Do stacks of paperwork pile up at the front desk area? Or are your receptionists constantly filing reports, guest log-in information and NDAs – taking them away from other important tasks? Our Visitor Management System automates all these processes, streamlining your workflow. Guests can complete inductions, sign NDAs, fill in their contact details and much more using the easy software. These records are then automatically filed and stored, making life easy for receptionists and the HR team. Claim your FREE 7-day trial and experience how VisitUs can transform your workplace! LibreCAD is an open-source cross-platform 2D CAD program, which is translated in over 30 languages.is free software; you can redistribute it and/or modifyit under the terms of the GNU General Public License version 2.This program is distributed in the hope that it will be useful,but WITHOUT ANY WARRANTY; without even the implied warranty ofMERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.License: the latest development:bug reports and feature requests:help:- https://wiki.librecad.org.
WARNING: FreeCAD has moved!FreeCAD code and release files are now hosted on github at older files and code are available here.FreeCAD is a general purpose feature-based, parametric 3D modeler for CAD, MCAD, CAx, CAE and PLM, aimed directly at mechanical engineering and product design but also fits a wider range of uses in engineering, such as architecture or other engineering specialties. It is 100% Open Source and extremely modular, allowing for very advanced extension and customization.FreeCAD is based on OpenCasCade, a powerful geometry kernel, features an Open Inventor-compliant 3D scene representation model provided by the Coin 3D library, and a broad Python API. The interface is built with Qt. FreeCAD runs exactly the same way on Windows, Mac OSX and Linux platforms.
Virtual Satellite is a DLR open source software for model based systems engineering MBSE. One of the major features of Virtual Satellite is the modular data model, that can be easily customized to your personal needs. Today, there are already various different versions:- Virtual Satellite 4 - Core is the entry point to start developing and the basis for all other versions- Virtual Satellite 4 - CEF is a specialized version for the use in our Concurrent Engineering Facility- Virtual Satellite 4 - FDIR is a research version for Failure Detection, Isolation and Recovery- Virtual Satellite 4 - DEV IDE is a spezial Eclipse IDE for easy and fast VIrtual Satellite development.This project contains the deployed artefacts from the Virtual Satellite Eco-System. Donwnloads for Virtual Satellite 4 Core are also provided.The artefacts contain p2 builds for:- Daily development builds- Regular integration builds- Specific release builds. Pentaho tightly couples data integration with business analytics in a modern platform that brings together IT and business users to easily access, visualize and explore all data that impacts business results.
Use it as a full suite or as individual components that are accessible on-premise in the cloud or on-the-go (mobile). Pentaho Kettle enables IT and developers to access and integrate data from any source, and deliver it to your business applications, all from within an intuitive and easy to use graphical tool. OdooPLM is an Open Source module for Odoo that allows you to manage PLM Data inside Odoo.You can upload data from the most common commercial CAD systems directly to OdooOur approach, very quick, ready to use, is very useful for all companies that wants useful and powerful tools. You can install PLM module and its Client without any cost, touching the quality of our product in your real work environment.Odoo is a product of Odoo SA, world class leader in Open Source ERP system.Find it at project is maintained by OmniaSolutions.Find us at http://omniasolutions.website. FEATool Multiphysics (is a fully integrated, flexible and easy to use physics and finite element FEM simulation toolbox for MATLAB. Developed with ease of use in mind, everyone is able to set up and perform complex multiphysics simulations in a simple GUI without learning any coding, programming, or scripting.In addition to built-in FEM and PDE solvers, FEATool features full integration with the high performance OpenFOAM CFD and FEniCS PDE solvers. With built-in CAD and pre-processing, automatic mesh generation, solvers, and postprocessing, FEATool enables large scale dynamical models and physics simulations to be set up and solved easily and quickly directly in the FEATool MATLAB GUI.
Multiphysics and multi-simulation also allows for fully coupled fluid flow, heat transfer, chemical transport, electromagnetics, and fluid-structure interaction simulations. Libre Mechanics it’s an Open Knowledge project created to offer a useful platform of information related with the development and research of Mechanical Engineering themes and similar fields, higly related with the use of Open Source and Software Libre tools. Here you will find a wide variety of projects, publications and scientific material available as references for developing their own projects, also guides and tutorials that allow you to take advantage of free software tools available today.The four principal lines of work are:DesignAnalysis and SimulationAutomation and RoboticsDevelopment. CalculiX Binaries for MS Windows, made with CYGWIN and ARPACK libraries. CalculiX is most popular FEA open-source package (like Code-Aster and Elmer-FEM).
