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1 | Users Manual | Users Manual | 4.19 MiB | September 09 2016 |
Jul 2016 CONTENTS 1 2 SOFTWARE INSTALLATION INTRODUCTION 2.1 2.2 2.3 2.4 NEW INSTALLATION OR UPGRADE START OF THE INSTALLATION FINALIZING THE INSTALLATION INSTALLATION OF THE TRINITY MEASURING HEAD AND ITS CALIBRATION 3 GETTING STARTED 3.1 3.2 SYSTEM SETUP FIRST STARTUP OF THE APPLICATION 3.2.1 Absolute path to the machine tool database 3.2.2 Add the Console application as a rule to the windows firewall 4 APPLICATION 4.1 4.2 STARTUP APPLICATION SETTINGS & NETWORK SETUP 4.2.1 The Probe Selection field 4.2.2 4.2.3 CONNECT button SETTINGS button 4.2.3.1 Change the password CONTINUE button SYNCHRONIZE button EXIT button 4.2.4 4.2.5 4.2.6 4.3 NC CODE 5 DATABASE 5.1 OPENING THE DATABASE FOR EDITING 5.1.1 Create Local Machine 5.1.2 Edit Local Machine 5.1.3 Remove or delete a Local Machine 5.2 PARAMETER SETTINGS 5.2.1 Parameter setting for Position Inspector 5.2.2 Parameter setting for Rotary Inspector 6 ROTARY INSPECTOR AND RI DATA MANAGER 6.1 6.2 SETTINGS OPENING THE DATABASE FOR EDITING 6.2.1 6.2.2 Create Local Machine Locate Global Database 6.2.2.1 Creating a local machine from the global database 6.2.3 Edit local machine 6.2.4 Remove/Delete local machine 6.2.5 6.2.6 Synchronize with Global Database Link local machine to global database APPENDIX A DATABASE A.1 A.2 DATABASE CONSOLECONFIG.INI FILE APPENDIX B OPERATION IN A .LOCAL DOMAIN APPENDIX C PASSWORD APPENDIX D OUTPUT DEFINITION PARAMETERS D.1 OVERVIEW ROTARY D.1.1 Rotary Analyzer (RA) D.1.2 Rotary Inspector (RI) D.2 OVERVIEW LINEAR D.2.1 Position Analyzer (PA) D.2.2 Position Inspector (PI) 5 8 8 9 11 12 13 13 15 15 16 18 18 19 20 20 21 23 23 23 24 25 25 26 28 28 29 29 31 32 33 34 35 36 39 39 39 41 42 42 44 45 49 50 50 50 51 51 51 51 22 36 APPENDIX E HARDWARE APPENDIX F TROUBLESHOOTING APPENDIX G USING THE APPLICATION IN A STANDARD USER ACCOUNT G.1 G.2 G.3 G.5 G.6 ENABLE BUILT-IN ADMINISTRATOR ACCOUNT GET THE COMPUTER NAME SET ADMINISTRATOR CREDENTIALS CREATING THE SPECIAL SHORTCUT PUT THE SHORTCUT ON THE USER DESKTOP AND ACTIVATE APPENDIX H MACHINE TYPES EXPLAINED APPENDIX I EC DECLARATION OF CONFORMITY APPENDIX J FCC COMPLIANCE STATEMENT 52 54 55 55 58 59 62 67 69 72 74 IBS Precision Engineering Machine Tool Console Page 4 of 77 Introduction 1 Welcome to the Machine Tool Console manual. IBS Precision Engineering offers a family of solutions for quality control of machine tool geometrical accuracy. This family includes the four applications:
1. Position Inspector;
2. Position Analyzer;
3. Rotary Inspector;
4. Rotary Analyzer. Users may apply up to four of these applications at any time on their machine tools. The Machine Tool Console acts as a central portal for these applications providing the following key functions:
Communication between the Trinity measuring head and the software application is established by the Machine Tool Console;
Selection of measuring heads (supervisor level only). For the Position Inspector only the following is also managed through the Machine Tool Console:
Definition of the following within a local database:
o Machines;
Measurements;
Tolerance levels;
Vibration threshold levels. Supervisor level only Machine Tool Console Page 5 of 77 Figure 1-1: Software overview IBS Precision Engineering INSPECTOR systems are typically used for production monitoring. Machine-integrated and workshop robust, they provide rapid qualification of cutting position, rotary table characteristics or spindle behaviour. Simple go/no-go testing supports machine management and reduces out-of-
tolerance products; data logging makes essential maintenance planning easy. ANALYZER systems are typically for advanced users; such as machine tool builders, developers or maintenance providers. They offer fully calibrated, in-depth measurement and feedback capability. Machine acceptance, qualification, compensation, alignment and diagnostics are common applications. Brief description:
The Position Inspector combines the Trinity probe with a set of separate master balls. These master balls are mounted or even fixed permanently to the machines table. The position of these master balls is measured periodically the measured ball position is compared to the initial ball position. In this way the long term stability of a machine tool is monitored throughout its entire working volume.
(i.e. each hour) and The Position Analyzer combines the Trinity probe with a CMM calibrated ball beam. This ball beam is mounted parallel to a linear machine axis and the position of these balls is measured according to ISO 230-2. By comparing the measured ball positions with the calibrated ball positions three error motions of the linear axis are measured simultaneously in about 5-10 minutes:
1. Linearity 2. Vertical straightness 3. Horizontal straightness This application can be considered as 3 classic laser interferometer measurements combined. The Rotary Inspector uses the Trinity probe in combination with a single master ball. The displacement of the master ball is measured while the machine executes a predefined cycle with at least one rotary axis active. This application the accuracy of five-axis machine tools with a high degree of automation. Measurements described in ISO 10791-6 are implemented and used typically. A machine and measurement type data base is used to measure many machines with little effort. to check interest is of IBS Precision Engineering Machine Tool Console Page 6 of 77 The Rotary Analyzer also combines the Trinity probe with a single master ball but is typically used by high level machine operator and machine experts. Measurements can be generated and analyzed with a high degree of flexibility. Many options are implemented to be able to measure any five-axis machine tool. Often the pivot line of a rotary axis requires correction which are calculated and entered the machines controller. Squareness errors of a rotary axis for example are determined with the Rotary Analyzer only. into IBS Precision Engineering Machine Tool Console Page 7 of 77 Software Installation 2 System requirements:
Operating system Memory Hard disk USB ports The software comes in one single installer which installs all parts of the system sequentially. The sequence consists of the following items:
: Windows 7, 32 & 64 bit; Windows 8.1, 64 bit
: 4 GB or more
: 180GB or more
: 1 free port for wireless network adapter. 2.1. The Machine Tool Database. This database contains all settings- and configuration parameters used by the Machine Tool Console and all applications which, in turn, are called by this Console. This database is explained in detail in appendix A. 2.2. The Machine Tool Console. This Console is used to select from available applications listed in 2.3. It will also setup the wireless network. 2.3. Any of the following applications:
Position Inspector;
Rotary Inspector;
Position Analyzer;
Position Analyzer;
2.4. Installer for the NetGear A6100 network adapter driver for USB. This network adapter is used to communicate with the measuring head. 2.5. Batch file running a windows registry correction in case the software operates in a windows .local domain. In the following sections the installation is described in detail. Note: Make sure you have administrative rights to perform the software installation. The installation of the Trinity measuring head (Trinity) and its calibration must be performed after the Machine Tool Console and its database are installed. The description of this installation is described in section 2.4. for the the first time, install installed system will the database 2.1 New installation or upgrade When in C:\IBSPrecisionEngineering\MachineToolDataBase. The installer takes care of setting the read and write permissions for all users in this location. Upgrading the Machine Tool Console from all previous versions to version 2.1.0 has only consequences for the location of the database. In the old configuration, the location of the database is in C:\Program Files (x86)\IBS Precision Engineering\MachineToolDataBase. The upgrade will not affect the existing database in any way. Both databases are identical. After the upgrade has been performed, the system will still point to the database in the old location which will function perfectly with respect to older datafiles. 2.2 Start of the installation Running IBS_Start.exe on the application DVD which comes with the system starts the installation. The following screen appears (Figure 2-1 shows the installer for the Rotary Analyzer):
