Tapping with compensating chuck (G63)
- Stop with thread cutting(LFOF, LFON, LFTXT, LFWP, LFPOS)
- Lifting on retraction (LFTXT, LFWP, LFPOS, POLF, POLFMASK; POLFMLIN)
- Approaching a fixed point (G75)
- Travel to fixed stop (FXS, FXST, FXSW)
- Chamfer, rounding (CHF, CHR, RND, RNDM, FRC, FRCM)
- Exact stop (G60, G9, G601, G602, G603)
- Continuous-path mode (G64, G641, G642, G643, G644)
- Acceleration behavior
- Influence of acceleration on following axes (VELOLIMA, ACCLIMA, JERKLIMA)
- Technology G groups (DYNNORM, DYNPOS, DYNROUGH, DYNSEMIFIN, DYNFISH)
- Smoothing the path velocity
- Traversing with feedforward control, FFWON, FFWOF
- Contour accuracy, CPRECON, CPRECOF
- Dwell time, G4
- Internal preprocessor stop
- General
- Frame instructions
- Programmable zero offset
- Axial zero offset (G58, G59)
- Programmable rotation (ROT, AROT, RPL)
- Programmable frame rotations with solid angles (ROTS, AROTS, CROTS)
- Programmable scale factor (SCALE, ASCALE)
- Programmable mirroring (MIRROR, AMIRROR)
- Frame generation according to tool orientation (TOFRAME, TOROT, PAROT)
- Deselect frame (G53, G153, SUPA, G500)
- Deselect DRF (handwheel) offsets, overlaid motions and transformation (DRFOF, CORROF TRAFOOF)
- Feedrate (G93, G94, G95 or F..., FGROUP, FGREF)
- Traversing positioning axes (POS, POSA, POSP, FA, WAITP, WAITMC)
- Position-controlled spindle operation (SPCON, SPCOF)
- Positioning spindles (position-controlled axis operation) (SPOS, M19 and SPOSA)
- Milling on turned parts (TRANSMIT)
- Cylinder surface transformation (TRACYL)
- Feedrate for positioning axes/spindles (FA, FPR, FPRAON, FPRAOF)
- Percentage feedrate override (OVR, OVRA)
- Feedrate with handwheel override (FD, FDA)
- Percentage acceleration override (ACC option)
- Feedrate optimization for curved path sections (CFTCP, CFC, CFIN)
- Spindle speed (S), direction of spindle rotation (M3, M4, M5)
- Constant cutting rate (G96, G961, G97, G971, LIMS)
- Constant grinding wheel peripheral speed (GWPSON, GWPSOF)
- Programmable spindle speed limitation (G25, G26)
- Multiple feedrate values in one block (F.., ST=.., SR=.., FMA.., STA=.., SRA=..)
- Blockwise feed (FB...)
- Tool offsets in the control's offset memory
- List of tool types
- Tool selection/tool call T
- Tool offset D
- Tool selection T with tool management
- Turning machine with circular magazine (T selection)
- Milling machine with chain magazine (T selection)
- Tool offset call D with tool management
- Milling machine with chain magazine (D call)
- Activating the active tool offset immediately
- Tool radius compensation (G40, G41, G42)
- Contour approach and retraction (NORM, KONT, KONTC, KONTT)
- Compensation at the outside corners (G450, G451)
- Smooth approach and retraction
- Approach and retraction with enhanced retraction strategies (G460, G461, G462)
- Collision monitoring (CDON, CDOF, CDOF2)
- ½ D tool offset (CUT2D, CUT2DF)
- Tool length compensation for orientable toolholders (TCARR, TCOABS, TCOFR)
- Grinding-specific tool monitoring in parts programs (TMON, TMOF)
- Additive offsets
- Specify wear and setup values ($TC_SCPxy[t,d], $TC_ECPxy[t,d])
- Delete additive offsets (DELDL)
- Special handling of tool offsets
- Mirroring of tool lengths
- Wear sign evaluation
- Tool length and plane change
- Tools with a relevant cutting edge length
- Special functions
- M functions
- H functions
- Arithmetic Parameters and Program Jumps
- Unconditional program jumps
- Conditional program jumps (IF, GOTOB, GOTOF, GOTO, GOTOC)
- Subprograms and Repetition of Program Sections
- Subprogram call
- Subprogram with program repetition
- Program section repetition
- Tables
- List of addresses
- List of G functions/preparatory functions
- List of predefined subprograms
- Predefined subprogram calls in motion-synchronous actions
- Predefined functions
- Data types
- A.1 Abbreviations
- Glossary
SINUMERIK 840D
Table of contents
- Preface
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Product overview
- Operator panel fronts
