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Table Pattern in assembly with Part dimensional control

bpaulose
1-Newbie

Table Pattern in assembly with Part dimensional control

I want to pattern a glass. It is a subassembly (Double glass with air spacer and silicone) which is controlled by a Skelton and assembly parameters. The width of the glass keeps changing and accordingly the pattern X-Dir value. Hope the below image explains it.

Please give me an idea to do this.

Regards

Basil


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7 REPLIES 7

Hi, I would make a model of a glass part as a generic. In tools\ family table\ you can add instances that will allow you to control anything that you like. From the screen shot add the width dimension. Then you need to do the same thing in the assembly. Make a generic one and add the glass to it and any other changing components like silicone spacer (it too will need to be modeled in a family table so you can drive the matching sizes (silicone-600, silicone-500, etc)

Captureglass.PNG

So now you should have a series of double glazed panels ready for the main assembly.

In the skeleton I would be tempted to assemble each unit to a co-ordinate system, say on the bottom left. The co-ordinate system then can be patterned and each version of glass located individually as units. Use pattern table to drive the locations at 0, 650, 1100, 1950 etc

you may want to add parameters to the tables such as description etc that vary with the parts and assemblies if you want to report these in tables for bom's

Job done.

The number of glasses varies from 1-30 depending on the situation. The width can vary from 125 to 3000mm for each glass. (Glass can be absent in some instance too). We cannot create a set of glass sizes, as the variation in size can be as low as 0.5mm.

So each time, when we regenerate the assembly for new scenario, do we need to edit the family table and the pattern table? Is there any way we can update the assembly parameters and then these tables get updated automatically?

Thanks in advance.

Hi,

your sub-assembly contains 1-30 parts (glasses), so you can:

  • create 30 parts ... glass_01.prt, glass_02.prt, ... glass_30.prt
  • in every part you can set user name for width dimension ... eg. glass_01_width
  • assemble all 30 parts into "glass" sub-assembly
  • define assembly relations
    glass_01_width:ID=default value
    glass_02_width:ID=default value
    ... and so on

When you need to generate specific glass configuration, then:

  • open "glass" sub-assembly
  • modify width values through relations
  • regenerate
  • suppress unwanted "glass" parts

MH


Martin Hanák

Flexible components?

psobejko
12-Amethyst
(To:bpaulose)

If you want to build an assembly of panels, then I think you have to commit to having one assembly family table.  In the example below, the generic panel assembly is comprised of 3 flexible components: 2x glass pane and 1x gasket / frame (the glass panes and frame adapt in size based on assembly-level sketch or distances between assembly datums, etc...)

A family table of "available panels" was prepared.

At last, the final assembly was started and an instance of the assembled panel is placed in it.  This is then be arranged into a grid with a table-pattern:

table_pattern.png

Yes, you will have to edit both the family table and the pattern table if you make new design...

But keep in mind that you can edit the family table using excel.  This makes it fairly simple to generate the inventory of all possible glass sizes.

Also, there are similar ways of editing the pattern table instead of using the clunky Pro/Table (you can read and write .ptb files by right-clicking in the "Tables" tab).

kdirth
20-Turquoise
(To:bpaulose)

I have not used skeletons much, but I believe a skeleton and simplified reps may get what you need.  The skeleton would simply be lines to control height, width, and of individual panes and maybe CSYS for location.  The simplified rep would control how many panes are shown.  You would need 30 pane models and 30 silicone models.


There is always more to learn in Creo.
kdirth
20-Turquoise
(To:kdirth)

Here is a partial sample.


There is always more to learn in Creo.
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