Welcome! Welcome to FluidSIM ! Thank you for purchasing the FluidSIM® 3 Pneumatics training software. D.1 D.2 D.3 D.4 D.5 Circuits Air Service Units Valves Actuators Exercises Extensions Educational Films Standard Presentations Messages Electrical Errors Drawing Errors Operating Errors Opening and Saving Files System Errors Index © Festo Didactic GmbH & Co.
![fluidsim pneumatics examples fluidsim pneumatics examples](https://i.ytimg.com/vi/MHlnTQV1Tn0/maxresdefault.jpg)
C.1 C.2 4 Special Functions Drawing Layers Graphic Primitives Text Components and Identifications Parts Lists Printing a Window’s Contents DXF Export DXF Import Using and Organizing Component Libraries Managing Projects Saving Settings Help and Advanced Tips The Most Frequently Occurring Problems Tips for the Advanced User FluidSIM Menus File Edit Execute Library Insert Didactics Project View Options Window ? The Component Library Pneumatic Components Electrical Components Electrical Components (American Standard) Digital Components Miscellaneous Didactics Material Survey Basics Diagram Symbols 112 112 113 117 119 123 125 126 129 137 139 142 142 146 151 151 153 155 156 157 157 159 160 163 165 165 166 166 186 195 199 210 212 212 214 © Festo Didactic GmbH & Co. 5.1 5.2 5.3 5.4 5.5 Welcome! About FluidSIM Layout of the Handbook Conventions Getting Started Technical Requirements Installation Installation with Program Activation Installation with license connector Supplied Files De-installation of a Single-Position License Introduction to Simulating and Creating Circuits Simulating Existing Circuit Diagrams The Different Simulation Modes Creating new Circuit Diagrams Advanced Concepts in Simulating and Creating Circuits Additional Editing Functions Additional Simulation Functions Linking Components Automatically Current Path Numbering and Switching Elements Table Displaying Quantity Values Displaying State Diagrams Superficial Circuit Checking Coupling Pneumatics, Electrics and Mechanics Operating Switches Adjustable Components Settings for Simulation OPC and DDE communication with Other Applications Settings for the OPC/DDE communication Learning, Teaching, and Visualizing Pneumatics Information about Single Components Selecting Didactics Material from a List Presentations: Combining Instructional Material Playback of Educational Films Settings for Didactics © Festo Didactic GmbH & Co. All rights reserved, in particular the right to carry out patent, utility model or ornamental design registration. Offenders will be held liable for the payment of damages. KG, D-73770 Denkendorf, 1996-2004 Internet: e-mail: © Art Systems Software GmbH, D-33102 Paderborn, 1995-2004 Internet: e-mail: The copying, distribution and utilization of this document as well as the communication of its contents to others without expressed authorization is prohibited. Order No.: 398029 Description: HANDBUCH Designation: D:HB-FSP3-GB Edition: 4/2004 Author: Art Systems Layout: Art Systems © Festo Didactic GmbH & Co. Concept and development of FluidSIM® 3 Pneumatics is based on research work carried out by Dr. I don't get how I'm supposed to figure out where in the sequence I am, and the third cylinder has to "wait", so I can't just make it go back and forth.FluidSIM® 3.6 Pneumatics User’s Guide 398029 GB 04/04 FluidSIM was launched at the Knowledge-based Systems Department of the University of Paderborn. (if anything sounds weird or different it's cause english isn't my first language)Įxample 1 - diagram of how the cylinders should move and for how longĮxample 2 - diagram of how the cylinders should move and for how long I've been given three examples I can add the other one if need be. There will be a diagram of when each cylinder is supposed to go back and forth, a pneumatic circuit and an electrical circuit.
![fluidsim pneumatics examples fluidsim pneumatics examples](https://i.ytimg.com/vi/tUnRQyIFLgU/maxresdefault.jpg)
I'm also going to add an example that I figured out (that's the first three photos). I'm going to a electro-pneumatic contest this weekend and I'm having some trouble with figuring out how to make this electrical circuit. I'm using FluidSIM. The biggest problem I'm having is that I don't understand how to make the circuit know what part of the sequence is happening (sorry if I'm explaining this poorly, maybe the photos will make it make some sense).