- Keys of the operator panel
- Machine control panels
- User interface
- Status display
- Actual value window
- T,F,S window
- Current block display
- Operation via softkeys and buttons
- Entering or selecting parameters
- Pocket calculator
- Context menu
- Touch operation
- Entering Asian characters
- Tool management
- Online help in SINUMERIK Operate
- Switching on and switching off
- Approaching a reference point
- User agreement
- Operating modes
- Modes groups and channels
- Settings for the machine
- Switching the unit of measurement
- Setting the work offset
- Measuring the tool
- Measuring the tool length with the workpiece as reference point
- Measuring radius or diameter
- Fixed point calibration
- Measuring a tool with an electrical tool probe
- Calibrating the electrical tool probe
- Measuring the workpiece zero
- Sequence of operations
- Examples with manual swivel
- Calibrating the electronic workpiece probe
- Setting the edge
- Edge measurement
- Measuring a corner
- Measuring a pocket and hole
- Measuring a spigot
- Aligning the plane
- Defining the measurement function selection
- Corrections after measurement of the zero point
- Work offsets
- Display active zero offset
- Displaying the work offset "overview
- Displaying and editing base zero offset
- Displaying and editing settable zero offset
- Displaying the zero offset details
- Deleting a work offset
- Monitoring axis and spindle data
- Editing spindle data
- Displaying setting data lists
- Handwheel assignment
- Loading an MDA program from the Program Manager
- Saving an MDA program
- Executing an MDA program
- Deleting an MDA program
- General
- Selecting a tool
- Starting and stopping a spindle manually
- Position spindle
- Traversing axes
- Traversing axes by a variable increment
- Positioning axes
- Swiveling
- Simple face milling of workpiece
- Default settings for manual mode
- Machining the workpiece
- Selecting a program
- Testing a program
- Displaying the current program block
- Displaying a basic block
- Display program level
- Correcting a program
- Repositioning axes
- Starting machining at a specific point
- Continuing program from search target
- Defining an interruption point as search target
- Entering the search target via search pointer
- Parameters for block search in the search pointer
- Block search mode
- Intervening in the program sequence
- Skip blocks
- Overstore
- Editing a program
- Searching in programs
- Replacing program text
- Copying/pasting/deleting a program block
- Renumber program
- Editor settings
- Displaying G Functions and Auxiliary Functions
- All G functions
- Auxiliary functions
- Displaying the program runtime and counting workpieces
- Setting for automatic mode
- Overview
- Simulation before machining of the workpiece
- Simultaneous recording before machining of the workpiece
- Simultaneous recording during machining of the workpiece
- Different views of a workpiece
- Side views
- Editing the simulation display
- Program control during the simulation
- Simulating the program block by block
- Changing and adapting a simulation graphic
- Panning a graphical representation
- Rotating the graphical representation
- Modifying the viewport
- Defining cutting planes
- Displaying simulation alarms
- Graphical programming
- Program views
- Program structure
- Basics
- Programming a tool (T)
- Generating a G code program
- Blank input
- Machining plane, milling direction, retraction plane, safe clearance and feedrate (PL, RP SC, F)
- Selection of the cycles via softkey
- Calling technology functions
- Checking cycle parameters
- Additional functions in the input screens
- Measuring cycle support
- Creating a ShopMill program
- Basic information
- Polar coordinates
- Program header
- Generating program blocks
- Tool, offset value, feed and spindle speed (T, D, F, S, V)
- Defining machine functions
- Call work offsets
- Specifying the number of workpieces
- Changing program blocks
- Changing program settings
