Now, you may delete all the detail lines that you initially created for reference.You can select the railing individually and remove it or change its type from the type selector. The railing on both sides of the Run and landing has been added automatically.Notice the annotations of the staircase that have been added automatically by Revit. Click on Finish Edit Mode to complete the stairs.We will discuss about these parameters further in Step 7. Make sure both check boxes are on for both runs. In the properties palette, note the parameters begins with riser and ends with riser. Click on one of the Runs to select it.Learn more about modifying components in a stair, in this video tutorial. NOTE: If you would like to change the shape/size of the run/landing, you will have to convert the element to sketch mode and then edit the sketch.Width of the landing will be the same as the width of the Run. Notice that the landing has been created automatically by Revit between two Runs. Both Runs are now created and Revit will display that 18 risers are created and 0 are remaining.Continue to draw the second Run by clicking on the starting and ending point as shown below: Do not worry about the landing at this moment.The first Run with 9 risers is now created.Notice that as you move your cursor downwards, total number of risers created and remaining are displayed in halftone for your reference. Move straight downwards to select the endpoint of this first Run as shown below.Choose the starting point as the midpoint of the detail line already sketched, as shown below. Now, in the drawing area, click to enter the start point of the Run.Go to the Type properties of the stairs and additionally, set up the Run Type and Landing Type as per your design requirements.Set up your calculation rules in the type properties for maximum riser height and minimum tread depth to prevent the stair risers to be too high and treads to be too narrow while drawing the stair. If this value exceeds the maximum riser height specified in the type properties, Revit will give an error. Notice that when you change the ‘Desired number of Risers’, the actual riser height is calculated automatically by dividing the total stair height/desired number of risers.Add desired number of risers as 18 and actual tread depth as 0.28m.Select the Base level of the stair as “00 Ground Level” and Top level of the stair as “01 First Floor level”.Now, in the Type selector, choose Cast-In-Place monolithic stair.On the Options Bar, add Actual Run width as “1.2m”.On the Options Bar, For Location Line, choose the Run:Center.On the Component panel, verify that Run is selected.Click Architecture tab -> Circulation panel -> Stair.Now, let’s create a U-shaped monolithic stair (RCC/Concrete stair) between Ground Level and First Floor Level by sketching Run component.Notice the detail lines marking the basic sketch of the stair. Navigate to the floor plan of “00 Ground Level”.The tutorial file “TutorialStairs_Input_LearningRevitOnline.rvt” already contains the sketch of the stairs using Detail Lines for your reference.Some planning and preparation goes a long way in making a perfect stair! I recommend that before you begin adding a stair in your project, use “Detail Lines” to sketch out the basic shape of your stair, number of risers you would like to have on each run, overall width of your stair, tread depth and the total height of the stair (between levels/other). “TutorialStairs_Input_LearningRevitOnline.rvt”Īlthough, Revit provides great tools to automatically calculate number of risers needed for a stair between two selected levels, it makes it easier if you are clear about what kind of stair do you really want for your design.
REVIT STAIR BY SKETCH DOWNLOAD
If you do not have the following files, please download them from here. Section view of the U-shaped stairs for the sample project Make sure you have Start-End-Radius-Arc clicked. Make sure it's going to the left, and then once you see it, pick it. For the offset, let's type in "12" for 12 feet. On the Draw panel, click the Pick Lines button. On the Architecture tab, go to Ref Plane. So, let's define a reference plane for that. So, for example, we know we only have 12 feet of head clearance right here. In Revit, if you're following along with my exercise files, let's go to Open, browse to where you're keeping them, grab "Winding Sketch," click Open. By using drafting lines, I'd like to model a winding staircase by using good old fashioned drafting. In the case of a continuous winder with a predefined start and stop, sometimes we need to just lay it out in our heads. Sometimes, you need to just draft stairs.
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