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AutoCAD Plant 3D 2011 The User Interface Before you work in AutoCAD Plant 3D 2011, it is important that you understand how the drawing environment is organized and learn some tips for working in this environment. Topics in this section Workspaces A workspace is a set of menus, toolbars, palettes, and ribbon control panels that are grouped and organized so that you can work in a custom, task-oriented drawing environment. Ribbon The ribbon contains the commands that you need to create and modify a piping model. Welcome and Welcome Back Screens The Welcome Screen and Welcome Back screens provide shortcuts to creating projects and opening recent projects and drawings. Project Manager The Project Manager provides an organized project environment in which to work. Properties Palette The AutoCAD Plant 3D Properties palette provides quick access to component and line data. Data Manager You can view, modify, import, and export drawing and project data, and generate various reports using the Data Manager. Spec Viewer You can add pipe or pipe fittings to a model using the Spec Viewer. Tool Palettes The AutoCAD Plant 3D tool palettes display standard and custom component and line symbols that you place to create your drawings. Quick Properties Quick Properties provide access to commonly used properties for an object or a set of objects. Shortcut Menus With shortcut menus (also called right-click or context menus), you can perform tasks that are related to the selected component or line. Grips You use grips to perform actions on objects in a drawing. Tooltips Tooltips are descriptive messages that are displayed near the cursor when it hovers over a ribbon, toolbar, panel button, or menu item. Drawing Tooltips
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Page 1: AutoCad Plant 3D

AutoCAD Plant 3D 2011

The User Interface  

Before you work in AutoCAD Plant 3D 2011, it is important that you understand how the drawing environment is organized and learn some tips for working in this environment.

Topics in this section

Workspaces

A workspace is a set of menus, toolbars, palettes, and ribbon control panels that are grouped and organized so that you can work in a custom, task-oriented drawing environment.

Ribbon

The ribbon contains the commands that you need to create and modify a piping model.

Welcome and Welcome Back Screens

The Welcome Screen and Welcome Back screens provide shortcuts to creating projects and opening recent projects and drawings.

Project Manager

The Project Manager provides an organized project environment in which to work.

Properties Palette

The AutoCAD Plant 3D Properties palette provides quick access to component and line data.

Data Manager

You can view, modify, import, and export drawing and project data, and generate various reports using the Data Manager.

Spec Viewer

You can add pipe or pipe fittings to a model using the Spec Viewer.

Tool Palettes

The AutoCAD Plant 3D tool palettes display standard and custom component and line symbols that you place to create your drawings.

Quick Properties

Quick Properties provide access to commonly used properties for an object or a set of objects.

Shortcut Menus

With shortcut menus (also called right-click or context menus), you can perform tasks that are related to the selected component or line.

Grips

You use grips to perform actions on objects in a drawing.

Tooltips

Tooltips are descriptive messages that are displayed near the cursor when it hovers over a ribbon, toolbar, panel button, or menu item.

Drawing Tooltips

After you add a component or line segment to a drawing or 3D model, you can perform a quick query of component or line segment data by moving the crosshairs over it.

Application Menu and Toolbars

The Application menu and toolbars provide access to many frequently used commands.

Understand the Work History Dialog Box

If your administrator activates the Work History option, the Work History dialog box is displayed either when you open a drawing from the Project Manager or when you close the drawing.

Understand the Assign Tag Dialog Box

If your administrator has set up tag formatting, the Assign Tag dialog box displays when you add a component or line that requires a tag.

Control the Display of the Drawing Space

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By controlling the display of dockable windows and toolbars, locking the position of toolbars and dockable windows, and using two monitors, you can optimize your drawing environment

Workspaces   

A workspace is a set of menus, toolbars, palettes, and ribbon control panels that are grouped and organized so that you can work in a custom, task-oriented drawing environment.

You maximize the screen area available for those interface elements that you want to display.

When you use a workspace, only those menus, toolbars, palettes, and ribbons that are relevant to a task are displayed.

NoteYou can switch workspaces to reset the interface to default settings.

Topics in this section

Work with the AutoCAD Plant 3D Workspaces

When you create 3D piping models, you can use the 3D Piping workspace, which contains only 3D-related toolbars, menus, and palettes.

Switch Workspaces

You can switch to another workspace whenever you need to work on a different task. You can also reset the current workspace to default settings.

Work with the AutoCAD Plant 3D Workspaces   

When you create 3D piping models, you can use the 3D Piping workspace, which contains only 3D-related toolbars, menus, and palettes.

Interface items that you do not need for 3D pipe modeling are hidden, which maximizes the screen area available for your work.

NoteIf you attempt to use a command that is not compatible with the current drawing, you are prompted to switch to the workspace that supports the command.

3D Piping Workspace

The 3D Piping workspace includes the tools required to create a 3D plant model. The drawing area displays the 3D piping ribbon and the 3D drawing area.

P&ID Workspaces

P&ID workspaces include P&ID PIP, P&ID ISO, P&ID ISA, P&ID DIN, and P&ID JIS/ISO. Each of these workspaces is based on a P&ID industry standard used for your project. The tool palettes for each workspace contain the symbols based on the industry standard for that workspace.

AutoCAD Workspaces

AutoCAD workspaces include 2D Drafting & Annotation, 3D Modeling, and AutoCAD Classic. For more information about these workspaces, see “Create Task-Based Workspaces” in the AutoCAD Help system.

When you make changes to your drawing display (such as moving, hiding, or displaying a toolbar or a tool palette group) and you want to preserve the display settings for future use, you can save the current settings to a workspace.

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Switch Workspaces  

You can switch to another workspace whenever you need to work on a different task. You can also reset the current workspace to default settings.

You can easily switch between workspaces when you want to access tools or commands that are not accessible in the current workspace.

Opening an existing project of any standard causes AutoCAD Plant 3D to switch to the workspace for that standard if it differs from the current workspace. Also, creating a new project switches the workspace to the standard you specify in project settings if that standard differs from the current workspace.

Procedure

To switch workspaces

1. On the status bar, click Workspace Switching.

2. In the list of workspaces, click a workspace.

A check mark indicates the current workspace.

Ribbon   

The ribbon contains the commands that you need to create and modify a piping model.

The ribbon is composed of a series of panels that are organized into tabs labeled by task. Ribbon panels contain many of the same tools and controls available in toolbars and dialog boxes. By default, the ribbon is displayed horizontally at the top of the drawing window when you create or open a drawing.

If you drag a panel from a ribbon tab and into the drawing area or onto another monitor, that panel remains where you placed it. The panel remains open until you return it to the ribbon, even if you switch ribbon tabs. For more information about using ribbons, see “The Ribbon” in the AutoCAD Help system.

3D Piping Home Tab

The 3D Piping Home tab contains panels with the commands that you need to create and modify a piping model. This tab includes the following panels:

Project panel

Part Insertion panel

Ortho Views panel

Compass panel

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Elevation & Routing panel

Slope panel

Pipe Supports panel

Equipment panel

Visibility panel

View panel

Layers panel

Plugin panel

The 3D Piping Home tab is part of the 3D Piping workspace.

For more information about 3D piping, see Create and Modify Piping.

Isos Tab

The Isos tab displays options for working with isometrics. This tab includes the following panels:

Create Iso panel

Isogen panel

Export panel

The Isos tab is part of the 3D Piping workspace.

For more information about isometrics, see Create and Modify Isometric Drawings.

Structure Tab

The Structure tab displays options for working with structures. This tab includes the following panels:

Parts panel

Modify panel

Cutting panel

Visibility panel

Export panel

Views panel

Layers panel

The Structure tab is part of the 3D Piping workspace.

For more information about creating structure, see Create and Modify Structure.

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Ortho Editor Contextual Ribbon

When you enter the specialized orthographic environment by clicking the Create Ortho View button on the home tab, a contextual ribbon tab is available. It contains commands specific to the ortho editing environment. This contextual tab and associated panels display in green to provide visual feedback that you are in a specialized environment. The contextual tab is closed when you exit that environment.

The Ortho Editor tab displays options for working with orthographic view configurations. The tab includes the following panels:

General panel

3D Models panel

Boundary Geometry panel

Output Size panel

Confirm/Cancel panel

The Ortho Editor contextual tab is part of the 3D Piping workspace.

For more information about orthographic drawings, see Create and Modify Orthographic Drawings.

Ortho View Contextual Ribbon

When you enter the specialized orthographic environment by creating or opening a drawing on the Orthographic DWG tab of the Project Manager, this special contextual ribbon tab is available. It contains commands specific to the ortho view environment. The contextual tab and associated panels display in green to provide visual feedback that you are in a specialized environment. The contextual tab is closed when you exit that environment.

The Ortho View tab displays options for working with orthographic drawings. The tab includes the following panels:

Ortho Views panel

3D Models panel

Annotation panel

Dimensions panel

Viewports panel

Layers panel

The Ortho View contextual tab is part of the 3D Piping workspace.

For more information about orthographic drawings, see Create and Modify Orthographic Drawings.