- Checking input parameters
- Example, standard machining
- Workpiece drawing
- Results/simulation test
- G code machining program
- Drilling
- Centering (CYCLE81)
- Drilling (CYCLE82)
- Reaming (CYCLE85)
- Deep-hole drilling (CYCLE83)
- Boring (CYCLE86)
- Drill and thread milling (CYCLE78)
- Positioning and position patterns
- Arbitrary positions (CYCLE802)
- Position pattern Line (HOLES1), Grid or Frame (CYCLE801)
- Circle position pattern (HOLES2)
- Repeating positions
- Milling
- Rectangular pocket (POCKET3)
- Circular pocket (POCKET4)
- Rectangular spigot (CYCLE76)
- Circular spigot (CYCLE77)
- Multi-edge (CYCLE79)
- Longitudinal groove (SLOT1)
- Circumferential groove (SLOT2)
- Open groove (CYCLE899)
- Long hole (LONGHOLE) - only for G code programs
- Thread milling (CYCLE70)
- Engraving (CYCLE60)
- Contour milling
- Creating a new contour
- Creating contour elements
- Changing the contour
- Contour call (CYCLE62) - only for G code program
- Path milling (CYCLE72)
- Contour pocket/contour spigot (CYCLE63/64)
- Predrilling contour pocket (CYCLE64)
- Milling contour pocket (CYCLE63)
- Residual material contour pocket (CYCLE63)
- Milling contour spigot (CYCLE63)
- Residual material contour spigot (CYCLE63)
- Turning - only for G code programs
- Groove (CYCLE930)
- Undercut form E and F (CYCLE940)
- Thread undercut (CYCLE940)
- Thread turning (CYCLE99)
- Thread chain (CYCLE98)
- Cut-off (CYCLE92)
- Contour turning - only for G code programs
- Representation of the contour
- Contour call (CYCLE62)
- Stock removal (CYCLE952)
- Stock removal residual (CYCLE952)
- Grooving (CYCLE952)
- Grooving residual material (CYCLE952)
- Plunge turning (CYCLE952)
- Plunge turning residual material (CYCLE952)
- Further cycles and functions
- Swiveling tool (CYCLE800)
- Swiveling tool/orienting milling tools - only for G code program (CYCLE800)
- High-speed settings (CYCLE832)
- Subroutines
- Further cycles and functions ShopMill
- Translation
- Rotation
- Scaling
- Mirroring
- Straight or circular machining
- Programming a straight line
- Programming a circle with known center point
- Programming a circle with known radius
- Helix
- Straight polar
- Circle polar
- Obstacle
- Multi-channel view
- Setting the multi-channel view
- User variables
- R parameters
- Global GUD
- Channel GUD
- Local LUD
- Program PUD
- Searching for user data
- Teaching in a program
- Inserting a block
- Input parameters for teach-in blocks
- Teach-in via window
- Teach in rapid traverse G0
- Teach-in A spline
- Editing a block
- Selecting a block
- Deleting a block
- Magazine management
- Tool types
- Tool dimensioning
- Tool list
- Additional data
- Creating a new tool
- Delete tool
- Loading and unloading tools
- Selecting a magazine
- Tool wear
- Reactivating a tool
- Tool data OEM
- Magazine
- Positioning a magazine
- Sorting tool management lists
- Filtering the tool management lists
- Specific search in the tool management lists
- Displaying tool details
- Changing a tool type
- Program management
- NC memory
- USB drives
- Opening and closing the program
- Executing a program
- Creating a directory/program/job list/program list
- Creating a new workpiece
- Creating a new G code program
- Creating a new ShopMill program
- Creating a Joblist
- Creating a program list
- Creating templates
- Displaying the program in the Preview
- Copying and pasting a directory/program
- Deleting a program/directory
- Renaming file and directory properties
- EXTCALL
- Backing up data
- Generating the archive via series startup
- Reading in an archive
- Setup data
- Reading-in set-up data
- Reading-in and reading-out archives
- Setting V24 in the program manager
- Setting up drives
- HT 8 overview
- Traversing keys
- Machine control panel menu
- Virtual keyboard
- Calibrating the touch panel
- Easy Message (828D only)
- Activating Easy Message
- Creating/editing a user profile
- Setting-up events
- Logging an active user on and off
- Displaying SMS logs
- Making settings for Easy Message
