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Using a continuous, step-by-step tutorial, this book walks you through all project phases as you learn the basics of Revit by designing, documenting, and presenting a four-story office building. You’ll begin by learning your way around the interface and conventions, then jump right into design by placing walls, doors, and windows. Next you’ll work with grids, beams, foundations, dimensions, and text as you build floors layer by layer, join walls, create ceilings and roofs, and place stairs, ramps, and railings.

The instruction covers construction documentation, advanced detailing, and families, as well as site considerations including grading and top surface features to provide a well-rounded, real-world Revit skill set. The companion website features downloadable ‘before and after’ tutorial files that allow you to jump in at any point and compare your work to the pros. Hint: type ZA. In the Project Browser, select the new Level 1 – Analytical view.

Right-click and select Apply Template Properties The new view displays with analytical indicators, as shown on the right in Figure 7— Figure 7—25 Close the analytical view and maximize the Level 1 view window. Save the project. When you place a callout in a view, as shown in Figure 7—26, it automatically creates a new view clipped to the boundary of the callout, as shown in Figure 7— If you change the size of the callout box in the original view, it automatically updates the callout view and vice-versa.

You can create rectangular or sketched callout boundaries. Select points for two opposite corners to define the callout box around the area you want to detail.

Select the callout and use the shape handles to modify the location of the bubble and any other edges that might need changing. In the Project Browser, rename the callout. Figure 7—28 3. Click Finish to complete the boundary. Select the callout and use the shape handles to modify the location of the bubble and any other edges that might need to be changed.

In the original view where the callout is created, you can use the shape handles to modify the callout boundary and bubble location, as shown in Figure 7— The callout bubble displays numbers when the view is placed on a sheet. You can also resize the crop region and the annotation crop region using the Crop Region Size dialog box as shown in Figure 7— Estimated time for completion: 5 minutes In this practice you will create a callout view of the elevator pit walls, as shown in Figure 7— Figure 7—32 Task 1 – Add a callout view.

Open Practice-Model-Callouts. Ensure that you are in the Structural Plans: Level 1 view. Figure 7—33 4. Draw a callout box around the elevator pit walls, as shown in Figure 7— Move the callout bubble as required.

Figure 7—34 7. Open the view to display the callout. Return to the Level 1 view. Any changes made in one of these views such as the section in Figure 7—35 , changes the entire model and any changes made to the project model are also displayed in the elevations and sections. Elevations are face-on views of the interiors and exteriors of a building. You can create additional building elevation views at other angles or framing elevations, as shown in Figure 7— When you add an elevation or section to a sheet, the detail number and sheet number are automatically added to the view title.

The most common use for a framing elevation is to generate braced frames and shear wall elevations. How To: Create an Elevation The software remembers the last elevation type used, so you can click the top button if you want to use the same elevation command. In the Type Selector, select the elevation type. Two types come with the templates: Building Elevation and Interior Elevation.

Move the cursor near one of the walls that defines the elevation. The marker follows the angle of the wall. Click to place the marker. How To: Create Framing Elevations 1. Open a plan view. Hover the cursor over a grid line to display an elevation element, as shown in Figure 7— Click to add the marker.

Figure 7—38 4. Click Modify and select the marker. The extents focus on the bracing bay only. You can use the round segment handles to expand the length of the elevation, as required. You can create a section through an entire building, as shown in Figure 7—39, or through one wall for a detail.

How To: Create a Section 1. If you want a section in a Drafting view select Detail View: Detail. In the view, select a point where you want to locate the bubble and arrowhead.

Select the other end point that describes the section. The shape controls display. You can flip the arrow and change the size of the cutting plane, as well as the location of the bubble and flag.

Figure 7—40 1. In a 3D view, select the elements you want to isolate. In the example shown in Figure 7—40, the front wall was selected. The view is limited to a box around the selected item s. Use the controls of the Section Box to modify the size of the box to show exactly what you want.