It is comparable in features with most known commercial packages like ANSYS, NASTRAN, Abaqus, etc. Good for structural, mechanical, thermal and fluid applications (trusses, plates, frames, shells, solid bodies). It has powerful nonlinear capabilities (including tension/compression only material like concrete) and most types of analysis (modal, thermal, buckling, coupled, etc). See home page at versions can be obtauned here: http://calculixforwin.blogspot.com/2015/05/calculix-launcher.html. A Windows only 2.5D CAD CAM application. The user experience tightly integrates the CAM aspects when doing design and layout. The target users will layout their design and then immediately generate CNC code.The goal is a design application closer to Adobe Illustrator than to AutoCAD.
The user specifies machining aspects during object creation so that when the design/layout phase is completed the toolpath generation can occur automatically.What is 2.5D? Objects created are flat (2D) but have a depth component. So you can create a square that will be machined at a specific depth but the depth will be constant accross the square.It is not/does not:A general purpose CAD (AutoCAD) type program.Support reference dimension on the drawing.Export or import major CAD file formats.
CNC is at the heart of the maker community. By using simple tools like CNC mills, laser cutters or routers, you could create anything from stencils to laser-cut jewelry. But did you know that there’s a 3 step process to CNC? Not only do you need to create a vector with CAD, you also need CAM software and CNC control software to bring your project to life.
It can be difficult trying to navigate the choppy waters of CNC software, so Scan2CAD has done all the heavy lifting for you.This handy guide aims to explain what types of software are involved in CNC—from CAD to CAM to CNC control software. We’ve even included examples of top software and freeware that you could be using with your CNC projects. We’ll even show you where you can find free DXF designs to start your own projects.Table of Contents.CNC: OverviewIf you didn’t already know, stands for Computer Numeric Control. CNC machines work by removing material from the initial piece, as opposed to adding new material to it (such as in 3D printing. CNC can be described as a type of subtractive manufacturing and a process such as 3D printing can be described additive manufacturing.Examples of CNC machines include mills, routers, plasma cutters and laser etchers. For a better look, check out Scan2CAD’s.Your CNC machine runs on a series of pre-programmed commands. The most common programming language is called G-code, though other languages like Heidenhain and Mazak exist for CNC.G-code controls the movement of your CNC machine’s tool.
It controls its position and depth on the X, Y and Z axes. It also controls the speed at which it rotates and the rate at which it moves.From Design To FabricationTypically, there’s a three step process to CNC that involves three corresponding types of software. To begin, you first need a design in a vector file format (unless you already have the G-code). A vector is a set of mathematical instructions that will dictate how your image is rendered—the most popular vector file format is. You can create your designs and vectors with CAD software. Alternatively, you can use software like to convert a raster design to a vector.Once you have your vector, you will need to convert it to which is a programming language that directs your machine. This can be done with CAM software.
The process then ends with CNC control software which will read your G-code and turn it into motion to run your CNC machine.Of course, there are exceptions to the above process. For example, you might find yourself using software that integrates both CAD/CAM capabilities. Or, you might want to skip the CAD step altogether by using free DXFs. We have discussed both possibilities below.If you’re already sorted with CAD/CAM software, or you’re just hunting for the best control software, skip straight to!Step 1: CAD SoftwareComputer Aided Design software is the starting point for most CNC projects—this software is used to create your designs and vectors.
There are hundreds of CAD packages available, each with different capabilities depending on which industry you’re interested in. As we have covered before, CAD is widespread across hundreds of industries—from architecture to art to mechanics.Of course, you need to choose your CAD program carefully.
These packages can be expensive, so you’ll want to make sure you’re going to get your money’s worth—so take advantage of free trials and look at reviews. Unfortunately, there can be a steep learning curve for many packages—however, there are online resources that can help you along the way. For example, Scan2CAD offers tips and tricks for and.For a better look, take a look at the following list of popular CAD software and freeware below. Popular CAD Software. Screenshot of AutoCAD 2013.: used to create 2D and 3D drawings. It spans across industries including mechanics, architecture and civil engineering.
It’s one of the most popular CAD packages in the world.: a parametric feature-based 3D modeling software. It can be used for advanced 3D modeling and auto-generated 2D drawings. It’s the most popular parametric modeler.: can create, edit and render NURBS curves, surfaces, solids and polygon meshes. It includes free-form 3D modeling tools alongside complete accuracy and accessibility.This list of course, is just the tip of the iceberg.
