Catia Plant Layout

Plant Layout

Preface

Using This Guide

What's New?

Getting Started

Enter the Workbench Create a Plant Site Create a Building Create an Equipment Reservation Create a Walkway Set Correct Working Units and Grid Changing the Current Axis Saving Documents Updating Documents

User Tasks

Basic Layout Tools Making an Element Active Aligning Elements Using the Step Input Box and Construction Elements Creating a Temporary Axis Generating Detail Information Disable/Enable Manipulation Handles Activating the Product or Parent

Using Areas Create Area by Size and Location Creating an Area by Defining Two Corners Create an Area by Selecting inside Boundary Create an Area by Selecting the Lines of a Boundary Moving a Rectangular Contour of an Area Resizing the Contour of an Area Moving an Area Saving an Area in a Separate Document

Using Boundaries Creating a Boundary Stretching a Boundary

Using Item Reservations Creating an Item Reservation Moving an Item Reservation Resizing an Item Reservation Rotate Item Reservation with Definition Dialog Box

Create Item Reservation at Compass Base Plane Save Item Reservation in Separate Document Creating an Item Reservation Over a Resource Creating an Item Reservation on a Defined Plane Copying an Item Reservation

Using Resources Place Resource Exact Distance from Another Placing Parts in a CATProduct Drawing Detecting Clash in Parts Placement Placing Resources on Different Planes Creating a Parent-Child Relationship Using Quick Translate to Move Objects Rotate Resource Using the Definition Dialog Box Snap Resources Together Snap and Rotate a Resource Quick Snap Resources

Creating a Path Reservation Creating a Path Reservation Routing with Defined Nodes Routing From the End of a Routable Branching a Path Reservation

Using Routables Using the Definition Dialog Box Positioning a Branch Routing Using the Compass Base Plane Connecting Routables Disconnecting Routables Create a Closed Loop Run Open a Closed Run Changing a Section Changing the Angle of a Segment Moving Nodes Display Information About Routables Fit Segment for Parts Assembly Position Segment Relative to a Plane Transfer Run to Another Document

Managing Systems Creating a System Assembly Creating a Network Saving in Separate Document Creating a Logical Set

More Layout Tools Using Offset Planes and Advanced Offset Planes Using Construction Planes Moving Multiple Elements Changing the Properties of Multiple Elements Distributing Elements Mirroring Elements Rearranging the Specifications Tree

Tasks for Path Reservations

Routing Path Reservations With a Slope Routing Path Reservations in Any Direction Routing from an Item Reservation Fixing Broken Routables Edgeline: Routing Parallel to a Run

Tasks for Areas Performing an Inclusion Analysis Generating a Footprint Report Creating Area with Multiple Contours

Creating and Modifying Connectors Create Connectors Use the Compass to Manipulate Connectors Modifying or Deleting Connectors Creating Duplicate Connectors Using the Plane Manipulator Place Connector on Hole in V4 Model

Resources Change the Reference File for a Part Change the Parameters of a Part

Customizing

Customizing Settings General Display

Cache Mode Working in Cache Mode

Customizing the Dictionary of Types Customizing: Example Customizing: Procedure Searching User-Created Dictionary Entries

Customizing the Specifications Tree Display Creating a Catalog

Creating Parts Creating a Catalog Making a Catalog Accessible Catalog Keywords

Resource Properties for Objects

Workbench Description

Plant Layout Toolbar General Design Toolbar General Environment Toolbar Product Placement Toolbar

Glossary

Index

PrefaceThe Plant Layout product enables you to easily create a layout design for a manufacturing plant or other type of plant. The main focus of the product is to allow preliminary or conceptual design of a plant to be accomplished quickly. It provides an efficient, cost-effective way to lay out an initial plant design for review and validation. The initial plant design may then be expanded, evolved, and modified to continue the plant design process. The entire process is accomplished through a simple, highly intuitive interface, combining traditional 2D layout paradigms with full 3D capabilities to allow you to build a 3D digital representation of the plant.

The Plant Layout product can be used with other digital plant design products, such as Systems Routing, to satisfy plant design requirements. These products, together with the product portfolio, provide you with the complete ability to design and optimize your plant layout.

The Plant Layout User's Guide has been designed to show you how to create plant layout designs. Based on design factors and various industries and domains, different design approaches may be undertaken. This book provides an overview of the product and aims at illustrating specific design procedures to aid your plant design efforts.

Using This Guide

Using This GuideThis book describes how to use the Plant Layout product. Before you read it, you should be familiar with basic concepts such as document windows, standard tool bars, and view tool bars.

To get the most out of this guide, you should start with the tutorial in the Getting Started section.

The remaining sections of the book describe in detail the procedures for using all of the features of the Plant Layout product. The procedures are divided into basic, advanced, and customization sections.

What's New?

New Functionality

You can transfer elements in a document to a new document or work package.The import node points command allows you to predefine the node points of a run in a document and route using that document.

Enhanced Functionality

Modifying or deleting connectors on the instance of a part is no longer allowed. You can only perform these tasks on a reference or unique part.

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Getting Started

The following short tutorial provides an introduction to the Plant Layout product. It is intended to give you a feel for the product's capabilities in a few step-by-step scenarios, which are listed below.

Enter the WorkbenchCreate a Plant SiteCreate a Building

Create an Equipment ReservationCreate a Walkway

Set Correct Working Units and GridChanging the Current Axis

Saving DocumentsUpdating Documents

These tasks can be completed in about 15 minutes.

Entering the Plant Layout Workbench

This task explains how to enter the Plant Layout workbench..

1. On the menu bar click Start, select AEC Plant and then Plant Layout.

2. The Plant Layout workbench is loaded and an empty CATProduct document is opened.

Deactivate the option Work with cache system. To do this click Tools in the menu bar and then Options. In the dialog box that appears, select Infrastructure - Product Structure. Uncheck the option Work with cache system. Restart the application for the change to take effect.

Create a Plant Site

This task provides a basic description of how to create a plant site. More information on creating areas is provided in the section Using Areas.

1.

Click the Area button . The Area Creation dialog box displays.

2.

Click the Rectangular-Location button , then click the drop down arrow in the Type field and

select Site as the area Type. 3. To define the size of the site, key in these values:

● X Length 1000 ft

● Y Length 1000 ft

● Height 100 ft

4. Click at any location. The plant site is created.

5. To display the entire site in your window, click the Fit All In button .

Create a Building

Now that you have defined a plant site, you will create a building on the site.

1.In the specification tree, double-click the site you created in the previous task.

The site is now the active area in the Plant Layout product.

2. Click the Boundary button . (Sometimes it is behind the Path Reservation button.) The Boundary dialog box displays.

3. Click the drop down arrow in the Type field and select Wall as the boundary Type.

. For Mode, select the Point-to-Point button .

4. Set the temporary grid to 10 ft.

5.Click several points inside the plant site to create a closed, non-rectangular polygon.

When you click the first point, a cross marks the spot. To close the polygon, select the cross.

6. Now you will define the area for the building. Click the Area button . The Area Creation dialog box displays.

7. Select the Bounded Inside button in the Create field. Click the drop down arrow in the Type

field and select Building as the area Type.

8. Click anywhere inside the wall you just created. This defines the site for your building and the "footprint".

9. To see the building and walls in the specification tree, click on the plus sign (+) next to the site name.

Create an Equipment Reservation

With a building now in place in your plant site, you can create an equipment reservation.

1. In the specification tree, double-click the building you created in the previous task to make it the active element.

2. Select the Item Reservation icon . The Item Reservation Creation dialog box appears.3. Select Equipment Reservation from the drop down list as the type of reservation.4. To define the size of the reservation, key in these values:

● X Length 20 ft

● Y Length 15 ft

● Height 10 ft

5. Click anywhere in the building to define a location for the equipment reservation.6. Zoom in to get a closer view of your equipment reservation.7. To see the newly created equipment reservation in the specification tree, click on the plus sign (+)

next to the building name.

Create a Walkway

In this final task, you will create a walkway in your building.

1. Click the Path Reservation icon . The Path Reservation dialog box displays.2. Select Walkway from the drop down list as the type of path reservation.

