6-Axis Articulated Robot Arm
(RM-011)
  • Study the basic composition of the robot system
  • Study the basic knowledge of robot offline programming
  • Study the operation and application programming of robot I/O
  • Study the robot motion classification
  • Full understanding of robotic arm technology and application
  • In-depth study to understand the structure and control system of the robotic arm
  • Number of axis: 6 axis
  • Payload: 3kg max.
  • Repeatability: ± 0.05 mm
  • Running radius: 700 mm
  • Body material: 6061 aluminum alloy
  • 6-Axis articulated robot arm - (RM - 011)
  • Set of Workpieces
  • Pick and place application (RM-011.1)
  • Hard copy user manual
  • Stacking Stones Using Robotic Arm (RM-011.2)
  • Auto Robot Milk-Tea /Coffee Bartending Vending Machine Integration (RM-011.3)
  • Sorting different sizes cylindric shapes onto two bases. (RM-011.4)
  • Painting application with plastic painting (RM-011.5)
  • Digital content (BI-01)
  • Laboratory PC
  • Compressor for Painting application with plastic painting Code: (RM - 011.5)

BEDO stand-alone fenceless robotic training system relies on 6-axis robotic arm mounted on a slotted aluminum table, as a carrier, so that trainees can intuitively and conveniently understand the appearance and mechanical structure of the industrial robot. As well , the system provides an open-source collaborative 6-axis robot system as trainees have an access to the controller I/O ports and hence to the software interface has many options (G-Code – Python – MATLAB) editing area , this enables recreating more high-quality robotic applications based on wide range of additional modules and accessories that can be attached to the system.

                                     
  • Robotic arm of sturdy aluminum alloy body with a simple and user-friendly operating system.
  • Robotic arm body is manufactured and processed using cnc machining, sandblasting & anodizing technologies for durability and longtime operation.
  • The system is featured by its simple structure, low energy consumption, space saving and high reliability.
  • The SIX Axis allow the robot to move in the X, Y, and Z planes, as well as position itself using roll, pitch, and yaw movements. This functionality is suitable for complex movements that simulate a human arm.
  • Mechanical arm vertically articulated with a transmission system made of gears, timing belts, lead screw.
  • Training system is provided with electric gripper attachment (no compressor required) for round and square parts.
  • Gripper includes open/close actuators and a led pointer.
  • Robotic arm body has a built-in control board for easy integration and application.
  • The system is equipped with a controller box of type STM32
  • Controller STM 32 provides dll function interface and provides routine source code. Support G-Code operation, Python, MATLAB, RS232 communication and RS485 communication.
  • To start operating the robot, trainees will go through different concepts required in this system as they will learn how to make successful USB to RS232 driver installation.
  • The system provides an access to the system interface so they can know the system version information and control the robot using different types of buttons for different commands.
  • Multi-turn absolute encoders are used for zero position calibration
  • It is designed to integrate multiple functions such as picking & placing, QC testing, part sorting and assembly, inspection, machine tending, part delivery & etc.
  • The system provides the ability to develop a new program or to expand an existing one.
  • Wide range of additional modules and accessories can be attached to the system to suit different applications based on the computers required for its operation.
  • The system enables trainees to program more applications and expand control on the movement of the industrial robot and its related technologies using G-Code, Python, or MATLAB.
  • Large aluminum slotted table to accommodate different applications from basic to advanced level.