Creating Levels, Grids, Layout and model elements for a residential unit using REVIT

1Q:

Building Information Modelling (BIM) is an intelligent 3D model-based process that equips architecture, engineering, and construction professionals with the insight and tools to more efficiently plan, design, construct, and manage buildings and infrastructure. Autodesk Revit software is purpose-built for BIM.

In recent years, more architects and engineers have made the switch to building information modelling (BIM). The reasons are quite clear. BIM encourages a more collaborative environment. It also has a high focus on sustainability in building design. Firms can use BIM to create more environmentally-friendly buildings. Furthermore, they cut down on much of the manual work. Our teams become more productive, and the BIM method saves money for your firm.

While BIM is a methodology, we also need the right software to implement it. The Revit BIM software is among the most popular. One of the few digital design software packages created with BIM specifically in mind, Revit has helped many firms to make the difficult transition. It allows us to design singular models, and uses cloud computing to ensure every member of your team has access to the information they need.

BIM technology is:

The technology used in the AEC industry,

A process starting from the investor’s requirements, through design, construction stage, to the facility management during its lifetime.

The work of all project participants in the Common Data Environment,

3D model, which is a carrier of information and the dependencies of objects among each other,

Information closely linked to the 3D model, allowing them to be easily found and accurate,

General documentation which cannot be linked to the 3D model, necessary to carry out the investment process, appropriately named and placed in the CDE.

FEATURES OF BIM

Early detection of a collision

Faster design and construction

More precise planning

Visualization at an early stage of the project

Higher quality of performed work

Better communication in the project

Reducing delays and errors

Increasing efficiency and productivity

Competitiveness

Easy access to information

Project life cycle

Improvement of OSH (occupational safety and health).

BENEFITS OF USING BIM OVER 2D CAD TOOLS:

Revit offers several advantages to architects and engineers. Many of these benefits come from how closely it integrates with the BIM concept.

• BIM offers a more complete representation of a building’s design. It takes more than the building’s core components into account. For example, BIM allows you to design electrical and HVAC systems, as well as the building itself. This means the project team can take full advantage of the space and resources available.
• BIM pulls your documents into a single database. Several people can work on the same model and save it to the cloud. This allows for instant updates, so you won’t waste time searching for documents when you need to make changes.
• A BIM model will allow you to prefabricate important components ahead of time. You won’t have to adjust them based on the building design. Instead, such components are part of the initial design.
• You can provide much more to your clients using BIM than you could with CAD. The models you give to your clients update constantly as you work on your project. Your client can check in any time, which leads to quicker approval for milestones and more efficient project development.
• Resource tracking is a key component of BIM models. You’ll be able to figure out how much of each resource you need during the design stage. This improves the flow and efficiency of construction.
• Models created using 3D BIM software are intelligent, meaning each element placed in the model contains information about the element that can later be reused for other purposes in the project.
• 3D BIM offers considerable time savings over 2D CAD. In contrast to 2D CAD, change management is largely an automated task with 3D BIM. Because drawings are linked to the 3D model, all dimensional and geometric changes made in the model are automatically corrected on all relevant erection drawings and shop tickets.
• Using 3D BIM software can greatly cut down on potential errors. Naturally it's easier to identify interference between elements and spacial problems in 3D than 2D since you can effortlessly visualize the whole picture which can cut down on costly errors.
• 3D BIM makes collaboration among different teams easier than ever before. Using the same model and resources architects, engineers, and contractors can now effortlessly work together to design and construct a project.

2Q:

AIM: Understand the concept of Categories, Families, Elements, Instances in Revit. Go to Insert Tab, choose a category. Pick a family and element. Understand the instances and insert it to Revit model

INTRODUCTION:

Revit Element Hierarchy

Category: A Category controls the organization, visibility, graphical representations, and scheduling options of Families within the Project.

Family: A Family is a grouping of 2D and/or 3D information that serves to represent a discrete building or documentation element in the Project. It defines parametric, graphical, and documentation requirements.

Type: A Type is a specific representation in a Family defined by distinct parametric, graphical, and documentation characteristics which makes it unique from other Types in the Family.

Instance: An Instance is an individual representation of a Type in the Project defined by unique parametric, graphical, and documentation characteristics which makes it unique from other Instances in the Project.

