Tips and Tricks – A Complex model in Autodesk Building Design Suite Ultimate

I thought I would share an interesting challenge I recently had for creating some complex geometry and being able to transfer this geometry both to Revit Structure and Autodesk Robot Structural Analysis Professional. I have used my own data just to verify and test the procedures required.

The software used within the Building Design Suite Ultimate package is:

• Autodesk Inventor 2015
• AutoCAD 2015
• Autodesk Robot Structural Analysis Professional 2015
• Autodesk Revit 2015

I modelled a Stadium within Autodesk Inventor and used the split command to create the various positions for the truss sections that I wanted to produce. The Inventor model is fully parametric and capable of change relatively quickly.

I then used the XEDGES command in AutoCAD to extract all the wireframe edges. The other option is to output the model to ACIS and then explode the geometry.

This model was then taken into Autodesk Robot Structural Analysis by opening the dwg file. The lines are automatically converted to bars. I then assigned the relevant members and the model was ready to design.

Finally you can then create the Revit model from the Robot model! A lot of Autodesk software used here but if you have the Building Design Suite Ultimate then this could be a viable workflow.

Have Fun,

Lawrenceh

Revit Structure – Using Load Take Down for Internal Dead Loads

Here is a very quick tip and trick for modelling dead loads from internal walls to your analysis programs. You will first need to ensure that you have the Load Take down tool added to Revit which can be download from Autodesk Exchange Apps

https://apps.exchange.autodesk.com/en

Once this is installed you will need to add your internal walls and make sure that these are structural and have an analytical model. In the image below I have created a filter to show these in Red.

You also need to add Boundary conditions for the slabs, walls and columns and set the fixity for these. You can then start the Load Take down tool from the Extensions Ribbon.

Click the Structural Analysis command and then you can see the linear loads on either the entire structure or just the stories where the loads are applied. These linear loads can then be added to the Revit model (A manual process at the moment).

The model can then be transferred to your Analysis application.

Enjoy,

LawrenceH

Revit Structure Tutorial – Structural Opening Families

Many of you will be using the Shaft Opening command within Revit to produce vertical openings within your models. Whilst being fairy efficient they have the following limitations:

• Can Only be used to cut vertically
• Can only cut floors
• Analytical model cannot be adjusted

Perhaps the biggest issue here is the results on the analytical model and the fact that this analytical model cannot be adjusted. This can result in gaps from the floor slab to a structural wall as shown below. I would suggest that you set the analytical model of walls to the outside faces which will eliminate the gap.

To solve the other issues of placement I have created a tutorial video which explains how to create your own structural opening family with step by step instructions which can be viewed here.

http://youtu.be/xQuQLl0K310

We start by creating a Metric Generic model.rfa family template to develop the mail opening.

1. Create the parametric framework by using for Reference Lines to control the length and width of our opening. On the Create Ribbon click the Reference Line command and create the four Reference lines as shown below. The Reference Lines enable the shape handles to be displayed in a 3D view.

2. Next you add two parameters to control the opening length and width. Create an Aligned dimension for the length and width and add the parameter as shown below.

3. In the Parameter properties  box make sure that you select the Instance radio button to enable the shape handles and allow individual control of each structural opening.

4. Repeat this for the Opening Width parameter. Your family should now look similar to the image below.

Next you create the void extrusion. On the Create Ribbon click the Void Extrusion command as shown below.

Sketch a Rectangle and lock all four padlocks to ensure that the geometry is constrained to the Reference Lines as shown below.

Click the green tick to finish the void extrusion. In the Project Browser switch to the front view and align the top and bottom of the Void Extrusion to the Reference Lines as shown below. You will also need to create a parameter for the opening height; this will also be an instance parameter.

5. Next you configure the Family Categories & Parameters, on the Create Ribbon click the Family Categories & Parameters command. To ensure that you can use the void extrusion in any plane you select the Work Plane-Based option. The void will not be able to cut families unless the Cut with voids when loaded option is switched on. Lastly you can uncheck the Always vertical command to enable the family to be placed on any plane.

The main part of the structural opening is now complete; you will now need to create a 2D opening symbol that will appear on each section or elevation that projects the opening. Save your Family as Structural Opening.rfa. Do not close the file as you will load your 2D detail into this family in later steps.

6. We start by creating a Metric Detail Item.rfa family template to develop the 2D opening detail.

7. Create the four Reference Planes as shown below. I have mirrored the reference planes to initially make the planes symmetrical.

8. Next you create two Aligned Dimensions and then add instance parameters to control the 2D detail called ‘Opening Length’ and ‘Opening Width’. Both of these parameters need to be instance parameters. Your family should now look similar to the image below.

Next you create a sub category to allow control of line weight and visibility. On the Manage Ribbon click the Object Styles command.

