Production Robotic Arm Training System
(MR106)
  • Learning the concept of robotic arm manipulation.
  • Learning the concept of robotic arm movement.
  • Learning the software system of the robotic arm.
  • Learning inspection application concept.
  • Learning sorting application concept.
  • Learning packing and loading application concept.
  • Learning the concepts of sensors and actuators integration and operation with plc controller.
  • Robotic arm
    • Number of axis: 6 axis
    • Payload: 5kg max
    • Repeatability: ± 0.05 mm
    • Running radius: 700 mm
    • Body material: 6061 aluminum alloy
    • Joint range of motion:
      • Axis 1: + 175, -175
      • Axis 2: + 85, -265
      • Axis 3: +160, -160
      • Axis 4: +85, -265
      • Axis 5: +175, -175
      • Axis 6: +175, -175
  • PLC: PLC S7-1200
    • CPU 1214C
    • Digital inputs: 14
    • Digital outputs: 10
    • Analog inputs: 2
  • Inductive proximity sensor
    •  Wire type and power: 3-wire type 12-24 VDC
  • Capacitive proximity sensor
    • Wire type and power: 3-wire type 12-24 VDC
  • Photoelectric beam sensor
    • Supply voltage: 6-36 VDC
    • Sensing distance: 0-5 m
    • Wire type: dc 3 wire
  • Color sensor
    • Supply voltage: 5 VDC
    • Type: RGP
    • Communication: I2C, UART
  • The RGB camera
    • Fixed focus lens on-board
    • 8-megapixel native resolution sensor capable of 3280 x 2464-pixel static images
    • Supports 1080p30, 720p60 and 640x480p90 video
  • Production Robotic Arm Training System (MR106)
  • Fixed Frame Table Suitable for Robot (MR102) or (MR103)
  • Hard Copy User Manual

Our training robot can be used to demonstrate the operation of industrial robotic arms. With the integration between the robotic arm and the sensors on the production lines the robotic arm can perform tasks and execute repeated operations autonomously. Our robots can perform the process of sorting which involves the arranging of items systematically by either order or categorizing by identifying similarities between items. For the automation of sorting applications industrial robots are integrated with a combination of robotic vision to be able to locate, identify, and pick out items.

  • The production robotic arm training system is a comprehensive training system that can be used to demonstrate different applications and robotics principles.
  • A typical industrial robot workstation equipment with a robotic arm that is placed on a movable base along side the production line. The training system is provided with conveyor to simulate the product transporting process that is common in industrial factories.
  • In the first stage, the robot picks an object from the stacking area and place it on the first conveyor as the conveyor passes the object through different types of sensors such as barcode scanner, color sensor.
  • inductive proximity sensor, capacitive proximity sensor, laser through switch and laser sensor to detect and identify the characteristics of the product.
  • The robotic arm is used to reject the defected parts and eliminate them from the production line. And perform specific operation such as capping or assembly on the non detective parts.
  • The non-defected parts then are transferred to the second conveyor and the parts go through another set of sensors to collect data about the different characteristics of the parts and according to these data the system will be able to classify the parts according to the different parameters.
  • The second Stage is supplied with different types of sensors such as camera, inductive proximity sensor, capacitive proximity sensor, laser through switch and laser sensor to inspect the characteristics of the product.
  • In the next stage the robot arm transfers the parts to sorting boxes that is placed at the last conveyor, and the boxes number is according to the number of parts types.
  • The system is provided with all the needed sensors, stacking and storage stations tables.
  • 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.
  • Training system is provided with gripper attachment.
  • Robotic arm body has a built-in control board for easy integration and application.
  • It is designed to integrate multiple functions by the use of a movable base alongside the production line.
  • The production line sensors and actuators are being controlled by using plc controller.
  • All the system is being monitored by using a HMI screen.