P&ID Home Tab

The P&ID Home tab displays options for working with P&ID drawings. This tab includes the following panels:

Project panel

P&ID panel

Schematic Line panel

Line Group panel

Validate panel

Layers panel

Block panel

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Annotation panel

Properties panel

View panel

Utilities panel

The P&ID Home tab is part of the P&ID PIP, P&ID ISO, P&ID ISA, P&ID DIN, and P&ID JIS/ISO workspaces.

For more information about creating P&IDs, see P&ID - Create and Modify Drawings.

AutoCAD Tabs

When you switch from an AutoCAD Plant 3D 2011 workspace to an AutoCAD workspace, additional AutoCAD ribbons are displayed. Following is an example of the 3D ribbon that is displayed when the AutoCAD 3D Modeling workspace is selected.

The AutoCAD tabs are part of the AutoCAD workspaces, including 2D Drafting & Annotation, 3D Modeling, and AutoCAD Classic.

The Model and Render tabs from AutoCAD are also included as part of the 3D Piping workspace.

For more information about using AutoCAD ribbons, see “The Ribbon” in the AutoCAD Help system.

Welcome and Welcome Back Screens   

The Welcome Screen and Welcome Back screens provide shortcuts to creating projects and opening recent projects and drawings.

The Welcome and Welcome Back screens display during startup and whenever you close all of your drawings. They provide quick access to recent projects and drawings. You can open and create projects using either screen.

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Welcome Screen

When you launch AutoCAD Plant 3D 2011 for the first time, the Welcome Screen displays with tools to help you open a project or work with the included Sample Project.

The Welcome Screen includes the following sections: Get Started with a Sample Project: Includes a link to the sample project provided with the product.

Get Started with Your Own Files: Displays tools to help you navigate to the project files and drawings. It also includes tools to display Project Manager, open a drawing file, and create a new project.

Welcome Back Screen

After your first session working with AutoCAD Plant 3D 2011, the Welcome Back Screen displays with tools to help you work more effectively with recent files.

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The Welcome Back Screen includes the following sections: Most Recent File: Includes a link to project and drawing files that you worked with in your previous

session.

Other Recent Projects/Files: Displays links for recently opened project files and drawings. It also includes tools to display Project Manager, open a drawing file, and create a new project.

NoteIf you don’t see the New Project button in the Getting Started with Your Own Files or Other Recent Projects/Files pane, your administrator has disabled this function.

Other Resources

The Other Resources pane displays a link to the AutoCAD Exchange Plant Group.

Quick Reference

System Variables PLANTWELCOMENEWPROJECT

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Project Manager   

The Project Manager provides an organized project environment in which to work.

You can open, add, and create drawings using the Project Manager. You also perform other tasks such as exporting and importing data, creating project reports, including referenced drawings (xrefs), and linking or copying files to the project folders.

The Project Manager contains three tabs; the Source Files tab, the Orthographic DWG tab, and the Isometric DWG tab. For more information about these tabs and other details about the Project Manager, see Overview: Organize Project Drawings.

The Project Manager also provides access to the Data Manager and the Project Setup dialog box. For more information about the Data Manager, see Manage Data and Generate Reports. For more information about setting up a project, see your system administrator.

Properties Palette   

The AutoCAD Plant 3D Properties palette provides quick access to component and line data.

In the Properties palette, you can change the data of an object (such as a pipe specification, an insulation type or thickness, and so on). The Properties palette also allows access to the Assign Tag dialog box, where you can alter tag information.

Some of the ways you can access the Properties palette include:

Double-clicking an object in a drawing

NoteWhen you double-click an annotation, the Edit Annotations dialog box is displayed instead of the Properties palette.

Selecting an item in the drawing and pressing CTRL+1

Right-clicking an item in the drawing and clicking Properties

At the Command prompt, entering PROPERTIES

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For more information about the Properties palette, see “Display and Change the Properties of Objects” in the AutoCAD Help system.

Data Manager   

You can view, modify, import, and export drawing and project data, and generate various reports using the Data Manager.

Using the Data Manager, you can export data for drawings and projects, modify the data externally, and import it back into the Data Manager.

You use a hierarchical tree in the Data Manager to filter and view data, and to generate reports.

You can export data and reports that contain P&ID and Plant 3D data, and export to Microsoft® Excel®, comma-separated value (CSV), or PCF (Piping Component Format) files.

You can zoom directly to a Plant 3D object from its record in the Data Manager data table.

In P&ID drawings, you can drag annotations from the Data Manager data table into the drawing area.

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For more information about the Data Manager, see Manage Data and Generate Reports.

Spec Viewer  

You can add pipe or pipe fittings to a model using the Spec Viewer.

The Spec Viewer uses spec files to control part size, selection, and routing priorities. After opening a spec file in AutoCAD Plant 3D, you can view spec sheets, add items to a 3D model, and customize tool palettes.

You can insert a sized part or an unsized part. If you use an object snap to connect to an open port, the size of the port is used. You can set AutoCAD Plant 3D to update a 3D model when changes are made to the spec file.

For more information about using the Spec Viewer, see Use a Spec in a Plant 3D Model.

Tool Palettes  

The AutoCAD Plant 3D tool palettes display standard and custom component and line symbols that you place to create your drawings.

The standard you choose when you create a project dictates which tool palette is displayed when you start the program. For example, if you create a project using the ISA standard, the initial tool palette displayed is the P&ID ISA palette.

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You can switch to another tool palette by right-clicking the tool palette title bar and selecting a tool palette. However, not all P&ID symbols that are available in one standard are the same in other standards.

For example, you have created a project using the PIP standard and have begun adding lines and components from the P&ID PIP tool palette. If you change to the P&ID ISA tool palette and attempt to add a 4-way valve, you receive a warning in the status bar stating that the ISA 4-way valve symbol cannot be found in the current palette. To add a 4-way valve, return to the P&ID PIP tool palette and select the 4-way valve from that set of symbols.

NoteIf you are working in a project using the ISA standard, you can add lines and components from the PIP standard. Also, if you are working in a project using the DIN standard, you can add lines and components from the ISO standard. In both cases, you might receive a warning for specific lines or components, but you can use most symbols without restriction.

You can also create your own custom tool palette by right-clicking the title bar of the tool palette and clicking New Palette. You can then add tools to the palette. For more information about creating a tool palette, see “Customize Tool Palettes” in the AutoCAD Help system.

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You can add individual items from a spec sheet to a custom tool palette. For more information, see Use a Spec in a Plant 3D Model.

NoteIf you do not see the P&ID workspace interface elements in your drawing area, it is likely that you are not displaying a P&ID workspace. Verify that you are using a P&ID workspace by clicking Workspaces on the status bar and clicking a P&ID workspace.

Quick Properties  

Quick Properties provide access to commonly used properties for an object or a set of objects.

Quick Properties are enabled by default. When you select an object, you can view and modify a list of properties for the selected object.

For more information about using or disabling Quick Properties, see “Work with Object Properties” in the AutoCAD Help system.

You can easily customize the Quick Properties for any object in the Customize User Interface (CUI) editor. To customize the display of Quick Properties, see “Customize User Interface Elements” in the AutoCAD Help system.

Shortcut Menus  

With shortcut menus (also called right-click or context menus), you can perform tasks that are related to the selected component or line.

For example, when you right-click a schematic line, a shortcut menu is displayed for quick access to relevant schematic line editing tasks.

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Grips   

You use grips to perform actions on objects in a drawing.

Grips are displayed at strategic points on objects when you select them. You can click these grips to perform the actions described in the following table.

Grip NameGrip Symbol

Description

Continuation grip Starts or continues routing pipe.

Elevation grip Moves a pipe line up or down to set an elevation.

Rotation grip Displays the compass and allows a component to be rotated.

Stretch grip Appears at the midpoints of schematic line segments; it moves a line orthogonally.

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Endline grip Lengthens or shortens a schematic line.

Connection gripConnects a schematic line or pipe line to a component, pipe line, or another schematic line.

Gap grip Breaks a schematic line between the gap symbols.

Flip grip Flips a component in the opposite direction.

Substitution gripDisplays a palette with similar components that you can substitute for the one you originally placed.

Add nozzle grip Adds a nozzle to existing equipment or converted 3D solids.

Edit nozzle grip Edits all nozzles (standard, line, and virtual).

Tooltips 

Tooltips are descriptive messages that are displayed near the cursor when it hovers over a ribbon, toolbar, panel button, or menu item.

Tooltips provide pop-up information for the commands associated with interface elements. Initially, a basic tooltip is displayed. If you allow the cursor to hover over the interface element, the tooltip may expand to display a second level of descriptive information for the command.

You can customize the display and content of a tooltip. For more information about customizing the display of tooltips, see “Display Tab (Options Dialog Box)” in the AutoCAD Help system.

Drawing Tooltips   

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After you add a component or line segment to a drawing or 3D model, you can perform a quick query of component or line segment data by moving the crosshairs over it.

When you position the crosshairs over a component, the values stored in the Class Name and Tag fields for the component are displayed in a tooltip.

If you position the crosshairs over a line segment, the Pipe Line Type, Tag, and To and From data are displayed in a tooltip.

Objects in 3D models that have data assigned to them or the capability to have data assigned to them display a tooltip with whatever data is currently assigned. If there is no data assigned to an object, the tooltip displays only the object name.

Application Menu and Toolbars   

The Application menu and toolbars provide access to many frequently used commands.