In the Object Style dialog box create a new Subcategory named ‘Structural Opening Symbols’ and click Ok on both dialog boxes.

9. On the create ribbon click the Line command to start the place line mode.

Draw the two diagonal Detail Lines as shown in the image below and ensure that the Structural opening sub category is selected. There is no need to lock the detail lines to the Reference Planes as Revit will assume that the lines should be constrained to the Reference Planes.

Flex the family by selecting the Family Types command on the Create Ribbon to check that the Detail Lines respond to the changes. Save the Detail Component as 2D Structural Opening Symbol.rfa.

10. Next you load your 2D Structural Opening Symbol into your Structural Opening.rfa. On the Create Ribbon click the Load into Project command as shown below.

If the Load into Projects Dialog box shows then ensure that you select the Structural Opening.rfa. Depending on your last view you may get a warning, you can ignore this.

11. In the Project Browser make the Floor Plans, Ref.Level view active. On the Annotate Ribbon Click the Detail Component tool as shown below.

You should now be able to place your 2D Structural Opening Symbol onto the active view. Make sure that you lock the 2D Detail to the Reference Lines.

Your Family is now ready to test!

When inserting the family into a project you use the Place Component command on the Structure Ribbon. It is also worth remembering that you can control the placement mode to be on a Face or on the active Work Plane. Remember that a YouTube Video is published at:

http://youtu.be/xQuQLl0K310

lawrenceH

Merry Christmas and a Happy New Year

Structural Tree modelled with a Revit Mass and Structure Generator to provide automatic framing.

Revit 2015 Tutorial – Creating Filters for Structural Modelling and Documentation

Link to YouTube Video: http://youtu.be/CridRbzEVQ8

In this tutorial we will take a look at the use and creation of filters that can be used specifically for structural consultants, as usual there is a link at the top of the post to a YouTube video showing the various techniques used. If you are currently not utilising filters within Revit Structure then these can dramatically improve the quality, speed, consistency and appearance of your models and associated drawings. There are many uses for filters within a structural model which can assist with some of the following design and modelling tasks:

• Floor Loading Diagrams
• Construction Methods
• Analysis tasks and results
• Piling and Foundations

In the below image you can see an example of filters applied to a plan and 3D view showing the construction methods used in concrete structures. This data can of course be used in a wide range of outputs including schedules.

Another method below is showing the analysis state of a steel framing model, the engineers simply state if a member is designed by checking a box in the instance parameters of the relevant structural members, a filter then colours the model based on this selection.

Nearly all of these filters rely on the use of Shared Parameters and Project Parameters which will also be included within this tutorial.

In this tutorial we will look at adding a designed parameter into structural objects and then creating the various filters that are required. This technique can then be used for many other applications as desired.

1. Creating the Shared Parameter File (SPF)

The first step is to create the shared parameter. This would normally be added to your existing shared parameter file but for this example we will create a new one.

On the Manage ribbon click the shared parameter button as shown below.

In the Edit Shared Parameter dialog click the Create Button as shown below.

Save the Shared Parameter File somewhere safe as you may need to reference this file later to add additional items etc. In this example I am saving this to the desktop. Note that this is simply a text file.

The next stage is to create a group where the new parameter will be located. Click the New command and Label the group as Analysis as shown below.

Next you click the New Parameter button as shown below and create a new parameter labelled ‘Designed’, the discipline should be Common and the Type of Parameter should be set to Yes/No. Click OK to both dialog boxes.

This has now created a shared parameter but we now need to tell Revit what to do with this parameter, this is done with a Project Parameter.

2. Creating the Project Parameters

Next we select the categories that we would like to use our ‘Designed’ parameter in, for example you may want to use this for Structural Framing, Structural Columns, Floors etc. On the Manage Ribbon click the Project Parameters Icon as shown below.

In the Project Parameters Dialog click the Add button and then select the Shared Parameter radio button and then the Select button as shown in the image below.

Select the ‘Designed’ Parameter and then click Ok.

Next you specify the parameter to be an instance as each structural member requires its own instance of the ‘Designed’ parameter. This parameter should be grouped under Structural Analysis. You then select all the Categories that this parameter should appear in; in this example we will select Floors, Structural Columns, Structural Foundations & Structural Framing. Click OK to the Parameter Properties dialog box.

You will now see that our ‘Designed’ parameter in ‘burnt’ into any new or existing member within this project. You would ideally add this to your project template to ensure that all future projects have this parameter embedded. It is also worth noting that it is possible to add two identical Shared Parameters with differing data so be aware of this!

3. Filters and View Templates

 A View Filter will simply allow control of a view in Revit by utilising common properties and then applying colours, patterns and shading combinations to identify objects.

You now create a filter and save this into a view template for use in other views. Select an existing 3D view and draw a few columns, beams etc. to test the filter.

On the View Ribbon, Click the Visibility/Graphics Icon as shown below or use the shortcut VV.

You will now see the Visibility/Graphics Override dialog as show below. Click the Filter Tab

In the Filters Tab you can now select the Edit/New button to create or edit existing filters that you may have.

The Filter Dialog Box

 The Edit/New Filter dialog is Split into three zones, the first zone is for the creation and management of new and existing filters. Here you can copy and rename filters to create new versions. In the image below you can see that I have already created several parameters to control shading and hatching of a floor slab for loading diagrams, this has been simply copied from existing parameters.

The central zone allows the selection and filtering of categories, ensures that you only have the Structural Filter selected to reduce the quantity of items in the Parameter list.

The right hand zone is used to define the rules for filters, notice that you have three filters so that numerical zones can be created for structural loading values and other similar scenarios.

Click the New Filter Button and name the Filter ‘Designed’. Click OK.

In the Categories Section, select Floors, Structural Columns, Structural Foundations & Structural Framing. You may want to set just the structural category to make the list shorter. In the right hand side of the dialog you can now select our Designed parameter, set the Filter to Equals and the value to Yes. The Filter Dialog should now look similar to the image below. Click OK

Next you add this filter and configure the required graphical overrides, click the Add button and select the Designed Filter.

You will now have complete control over the visibility, colours of lines and patterns both in Projection and Cut, see the image below.

You now add a pattern and colour to the graphical override to show all designed members with a solid fill in green as shown below. Click OK to the Dialog box.

The filter will now be operating within your 3D view. Make sure that the view is shaded to see this override; if the view is set to realistic the filter will not override the graphics. Your view should now look similar to the image below.

3. Creating and Applying a View Template

You may have more than one view that you want to utilise theses filter within your project so the best approach is to create a View Template from the current view and then edit this template so that it applies the filter and a visual style to the selected views.

On the View Ribbon Select the View Templates drop down and then select the Create Template from Current View Icon as shown below.

In the View Template Dialog box you will now notice that the Designed Template has been created based on the settings of the current view. This has captured all the settings including the visibility status, scale, detail level etc. You will need to uncheck all the check boxes under the Include column and just select V/G Override Filters and Model Display. Unfortunately there is not a check or uncheck all option here!

Link to YouTube Video: http://youtu.be/CridRbzEVQ8

Revit 2015 2D Detail Components – Download PDF Catalouge

A very quick tip to help you locate 2D detail items from the standard Autodesk Revit 2015 library. I have uploaded a 30 page PDF document that outlines each detail component and where it is located within the folder system.

Here is the link:

Autodesk Revit Detail Items

Enjoy,

LawrenceH

Revit 2015 R2 – A Mid Life Upgrade

Autodesk has just launched a major mid-life update to Revit 2015 for Autodesk desktop subscription and maintenance customers. The update is much more than the usual service packs and updates, this is a completely new release which adds additional functionality to the Revit 2015 platform as well as service pack fixes.

The update also incorporates a site designer based on the former Eagle point site works tool which I will review in a separate post.

This update can be installed both on stand-alone and network products and also on all suites that contain Revit 2015. This update does not change the file format so you can upgrade Revit 2015 mid project if required.

As always I will focus on the structural related enhancements and new features but will include a full list of what’s new.

• Colours section: The new Background Colour setting replaces the Invert Background setting in the Graphics section.

• Wall joins: To simplify the control of wall joins in a plan view, you can now select multiple intersected wall joins with a single click, and choose to allow or disallow joins on all the selected walls with a single click. If you choose to allow joins, you can then specify a Display option (Clean Join, Don’t Clean Join, Use View Setting).

Reveal constraints: To see all dimension constraints and alignment constraints in a view, use the Reveal Constraints mode, available on the View Control Bar.

• Rebar: When reinforcing concrete elements, you can now place rebar in any 2D view. Place rebar in plan views, elevation views, and section views using the new placement plane tools. Here is the Context ribbon shown below.

This enables the placement of rebar on the following faces or a named Reference Plane in plan or elevation.

• Alignment reference: When changing the alignment reference of beam end geometry in a join, you can now select multiple framing element instances and change their alignment to a common join reference. You can also reset multiple changed references.
• Structural framing orientation: When refining your model, you can flip structural framing elements and maintain joins, as well as setback, geometry, and justification modifications. Right Click over existing members and choose ‘Flip Structural Framing ends’ from the context menu.

There has been a number of UI changes to tool positions such as Beam Justification and placement of analytical properties in the Properties Palette.

Here is the full list of changes to the Revit 2015 Platform.

http://help.autodesk.com/view/RVT/2015/ENU/?guid=GUID-6084E92F-4C46-4047-B98C-2984E730A53D

LawrenceH