3. Click the Section type icon . The Section dialog box opens.4. To define the size of the walkway, key in these values in the Section dialog box:

● Height 8 ft

● Width 6 ft

5. Click OK.

6. Click several points in the building to create the walkway. Double-click the last point to complete the walkway definition.

Set Working Units and Grid

This task describes how to set your working units.

1. Select Tools - Options and expand the General node. Select Parameters and Measure then click the Units tab.

2. Under Magnitudes, select Length and click the drop down arrow to set the unit of measure you will be using; Foot, Meter, etc.

3. Now, scroll down the list in Magnitudes and select Area. Select the unit of measure you will be using for area. Note: This is normally consistent with the Length standard.

4. To set the Grid Step, under Options, select Equipment & Systems and click on the General tab.5.

Enter a value for the Grid Step field; for example, 1 ft. The grid step is the increment used for snapping (to grid). Imagine a grid placed over your workspace, consisting of squares. The value you enter in this field becomes the distance between the lines of each square.

If you enter 1 ft, then, when routing, the run will extend by 1 ft at a time. Runs begin, end and turn at grid intersections (there are ways of overriding this). Similarly, when placing parts in free space (as opposed to on a run), they will place at grid intersections.

The grid step setting will display in the General Environment toolbar at the bottom of the 3-D viewer. You can change it in the toolbar during your session but the new value will only apply to your current session. If you close the application and reopen it, the toolbar will again display the value in the General tab page.

These will be your default settings and will remain in effect until you change them.

6. Click the OK button to complete the customization of the working units.

Changing the Current Axis

This task shows you how to change the current axis.

When you activate an object, the current axis is reset to the axis of that object. Changing the current axis changes the reference point by which elements are routed and placed.

1. Click the Change Current Axis icon .2. Select the object you want to use as a reference.

The axis for the selected object is displayed.3. You can also change the current axis and place the compass on the object. The compass allows you

to manipulate that object. To do this click the Change Current Axis and Snap Compass button and select the object. The axis and compass are both placed.

Saving Documents

This task contains recommendations on saving your documents.

Ways in which documents are saved are explained in the Infrastructure User's Guide - Creating, Opening and Saving Documents. You must read that documentation because the various methods are not explained here. This task simply suggests the methodology you should follow in specific circumstances.

1. If you are saving a document to a local machine or network drive it is recommended that you use the "Save Management" command initially. The Propagate Directory command (which is in the Save Management dialog box) should not be used routinely. It is meant to be used in specific circumstances, such as when you want to place all the contents of a document in one directory before sending it to another location.

2. If you are saving a document to another site or network you should use the "Send To" command. In this case, you should be careful about the links for documents such as resolved parts folder or line ID. These links could change to reflect the local network drive to which the documents have been sent. You should make sure they point to the original location - using the Reset button in the Save Management dialog box is one way of doing this.

3. You should check the active document before you execute the Save command . The root product must be the active document if you want to save everything under it.

Updating Documents

This task contains information on updating documents.

The connections in your design will not update automatically after you make certain changes to it, such as moving parts, runs or lofts. This behavior is by design, to enhance performance. In order to update your design

document click the Force Update button .

You can also update a part - see Placing Parts.

User Tasks

The tasks for laying out a design using the Plant Layout workbench are listed below.

Basic Layout ToolsUsing Areas

Using BoundariesUsing Item Reservations

Using ResourcesCreating a Path Reservation

Using RoutablesManaging SystemsMore Layout Tools

Tasks for Path ReservationsTasks for Areas

Creating and Modifying ConnectorsResources

Using Basic Layout Tools

The following procedures describe the basic tools available in the Plant Layout product for general layout functions.

Making an Element ActiveAligning Elements

Using the Step Input Box and Construction ElementsCreating a Temporary Axis

Generating Detail InformationDisable/Enable Manipulation Handles

Activating the Product or Parent

Making an Element Active

This task shows you how to make an element in a drawing active. An element is active when it is highlighted in blue in the specification tree, as shown below.

1. You can make an element active by following any of these steps: ● Double-click the element in the drawing or in the specification tree.

● Select Activate Parent button to make the active element's parent active.

● To activate an area, select the Activate Area button and then select any element under the area.

● To activate a network, distribution system or logical set, select the Activate Network button

and then select any element under the network.

2. Optional. You can change the display of elements that are not active using the Toggle Dimming

Mode button on the General Environment Toolbar:When Dimming Mode is on, elements that are not active are dimmed.

When Dimming Mode is off, inactive elements are not dimmed.

Aligning Elements

This task shows you how to align elements in your layout.

You can align the center or the sides of an element to a user defined reference plane that you define. You can also rotate an element to align it with a reference plane.

1. Select the element(s) that you want to align.

2. Select the icon for the type of alignment you want to perform:

Align Sides: aligns the sides of two or more elements

Align Center: aligns along the centerlines of two or more elements

Rotate to Align: rotates elements on the axis to align them

Align Planes: aligns selected planes

Distribute: See Distributing elements

3. Define the plane to use as a reference for the alignment. If you have an offset plane already defined it will be used as the reference plane. If you do not already have the offset plane defined do the following:

a. Place your cursor over a geometric element that defines the plane (e.g., a construction plane, boundary, area contour, item reservation).

As you move the cursor, a small white rectangle is displayed to show the selectable planes, as shown below. A line normal to the rectangle shows the direction in which the alignment will be performed.

If you do not see the white rectangle, zoom out from the drawing. The white rectangle cannot be displayed if the element under your cursor is displayed too small.

b. Click to select the plane.

The selected elements are aligned along the plane.

4. Using the Align Planes command allows you to select any plane on an item reservation or part. After you select the first plane to which to align to, you can only select a plane that is parallel to it. For instance, if you select the the top of an item reservation you need to select the top or bottom of the second item reservation - you cannot select the sides.

Click any button in one of the tool bars to exit the alignment command. If you want to continue with the alignment command using the same reference plane then select another element in the model.

Using the Step Input Box and Construction Elements

This task shows you how to use the step input box and construction elements for more control over routing and placing of resources and item reservations.

The value entered in the step input box is used for accurate routing and resource placement. You can only route in multiples of the value in the step input box. If the value is 0.25 meters you cannot create a run that is 0.33 meters in length, but you can create runs that are 0.50, 0.75 meters and so on.

The value in the step input box works with some of the construction elements to further refine your routing and resource placement, as explained below.1.

To enter a value in the step input box, select the increment field and key in a value. You can also click on the down arrow and select a value, if it is appropriate for your task. The following sections explain how the step input box is used together with some of the construction elements.

2.

Click on the down arrow and select the Snap to steps off current axis button. This allows you to snap to points that are multiples of the value entered in the step input box measured from the current axis (also called origin). As you move your mouse pointer a label will show the distances (coordinates) from the current axis in multiples of the value entered in the step input box. In the illustration below, the label is showing that the distance is 500 mm from the axis along the X axis, and 500 mm from the axis along the Y axis. When routing you will only be able to create segments whose length is in multiples of 500 mm. Similarly, you will only be able to place (or move) a resource at points that are measured in multiples of 500 mm from the axis. You can change the value in the step input box at any time.

3.

Snap to steps off last position . This will allow you to snap to points that are multiples of the value in the step input box measured from the last point at which you clicked. When you select this option the label will first show the distances from the current axis. After you click, it will show the distances from the last point where you clicked. You can change the value in the step input box after a click if you want to route a segment of a certain length or place a resource an exact distance away from where you last clicked.

4.

Snap to XY construction planes . This option allows you to snap to the XY grids on a construction plane. You first create a grid using the Construction Planes command. If you have an XY grid you will only be able to place resources at, or route to, the intersections of X and Y grids. If you have only X or Y grids you will only be able to place resources at, or route to, the grid lines.

5.

Snap to all construction planes . Choosing this option allows you to snap to the X, Y or Z grids.

6.

Snap to elevation planes . Selecting this option allows you to snap to the elevation planes of a Z grid. In the illustration below the user is routing on the Z axis and snapping to the elevation planes of the Z grid.

7.

Snap to Drafting elements . This option is used when attaching the drafting view of a 2D drawing to an area. By using this option you will be able to snap to the elements of the 2D drawing. For instance, if you are attaching the 2D drawing of a conveyor belt to an area, by choosing this option you will be able to use the Conveyor Reservation function to select the drawing (you select by clicking on different elements of the drawing). This will allow creation of an identical conveyor layout in 3D.