PROCEDURE:

Open the Revit application

Select the architectural template under the projects tab to open the template.

save the file to a destination folder and name it as project 1

Now using the wall option in architectural tab create a rectangular wall as shown

In order to understand about the concept of Categories, Families, Elements, and Instances in Revit it can be known through by inserting a door.

CATAGORIES:

Under the insert tab select load family option to load the general family like door, window, wall etc.

Load family dialogue box will appear as shown.

All of these for example the doors, duct, furniture etc. belongs to category.

 

FAMILIES:

Families are a group of elements which share a common property like parameters and similar graphical representations.

All of these are different types of door but they all are under individual families.

ELEMENTS:

They are the building blocks of the 3D model.

All of these doors (elements) comes under the individual family which we chose above.

INSTANCES:

These will be the final elements which are placed in the Revit model.

A suitable door was selected from the above list and placed at appropriate position.

 

 

3Q:

AIM: Setting up a Project – Open a project file with architectural template. Save the file with appropriate name. Set up the project units to Imperial / Metric based on your convenience of modelling. Complete the project information under Manage tab. Set up the maximum backups for project file to 3

INTRODUCTION:

The main objective of this task is to create a new architectural template. After the creation the template we have to save it with a suitable name. Then the desired unit that is metric was made default for that task. Then finally the project information details are entered by selecting the option from manage tab and maximum backup for this particular file was set to 3.

PROCEDURE:

Open the Revit application and click on architectural template under the project tab.

Using the Save as option from the file menu save it as a project in the desired folder.

Click on the options at the bottom part of save as dialogue box to open the file save options dialogue box and in the maximum backup options place type 3 and click on ok

 Under the manage tab select the project units and set the desired units that is metric and click ok.

The last step is entering the project information details. For that under the manage tab select the project information option to open the project information dialogue box.

enter all the necessary project details and click ok to apply the changes.

 

 

 

 

4Q:

AIM: Understand the concept of Levels and Grids. Follow the naming and conventions. Create the following Levels: ( Convert to metric equivalents if metric is your units)
Ground Floor @ 0’
First Floor @ 10’
Second Floor @ 20’
Roof @ 30’

INTRODUCTION:

LEVELS:

Use the Level tool to define a vertical height or story within a building.

About Levels

Levels are finite horizontal planes that act as a reference for level-hosted elements, such as roofs, floors, and ceilings.

To Deleting Levels

When we delete a level, Revit also deletes associated views and model elements that are hosted by the level (for example: doors, furniture, and rooms).

Add Levels

In addition to creating a level for each story in a building, we can also create reference levels, such as sill level.

Change the Level Type

Change the level type on placement or change the type of an existing level in a view.

Edit Level Lines in a View

In an elevation view or a 3D view, we can change the size of level lines, change level names, and change the elevations of levels.

Move Levels

We can move a single level or multiple levels in elevations, sections, and 3D views.

Offset a Level Line from Its Bubble

When working with levels in elevation views and section views, we may want to offset a level label from its level line.

Level Type Properties

We can modify level type properties, such as Elevation Base and Line Weight, in the Type Properties dialog.

Level Instance Properties

Modify instance properties to specify the level's elevation, computation height, name, and more.

GRIDS:

We can Use the Grid tool to place column grid lines in the building design. We can then add columns along the column grid lines. Grid lines are finite planes. We can drag their extents in elevation views so that they do not intersect level lines. This allows us to determine whether grid lines appear in each new plan view that you create for a project. Grids can be straight lines, arcs or multi-segmented. You can hide grid lines after you add them.

Add Grids

Grids are annotation elements that help organize your design.

Change the Grid Type

Change the grid type during placement or change the type of existing grids in a view.

Change the Grid Value

Change the grid value directly in the grid header or in the Name instance property.

Offset a Grid Line from Its Bubble

There may be times when you sketch a grid line and want to offset its bubble from the rest of the grid line.

Show and Hide Grid Bubbles

You can control whether grid bubbles display at either end of a grid line.

Adjust the Centre Segment of a Grid Line

You can adjust the length of the gap or centre segment in an individual grid line.

About Customizing Grid Lines

Customize grid lines by modifying the Type Properties for the grid type.

Change a Continuous Grid Line

Change the line colour, weight, and pattern of the entire grid line.

Create a Grid Line with a Centre Gap

Hide the centre segment of the grid lines to create a gap.