Using the Application Menu

The Application menu, located in the top-left corner of the program, replaces the traditional menu structure you might be familiar with in previous releases of AutoCAD Plant 3D.

Instead of a horizontal menu display across the top of the program, the application menu presents the menus in a vertical list. You click the Application button to display the menus within.

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For more information about using menus, see “The Application Menu” in the AutoCAD Help system.

Using Toolbars

You can use buttons on toolbars to start commands, display flyout toolbars, and display tooltips. You can display or hide, dock, and resize toolbars. There are no AutoCAD Plant 3D-specific toolbars, but you can access AutoCAD toolbars from the Quick Access Toolbar Tools menu.

For more information about toolbars and other AutoCAD tools such as the status bar and the classic menu bar, see “Other Tool Locations” in the AutoCAD Help system.

Understand the Work History Dialog Box   

If your administrator activates the Work History option, the Work History dialog box is displayed either when you open a drawing from the Project Manager or when you close the drawing.

You are prompted to provide details about the drawing file that you or another designer can refer to at a later date (such as revision information, review status, and so on).

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For more information about the Work History dialog box, see Manage Work History Tracking.

Understand the Assign Tag Dialog Box   

If your administrator has set up tag formatting, the Assign Tag dialog box displays when you add a component or line that requires a tag.

You add components and lines to a drawing or model from a ribbon or tool palette. If you do not know the tagging data at the time you insert a component or line, you can add the data to a 3D model later by clicking Home tab Part Insertion panel Assign Tag and clicking the component or line.

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For more information about assigning tags to components and lines, see Tag Components and Lines.

Control the Display of the Drawing Space   

By controlling the display of dockable windows and toolbars, locking the position of toolbars and dockable windows, and using two monitors, you can optimize your drawing environment.

Control the Display of Dockable Windows

Many windows, such as the Project Manager, the tool palettes, and the Data Manager, are dockable. Each window can be docked, anchored, or floating.

Commands for changing the display of dockable windows are available on a shortcut menu. You can change the following options for dockable windows:

Size. You can change the size of a window and resize the panes.

Allow Docking. Dock or anchor a dockable window. A docked window adheres to one side of the application window, causing the drawing area to be resized.

Anchor. Attach, or anchor, a dockable window or palette to the left or right side of the drawing area. An anchored window rolls open and closed as the cursor moves across it. When an anchored window is open, its content overlaps the drawing area. An anchored window cannot be set to stay open. The Allow Docking option must be selected before you can anchor a window.

Auto-hide. Display a floating window that opens and closes as the cursor moves across it. When this option is cleared, the window stays open.

Transparency. Display a window as transparent so that it does not obscure objects under it. This option is not available for all windows or when hardware acceleration is turned on.

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Control the Display of Toolbars

You can display or hide toolbars and control whether they are docked or floating in the drawing area.

A docked toolbar is attached to any edge of the drawing area. You can resize, and reposition undocked toolbars.

Lock the Position of Toolbars and Dockable Windows

After you have arranged toolbars and windows the way you want to display them, you can lock their positions. Locked toolbars and windows can still be opened and closed, and items can be added and deleted.

Use Keytips to Access Common Tools

You can use the keyboard to access the Application Menu, Quick Access tool bar, and ribbon.

Press the ALT key to display shortcut keys for common tools in the application window.

When you select a keytip, more keytips are displayed for that tool.

Use Dual Monitors to Optimize the Drawing Area

To create a larger drawing space, you can use two monitors. For example, you can use one monitor to display the drawing area, while the other monitor displays the tools for working in the drawing area such as the tool palette, Project Manager, Data Manager, and so on.

For more information about setting up dual monitors, see the instructions provided with your monitors.

Create and Configure a Project   

You use the Project Setup wizard to create a project, then configure the project setup options to meet your client needs.

Topics in this section

Overview: Create and Configure the Working Environment

The working environment is set up for ease in creating and managing drawings, models, and other related files.

Create a New Project

You can create a project and then change the project settings.

Configure General Settings

You can configure general settings, including project details, drawing properties, and reports.

Configure AutoCAD P&ID DWG Settings

As part of your AutoCAD P&ID DWG setup, you can configure certain behaviors to which all designers using this project adhere.

Configure Plant 3D DWG Settings

As part of your Plant 3D DWG setup, you can configure certain behaviors to which all designers using this project adhere.

Point Users to the Project Location

When you have completed the project configuration, you are ready to point users to the project location to start their designing.

Overview: Create and Configure the Working Environment

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The working environment is set up for ease in creating and managing drawings, models, and other related files.

When you start AutoCAD Plant 3D for the first time, a default project is set as the current project. You can either modify this project or create a new one, depending on your requirements.

Both the default project and any new projects that you create include standard settings for paths, drawings, Data Manager configuration, and so on. These default settings are often appropriate for most tasks throughout a project cycle. However, you can configure these settings to make them specific to the needs of your organization or your client. You can configure your drawing environment in the Project Setup dialog box.

NoteIt is strongly recommended that you avoid changing the project setup while others are using the project. Any changes you make will be visible only after users close and open the project again.

Create a New Project 

You can create a project and then change the project settings.

You can specify basic settings as you create a project with the Project Setup wizard.

Procedure

To create a new project

1. On the ribbon, click Home tab Project panel Project Manager New Project.

2. Complete the Project Setup wizard.

3. If you want to change the default project settings, select the check box labeled Edit Project Properties After Creating Project.

4. Click Finish.

NoteIt is strongly recommended that you set security measures to prevent users from accessing or changing certain project folders or files. Using Microsoft security settings, you can lock the project files that you do not want users to modify. For more information about Windows security settings, see Windows Help.

To create a new project from the Welcome Screen

1. On the Welcome Screen, under Get Started with Your Own Files, click New Project.

2. Complete the Project Setup wizard.

3. If you want to change the default project settings, select the check box labeled Edit Project Properties After Creating Project.

4. Click Finish.

NoteIt is strongly recommended that you set security measures to prevent users from accessing or changing certain project folders or files. Using Microsoft security settings, you can lock the project files that you do not want users to modify. For more information about Windows security settings, see Windows Help.

To create a new project from the Welcome Back Screen

1. On the Welcome Back Screen, under Other Recent Projects/Files, click New Project.

2. Complete the Project Setup wizard.

3. If you want to change the default project settings, select the check box labeled Edit Project Properties After Creating Project.

4. Click Finish.

NoteIt is strongly recommended that you set security measures to prevent users from accessing or changing certain project folders or files. Using Microsoft security settings, you can lock the project files that you do not want users to modify. For more information about Windows security settings, see Windows Help.

Quick Reference

Commands NEWPROJECT

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PROJECTMANAGER PROJECTSETUP

Configure General Settings  

You can configure general settings, including project details, drawing properties, and reports.

NoteYour administrator can lock project files to prevent changes to project-specific settings and options.

Topics in this section

Set or Change Project Details

You can change details of the default project settings.

Configure Drawing Properties

You can configure drawing properties so that each drawing added to the project has the same properties available.

Configure Report Settings

AutoCAD Plant 3D provides several report templates for viewing, printing, exporting, and importing reports.

Configure File Name Formats

You can set up a format to ensure consistent file naming within a project.

Set or Change Project Details   Bottom of the Page

Procedure Quick Reference

You can change details of the default project settings.

You can specify a variety of settings, including additional project properties, work history prompts, paths, the default tool palette group, and the data manager zoom factor.

Procedure

To add a new property to the existing set of project details

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Details.

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3. On the Project Details pane, under General Properties, do any of the following:

In the Project Description box, add or change the project description.

In the Project Number box, add a project number.

NoteThe Project Name was set when the project was created. You cannot edit this name.

4. Under Custom Properties, in the Custom Categories list, click Project Data.

5. Click Add Row.

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6. In the Add Row dialog box, enter a name (for example: Lead designer) and a value (for example: Rich Robins) for the new property.

7. Click OK.

8. Click OK.

To add a new category of project details

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Details.

3. On the Project Details pane, under General Properties, do any of the following:

In the Project Description box, add or change the project description.

In the Project Number box, add a project number.

NoteThe Project Name is set when the project is created. You cannot edit this name here.

4. Under Custom Properties, click Add.

5. In the Add Category dialog box, enter a name for the new category (for example: Other Information). Click OK.

6. Under Properties Of Selected Category, click Add Row.

7. In the Add Row dialog box, enter a name (for example: Project Manager) and a value (for example: A. Taylor) for the new property. Click OK.

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8. Continue adding properties as necessary (for example: PM Phone, 415-555-1212 and Process Lead, D. Quinn).

9. To add additional categories, click Add and repeat the steps for adding a category and its properties.

10. Click OK.

To configure work history prompts

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Details.

3. On the Project Details pane, under Work History Prompts, click one of the following options to specify when designers must enter work history information about their drawings:

Opening Project Drawings

Closing Project Drawings

Never

To configure general paths and file locations

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Details.

3. Under General Paths and File Locations, do the following:

In the User-defined Reports Directory box, enter the file path for the reports directory. Or click the [...] button, and in the Select Reports Directory dialog box, browse to the location where you want to place the reports directory.

