Posts Tagged "Knowledgeware"

This is a second look at the hidden intelligence of CATIA V5. Our topic today will focus on the creation and use of design tables. As I talked about in my last blog post, parameters and formulas can be used to drive your design from the specification tree based on your design intent. We will continue on using the rectangular tubing part and build several variations of that tubing that can be driven from a spreadsheet.

Design Table Icon

Most of the work has been already done, and although it is not necessary to have pre-defined parameters and formulas existing, the process is faster. We will begin by again looking at the Knowledge toolbar, this time focusing on the Design Table icon.

When the command is selected, a dialog appears asking for the name of the design table and also gives you a choice on whether or not you want to use a pre existing file or create one from the current parameter values.  The differences being whether or not you have an existing spreadsheet filled out already with all the tabulated values of what changes in each iteration of the design.

Design Table Dialog

 

In our case, to show the functionality we will choose the create with current parameter values option. Once that is decided, you choose which parameters you want to be driven by the spreadsheet.  In our case, we had some already created, so we changed the filter to User parameters, chose the values that were NOT driven by formulas (INSIDE and OUTSIDE RADII) and moved them to the inserted side by highlighting and clicking the arrow.

Parameters to Insert

At this point, we have defined that we want a spreadsheet to use columns for Height, Width, and Wall Thickness based on the current values in the model as it is at this moment. When we click OK on the dialog, it will ask us where we want to save the spreadsheet. I suggest that you do this in a place where anyone who uses the model can has at least read access to (i.e. a network drive).  Note that I can also change the type of file to a .txt if I do not have access to Excel® or any other software that can edit .xls files.

Read Access Directory

 

Once this has been defined, your design table is created, linked to your 3D model, and ready to be edited to include your alternate sizes. This is confirmed by the next dialog. To add in the other sizes, simply click on the Edit table… button and your editor (Excel or Notepad) should launch and simply fill in rows with your values.

Linked and ready to edit

Once you have edited and saved the values, you can close that software and CATIA will update based on your values.

Excel Modifications

 

CATIA Updated

Now you would just pick the value set you want and click OK for the change to appear on the screen.

File Updated

At any time, you can always go to make the changes by finding the Design Table under the Relations section of the specification tree and double-clicking on it.

Design Table under Relations

As you can see, it’s pretty easy to create a design table and drive your parametric file with multiple values. The world of CATIA V5 is all about re-use of data and capturing business intelligence we already know exists in all companies.  How can we help you? Tata Technologies has helped many companies time and again.

Stay tuned for Part 3!

 

 

 

 

 

 

In today’s engineering environment, there are a plethora of design tools available. One question I often hear is “Why CATIA?” It’s a question that seems simple enough, but the answer is much more complex. CATIA generally involved a greater initial investment, but in terms of overall design cost, you may be surprised to learn that a CATIA license can be a real bargain.

Ask: “What are we trying to accomplish?”

What type of design work are you doing? Do you require the ability to create complex surfaces? Are you going to create a small number of models and small assemblies or will there be a large number of models and large assemblies? Are you sharing the models with customers or vendors? Do you start every design from scratch or reuse as much data as possible?

The list of questions above is certainly not complete, but you can see by the number of questions already posited, the answer is multifaceted.

Complex Surfacing

Let’s look at the creation of complex surfaces. Many CAD systems can create surfaces of some level, but what if your company needs to create complex shapes? Look at how many CAD systems can create complex surfaces, and the list gets shorter – much shorter. Next, how many systems can modify complex surfaces? One example of this is the actual morphing of a complex surface. One might use this ability to compensate for springback in a metal stamping or counteract warpage in a plastic part. Now the list is much shorter. CATIA can easily handle these operations.

RSO

Large Assemblies

Next let’s look at large assemblies – something on the order of 500-1,000+ models. While virtually all systems can create assemblies, what happens when these assemblies get very large? Can the system handle them? How are you going to manage these assemblies? Is the system still able to operate or has its performance degraded to the point that it is virtually unusable? CATIA can handle very large assemblies, entire automobiles, aircraft, ships, etc. With CATIA V6 the management of these models is OOTB. Again the list is short at this point.

Data Reuse

Lastly, let’s look at data reuse. […]

When I think of the countless customers I have consulted with over the years, it amazes me how many don’t use parameters to control the design and capture design intent! What is a parameter, you ask?  A parameter can be thought of in two ways when it comes to CATIA V5. Parameters are built the moment you start a new part – as you can see in the image below, we already have parameters for the Part Number, Nomenclature, Revision, Product Description, and Definition created automatically. Parameters are being created each time you build any feature.  These types of parameters are known as system parameters.

new_part_parameters

You can and should build your own parameters to define your design intent. It’s every bit as important during the initial stages of a design to define your intent this way as it is to make sure sketches are constrained properly. In fact, it helps you in your sketch constraints (every constraint is a feature that has parameters associated to it). In this simple example of a piece of standard rectangular tubing shown below, there are constraints defining the height, width, wall thickness, and radii. Even though this is very easy to create, if I am a designer I would want to design it in such a way that I never have to waste any time designing a piece of rectangular tubing again. If I am a design leader, I feel the same and don’t want any of my designers doing this again in any design that involves any piece of rectangular tubing. The use of parameters will get us there!

RECTANGLUAR TUBING SKETCH

 

The parameters I am talking about are user defined parameters. Simple to create but very, very powerful in their functionality.  The simplest way to create a user defined parameter in CATIA V5 is through the fx icon found on the Knowledge toolbar.

knowledge_toolbar

You might be thinking, where have I seen that icon before? Oh yeah, in Excel when I need to create a formula for my cell. That is the point we are making here! In Excel, I use this function to compute things for me and make it easy to come up with a desired result.  In CATIA, we will create some parameters and then, when necessary, assign formulas to them to come up with our desired result.  When you click on the icon, you get the Formulas dialog and when you click on the drop down list next to the New Parameter of Type button, you can see you have many, many options.

new_parameters_types

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