There are other specific type options as well. Figure 7—41 Figure 7—42 Modifying Elevation Markers When you modify elevation markers, you can specify the length and depth of the clip plane, as shown in Figure 7— Arrow controls to adjust the depth of the To display additional interior elevations from one marker, select the circle portion not the arrowhead and place a checkmark in the directions that you want to display, as shown in Figure 7— Modifying Section Markers When you modify section markers, various shape handles and controls enable you to modify a section, as shown in Figure 7— Click Filter and you will see the following dialog box: In the above example, your selection contains five walls, two doors, and two windows.

You can use the two buttons at the right to check them all or uncheck them all, or you can use the checkbox at the left to make your own decisions. Change the Detail Level to Medium.

Start the Wall command. Make sure you are using the Line tool from the Draw context panel. Select the Start-End-Radius Arc. Change the tool to Line and complete the following shape: Add two windows like the following, bearing in mind that the two windows are exactly at the mid distance between the walls: Using the Window selection method, select only the interior walls, the door, and the two windows.

What are the selected elements now? Press [Esc] to release the selection. Double-click the wheel to Zoom All. Save the project and close. This method is the recommended method to modify elements in Revit.

The context panel looks like the following: We will discuss the following commands: Move Copy Rotate Mirror two types Array two types 2. For example, select a wall, then hover over it, and you will see something like the following: Once you see this symbol, simply drag the element, and the temporary dimension will help you specify the exact distance.

Another way is to select the desired element s , then click the Move button from the Modify context panel: The selected element will appear like the following: The option bar will show the following: The two options are: Constraint, to restrict the movement of the selected element to be either horizontal or vertical this option is off by default. To understand this option, note that the movement of walls is always stretching, which means the connected walls will always react by increasing the length or decreasing it.

With Disjoin on, only the selected wall will move this option is off by default. Specify the options, specify the start point, and then specify the endpoint. All things that apply to the Move command apply to the Copy command, except for one thing; in the Options bar, there is an option called Multiple that allows multiple copies in the same command.

Select the desired element s , and then click the Copy button from the Modify context panel: 2. Select the desired element s , and then click the Rotate button from the Modify context panel: At the Options bar, you will see the following: The Center of rotation is always the center of the selected element s ; to change it, click the Place button and specify a new point: Select Disjoin if you want the selected element s to disjoin from the attached elements.

Select Copy if you want to keep the original and rotate a copy of it. You can specify an angle by typing, bearing in mind that positive values will rotate the elements counterclockwise.

Another way to rotate is using the mouse; specify two angles from the center of rotation and Revit will calculate the net angle. There are two types of Mirror command: Mirror Pick Axis, which uses an existing axis.

Click the Mirror-Pick Axis button from the Modify context panel: Mirror Draw Axis, which asks the user to specify two points as the mirror axis. Click the Mirror-Draw Axis button from the Modify context panel: The Option bar will look like the following: By default, Revit will mirror and delete the original element.

If the Copy option is turned on, both original and mirrored image will stay. It will repeat the selected items in linear fashion in any angle and distance desired by the user. Change one or all of the available options: Group and Associate means all elements resulted from the array will be united in a single object. This means editing the whole array in the future is available. Number means to specify the total number in the array including the original element.

Move to 2nd or Last, means the distance you will specify graphically will be from the original element to the 2nd, or to the last element of the array.

After you specify the number of items and whether the distance will be measured to the 2nd or to the last element of the array, specify the distance and angle of the array. For example, check the following illustration: In this example, the number is 4, the distance between the first and second is , and with an angle of 45, the result will be like the following: You have the option to change the total number of items in the array.

Input the new number and press [Enter]. Even after the array command is finished, you can select any element of the array and you will see something like the following: While in this mode, you can change the total number of the array again, but you can also ungroup these elements; you will see a context tab named Modify Model Groups, with one panel named Group containing two buttons like the following: Click the Ungroup button to ungroup elements from the group—the user should note that this would remove the array effect from the elements.

After selecting the Radial button, you will see the following option bar: By default a Radial array needs a Center of rotation point just like the Rotate command ; use the Place button to specify a new Center of rotation. Specify whether to Group and Associate the total number of elements and whether the angle given graphically will be between the first and 2nd or last element.

The user can type the angle if you type the angle, the positive is counterclockwise or specify it graphically. Zoom to the room at the lower left corner.