Figure 2-1: Installation startup Click Next; the following screen appears:
Figure 2-2: Ready to install IBS Precision Engineering Machine Tool Console Page 9 of 77 Clicking Install will copy the contents of the DVD to a local directory: C:\MT_Install_xx (where xx is an abbreviation of the application to be installed, for instance xx = PI = Position Inspector):
Figure 2-3: Copy DVD contents to a local directory When copying the data to the local directory is finished, the installation of the complete package will start in silent mode, which means that all parts of the software will be installed without any interaction of the user/operator. The order of installation is:
1) Machine Tool Database 2) Machine Tool Console 3) Machine Tool Application (Position Inspector, Rotary Inspector, Position Analyzer or Rotary Analyzer) 4) Windows driver NetGear A6100 USB Network Adapter. 5) Adobe Acrobat PDF Reader 6) Local network domain check IBS Precision Engineering Machine Tool Console Page 10 of 77 2.3 Finalizing the installation After installing all parts of the software, the final screen appears:
Figure 2-4: Finish installation with a system restart. Select Yes, restart the computer now and click Finish to finish the installation. After restart the Machine Tool Console is ready for use. IBS Precision Engineering Machine Tool Console Page 11 of 77 Installation of the Trinity measuring head and its calibration 2.4 To install a new Trinity measuring head (Trinity) and its calibration, the Machine Tool Console and its database must be installed first. Insert the DVD containing the Trinity calibration installer into the drive and run Setup.bat: this will open a command prompt and the automatic installer. Both windows will disappear when the installation of the new measuring head calibration is finished. Figure 2-5 Installing new head calibration IBS Precision Engineering Machine Tool Console Page 12 of 77 3 Getting started 3.1 System setup To startup the wireless network and Trinity the following steps are required:
Step 1: Before using the white D-Link Access Point Adapter, check the switch on the top (located in the red circle in Figure 3-1) is set to Router AP. Insert the Access Point Adapter into a power socket. Wait until its LED turns from red to green (this can last half to one minute);
Figure 3-1: D-Link Access Point Adapter. Step 2: Insert the NetGear A6100 USB Network Adapter in the laptop;
Figure 3-2 NetGear USB Network Adapter Note: When the NetGear USB Network Adapter is connected for the first time Windows will install the appropriate driver associated with it and will assign a unique name to this adapter
(Wireless Connection x, where x is representing a number). It is required to rename the adapter to a name without spaces. A correct name would be TrinityAdapter or TrinityAdapter1. Step 3: Switch on the measuring head;
Figure 3-3: Location of Trinity measuring head switch. IBS Precision Engineering Machine Tool Console Page 13 of 77 Step 4: For convenience it is recommended to create a shortcut to the IBS_Console.exe application on the desktop. The icon of the shortcut is shown in Figure 3-4. Start the application from this shortcut. Figure 3-4: Console startup icon. IBS Precision Engineering Machine Tool Console Page 14 of 77 3.2 First startup of the application At first startup of the application the following settings may have to be made:
Set the absolute path to the machine tool database used by the Console and the inspector/analyzer applications. Add the Console application as a rule to the windows firewall (even if this firewall is not used). The above mentioned settings are stored in the Console application. Below the issues are explained in detail:
3.2.1 Absolute path to the machine tool database If the path to the machine tool database is not correct at start up the following screen appears:
Figure 3-5: Setup correct path to database. The application searches for the five directories: Artefacts, Config, Machines, New and Probes, which are contained in the database. To set the path to this database correctly, select CONTINUE. IBS Precision Engineering Machine Tool Console Page 15 of 77 The following file search window appears:
Figure 3-6: Finding the Machine Tool Database. When the location of these five directories is found and selected , press Current Folder. This path is updated into the system configuration. 3.2.2 Add the Console application as a rule to the windows firewall When the Console application sets up a wireless connection, the following screen may pop up:
Figure 3-7: Adding the Console application to the windows firewall. IBS Precision Engineering Machine Tool Console Page 16 of 77 Selecting Allow access adds the application to the windows firewall and updates this information in the windows configuration permanently. At next startup of the Machine Tool Console these issues do not appear again. IBS Precision Engineering Machine Tool Console Page 17 of 77 4 Application 4.1 Startup Each of the four Machine Tool applications can be individually purchased. Only those installed are activated in the Machine Tool Console. From this control application a start screen displays a matrix from which the activated application(s) can be selected:
Position Inspector;
Rotary Inspector;
Position Analyzer;
Rotary Analyzer. The Spindle applications are not described in this manual. Figure 4-1: Machine Tool Console. Each of these four applications, if available, can be selected from this Console. Each selection opens the Application Settings & Network Setup program in order to make the necessary and/or desired setup for the selected application to follow. This program controls the following features:
Check whether the application is to be run as administrator in windows 7;
Check whether the application is added to the windows firewall;
Copy machines or edit existing machines;
Copy measurement types or edit existing measurement types;
Setup and connect to Trinity;
Open the selected application (PI, RI, PA or RA);
Exit without opening the selected application. Each item is described in detail in the following sections. All machine and measurement type settings for each application are held in a central database which is controlled by the Console software. Here machines, measurement types, measuring heads and network adapters are stored to be selected as desired. The selections are saved in one windows configuration file: ConsoleConfig.ini. This file is read from and written to by the Console software, and ONLY read by the selected application at start up. A description of how to use the database is described in section 5; the layout of the database and the connecting configuration file is described in appendix A. IBS Precision Engineering Machine Tool Console Page 18 of 77 4.2 Application settings & network setup When one of the four main applications is selected (by pressing the appropriate icon), the APPLICATION SETTINGS & NETWORK SETUP program is started and appears with the following screen (in this case the Rotary Inspector is selected):
Figure 4-2 Start screen The selection field and buttons on the lower right corner of the screen have the following functions:
Probe selection field CONNECT SETTINGS Here, the probe to be used can be selected without the need of logging in into the settings (see section 4.2.1). This will setup and start the wireless connection between the application and the probe (see section 4.2.2). After logging in into this section, the settings of the wireless connection can be changed (see section 4.2.3):