Create a Grid Line with a Centre Segment

Display the centre segment of the grid line using a different line colour, weight, and pattern than the end segments.

Grid Type Properties

Modify grid lines, such as line style for the centre segment or the symbol used for the ends of the grid line, on the Type Properties dialog.

Grid Instance Properties

You can change properties for an individual grid line, such as the Name or Scope Box.

PROCEDURE:

Open a Revit file in architectural template.

In project browser under elevations select the East view.

2 levels are already present there just rename them to ground floor and first floor and change the height of level as needed.

Now in architectural tab select the grid option draw the second floor and roof at a distance of 20’ and 30’ respectively and name them.

GRID CREATION

Longitudinal Grid lines was drawn 20’ apart from each other using the grip opton in the archetitectural tab from left to right and numbered from 1 to 10

Transverse grids was drawn next in the same manner as above and at a distance of 10” and named from A to E.

 

 

 

 

 

 

 

5Q:

AIM: 3D modelling of residential unit – From looking at your house / or a place you aspire. Create a conceptual layout of the residential unit. You can measure using a tape or
you can access your residential plan to create a similar layout.

PROCEDURE:

Open the Revit application and create a new architectural template and save the project file.

Now enter the project information details

Now using the wall option under the architectural tab create the outline of the house

From the architectural tabs doors was placed at places necessary and opening was created as required.

From the architectural tabs windows was placed at places necessary. The isometric 3D realistic view of the layout prepared.

 

 

 

 

RESULT:-

• The conceptual layout of the residential unit is created successfully in the revit in detailed mannner.

 

 

6Q:

 AIM:- To draft the level of details which include dimensions of room, components to add in the residential unit.

    INTRODUCTION:-

• Dimensioning on a floor plan usually requires two or three continuous dimension lines to locate exterior walls, wall jogs, interior walls, windows, doors, and other elements.
• Exterior walls of a building are dimensioned outside the floor plan. The outermost dimension line is the overall building dimension.
• The next dimension line, moving toward the plan, indicates wall locations and centerlines to doors and windows.
• Other miscellaneous details in the plan are located on a third dimension line. 

    PROCEDURE:-

    Step:-1

• From the previous drawn residential unit, we put the dimensioins for the rooms, as shown below.

  

    Step:-2

• Next we need to add the doors to the layout using the door option in the architecture toolbar.

       

    Step:-3

• Next we need to add the windows to the layout using the window option in the architecture toolbar.

    

    Step:-4

• Next we write the room name and its dimensions using the text tool, the text tool will be at the top of the screen, as shown below.

         

      

    Step:-5

• Next we use the floor option to provide the floor for the residential unit, as shown below
• The floor option will be there in the architecture toolbar.

    

    Step:-6

• Next the residential unit is changed to the three dimensional view, as shown below.

         

 

    RESULT:-

• The level of details which include dimensions of room, components are successfully added in the residential unit.

 

7) Identify the residential model elements such as Door, Windows, Tables, Chair, Couch, Bed, Lamps from the library and insert them to the model . Save the project for use,for Assignment 3

    AIM:- To insert the residential model elements such as Door, Windows, Tables, Chair, Couch, Bed, Lamps from the library to the model.

                Need to save the project for use.

    INTRODUCTION:-

• The residential model elements are door, windows, chair, couch, bed, lamps.
• These elements are very important in the building model for construction.
• Comming to the 3d modeling in the revit, these elements are present in the library and we need to insert them into the model.

    PROCEDURE:-

    Step:-1

• Next we need to add the doors to the layout using the door option in the architecture toolbar.

    

    Step:-2

• Next we need to add the windows to the layout using the window option in the architecture toolbar.

   

    Step:-3

• Next we need insert the dining table, kitchen stove and washing sink, as shown below.

         

    Step:-4

• Comming to the bedroom we insert the beds, chairs, and tables from the library as shown below.

     

    Step:-5

• Next comming to the toilet room, we insert the urinals from the library as shown in the below figure,

          

 

    Step:-6

• Next we insert the furniture things in the hall from the library, as shown in the below figure.

          

 

    Step:-7

• The residential model elements are inserted from the library, as shown below.

  

    Step:-8

• The all model elements are inserted successfully and the layout plan is turned to the different views, as shown below.

      

 RESULT:-

• Residential model elements such as Door, Windows, Tables, Chair, Couch, Bed, Lamps are successfully inserted in the model from the library.