Christiani Industry Model 3-Axis-Portal
Stand Alone Model

Item No.: 14814

The model 3-Axis-Portal simulates a stationary used handling robot with an orthogonal work space used for passing on work pieces to processing or sorting unit, as used e. g. in factories being automated in a large degree.

The model consists of the portal robot that is able to move in three linear directions and an electromagnetic gripper, fit to be moved in Z-direction, a piece store and a discharge station. The end positions of the several moving parts are each recognized by software end position switches. The simulated process shows metal work pieces being withdrawn from the store by the electromagnetic gripper, being moved to the discharge station and there getting put down: At the beginning of the sequence the moving parts of the robot execute a reference tour, in order to equalize the incremental distance measuring systems of the X- and Y-axes with their real positions.

The reference tour is done with the gripper being in its upper end position. After this, the gripper is moved in X- and Y-direction until it has reached its demanded position above the piece store. The gripper moves in –Z-direction until it touches the work piece. The magnet gets switched on and the part is attached to the gripper. The gripper moves in +Z-direction until it has again reached its upper end position. Following this, it executes a movement in X- and Y-direction until it has reached a position above the discharge station. Having reached this state, the gripper again moves in –Z-direction until the attached piece is put on the discharge station, where it gets recognized by an inductive proximity switch. The work piece is withdrawn by deactivating the electromagnetic gripper. In order to save the whole unit from being damaged by moving out of the allowed work space, caused by a mistake in programming the control unit, the linear directions are supplementary equipped with hardware end position switches, which cause an immediately stop of the corresponding axis in case of being actuated. The electronic concept of the model only enables a restarting of the robot by executing a movement towards the work space.

With Christiani's industrial models, you can convey almost all learning content as in a real automation system:

  • Requirements definition
  • Control planning
  • Control selection
  • Programming
  • Commissioning
  • Setup and adjustment
  • Verification of results

Training in the departments:

  • Automation technology
  • PLC programming
  • Control technology
  • Electrical engineering
  • Maintenance
  • Logistics

Dimensions: 660 x 540 x 450 mm (L x W x H)

Supply voltage: 24 V

Components:

  • Sensors:
    • 2 x incremental encoders
    • 1 x inductive proximity switch
    • 8 x Mechanical switches
  • 3 x Motors with two directions of rotation
  • 1 x Electromagnet

Requirements for the PLC:

  • 9 x Digital Inputs
  • 6 x Counter Inputs
  • 7 x Digital Outputs

Electrical Connection:

  • SUB-D1 - 37 poles (28 pins occupied)

Accessory Cable:

  • 1 x connecting Cable 20 x 0.34 mm²
  • 1 x connecting Cable 8 x 0.34 mm²

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