1. Select network adapter 2. Select probe 3. Machines can be added, edited or removed from the local database 4. Rotary Inspector only: local machines can be linked to machines in a global database when using the Rotary Inspector Data Manager CONTINUE SYNCHRONIZE EXIT IBS Precision Engineering When the wireless connection is established the selected application will start, while this APPLICATION SETTINGS & NETWORK SETUP application will be shut down. Rotary Inspector only: this button will only appear when the Rotary Inspector is selected AND the Rotary Inspector Data Manager is in use. Pressing this button will synchronize history data, settings and measurement results in PDF format with linked machines in the global database. The Rotary Inspector Data Manager functions are described in section 6. Exits this application returns control to the screen shown in Figure 4-1. Machine Tool Console Page 19 of 77 4.2.1 The Probe Selection field Figure 4-3 Select a probe Another probe can be selected immediately from the pull down field without logging in into the Settings section. CONNECT button 4.2.2 Pressing the CONNECT button will show the settings popup screen prior to connection (Fig. 4-4):
Figure 4-4 Settings prior to connection If the settings are correct, press ACCEPT and the network will be setup and the Trinity connection will be established. See fig. 4-8. The program automatically checks the status of the selected application and sets up the wireless network. The progress of this automatic setup is monitored using seven LEDs which turn to green
(success) or red (fail):
The first two LEDs represent the check on the application for the following settings:
1. Setting of the Run as administrator option in windows;
2. Setting of the application to be allowed to run in the windows firewall. The next five LEDs show the entire setup of the wireless network:
3. Load configuration settings of the wireless probe;
4. Setting the correct static IP address on the network adapter;
5. Load wireless network profile into windows;
IBS Precision Engineering Machine Tool Console Page 20 of 77 6. Connect computer through the access point to the wireless probe;
7. Check connection and start data streaming. When all LEDs turn to green, the application and wireless network are setup correctly. If any one of these actions fail, the corresponding LED turns red and the startup sequence is aborted, asking the user to login (press SETTINGS) and correct the problem. A description of the problem is displayed on screen. If the settings are not correct, i.e. another network adapter and/or probe needs to be selected, press REJECT and login into the settings section by pressing the SETTINGS button. SETTINGS button 4.2.3 When another network adapter (NWA) needs to be selected, press SETTINGS to login into the settings section and change the selection of the network adapter. The following login screen will appear:
Figure 4-5 Login After entering the password (see Appendix C) and Enter on the keyboard or OK on the screen, the SETTINGS section appears which is divided into four blocks:
Figure 4-6 Settings screen IBS Precision Engineering Machine Tool Console Page 21 of 77 In the block at the upper right corner the correct probe and wireless network adapter can be selected. Note that two wireless network adapters are shown in the list. Normally, the USB type network adapter (NetGear) which comes with the system is used for this purpose. It is also possible to select the internal network adapter if one is available. For this selection it is mandatory to login into the SETTINGS section. Very important note when using the internal network adapter: this adapter is usually setup to work with a companys internal wireless network which issues IP-addresses automatically. This application changes this setting to a fixed IP-address in a specific address range to work with the Trinity system which will disconnect the internal network adapter from the companys wireless network. It is therefore NOT recommended to use the internal network adapter with the Trinity system. After selecting the proper network adapter and/or probe, the SETTINGS section can be closed in two ways using the buttons in the lower right block:
1. Pressing RECONNECT, which will immediately close the SETTINGS section and shows the connection settings as shown in Figure 4-4 from where the connection can be set up. 2. Pressing EXIT, which will also close the SETTINGS section and will return control to the previous screen (Figure 4-2). Both left blocks on the SETTINGS section are database related and will be described in section 5: Database. Pressing ACCEPT on the network settings popup screen shown in Figure 4-4; the wireless network will be set up as described in section 4.2.2. 4.2.3.1 Change the password In this lower right block it is also possible to change the password used to enter the SETTINGS section. Press the button CHANGE PASSWORD; the following screen appears:
Figure 4-7 Change password This password is set initially during installation to welcome. It can be changed here by entering welcome as the old password and the new password in the next two fields. The entries must be 7 characters wide. Additional note: this password will also be used in the applications. IBS Precision Engineering Machine Tool Console Page 22 of 77 CONTINUE button 4.2.4 When the wireless connection is set up properly, all LEDs on the starting screen will light up green meaning that the wireless network is properly setup and functioning, see Figure 4-8:
Figure 4-8: Application Setting & Network Setup. Pressing the CONTINUE button hides the Console program and starts the selected application. This can be done in two modes:
1. All LEDs have turned green as described above: the selected application is started with full functionality regarding the wireless Trinity system;
2. The setup procedure was aborted (one red LED): the selected application is started without the functionality of Trinity. In this case only the analysis functionality of the selected application (if any) is available. SYNCHRONIZE button 4.2.5 This button only appears when the Rotary Inspector application is selected on the startup screen shown in Fig. 4-1. The function of this button is explained in section 6 where the use of the Rotary Inspector Data Manager is described. EXIT button 4.2.6 Pressing the EXIT button closes this program and returns control to the Console matrix (see Figure 4-1) where another application can be selected or the Console can be terminated. IBS Precision Engineering Machine Tool Console Page 23 of 77 4.3 NC code With all four Machine Tool applications measurements can be performed for which an NC code is required. The NC code descriptions can be found in the relevant user manual of each application. IBS Precision Engineering Machine Tool Console Page 24 of 77 5 Database The local database holds the setup, configuration parameters and measurement data performed by inspector packages. The layout of the database is explained in Appendix A. 5.1 Opening the database for editing Pressing the SETTINGS button and logging in as shown in Figure 4-5, the Settings section will appear as shown in Figure 5-1:
Figure 5-1 Settings & Database settings The two blocks on the right side are described in section 4.2: Application settings & network setup. The lower left block is only relevant when the Rotary Inspector application is used in conjunction with the Rotary Inspector Data Manager. This combination is described in chapter 6: Rotary Inspector and RI Data Manager. The upper left block is used to add, edit or remove items from the local database:
Machines:
Action CREATE LOCAL MACHINE EDIT LOCAL MACHINE Result Creates a new machine, see section 5.1.1 Edit an existing machine (if applicable), see section 5.1.2 Remove or delete an existing machine, see section 5.1.3 REMOVE/DELETE LOCAL MACHINE IBS Precision Engineering Machine Tool Console Page 25 of 77 5.1.1 Create Local Machine Pressing the CREATE LOCAL MACHINE button shows the following screen:
Figure 5-2 Create Local Machine In the upper left corner a new machine type can be selected from the pull-down list. This list contains 16 predefined machine types (see Fig. 5-3). The item names are explained in appendix H:
Machine types explained. Figure 5-3 Select Machine Type IBS Precision Engineering Machine Tool Console Page 26 of 77 Once a machine type is selected, a picture is shown in the frame underneath the pulldown list (see Figure 5-4:
Figure 5-4 Local Machine Type selected Next, a name must be assigned to the machine. Pressing CREATE MACHINE creates the machine in the database structure and disables the controls on the left side the screen to prevent multiple inputs which is not possible (see Figure 5-5):
Figure 5-5 New Local Machine created When creating a new machine, the measurement types associated with the application are created in a pre-defined way in the appropriate directories. Press EXIT to return control to the Settings section. IBS Precision Engineering Machine Tool Console Page 27 of 77 5.1.2 Edit Local Machine This option is only relevant for both the Position Inspector and Rotary Inspector, see section 5.2. When the EDIT LOCAL MACHINE button is pressed with the one of the analyzer applications, the following screen appears:
Figure 5-6 Edit Local Machine for analyzer applications All parameter settings for the analyzer applications can be edited using the applications themselves. Press EXIT to return control to the SETTINGS section. 5.1.3 Remove or delete a Local Machine Pressing REMOVE/DELETE LOCAL MACHINE shows the following popup:
Figure 5-7: Remove/rename Local Machine Pressing REMOVE FROM LIST only removes the machine from the list so it cannot be selected; it is NOT removed from the database. Pressing DELETE removes the machine entirely from the database, including all measurement results from that machine. Pressing CANCEL aborts this operation. IBS Precision Engineering Machine Tool Console Page 28 of 77 5.2 Parameter settings In this section the parameter settings for each of the inspector applications are explained. These parameters can also be set during the creation of a local machine. 5.2.1 Parameter setting for Position Inspector When EDIT LOCAL MACHINE is pressed as described in section 5.1.2, a machine is selected and EDIT MACHINE is pressed, the following screen appears for the Position Inspector:
Figure 5-8 Parameters for Position Inspector Machine parameters for Position Inspector Measurement type parameters for Position Inspector Parameter name Time to wait (After Vibration) [s]
Trigger Level [V]
Vibration Level [m]
Deviation Tolerance X-axis [m]
Deviation Tolerance Y-axis [m]
Deviation Tolerance Z-axis [m]
three sensors of Explanation When the vibration level criterion is met after positioning the measuring head on the artefact ball, the system waits the amount of seconds set with this parameter before a measurement point is taken. Measurement of the vibration level criterion is triggered when all the measuring head measure below the voltage set with this parameter. When the measuring head is positioned on the artefact ball, the residual system vibration may not exceed the value set with this parameter. With this parameter the maximum deviation with respect to the reference run results is set for the X-axis. See Figure 5-9. With this parameter the maximum deviation with respect to the reference run results is set for the Y-axis. See Figure 5-9. With this parameter the maximum deviation with respect to the reference run results is set for the Z-axis. See Figure 5-9. IBS Precision Engineering Machine Tool Console Page 29 of 77 Figure 5-9 Explanation deviation tolerance. Deviation tolerance dx, dy. R shows the reference run position, M the measured position. Left X and Y in tolerance, middle X in and Y out tolerance, right X and Y both out of tolerance. Press SAVE to save the values in the database. Press EXIT to return control to the SETTINGS section. IBS Precision Engineering Machine Tool Console Page 30 of 77 5.2.2 Parameter setting for Rotary Inspector When EDIT LOCAL MACHINE is pressed as described in section 5.1.2, a machine is selected and EDIT MACHINE is pressed, the following screen appears for the Rotary Inspector:
Figure 5-10 Parameters for Rotary Inspector Parameter name Time to wait (After Vibration) [s]
Trigger Level [V]
Vibration Level [m]
Q Tolerance green [mm]
Q Tolerance red [mm]
three sensors of Explanation When the vibration level criterion is met after positioning the measuring head on the artefact ball, the system waits the amount of seconds set with this parameter before a measurement point is taken. Measurement of the vibration level criterion is triggered when all the measuring head measure below the voltage set with this parameter. When the measuring head is positioned on the artefact ball, the residual system vibration may not exceed the value set with this parameter. This level represents the lower limit of the Q-
value, the meaning of this value is explained in the Rotary Inspector user manual section 3.1. This level represents the upper limit of the Q-
value, the meaning of this value is explained in the Rotary Inspector user manual section 3.1. Note that when the Rotary Inspector is used in conjunction with the Rotary Inspector Data Manager, both Q tolerance values are overwritten by the values saved for this machine in the global database when:
1. The local machine is linked to a machine in the global database 2. Both machines are synchronized Synchronization will be explained in section 6. Press SAVE to save the values in the database. Press EXIT to return control to the SETTINGS section. IBS Precision Engineering Machine Tool Console Page 31 of 77 6 Rotary Inspector and RI Data Manager When multiple machines, which may be situated in more than one location, are measured with the Rotary Inspector, the system can be extended with the Rotary Inspector Data Manager. This includes:
1. A global database in which a history of all measurement results and reports are gathered through synchronization between the global database and one or more local databases situated on computers/laptops used for measurement with the Rotary Inspector. 2. Several means of presenting and reporting results of one or more machines over time. This presentation and reporting can be performed for a single machine or a group of machines which are situated in a specific location by choice. This can be all machines in a plant, a group of machines located in a single department within a plant or a group of machines located within a single cell which, in turn, is part of a department. Full description of the RI Data Manager can be found in the appropriate user manual. For correct communication between the Console and the RI Data Manager, a wired connection between the PC/laptop running the Console and the network is required. Here, the interactions of the Console with the RI Data Manager will be described. IBS Precision Engineering Machine Tool Console Page 32 of 77 6.1 Settings When the Rotary Inspector is selected from the application matrix shown in Fig. 4.1, the APPLICATION SETTINGS & NETWORK SETUP program is started and appears with the screen shown in Fig. 4.2. As explained, this is the only application showing the SYNCHRONIZE button. Pressing this button will start the synchronization of all machines which are defined in the local database AND are linked to a machine in the global database. During the synchronization a little square box on the button will blink; when finished the square box will disappear. Figure 6-1 Blinking square box during synchronization Once the connection between the two databases is established, the global database will be locked for other local databases until the synchronization is finished. When another local database (a Console located on another laptop) tries to synchronize with the global database when it is locked, the following message appears:
Figure 6-2 Global database locked for synchronization The synchronization consists of three parts:
1. The measurement history in both databases will be synchronized with each other; this synchronization is executed in both directions which means that all measurement results for all linked machines are available in both databases. 2. All measurement reports in PDF format will be uploaded to the global database from each linked machine in the local database. 3. The measurement tolerance settings for the Q-value will be downloaded from the global database to each linked machine in the local database. When the synchronization is finished, the global database will be unlocked for access by other local databases or the RI Data Manager for maintenance purposes. IBS Precision Engineering Machine Tool Console Page 33 of 77 6.2 Opening the database for editing Pressing the SETTINGS button and logging in as shown in Figure 4-5, the Settings section for the Rotary Inspector will appear as shown in Figure 6-3:
Figure 6-3 Settings screen for Rotary Inspector Machines:
Action LOCATE GLOBAL DATABASE CREATE LOCAL MACHINE EDIT LOCAL MACHINE REMOVE/DELETE LOCAL MACHINE LINK MACHINE TO GLOBAL DATABASE SYNCHRONIZE WITH GLOBAL DATABASE Result Select the location of the global database Creates a new machine, see also section 5.1.1 Edit an existing machine (if applicable), see section 5.1.2 Remove or delete an existing machine, see section 5.1.3 Link a local machine to a machine located in the global database Synchronize a local machine with a linked machine in the global database Note that at initial startup the location of the global database is unknown to the Console and needs to be setup; this is explained in section 6.2.1. This is represented by the red LED stating that the global database is not present. IBS Precision Engineering Machine Tool Console Page 34 of 77 6.2.1 Locate Global Database The global database and its location is setup by the RI Data Manager and is usually found on a network drive or mapping marked by a specific drive letter. At initial startup of the Console, the location of the global database needs to be entered. Once the database is found, the location is saved in the initialization files of the Console and will be recognized at startup. Pressing the button LOCATE GLOBAL DATABASE opens the following windows screen:
Figure 6-4 Locating the global database Find the network directory which contains the subdirectory Plants and press Current Folder, the Settings section for the Rotary Inspector will re-appear as shown in Figure 6-5:
Figure 6-5 Settings screen for Rotary Inspector with global database present IBS Precision Engineering Machine Tool Console Page 35 of 77 Note that the button LOCATE GLOBAL DATABASE has disappeared from the screen and that the LINK and SYNCHRONIZE buttons are enabled. When the selected machine in the upper left block is linked to the global database (green LED), the lower left block shows the link information about the local machine in the global database. 6.2.2 Create Local Machine Pressing the CREATE LOCAL MACHINE button shows the following screen:
Figure 6-6 Create Local Machine The creation of a new local machine is similar to the procedure described in section 5.1.1. In conjunction with the global database, a second option for creating a local machine is implemented. 6.2.2.1 Creating a local machine from the global database When the local machine to be created already exists in the global database and there is no active link to this machine, it is possible to download this machine and define this as the new local machine. The advantage of this method is that the new local machine is automatically linked to and synchronized with the original machine in the global database. Press the button SELECT MACHINE IN GLOBAL DATABASE. The following screen pops up:
Figure 6-7 Selecting the machine in the global database IBS Precision Engineering Machine Tool Console Page 36 of 77 On the left side of the screen four pull down fields can be used to select the machine to be downloaded:
1. Select available plant 2. Select available department 3. Select available cell 4. Select available machine (Figure 6-8):
Figure 6-8 Select machine to download Press RETURN. When the selected machine is already linked to a local machine the following warning appears:
Figure 6-9 Machine link already exists In this case, another machine must be selected. The download procedure is aborted at this point and returns control to the screen shown in Figure 6-6 where the procedure can be restarted. IBS Precision Engineering Machine Tool Console Page 37 of 77 If the download succeeds, the previous screen appears with the new machine selected:
Figure 6-10 Machine selected from global database The ISO description (in this case S_HS_HT_BC) for the selected machine is explained in appendix H. Enter the machine name and press CREATE MACHINE. The tab on the right side of the screen will be enabled:
Figure 6-11 Set parameters Here the parameters can be set for the new machine individually; it must be noted however that when the machine is synchronized, the Q-tolerance values will be downloaded from the global database and are set in the local machine: the Q-tolerance values from the global database are therefore leading over the local database. The parameters can be saved by pressing SAVE. Press EXIT to return to the Settings section. IBS Precision Engineering Machine Tool Console Page 38 of 77 6.2.3 Edit local machine A full description is given in section 5.1.2. 6.2.4 Remove/Delete local machine A full description is given in section 5.1.3. 6.2.5 Link local machine to global database To link an existing local machine to an existing global machine, press LINK MACHINE TO GLOBAL DATABASE. The following screen will pop up:
Figure 6-12 Linking an existing local machine to an existing global machine The screen opens with the first machine in the local database; this machine is already linked into the global database: the link path is shown in the left part of the screen. Select the local machine to be linked in the pull down field on the upper left side of the screen:
Figure 6-13 Select local machine to be linked IBS Precision Engineering Machine Tool Console Page 39 of 77 No link exists for this machine at this point:
Figure 6-14 Select machine in the global database to link local machine to The list of machines in the right pull down field represents only the machines in the global database which are not linked to any local machine. When one is selected the location information including all names is shown in the field on the lower right side of the screen. Press CREATE LINK. The Console will check whether the ISO descriptions of both local and global machine match. If this is not the case, a link will not be created:
Figure 6-15 Machine type mismatch If both ISO descriptions do match, the link will be created and an automatic synchronization between both machines will be executed:
Figure 6-16 Machine type match Press EXIT to return to the Settings section. IBS Precision Engineering Machine Tool Console Page 40 of 77 6.2.6 Synchronize with Global Database Press the SYNCHRONIZE WITH GLOBAL DATABASE button will synchronize only the selected local machine with its linked global machine. This option is useful when more than one computer/laptop is used to perform the measurements with. While each computer has its own copy of the local machine linked to the same machine in the global database, the measurement history will be shared among these computers through the synchronization. The measurement reports however, will only be uploaded in the global database and can be selected from the RI Data Manager only. IBS Precision Engineering Machine Tool Console Page 41 of 77 Appendix A Database A.1 Database The central database is a structure of directories and files which contain the setup, configuration parameters and measurement data performed by inspector packages. Note: For a correct operation of the Console it is not permitted to change, move or delete
(parts of) this structure in any way. Figure A-1: Database structure The tree is built up as follows:
The three .ini files contain only the names of the artefacts, machines and Trinity probes respectively. IBS Precision Engineering Machine Tool Console Page 42 of 77 The Machines directory contains one directory for each machine which, in turn, contains a Measurements directory which is related to the given machine only. The database directory structure opened looks like:
Figure A-2: Database structure opened When a new Trinity measuring head or an existing Trinity measuring head calibration is added, the installer copies this file in the New\NewProbe directory. The Console program moves this file to the appropriate directory along with its configuration settings automatically. A new measuring head calibration overwrites the old one in the existing directory. The calibration file of a new measuring head is placed into a newly created Trinity probe directory, leaving older existing Trinity probe directories untouched. IBS Precision Engineering Machine Tool Console Page 43 of 77 A.2 ConsoleConfig.ini file The ConsoleConfig.ini file which contains the data which is exchanged between the Console and the selected application is as follows:
[GENERAL INFO]
DB_Location = "/C/Program Files (x86)/IBS Precision Engineering/MachineToolDataBase"
SelectedProbe = "Probe_34"
SelectedMachine = "LU-620"
SelectedMeasurement = "PI_03_Balls"
SelectedArtefact = "BB_UMTK_1619_june2010"
NW_Adapter = "NETGEAR WNDA3100v2 N600 Wireless Dual Band USB Adapter"
NW_Adapter_GUID = "2614341687_41530_19167_163_200_237_7_27_208_76_79"
NW_Profile = "TRINITY_001_0034"
Xbee_Vs_S6B = 0 Probe_Available = 1 Where:
1. DB_Location is the location of the database directory structure;
2. SelectedProbe is the current wireless Trinity measuring head and refers to the directory name which is, in turn, part of the probes directory. In this Probe_xx directory a configuration file is read which contains all network settings for this particular probe;
3. SelectedMachine is the current machine on which measurements will be performed;
4. SelectedMeasurement is the current measurement which will be performed;
5. SelectedArtefact is only used by the Position Analyzer and will further be ignored;
6. NW_Adapter is the description of the type name of the used network adapter, this is NOT a user given name;
7. NW_Adapter_GUID is the ID number of the network adapter which is set in the hardware, windows uses this number for network adapter identification. The Console software needs this number in order to be able to call the adapter for signal strength information;
8. NW_Profile is the current network profile the Console software uses to set and load the network profile in windows;
9. Xbee_Vs_S6B is the version number of the wireless interface inside the wireless probe. Currently, there are two different types of wireless interfaces for the probe: version S6 and the newer version S6B. The Console software has to determine which version is contained in the current probe because the command set used to control this interface is different in both versions;
10. When the wireless probe is available and recognized in the system this value is set to 1 and the applications can work with the wireless probe to perform measurements. Otherwise, when the probe is not available and/or recognized in the system, the applications can still be called and used for analytical purposes if available. Obviously, measurements cannot be performed in this mode and this value is set to 0. This information is initially read by the Console at startup and shown on the screen as the previous setting. When all desired selections are made and the application (e.g. Position Inspector) is started, this data is written to this file BEFORE the application starts. The application reads this data at startup and the appropriate settings for machine, measurement and probe are retrieved from the various locations in the database to make an instant correct measurement possible. IBS Precision Engineering Machine Tool Console Page 44 of 77 Appendix B Operation in a .local domain Introduction In some cases the domain is setup as a .local network. There is a known compatibility issue with this domain and a component required by the National Instrument runtime engine, which is installed by the Console software. Problem A subcomponent of NI products may cause unexpected behavior when installed on Windows machines located on a .local domain. Two main behaviors have been observed:
Longer than normal boot times (around 20 minutes);
Screen blacks out and becomes unresponsive after entering log-on credentials. Identification When running the setup program an automatic check for a .local domain is performed. If it is found a warning is issued. At the end of the installer, a batch file supplied by National Instruments, which solves this issue, is always executed. To verify your domain right-click Computer and select Properties from the shortcut menu. Look under Computer name, domain, and workgroup settings and check the domain. If it contains .local the unexpected behavior may occur. Solution 1 If the unexpected behavior still occurs please run the disable_nsp.bat which can be found on the setup cd. Make sure to run it as an administrator. Figure B-1: Running disable_nsp.bat. IBS Precision Engineering Machine Tool Console Page 45 of 77 Solution 2 If the unexpected behavior still occurs after running disable_nsp.bat please do the following:
Start regedit through the windows start menu:
Figure B-2: Start regedit. Scroll to the following keys:
HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\services\WinSock2\Parameters\Name Space_Catalog5\Catalog_Entries IBS Precision Engineering Machine Tool Console Page 46 of 77 Figure B-3: Contents windows registry. IBS Precision Engineering Machine Tool Console Page 47 of 77 Find the key nimdnsNSP. This is usually the last number in the list. Set the Enabled value data to 0. Figure B-4: Editing windows registry. If the key Catalog_Entries 64 exists:
HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\services\WinSock2\Parameters\Name Space_Catalog5\Catalog_Entries64 Then repeat the procedure; Find the key nimdnsNSP, and set the Enabled value data to 0. IBS Precision Engineering Machine Tool Console Page 48 of 77 Appendix C Password The password used to log into the Settings and the database is by default:
welcome Without the quotes and is set at installation. This password can/may be changed; for an explanation see section 4.2.2. IBS Precision Engineering Machine Tool Console Page 49 of 77 Appendix D Output definition parameters D.1 Overview Rotary D.1.1 Rotary Analyzer (RA) Output XOC YOC AOC BOC XOB ZOB AOB COB YOA ZOA BOA COA Sx Sy Sz ACT-
ACT+
Q-value Description Tabsheet Processed (the second) Pivot point correction of C-axis in X direction in mm Pivot point correction of C-axis in Y direction in mm Squareness error between C-axis and Y-axis
(C-axis is rotated along X-axis). Variation in Z of least squares straight line fit in the YZ-
plane in mm Squareness error between C-axis and X-axis
(C-axis is rotated along Y-axis). Variation in Z of least squares straight line fit in the XZ-
plane in mm Pivot point correction of B-axis in X direction in mm Pivot point correction of B-axis in Z direction in mm Squareness error between B-axis and Z-axis
(B-axis is rotated along the X-axis) Variation in Y of least squares straight line fit in the YZ plane in mm Squareness error between B-axis and X-axis
(B-axis is rotated along the Z-axis) Variation in Y of least squares straight line fit in the XY plane in mm Pivot point correction of A-axis in Y direction in mm Pivot point correction of A-axis in Z direction in mm Squareness error between A-axis and Z-axis
(A-axis is rotated along the Y-axis) Variation in X of least squares straight line fit in the XZ plane in mm Squareness error between A-axis and Y-axis
(A-axis is rotated along the Z-axis) Variation in X of least squares straight line fit in the XY plane in mm Tabsheet Raw (the first) Measured deviation in X direction in mm Measured deviation in Y direction in mm Measured deviation in Z direction in mm Minimum XYZ measurement in mm Maximum XYZ measurement in mm The maximum variation measured (=ACT+ minus ACT-) Definition in ISO XOC YOC AOC
(Radius needed for squareness angle) BOC
(Radius needed for squareness angle) XOB ZOB AOB
(Radius needed for squareness angle) COB
(Radius needed for squareness angle) YOA ZOA BOA
(Radius needed for squareness angle) COA