For instructions on defining construction planes, see Using Construction Planes.

Creating a Temporary Axis

This task shows you how to create a temporary axis. It will allow you to create an axis at any location.

The current axis is the reference point by which elements are routed and placed. It is also the reference point from which an element's position is determined (as displayed in the X,Y,Z fields on the Definition dialog box for an element). When you create a temporary axis it allows you to place or manipulate resources with reference to that axis.

1.

Click the Item Position button.

2. Click at the location where you want to place the temporary axis. This creates an axis at that

location. 3.

Click the Change current axis button and click on the temporary axis you just created. The temporary axis can now be used as the reference axis.

4. You can also use the compass to define the plane for a temporary axis. To place a temporary axis at the compass base plane, first drag the compass to the plane where you want the axis.

You will have to delete the temporary axes in the specifications tree when you no longer need them.

Generating Detail Information

This task shows you how to display detailed information about objects as you move the pointer over them.

The Analyze Item command displays information about an object when the pointer passes over it. This information can include line IDs, nominal size of runs and parts, XYZ coordinates of connectors, etc. The type of information shown will depend on the object and the product you are using. See also Display Information About Routables.

From Release 13 the angle of routables from the x,y,z axis will also display, as in the image below.

1.

With your document open, click the Analyze Item button .2. Move the pointer in the document highlighting various objects. Attributes and their values are

displayed, depending on the type of object highlighted. In the illustration below the pointer is on a tubing tee.

3. When you click again the feature will be disabled.

Disabling/Enabling Manipulation Handles

This task shows you how to disable or enable manipulator handles using the Toggle Manipulator Handle Mode command.

The default is for the manipulation handles to be enabled. If you are working on a large document, however, displaying the handles on each part can take up time. If you do not need the handles then you can use this feature to disable the display. It is a toggle button, so clicking it again will enable the handles. This feature can be used with parts placed in-line or in free space.

1.To disable display of the manipulation 'handles' click the Toggle Manipulation Handle Mode button

. To enable them again click the button once more. The handles look like a green box on parts placed in free space. On parts placed in line they look like the image below.

Activating the Product/Product Parent

This task shows you how to activate the product or product's parent.

This command can be useful when you have numerous objects and/or documents displayed in the specifications tree. It helps you activate an object, or locate the parent to which an object belongs.

1.

Click the button Activate Product's Parent . The Activate Product dialog box displays.

2. If you want to activate an object then click on the object, in the specifications tree or viewer. If you want to activate the object's parent, then click the checkbox Activate Product's Parent and select the object. The parent will be selected and highlighted in the specifications tree.

Using Areas

You can create and modify areas in any of the following ways.

Create Area by Size and LocationCreating an Area by Defining Two Corners

Create an Area by Selecting inside BoundaryCreate an Area by Selecting the Lines of a Boundary

Moving a Rectangular Contour of an AreaResizing the Contour of an Area

Moving an AreaSaving an Area in a Separate Document

Creating an Area by Size and Location

This task shows you how to create an area by keying in a size and clicking a location.

1.

Click the Area button .The Area Creation dialog box is displayed.

2.

Select the Rectangular - Location button .3. Select the Type of area you want to create:

4. If you need to then check Set area origin same as parent. This will make the origin of the area you create the same as the parent object, which is the current active object.

5. Define the size of the area: ● X Length

● Y Length

● Height

You can only define the X and Y values for the Rectangular - Location option. The Height value can be defined for all options.

6. Select a display option:

● (Solid) displays the area at full height.

● (Flat) displays the area with no height.

7. Optional. To display descriptive text on the area, activate either or both of these options: ● Display Text for Name: shows the area name.

● Display Text for Size: shows the area size.

You should be able to see the shape of your area when you move the mouse pointer. If you do not see

it then click the Fit All In button.

8. Check Create Area in New Document if you want to do so. See Saving an Area in a New Document.

9. Define the elevation of the area you will create. Check one of the options:● Use the Current Compass Location: The area will be placed at the same elevation as the

compass (assuming you have placed the compass on an object).

● Use User Input Elevation: The area will be placed at the elevation you enter in the Elevation field, and will be relative to the current active object.

10. You are now ready to indicate a location for your area by clicking the left mouse button. Before doing so you can use the Shift key to toggle the axis to one of the four corners or the center of the area. See below.

The area is displayed after you click the left mouse button.

You can use the Shift key to toggle the axis to one of the four corners or the center of the area you are creating. After Step 9 above:

A. Move your mouse pointer so that your area is located where you want it.

B. Use the Shift key to toggle the axis. Then go to Step 8. The pictures below show the axis toggled from center to upper left.

Creating an Area by Defining Two Corners

This task shows you how to create an area by defining two corners. The task Create Area by Size and Location contains more comprehensive information about some of these steps.

1.

Click the Area button . The Area Creation dialog box is displays.

2.

Select the Rectangular - Corners button . 3. Select the Type of area you want to create.

4. Define a height for the area. You cannot set X and Y dimensions using this option.

5. Select other options, as needed, displayed in the Area Creation dialog box. These are explained in Create Area by Size and Location.

6. Indicate a location for the first corner.

7. Indicate a location for the second (opposite) corner.

The area is displayed.

Create Area by Selecting Inside Boundary

This task shows you how to create an area inside a boundary by clicking anywhere inside the boundary lines. The task Create Area by Size and Location contains more comprehensive information about some of these steps.

1. Create a boundary. See Creating a Boundary for instructions.

2. Click the Area button .

The Area Creation dialog box displays.

3.

Select the Bounded - Inside button .

4. Select the Type of area you want to create.



7. Click anywhere inside the boundary. The area is displayed.

Sometimes the area will not display correctly inside the boundary - it may overlap a part of the boundary or not align with a portion correctly. In such cases delete the area and click again at a location that is different from the last location you clicked at. It may take two or three tries before you get the correct display.

Create Area by Selecting Lines of Boundary

This task shows you how to create an area inside a boundary by selecting each of the lines that make up the boundary. The task Create Area by Size and Location contains more comprehensive information about some of these steps.

1. Create a boundary. See Creating a Boundary for instructions.

2.

Click the Area button . The Area Creation dialog box displays.

3.

Select the Bounded - Select button . 4. Select the Type of area you want to create.



7. Select the boundary lines that you want to outline the area. The area is displayed.

Moving a Rectangular Contour of an Area

This task shows you how to move a rectangular contour of an area.

1. Make the area active.

See Making an Element Active for instructions.

2. Click the contour for the area.The contour is highlighted.

3. Place your cursor at the desired location on the contour.

As you move the cursor over the contour, visual "cues" are displayed to show how you can move contour.

● A plane is displayed when the cursor is over a line to show that you can move the contour along that line.

● A cross hair is displayed when the cursor is on a corner. From a corner, you can move the contour in any direction.

4.Drag the contour to a new location.

5. Select the Update button to see the modification.

Resizing the Contour of an Area

This task shows you how to resize the contour of an area.

1. Right-click the contour.

2. From the pull-down menu, put your cursor over the name of the contour (e.g., Rectangle 7.1.object) and select the Definition option.

The Rectangular Contour Definition dialog box is displayed, and manipulation handles are displayed on the contour.

3. Do either of the following: ● Key in new values for the X length and/or the Y length.

● Place the cursor over one of the handles and drag it to resize the contour.

4. Select Apply on the Rectangular Contour Definition dialog box

5.

Select the Update button to see the modification.

Moving an Area

This task shows you how to move an area.

1. Make the parent element of the area active.


2. Select an element in the area.The area axis is displayed.

3. Place the cursor over the axis and drag it to the new location. ● Select one of the axis arrows to move along a plane.

● Select the center of the axis to move in any direction.

Saving an Area in a Separate Document

This task shows you how to create an area in a project and save it as a separate document.This function is needed if you want to work on a component of a larger project. If you save the component as a separate document you can open it without having to open the entire project. At the same time it remains part of the larger project.1. Make the parent area active.

2. Click the Area button and enter all the information you need to.3. Check the option Create area in new document. This displays a field asking for a file name.4. Enter a file name and create your sub-area. Sub-areas that are saved as separate documents are

identified by a unique icon in the specifications tree. In the image below, Building1 is not saved as a separate document, whereas newbuilding and anotherbuilding have been saved as separate documents.

