3D Truss Models
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@medeek said:
Now the largest file is only about 12,000 lines, a bit more manageable. If I spend some time cleaning it up and compressing redundant sections I can probably get it to half that amount.
Coding related queries will probably be addressed a lot faster if you post them in the developers section of the forum?
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Version 1.1.8 - 12.07.2015
- Added Gable Rafter Roof.
- Advanced options enabled for gable rafter roofs (sub-fascia, outlookers, sheathing, and rakeboards).
- New submenu item and toolbar icon added for rafter roof type.
- Plugin divided into multiple files for ease of management.
Structural outlookers for this type of a roof are still somewhat of a question. If they are horizontal it makes sense to notch the gable rafter but what if they are vertical?
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Version 1.1.8 - 12.08.2015
- Structural Outlookers enabled for gable rafter roofs (vertical & horizontal).
Notice in this case I have left the gable rafter in place but notched clean through it, so essentially it is blocking. However, I have also given the option for removing the gable rafter entirely. You will also notice that the gable rafter is the same depth as the outlookers, when you choose "CUSTOM" for the gable end rafter it allows one to specify the depth of this rafter.
When structural outlookers are used in a vertical orientation it is common practice to have them bear directly on the double top plate of the gable wall (balloon framed to roof). If there is some configuration that is standard in your neck of the woods that I am missing please let me know. I am currently providing three different configurations for the gable end rafters.
I think I am ready to now attack the gable rafter roof with glulam beam.
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Admittedly the user interface is still very rough around the edges. One thing I've started working on is making the default values assume the last values inputted by the user. The code is fairly simple but updating all of the different menus is tedious because I have quite a few truss types now. This should make creating multiple truss sets in a document even quicker since parameters like roof pitch, overhangs and heel heights are typically the same for a given structure.
To test this functionality currently, download the latest version 1.1.8 and test the common truss types (Imperial Units). I will be updating all menus so that this functionality is present.
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I'm wondering with my rafter roof if I should provide an option to draw ceiling joists?
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option to draw ceiling joists? That would be great and a collar tie and ridge tie option. Better still give the option to place them at a given height.
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Adding in ceiling joists is not a big deal but I don't want to add features that only complicate the plugin and the user experience. I could also make an option to offset the ceiling joist off of the wall top plate for a "raised" ceiling joist.
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I'm getting ready to add in Glulam beams for rafter roofs. However, as I'm sorting out the details I'm trying to determine what would be the best way of modeling them. I would like to show the different plies but at the same time if someone wants to cut the beam, bevel it etc... I need to have it easily modifiable.
At first I was going to make a component for a single ply and then copy multiple instances. The problem with that idea is a beveled cut would then be difficult to make.
On a slightly different note I am wondering if there are standard metric sizes for Glulam Beams? I am using the 2015 AWC NDS Supplement for the standard US sizes. What similar standard exists for metric sizes?
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given the differing sizes used (just referencing what is available in South Africa, not to mention globally), it's possibly best to create options for how many laminates and give the sizing for it...
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The way I'm setting it up is the first menu takes you to an html web dialog (menu) that allows one to select from standard sizes from drop down menus. Then it automatically drops those values into the regular geometry UI were you can manually edit the depth, width and ply thickness of the glulam so the possibilities are infinite and complete customizable.
I like the ability to offer a prompt that gives standard sizes since I feel that is where some of the value comes in my plugin. It saves the designer having to go to the books to look up an actual available size, its all right there at the click of a mouse.
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Version 1.1.9 - 12.10.2015
- Added Gable Rafter Roof with Glulam Beam (all advanced options enabled).
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If anyone can give me links to resources documenting standard sizes for Glulam Beams (metric or imperial) I can work at getting those added into plugin and available for use.
Currently I have the following glulam beam standards available:
[Imperial Units]
- AWC 2012 NDS Supplement Table 1C (Western Species) and 1D (Southern Pine).
[Metric Units]
- AWC 2012 NDS Supplement Table 1C (Western Species) and 1D (Southern Pine).
With metric input the inch units of the NDS glulam selection is converted to mm. This is merely a stop gap until I can get some standardized tables entered for metric sizes.
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After doing a bit of digging around on the internet I'm not sure standardized metric sizes will be something that is achievable.
For example two different size tables for glulam beams from two different manufacturers in New Zealand (both conform to the AS/NZS 1328 Standard):
The various widths and depths are all over the board. Is there even a standardized ply thickness? Looking at these tables I cannot tell.
Perhaps other countries in Europe, Asia and Africa have more standardized methods like the United States.
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In Victoria Australia there are several sources that should be the
same as NZ.One Example is noted below,
Refer to p 10 - p 13 in the pdf document:
http://www.wpv.org.au/docs/STPG.pdfWood Products Victoria (WPV)
The goal of Wood Products Victoria (WPV) is to ensure that sustainable timber and wood products grown, harvested, processed, manufactured or sold within Victoria or by Victorian-based businesses are supported by:› informed research
› credible technical publications
› comprehensive customer information, and
› positive product and market development.
Wood Products Victoria Ltd was established in June 2006.The Board of Directors includes representatives of timber growers, manufacturers, distributors and retailers who wish to ensure the ongoing viability of this sustainable, natural building resource.
For further information about WPV and its activities please email info@wpv.org.au or
call (61 3) 9611 9042.Refer to p 10 - p 13 in the pdf document:
http://www.wpv.org.au/docs/STPG.pdf -
South Africa is a bit different, the two predominant laminated beam types appear to be Pine and Saligna.
Pine laminated beams seem to be very standardized and straight forward.
Widths: 27, 40, 65, 97, 135, 165.
Depths range from 99 to 695
with a 33mm ply thickness.Saligna beams are a bit more interesting.
Widths: 25, 38, 50, 63, 89, 114, 140, 165
Depths: 67, 89, 111, 133, 156, 178, 200, 222, 244, 267, 289, 311, 333, 356, 378, 400, 422, 444, 467, 489, 511, 533, 556, 578, 600...
Ply thickness appears to be 22mm but you will notice it doesn't divide evenly into any of the depths. The actual ply thickness appears to be approximlately 7/8 inches or 22.225mm.Of course I did find some manufacturers whose widths and depths varied from these numbers but most manufacturers complying with SANS1460 generally follow the sizes above.
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I may have spoken too soon on Australia and New Zealand. There is an interesting table at this link:
http://www.woodsolutions.com.au/Wood-Product-Categories/Glulam
Which gives some standard sizes based on Grade. It states that these are the nominal beam widths and depths, I'm not sure if that is the actual size but I will assume so for now.
Some of these depths would suggest that the typical ply thickness is 30mm however there are also quite a few depths where this 30mm does not work. Either there is a different ply thickness for these other depths or they are planing down the larger beams to get to this size.
For example within GL18 the following depths exist: 270, 280, 300, 315, 330. 270, 300, and 330 fit nicely with a 30mm ply thickness, how is the 280 and 315 constructed?
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Here is quick model of the wall framing associated with a gable roof with a glulam beam:
Beam Pocket with 6x6 post:
Gable wall and eave wall intersection:
Overview of Model:
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I've added an extra input for the beam which allows ones to specify the overhang of the beam from the outside of the wall. With zero overhang the beam will be flush with the wall framing and not exposed. If the beam overhang is less than the gable overhang, the fly will be as shown below (up to the roof peak). If the beam overhang is greater than the gable overhang it will project past and the fly will adjust accordingly. The beam overhang is not restricted in any manner.
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I remember a few years back when I was in college and working a side job as a construction laborer we framed up a roof similar to this. The rafters were large I-Joists (TJI 560 equiv.) and were hangered from the glulam beam. The beam was probably almost 2 feet deep. I just remember I was glad I was cutting the blocking on the miter saw and not the one at the peak of the roof setting the rafters into the hangers.
With that being said I am wondering how often I-Joists are used in this type of application versus common lumber. I can probably add in an option to use them instead of common lumber. One question I have though is what to do at the other end, where they bear at the wall. I would need to study this further.
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The I-joists are used often here in northern California--I couldn't say HOW often. Not a great deal. I know that on the last project we tried to use them, due to the inability to cut them for various conditions, and the special requirements for bearing, and relative strength, we changed the design to microlams. They are also not as easy in fire rated assemblies.
You are making quite a huge extension! Are various members produced in components for modification afterwards? For example one were to modify all tails. I say this because, obviously you are getting close to realistic representation, but if one is seriously using this to show an actual structures, they will want to add modifications, which occur in every building and can't be put into a plugin.
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