1. Wide application: it has been widely used in industrial applications, medical care, scientific research and education, new retail services, etc.
2. Easy programming: visual programming is simple and efficient. You can master the programming method in half an hour, and complete simple programming in one hour.
3. System openness: multiple language docking, multiple communication protocols, third-party plug-in deep integration, SDK and API support.
4. High precision: millimeter level system response speed ensures accurate positioning, and repeated positioning accuracy can reach 0.02mm.
1、 AI mobile robot training platform
The platform hardware has modules such as AI computing, voice, vision, motion control, mechanical arm, SLAM navigation, mobile platform, multi-sensor acquisition, etc. The software provides an embedded AI computing framework and corresponding algorithm standard API, and supports applications such as visual processing and analysis, speech recognition, semantic analysis, machine learning, SLAM, ROS robot motion control, and mainstream open source algorithms. The platform integrates cognition, teaching, practical training, development and scientific research, provides a complete curriculum system and a rich training case base, and can provide end-to-end AI teaching resources and experimental course support for AI talent cultivation in computer, Internet of Things, AI and other majors. Mobile AGV platform+desktop mechanical arm constitute a full function version. The AI module is flexibly deployed and used on the desktop training console and mobile AGV platform through magnetic pull in. The perfect combination of programming development and hands-on practice, equipped with a 6-axis mechanical arm and end gripper, can flexibly realize more creative applications.
For details, please click on the consultation details or the manual customer service in the lower right corner for professional consultation
2、 Intelligent cooperative robot technology and application training platform
1. Intelligent cooperative robot body+teaching device+controller
1.1 Body parameters
Arm length of mechanical arm: 1006~1008mm
▲ Working radius: no less than 880mm
▲ Maximum load: 5kg
Weight of mechanical arm: not more than 24kg
1.2 Control cabinet:
Size: ≥ 380 x 350 x 258mm
Weight: no more than 20kg
Length of teaching pendant connecting cable: not less than 4m
1.3 Teaching pendant:
Size: ≥ 355 x 235 x 54mm
Display: 12 inch resistive LCD touch screen
The protection level is not lower than IP43
1.4 Robot functions:
▲ Comply with EU CE certification, North American certification and Korean KCS certification
▲ Collision protection function, providing 10 levels of collision protection, and the robot automatically stops after detecting collision;
Provide supporting environment development package and training project guide book based on ROS platform (provide demonstration video screenshots as evidence)
▲ Provide multiple platform SDK development packages, support C++programming under Linux, Lua scripting language programming, Windows VC++, Python scripting, QT cross platform programming and development (provide demonstration video screenshots as evidence)
Provide offline script language editor offline script language editor;
2. Unit module of training platform
2.1 Track calibration module
Functions: tool calibration tip, tool coordinate system establishment, line, curve, arc and other plane trajectory teaching functions
Support replaceable teaching track, teaching with different angles of inclined plane, direct teaching with whiteboard pen, convenient track proofreading, erasable, and reusable
2.2 Tool quick change module
2.2.1 Tool support
2.2.4 Writing end of whiteboard pen
2.2.5 Simulate the end of welding gun
2.2.6 Vacuum sucker pawl end
2.3 Assembly and storage module
2.4 Storage positioning module
2.5 Sorting conveyor line module
2.6 Sorting and warehousing module
2.7 Vision module
2.7.1 Industrial camera
2.7.3 Lens:
2.7.4 Visual algorithm platform:
Integrating multiple algorithm components of machine vision, it is applicable to a variety of application scenarios, and can quickly combine algorithms to find, measure, and detect defects of workpieces or objects under test.
It has a powerful library of visual analysis tools, including acquisition, positioning, measurement, recognition, calibration, image processing, color processing, defect detection, logic tools and communication tools, which can easily and flexibly build machine vision applications.
2.8 Rotating storage module
2.9 Stacking platform module
2.10 Electrical control system
2.10.1 Human computer interactive resistive touch screen
2.10.2 PLC programmable controller
2.11 Pneumatic system
2.12 Training workbench
Function: The workbench plane provides standard quick plug power supply, air source, communication interface, flexible fixed card slot for the functional module, supports the customized position of each module, and can be fixed by hand screwing bolts, which can realize quick disassembly and assembly without tools
The worktable cabinet provides placement space for electrical relay board, robot control cabinet, compressed air station, functional modules, etc., with reasonable distribution and convenient operation