5. When you save the document you will be asked if you want to save other documents. Click OK.

6. When you need to work on an area which has been saved in a separate document then use the File-Open function and navigate to the directory where you saved the documents.

If you delete one of the sub-areas in a project, then you must also delete the corresponding document from the directory where you saved it. Use the Windows Explorer function for this.

Using Boundaries

The following procedures describe how to create and modify boundaries.

Creating a BoundaryStretching a Boundary

Creating a Boundary

This task shows you how to create a boundary.

1.

On the Path Reservation/Boundary toolbar , click the Boundary button .

The Boundary dialog box displays.

2. Select the Type of boundary you want to create:

3. Define the Mode for routing

Point-to-Point

Orthogonal

Edgeline

If you want to branch from the center of the segment, click the Branch at Center button. The branch will begin from the center of the segment, irrespective of the point in the segment that you route from.

In addition, if you place the compass on an object the Use Compass Origin button will display. If you click the button and start to route the route will start from the compass origin. If you are in the middle of routing, the compass origin will serve as a routing point.

Click one of the Select Mode buttons - the default is No Filter. The Select Mode buttons allow you to define where you can start routing from.

No Filter: No filters are applied and you can route from any routable object or in space.

In Space: Routing will be in space. This is useful when you have a large object in the background, such as a ship structure, and you want to be able to route in space.

Only Part Connectors: Select this to be able to route from part or equipment connectors only.

4. Define the Section type:

No Section

Rectangular Section

If you select Rectangular Section, define these parameters:

● Set Point:

● Height

● Display:

No section

True Size

Flat

Instead of entering the type of boundary, the set point and the height, width or diameter in the Section dialog box, you can select an existing boundary in your document. Once you select the boundary the Section dialog box will display the same values as the one you selected. To select, click on the Path Reservation button and then click the left mouse button once on the boundary whose values you want as the default. Make sure the entire boundary is selected, and not just one segment or node. It will be easier to select the boundary in the specifications tree.

5. Indicate a location for the endpoint of each side.

The boundary is displayed as you move the cursor.6. Double-click to end the boundary definition.

Stretching a Boundary

This task shows you how to re-define a boundary by stretching its sides.

1. Right click the boundary you want to stretch.

2. From the pull-down menu, place the cursor over the boundary object name (e.g., Boundary1.1.object) and select the Definition option.

The points, lines and section outlines (if any) that define the boundary are displayed, along with the Definition window.

3. Grab the end point of the boundary and drag it to the new location.4. Select Apply on the Definition window to complete the change.

Using Item Reservations

The following procedures describe how to use item reservations.

Creating an Item ReservationMoving an Item ReservationResizing an Item Reservation

Rotate Item Reservation with Definition Dialog BoxCreate Item Reservation at Compass Base PlaneSave Item Reservation in Separate DocumentCreating an Item Reservation Over a Resource

Creating an Item Reservation on a Defined PlaneCopying an Item Reservation

Creating an Item Reservation

This task shows you how to create an item reservation.

1.

Select the Item Reservation button .

The Item Reservation dialog box is displayed.

2. Specify the type of reservation you want to create:

3. Specify the size of the item reservation by keying in these values: ● X Length

● Y Length

● Height

4 Specify the visual mode for the item reservation:

Display as Box

Display as Flat

5. Specify the location for the item reservation.

The Link to a Function button is used in some Electrical products to link a function to an item reservation. See relevant documentation for more information.

Moving an Item Reservation

This task shows you how to move an item reservation.

1. Make the item reservation's parent the active element.


2.Click the item reservation.The item reservation is highlighted.

3. Place your cursor at the desired location on the item reservation.

As you move the cursor over the item reservation, visual "cues" are displayed to show how you can move it.

● A plane is displayed when the cursor is over a line to show that you can move the item reservation along that line.

● A cross hair is displayed when the cursor is on a corner. From a corner, you can move the item reservation in any direction.

4.Drag the item reservation to a new location.

5.

Select the Update button to see the modification.

Resizing an Item Reservation

This task explains how to resize an item reservation.

1. Right-click the item reservation.

2. Select the item reservation object on the pull-down menu. ● If the item reservation is empty, this menu is displayed:

● If the item reservation contains a resource, this menu is displayed:

3. Do any of the following to change the size:

● To key in a new size, do the following:

a. Select Edit -> Definition..

The Item Reservation Definition dialog box is displayed.

b. Key in new values for the X Length, Y Length, and/or Height.c. Select OK on the Item Reservation Definition dialog box.

● To resize the item reservation using the cursor, do the following:

a. Select Edit -> Definition.

Manipulation handles are displayed on the item reservation.

b. Place the cursor over one of the handles and drag it to resize the item reservation.

c. Select OK on the Item Reservation Definition dialog box.

● To resize the item reservation so that it just encloses the resource it contains, select Edit -> Update Dimensions.

If the item reservation contains any connectors they will be relocated proportionately after the resizing.

Rotate Item Reservation Using the Definition Dialog Box

This task shows you how to rotate an item reservation by entering into the definition dialog box the number of degrees that you want it to rotate on its vertical axis..

1. Click on the item reservation.

2. Click Edit in the menu bar and then on the line that corresponds to the item reservation you want to rotate, e.g. "item reservation2.1 object." This displays the Definition dialog box. (You can also enter Cntrl-Enter to display the panel.)

3. Enter the degrees in the Rotation space.4. Click Apply and the item reservation will rotate on its vertical axis.

Create Item Reservation at Compass Base Plane

This task shows you how to create an item reservation at the compass base plane.

1. Drag the compass and place it at the level where you want to create the new item reservation.

2. Create the new item reservation. See Creating an item reservation for more information.

3. When you click the left mouse button to place the item reservation it will be placed at the compass base plane. In the illustration below the compass has been placed on top of an item reservation. The new item reservation is created at that level.

Save an Item Reservation in a Separate Document

This task shows you how to create an item reservation in a project and save it as a separate document.

This function is needed if you want to work on a component of a larger project. If you save the component as a separate document you can open it without having to open the entire project. At the same time it remains part of the larger project.

1. Make the parent area active.

2.

Click the Item Reservation button and enter all the information you need to.3. Check the option Create new document. This displays a field asking for a file name.

4. Enter a file name and create your item reservation.5. When you save the document you will be asked if you want to save other documents. Click OK.6. When you need to work on an item reservation that is saved in a separate document then use the

File-Open function and navigate to the directory where you saved the document.

If you delete one of the item reservations in a project, then you must also delete the corresponding document from the directory where you saved it. Use the Windows Explorer function for this.

Creating an Item Reservation Over a Resource

This task shows you how to place an item reservation over an existing resource.

1. Click on the Item Reservation button. The Item Reservation Creation dialog box shows.

2.

Click on the Surround resource button . 3. Click on the resource on which you want to place the item reservation. The item reservation will be

placed around the resource.

You do not need to enter values in the X length, Y length and Height fields, except when two of these three dimensions are 0 in the resource over which you want to place an item reservation. Examples would be a line or a point. In such cases the item reservation will assume the dimensions entered in the size fields .

Creating an Item Reservation on a Defined Plane

This task shows you how to place an item reservation on a defined plane.

When you create an item reservation it is normally placed on the base plane. This function allows you to place it at any plane or location in your document.

1.

Click the Item Reservation button . The Item Reservation Creation dialog box shows.2.

Click the On Surface button . 3. Move your mouse pointer and click at the location where you want to place the item reservation - a

white square shows as you move the pointer. Note: you cannot place an item reservation in free space or on an area using the On Surface option.

Copying an Item Reservation

This task shows you how to copy an item reservation.

1.

With the item reservation you want to copy displayed, click the Copy Item Reservation button . The Item Reservation Copy dialog box displays.

2. Click one of the buttons to define the distance between the item reservations from center-to-center or edge-to-edge, enter the distance between the items reservations in the Offset field and the number of additional copies you want in the Instances field.

3. Click on the item reservation you want to copy. The compass displays.

4. The item reservations will be placed in the direction indicated by the compass Z axis. Manipulate the compass so that the Z axis is pointing in the direction you want to place the item reservations.

5. Click OK. The item reservations will be placed.

Using ResourcesThis section tells you how to use resources in various ways.

Place Resource Exact Distance from AnotherPlacing Parts in a CATProduct Drawing

Detecting Clash in Parts PlacementPlacing Resources on Different PlanesCreating a Parent-Child Relationship

Using Quick Translate to Move ObjectsRotate Resource Using the Definition Dialog Box

Snap Resources TogetherSnap and Rotate a Resource

Quick Snap Resources

Place a Resource an Exact Distance from Another

This task shows you how to place one resource a precise distance from another.

1. Define a plane to use as a temporary reference point from which to measure distance. Click on the

Offset Plane button and then on the resource on which you want to place the temporary reference. This will place a blue square on the resource. See Using Offset Planes for more detail.

2.

Enter an appropriate figure in the steps input box ( ). When you are moving your resource, the distance from the second resource will be shown in multiples of the figure in the steps input box. You can use this feature to display the exact distance - for example, if you want to place your resource 11.3 feet from a second resource enter this figure in the steps input box.

3. Click on the resource to be moved. This displays an arrow. Place the mouse pointer on the base of the arrow and drag it. A white square displays. Place this white square on whichever surface you want to use as the point from which distance is measured.

The default measuring point is the middle of the resource that is being moved. In the example below the distance is measured from the forward surface of the robot to the blue square.

4. Place the mouse pointer on the arrow. This displays the distance from the blue square to a white square that is displayed. The distance is displayed in multiples of the figure you entered in the steps input box. You can now move the resource to place it a precise distance from the temporary reference plane. Click and drag the tip of the arrow to do this (do not drag the base of the arrow for this function).

Placing Parts in a CATProduct DrawingThis task shows you how to place a part from a catalog into a CATProduct drawing. See also Detecting Clash in Parts Placement.

1.

Click on the Browser button . The Catalog Browser displays.2.Navigate to the catalog from which you want to select a part.

If you want to define a new search path then click Tools-Options, select General and select the Document tab. Select Other folders in the window and click Configure. Navigate to the catalog you want to add, click Add. You can save your search order by clicking on Export, in which case they will be stored in a file in a directory you specify. To restore your search order at a later date navigate to the file and click Import. Click OK to end.

3. Double-click on the directories until you are in the page where the parts are. Click on a part to select it.

4.Click at one or more locations to place the part. NOTE: To place a part, you can also select an element in the

specifications tree, such as an area or item reservation. In this case the part will be placed at the origin of the element you selected.

Some parts have restrictions attached to them and you will not be able to place them in certain locations. For instance, you will not be able to place an elbow on a straight segment in a run.

You can choose to display or hide a "preview" of the part you are placing. To do this click on Tools - Options, select AEC Plant and the General tab. Check or uncheck the box Display image while placing catalog object in 3D viewer to obtain the effect you want.

By default, when you click (in free space) to place a part the center of that part will be placed at that location. The center is determined by the application by drawing a box around the part and selecting the center of the base of the box. You can also choose to place the origin of the part at the point where you click. To do this click on Tools - Options, select AEC Plant and the General tab. Check the box Place at component's origin when placing in free space.You can enter coordinates in the position input box

to place an object a certain distance from the axis. You can also enter these coordinates to place an object a certain distance from the compass. To do this

place the compass where you want it, select Snap to steps off last position , and enter the coordinates.To place a part inside an item reservation depress the shift key and click the mouse button. To place a part on a face of an item reservation simply click the mouse button.

Some parts have special characteristics. ● Stretchable parts, such as pipe and duct, when placed in a drawing, will stretch until each end is stopped by

a part face or end of segment. They will also be stopped by a bend or corner.

● Bendable parts, like tubing, act like stretchable parts, with the difference that they can go around bends and corners.

● Transitional parts, that bridge the gap between two dissimilar ends, such as a round and square run, or different sized pathways. After you place the part you must click to indicate how far it should stretch. You must add the keyword PlaceAndStretch to your catalog for this function to work. See also Creating a Catalog and Catalog Keywords and Values.

● Some parts, such as pipe supports and HVAC stiffeners, have "holes" in them through which stretchable and bendable parts can pass.

Detecting Clash in Parts Placement

This task shows how you can detect clashes between parts when you are moving parts in a document.

This function only works when you are placing/moving parts in free space. It will not work if the parts have been placed on a run, for instance. Three modes are available: Clash Detection Off; Clash Detection On, and Clash Detection Stop.

1.

To turn clash detection off click the Clash Detection (off) button . This is the default mode.

2.

To turn clash detection on click the Clash Detection (On) button . When you move a part in such a way that it interferes with another part, a red outline will display, as in the images below. (If your part displays red highlights and you want to change the color you can do so by clicking Tools-Options-Display and selecting another color.)

3.

To change to the stop mode click the Clash Detection (Stop) button . When this mode is on you will not be able to move a part to a position in which it interferes with another part. In the first image below the pump has been stopped because it interferes with the heat exchanger. However, when the user moves his pointer to the other side, and there is enough room for the pump, the pump will appear on the other side of the exchanger.

Placing Resources on Different Planes

This task shows you how to place catalog resources on different planes in an area.

You can select a plane on which to place a resource by clicking on it. This procedure shows you how to use the compass base to define a plane, such as a structure in your area, on which to place a resource.

1. Drag the compass to the plane on which you want to place a resource, such as a table top. The resource will align itself to the Z-axis of the compass: if the Z-axis is pointing straight up the resource will do so too.

2. Drag a resource from the catalog to your selected location.

3. When you are done, reset the compass by dragging it to the axis.If you drag a resource onto the area, and the mouse pointer is over an item reservation, then the resource becomes a child of the item reservation.

Creating a Parent-Child Relationship

This task shows you how to create a parent-child relationship between two elements. This function can be used to create a relationship between resources, between a resource and an element like an area; or between products in a process. The example below uses electrical parts and robots. The procedure is the same for all types of objects and elements.1.

Click the Attach button .

2. Select the parent (or master) element.

3. Select the child (or slave) element. The attachment is created. If you move the child, the connection between the two will remain; however, unlike a master-slave relationship, the child element will not snap back to its original position. If you move the parent the child will follow.

4. To hide all the Parent/Child symbols and text (attachments) in a product, click the Hide Attachment button, then click the Product in the specifications tree. All attachments in the product will disappear.

To hide individual attachments, click the Hide Attachment button, then click the object. The attachment will be hidden.

If a local Attachment is selected, e.g., an attachment between two elements in a product, only that attachment is hidden or shown.

If a Product is selected you not only Hide/Show all attachments of the selected product but also all attachments to the children of the selected product.

If you open a product and don't know if there are existing attachments, click the Swap Visible Space

button to reveal any attachments that may have been hidden. 5. To show all previously hidden attachments, click the Show Attachment button, then click the Product

in the specifications tree. All attachments will be shown. To show a previously hidden "local" attachment, click the Show Attachment button, then click the object or select it in the specification tree. The attachment will be shown.

6. To delete an attachment select it and use the delete key.

Using Quick Translate to Move Objects

This task shows you how to use the Quick Translate command to move elements.

This function allows the user to transfer an element relative to a location on another element by any of the following alignment methods:

● Point-to-Point

● Point-to-Line

● Point-to-Plane

● Plane-to-Plane

● Plane-to-Point

● Line-to-Point

An object or element moved using this command does not rotate.1.

With your document open, click on the Quick Translate button . The Translate dialog box opens. Depending upon which From element you select the available To elements will either be greyed out or become active.

2. Select the type of transfer, Point-to-Point, Point-to-Plane, etc. Using the Point-to-Plane method as an example, select a point on the From element in your document and select a plane on the To element.

3. The transfer occurs when you click on the To element. Click the Update button, if necessary. In this case, the object or element has moved, aligning the selected point with the selected plane.

4. The function works similarly with the other From/To selection methods and may be applied as the design dictates.

Rotate Resource Using the Definition Dialog Box

This task shows you how to rotate a catalog resource by entering into the definition dialog box the number of degrees that you want it to rotate on its vertical axis..

1. Click on the resource.

2. Click Edit-Definition in the menu bar. This displays the Product Definition dialog box. (You can also press Cntrl-Enter to display the box.)

3. Enter the degrees in the Rotation field.4. Click Apply and the resource will rotate on its vertical axis.

Snap Resources Together

This task shows you how to snap two resources together.

Resources can be joined at existing connectors, you can create new connectors to join them, or you can snap them together without using connectors. All procedures are described below, beginning with the procedure for snapping resources in which you create connectors.

1. To snap resources together by creating new connectors, click the Snap button .

2. Click one of the resources you want to snap together. The resource changes color and the Define Reference Plane (From) dialog box displays.

By default the Define Plane button is selected, allowing you to select a plane for the connector you will create.

See Creating Connectors for information about using the Define Plane functions.

The two resources will have a Master-Slave relationship to each other - but only if you choose to add a constraint (see below). If you add a constraint the first object you select becomes the slave, and the second object becomes the master.

Also note that the first resource you select will move to snap - the second resource you select remains stationary.3. Select the second resource. The Define Reference Plane (To) box will display - make your selections

as explained above. You can also select an existing connector. Click OK when done. The two resources will snap together and the Constraint Options dialog box will display.

4. You can clear the Align, Face and Orientation check boxes and click OK if you want the two resources to remain snapped together without any new connectors being created.

To add one or more constraints - which will also result in creating connectors - follow the steps given below.

5. Make your selections in the Snap Options box.

Align: You can increase distance between the two resources, but if you change the alignment the

slave will snap back to the original alignment. In the image below the distance is increased but the alignment remains the same.

Face: The two resources will maintain the face if you move one of them. In the image below the two maintain the same face, though the alignment has changed.

Orientation: The two connectors will maintain the same orientation if you move them, i.e. the red arrows visible in the connectors will align. It is therefore important to make sure that the red arrows in the connectors are pointed correctly and oriented correctly with reference to the part. The red arrow is usually set to the "Up" position of the resource, which means that on both resources they should point in the Up direction. If the red arrow points "down" in one resource and "up" in the other, then the resources will snap together incorrectly. You can toggle the position of the red arrow by clicking on the green arrow that is parallel to the plane.

Fix in space: If you select this option the position of the master resource is fixed - if it is moved it will snap back to its original position.

Attach: Checking this option allows you to attach the two objects.

Place manipulator at snapped location: Check this if you want to rotate the snapped object after placing it. The manipulator is placed on the object if you check this. You can then click on the bottom curve of the manipulator (see image below) and rotate the object. It will rotate in increments, based on the value entered in the Snap Angle field. In the image above it is 45 degrees.


To remove a constraint select it in the specifications tree and delete it. To remove the 'Fix in space' option right click on the Fix line in the specifications tree, click Properties, go to the Constraints tab, and uncheck the Fix in space box.6. Click OK when done.

7. To snap resources together using preexisting connectors:

a. Click the Snap button.b. Move the pointer over the first resource - the connectors will display. Select the connector.c. Move the pointer over the second resource - the connectors will display. Select the connector

and the two resources will snap together.d. The Snap Options box will display. Make your selections and click OK.

Snap and Rotate a Resource This task shows you how to rotate a resource after snapping it to another resource.

1. With both resources on the screen, click on the Snap button and then on a resource. The orientation symbol will appear.

2. Click on the second resource. A white square will appear. Move the pointer over the resource and click when the white square is at the location where you want to snap the two resources. The orientation symbol will appear at the location and the Define Reference Plane dialog box will display.

3.Click on the Define plane using compass button . The compass will be placed at the location where you want to snap the two resources.

4. Click OK on the Define Reference Plane box. The two resources will snap together.

5.

Click on the Select button to exit the Snap command. Click on the resource you want to rotate, then grab one of the handles on the compass with your pointer and move it. Different handles will move/rotate the resource in different directions.

You can also double click on the compass to bring up the Compass Manipulation dialog box and enter the required figure in the Angle field. Click on the + or - sign next to the Z axis to rotate it.

Quick Snap ResourcesThis task shows you how to Quick Snap two resources together.

The Quick Snap procedure allows you to snap two resources together using one of three selection methods. You can select the snapping point on one of the resources using one of these methods. On the other resource the snapping point will either be its origin, or at a connector, as described in Step 2. The three selection methods are:

● Center of three points (on a circle): the snapping will be the center of three points indicated by you.

● Center of polygon: the snapping point will be the center of any surface indicated by you.

● Surface: the snapping point is at any point indicated by you.

The three methods are described below.

1.

To snap resources together using the center of three points on a circle method, click the Snap Three

Points button .

2. Click the resource that you want to move. Note: ● If you click the resource at a connector it will snap to the other resource at that connector. You

can create a connector if you want to.

● If you click the resource at a point other than a connector it will join to the other resource at its origin.

● If the resource was preselected when you clicked the snap command you will not be able to select a connector.

These points apply to all three methods of Quick Snap.

In the image below the user wants the paint gun to snap to the robot arm. After he clicks the paint gun the compass displays at the origin of the paint gun to show that the part will snap at that location.

You can choose not to display the compass at the snap location by unchecking the option Place compass at snapping point in the Snap Options dialog box. The box displays when you click on any of the Quick Snap buttons. Placing the compass at the snapping location allows you to rotate the resource after it has snapped.

3. Define the point on the robot where you want the paint gun to snap, in this case the end of the robot arm, by clicking on three points. You can only select your defining points on the edges of a circle. Only points on the ends of edges are selectable. Note:

If you click the three points clockwise the paint gun will attach "inward" as shown in the image below:

If you click counter clockwise then the paint gun will attach "outward", which is the correct position in this example.

4.To Quick Snap using the center of polygon method, click the Snap Center of Polygon button and perform the action detailed in Step 2.

5. Select the snapping point on the second resource by clicking on a surface. The resource will be placed in the center of the polygon.

6.To Quick Snap using the surface method, click the Snap Surface button and perform the action detailed in Step 2.

7. Select the snapping point on the second resource by clicking on any surface. The resource will be placed at the point you click.

If you double click a command you will be in repeat mode. This allows you to snap a resource to a different location, using a different selection method if you want.

Creating a Path Reservation

The basic methods for creating path reservations are listed below.

Creating a Path ReservationRouting with Defined Nodes

Routing From the End of a RoutableBranching a Path Reservation

See also Advanced Tasks for Path Reservations.

Creating a Path Reservation

This task shows you how to create a path reservation on an area.

1. Make the appropriate area active.

See Making an Element Active.

2.

Select the Path Reservation button .

The Path Reservation dialog box displays.

3. Define the type of path reservation you want to create.

4. Define the routing mode for the path reservation:

Point-to-point

Orthogonal

Slope

Directional

Edgeline

Branch at Center: see Branching a Path Reservation

In addition, if you place the compass on an object the Use Compass Origin button will display. If you click the button and start to route the route will start from the compass origin. If you are in the middle of routing, the compass origin will serve as a routing point.

Click one of the Select Mode buttons - the default is No Filter. The Select Mode buttons allow you to define where you can start routing from.

No Filter: No filters are applied and you can route from any routable object or in space.

In Space: Routing will be in space. This is useful when you have a large object in the background, such as a ship structure, and you want to be able to route in space.

Only Part Connectors: Select this to be able to route from part or equipment connectors only.

Import Node Points: This allows you to route using predefined node points. See Routing with Defined Nodes for more information.

5. To define Section parameters, do the following:

a. Click the Section type button to define the section type of the run.

The Section dialog box is displayed.

b. Define the section type and the corresponding parameters for each of them:

No Section

Rectangular

● Set Point

● Envelope Height

● Envelope width

● Display

● Nominal size

Circular

● Set Point

● Envelope diameter

● Nominal size

● Display

Flat Oval.

● Set Point

● Envelope Height

● Envelope Width

● Nominal size

● Display

Radius Corner: Enter or select the:

● Set Point

● Envelope Height

● Envelope Width

● Radius Corner

● Nominal size

● Display

The Display buttons allow you to select a display mode of Line/Curve, Solid or Flat.

Click the Display Centerline button to show the centerline of the run. This will appear as a dashed yellow line. In addition, a blue line will appear to display the Set Point setting. This feature works in the Line/Curve, Solid and Flat display modes.

Instead of entering the type of path reservation, the set point and the height, width or diameter in the Section dialog box, you can select an existing path reservation in your document. Once you select the path reservation the Section dialog box will display the same values as the one you selected. To select, click on the Path Reservation button and then click the left mouse button once on the path reservation whose values you want as the default. Make sure the entire path reservation is selected, and not just one segment or node. It will be easier to select the path reservation in the specifications tree.

6. Select OK on the Section dialog box.7. Optional. Key in a value for the turn radius.

8. Click in the drawing to define the routing points.

9. Double-click the last point to stop routing.

10.Click on the Close Loop symbol that shows at the beginning of the routable if you want to create a closed loop routable. In a closed loop routable the ends of the routable are joined.

Routing with Defined Nodes

This task shows you how to route a run with predefined node points.

You can create a run by predefining the node points. This means you do not need to route the run by clicking the mouse pointer in the 3D window, as explained below. See Routing a Run for basic information.

1. Create a text file, using a text editor like Wordpad, with column headings as shown below, and define the node sequence, X/Y/Z coordinates and bend radius of the node points. A sample file is provided with this application to help you define the text file. The file name is RunInputNodeData.txt and the location is: ...intel_a\startup\EquipmentandSystems\MultiDiscipline\SampleData. The file is reproduced below to show you the column headings and layout. (It has been opened in Excel to make it easier to distinguish columns.

You can see that there are two sets of node numbers, ranging from 1 to 4. Whenever the application reads the node number 1 it will start a new run. So, based on the file above, two runs will be created.

2.

Open the Run dialog box and click the Import Node Points button . The File Selection dialog box displays. Navigate to the location of your file and select it. The runs will be created.


Routing From the End of a Routable

This task explains how to route from the end of a path reservation, boundary, or run.

If you route an element with the same type and parameter values as the "source" element (i.e., the element from which the path reservation is routed), you can specify whether the new element you route is a continuation of the source element or a separate element. If you want to use the "Continue" option, be sure that the parent for the source element is active before you begin.

1

Select the Path Reservation button .

The Routing dialog box is displayed. 2. Define the routing parameters.

See Creating a Path Reservation on an Area for instructions.

3. Select the element from which you want to route. ● For path reservations, boundaries, and runs that are displayed with no section, select the filled

circle displayed when the cursor is at the end point of the line.

● For path reservations, boundaries, and runs that are displayed with a section, base your selection on the "cues" that are displayed as you move the cursor over the element:

❍ An outlined circle is displayed when your cursor is over the end point of the section's centerline.

❍ A filled circle is displayed when the cursor is over the end point of the support line (defined by the set point of the section).

If you want to route the path reservation, boundary, or run as a continuation of the existing element, you must select the solid circle (i.e., the support line endpoint).

If the new element you route has the same type and parameter values as the element you selected, these options are added to the Routing Dialog box:

Continue Routing

Create New Route

4. Select the appropriate Continue option.

5. Click in the drawing to define the routing points.

Branching a Path Reservation

This task explains how to branch a path reservation from any of these elements: ● Another path reservation

● Boundary

● Contour

● Run

If the "source" element (i.e., the element from which the path reservation branches) is moved or resized, the path reservation is adjusted accordingly.1.

Select the Path Reservation button

The Path Reservation dialog box is displayed.2. Define the parameters for the path reservation.

See Creating a Path Reservation on an Area for instructions.

3. Select the element from which you want to route the path reservation and begin routing.● For a contour, select the edge.

● For path reservations, boundaries, and runs that are displayed with a section, base your selection on the "cues" that are displayed as you move the cursor over the element:

● A dashed line is displayed when your cursor is over the center of a section.

● A solid line is displayed when the cursor is over the support line (defined by the set point of the section).

4.

If you want to branch from the center of the segment, click the Branch at Center button in the Path Reservation dialog box. The branch will begin from the center of the segment, irrespective of the point in the segment that you route from.

If you want to create a path reservation that "branches" from the end of a path reservation, boundary, or run, see Routing From the End of a Path Reservation, Boundary, or Run.

Using RoutablesWays of modifying routables, or creating routables using special techniques, are given here.

Using the Definition Dialog BoxPositioning a Branch

Routing Using the Compass Base PlaneConnecting Routables

Disconnecting RoutablesCreate a Closed Loop Run

Open a Closed RunChanging a Section

Changing the Angle of a SegmentMoving Nodes

Display Information About RoutablesFit Segment for Parts Assembly

Position Segment Relative to a PlaneTransfer Run to Another Document

Using the Definition Dialog Box

This task gives you an overview of the definition dialog box. You can make modifications to a routable using the functions contained in this box. Specific task-oriented modifications are explained elsewhere in this section.You should be familiar with the concepts explained in Routing a Run to be able to take full advantage of these functions. Note that some applications, like Systems Routing, do not utilize design rules and the no-rule conditions apply to them.

1. Right click on a routable and, in the drop down menus that display, select the routable (in this case Run-0049 object) and then Definition.

2. This brings up the Definition dialog box.

3. The Name field allows you to change the routable's instance name.4. The Section button lets you change section parameters, as explained in Routing a Run.

5. Click one of the Turn Type buttons if you want to change the turn type. ● No Turn: The turn radius for all turns is changed to 0. The Turn Radius field is not displayed.

● Uniform Turn: All turns in the run have the same turn radius.

● Mixed Turn: Turns in the run can have different turn radius.

6.

The Press to Use Rule button indicates if you are using the design rules. In the image above it is on, which is why the Turn Radius and Minimum Length fields are grayed out. You can click the button to go to a no-rule state, in which case the Turn Radius and Minimum Length fields will no longer be grayed out. See Routing a Run for more information.




7.

The Display Error Report button is green when there is no error in the run. It turns red when you insert a value or make some other change to cause an error. Click the button to display a report. This error function checks to make sure that the turn radius and minimum length conform to the design rule.

8. The Turn Radius field displays the turn radius. To change it you need to display the Node Definition dialog box (see Moving Nodes) and enter a value. If you introduce an invalid turn radius, by entering a value in the Node Definition dialog box, then the Display Error Report button will turn red. (You can also introduce a turn radius error by shortening the length of one or both segments.) A red arc will also display on your run. The ends of the arc are the minimum point to which each segment should be routed for a valid turn. In the example below, the segment is not long enough to support the turn radius value entered by the user.

9. The Node Edit Table button displays a table containing node values - see Moving Nodes.

10. The Minimum Length field displays the minimum length of each segment. You cannot change the value in this field if you are using design rules.

11. The Total Length field displays the total length of the run. You cannot change the value in this field.

Positioning a Branch

This task shows you how to position a branch routable precisely. . . . .

This function allows you to use the Offset Plane feature to position the Branch at a precise point along the support or center line of the Main. In the illustration below the branch path reservation will be placed in the center. A branch is also referred to as the Slave Connector, and the routable of which it is a branch termed a Master Connector.The two routables must be connected for the function to work.

1. Select the Main routable and click the Offset Plane button. The Main will display nodes at the beginnings and ends of segments and a square (section detail) in the center of segments.

2. Move the mouse pointer to the Main Routable - a white square shows. Snap the white offset plane square to any of the nodes or section detail squares and click the left mouse button. A blue square will appear. See Using Offset Planes for more information.

3. Click the right mouse button on the Branch. In the menu that displays, select the line that corresponds to the Branch element, in this case path reservation2 object, then click Definition in the pop-up menu. This displays the Definition dialog box.

4. Click and drag the support line toward the blue square. A label will display the distance. Release the button when it reads 0 ft and click OK on the Definition dialog box. The Branch path reservation will assume the new position.

To place a routable at a precise distance from an end or a node, snap the offset plane to that node or

end. Then enter the distance in the step input box. Follow the steps above to move the Branch and click OK on the Definition dialog box when the required distance is reached.

Routing Using the Compass Base Plane

This task shows you how to use the compass to define the plane on which you are routing.

This feature allows you to place the compass base on a plane and route on that plane.

1. Drag the compass and place it on the surface on which you want to route. In the illustration below it is one face of an item reservation and you will place a path reservation on it.

2.

Click the Path Reservation button and do your routing on the surface. Double-click to end. The path reservation is created.