In the Related Files Directory box, enter the file path for the related files directory. Or click the [...] button, and in the Select Related Files Directory dialog box, browse to the location where you want to place the related files directory.

4. Click OK.

To configure tool palette group association

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Details.

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3. Under Tool Palette Group Association, in the drop-down lists, click tool palette groups to display when a project is opened.

4. Click OK.

NoteIf the name of a tool palette group is displayed in red, the tool palette group exists but is not available on your system. You can make the group available by importing it. See Save and Share Tool Palettes in AutoCAD Help. For information on how to customize and share tool palette groups, see Customize Tool Palettes and Save and Share Tool Palettes in AutoCAD Help.

To configure the Data Manager interactive zoom factor

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Details.

3. Under Interactive zoom, in the box labeled Data Manager Interactive Zoom Factor, enter a number between 0.0 and 1.0 to set the zoom factor when designers zoom to a component from the Data Manager.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Project Details (General Settings Tree Node)

Configure Drawing Properties   Bottom of the Page

Procedure Quick Reference

You can configure drawing properties so that each drawing added to the project has the same properties available.

You can change the property value for an individual drawing or model.

Procedure

To add a new category of drawing properties

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Drawing Properties.

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3. On the Drawing Properties pane, under Custom, click Add.

4. In the Add Category dialog box, enter a name for the new category (for example: Additional Information). Click OK.

5. Click Add Row.

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6. In the Add Row dialog box, do the following:

Under Name, enter a name for the property (for example: Project Name).

Under Description, enter a description (for example: The project to which this drawing belongs).

Click OK.

7. In the Project Manager tree view, right-click a drawing. Click Properties.

In the Drawing Properties dialog box, the properties that you added are displayed. If necessary, use the scroll bar to display the properties.

8. Click OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Project Manager Project Setup Dialog Box Drawing Properties (General Settings Tree Node)

Configure Report Settings   Bottom of the Page

Procedure Quick Reference

AutoCAD Plant 3D provides several report templates for viewing, printing, exporting, and importing reports.

You can export and import report data to and from Microsoft Excel spreadsheets (XLS/XLSX) or comma-separated value (CSV) files.

You can create new report types based on existing report templates. The templates include lists of equipment, lines, line summaries, instruments, valves, nozzles, and so on.

After you configure a report, the properties you specify are queried. You can view the results in the Data Manager.

Setting Up Reports Containing Plant 3D Data

The existing report templates contain P&ID classes and properties. You can create Plant 3D templates for the following report types:

Equipment List

Line Summary List

Nozzle List

Valve List

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Procedure

To configure a new report based on an existing report

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Reports.

3. On the Project Reports pane, click a report on which to base the new report (for example: Equipment List). Click New.

4. In the New Report dialog box, enter a name for the new report (for example: New Equipment List).

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5. (Optional) To replace the family tables, do the following:

Click Replace Table(s).

In the Replace dialog box, select the check box next to the tables you want to replace (for example: select the Equipment check box).

In the drop-down list, click a replacement class table. Click Continue.

On the Create Report Template dialog box, click Continue.

NoteThe name you entered in the New Report Name box on the New Report dialog box is displayed as the title of the subsequent dialog box.

6. In the [New Report Name] dialog box, in the Report Properties pane, in the Select Properties To Include tree view, expand the class definition whose fields you want to configure (for example: Equipment).

NoteIf you are creating a Plant 3D report template, you can specify Plant 3D object or drawing properties and order them appropriately. The Plant 3D data is included in the report only if a corresponding P&ID object with an identical tag exists in the project.

7. Click the properties you want queried in the new report.

8. On the Priority Order pane, in the Fields list, click a field whose location you want to change. Use the Up or Down arrows to rearrange the order in which the fields are displayed in the

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Data Manager. The top-to-bottom order in the Fields list is displayed left-to-right in the Data Manager.

9. Repeat steps 7-8 for each of the available properties that you want reported.

10. Click OK.

To modify an existing report

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Reports.

3. On the Project Reports pane, under Defined Reports, click the report you want to modify. Click Modify.

4. In the Modify Report dialog box, in the Select Properties To Include tree view, expand the class definition whose fields you want to configure (for example: Equipment).

NoteIf you are creating a Plant 3D report template, you can specify Plant 3D object or drawing properties and order them appropriately.

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5. Click the properties you want queried in the report.

6. On the Priority Order pane, in the Fields list, click a field whose location you want to change. Use the Up or Down arrows to rearrange the order in which the fields are displayed in the Data Manager. The top-to-bottom order in the Fields list is displayed left-to-right in the Data Manager.

7. Repeat steps 5-6 for each of the available fields that you want reported.

8. Click OK.

To preview, sort, and filter a report

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click Project Reports.

3. On the Project Reports pane, under Defined Reports, click the report you want to preview.

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4. In the Report Preview data view, do any of the following:

To sort the data, click a column header to change the sort order.

To view only items with the same value as the selection, right-click a cell that contains the value by which you want to search. Click Filter By Selection.

To view all the selected items, right-click a cell that contains the value you want to exclude from the filtered view and click Filter Excluding Selection.

To filter for field values and ranges of values, right-click a cell for the property where you want to set a filter. Click the Filter For Field.

In the Filter For Field box, enter a value and press ENTER. You can use the following conditions cumulatively:

Conditions Purpose Examples

Angle brackets (< >)

to display values not equal to your entry

<> ‘700’ displays only rows with cells containing strings other than 700

<> ‘’ displays rows with cell data not equal to an empty string, thus eliminating rows with empty cells

Asterisk (*)to display any value in its place

Like ‘*SCH40* displays all fields continuing the text “SCH 40” regardless of the characters that come before or after the specified string

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Equal signs (=)to display values that match your entry = ‘Bosch’ displays only cells containing the string Bosch

IS NULL to display only empty cells Displays only rows with empty cells

IS NOT NULL to exclude empty cells Displays only rows with data

Question mark (?)

to display any single character in its place LIKE ‘SCH?0’ displays SCH20, SCH30, SCH40, and so on

To remove all filters, right-click a cell and click Remove Filter.

5. Do either of the following:

To save the filtered or sorted view into a report template to be displayed in the Data Manager, click Save.

To restore the default view, click Reset.

6. Click OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Project Setup Dialog Box Reports (General Settings Tree Node)

Configure File Name Formats   Bottom of the Page

Procedure Quick Reference

You can set up a format to ensure consistent file naming within a project.

After you have configured the file name format, all files created within a project follow the pattern you set. The file-naming format is not enforced, however, and designers creating new drawings can override the format if they wish.

Following is a sample file name format as it would appear in Project Setup.

This format would display the following dialog. If the Override check box is selected, a designer can revise the filename.

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Procedure

To configure a file name format

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand General Settings. Click File Name Format.

3. On the File Name Format pane, do the following to specify entry fields on the New DWG dialog box:

Under Name, enter a name. This name appears as the label for an entry box in the New DWG dialog box.

Under Type, click the drop-down list to select a type. For example: select String, Numeric, or NominalDiameter.

NoteYou can also specify a newly-created property with a selection list of values (for example: if you add the property Pump_Manufacturers and create a selection list of specific pump manufacturers, you can specify the new property under Type).

Under Length, click the drop-down list to select a number from 1 to 9. This number determines the required number of characters to be entered into the box.

Under Delimiter, enter a character (for example: a dash or comma).

Click Add as many times as required for your format.

4. When finished, click Apply or OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Project Setup Dialog Box Reports (General Settings Tree Node)

Configure AutoCAD P&ID DWG Settings   

As part of your AutoCAD P&ID DWG setup, you can configure certain behaviors to which all designers using this project adhere.

Topics in this section

Configure End Connections and Line Behavior

You can assign an end connection to a valve or an inline instrument.

Configure Settings for Export and Import

Create custom settings for export and import that include any combination of AutoCAD P&ID classes.

Set P&ID Paths

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You can change the default locations for accessing P&ID project data (such as drawings and templates).

Configure Customized Views for the Data Manager

You can customize the way the Data Manager displays data for P&ID projects or drawings.

Set Up Class Definitions for Components and Lines

Class definitions specify the attributes and properties of a component or line. To create most equipment, instruments, lines, inline items, and nozzles, you start with an existing component and edit its properties.

Configure End Connections and Line Behavior   Bottom of the Page

Procedure Quick Reference

You can assign an end connection to a valve or an inline instrument.

You can also assign an end connection after a valve or inline instrument is placed in a drawing. If the symbol for an end connection changes, the change is displayed in the drawing.

End connections display the type of connection (flanged, socket welded, or welded) for a valve or inline instrument in an AutoCAD P&ID drawing. The type of connection is tracked as a property. End connections inherit their graphical properties (such as layer, color, and line weight) from the valve or inline instrument with which they are inserted.

You can configure settings that control how lines display when they cross each other and the behavior of grips for a selected schematic line.

Drawing behaviors you can configure include:

End connection behavior for valves and inline instruments

Display style of crossing lines

Behavior of a gap symbol and scale

Standoff distance between a line and a component

Orthogonal and implied cornering behavior of schematic lines

Display behavior of vertex grips

Connection behavior of inline components when the component moves

Procedure

To define a new end connection

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click End Connections.

