![]() ![]() Be sure to uncheck the box for “Export Room Geometry”, unless you want the Room volume to be exported for each space. Step 6: Select the appropriate export folder, options, and views you would like to export. If you have not already, visit our friends at and download their add-in for Revit called NWC Batch Export. In some cases, you could have multiple systems per zone, as mentioned in Step 1. Step 5: Now you should have each subcontractor’s model split out by zone and system. Check that you are using the subcontractor’s 3D view and applicable filter in the view template. Be sure to assign the correct scope box to the view template. Step 4: Create individual 3D view templates for each trade and system and apply it to all 3D views you have created. supply,return, chilled water, sanitary, etc.) so you can utilize their view filters in your model. ![]() It is encouraged that your subcontractors create 3D views based on their system (i.e. Step 1: Your subcontractors send you their models, not broken out by zone. Let’s walk through a typical BIM Coordinator’s workflow: So how can scope boxes be used for BIM Coordination? Since Revit 2019, scope boxes can be assigned to a 3D view which in turn can be exported to IFC or NWC for clash detection. There are a lot of really well documented sources on the web already, so we will skip over “All About Scope Boxes”. Scope boxes can be given names to easily identify them. Scope boxes are created in plan view or RCP, but visible in all views and visible in other views if they intersect the view cut line. For example, a project with a large footprint can employ scope boxes to ensure that the same extents are shown accurately on floor plans, finish plans, RCPs, and dimension plans. You typically use scope boxes to define areas of a large project where you want to crop the view consistently over multiple views. However, not many people have utilized scope boxes when doing BIM Coordination. And, of course, Annotation Symbols (if needed) aren't handled properly either.Most Revit users have at least heard of scope boxes and some have even implemented them on a design project. It doesn't do the naming properly, though, so be sure to create your first dependent views in the right order (since that's how all the others will be numbered). I'm not sure if Scope Boxes are one of the things that are copied (since we don't use them), but View References and Crop Regions (we often have non-rectangular crops) are duplicated to selected plan views. Generally using a Filled Region repeatedly like that is bad Revit practice.Īnd once you setup one level, you can use "Apply Dependent Views." to setup all the others. When you mention " Hatch on the sides of matchline would be integrated in the matchline creating process." are you talking about the little circles that are half-filled on the side being shown? Those symbols can be included in the View Reference, by the way - which also makes it easier since only the appropriate side (to match the reference) will be shown - if you have a simple single line (otherwise, we use Annotation Symbols). This is a more automated, integrated, smart, and contemporary way to create different plan-drawing-sets. Sheets would have the option to create multiple sheets in accordance to dependentviews (by selecting the parent view/s, then an equal number of sheets would be created respectively with dependent views, each dependent view is set in a sheet). There would be an option to create dependent views according to/out of scope boxes. Dependent views creation would be integrated with scopeboxes/matchline. These hatches are subcategory of matchline and show and hide automatically in the respective part-plan view (in the same manner as the “view reference” tags do). Hatch on the sides of matchline would be integrated in the matchline creating process. Scopeboxes and matchline would have the ability to be attached/integrated to each other and be able to snap/offset from each other. Then you must put these part-plans view in sheets to get your drawing-set ready.Ī more integrated process is to have a kind of integration between those tools. Then comes the view reference tags to show the next drawings number. Then you must add hatch to matchline at the part-plan edges. ![]() Then you create dependent plan views and assign scopeboxes to part-plans respectively. You have first to create matchline for the different plan parts. The process of making plan-drawing-sets for large buildings is very manual and fragmented in different tools. ![]()
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