- Easy Extend (828D only)
- Enabling a device
- Activating and deactivating a device
- Commissioning Easy Extend
- Service Planner (828D only)
- Set maintenance tasks
- Ladder Viewer and Ladder add-on (828D only)
- Structure of the user interface
- Control options
- Displaying PLC properties
- Displaying and editing PLC signals
- Displaying information on the program blocks
- Downloading a PLC user program
- Editing the local variable table
- Creating a new block
- Editing block properties
- Editing network properties
- Displaying and editing symbol tables
- Inserting/deleting a symbol table
- Searching for operands
- Displaying the network symbol information table
- Displaying/canceling the access protection
- Alarms, error messages, and system alarms
- Displaying an alarm log
- PLC and NC variables
- Saving and loading screen forms
- Loading PLC symbols
- Version
- Save information
- Logbook
- Making/searching for a logbook entry
- Creating screenshots
- Remote diagnostics
- Permit modem
- Exit remote diagnostics
- A.1 Feedback on the documentation
- A.2 Overview
- Index
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- System Overview
- Labels and stickers
- Non-Siemens keyboards
- Connection Conditions
- Power supply
- Safe isolation to EN 61800–5–1
- Grounding concept
- RI suppression measures
- Climatic and mechanical environmental conditions
- Operating conditions
- MPI/OPI network rules
- Structure and Installation
- Installation of the SINUMERIK 840D
- Description of the NCU
- Mounting
- NCU box with a fan box
- NCU module interfaces
- Cable distributor (distributor box)
- Technical data
- I/O Modules
- Terminal Block
- DMP Compact Modules
- DMP compact module 16 A 6FC5111-0CA02-0AA1
- DMP compact module 8 A 6FC5111-0CA03-0AA1
- DMP compact module 1I analog 6FC5 111-0CA04-0AA0
- DMP compact module 1E NC analog 6FC5211-0AA10-0AA0
- DMP compact module 1A analog 6FC5111-0CA05-0AA0
- Maintenance and Service
- Index
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- specifications
- ILLUSTRATIONS & DATA FOR ALL VMC MODELS
- VMC 3016
- VMC 4020
- VMC 6030
- VMC 8030
- VMC 3020
- VMC 4525
- VMC 6535
- FADAL BOLT TORQUE SPECIFICATIONS
- TABLE
- T-SLOTS FOR ALL TABLES
- RECOMMENDED MAINLINE FUSES / CIRCUIT BREAKERS
- PRE-INSTALLATION PROCEDURES
- FOUNDATION
- SHIPPING DIMENSIONS
- POSITIONING
- AIR SUPPLY
- ELECTRICAL GROUNDING
- CHECKING GROUNDING INTEGRITY OF FADAL VMCS
- ELECTRICAL SERVICE
- WIRING
- CONDUIT
- installation procedure
- MACHINE INSTALLATION & HOOK-UP
- POWER CHECK
- TRANSFORMER TAPPING
- PHASE CONVERTER ROTARY
- LEVELING
- HOLD DOWN CLAMPS
- OPTICAL FIBER CABLE HANDLING
- COUPLER INSTALLATION ON AXIS MOTOR OR BALLSCREW
- PENDANT INSTALLATION
- GENERAL
- CHIP CONVEYOR
- CHIP CONVEYOR POWER AND CONTROLS
- MACHINE MAINTENANCE
- SCHEDULED MAINTENANCE
- LUBRICATION OF THE WAYS
- COOLING FANS
- SPINDLE & BALLSCREW COOLING SYSTEM
- TANK RESERVOIR
- FLUIDS
- DUAL ARM TOOL CHANGER
- TESTS FOR CE SAFEGUARDS ON FADAL MACHINES
- STOPPING THE CHIP CONVEYOR ON US AND CE MACHINES
- GENERAL INFORMATION
- HELPFUL FORMULAS
- EXPANSION COEFFICIENTS
- THERMAL EXPANSION
- HEAT SOURCES
- NON-UNIFORM EXPANSION
- SOLVING THE THERMAL EXPANSION PROBLEM
- READING STATUS GROUP
- VMC MAINTENANCE
- VMC OPTIONS
- CONCLUSION
- INDEX
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- General
- Comparison of electric and hydraulic drive systems
- Structure of an electro-hydraulically-controlled drive axis
- Cylinder
- SINUMERIK 840D/SIMODRIVE 611 digital
- Installation and Start-Up
- Procedure for configuring hydraulic components
- Integration in SINUMERIK 840D/SIMODRIVE 611 digital
- Required FW packages
- Configuring the hydraulic drive
- Selection of servo solenoid valves
- Selection of shutoff valves
- Natural frequency of the hydraulic drive
- Hydraulic power unit
- Connection
- Grounding concept/Electromagnetic compatibility (EMC)
- Contents
- Modify drive machine data
- Valve selection
- Cylinder selection