Select the two inside walls, the door, and the south window only. Start the Copy command, make sure that Multiple is on, specify the inside lower left corner as the first point, and then copy the room twice.

You should have something like the following: 7. Using the Mirror — Draw Axis command, mirror the three rooms with their doors and windows to the right side of the building.

For the middle room, delete one of the middle walls and correct the length of the horizontal wall to attach to the vertical wall. Zoom to the middle of the building where the table and chairs are. Rotate the left chair so it will be like the chair on the other side. Using Mirror — Pick Axis, mirror the three chairs to the other side, using the centerline of the table to be the mirror axis.

You should have the following image: Zoom to the top of the building near the arc wall. Select the only window there using the Array command with Radial type. Change the Center of rotation to be the center of the arc wall. Specify the number to be six. Specify the angle to be from the first to last element.

Accept 6 as the final number. Select one of the windows, and change the total number to 8. You should have something like the following: Save and close the file.

A temporary dimension will be shown twice: a. No, only once, after the drawing is done. No, only once, while we are drawing. Yes, when we are drawing, and it appears automatically after drawing. Yes, when we are drawing, if you clicked the element after drawing. There are two types of Array and one type of Mirror in Revit Architecture: a.

False 4. The favorable method is to select elements first, and then issue the modify command. One of the following statements is wrong: a.

Array has two types: Rectangular and Radial. Mirror — Pick Axis is one of two types of Mirror command. Mirror — Draw Axis is one of two types of Mirror command. Array has two types: Linear and Radial. Some companies may opt to include these two items in their template files.

This information will be used later in the final printed sheets. Most likely the default settings will be adequate. In this part we will learn how to change the project units. To issue this command, go to the Manage tab, locate the Settings panel, and then click the Project Units button: You will see the following dialog box: You can change any of these settings by clicking the Length button, which will bring up the following dialog box: In the above dialog box, you can change all or any of the following: Units Rounding Unit symbol 3.

All walls, columns, roofs, and ceilings will be constrained by levels. Change the name and height of any existing level. You can add any number of new levels. To create a new level, go the Architecture tab, locate the Datum panel, and click the Level button: Two things will change: You will see the following context tab, which includes two tools, drawing lines and picking existing lines: The Options bar will show the following: Click on the Make Plan View checkbox to help you create a floor plan and ceiling plan for each newly added level.

The Offset field will allow the user to set up an offset value for the Pick lines tool in the Draw context panel. Ultimately, you can draw using the line tool. However, with the existence of the Pick line tool with the Offset value, things will be much easier. Since we have two existing levels, all you have to do is to click the Pick line tool, type a value in the Offset value, and then move your mouse to the desired level.

You will see a preview dashed line above or below your existing level; click wherever you want it to be: To change the name of a level, click the name twice and type in the new name.

When done press [Enter] and you will see the following dialog box: Most likely your answer will be Yes, as the name of the views should be aligned with the name of the level.

A few remarks about levels: Levels with corresponding views will appear blue, levels without views will appear black.

By default level bubbles will move together using the small circle that appears to the left or right of the level bubble as shown below: You can add an elbow to the level bubble using the Add elbow tool as shown below: After adding an elbow, adjust all the parts by moving the small blue circles.

Show the bubble in both sides or in one side, using the checkbox at the left or right, just like the following: In addition, you can adjust the level family to show bubbles on both sides. Do the following: Start the Level command. Using the Properties palette, click the Edit Type button. Start a new file based on the DefaultMetric. Go to the Manage tab and click the Project Information button to input the following data: a. Go to the South elevation. Do the following answering Yes to renaming any view : a.

Change the name of Level 1 to 00 Ground. Change the name of Level 2 to 01 First. Make sure you are not creating structural plans. Using the Add elbow tool to make the following: 8. Select one of the levels you just created. This option will help you set up the grids, columns, and walls quickly using a CAD file.

The advantage of this step is utilizing the huge experience of CAD in general and AutoCAD in particular software in the design offices. The following dialog box will appear; go to the desired folder containing your file and select it without pressing [Enter] : Select whether the CAD file will be used in the Current view only.

Select to import which Layers: All, Visible, or Specify. Click Open to finalize the process. The import will be one object. When you hover your mouse over it, a dark blue frame will appear. You will see something similar to the following: We will use this later as tracing paper for our Revit elements; hence, we may need to get a more transparent look for the import file. To do that, right-click the import file, select the Override Graphics in View option, then select By Element or By Category if you select By Element, only this instance will be affected; using By Category means all instances of this element in this view will be affected : You will see the following dialog box; pick Halftone to make it less dark: 3.

You can add gridlines using one of two ways: By drawing By picking existing lines coming from a CAD import To add a new gridline use the following method: Go to the desired floor plan. Go to the Architecture tab, locate the Datum panel, and then click the Grid button: In the context tab, select one of the available drawing tools as shown below: In the Options bar, you will see the following: You can set the Offset value both for drawing and picking lines , and you can choose to lock the gridline to the existing lines.

The first line drawn or picked will be numbered as 1, which you can change to any other value a, or A, etc. A few remarks about gridlines: By default gridline heads will move together using the small circle below the bubble. You can add an elbow to the gridline bubble using the Add elbow tool. After adding an elbow you can adjust it by moving the small blue circles. You can show the bubble on both sides or on one side. To input a structural column, do the following: Go to the Architecture tab, locate the Build panel, click the Column pop-up list, and then select the Structural Column button: From the Properties select the desired family: You will see the following context tab: Under Placement, make sure you are using the Vertical Column button.

Under Multiple and if you have already placed the gridlines , click the At Grids button. If you want to add tags once you add columns, click the Tag on Placement button. If you select At Grids, you will see the following context tab: At Grids will ask you to select the desired gridlines. Once you are done selecting, click the Finish button to end the process of inputting columns.

At the Options bar you will see the following: Select Height to go up from the current level, choose Height, to go down from the current level, choose Depth.

Specify the level to which the column will extend. In the current view only 4. If needed move the four elevation symbols to the proper places. Delete the unnecessary columns: A1, A4, F1, and F4. Go to the South elevation view and adjust the length of the levels to go beyond the columns at the right and at the left.

A template file will dictate the units used: a. True, but you can change them c. False d. Using levels: a. A template file includes two levels. You can change the name of the level. You can change the height of the level. All of the above. Project Information will appear in the sheets later on: a. False 6. We will cover how to input walls in a Revit file and will discuss what things you need to control.

Then we will cover the rest of the Modifying commands, which we started in Chapter 2. Finally, we will wrap up by discussing wall profiles. System families are families that exist in a Revit file as an essential part of your modeling process, such as walls, floors, ceilings, roofs, stairs, and railings. There is an RFA for each family. You can create new families using the Family Editor.

Wall families are System families and exist in all Revit files by default. Walls in Revit are not only two parallel lines, but: They have 2D presentation and 3D presentation. They carry data information like width and height. They consist of layers of materials each layer has a width and function.

They can host other elements like Doors, Windows, and Light Fixtures. They understand the relationship between them and the roofs, floors, and ceiling attached to them. You can generate a schedule from them. To input walls, go to the Architecture tab, locate the Build panel, select the Wall button, and then select Wall: Architecture: The properties will show the wall types so you can pick one of them: You will see the following context tab: The Options bar will show the following: In the Options bar control whether this wall will go from the current level downward choose Depth or upward choose Height.

You have two options to control the height of the wall starting from current level: Unconnected, which means the wall is not connected to a level. In this case input the height value. Each wall should have this layer, which can be at the center of the wall width or not. Check the following illustration: Other Location Lines are: If you want the drawing of the wall chained the beginning of the new segment is the end of the last segment , then click on the Chain checkbox.

If you click it off, you will specify two points for the first segment, two points for the second segment, and so on. Set the Offset value if the wall will be created with an offset value from the points selected. If the wall has an arc, click on the Radius checkbox and input the radius value.

To control how two walls will join, select Join Status to be either Allow or Disallow: 4. If you click and hold the Witness Line, you can measure from center to center, or from outside edge to outside edge, or any combination of the above. Another way is to click the blue circle, which will move it from inside to the center to the outside of the wall.

Press the [Tab] key, and all chained walls will be highlighted. Click to select them. Make sure that you are at the 00 Ground view in Floor Plans. Start the Wall: Architecture command and input the following data: a.

Using the Pick Lines tool, click the CAD file to import outside lines, making sure that the dashed lines are on the inside, ignoring the door openings, and not picking the curve. Using the Drag Wall End tool, close the door openings ignored in the previous step along with the entrance at the east elevation.

This is the final product of the exercise: The first selected element will stay in its place, and the second will move to be aligned with the first one. To issue this command, go to the Modify tab, locate the Modify panel, and then click the Align button: Do the following steps: Pick the element that will stay in its place.

Then pick the element which will be aligned with the first one. Example: 4. This command will produce a neat intersection between two walls. First select the boundary element you will trim to or extend to.

In case of trimming, select the part that will stay. In case of extending, select the end that you want to extend.

To issue this command go to the Modify tab, and using the Modify panel, click one of the following two buttons: 4. There are two ways to use this command: Click inside the wall to locate the position of the split. Or, click the Delete Inner Segment checkbox in the Options bar. Then click twice on the wall, and Revit will delete the inner segment between the two clicks.

To issue this command go to the Modify tab, locate the Modify panel, and then click the Split Element button: In the Option bar you will see the following: The mouse will change to the following: Click either one click or two clicks as discussed previously. This command is perfect for defining pre-cast concrete panels. The default value is To issue this command go to the Modify tab, locate the Modify panel, and then click the Split with Gap button: Once you issue the command, the Option bar will display: Click once on the desired wall, and you will see the following: 4.

This command can work with walls, windows, doors, etc. To issue this command go to the Modify tab, locate the Clipboard panel, and then click the Match Type Properties button: Do the following steps: Start the command, and the mouse pointer will change to the following: Click the element that holds the desired type properties: The mouse pointer will change to the following: Click the other element that will change: NOTE To fillet a wall intersection with an arc, do the following, bearing in mind that we already have the wall intersection: Start the wall command.

Click the existing wall, right-click, and then select the Create Similar option: You can start inputting the wall right away, as it holds all the right information. You can use this command with doors, windows, and so on. You need to stop the finishing layer in the staircase or elevator. To do that, you will use the Cut Profile command. Do the following steps: Disjoin the intersecting wall by selecting it, right-clicking the blue circle, and select the Disallow Join command.

You will see the following: Start the Cut Profile command by going to the View tab, locating the Graphics panel, and clicking the Cut Profile button: Select the layer you want to stop.

It will turn orange. In one of the sides, draw a line representing the thickness of this layer. A small blue arrow will appear pointing to the direction you want to keep if the initial one is not desired, click it to reverse the direction. Click to end the command. You will encounter something like the following: 4. You can switch this feature off using the properties of the floor plan you are in right now. Do the following: Make sure you are not selecting anything press [Esc] twice.

In Properties, you will see the properties of the current view. Go to the 00 Ground view in Floor Plans. Show Thin Lines if it is turned off. Zoom to the top right part of the building ignoring all openings , and do the following: a. Using Line from the Draw context panel, draw the following walls starting from the midpoint of the column: f. Using Create Similar, draw the staircase walls make sure to touch the outside wall.

You should get the following result: h. Using the Align command, align the left edge of the left wall of the elevator with the left edge of the column: 6. Using the Cut Profile command, remove the finishing layer drywall from the staircase. Do the inside walls except the toilet inside walls using the following, ignoring all the openings: a.

Use the Pick Line tool e. Follow the AutoCAD import 8. To do the partition inside the toilets, do the following: a. Make sure that all walls are connected to the outside wall of the building. Using the CAD import, draw all interior walls and toilet interior walls using the same families and same settings we used in the 00 Ground view floor plan, except the lines representing the front wall of the offices we will use a curtain wall in Chapter 6 to create them.

Editing the wall profile means you can change the wall look in an elevation. To edit the profile do the following steps: Go to the elevation view where your wall resides.

Pick the desired wall by clicking. A context tab will appear; click the Edit Profile button: The wall will change to having a magenta border. Make the necessary changes, but make sure that your profile is always closed, continuous, and with no overlapping lines. Once done, click the in the context tab to end the profile editing. NOTE A closed area inside the profile will mean an opening. You have the ability to hide some of the elements at any time during project development, then unhide them later.

To hide any element, do the following: Select one element of the desired element say we need to hide the gridlines. Right-click, and you will see the following menu: Select Hide in View, and then select either Elements or Category.

If you select Elements, only the selected elements will be hidden. If you select Category, then all elements of this category will be hidden in this view. To Unhide any hidden element, do the following steps: Click the Reveal Hidden Elements button the button showing a light bulb in the View Control bar: You will see a red frame around the screen.

Any hidden element will be shown in a red color. Select the desired elements to be unhidden, then right-click, and you will see the following menu: Click the Reveal Hidden Elements button to end the process. Go to the 00 Ground view floor plan. Zoom to the right part of the building. The entrance at the east side of the building extends from the Ground Floor to the First Floor. We need to make an opening for this wall using the East Elevation view.

Go to the East Elevation view. From the top, click the wall at the middle. Check the illustration: 7. Click Edit Profile, and edit the profile to look like the following from the bottom no change at the top. Looking at it using the 3D view, you should get the following result: 9. Go to the 00 Ground floor plan, and hide both the CAD Import and the gridlines to select the CAD Import, hover over the text, and once you see the blue frame, click to select.

Zoom to the same place; you will discover that the outside wall is not displayed in the Ground Floor plan because we changed the profile of the wall. You should get the following result: Wall families are: a. System families b. Component families c. Component families that can be loaded to the project d.

None of the above 2. You can set the wall height to be Unconnected without specifying the height value: a.

Wall Profiles: a. Are a Magenta color b. Should be closed c. Should have no gaps or overlapping lines d. All of the above 5. You can hide and unhide elements in Revit Architecture: a. Walls are the hosts for both doors and windows. We will discuss different techniques to insert both doors and windows: Use the pre-loaded families. Load the RFA file from the hard disk. Customize the door and window sizes. We will discuss how to place doors and windows exactly using temporary dimension and Aligned dimension.

Finally, we will discuss the door and window tags. Though you can add doors and windows in many views, we prefer always to use Floor Plan views.

Go to the Architecture tab, locate the Build panel, and click Door or Window: In both commands you will see the following context tab: This context tab allows you to include a tag. In the Options bar you will see the following: You can insert a tag in two orientations, either horizontal or vertical, with or without a leader you have to specify the length of the leader.

Look at the following illustration: Use Properties to pick the desired family and the desired size: In Revit templates, the default tag for doors is instance parameter i.

But for windows, the default tag is type NOTE parameter i. In the coming chapters, we will learn how to load other types of tags for both doors and windows. Door and window families are RFA files. Revit comes with many families, which reside in the hard disk of your machine.

Another way is to look up door and window families online free of charge, download them, and then copy them to the desired folder. Once you start the Door and Window command, using the context tab, click the Load Family button. You will see the following dialog box: Double-click the Doors folder or the Windows folder to see the following: Select the desired folder, select the desired family file s you can select several files , and then click Open to load them into your project.

To do that follow these steps: Start the Door or Window command, and select the desired family. At Properties click the Edit Type button: You will see the following dialog box: Do not make the mistake of changing the values now; always create a duplicate and do your editing on it.

Click the Duplicate button: Type the new name of your type normally, the name is the size of the door or the window. Click OK to end the creation process. Change the values you wish to edit.

To finish the whole customization process, click OK. Check the following illustration: Use the Aligned Dimension tool to position multiple doors or windows exactly. Check the following example: Notice the windows are not equally distributed over the distance between the staircase and the inside wall: Start the Aligned Dimension tool from the Quick Access Toolbar at the top left of the screen: At the Option bar, change Wall centerline to Wall faces: Input the dimensions starting from the edge of the stair at the top, to the center of each window, ending it at the edge of the wall: There is a small icon of the letters EQ with a slash to indicate that the dimensions are currently unequal; click it once to make them equal: To show the real distance, choose Properties and select the dimension if not already selected ; under Other, select Value for the Equality Display field: 5.

