Revit Tutorial: Creating Air-Con Thermostat Revit Family

Revit Tutorial: Creating Air-Con Thermostat Revit Family

Table of Contents:

1. Introduction
2. Creating the Base Box
3. Creating the Thermostat Face Plate
4. Creating the 2D Symbol
5. Combining the Components in the Main Family
6. Testing the Family in a Project
7. Adjusting and Customizing the 2D Symbol
8. Conclusion
9. FAQ
10. References

Creating an AirOn Thermostat Revit Family with 2D Symbol

Introduction

The AirOn Thermostat is a popular choice for controlling air conditioning systems in both residential and commercial buildings. In this tutorial, we will guide You through the process of creating a Revit family for the AirOn Thermostat, complete with a 2D symbol. By following these steps, you will be able to accurately represent the thermostat in your Revit projects.

Creating the Base Box

The base box is the main body of the AirOn Thermostat. To Create the base box, we will start by opening a new Revit family and selecting the generic model template. We will then create reference planes, Dimensions, and parameters to define the size of the base box. Next, we will sketch the base box Shape and extrude it to create a 3D model. Finally, we will assign materials to the base box to give it a realistic appearance.

Creating the Thermostat Face Plate

The face plate is the front interface of the AirOn Thermostat, where users can adjust temperature settings. To create the face plate, we will open a new Revit family and select the generic model face template. Similar to the base box creation process, we will create reference planes, dimensions, and parameters to define the size of the face plate. We will then sketch the face plate shape and extrude it. Additionally, we will assign materials to give the face plate a desired appearance.

Creating the 2D Symbol

The 2D symbol is a representation of the AirOn Thermostat that is used in 2D views and documentation. To create the 2D symbol, we will open a new Revit family and select the generic annotation template. We will then place text and draw necessary lines and shapes to create the symbol. Finally, we will save the family and test it in a project to ensure its functionality.

Combining the Components in the Main Family

Once the base box, face plate, and 2D symbol families are created, we will combine them in the main family. We will insert and load the created families into the main family, aligning them with reference planes. This step will ensure that the components are correctly positioned and locked within the main family. We will also assign materials to the components for a Cohesive look.

Testing the Family in a Project

After creating the main family, we will test it in a project to ensure its functionality. We will open a new project and insert a wall and a door to simulate a real-life Scenario. We will then insert and load the created family into the project to see how it interacts with other elements. If any issues arise, we will troubleshoot and make necessary adjustments.

Adjusting and Customizing the 2D Symbol

To meet specific project requirements, it may be necessary to adjust and customize the 2D symbol. We will explore the options for adjusting the position, Scale, and orientation of the 2D symbol in different views. By using family types and parameters, we can easily modify the appearance and behavior of the 2D symbol.

Conclusion

Creating the AirOn Thermostat Revit family with a 2D symbol allows designers and engineers to accurately represent the thermostat in their projects. By following the step-by-step instructions in this tutorial, you can create a high-quality and customized representation of the AirOn Thermostat. Remember to test the family in a project and make adjustments as needed to ensure its functionality.

FAQ

Q: Can I use the created Revit family for other thermostat models? A: The tutorial focuses on creating a Revit family specifically for the AirOn Thermostat. However, you can use similar techniques to create families for other thermostat models.

Q: Can I customize the materials and appearance of the thermostat components? A: Yes, you can customize the materials and appearance of the components by assigning different materials and adjusting their properties.

Q: Is it possible to create additional family types with different dimensions? A: Yes, you can create multiple family types with different dimensions and parameters to suit your project requirements.

Q: Can I use the created family in older versions of Revit software? A: The tutorial is based on the current version of Revit. Some features and functionalities may differ in older versions.

References

[1] Autodesk Revit - Official Website: [Link] [2] Revit Families Creation Guide: [Link] [3] Revit Family Parameters: [Link] [4] Revit Material Library: [Link]