(Radius needed for squareness angle) Sx,xyzbc Sy,xyzbc Sz,xyzbc n.a. n.a. n.a. IBS Precision Engineering Machine Tool Console Page 50 of 77 D.1.2 Rotary Inspector (RI) Output Q-value Sx Sy Sz XOC YOC XOB ZOB YOA ZOA Description The maximum variation measured (=ACT+ minus ACT-) Measured deviation in X direction in mm Measured deviation in Y direction in mm Measured deviation in Z direction in mm Pivot point correction of C-axis in X direction in mm Pivot point correction of C-axis in Y direction in mm Pivot point correction of B-axis in X direction in mm Pivot point correction of B-axis in Z direction in mm Pivot point correction of A-axis in Y direction in mm Pivot point correction of A-axis in Z direction in mm D.2 Overview Linear D.2.1 Position Analyzer (PA) Output Description EXX A EXX B EXX E EXX M EXX R EYX EZX EYY A EYY B EYY E EYY M EYY R EXY EZY EZZ A EZZ B EZZ E EZZ M EZZ R EXZ EYZ Linearity; Accuracy X-axis in mm Linearity; Backlash in mm Linearity; Systematic Positional Deviation in mm Linearity; Mean Positional Deviation in mm Linearity; Repeatability of positioning in mm Straightness error X-axis in Y direction in mm Straightness error X-axis in Z direction in mm Linearity; Accuracy Y-axis in mm Linearity; Backlash in mm Linearity; Systematic Positional Deviation in mm Linearity; Mean Positional Deviation in mm Linearity; Repeatability of positioning in mm Straightness error Y-axis in X direction in mm Straightness error Y-axis in Z direction in mm Linearity; Accuracy Z-axis in mm Linearity; Backlash in mm Linearity; Systematic Positional Deviation in mm Linearity; Mean Positional Deviation in mm Linearity; Repeatability of positioning in mm Straightness error Z-axis in X direction in mm Straightness error Z-axis in Y direction in mm D.2.2 Position Inspector (PI) Output / Ball Deviation X Deviation Y Deviation Z Description Deviation in X w.r.t. reference measurement in m Deviation in Y w.r.t. reference measurement in m Deviation in Z w.r.t. reference measurement in m Definition in ISO n.a. Sx,xyzbc Sy,xyzbc Sz,xyzbc XOC YOC XOB ZOB YOA ZOA Definition in ISO EXX A EXX B EXX E EXX M EXX R EYX EZX EYY A EYY B EYY E EYY M EYY R EXY EZY EZZ A EZZ B EZZ E EZZ M EZZ R EXZ EYZ Definition in ISO n.a. n.a. n.a. IBS Precision Engineering Machine Tool Console Page 51 of 77 Appendix E Hardware The Machine Tool Console measurement system is supplied in a travel case containing, see Figure :
1. Trinity measuring head;
2. D-Link Access Point (switch in Router/AP position);
3. NetGear Wireless USB Adapter;
4. Four batteries;
5. Battery charger & adapter;
6. Master ball 75mm;
7. Extension rods for Master ball;
8. Tool setter ball with M4 fine thread;
9. Mounting magnet with M8 thread hole;
10. Two Allen keys, size 4 mm. 9 8 1 4 10 2 3 6 5 5 7 Figure E-1: Content of Trinity travel case. Default this system is supplied with a euro plug. Contact IBS Precision Engineering if another plug type is required. Warning: The Trinity measuring head is a precision measurement instrument and should be treated as such. Handle the Master ball and tool setter ball with great care. Specifications of the Trinity measuring head system:
Roundness error Master ball:
Nominal diameter of Master ball:
Length Master ball:
Measuring head:
Measurement uncertainty of TP-001:
Measurement range:
Power consumption (idle/measure/sleep): 1W (21.5 hrs.) / 1.3W (17 hrs.) / 0.52 W (42 hrs.) U1d < 1.5 m (full range) U1d < 1 m (within 1 mm range)
< 0.6 m 22 mm 75 mm 3.50 mm IBS Precision Engineering Machine Tool Console Page 52 of 77 Wireless specifications:
Operating frequency:
Standard:
Security:
Regulatory Approvals of Wireless module: FCC, IC, CE/ETSI, C-TICK, TELEC Supplied:
2.4 GHz 802.11b/g/n WPA2-PSK (only in access point mode) The Trinity is provided with LEDs on both sides and these have 4 modes of operation:
Manual Console software manual(this document);
Calibration certificate measuring head;
Application install DVD including the Console software;
Measuring head calibration file installer DVD;
1. Constantly lit of one of two sides System is on, but not associated with a wireless network;
2. Slow flashing (1 second interval) System is on and associated with a wireless network;
3. Flashing (0.2 second interval) System is on and streaming data;
4. Very slow flashing (2 second interval) System is asleep. The red LED lights up when the battery has approximately 1 hour of measurement time remaining. It is advised to replace the batteries when this LED becomes active. IBS Precision Engineering Machine Tool Console Page 53 of 77 Appendix F Troubleshooting The Console application is by default set to run as administrator and will be added as a rule to the windows firewall at first run. If that fails please make sure you are administrator or have full administrative rights. If the Console application is to be run from a standard user account without the necessary administrative rights, the application must be started using a specific configured shortcut which takes care of these administrator issues. Detailed instructions how to set up this shortcut are given in appendix G. If your system has an additional firewall (other than windows) please consult the manual of that firewall to allow access for the software packages. All packages must be allowed to write and read for UDP and TCP protocols. IBS Precision Engineering Machine Tool Console Page 54 of 77 Appendix G Using the application in a standard user account To be able to run, the Trinity software requires administrative rights. Running the software from a standard windows user account requires a special shortcut which takes care of these administrative requirements without prompting for the administrator password. This specially configured shortcut has to be setup in the built-in administrator account which must therefore be enabled and set with a password. Creating the shortcut using other defined administrator accounts will fail. G.1 Enable built-in administrator account The built-in administrator account is by default disabled and not password protected in windows and must therefore be enabled first. A password must also be set. The following description will show how to check the enabled state and the setting of the password of the administrator account. Figure G-1 Select Computer Manager IBS Precision Engineering Machine Tool Console Page 55 of 77 See figure G-1: click Start, right click Computer and select Manage. In the following screen, select Local Users and Groups and open the Users folder. Right click on Administrator and select Properties (Fig. G-2):
Figure G-2 Select administrator properties In the administrator properties make sure the Account is disabled option is unchecked (see figure G-3):
Figure G-3 Enable administrator account When any changes are made, the Apply button becomes active. Press Apply (only when active) and OK to return to the screen shown in figure G-2. IBS Precision Engineering Machine Tool Console Page 56 of 77 Right click on Administrator again and select Set Password, the following message appears:
Figure G-4 Proceed to set password Click Proceed to the following screen:
Figure G-5 Set password Enter a unique password in both fields and press OK. If both fields are filled with an identical name the following message appears:
Figure G-6 Password set successfully Press OK twice and close the computer management screen. IBS Precision Engineering Machine Tool Console Page 57 of 77 G.2 Get the computer name In order to be able to set the administrator credentials (section G.3) and create the special shortcut
(section G.4), the computer name must be available. If the computer name is unknown, it can be found in the control panel:
Figure G-7 Select Control Panel On the control panel, select System and Security. In the System item select See the name of this computer (Fig. G-8):
Figure G-8 See the name of this computer On the following screen the computer name can be found (Fig. G-9):
Figure G-9 Computer name Save the computer name and close the control panel. IBS Precision Engineering Machine Tool Console Page 58 of 77 G.3 Set administrator credentials Back on the desktop press Start and select the Control Panel:
Figure G-10 Select Control Panel IBS Precision Engineering Machine Tool Console Page 59 of 77 The Control Panel appears:
Figure G-11 Control Panel See figure G-11: select User Accounts and Family Safety and open the Credential Manager:
Figure G-12 Select Credential Manager IBS Precision Engineering Machine Tool Console Page 60 of 77 In the Credential Manager select Add a Windows Credential, the following input fields will appear:
Figure G-13 Enter credentials Fill the fields with the information as shown in figure G-13. The Internet or network address contains the name of the PC followed by a backslash and Administrator, the User name is Administrator and the Password is the unique password entered in figure G-5 as shown above. Press OK when done. The entries should look like the screen shown in figure G-14:
Figure G-14 Credentials after entering Close the Control Panel. IBS Precision Engineering Machine Tool Console Page 61 of 77 G.5 Creating the special shortcut Right click on the desktop, select New and Shortcut:
Figure G-15 Create new shortcut The following screen appears:
Figure G-16 Enter settings for shortcut The easiest way to set up this shortcut: Right click on the desktop and select New and Shortcut. Use the Browse button to select the IBS_Console.exe application. In the location field the full path and name to the application appears:
C:\Program Files (x86)\IBS Precision Engineering\IBS_Console.exe IBS Precision Engineering Machine Tool Console Page 62 of 77 The following must be added before the file location:
runas /user:name-PC\Administrator /savecred Notes:
1. runas is followed by a space 2. /savecred is followed by a space which in turn is followed by the full path and name of the application set at the beginning. The result is shown in Fig. G-16 (where the last part of the setup is not visible caused by the field size). When done, click Next and enter the name for the shortcut and click Finish:
Figure G-17 Enter name for shortcut IBS Precision Engineering Machine Tool Console Page 63 of 77 When finished, the shortcut icon will default to the runas.exe icon from Windows rather than the IBS Console icon. It is optional to set the icon back to the IBS Console. This may be executed as follows:
Right click the shortcut and select Properties:
Figure G-18 Select shortcut properties IBS Precision Engineering Machine Tool Console Page 64 of 77 In the Shortcut Tab of the properties click Change Icon which will show the Change Icon message shown in figure G-19:
Figure G-19 Change icon IBS Precision Engineering Machine Tool Console Page 65 of 77 Click OK to open the screen containing the standard windows icons. Click Browse and select the application that the shortcut is pointing to (in this case IBS_Console.exe):
Figure G-20 Select correct icon Click Open, Apply and OK to set the shortcut icon to the desired image. IBS Precision Engineering Machine Tool Console Page 66 of 77 G.6 Put the shortcut on the user desktop and activate Once the shortcut is created on the administrator accounts desktop, the shortcut needs to be copied to the desktop of the standard user. To copy the shortcut to the user desktop, execute the following procedure:
Open Windows explorer and select Users, the name of the standard user account (in this case TestUser) and Desktop:
Figure G-21 Copy shortcut to user desktop Copy the shortcut from the administrator desktop to the desktop of the standard user account. See Figure G-21. To activate the shortcut, the administrator needs to switch from the administrator account to the user account by pressing Start, the small arrow button at the right side of the Shut down button and select Switch user (Fig. G-22):
Figure G-22 Switch to User account IBS Precision Engineering Machine Tool Console Page 67 of 77 Run the shortcut from the user desktop; the following command prompt will appear:
Figure G-23 Prompt shown on user account Enter the administrator password (see section G-1) here once: the prompt will disappear and the application will start with no additional password requests. Note: when entering the administrator password, the cursor in the command prompt will NOT move along: this is normal. The next time the shortcut is run, the command prompt will show up very briefly, windows remembers the credentials and will start the application with no further interference from the administrator. IBS Precision Engineering Machine Tool Console Page 68 of 77 Appendix H Machine types explained In the Console, 16 different machine tool configurations are implemented covering most existing machine types used in industry:
A. Swivel head machines (5 machine types) B. Trunnion table machines (7 machine types) C. Mixed type machines (4 machine types) Overview swivel head machines Z Y X Y Z X S_VS_HT_AC S_HS_HT_AC Y Z X Z Y X S_HS_VT_AC S_VS_HT_BC Y Z X S_HS_HT_BC IBS Precision Engineering Machine Tool Console Page 69 of 77 Overview trunnion table machines Z X Y Y X Z T_VS_HT_AC T_HS_VT_AC Z Y X T_VS_HT_BC Z X Y Y Z X T_HS_VT_BC Y Z X T_VS_VT_AB T_HS_HT_AB Y X Z T_HS_VT_BA IBS Precision Engineering Machine Tool Console Page 70 of 77 Overview mixed type machines Z Z X Y X Y M_VS_HT_AC M_VS_HT_BC Z X Y Y X Z M_VS_HT_BA M_HS_HT_AB Explanation machine code name:
MachineType_SpindleOrientation_TableOrientation_RotaryAxes Machine Type:
Spindle Orientation: HS (Horizontal Spindle), VS (Vertical Spindle) Table Orientation: HT (Horizontal Table), VT (Vertical Table) Rotary Axes:
AC, AB, BA or BC. S (swivel head), T (Trunnion table) or M (Mixed type) IBS Precision Engineering Machine Tool Console Page 71 of 77 Appendix I EC Declaration of Conformity IBS Precision Engineering Machine Tool Console Page 72 of 77 IBS Precision Engineering Machine Tool Console Page 73 of 77 Appendix J FCC Compliance Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures:
Reorient or relocate the receiving antenna. Connect the equipment into an outlet on a circuit different from that to which the receiver is Increase the separation between the equipment and receiver. connected. Consult the dealer or an experienced radio/TV technician for help. FCC Caution: To assure continued compliance, any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that may cause undesired operation. Radiation Exposure Statement This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. This equipment marketed in USA is restricted by firmware to only operate on 2.4 GHz channel 1-
11. IBS Precision Engineering Machine Tool Console Page 74 of 77 Notes (intentionally left blank) IBS Precision Engineering Machine Tool Console Page 75 of 77 Notes (intentionally left blank) IBS Precision Engineering Machine Tool Console Page 76 of 77 IBS Precision Engineering BV Esp 201, 5633AD Eindhoven, The Netherlands Telephone: +31 40 290 1270 E-mail: support@ibspe.com www.ibspe.com
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2016-09-09 | 2412 ~ 2462 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2016-09-09
|
||||
1 | Applicant's complete, legal business name |
IBS Precision Engineering BV
|
||||
1 | FCC Registration Number (FRN) |
0024217614
|
||||
1 | Physical Address |
Esp 201
|
||||
1 |
Eindhoven, N/A 5633AD
|
|||||
1 |
Netherlands
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@telefication.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
2ADZW
|
||||
1 | Equipment Product Code |
TRINITY
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
B**** H******
|
||||
1 | Title |
Sr. Mechanical Engineer
|
||||
1 | Telephone Number |
0031 ********
|
||||
1 | Fax Number |
0031 ********
|
||||
1 |
h******@ibspe.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
IBS Precision Engineering BV
|
||||
1 | Name |
R******** R********
|
||||
1 | Physical Address |
Esp 201
|
||||
1 |
Netherlands
|
|||||
1 | Telephone Number |
0031 ********
|
||||
1 | Fax Number |
0031 ********
|
||||
1 |
r******@ibspe.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
IBS Precision Engineering BV
|
||||
1 | Name |
R******** R****
|
||||
1 | Physical Address |
Esp 201
|
||||
1 |
Netherlands
|
|||||
1 | Telephone Number |
0031 ********
|
||||
1 | Fax Number |
0031 ********
|
||||
1 |
r******@ibspe.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 10/24/2016 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DTS - Digital Transmission System | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Trinity Wireless Probe | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Power output listed is conducted. Power output listed is conducted. The antenna(s) used for this transmitter must provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users must be provided transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Telefication B.V.
|
||||
1 | Name |
W****** J********
|
||||
1 | Telephone Number |
00318********
|
||||
1 | Fax Number |
31-31********
|
||||
1 |
w******@telefication.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2412.00000000 | 2462.00000000 | 0.2300000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC