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– Autodesk revit structure 2014 fundamentals pdf free

 

If you drag from left to right, you only select the elements completely inside the window. If you drag from right to left, you select elements both inside and crossing the window. You can also right-click in the drawing window with nothing selected and select Select Previous. When it is toggled off you cannot select them when using Modify or Move. When toggled off, you cannot select them when using Modify or Move. When toggled off, you can only select elements by selecting an edge.

When toggled off, the Crossing or Box select mode starts when you press and drag, even if you are on top of an element.

Once elements have been selected they can still be dragged to a new location. Multiple This gives you access to all of the Modify tools, as well as the Elements Filter command and tools to create and use selection sets. You can also select just one type and make modifications, as shown in Figure 2— Figure 2—19 Filtering Selection Sets The Filter command enables you to specify the types of elements to select. For example, you might only want to select lighting fixtures, as shown in Figure 2— Select everything in the required area.

The Filter dialog box opens, as shown in Figure 2— The Filter dialog box displays all types of elements in the original selection. Figure 2—21 3. Click to clear all of the options and then select the element types that you want included in the selection. The selection set is now limited to the elements you specified. For example, a structural column and an architectural column need to move together. Instead of picking each element, create a selection set that you can quickly access as shown in Figure 2— You can also edit selection sets to add or remove elements from the set.

How to: Save Selection Sets 1. Select the elements that you want to include in the selection set. In the Save Selection dialog box, type a name for the set as shown in Figure 2—23, and click.

Select any other elements you might want to use. In the Retrieve Filters dialog box shown in Figure 2—24 , select the set that you want to use and click. Figure 2—24 3. The elements are selected and you can continue to select other elements or use the selection. How to: Edit Selection Sets 1. In the Filters dialog box shown in Figure 2—25 , select the set that you want to edit and click. Some filters in this dialog box are not selection sets but apply to categories of elements, such as the Interior filter shown in Figure 2— The selection set elements remain black while the rest of the elements are grayed out.

The Edit Selection Set contextual tab displays as well, as shown in Figure 2— Figure 2—26 4. Use Add to Selection to select additional elements for the set and Remove from Selection to delete elements from the set. When you have finished editing, click Finish Selection. In the Filters dialog box, click to finish. Rotate elements around the center or an origin. Mirror elements by picking an axis or by drawing an axis.

Create Linear and Radial Arrays of elements. The Autodesk Revit software contains controls and temporary dimensions that enable you to edit elements. Additional modifying tools can be used with individual elements or any selection of elements. Other tools are covered later. Moving The Move and Copy commands enable you to select the element s and move or copy them from one place to another. Select the elements you want to move or copy.

In the Modify panel, click Move or Copy. A the elements are boundary box displays around the selected elements. Select a move start point on or near the element. Select a second point. Use alignment lines and temporary dimensions to help place the elements.

Figure 2—29 Constrain Restricts the movement of the cursor to horizontal or vertical, or along the axis of an item that is at an angle. This keeps you from selecting a point at an angle by mistake. Constrain is off by default. Disjoin Breaks any connections between the elements being moved Move only and other elements.

If Disjoin is on, the elements move separately. If it is off, the connected elements also move or stretch. Disjoin is off by default. Multiple Enables you to make multiple copies of one selection. Copy only Multiple is off by default. To copy between views or projects, use Copy to Clipboard and Paste.

Hint: Pinning Elements If you do not want elements to be moved, you can Pin them in place, as shown in Figure 2— Pinned elements can still be copied. Figure 2—30 Select the element and click Unpin to free it. You can use alignment lines, Elements temporary dimensions, and snaps to help specify the center of rotation and the angle.

You can also create copies of the element as it is being rotated. How to: Rotate Elements 1. Select the element s you want to rotate. In the Modify panel, click Rotate or type RO. The center of rotation is automatically set to the center of the element or group of elements, as shown on the left in Figure 2— You can also specify the angle on screen.

Then elements being rotated and other elements. If Disjoin is on select a second point, selected , the elements rotate separately. If it is off cleared , using the temporary the connected elements also move or stretch.

Disjoin is off dimension to help you by default. Mirroring The Mirror command enables you to mirror elements about an axis defined by a selected element, as shown in Figure 2—33, or Elements by selected points. Figure 2—33 How to: Mirror Elements 1. Select the element s to mirror. This prompts you to select an element as the Axis of Reflection mirror line.

This prompts you to select two points to define the axis about which the elements mirror. To delete the original elements, clear the Copy option in the Options Bar.

Hint: Scale The Autodesk Revit software is designed with full-size elements. Therefore, not much can be scaled. However, you can use Scale in reference planes, images, and imported files from other programs. Creating Linear The Array command creates multiple copies of selected elements in a linear or radial pattern, as shown in Figure 2— The arrayed elements can be grouped or placed as separate elements. Select the element s to array. In the Modify panel, click Array. In the Options Bar, click Linear.

Specify the other options as needed. Select a start point and an end point to set the spacing and direction of the array. The array is displayed. Type a new number or click on the screen to finish the command. Figure 2—36 Group and Creates a group element out of all arrayed elements. Groups Associate can be selected by selecting any elements in the group.

Number Specifies how many instances you want in the array. Move To: 2nd specifies the distance or angle between the center points of the two elements.

Last specifies the overall distance or angle of the entire array. Constrain Restricts the direction of the array to only vertical or horizontal Linear only. Angle Specifies the angle Radial only.

Center of Specifies a location for the origin about which the elements rotation rotate Radial only. In the Options Bar, click Radial. Drag Center of Rotation or use to the move the center of rotation to the appropriate location, as shown in Figure 2— Remember to set the Center of Rotation control first, because it is easy to forget to move it before specifying the angle.

Figure 2—37 5. Modifying Arrays When you select an element in an array that is created as a group, the associated shape controls and dimensions display, as shown in Figure 2— You can modify the number of instances and for radial arrays you can modify the distance to the center. This only ungroups the array but not the groups created when the array was created. To ungroup all of the elements, select the elements, use Filter to only select the groups, and click Ungroup.

Align, Split, Trim, and Offset can be used with many types of linear elements. Figure 2—39 Aligning The Align command enables you to line up one element with another. Most Autodesk Revit elements can be aligned. For Elements example, you can line up an air terminal with ceiling grids, as shown in Figure 2— Select a line or point on the element that is going to remain stationary.

Select a line or point on the element to be aligned. The second element moves into alignment with the first one. Make sure you select the correct component of the elements to align. For example, to line up two windows vertically select the side of the frame of each window. Zoom in if needed. Once you have created the alignment, a padlock is displayed.

Click on the padlock to lock it, as shown in Figure 2— Locking elements enlarges the size of the project file, so use this option carefully. The core refers to the structural members of a wall as opposed to facing materials, such as sheetrock. You can use alignment lines, snaps, and Elements temporary dimensions to help place the split point. After you have split the linear element, you can use other editing commands to modify it, such as changing the type in one section, as shown in Figure 2— How to: Split Linear Elements 1.

Move the cursor to the point you want to split and select the point. Repeat for any additional split locations. Modify the items that were split, as needed.

When the option is selected, the segment between the two split points is automatically removed. The opposite part of the line is then trimmed. Select the first linear element on the side you want to keep. Select the second linear element on the side you want to keep, as shown in Figure 2— Select the cutting or boundary edge. Select the linear element to be trimmed or extended, as shown in Figure 2— Select the linear elements that you want to trim or extend. For trimming, select the side you want to keep, as shown in Figure 2— Figure 2—48 The offset distance can be set by typing the distance Numerical method shown in Figure 2—49 or by selecting points on the screen Graphical method.

In the Options Bar, select the Numerical option. If this option is 3. In the Options Bar, type the desired distance in the Offset off, the Offset command field. Move the cursor over the element you want to offset.

A dashed line previews the offset location. Move the cursor to flip the sides, as needed. Click to create the offset. Repeat Steps 4 and 5 to offset other elements by the same distance, or to change the distance for another offset. Select the elements to offset them. This enables you to offset all of them at once.

Figure 2—50 How to: Offset using the Graphical Method 1. Start the Offset command. In the Options Bar, select the Graphical option. Select the element to offset. Select two points that define the distance of the offset and which side to apply it. You can type an override for the temporary dimension for the second point. Drag the end of the new element away from the other element and then back again.

It should connect as shown on the right in Figure 2— They remain hidden until you display them again. The border and any hidden elements are displayed in magenta, while visible elements in the view are grayed out, as shown in Figure 2— Copy, move, rotate, and align air terminals to match ceiling grids.

Estimated time for In this practice you will use temporary dimensions, controls, and completion: 10 minutes snaps to modify the location of elements. You will than copy and move elements as well as rotate and align elements. The final version of the project is shown in Figure 2— Figure 2—53 Task 1 – Use temporary dimensions and controls to modify elements. Open the project file Simple-Building. Select the AHU-1 unit in the hall of the building. The temporary dimensions work with the walls in this project because they are part of the project, not linked in.

Figure 2—54 4. The unit moves and the ducts move with it because the connectors control the location of the duct fittings and ducts. Pan over to the lower left room in the building. Select the tag that overlaps the ductwork as shown on the left in Figure 2— In the Options Bar, select Leader. Use the Move control to move the tag outside the room to a position in which it is not overlapping anything as shown on the right in Figure 2— Figure 2—55 8. Zoom out to display the entire building.

Hint: Double-click the mouse wheel. Select the blue horizontal duct and use the Drag control to lengthen the duct so that it reaches into the room on the far right. Click in empty space to clear the duct selection. The endcap of the duct did not move, as shown in Figure 2— Select and drag it to the endpoint of the duct.

Figure 2—56 Undo the change in duct length. Educators will appreciate the quizzes and practice exam included in the text. It is an introductory level textbook intended for new AutoCAD users. This book covers all the fundamental skills necessary for effectively using AutoCAD and will provide a strong foundation for advancement. This textbook applies the use of AutoCAD as it pertains to mechanical drafting.

Knowing how to draw a line in AutoCAD is not the same as understanding which line type is required when creating technical drawings. This text not only provides the necessary information to operate AutoCAD but also provides the skills to use AutoCAD as a tool to work proficiently as a drafter or designer.

This text is targeted towards users who are already familiar with Autodesk Revit but have no experience using Autodesk Revit’s Structural tools.

Users who are familiar with the Revit interface or who want to explore the Autodesk Revit’s Structural capabilities will find this book the perfect guide to get them on the road to productivity. Based on a customized training session for a leading structural engineering firm, the tutorials provide information for engineers, designers, drafters, and CAD managers in the structural engineering world.

Exercises, such as configuring the Project Browser or setting up documentation sets, are specifically geared towards the structural engineering industry. If you are tired of Revit exercises geared towards architects and space planners, this text has the information you need to learn about framing, trusses, foundations, parking structures, and more. This book is filled with tutorials, tips and tricks, and will help you get the most out of your software in very little time.

The text walks you through from concepts to site plans to floor plans and on through reflected ceiling plans, then ends with an easy chapter on how to customize Autodesk Revit to boost your productivity. The advantages of working in 3D are not initially apparent to most architectural users.

The benefits come when you start creating your documentation and you realize that your views are automatically defined for you with your 3D model. Your schedules and views automatically update when you change features. You can explore your conceptual designs faster and in more depth. Learning to use Autodesk Revit will not make you a better architect. However, it will allow you to communicate your ideas and designs faster, easier, and more beautifully.

The Author guides readers to create 2D drawings and 3D models with the help of brief explanations and step-by-step examples.

This book starts with the introduction to Microsoft Windows-based user interface, 2D drawings, organizing and reusing data, plotting, and 3D modeling. In addition, there is a separate chapter on 2D Architectural drawings. Table of Contents 1. Introduction to AutoCAD 2.

 

Autodesk revit structure 2014 fundamentals pdf free

 

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Remember me on this computer. Enter the email address you signed up with and we’ll email you a reset link. Need an account? Click here to sign up. Download Free PDF. A short summary of this paper. Download Download PDF. Translate PDF. Lower Prices. These tools also include alignment lines, temporary dimensions, snaps, and the Properties palette.

You learn how to select elements for editing. You also learn how to move, copy, rotate, mirror, and array elements and how to align elements, split linear elements, trim, extend, and offset elements. Draw elements using draw and pick tools. Use drawing aids including alignment lines, temporary dimensions and snaps.

When you start a drawing command, the contextual Ribbon, Options Bar, and Properties palette enable you to set up features for each element you are placing in the drawing. As you are drawing, several features called drawing aids display, as shown in Figure 2—1. They help create designs quickly and accurately.

Figure 2—1 Contextual Ribbon In the Select panel, click When you select a command, the Ribbon displays the Modify tab with the contextual tools. For example, when you click Modify to finish the command and return to Duct , the Modify Place Duct tab opens, as shown in the main tab at any time.

Figure 2—1. These options are also typically found in the Properties palette. You can select other types and modify some of the related parameters for the selected object, as shown in Figure 2—3. Some of the properties parameters are only available when you are editing an element. They are grayed out when you are creating an element. If you click in the window, it applies the change but clears the elements. You can also dock it on top of the Project Browser and then switch between them using the tabs at the bottom of the palette, as shown in Figure 2—4.

To dock the palette, drag the titlebar over the titlebar of the Project Browser. Drawing Aids As soon as you start drawing in the software, three drawing aids display on the screen: alignment lines, temporary dimensions, and snaps.

These are available with most drawing and many modification commands. Alignment Lines Dashed alignment lines display as soon as you select your first point, as shown in Figure 2—5. They help keep lines horizontal, vertical, or at a specified angle. They also line up with the implied intersections of walls and other elements.

Angles display at 90, 45, 15, 5, and 1 degree increments. The order of the angle list controls the power level of the snap. For example, the 90 degree angle is most likely to display if you are close to horizontal or vertical. You can move the cursor to the exact dimension, or place it approximately and then modify the dimension as needed. These dimension snap increments are for both linear and angular dimensions, and can be set in the Snaps dialog box. If you want to make them permanent, select the control shown in Figure 2—7.

Dimensions are a powerful tool to help create and annotate the model. Snaps Snaps are key points that help you reference existing elements to exact points when drawing, as shown in Figure 2—8.

When you move your cursor over an element, the Snap symbol displays. Each snap location type displays with a different symbol. This opens the Snaps dialog box, where you can set which snap points are active, as well as the snap distances for dimension and angular increments. It also shows the keyboard shortcuts for each snap, which you can use to override the automatic snapping.

Hint: Temporarily Overriding Snap Settings You can use shortcut key combinations displayed in the Snaps dialog box or right-click and select Snap Overrides to temporarily override snap settings. Temporary overrides only affect a single pick but can be very helpful when there are snaps nearby other than the one you want to use.

You can draw reference planes the dashed lines to host the height of sinks or to help you define centerlines and paths for ductwork, as shown in Figure 2—9. You can snap to reference planes and they display in associated views.

Click Modify when you have created all of the required reference planes. You can also use Offset with Pick Lines. Select the reference plane and in the Identity Data area in Properties, type a name. Draw Tools The MEP tools such as ducts, pipes, and conduit , are strictly straight linear elements that are automatically connected with elbows or tees.

However, if you are working with walls, as shown in Figure 2—10, or lines used in details, legends, and schematic drawings, more tools are available. They display in the contextual Ribbon and the tools vary according to the element being drawn.

How to: Draw Linear Elements 1. Start the command you want to use, such as Wall. Select points to define the walls using other drawing aids, such as temporary dimensions, alignment lines, and snaps.

You can change from one Draw tool to another in the middle of a command. Pick Face is only available if you are in a 3D view. Click Modify to finish the command.

If Chain is enabled, you can continue selecting end points for multiple segments. Rectangle Draws four linear elements defined from two opposing corner points. You can adjust the dimensions after selecting both points. Inscribed Draws a polygon inscribed in a hypothetical Polygon circle with the number of sides specified in the Options Bar. Circumscribed Draws a polygon circumscribed around a Polygon hypothetical circle with the number of sides specified in the Options Bar.

Circle Draws a circular linear element defined by a center point and radius. Start-End- Draws a curved linear element defined by a Radius Arc start, end, and radius of the arc. The outside dimension shown is the included angle of the arc. The inside dimension is the radius. Center-ends Arc Draws a curved linear element defined by a center, radius, and included angle.

The selected point of the radius also defines the start point of the arc. Tangent End Draws a curved linear element tangent to Arc another element. Select an end point for the first point, but do not select the intersection of two or more elements.

Then select a second point based on the included angle of the arc. Fillet Arc Draws a curved linear element defined by two other linear elements and a radius. Because it is difficult to select the correct radius by clicking, this command automatically moves to edit mode. Select the dimension and then modify the radius of the fillet. Spline Draws a curved linear element based on selected points.

The curve does not actually touch the points Model and Detail Lines only. Ellipse Draws an ellipse from a primary and secondary axis Model and Detail Lines only. Partial Ellipse Draws only one side of the ellipse, like an arc. A partial ellipse also has a primary and secondary axis Model and Detail Lines only.

This is useful when you start the project from an imported 2D drawing. Pick Use this option to select the face of a 3D massing Face element walls and 3D views only. Pick Use this option to select an existing wall in the project to Walls be the basis for a new sketch line floors, ceilings, etc. Other options display according to the type of element you are Figure 2—12 drawing.

If it is not selected, the Line and Arc tools only draw one segment at a time. If it is selected, you can continue drawing segments until you select the command again. The angle increments shown vary depending on how far in or out the view is zoomed. Modify elements using the Ribbon, Properties, temporary dimensions, and controls. Filter selection sets. Building design projects typically involve extensive changes to the positions of equipment, ducting, piping, and other elements.

Modify works with all of the different element types. Therefore, when the control is moved, the connector is moved with it. You should not disconnect systems when moving these controls.

 
 

Autodesk revit structure 2014 fundamentals pdf free

 
 

Mirror elements by picking an axis or by drawing an axis. Create Linear and Radial Arrays of elements. The Autodesk Revit software contains controls and temporary dimensions that enable you to edit elements. Additional modifying tools can be used with individual elements or any selection of elements. Other tools are covered later.

Moving The Move and Copy commands enable you to select the element s and move or copy them from one place to another. Select the elements you want to move or copy.

In the Modify panel, click Move or Copy. A the elements are boundary box displays around the selected elements. Select a move start point on or near the element.

Select a second point. Use alignment lines and temporary dimensions to help place the elements. Figure 2—29 Constrain Restricts the movement of the cursor to horizontal or vertical, or along the axis of an item that is at an angle.

This keeps you from selecting a point at an angle by mistake. Constrain is off by default. Disjoin Breaks any connections between the elements being moved Move only and other elements. If Disjoin is on, the elements move separately. If it is off, the connected elements also move or stretch. Disjoin is off by default. Multiple Enables you to make multiple copies of one selection. Copy only Multiple is off by default.

To copy between views or projects, use Copy to Clipboard and Paste. Hint: Pinning Elements If you do not want elements to be moved, you can Pin them in place, as shown in Figure 2— Pinned elements can still be copied. Figure 2—30 Select the element and click Unpin to free it. You can use alignment lines, Elements temporary dimensions, and snaps to help specify the center of rotation and the angle.

You can also create copies of the element as it is being rotated. How to: Rotate Elements 1. Select the element s you want to rotate. In the Modify panel, click Rotate or type RO. The center of rotation is automatically set to the center of the element or group of elements, as shown on the left in Figure 2— You can also specify the angle on screen.

Then elements being rotated and other elements. If Disjoin is on select a second point, selected , the elements rotate separately. If it is off cleared , using the temporary the connected elements also move or stretch. Disjoin is off dimension to help you by default. Mirroring The Mirror command enables you to mirror elements about an axis defined by a selected element, as shown in Figure 2—33, or Elements by selected points.

Figure 2—33 How to: Mirror Elements 1. Select the element s to mirror. This prompts you to select an element as the Axis of Reflection mirror line. This prompts you to select two points to define the axis about which the elements mirror.

To delete the original elements, clear the Copy option in the Options Bar. Hint: Scale The Autodesk Revit software is designed with full-size elements. Therefore, not much can be scaled. However, you can use Scale in reference planes, images, and imported files from other programs.

Creating Linear The Array command creates multiple copies of selected elements in a linear or radial pattern, as shown in Figure 2— The arrayed elements can be grouped or placed as separate elements.

Select the element s to array. In the Modify panel, click Array. In the Options Bar, click Linear. Specify the other options as needed. Select a start point and an end point to set the spacing and direction of the array.

The array is displayed. Type a new number or click on the screen to finish the command. Figure 2—36 Group and Creates a group element out of all arrayed elements. Groups Associate can be selected by selecting any elements in the group. Number Specifies how many instances you want in the array. Move To: 2nd specifies the distance or angle between the center points of the two elements.

Last specifies the overall distance or angle of the entire array. Constrain Restricts the direction of the array to only vertical or horizontal Linear only. Angle Specifies the angle Radial only. Center of Specifies a location for the origin about which the elements rotation rotate Radial only. In the Options Bar, click Radial. Drag Center of Rotation or use to the move the center of rotation to the appropriate location, as shown in Figure 2— Remember to set the Center of Rotation control first, because it is easy to forget to move it before specifying the angle.

Figure 2—37 5. Modifying Arrays When you select an element in an array that is created as a group, the associated shape controls and dimensions display, as shown in Figure 2— You can modify the number of instances and for radial arrays you can modify the distance to the center.

This only ungroups the array but not the groups created when the array was created. To ungroup all of the elements, select the elements, use Filter to only select the groups, and click Ungroup. Align, Split, Trim, and Offset can be used with many types of linear elements. Figure 2—39 Aligning The Align command enables you to line up one element with another.

Most Autodesk Revit elements can be aligned. For Elements example, you can line up an air terminal with ceiling grids, as shown in Figure 2— Select a line or point on the element that is going to remain stationary.

Select a line or point on the element to be aligned. The second element moves into alignment with the first one. Make sure you select the correct component of the elements to align. For example, to line up two windows vertically select the side of the frame of each window.

Zoom in if needed. Once you have created the alignment, a padlock is displayed. Click on the padlock to lock it, as shown in Figure 2— Locking elements enlarges the size of the project file, so use this option carefully. The core refers to the structural members of a wall as opposed to facing materials, such as sheetrock. You can use alignment lines, snaps, and Elements temporary dimensions to help place the split point.

After you have split the linear element, you can use other editing commands to modify it, such as changing the type in one section, as shown in Figure 2— How to: Split Linear Elements 1. Move the cursor to the point you want to split and select the point.

Repeat for any additional split locations. Modify the items that were split, as needed. When the option is selected, the segment between the two split points is automatically removed. The opposite part of the line is then trimmed. Select the first linear element on the side you want to keep. Select the second linear element on the side you want to keep, as shown in Figure 2— Select the cutting or boundary edge. Select the linear element to be trimmed or extended, as shown in Figure 2— Select the linear elements that you want to trim or extend.

For trimming, select the side you want to keep, as shown in Figure 2— Figure 2—48 The offset distance can be set by typing the distance Numerical method shown in Figure 2—49 or by selecting points on the screen Graphical method. In the Options Bar, select the Numerical option. If this option is 3. In the Options Bar, type the desired distance in the Offset off, the Offset command field.

Move the cursor over the element you want to offset. A dashed line previews the offset location. Move the cursor to flip the sides, as needed. Click to create the offset. Repeat Steps 4 and 5 to offset other elements by the same distance, or to change the distance for another offset. Select the elements to offset them. This enables you to offset all of them at once. Figure 2—50 How to: Offset using the Graphical Method 1. Start the Offset command.

In the Options Bar, select the Graphical option. Select the element to offset. Select two points that define the distance of the offset and which side to apply it. You can type an override for the temporary dimension for the second point. Drag the end of the new element away from the other element and then back again. It should connect as shown on the right in Figure 2— They remain hidden until you display them again.

The border and any hidden elements are displayed in magenta, while visible elements in the view are grayed out, as shown in Figure 2— Copy, move, rotate, and align air terminals to match ceiling grids. Estimated time for In this practice you will use temporary dimensions, controls, and completion: 10 minutes snaps to modify the location of elements.

You will than copy and move elements as well as rotate and align elements. The final version of the project is shown in Figure 2— Figure 2—53 Task 1 – Use temporary dimensions and controls to modify elements. Open the project file Simple-Building. Select the AHU-1 unit in the hall of the building. The temporary dimensions work with the walls in this project because they are part of the project, not linked in.

Figure 2—54 4. The unit moves and the ducts move with it because the connectors control the location of the duct fittings and ducts. Pan over to the lower left room in the building. Select the tag that overlaps the ductwork as shown on the left in Figure 2— In the Options Bar, select Leader. Use the Move control to move the tag outside the room to a position in which it is not overlapping anything as shown on the right in Figure 2— Figure 2—55 8.

Zoom out to display the entire building. Hint: Double-click the mouse wheel. Select the blue horizontal duct and use the Drag control to lengthen the duct so that it reaches into the room on the far right.

Click in empty space to clear the duct selection. The endcap of the duct did not move, as shown in Figure 2— Select and drag it to the endpoint of the duct. Figure 2—56 Undo the change in duct length. Select the duct endcap. Because there is only one For the base point, select the duct endpoint. Move it into the other room again. This time the endcap moves and the duct, which has a connector to the endcap, resizes as well.

Task 2 – Copy elements. Select the Air Terminals and associated ductwork as shown in Figure 2— In the Options Bar, select the Multiple option. For the base point, select the endpoint of one of the vertical ducts as shown in Figure 2— Copy the elements into the last room, as shown in Figure 2— Base point for Base point Figure 2—58 6. Task 3 – Align and rotate elements. The air terminal locations do not match the ceiling grids as shown in Figure 2— Zoom in on the room to the left.

Select a vertical grid line and then the edge of the air terminal as shown in Figure 2— The air terminal now lines up with the vertical pattern of the ceiling grid. Figure 2—60 6. Repeat the process with the air terminal and the horizontal grid location. Select the edge of the grid line first and then the air terminal. Repeat the process in both rooms so that the air terminals line up with the grids shown in Figure 2— Figure 2—61 8. In the last room the ceiling grid is rotated.

In this case you need to rotate the air terminals as well. Select one of the air terminals in the room with the rotated ceiling grid. In the Options Bar, set the angle to Use the Align command to move the air terminal to match the ceiling grid location. First you will select the ceiling grid line and then the edge of the air terminal. The flex duct moves with the air terminal as shown Figure 2— Figure 2—62 Without rotating the air terminal, click Align.

Select a grid line close to one of the other air terminals and then select the edge of the air terminal. The air terminal moves to touch the grid line and also rotates to match the angle of the grid line. Finish aligning all of the air terminals in this room. The exact location is up to you. The rotated terminals and flex duct display correctly in this view as well as shown in Figure 2— Figure 2—63 Save and close the model.

What is the purpose of an alignment line? You can explore your conceptual designs faster and in more depth. Learning to use Autodesk Revit will not make you a better architect. However, it will allow you to communicate your ideas and designs faster, easier, and more beautifully. The Author guides readers to create 2D drawings and 3D models with the help of brief explanations and step-by-step examples.

This book starts with the introduction to Microsoft Windows-based user interface, 2D drawings, organizing and reusing data, plotting, and 3D modeling. In addition, there is a separate chapter on 2D Architectural drawings. Table of Contents 1. Introduction to AutoCAD 2. Drawing Basics 3. Drawing Aids 4. Editing Tools 5. Multi View Drawings 6. Dimensions and Annotations 7. Parametric Tools 8. Section Views 9. Blocks, Attributes and Xrefs Templates and Plotting Creating Architectural Drawings.

This text is intended to be used as a training guide for students and professionals. This text covers AutoCAD and the lessons proceed in a pedagogical fashion to guide you from constructing basic shapes to making multiview drawings. The lessons are further reinforced by the video presentations found on the enclosed multimedia disc. It takes a hands-on, exercise-intensive approach to all the important 2D CAD techniques and concepts.

This text is also helpful to AutoCAD users upgrading from a previous release of the software. The new improvements and key enhancements of the software are incorporated into the lessons.