Introduction to Revit

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Objective

This exercise will introduce Autodesk Revit, which is a Building Information Modeling (BIM) software used by architects and structural engineers. The goal of this exercise is to design a 350-400 ft2 furnished apartment using Autodesk Revit.

Overview

A design firm has contracted with New York City’s Department of Housing Preservation and Development to solve a pressing problem in the Big Apple. There are only about one million studio and one-bedroom apartments available for 1.8 million one and two-person households in New York City. To meet this high demand, new apartments have to be created for New York residents and college students. This apartment should be furnished. It must have adequate lighting (at least one window) and space. Design an apartment layout with the following specifications:

  • A 350-400 ft2 floor plan layout of the entire apartment
  • A bathroom with furnishings
  • A kitchen with furnishings
  • A bedroom with a bed, a table, and a desk
  • An electrical plan for the apartment
  • Extra credit: create a realistic rendering and 3D walkthrough of the apartment

Design Consideration

  • Maximize the living space in this apartment
  • Be creative and create a coherent space
  • Make the apartment comfortable

Procedure

  1. Sketch a solution to the design considerations and indicate the square footage. Have the sketch approved by a TA.
  2. Open Revit. Do NOT use Revit 2021. Select New, then select Architectural Template (Figure 1).
    Figure 1: Revit 2020
  3. There are four major sections used to create and modify a design in Revit. The Quick Access Toolbar is highlighted in red, the Project Ribbon is highlighted in yellow, the Properties panel is highlighted in green, and the Project Browser panel is highlighted in blue (Figure 2). If any of the sections are accidentally removed from view, they can be reinserted by going to View → User Interface (rightmost icon) in the ribbon.
    File:Lab 4 Figure 24.PNG
    Figure 2: Revit Interface
  4. In the ribbon, go to the Manage tab and select Project Units (or type UN) under the Settings section (Figure 3). Click the Length value and select Feet and fractional inches with rounding to the nearest 1/32 in. Click OK.
    Figure 3: Project Units
  5. Ensure the Properties panel is open by right-clicking anywhere and clicking on Properties.
  6. Select the Level 1 floor plan in the Project Browser on the left side of the window by double-clicking on Level 1 under Floor Plans.
  7. Create the exterior walls by going to the Architecture tab in the ribbon and selecting Wall (Figure 4).
    Figure 4: Wall Tool
  8. Make sure the walls are 8 in thick and 10 ft high. The thickness and height of the walls can be changed in the Properties panel (Figure 5).
    File:Lab 4 Figure 27.PNG
    Figure 5: Wall Properties
    1. The Base Constraint changes where the bottom of the wall is placed in reference to the different levels.
    2. The Base Offset adjusts the height difference between the level and the base of the wall.
    3. The Top Constraint determines where the top of the wall is located. If the top constraint is unconnected, then the Unconnected Height can be used to determine a numerical value for the height of the wall.
  9. Insert the interior walls (6 in thick and 10 ft high) for the bathroom and any other walls. The thickness of the wall can be changed in the drop-down menu in the Properties panel (Figure 6).
    File:Lab 4 Figure 28.PNG
    Figure 6: Changing Wall Types
  10. Insert the floor by using the Floor tool in the Architecture tab of the ribbon and selecting the boundary where the floor will be placed. The boundary can be made by selecting the walls or by creating individual lines using Modify | Create Floor Boundary → Draw on the Project ribbon (Figure 7). To complete the floor, click on the green check mark in the ribbon.
    File:Lab 4 Figure 29.PNG
    Figure 7: Create Floor Boundary
  11. Insert doors and windows in the apartment. Go to InsertLoad FamilyDoors/Windows for a wide range of doors and windows (Figure 8). Doors should be 3 ft wide and 7 ft tall (No specifications for windows).
    File:Lab 4 Figure 30.PNG
    Figure 8: Load Family Tool
  12. Go back to the Architecture tab of the ribbon and select Door/Window (Figure 9) and select the loaded door/window from the Properties panel. They can then be placed by clicking in the floor plan.
    File:Lab 4 Figure 31.PNG
    Figure 9: Door and Window Tools
    1. Once placed, the direction of the doors and windows can be changed with the arrow couples (Figure 10).
      Figure 10: Door Direction Change
  13. When loading furniture or appliances, go to the Architecture tab of the ribbon and select ComponentPlace a Component (or type CM).
  14. Furniture and appliances can be added with the Load Family tool. Only the furniture and appliances from the specifications must be in the floor plan. Table 1 shows the File Paths for all the files needed in this lab. In the dialog that appears, the material in the Override column should be changed.