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3. On the End Connections pane, click Add Block.

4. In the New End Connection dialog box, under End Connection Name, enter a name for the new end connection.

5. Click Browse.

6. In the Select Block Drawing dialog box, locate and click a drawing that contains the block you want to use for the end connection symbol. Click Open.

7. In the Select Block dialog box, in the Available Blocks list, click a block to use for the end connection.

The Preview pane displays a preview image of the block you selected.

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8. Click OK.

9. In the New End Connection dialog box, click OK.

10. In the Project Setup dialog box, click OK.

To modify a block used for an end connection

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click End Connections.

3. On the End Connections pane, in the drop-down list, click an end connection to modify.

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4. Click Edit Block.

5. In the Block Editor, edit the block representing the selected end connection.

NoteIf you are not familiar with editing a block, see “Use the Block Editor” in the AutoCAD Help system.

6. When you are finished modifying the end connection block, click Close on the Block Editor.

The changes you made to the block are saved in projSymbolStyle.dwg.

7. Click OK.

To remove an end connection

When you remove an end connection block, you also delete the end connection from the project. You can delete only end connections that are not assigned to a valve or inline instrument.

NoteYou cannot remove default end connections such as Flanged, Socket Welded, Unspecified, and Welded.

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click End Connections.

3. On the End Connections pane, in the drop-down list, click an end connection to delete.

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4. Click Remove Block.

5. In the Confirm Delete message, click Yes.

6. In the Project Setup dialog box, click OK.

To assign an end connection to a valve or inline instrument

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you find the valve or inline instrument to which you want to assign the end connection.

4. Select a valve or inline instrument (for example: Ball Valve).

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5. On the Class Settings pane, under Properties, in the Property Name column, locate EndConnections.

6. In the EndConnections Default Value property, in the drop-down list, click an end connection type.

7. Click OK.

To configure line behavior

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click Line Settings.

3. On the Line Settings pane, under Line Crossing Style, click Gap or Loop.

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4. In the Gap/Loop Width box, enter a number to represent the amount of space, in units, between two crossing lines. (Units refers to project units, such as inches for imperial or millimeters for metric.)

5. Under Manual Gap Symbol, in the Symbol drop-down list, click a gap symbol to use to represent a gap between lines.

6. Under Standoff Distance, in the Standoff X box, enter a number to set the shortest possible distance, in units, that designers can draw between a 90-degree elbow and a piece of equipment.

7. Under Schematic Line Grips, in the Grip Settings drop-down list, click a grip behavior option.

8. To control automatic cornering behavior of orthogonal lines when they connect to a component, select the check box labeled Create Ortho Schematic Lines.

If this option is selected, ORTHO is temporarily turned on when the SLINE command is used, and corner points are implied. If this option is cleared, ORTHO is turned off temporarily when a designer enters the SLINE command.

9. To control whether inline components are moved with schematic lines, select the check box labeled Maintain Sline Connection When Moving Assets.

If this option is selected, inline components move with the schematic line to which they are connected. If this option is cleared, inline components become detached when schematic lines are moved.

10. Click OK.

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Quick Reference

Commands PROJECTMANAGER PROJECTSETUP End Connections (P&ID DWG Settings Tree Node) Line Settings (P&ID DWG Settings Tree Node)

Configure Settings for Export and Import   Bottom of the Page

Procedure Quick Reference

Create custom settings for export and import that include any combination of AutoCAD P&ID classes.

Share AutoCAD P&ID data with other applications by mapping AutoCAD Plant 3D properties to correspond with similar properties in other programs.

You can export and import data using the default Displayed Data setting. This setting exports and imports data for the active node in the Data Manager tree view, with or without child node data.

You create export and import settings at the project level in Project Setup. You use one setting for both export and import, which simplifies the process of exporting data, externally editing the data, and importing the data back. After you create an export and import setting, you can later modify or delete it.

Export to and Import from Other Programs

One common reason to create a custom export and import setting is for exporting and importing data to and from other programs. For example, you want to export data to AutoCAD Electrical. Because the two programs have different data structures, you map the classes and properties in AutoCAD Plant 3D to the classes and properties in the other program.

Set up External Data Mapping

You can set up external data mapping in the Export and Import Settings dialog box when creating or modifying an export and import setting.

A one-to-one mapping between every class and property is not required. Many Plant 3D objects can be mapped to the same external object.

In some cases, applications can contain erroneous or duplicate data. The import and export process uses a unique identifier (UID) to identify specific records. AutoCAD Plant 3D generally prohibits duplicate records. However, if AutoCAD Plant 3D encounters duplicate records, it exports them as multiple records and the importing application coordinates them.

Procedure

To create export and import settings

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click Export and Import Settings.

3. On the Export and Import Settings pane, click New.

4. In the New Export and Import Settings dialog box, under Name, enter a name for the export and import setting (for example: Pipe Lines and Signal Lines).

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5. Under Description, enter a description for the setting (for example: Export only pipe lines and signal lines).

6. In the P&ID Classes tree view, expand the nodes to display the P&ID Classes you want to export and import (for example: expand Engineering Items and Lines. Select all check boxes under both Pipe Line Segments and Signal Line Segments).

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7. If this setting is for exporting to and importing from another program, see “To set up external data mapping.” Otherwise, click OK.

To set up external data mapping

You can map property values when creating export and import settings or by modifying an existing setting.

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click Export and Import Settings.

3. On the Export and Import Settings pane, click an existing setting. Click Modify.

4. In the Modify Export and Import Settings dialog box, do the following:

Under Name, enter a new name (optional).

Under Description, enter a new description (optional).

In the tree view, expand the classes and select the check box for the class you want to configure for external data mapping.

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Under External Data Mapping, in the External Class Name box, enter a name that corresponds to similar classes in the other program. For example, if the program equates Pipes with Pipe Lines, select the Pipe Lines check box in the tree view and enter Pipes in the External Class Name box. Repeat this process for each class you want to configure for external data mapping.

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Under Properties, in the External Property column, click the external property you want to change. Enter the new name (for example: click the ModelNumber external property and enter Model).

Repeat this process for each external property you want to change.

To make a property a unique identifier (UID), select the UID check box corresponding to the property. PnPID is a UID by default. If the other program recognizes a different identifier, you can change this setting.

In the Value Mapping column, click the cell corresponding to the property you want to map. Click the [...] button.

5. In the Map Property Values dialog box, do the following:

In the P&ID Property column, enter the P&ID property values (for example: in the P&ID Property Model Number column, enter P1, P2, S1, and S2).

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In the External Property column, enter corresponding property values for the other program (for example: enter Model1, Model2, Model1, and Model2).

6. Click OK.

7. In the Modify Export and Import Settings dialog box, repeat the value mapping process for each property you want to map. When you finish mapping, click OK to close the Modify Export and Import Settings dialog box.

NoteWhen you use this Export and Import Setting for exporting data to another program, all Pipe Line ModelNumber P&ID properties correspond with the Model properties of the other program. The P1, P2, S1, and S2 P&ID values associated with the ModelNumber P&ID

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properties correspond with the Model1, Model2, Model1, and Model2 values associated with the Model properties in the other program, respectively.

To modify an export and import setting

1. In the Project Setup tree view, expand P&ID DWG Settings. Click Export and Import Settings.

2. On the Export and Import Settings pane, click an existing setting. Click Modify.

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3. In the Modify Export and Import Settings dialog box, you can:

Edit the name of the Export and Import Settings. For example, under Name, change Pipe Lines and Signal Lines to Pipe Lines.

Edit the description. For example, under Description, change Export only Pipe Lines and Signal Lines to Export only Pipe Lines.

4. In the P&ID Classes tree view, modify the P&ID Classes to export and import. For example, you can clear the check boxes for Signal Line Segments and all its child classes.

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5. On the External Data Mapping pane, modify the class name in the External Class Name box, if necessary. Make other changes, as needed, to the external data mapping settings.

6. Click OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Export and Import Settings (P&ID DWG Settings Tree Node)

Set P&ID Paths   Bottom of the Page

Procedure Quick Reference

You can change the default locations for accessing P&ID project data (such as drawings and templates).

The Paths panel includes:

P&ID DWG directory. Sets the location of the project drawing directory.

Project package. Defines the P&ID classes and properties used in a project.

WarningIt is strongly recommended that you do not manually change the project package file (ProcessPower.dcfx) and reload the changed file. You can edit the file and reload it, but you do so at the risk of corrupting your project.

Symbols and styles. Displays (read-only) the location where symbols are stored.

Drawing template (DWT) file. Defines the template file that is used when new drawings in a project are created.

NoteIt is strongly recommended that you set your project library locations and paths to a shared network location and set security measures to prevent users from accessing or changing certain project folders or files. Using Microsoft security settings, you can lock the project files that you do not want users to modify. For more information about Windows security settings, see Windows Help. Procedure

To set or change the project file location

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1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click Paths.

3. On the Paths pane, do one of the following:

Enter location paths for the P&ID drawing directory and the drawing template file directory.

Click the [...] button to the right of each box to browse to the location where you want to store the directory and file.

NoteThe other paths were set when the project was created. You cannot edit those paths here.

4. Click OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Paths (P&ID DWG Settings Tree Node)

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Configure Customized Views for the Data Manager   Bottom of the Page

Procedure Quick Reference

You can customize the way the Data Manager displays data for P&ID projects or drawings.

You can create customized views for both P&ID and 3D project and drawing data. This section describes the process for P&ID data.

For 3D modeling information, see Configure Customized Views for the Data Manager.

You can view data in the default class hierarchy or create new views that display the data arranged in a property-based hierarchy.

Procedure

To create a customized view for the Data Manager

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click Data Manager Configuration.

3. On the Customized Views pane, click Create View.

4. Under A New Customized View, do the following:

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In the Name box, enter a name for your view. This name replaces the name A New Customized View.

To define the scope of your view, in the Scope drop-down list, click either Project Data or Drawing Data.

Click New Level.

5. In the Select Class Property dialog box, do the following:

In the Class tree view, expand the appropriate node and child nodes to locate and click a class for Level 1 (for example: Engineering Items).

In the Properties list, click a class property (for example: Manufacturer).

Click OK.

6. Click New Level and repeat the previous step to add the number of levels you want in the customized view. When you finish adding levels to the customized view, in the Project Setup dialog box, click OK.

NoteFor best results, select properties shared by all components to be displayed in the customized view.

To delete a customized view for the Data Manager

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID DWG Settings. Click Data Manager Configuration.

3. On the Customized Views pane, click the customized view you want to delete. Click Delete View.

4. In the Delete Customized View message, click Yes.

To open a customized view in the Data Manager

1. On the ribbon, click the Home tab Project panel Data Manager.

2. In the Data Manager, click in the drop-down list and select a customized view.

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The Data Manager tree view displays the customized data view.

3. To display relevant component details on the right pane, click a node in the tree view (for example: ModelNumber-100).

Quick Reference

Commands DATAMANAGER PROJECTSETUP New Customized View (Data Manager Configuration) Project Setup Dialog Box

Set Up Class Definitions for Components and Lines   Bottom of the Page

Procedure Quick Reference

Class definitions specify the attributes and properties of a component or line. To create most equipment, instruments, lines, inline items, and nozzles, you start with an existing component and edit its properties.

Class definitions are divided into the following four families:

Engineering Items. Includes equipment, nozzles, instrumentation, inline assets, and lines.

Non Engineering Items. Includes items that cannot be purchased, or are not counted in reports (including flow arrows, gap, actuators, connectors, annotations, line breakers, and so on).

Pipe Line Groups. Includes pipe lines.

Signal Line Groups. Includes signal lines used with instruments.

You can modify existing class definitions or create your own based on existing class definitions. For example, if your company uses a pump symbol that is not provided with the program, you can create your own customized pump symbol.

When you create class definitions based on a family or parent, the new definition inherits the properties and settings of the family or parent.

You can modify the following properties for class definitions:

Symbol or line settings. The name of the symbol or line style; the name of the block controlling the geometry that is displayed in the drawing after a component is inserted; the layer, color, linetype, linetype scale, and plot style; the lineweight of a component when it is inserted; and other settings that affect the insertion of a component or how a schematic line is drawn.

Properties. The values assigned to a component or line class definition to determine how it looks and behaves in a drawing, and the values that are attached to a component or line (such as default value, description, substitution, supported standards, and so on).

Tag format. The information that comprises a unique tag for a component or line.

Annotation. The text and symbol settings that annotate a component or line.

You can also create and rename class definitions, and purge any that are not used in a project drawing.

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Procedure

To create a class definition for a component or line

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the class definition you want to use as the basis for the new class definition.

NoteSelect a class definition that most closely represents the class definition you want to create. The node you select is used as the template for the new class definition.

4. Right-click the selected class definition. Click New.

5. In the Create Class dialog box, enter a class name and a display name (if necessary) for the new class definition.

NoteUse only letters, numbers, and underscores for class names. Limit names to 31 characters. Longer class names can cause problems during export and import.

Also, do not start a class name with a number.

6. Click OK.

7. In the tree view, expand the node where the new class definition is added, and click the new class definition.

8. On the Class Settings pane, make the desired changes.

9. Click OK.

To modify a class definition for a component or line

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

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3. Continue to expand the list until you find the purchasable item whose definition you want to change (for example: Engineering Items Equipment Blowers Centrifugal Blower).

4. On the Class Settings pane, do either of the following.

If you are modifying a class definition, under Symbol, add, modify, or remove the symbols for the selected class definition.

If you are modifying a line definition, under Line, edit the properties for the selected line style.

5. In the Properties, do the following (as needed):

In the Display Name column, change the value for the Display Name property. (This information is displayed in the Data Manager.)

In the Default Value column, change the value for the Default Value property.

Add or remove custom properties as needed for the class or line definition.

Change the values of other properties as needed (such as tagging format, annotation style, acquisition, substitution, supported standards, graphical style name, and so on).

6. Under Tag Format, add, modify, or remove tagging formats associated with the selected class or line definition.

7. Under Annotation, add, modify, or remove annotation styles associated with the selected class or line definition.

8. Click OK.

To rename a class definition for a component or line

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

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3. Continue to expand the list until you locate and click the class whose definitions you want to rename (for example: Engineering Items Equipment Blowers Centrifugal Blower).

4. NoteYou can rename only those class definitions that do not have a plus sign (+) next to them under P&ID Class Definitions. For example, you cannot rename Blowers under Equipment but you can rename Centrifugal Blower under Blowers.

5. Right-click the class definition you want to rename. Click Rename.

6. Enter the new class name for the class definition. Press ENTER.

NoteIt is recommended that you use class names that are not greater than 31 characters. Longer class names can cause problems during export and import.

NoteIf a class definition is used in a drawing that is part of the project, a message is displayed indicating that it cannot be renamed.

7. Click OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP P&ID Class Definitions (P&ID DWG Settings Tree Node)

Topics in this section

Set Up Symbol and Line Settings

Class definitions for components and lines control their graphical display in a P&ID drawing.

Set Up Properties

Properties store information about a component or line that is in a P&ID drawing.

Set Up Tag Formatting (P&ID)

You can set up tag formats to help designers apply tag elements consistently throughout a project cycle.

Set Up Annotations

You can use annotations to place text on a drawing to describe a component.

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Set Up Off-Page Connectors

Off-page connectors create a continuance of a line from one project drawing to another. You can use an existing off-page connector to create a new one.

Set Up Symbol and Line Settings   Bottom of the Page

Procedure Quick Reference

Class definitions for components and lines control their graphical display in a P&ID drawing.

Class definitions for components and lines contain two types of settings and properties—graphical and non-graphical. The graphical settings and properties control how the component or line is represented in a P&ID drawing.

Non-graphical properties distinguish one component or line from another.

For a component, you can specify the symbol and settings that control the insertion behavior of a component.

For a line, you can specify whether flow arrows indicate the flow direction through a pipe.

You can create class definitions for both components and lines for general graphical properties such as layers, colors, schematic line types, linetypes, and lineweights.

You can also set the tagging prompt for both components and lines.

Procedure

To change the tagging prompt for components and lines

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component or line whose linetype you want to change.

4. On the Class Settings pane, do one of the following:

If you are modifying a component, under Symbol, in the drop-down list, click the symbol you want to modify. Click Edit Symbol.

If you are modifying a line, under Line, click Edit Line.

5. In the Settings dialog box, under General Style Properties, locate and click Tagging prompt. In the drop-down list, click one of the following options:

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Prompt for tag during component creation

Automatically assign an auto-generated tag

Not a tagged component

6. Click OK.

When designers place the component in a drawing or create a schematic line, it is displayed with the linetype you defined here.

To change linetypes for components and lines

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component or line whose linetype you want to change.

4. On the Class Settings pane, do one of the following:

If you are modifying a component, under Symbol, in the drop-down list, click the symbol you want to modify. Click Edit Symbol.

If you are modifying a line, under Line, click Edit Line.

5. In the Settings dialog box, under General Style Properties, locate and click Linetype. In the drop-down list, click a new linetype.

NoteIf your project is based on the DIN 2481 standard, and the pipe line you want to change has multiple lines, change Smart Line Type to Mline. Then click Mline style. In the drop-down list, click a new multiline style. The DIN standard uses multiple lines to represent oil, air, solid fuels, and so on.

6. Click OK.

When designers place the component in a drawing or create a schematic line, it is displayed with the linetype you defined here.

To change layers and colors for components and lines

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component or line whose color or layer you want to change.

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4. On the Class Settings pane, do one of the following:

If you are modifying a component, under Symbol, in the drop-down list, click the symbol you want to modify. Click Edit Symbol.

If you are modifying a line, under Line, click Edit Line.

5. In the Settings dialog box, under General Style Properties, locate and click Layer. In the drop-down list, click a new layer. Locate and click Color. In the drop-down list, click a new color.

6. Click OK.

When designers place the component in a drawing or create a schematic line, it is displayed on the layer and in the color you defined here.

To change lineweights for components and lines

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component or line whose lineweight you want to change.

4. On the Class Settings pane, do one of the following:

If you are modifying a component, under Symbol, in the drop-down list, click the symbol you want to modify. Click Edit Symbol.

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If you are modifying a line, under Line, click Edit Line.

5. In the Settings dialog box, under General Style Properties, locate and click Line Weight. In the drop-down list, click a new lineweight.

6. Click OK.

When designers place the component in a drawing or create a schematic line, it is displayed with the line weight you defined here.

To change line style for a pipe line that is represented by multiple lines (DIN standard)

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component or line whose linestyle you want to change.

4. On the Class Settings pane, under Line, click Edit Line

5. In the Line Settings dialog box, do the following:

Under General Style Properties, locate and click Smart line type. In the drop-down list, click an Mline.

Under General Style Properties, locate and click Mline style. In the drop-down list, click a new multiline style.

6. Click OK.

When designers place the component in a drawing or create a schematic line, it is displayed with the line style you defined here.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Symbol (P&ID Class Definitions Tree Node) Line (P&ID Class Definitions Tree Node) Symbol Settings Dialog Box (Symbol) Line Settings Dialog Box (Line)

Topics in this section

Configure Symbols for Components

Symbols represent components in a P&ID drawing.

Configure the Appearance of Lines

You can set up the arrow and flag behavior of lines.

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Configure Symbols for Components   Bottom of the Page

Procedure Quick Reference

Symbols represent components in a P&ID drawing.

You can import blocks to create a library of symbols.

You can create new symbols for a component or modify existing symbols. Use the Block Editor to edit a symbol block or to define settings that control how the symbol is inserted.

You cannot remove a symbol that is assigned to a class definition.

Scale Components

When defining the scale factor for a component, you choose whether the component is scaled uniformly. Most blocks are scaled uniformly along the X and Y axis. If, however, you want to create multiple tank components with different widths while using a single block for the different-sized tank components, you can choose not to scale uniformly.

Understand Attachment Points on Components

Attachment points are snap points on a component that connect multiple components and connect a schematic line to a component. Attachment points validate that when a component is placed in a drawing, it is actually connected with schematic lines.

Attachment points help to define the placement and orientation for a component. When you select a component for placement on a drawing, you place it by its block origin (0,0) by default. You can switch from the origin to an attachment point before placing the component by pressing the spacebar or ENTER key. Attachment points define directional information for components that have an upstream and downstream direction associated with them (for example: check valves).

Attachment points are required to specify, label, and correctly apply end connections. They are used in components such as pumps and blowers to determine that the connections in a drawing represent the available connections on the real-world items. Inline components such as valves have attachment points that provide precise control over line connections. When you place an inline component on a schematic line, its attachment points ensure that the schematic line is properly broken.

Attachment points serve as the recommended connect points for a component. If you do not use attachment points, the extents of the block determine where the line is trimmed to connect to the component. It is recommended that you use attachment points in the symbols that you create. Also, do not remove or change the order of the attachment points in the blocks that are included with AutoCAD Plant 3D.

Define Attachment Points

You define attachment points in a block with the Block Editor and Point parameters. Each Point parameter that you want to use as an attachment point must follow a specific labeling convention, "AttachmentPoint" + [Numeric Suffix]. For example, the first attachment point for a block would be labeled AttachmentPoint1, the second attachment point would be labeled AttachmentPoint2, and so on.

If you are defining an attachment point in a block for a valve or inline instrument, also define the rotation angle of the end connection by using the labeling convention "AttachmentPoint" + [Numeric Suffix] + ":EndCode" + [Rotation Angle in Degrees].

For example, a block has a Point parameter with the label AttachmentPoint1:EndCode90 for one of its attachment points. The label AttachmentPoint1:EndCode90indicates that it is the first attachment point for the block and that the end connection at the attachment point is rotated 90 degrees. If you do not want to use end connections with a block for a valve or inline instrument, use the labeling convention "AttachmentPoint" + [Numeric Suffix].

Node points are added to all attachment points to make drawing and connecting lines easier. To snap to an attachment point on a component, you use the Node snap. The Node snap also snaps to a point object, dimension definition point, or dimension text origin contained in a block or drawing.

Orient Attachment Points

Most inline components, such as those on the Fittings and Valves tabs of the PIP tool palette, are horizontally oriented by default. Their attachment points fall on the X axis, following the flow of a horizontal line either to the left or right. Some components, however, are oriented by default along the Y axis. If you place such a component (for example: a flame arrestor) on a horizontal line, it automatically rotates to align with the line direction.

When you configure symbols for components, remember the following guidelines:

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The imaginary vector drawn from Attachment Point 1 (AP1) to Attachment Point 2 (AP2) defines the direction of the component.

Most components are horizontally oriented, with the vector along the X axis.

Some components, such as Flame Arrestors, have AP1 to AP2 along the positive Y axis. These components are vertically oriented.

If the vector does not follow the X or Y direction, it is ignored.

Understand Join Types

The Join Type property setting for a component symbol defines whether the component can be inserted into an existing line. Join type settings also define how a line breaks when a component is inserted and whether adding the component to an existing line creates a new line group.

Symbol properties for join type include the following options:

Endline. Typically used for components that are placed at the end of a line (for example: caps or blind flanges), or placed in a drawing before connecting lines to them. Symbols with this property setting do not insert into lines.

Inline. Setting for components that are regularly inserted into pipe or signal lines. Components with this join type move when the line is moved, behaving as part of the line. If the line is deleted, the component is deleted along with the line.

Segment Breaker. Symbols with this join type can be inserted into lines. When these components are inserted, they break a line, and the line group and line number are retained for both line segments. For example, a reducer or a relief valve can break a line so that the line has different properties on either side of the component.

Segment Group Breaker. Components with this join type (for example: ISO pumps, compressors, and blowers) can be inserted into a line and breaks the line into two line groups with different line numbers.

No Join. Does not connect with lines (for example: agitators).

Procedure

To add a symbol to a component class definition

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component or line whose symbol you want to change.

4. On the Class Settings pane, under Symbol, in the drop-down list, click a symbol to use as the template for the new symbol.

5. Under Symbol, click Add Symbol.

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6. In the Symbol Settings dialog box, under Symbol Properties, click Symbol Name. Enter a new name for the symbol.

7. Under Symbol Properties, click Block. Click the [...] button.

8. In the Select Block Drawing dialog box, browse to and select the drawing that contains the block you want to use. Click Open.

9. In the Select Block dialog box, click a block in the Available Blocks list. Click OK.

10. In the Symbol Settings dialog box, under General Styles Properties and Other Properties, modify the properties as needed. Click OK.

11. In the Project Setup dialog box, click OK.

To set the default symbol for a component class definition

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component whose default symbol you want to edit.

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4. On the Class Settings pane, in the Property Name column, locate GraphicalStyleName.

5. In the Default Value column, in the drop-down list, click the symbol you want to use as the default symbol when inserting the component into a P&ID drawing.

6. Click OK.

To edit a symbol for a component class definition

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component whose symbol you want to edit.

4. On the Class Settings pane, under Symbol, in the drop-down list, click the symbol that you want to edit.

5. Click Edit Symbol.

6. In the Symbol Settings dialog box, modify the properties for the symbol.

7. Click OK.

To remove a symbol for a component definition

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

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2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component whose symbol you want to remove.

4. On the Class Settings pane, under Symbol, in the drop-down list, click the symbol that you want to remove.

5. Click Remove Symbol.

If the symbol is already assigned to a class definition, a message is displayed informing you that the symbol cannot be removed.

6. Click OK.

To edit the block associated to a symbol

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component whose symbol you want to edit.

4. On the Class Settings pane, under Symbol, in the drop-down list, click the symbol that contains the block that you want to edit.

5. Under Symbol, click Edit Block.

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6. In the Block Editor, edit the geometry for the block as needed.

7. Click Close Block Editor.

8. Click OK.

To set the scale factor for a component

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component whose scale factor you want to change.

4. On the Class Settings pane, under Symbol, in the drop-down list, click the symbol whose scale factor you want to change.

5. Click Edit Symbol.

6. In the Symbol Settings dialog box, under Other Properties, locate and click Symbol Scale. Enter a scale factor.

7. To set prompting behavior for designers to scale a component when they insert it in a drawing, click Scale on Insert. In the drop-down list, click Yes.

8. To set scaling behavior, click Scale Mode. In the drop-down list, click either of the following:

Uniform scaling: Sets the component to scale proportionately both vertically and horizontally.

XY independent scaling: Sets the component to scale independently both vertically and horizontally, depending on which direction you move the cursor.

9. Click OK to close each dialog box.

When designers place this symbol in a drawing, the symbol has the scaling behavior you defined here.

To create a component and add it to the tool palette NoteBefore you start this procedure, make sure the P&ID tool palette is displayed and that the active tool palette tab is the one where you want to add the new component. For example, if you are adding a pump to the tool palette, make sure that the Equipment tab is active.

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the component whose properties most closely match the component you want to create.

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The component that you select is used as the template for the new component definition.

4. Right-click the selected class definition. Click New.

5. In the Create Class dialog box, enter a name for the new class definition.

6. Click OK.

7. In the Project Setup tree view, expand the list until you locate where the new class definition was added. Select the new component definition.

8. On the Class Settings pane, make the desired changes to the new definition symbol settings, properties, tag format, and annotation style.

9. Under Symbol, click Add to Tool Palette.

The new class definition is added to the active tool palette. The new tool can be used just like the default tools provided with AutoCAD Plant 3D, and is included in reports. NoteIf the tool palette is not open when you click Create Tool, the component is added to the bottom of the tab last displayed.

10. Click OK.

To create a component with attachment points and add it to the tool palette

The following procedure illustrates how to create a pump (an endline component) and define two attachment points (where schematic lines will snap). You can create other components using the same general steps. Not all components require attachment points (for example, tanks do not require them) unless you want to define them.

NoteBefore you start this procedure, make sure the P&ID tool palette is displayed in your drawing and that the active tool palette tab is the one where you want to add the new component. For example, if you are adding a pump to the tool palette, make sure that the Equipment tab is active.

1. Create a new block (for example: a horizontal centrifugal pump) and save the drawing file. If you do not know how to create a block, see “Create and Store Blocks” in the AutoCAD Help system.

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2. On the ribbon, click Blocks & References tab Block panel Block Editor.

3. In the Block Editor dialog box, click Current Drawing. Click OK.

4. Turn off Midpoint snaps if they are on.

5. On the Parameters tab of the Block Authoring palette, click Point Parameter, and place a parameter (for example: on the inlet of the pump).

6. Right-click the parameter. Click Properties.

7. In the Properties palette, under Property Labels, click Position Label. Enter attachmentpoint1.

8. Click a blank space in the drawing, and then press ESC.

9. Create another parameter (for example: at the outlet of the pump), and label it attachmentpoint2.

10. Save the changes and close the Block Editor.

11. In the Project Setup tree view, expand P&ID Class Definitions.

12. Continue to expand the list until you locate and click the component whose symbol you want to edit (for example: Equipment Pumps Centrifugal Sump Pump).

13. Right-click the class definition. Click New.

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NoteInstead of creating a new class definition, you can also add a new symbol to an existing class definition. To add a new symbol to an existing class definition, see “To add a symbol to a component class definition.”

14. In the Create Class dialog box, enter a name for the new class definition (for example: horizontal centrifugal pump).

15. Click OK.

16. Expand the node where the new class definition was added, and select the new class definition.

17. On the Class Settings pane, under Symbol, click Add Symbol.

18. In the Symbol Settings dialog box, under Symbol Properties, do the following:

In the Symbol Name box, enter a name for the symbol that is added to the new class definition.

Click Block, and then click the [...] button. Browse to the drawing you created in step 1. Click that drawing and in the Select Block dialog box, click a symbol name (block) in the list. Click OK.

(Optional) Make other changes to the settings of the component you created.

Click OK.

19. On the Class Settings pane, change the properties, tag format, and annotation style for the new class definition.

20. Under Symbol, click Add to Tool Palette.

The new component is added to the active tool palette. The new tool can be used like the default tools provided with AutoCAD Plant 3D. It is also included in reports. NoteIf the tool palette is not open when you click Create Tool, the component is added to the bottom of the palette tab that was last displayed. You can move it by dragging and placing it in a new location in the palette. You can also copy or cut it and paste it to another P&ID tool palette.

21. Click OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP

Configure the Appearance of Lines   Bottom of the Page

Procedure Quick Reference

You can set up the arrow and flag behavior of lines.

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You set up whether a flow arrow is displayed when a line is added to a drawing, the type of flow arrow symbol displayed, and whether to prompt for the insertion of a flag.

Procedure

To set up line arrow behavior

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the line style whose line arrow behavior you want to set (for example: Equipment Lines Pipe Line Segments Primary Line Segment).

4. On the Class Settings pane, under Line, click Edit Line.

5. In the Line Settings dialog box, under Symbol Properties, click Flow Arrow Style. In the drop-down list, click a symbol in the list. Click OK.

6. Click OK.

To set up automatic prompting for flag insertion (DIN standard only)

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the line style whose line behavior you want to set (for example: Equipment Lines Pipe Line Segments Primary Line Segment).

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4. In the Class Settings pane, under Line, click Edit Line.

5. In the Line Settings dialog box, under Symbol Properties, click Flag Prompt. In the drop-down list, click Automatically Prompt to Insert Flag. Click OK.

6. Click OK.

To add a flow arrow symbol

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click Flow Arrow (for example: Non-Engineering Items Flow Arrow).

4. On the Class Settings pane, under Symbol, click Add Symbol.

5. In the Symbol Settings dialog box, Symbol Properties, locate and click Symbol Name. Enter a new name for the symbol.

6. Under Symbol Properties, locate and click Block. Click the [...] button.

7. In the Select Block Drawing dialog box, browse to and click the drawing that contains the block you want to use. Click Open.

NoteYou cannot use a drawing file as a block for the symbol. The block you want to use must be in the drawing file that you select.

8. In the Select Block dialog box, under Available Blocks, select a block. Click OK.

9. In the Symbol Settings dialog box, under General Styles Properties and Other Properties, change the properties as needed. Click OK.

To create a line and add it to the tool palette Notemake sure the P&ID tool palette is displayed in your drawing and that the active tool palette tab is the one where you want to add the new line.

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you find Pipe Line Segments or Signal Line Segments (Engineering Items Lines Pipe Line Segments or Signal Line Segments).

4. Right-click either Pipe Line Segments or Signal Line Segments. Click New.

5. In the Create Class Definition dialog box, enter a name for the new line definition.

NoteYou can create a line class definition under Pipe Line Segments or Signal Line Segments only.

6. Click OK.

7. In the Project Setup tree view, expand the tree until you reach the new line class definition, and click it.

8. On the Class Settings pane, change the settings, properties, tag format, and annotation style for the new line class definition.

9. Under Line, click Add to Tool Palette.

The new line class definition is added to the active tool palette. It can be used just like the default tools provided with AutoCAD Plant 3D, and is included in reports. NoteIf the tool palette is not open when you click Create Tool, the component is still added to the bottom of the last-active tool palette.

10. Click OK.

Quick Reference

Commands PROJECTMANAGER PROJECTSETUP Symbol (P&ID Class Definitions Tree Node) Line (P&ID Class Definitions Tree Node)

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Set Up Properties   Bottom of the Page

Procedure Quick Reference

Properties store information about a component or line that is in a P&ID drawing.

Both components and lines have properties that control how the component and line look when placed into a P&ID drawing. Properties also store non-graphical information that can be extracted from the drawing. Properties for a component or line class definition can be defined as one of the following data types:

String. Permits a free-form text value for a property.

Numeric. Verifies that only a positive or negative number is entered for a property.

Boolean. Permits a choice between true and false.

Symbol List. Defines a list of choices that control the symbol for a component in a P&ID drawing. This option is available only for P&ID objects when more than one symbol is associated with a class.

Selection List. Defines a list of property values. If a value is not displayed in the predefined list, it can be entered as free-form text.

Acquisition. Defines a rule stating that a component property acquires its value from another property. For example, a rule states that a hand valve acquires its size from the corresponding property of a line. The source can be chosen from class, project, or drawing properties.

NoteWhen you set up properties for a project, make sure no one else is accessing that project. If others are working in the project, your changes are not saved.

Procedure

To add a property to a class definition

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the class definition whose property you want to add.

4. On the Class Settings pane, under Properties, click Add.

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5. In the Add Property dialog box, do the following:

Under Property Name, enter a name for the new property. The name cannot contain any spaces.

Under Display Name, enter the name you want to be displayed for the new property when using the Data Manager or Properties palette.

Under Choose a Type, select one of the available data types.

6. Click OK.

If you selected Selection List or Symbol List, the appropriate dialog box is displayed to let you create either a selection list or symbol list.

If you selected Acquisition, the Select Data Source dialog box is displayed, where you select the source from which the property value is acquired.

7. Click OK.

To modify a property for a class definition

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the class definition whose property you want to edit.

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4. On the Class Settings pane, under Properties, locate and click the property you want to edit. Do one of the following:

Under Property Description, click the box and enter a new description.

Under Default Value, either click the box and enter a new value or, in the drop-down list, click a value. If the default value is Acquisition, in the drop-down list, click an appropriate item.

If the property type is List, click Edit to change the selection or symbol list that is assigned to the property.

Under Acquisition, click the [...] button and select Add acquisition rule. In the Select Data Source dialog box, select the source where the property value is acquired.

NoteTo change the name of the property or its type, delete the property and then add it again.

5. Click OK.

To delete a property from a class definition

1. On the ribbon, click Home tab Project panel Project Manager Project Setup.

2. In the Project Setup tree view, expand P&ID Class Definitions.

3. Continue to expand the list until you locate and click the class definition whose property you want to delete.

4. On the Class Settings pane, under Properties, locate and click the property you want to delete. Click Remove.

5. In the Confirm Delete message, click Yes.

6. Click OK.

Quick Reference

Commands PROJECTMANAGERPROJECTSETUPProperties (P&ID Class Definitions Tree Node)Topics in this section

Set Up Property Acquisition (P&ID)

When you select Acquisition as a property type, you set up a rule stating that the property acquires its value from another property.

Set Up Selection Lists and Symbol Lists

Use selection lists and symbol lists to enforce standard sizes for items such as pipe specs, pipe sizes, and instrument types, or when you want designers to choose from a predefined set of options.

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