If you’re looking to branch out into for example, you might like to try a package like. You should also bear in mind that some CAD packages offer CAM capabilities. For example, includes built-in CAM software that allows you to create and edit G-code.
Free CAD SoftwareIf you’re not looking to fork out money for a CAD package, you might find it more worthwhile to try out free CAD packages. This is a preferred option for many CNC hobbyists who don’t use CAD software enough to warrant paying a large expense. Screenshot of Wings3D.: it’s not technically a CAD program, but it does allow you to produce 3D drawings that you can use with a CAM program to create G-code.: a modeling tool designed primarily for the creation of 3D models, which can then be imported into a CAM program. It supports mesh tools, design and editing features etc.: offers 2D, 3D and parametric design—you can build anything from machine parts to blueprints. It’s free, but there are premium versions which include add-on features.If that’s not enough for you, check out our list of.You might be wondering if there’s a way to avoid CAD software altogether.
If that’s the case, you’re in luck—you can access free DXFs that are ready-to-cut so you don’t have to design anything. Take a look below to see how.Free DXF DesignsIf you’re looking to start an exciting project from one of Scan2CAD’s, you might not want to go through the process of creating your own image—it can be pretty time-consuming after all. If that’s the case, you might want to consider using ready-to-cut DXF designs.There’s a wide variety of that you can download DXFs from to get started on your own CNC project. These include:.A problem you might have with these sites however, is that they will only offer you a finite source—they’re only updated once a month or so.
That’s where Scan2CAD comes in!Scan2CAD isn’t just a conversion software, it’s also a great source for anything CAD, CAM and CNC-related. It’s not surprising then, that we offer our own cut-ready CNC designs that are free and ready to use with your CNC machines. And it’s not just one or two designs—it’s an entire every single week—typically containing 6 or 7 designs in a DXF and JPG format.The theme for each week changes, so you’ll be sure to find something to your taste. Our previous packs have included. So if you’re looking for a new project to start each week, and get DXF packs sent straight to your email.Step 2: CAM SoftwareComputer Aided Manufacturing software is fed your CAD drawing and subsequently produces G-code that you can then feed into your control software to run your CNC machine.
It is possible to write G-code by hand for simple circles or lines, but it’s much easier to produce using a CAM program. If you’re still not sure what G-code is, head on over to Scan2CAD’s exclusive.As we have discussed, there can be confusion as to the difference between CAD and CAM, as many packages like Fusion 360 come with both capabilities nowadays. While it can be more efficient to have an integrated solution, it can be more expensive, which is problematic if you’re looking for a cost-effective package. Popular CAM Software. Screenshot of MechCAM. Image source:.: works with almost every 3D CAD program by opening the two most common file formats, STL and DXF. It boasts more toolpath options than any competing CAM program.: one of the most popular CAM programs available.
It provides full 3D live wireframe modeling, and a broad range of translators allowing you to open any CAD file.: provides a CAM system for milling, turning and mill-turn machining. It has versions that provides a range of capabilities in 2, 3, 4 and 5 axis machining.Free CAM SoftwareIf you’re a casual CNC hobbyist or beginner, you might not need to use the most powerful CAM packages available. After all, you won’t need to figure out 6-axis toolpaths on your first day! With that in mind, the following free packages might be more to your level. Screenshot of FreeMILL. Image source:.: a toolpath generator for 3-axis CNC machining. It loads 3D models in an STL format, or 2D contour models from DXF or SVG files.
You can then use the resulting G-code with any machine controller.: a free milling module for programming CNC mills and routers. You can run full simulations on your part models and output G-code to your machine.: is a simple CAM package for 3-axis machining centers. It includes a tools and materials library, along with a selectable excess material removal filter.Of course, you should bear in mind to be careful when using freeware. Only use freeware that has been reviewed by reliable sources—you don’t want to accidentally download malware. As we have discussed previously with the, freeware can often cause more problems than it’s worth.Now you’ve had a look at CAD and CAM packages, you might be wondering about packages that integrate both capabilities—or even how you can speed up the entire process.
That’s where Scan2CAD comes in once more! Check out step 2.5 below to find out how you can load or create vectors, and convert them to G-code in one single package!Step 2.5: Scan2CADScan2CAD is a market-leading raster-to-vector conversion software. It supports no fewer than, and comes with, and.With it, you can convert your raster designs to a vector file format in a matter of seconds. You can then make use of and to create the most optimal vector image you can use for your CNC design. And the best part is, it only takes a matter of seconds. Don’t believe us?