Using the bar at the bottom, switch on the Reveal Constraint button. You can flip the door opening while inserting by pressing the Spacebar. Use the context tab titled Modify Doors or Modify Windows. Locate the Clipboard panel. Click the Copy to Clipboard button: Click the small arrow of the Paste button to see the different options: Select the Aligned to Selected Levels option.

You will see the following dialog box: Select the desired levels you want to copy to, then click OK. Go to the 00 Ground floor plan view. Unhide the CAD Import and the gridlines. Zoom to the top left office. Change the tag number to Do the same thing for the office at the right and the staircase.

Use the Aligned Dimension tool as follows to center the left door: Click EQ to get equal distance. Delete the dimension at the Warning, click OK. Insert the same door at the right side. Using the Align command, align the right door to be like the left door, then click the lock to close it. Use the Reveal Constraint button to look at the two constraints you just added, then turn it off. Go to the 00 First floor plan.

Change the tag to It will look like the following: Insert it as shown below, and change the tag to Insert three more, create the Aligned dimension in the following way, and click EQ. Copy all partitions, doors, and windows in the 01 First floor plan to the other four stories. Go to the 3D view and look at your model; you should get something like the following: To position doors and windows exactly at the desired place: a.

Use the Aligned Dimension tool b. Use temporary dimensions before inserting c. Use temporary dimensions after inserting d. All of the above 2. You can use doors and windows by: a. Using the pre-loaded families b. Downloading RFA files from online c. Customizing the sizes of an existing family d. You can choose in Aligned Dimension to measure from the center of the wall or from the face of the wall: a. In Chapter 4 we used Exterior Glazing in our model, which consists of glass panels only stacked over and beside each other.

The Storefront type is aluminum sections and glass panels. This type has the power of being embedded inside Basic walls.

In this chapter, we will discuss how to control the Exterior Glazing using Curtain Gridlines and Panels. Also, we will discuss how to insert and control the Storefront type. When you move a curtain gridline, one of the panels will be smaller and the other will be bigger; hence, you can control the size of the panel through the movement of the curtain gridlines. As an alternative method, you can add new curtain gridlines to the existing curtain wall, and new panel sizes will result.

You can delete whatever you added but not the original curtain gridlines. To do that you need to unpin them first. By default, Panels are holding Glass material, but you can assign any material you desire.

Hide anything may hinder your work. If it was pinned, then unpin it to unpin anything pinned, use the Modify context tab, locate the Modify panel, and click the Unpin button : There are several ways to move a curtain gridline: Use the Move command. Hover your mouse over the curtain gridline until the Move icon shows, then click and move it.

Use the temporary dimension. Use the Align command. To issue this command, go to the Architecture tab, locate the Build panel, and click the Curtain Grid button: The following context tab will appear: If you hover over a horizontal curtain gridline, Revit will understand that you will add a vertical one.

If you hover over a vertical curtain gridline, Revit will understand that you will add a horizontal one. When you want to add a new curtain gridline, select from the following choices: Whether the new curtain gridline should cut all segments Whether the new curtain gridline should cut only the picked segment Whether the new curtain gridline should cut all segments, then pick some undesired segments out 6.

 
 

Revit Architecture Ebooks – PDF Drive

 

Architecture Fundamentals re S d yA an b d ng e yi vid. ASCENT is focused on specializing in the creation of education programs that incorporate the best of classroom learning and technology-based training offerings.

No part of this guide may be reproduced in any form by any photographic, electronic, mechanical or other means or used in any information storage and retrieval system without the written permission of ASCENT, 0217 division of Rand Worldwide, Inc.

All other brand names, product names, or trademarks belong to their respective holders. Al ple. General Disclaimer: Notwithstanding any language to the contrary, nothing contained herein constitutes nor is intended to constitute an offer, inducement, promise, or contract of any kind.

The data contained herein frew for agchitecture purposes only and is not m. ASCENT, its agents and comkand, expressly disclaim any liability for any damages, losses or other expenses arising in connection with the use of its 22017 or in connection with any failure of autodesk revit 2017 architecture command reference pdf free, error, omission download free 6 reaktor student if ASCENT, or its representatives, are advised of the possibility of such damages, losses or other Sa.