- Mounting/supply data
- Measuring system data
- Modifying data
- Fine adjustment and optimization
- Offset adjustment
- Velocity adjustment
- Referencing data for HLA
- Controller optimization
- Controller adaptation
- Hydraulic/electrical interpolation
- File functions
- Start-up functions
- Measurement function
- Function generator
- Circularity test
- DAC parameter settings
- User views
- Display options
- Configuring an OEM valve list
- System variables
- Firmware Drive Functions
- Functions
- Parameter set changeover
- Closed-loop velocity control
- Velocity controller
- Dynamic stiffness control (DSC)
- Closed-loop force control
- Force limitation
- Static friction injection
- Force controller
- Manipulated voltage output
- Control output filter
- Manipulated voltage limitation
- Supply unit data
- Valve
- Cylinder drive
- Drive data
- Position measuring system
- Pressure sensing system
- Terminals
- Monitoring functions
- Variable signaling functions
- Service functions
- Monitor
- Diagnostic machine data
- Parameters table
- Hardware Drive Functions
- Measuring system
- Pressure sensor system
- Servo solenoid valve
- Test sockets (diagnostics)
- Bus interfaces
- System environment
- Notes
- Transport and storage conditions
- Stress caused by contaminants
- Hydraulics Diagnostics
- Peripherals/Accessories
- Connection diagrams
- BERO (X432)
- Pressure sensor
- Connection diagrams for servo solenoid valves
- Service
- Hotline and contacts
- A.1 Servo solenoid valves
- A.1.2 Directly-controlled servo solenoid valves, sizes 6 and 10
- A.1.3 Pilot-controlled servo solenoid valves, sizes 10 and 16
- A.1.4 HR servo solenoid valves
- A.2 Cylinder
SINUMERIK 840D
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- General
- Comparison of electrical and hydraulic drive systems
- Construction of an electro-hydraulically controlled drive axis
- A Hydraulics
- SINUMERIK 840D/SIMODRIVE 611 digital
- Configuring
- Procedure for configuring hydraulic components
- Peripherals/Accessories
- Required FW packages
- Configuring the hydraulic drive
- Selection of servo solenoid valves
- Selection of shutoff valves
- Natural frequency of hydraulic drive
- Hydraulic power unit
- Wiring
- Earthing system/electromagnetic compatibility (EMC)
- Start-Up
- Drive configuration
- Drive machine data
- Valve selection
- Cylinder selection
- Mounting/supply data
- Measuring system data
- Changing data
- Fine adjustment and optimization
- Offset adjustment
- Velocity compensation
- Referencing data for HLA
- Controller optimization
- Controller adaptation
- Hydraulic/electrical interpolation
- File functions
- Start-up functions
- Measurement function
- Function generator
- Circularity test
- DAC parameterization
- User views
- Configuring an OEM valve list
- Firmware Drive Functions
- Functions
- Closed-loop velocity control
- Velocity controller
- Dynamic Stiffness Control (DSC)
- Closed-loop force control
- Force limitation
- Static friction injection
- Force controller
- Output of manipulated variables
- Control output filter
- Manipulated voltage limitation
- Supply unit data
- Valve
- Cylinder drive
- Drive data
- Position measuring system
- Pressure sensors
- Terminals
- Monitoring functions
- Variable signalling functions
- Service functions
- Monitor
- Diagnostic machine data
- Table of parameters
- Hardware Drive Functions
- Overview of interfaces
- Measuring system
- Servo solenoid valve
- Test sockets (diagnosis)
- Bus interfaces
- System environment
- Additional information
- Shipment and storage conditions
- Resistance to pollutants
- Hydraulics Diagnostics
- Service
- Hotline
- Connection diagrams
- BERO (X432)
- Pressure sensing
- Connection diagrams for servo solenoid valves
- Areas of responsibility of Siemens and Bosch
- A.1 Servo solenoid valves
- A.1.2 Servo solenoid valves of sizes 6 and 10
- A.1.3 Pilot-actuated sizes 10 and 16 servo solenoid valves
- A.1.4 HRV valves
- A.2 Cylinder
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