RoboCell Data Sheet - Intelitek
RoboCell Data Sheet - Intelitek
RoboCell Data Sheet - Intelitek
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<strong>RoboCell</strong> for Controller USB<br />
N E W D I M E N S I O N S I N R O B O T I C P R O G R A M M I N G , C O N T R O L & S I M U L A T I O N<br />
LEARNMATE® E-LEARNING CURRICULUM<br />
LearnMate e-Learning curriculum with fully integrated<br />
Robocell software provides comprehensive<br />
instruction in robotic programming and automation.<br />
Courses cover introductory to advanced topics,<br />
and include e-Learning Robocell and Scorbase<br />
projects samples and solutions.<br />
Courses include:<br />
• Fundamentals of Robotics for SCORBOT-ER4u<br />
• Robotics and Materials Handling 1 with<br />
SCORBOT-ER4u (laboratory)<br />
• Robotics and Materials Handling 2 with<br />
SCORBOT-ER4u<br />
• Automated Welding with SCORBOT-ER4u<br />
• Advanced Robotic Programming with the<br />
SCORBOT-ER4u<br />
<strong>RoboCell</strong> integrates Scorbase robotic control software with<br />
interactive 3D solid modeling simulation software. <strong>RoboCell</strong>’s<br />
virtual robots and devices accurately replicate the actual<br />
dimensions and functions of SCORBOT equipment. Students<br />
can teach positions, write programs and debug robotic<br />
applications offline before executing them in an actual workcell.<br />
<strong>RoboCell</strong> allows students to experiment with a variety of<br />
simulated workcells, even if the actual workcells do not exist in<br />
the lab. Advanced students can even design 3D objects and<br />
import them into <strong>RoboCell</strong> for use in virtual workcells.<br />
<strong>RoboCell</strong> for Controller USB runs Scorbase programs in<br />
three modes:<br />
• Online mode: control robotic cell<br />
with Controller USB<br />
• Simulation mode: control virtual robotic cell presented<br />
into 3D graphic display<br />
• Offline mode: checking Scorbase program<br />
<strong>RoboCell</strong> is a 3D graphic application which is fully integrated<br />
with Scorbase robot control and programming software, and<br />
provides dynamic simulation of robot and robotic cell devices.<br />
Important components of <strong>RoboCell</strong> are Cell Setup and Graphic<br />
Display. The Cell Setup application allows a user to create a new<br />
virtual robotic cell, or modify an existing cell. Examples of cells are<br />
CNC machines, welding cells, and flexible manufacturing systems<br />
(FMS) with robot.<br />
The Graphic Display module provides a 3D simulation of the<br />
robot and other devices in a virtual cell. Fully integrated with other<br />
intelitek systems and products, <strong>RoboCell</strong> takes your students to even<br />
higher levels of technology learning and skills.<br />
w w w . i n t e l i t e k . c o m
Cat# 100549 rev. C Specifications subject to change without prior notice<br />
<strong>RoboCell</strong> for Controller USB<br />
A full range of industrial functions in an intuitive<br />
interface designed for training environments.<br />
Several operational levels provide challenges for the most<br />
advanced users and give novice users opportunities to learn<br />
and develop programming skills.<br />
The full-featured SCORBASE module contains all the tools<br />
needed for robotic workcell programming and operation:<br />
• Program coding<br />
• Position recording<br />
• Manual control of robot and peripheral axes<br />
• Program execution<br />
• Real-time data display<br />
• Integration and support for workcell components<br />
• Parameter manipulation for adjusting controller<br />
operation<br />
• Both SCORBASE and <strong>RoboCell</strong> support multitasking<br />
and scripting language<br />
The 3D graphic display module provides dynamic simulation<br />
and tracking of the robot and devices in the workcell. It also<br />
includes an interactive design tool for creating a wide variety<br />
of virtual robotic workcells, which may replicate actual<br />
systems or theoretical ones.<br />
More efficient use of the school’s robotic system Students<br />
can record positions, write, edit and debug programs using<br />
the simulated model before running them on the actual<br />
robot system, thereby freeing the equipment for execution<br />
of applications.<br />
Comprehensive curriculum for robotic workcells Using<br />
<strong>RoboCell</strong> 3D graphic simulation software enables offline design and<br />
simulation of virtual robotic workcell and online graphic tracking of<br />
actual cell.<br />
<strong>RoboCell</strong> with and without actual equipment, students<br />
acquire theoretical and practical knowledge and skills in<br />
subjects such as robotics and materials handling,<br />
automated welding and flexible manufacturing systems.