The information contained herein is intended to be of general interest to you and is provided “as is”, and it does not address the circumstances of any particular individual or entity. Nothing herein constitutes professional advice, autodesk revit 2017 architecture command reference pdf free does it constitute a comprehensive or complete statement of the issues discussed thereto.

ASCENT does not как сообщается здесь that the document or information will be error free or will meet any particular criteria of performance or quality. In particular but call of juarez pc game download limitation fref may be architectufe inaccurate by changes made to the subject of the materials i.

Rand Worldwide, Inc. In this Guide Workflow and BIM Revit and Construction Documents Opening Projects Starting New Projects Saving Projects Zooming and Panning Visual Styles Practice pef Open and Review a Project Command Summary Chapter 2: Basic Sketching and Modify Tools Chapter 3: Setting Up Levels and Grids Practice 3a Set Up Levels Modifying Grid Lines Practice archigecture Add Structural Grids and Columns Chapter Review Questions Design Development Phase Chapter 4: Modeling Walls Practice 4a Model the Exterior Shell Modifying Curtain Grids Practice 6a Work with Curtain Walls Creating a Curtain Wall Panel Modifying Mullions Chapter 7: Working with Views Hiding and Overriding Graphics Practice 7b Add Callout Views Chapter 9: Modeling Floors Joining Geometry Practice 9a Model Floors Chapter Modeling Ceilings Practice 10b Create Ceiling Autodesk revit 2017 architecture command reference pdf free Chapter Modeling Roofs Creating Runs 20017 Other Types of Runs Practice 12a Create Component Stairs Practice 12b Modify and Add Railings Practice 12c Sketch Custom Stairs and Ramps Construction Documents Phase Chapter Creating Construction Documents Chapter Annotating Construction Documents Spell Checking Creating Text Types Using Symbols Practice 14b Annotate Construction Documents Practice 14c Create Legends Chapter Adding Tags and Schedules Tagging in 3D Views Practice 15a Add Tags Practice 15c Work with Schedules Chapter Creating Details Appendix A: Introduction to Worksets A-1 commajd e.

A-2 yi vid. Saving Workset- Related Files A-4 Command Summary A-6 op ro lc p. Appendix B: Additional Tools B-1 Al ple. B-2 B. B-5 m. B-7 Sa. B B. B Splitting Faces B Applying Materials B Adjusting Autodeskk B Editing Plan and Section Profiles B Issuing Autodesk revit 2017 architecture command reference pdf free B Annotating Views B Ahtodesk Summary The program streamlines the design process through the use of a central 3D model, where changes made in one view.

You begin by learning about e EN the user interface and basic drawing, editing, and viewing tools. Then you learn design development tools including how to model walls, doors, windows, floors, ceilings, stairs and more.

Finally, you learn the processes that take the model to us C the construction documentation phase. Since building projects are extremely complex, the Autodesk Revit software is d yA. The objective of the Autodesk Revit R1 Architecture Fundamentals student guide is to enable students to create full 3D autodewk an b.

This student guide focuses on basic tools that the majority of users need. Creating a 3D building model with walls, curtain walls, windows, and doors. Adding floors, ceilings, and roofs to autodesk revit 2017 architecture command reference pdf free building model. Creating component-based and custom детальнее на этой странице. Adding component features, such as furniture and equipment. Setting up sheets for plotting with text, dimensions, details, tags, and schedules.

Creating details. This student guide assumes a standard installation of the software using the default preferences during autodssk. Lectures and practices commanx the standard software templates and default options for the Content Libraries. Bring Autodesk software photoshop elements 12 nedir your classroom, studio, or workshop to learn, teach, and explore real-world design challenges the way professionals do.

Note: Free products are subject to the terms and conditions of the end-user us C license and services agreement that accompanies the software.

 

Autodesk Revit Architectural Command Reference – Daniel John Stine, Jeff Hanson – Google Books.Autodesk Revit for architecture : no experience required (eBook, ) [replace.me]

 
Learn Revit hotkeys and commands with the Revit Shortcut Keyboard guide to help you list of shortcuts and commands in the Revit Keyboard Shortcuts PDF. However, this list covers many of the out-of-the-box shortcuts available. Page 3. 3. KEYBOARD SHORTCUT COMMANDS. Annotate.

 
 

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