Description
IS200VAICH1DAA Product Introduction
The specific application scope of the product
will depend on the needs of system integration and industrial application, but generally speaking, this type of embedded controller module can be applied to the following categories:
manufacturing processes, etc.
monitoring and control system.
of the controller module, as well as the specific needs of the customer.
designed to manage gas or steam turbines.
It has a CIMPLICITY graphical interface and an HMI with software suitable for running heavy-duty turbines.
be installed at the bottom of the cabinet. For a small setup that is easy to serve a triple redundant system, up to three components can be installed side by side.
he board can operate within a temperature range of 0 to 65 degrees Celsius without the need for a fan for cooling. NFPA Class 1. This board can be used for two applications.
Design of ABB industrial robot deburring and grinding workstation based on RobotStudio simulation softwareintroductionAs an official offline programming software for ABB robots, Robotstudio not only has powerful simulation and offline programming functions, but also has automatic path generation function and simulation monitoring collision function. It can realize the simulation of robots in real scenes, so as to timely update existing robot programs. optimize. On-site teaching programming will affect normal production activities on site.The application of Robotstudio software offline programming can reduce on-site teaching and programming time.As a traditional process of mechanical processing, deburring and grinding have a wide range of applications. However, for a long time, in the process of manual deburring and polishing, there have been differences in operations between workers. The manual operation is not repeatable and the deburring effect is unstable, which has seriously affected the surface quality and service life of the finished product; and the working environment There is a large amount of dust floating in the air and the conditions are harsh, seriously endangering the physical and mental health of workers. With the proposal of “Made in China 2025”, intelligent manufacturing production has become an important development direction for the transformation and upgrading of the future manufacturing industry. The use of industrial robot automated production lines for repetitive batch processing operations can not only greatly improve production efficiency, but also greatly improve product quality. Yield and production stability. Therefore, before designing the robot polishing program, if the shape, size and polishing amount of the workpiece to be polished are known, the robot offline program can be written on the Robotstudio software according to the existing conditions, thereby improving the efficiency of on-site programming.1Design task descriptionThis task is to create a new simulation workstation in ABB robot simulation software Robotstudio. The corresponding training equipment in reality is the Yalong YL-l360A industrial robot deburring and grinding system control and application equipment. The industrial robot selection and method of the simulation workstation are The grinding head installed on the blue plate refers to the Yalong YL-l360A industrial robot deburring and grinding system control and application equipment, and the workpiece is customized. The ABB industrial robot deburring and grinding workstation simulation training process includes: creating a workstation, setting up tools, creating smart components, creating tool coordinate systems, creating trajectories, programming, simulation design, and verification.2 Task implementation2.1 Create a workstationImport the robot: First, create a new simulation workstation in the Robotstudio software. The workstation name is self-named, and then import the corresponding industrial robot IRB1410. The robot position remains unchanged by default. Create a robot system, modify the system options, check 709-1DeviceNetMaster/s1ave, select Chinese as the language, and leave the other options unchanged by default, then click Confirm to create the robot system. After the robot system is created, hide the industrial robot IRB1410 to facilitate subsequent workstation operations.Import workpiece: The workpiece here is customized, and the corresponding workpiece is selected according to the actual situation on site. This article uses the original workpiece Curvet in Robotstudio software. After importing it into the workstation, according to the reachable range of the robot, just place the workpiece at a suitable location within the reachable range of the robot, as shown in Figure 1.Import the grinding rotor tool: First, create a new grinding rotor tool component – rotor – copy (2) and rotor – copy (2) in the so1idworks 3D software. The rotor – copy (2) is a rotatable grinding rotor. —The copy is the tool body, which is the grinding rotor frame, and is installed on the robot flange, as shown in Figure 2.2.2 Setting toolsFirst, move the rotatable grinding rotor and the tool body to the local origin based on point A, and adjust the initial tool angle so that the grinding rotor is parallel to the x-axis of the geodetic coordinate system, as shown in Figure 3. Set the local origin of the tool body at this time, change the position x, y,: to 0, 0, 0, and change the direction x, y,: to 0, 0, 0.Figure 3 Tool settingsCreate a new frame at point B of the tool body, name it “frame l”, and adjust the direction of frame l so that the axis is perpendicular to the plane of point B. The specific direction is shown in Figure 4.