Take a look at the animation below to see it in action! In this animation we convert an anchor image to a vector outline for CNC using Scan2CADFor more information, check out Scan2CAD’s top tips for.And that’s not all! Scan2CAD isn’t just useful for converting your files to a vector file format, it can also be used for. Once you have a vector you’re happy with (whether it’s one you’ve converted or a ready-to-cut design), you can use Scan2CAD to export it directly to a G-code compatible format. Scan2CAD currently supports three of the most popular G-code file types including:.CNC,.NC, and.TAP.Scan2CAD also provides a range of options in its CNC Export dialog box, which include:. G-code Bezier options: cubic splines (G-code G05), arcs (G-code G02/G03) or polylines (G-code G01).
Arc and circle rotation: clockwise or anti-clockwise. Z-settings: various parameters relating to the cutting of the exported vectors. Scale settings: the relation between vector points and a distance in real life, e.g. Two points on a vector image could represent an inch.Want a more in-depth look?
Take at how to with Scan2CAD. Step 3: Machine Control SoftwareGenerally speaking, there are two types of CNC control software: control software built into your machine, and PC-based software.
If you were using a commercial CNC machine like HAAS Vertical Machining Center, you would get a complete hardware and software solution that is built into the machine—you’d be able to transfer your G-code directly to the machine. Hobby CNC machines by comparison, have an external controller—by making use of control software, you can turn your PC into a machine controller.When it comes to PC-based controller software, there’s a wide variety on offer. There are a few key controllers that stand out from the crowd however. Take a look below for our top picks, featuring low-cost and free software. The Mach Series. Image source:. Cost: $200 (Mach4).
Controls: mills, lathes, routers, lasers, plasma etc. Operating system: Windowsare at the forefront of CNC control software. The developer ArtSoft has been releasing and improving upon the Mach series for the past decade—the most current version of which is Mach4. This low-cost software works on most Windows PCs, making use of advanced system level drivers to enact pulse timing for stepper motors and step-servo systems.The software itself is very intuitive and customizable. It can control up to 6 axes of a CNC machine. Previous versions like Mach3 allowed hobbyists to use their license across multiple machines, whereas Mach4 now ties the license to a specific PC. If you are curious about the software, you can test out the free demo mode for up to 500 lines of G-code!
Image source:. Cost: Free. Controls: mills, lathes, 3D printers, robot arms etc.
Operating system: Linuxis undoubtedly the direct competitor to the Mach series—it’s certainly a popular option for many CNC hobbyists, and not just because it’s free! Previously called EMC2, this CNC control software is completely open source. And as the name suggests, the software runs under Linux.
Due to the need of precise real time control of machines in motion, the software requires a platform with real-time computing capabilities. This means that if you don’t have real time computing capabilities, your PC will only run the package in demo mode.Freeware can often seem lacking in some way, however that certainly isn’t the case when it comes to LinuxCNC. It can control up to 9 axes of a CNC machine, and has several GUIs suited to specific types of usage such as touch screen and interactive development. The software also supports advanced control features like rigid tapping and cutter compensation. Image source:. Cost: $60.
Controls: mills, lathes, routers, laser cutters etc. Operating system: DOSOur final choice for top CNC control software is. This machine control software provided by Dak Engineering runs under DOS.
The software itself is shareware—you can gain access to its source code and free support for a low-cost fee of $60.TurboCNC is an efficient controller that runs stepper motors and step-servos. It can control up to 8 axes of motion, and it comes with configurable I/O for reversible and speed control spindles. It also provides fully parametric programming with variables, subroutines and expressions.4. Universal Gcode Sender(UGS) is the software of choice by a large number of the CNC community. This in-part might be because the software is absolutely free and.The software has been designed with real-world problems in mind. It comes with ‘configurable gcode optimization’ to remove comments, convert arcs to lines segments, remove whitespaces and more. Cost: Free!. Controls: mills, lathes, routers, laser cutters etc.
Operating system: Cross platform, tested on Windows, OSX, Linux, and Raspberry Pi.Other CNC control software includes:.If you want to learn more about the world of, why not check out the CNC section of the? We cover a range of topics from the to. Hi Luke, thanks for reply. Currently im just a dealer for imported CNC machines from Europe.Im working on a project to build own CNC machines with similar European technology.
Im inviting some collaborations in software especially because it is the heart of any high-tech machine. Ofcourse ready available CadCam in the market is always safe options but my future plan is to have own in house CadCam. It will be expensive to build new ones but atleast we can have a control in long run.Need more opinions on this.Tq.