Chief architect library home theater
- CHIEF ARCHITECT LIBRARY HOME THEATER SOFTWARE
- CHIEF ARCHITECT LIBRARY HOME THEATER CODE
- CHIEF ARCHITECT LIBRARY HOME THEATER PLUS
- CHIEF ARCHITECT LIBRARY HOME THEATER WINDOWS
CHIEF ARCHITECT LIBRARY HOME THEATER WINDOWS
Start adding doors and windows and see where it takes you.
CHIEF ARCHITECT LIBRARY HOME THEATER PLUS
Interior walls should be 4 5/8″ thick to account for the true width of a 2×4 plus 1/2″ sheet rock on either side of the wall.
CHIEF ARCHITECT LIBRARY HOME THEATER CODE
Considering building code requires 6″ exterior walls, if you make them 7″ thick to account for interior sheet rock and exterior cladding, you’ll be darn close to the actual value. Create the outside walls first and decide on a general shape. Generally speaking, when it comes to designing the layout of the house itself, you’ll be using thin features. A standard interior door can be a single part with multiple configurations, which also makes it very easy to change things up if you decide a door needs to be a different size. Standard sizes can be created quickly and easily using this approach. Incidentally, angular limit mates work great for getting doors to close or open to the proper angle.Ĭonfigurations lend themselves very nicely to windows and doors. Add a couple mates and you’re ready to move on. Need to add a 30 x 80 door to a room? Drag it in and drop it into place. In that same vein, use Library Parts for the actual windows and doors. Library Features are convenient for details like window or door openings. The Design Library, for instance, can be a big time saver. When designing my house, there were a few tools I found particularly useful. You don’t want a post in the middle of your home theater! What Tools Should I Use? This will give you an idea of what obstacles you will be facing if the plan is to eventually create a finished basement.
What you may consider is modeling the post and beam locations. Your architect will do the appropriate load bearing calculations to determine the size of the beams and trusses. You could do a rough mock up if you are trying to lay out paths for duct work (for example), but otherwise, it shouldn’t be necessary. Similar to how it isn’t necessary to model every stick of lumber, it also isn’t necessary to model floor joists or roof trusses. They will be happy to generate a pull list from your plans, because they want to sell you the lumber! Image 2: Modeling a basement? Give yourself some idea of beam and post location. The lumber yard has a vested interest in obtaining your money. In the case of building a house, you (or your framer) would normally either get a pull list from the architect or the lumber yard. For instance, trying to model every 2×4 isn’t practical, nor is it necessary. To design a house in SOLIDWORKS, you’ll want to take the appropriate approach. You can even figure out what lengths you’ll need by creating a weldment cut list. It’s very easy to take an existing weldment profile, such as a rectangular tube, and adapt it to a standard 2×4 or other dimensional lumber. Consider using the weldment functionality for framing a shed. We can refer to that as a bill of materials in SOLIDWORKS. If you’re designing a deck or shed, modeling the planks or 2×4’s will be helpful because you can create your own pull list for the lumber yard. If you’re trying to design something simple like a pole barn, all you really need are the crucial elements how big should the overhead doors be? Do you want windows, and where should they be located? Where do you want to position the man door? What’s the overall size of the structure? Add details showing what’s important to you.
Image 1: Adding every last detail is often not necessary, depending on the project.ĭifferent projects require different levels of detail. Sometimes they are simple settings, like changing your units to feet and inches, or using tick marks instead of arrows for the dimension lines.
CHIEF ARCHITECT LIBRARY HOME THEATER SOFTWARE
Rather, it’s a matter of adapting the software to work better for what you are using it for. There is no architectural “add-in” for SOLIDWORKS. If you’re an engineer looking to use SOLIDWORKS for some personal architectural projects, you may find this article helpful. But with that said, if you have some occasional work to do, you may as well use the SOLIDWORKS software you are familiar with. If you are drafting house plans for a living, you will find better tools on the market. Does that mean SOLIDWORKS can’t be used for architecture? No, it doesn’t. As a SOLIDWORKS user, you’re aware that SOLIDWORKS’ forte is mechanical design.