IS420UCSCS2A-B From General Electric in the United States
IS200TVBAH2ACC I/O excitation redundant module GE
IS200JPDSG1ACBGE From General Electric in the United States
IS220PDIIH1B GE power control board
DS200LDCCH1AGA GE power control board
IS200BLIGH1A Gas turbine system Mark VI
IS200ERRBG1A From General Electric in the United States
IS200DSPXH1D I/O excitation redundant module GE
IS200ERIOH1ACB From General Electric in the United States
IS200TBTCH1CBB High performance processor module GE
IS200DAMAG1B From General Electric in the United States
IS200VAICH1DAA From General Electric in the United States
IS200HFPAG2A I/O excitation redundant module GE
IS200RCSAG1ABB GE power control board
IS200TREGH1BDC Processor/Controller Mark VI System
IS210DTAIH1A Processor/Controller Mark VI System
IS230TNTRH1C Gas turbine system Mark VI
DS200TCEAG1BNE I/O excitation redundant module GE
IS200JPDDG1A Processor/Controller Mark VI System
IS200TRLYH1BGF GE power control board
DS200TCEAG1BTF High performance processor module GE
IS200TRLYH1C High performance processor module GE
IS210AEBIH1ADC From General Electric in the United States
IS200ESYSH3ABB Gas turbine system Mark VI
IS200HFPAG2ADC GE power control board
IS200BICRH1A GE power control board
IS220PRTDH1B Processor/Controller Mark VI System
DS200ACNAG1ADD High performance processor module GE
DS200TCRAG1ABB GE power control board
DS200SDCCG4AFD High performance processor module GE
DS200GDPAG1AKF High performance processor module GE
DS200TCCAG1BAA I/O excitation redundant module GE
DS215TCDAG1BZZ01A From General Electric in the United States
GDS1168-PFF-PA-NF Processor/Controller Mark VI System
IS210MACCH2AEG High performance processor module GE
IS200EGPAG1B Gas turbine system Mark VI
IS200SPROH1AAB Processor/Controller Mark VI System
DS200UPSAG1A Processor/Controller Mark VI System
DS200TBQCG1AAA High performance processor module GE
DS200SPCBG1ADC I/O excitation redundant module GE
DS200IIBDG1A High performance processor module GE
IS200TRLYS1BGG High performance processor module GE
IS215UCVFH2AB High performance processor module GE
DS200SDCCG5A GE power control board
IS210AEBIH3B Gas turbine system Mark VI
IS200DAMDG2A Processor/Controller Mark VI System
DS3820LT4AICIA From General Electric in the United States
IS400JPDHG1ABB Gas turbine system Mark VI
IS200VTCCH1CBC GE power control board
DS200TCDAH1B Processor/Controller Mark VI System
IS210AEACH1A I/O excitation redundant module GE
DS200LDCCH1AGA Processor/Controller Mark VI System
IS410TRLYS1F High performance processor module GE
IS220PRTDH1B High performance processor module GE
IS215SECAH1A I/O excitation redundant module GE
IS200TBTCH1C I/O excitation redundant module GE
DS200TCQCG1BKG Gas turbine system Mark VI
IS200BPVCG1B I/O excitation redundant module GE
IS210BPPBH2B From General Electric in the United States
IS200EPDMG1ABA I/O excitation redundant module GE
IS200STCIH6ADD Gas turbine system Mark VI
IS200VCRCH1BBB GE power control board
IS200BPIIH1AAA High performance processor module GE
IS420YDOAS1B Processor/Controller Mark VI System
IS210AEAAH1B GE power control board
DS200TCDAG1PR5A Processor/Controller Mark VI System
IS200DAMDG2AAA Processor/Controller Mark VI System
DS200SDCCG4AFD From General Electric in the United States
IS200ICBDH1ABB From General Electric in the United States
DS200ACNAG1ADD Processor/Controller Mark VI System