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Table 1: File Paths for all Furniture and Appliances Tab
Components File Paths
Sink
US Imperial → Plumbing → MEP → Fixtures → Sinks
Toilet
US Imperial → Plumbing → MEP → Fixtures → Water Closets
Shower
US Imperial → Plumbing → MEP → Fixtures → Shower
Bed
US Imperial → Furniture → Beds
Kitchenette
US Imperial → Special Equipment → Domestic
Table
US Imperial → Furniture → Tables
Desk
US Imperial → Furniture → Tables
Door
US Imperial → Door → Residential
  1. Add furniture to the floor plan. The components can be rotated before being placed by pressing the space bar.
  2. Once the families are loaded, they can be placed by going to ComponentPlace a Component in the Architecture tab of the ribbon and by switching in the Properties tab (Figure 11).
    File:Lab 4 Figure 33.PNG
    Figure 11: Changing Component Families
  3. To insert a ceiling or ceiling appliance, select the Ceiling Plans in the Project Browser. Go to Level 1 in the Ceiling Plans (Figure 12).
    File:Lab 4 Figure 34.PNG
    Figure 12: Ceiling Plans
  4. Use the Ceiling tool in the Architecture tab of the ribbon to create the ceiling (Figure 13).
    File:Lab 4 Figure 35.PNG
    Figure 13: Ceiling Tool
  5. The ceiling is created with the same method as the floor, by selecting a boundary where the ceiling will be placed. The individual walls can be selected to create the boundary by creating a Sketch Ceiling tool, or entire areas can be selected for the boundary using the Automatic Ceiling (Figure 14). Complete the ceiling by clicking the green check mark in the ribbon.
    File:Lab 4 Figure 36.PNG
    Figure 14: Sketch Ceiling and Automatic Ceiling Tools
  6. Navigate back to the Level 1 floor plan in the Project Browser. Insert the electrical appliances in the apartment using ArchitectureComponent on the ribbon and using the File Paths provided in Table 2.
Table 2: File Paths for Architecture Tab
Components File Paths
Light Switch
US Imperial → Electrical → MEP → Electric Power → Terminals → Lighting Switches
Ceiling Light
US Imperial → Lighting → MEP → Internal
  1. For ceiling lights, go back to the Level 1 Ceiling Plan in the Project Browser. Select the lights that are to be placed with the Component tool in the Architecture tab of the ribbon. Once the lighting fixture is selected, select Modify | Place ComponentPlacementPlace on Face tab of the ribbon to place the lights on the ceiling (Figure 15).
    File:Lab 4 Figure 37.PNG
    Figure 15: Place on Face Tool
  2. In the Quick Access Toolbar, select Default 3D View (small house icon) to view the project in 3D (Figure 16).
    File:Lab 4 Figure 41.PNG
    Figure 16: Default 3D View Tool
  3. Save the file as an Autodesk Revit File (RVT) file. Take screenshots of the project and submit the RVT file on the EG1003 website by 11:59 PM the night before the next lab.

Assignment

The RVT file must be submitted to the EG1003 website by 11:59 PM the night before your next lab. There is NO individual lab report or team presentation for this part of Lab 1.