You can route on any plane on which the compass base can be placed. But you will not be able to route on any surface. You cannot route on the surface of other routables. If you need to route on the surface of a routable then you need to employ free space routing. After you place the compass base on the plane, you can route anywhere in your window and you will be routing on the same plane as the compass base. The illustrations below show one type of free space routing, in which you:

● Create a boundary and place the compass on a plane.

● Hide the boundary.

● Route a path reservation.

● Show the boundary again with the path reservation on the compass base plane.

The last illustration below is a top view showing the path reservation and compass base on the same plane.

Connecting Routables

This task shows you how to connect a routable, such as run or path reservation. A run is used as an example here.

You can use this function to connect two runs, connect a run to a part or connect to a hole connector.

1. Click the Connect Run button and then select one of the elements you want to connect. The element you select first will be the slave element and will be the one that moves to join the master element. You must click on one of the green connection indicators on the slave run, as shown in the illustration below.

2. Select the master element. The first run will move to connect to the master run and the connection symbol will display.

The slave run will connect to the master at the green connection indicator that you select. You can select any point on the master run for the slave to connect to. If you select a point in the middle of the master run then you may have to move the two near to each other to create the connection. The images below show connections in the middle and at the end.

You can also connect a run to a part using the method described above. If the part does not have a connector then you must create one.3. You do not need to select the green connector indicator to connect a run to a hole connector. You

can click on a segment of the run instead. In the image below the user first selected the run segment and then the hole connector on the clamp to place the run through it.

Disconnecting Routables

This task shows you how to disconnect a routable that is connected to another routable or to a connector. A run is used as an example here.

1. Click the Disconnect button and then click the connection symbol between the two elements you want to disconnect.

2. The elements will be disconnected and the connection symbol will disappear.

Create a Closed Loop RunThis task shows you how to modify an existing run in order to create a closed loop run. In a closed loop run the ends of the run are joined. There are two ways of turning an existing run into a closed loop run. Both are explained below. 1.

Click on the Route a Run button and continue routing from the end of the run. 2.

Click the Continue Routing button in the Run dialog box.3. Click on the other end of the run when finished. The ends of the run will join . 4. In the second method, right-click on the run and, in the drop down box that appears, click on the line that describes

the run, in this case Run.1 Object. 5. Another drop down menu will display. Click on Close Route.

6. The two ends of the run will join. An open end run and closed loop run are shown below.

Open a Closed Run

This task shows you how to open a closed run.

You can only open a closed run at a node.

1. Bring up the Definition dialog box for the run.

2. Click the right mouse button on the node where you want the run to be opened. This will display a drop down box.

3. Click on Open. The run will open at the node.

Changing a Section

This task explains how to change parameters that control how the section of an element is displayed.

1. Place your cursor over the element and click the right mouse button.

2.From the pull-down menu, select the element or object you want to modify and select Definition. The Run Definition dialog box is displayed.

3. Click the Section button to set the desired section shape to No section, Rectangle, Round, Flat Oval, Radius Corner or Double Ridge.

When defining the Section parameters the section Types that are available depend on which workbench you are in. For example, Piping Design, Tubing Design and Conduit Design use only the round section while Systems Routing offers all section types.

4.If you select Rectangular Section, you can define or change these parameters:

● Set Point

● Height

● Width

● Display

If you select Round Section, you can define or change these parameters:

● Set Point

● Diameter

● Display

If you select Flat Oval Section, you can define or change these parameters:

● Set Point

● Height

● Width

● Display

If you select Radius Corner Section, you can define or change these parameters:

● Set Point

● Height

● Width

● Display

● Radius Corner

If you select Double Ridge Section, you can define or change these parameters:

● Set Point

● Height

● Width

● Display

5. Click OK on the Section dialog box and OK on the Definition box to complete the change..

Changing the Angle of a Segment

This task shows you how to change the angle of a pathway, boundary, or run segment.

1. Place your cursor over the element and click the right mouse button.

2. From the pull-down menu, select the element, or object, you want to modify and select Definition. The Run Definition dialog box is displayed.

3. Place the cursor over the support line for that element and click the right mouse button.

4. Select Definition from the pop-menu. The Segment Definition dialog box is displayed.

5. Specify a new value for the Turn Angle. A line is displayed in the drawing to show the new position for the segment.

6. Select OK on the Segment Definition dialog box.

7. Select OK on the Run Definition dialog box to complete the change.

8. To align a section's normal with the compass Z axis: ● Bring up the Definition box for the section.

● Place the compass on a 3-D element and adjust the Z axis to the angle you want.

● Right click on the segment. A pop-up menu will show.

● Click on Rotate section to compass Z direction. The normal of the section will rotate to align with the Z axis, as shown in the image below.

Moving or Deleting a NodeThis task shows you how to move the nodes on a path reservation, boundary, or run. In the example below a node will be moved in a pipe run.

1. Place your mouse pointer over the element and click the right mouse button.

2. From the menu that displays, select the element you want to modify, in this case pipe run.1 object, and select the Definition option. This will bring up the Definition dialog box. Symbols are displayed on the pipe run to show the location of nodes: asterisks represent non-connected nodes, and Os (circles) represent connected nodes.

3. To move a node by entering coordinates, do one of the following: ● Right-click the node symbol and select Definition from the pop-up menu.

The Node Definition dialog box displays.

● Key in new values for X, Y, or Z.

● Click OK in the Node Definition dialog box.

ORBring up the (run) Definition dialog box and click the Node Edit Table button to display the Node Edit Table and make changes to values in the table.

4.To move the node using the cursor, place the cursor over the node symbol and drag it to a new

location. See below.

A line is displayed to show the new location for the segment.

5. Click OK in the Definition dialog box to complete the change.

A node will move parallel to the compass base plane, which is normally XY. To move a node vertical to the base, change the compass base to the XZ plane.

6. To move a node parallel to the compass Z axis. ● Bring up the Definition box for the routable.

● Place the compass on a 3-D object where it can be manipulated. Change the Z axis to the desired direction.

● Click on the square around the node and move it with the mouse button depressed. It will only move parallel to the compass Z axis. If you click on the node itself you will be able to move it in any direction.

7. To move a node of a routable to the origin of the compass. This allows you to move the compass to a specific point on a routable or resource, and then move the node to it. To do this:

● Bring up the Definition box for the routable which has the node you want to move.

● Move the compass to the point where you want the node to move.

● Bring up the Definition box for the node that will be moved.

● Click the Compass Origin button . The node will move to the compass base, as shown in the image.

8. To delete a node right-click on the node and select Delete Node from the pop-up menu that displays.

Display Information About Routables

This task shows you how to display information about routables. This feature works only when you are performing an action with a routable, such as placing a part, branching a run or creating an offset route. To display more detailed information see Generating Detail Information.

1.

Go to Tools - Options, select Equipment & Systems and select the Display tab. Click to activate

Analysis Mode. 2. Place the pointer over the run. If a segment is highlighted you will see the length displayed. If a

node is highlighted, the angle between two adjacent segments, the coordinates of the node, and the bend radius (if there is one) will be displayed.

3. Click the button again if you do not want to see the information.

Fit Segment for Parts Assembly

This task shows you how to adjust a segment for parts assembly purposes. It can be used to move one part next to another, or to place two bends next to each other to create a U. In this example the segment half to the right will be shortened so that the elbow is placed against the tee.1. Bring up the Definition dialog box for the routable.

2. Right-click on the segment half that you want to shorten. A drop down menu will display.

3. Click Adjust to fit. The elbow will move flush against the tee.

The same command can be used to create a U. If you have a segment with bends at the two ends and you use the command described above, the segment will shorten so that the two bends are adjacent. It will not work if there are no bends.

If you have two connected parts, like a valve and a flange, and you want to move both after they have been placed, select both first. Then, when you move any one part both will move together.

Position a Segment Relative to Plane or Another Segment

This task shows you how to position a routable segment so that it is a defined distance away from a reference plane or from another segment. This function can be used to make a segment clear an existing structure or in situations where it is necessary to position a segment a specified distance from another object or segment. See also Edgeline Routing.

1. In the example below, the routable is colliding with the beam. The task is to move the segment up so that it passes just over the beam.

2.

Place the offset plane on top of the beam and bring up the Definition dialog box for the routable.

3. Right-click on the segment you want to move. A drop down menu will display. Select Offset segment.

4. Select Offset segment. The Offset segment dialog box will appear.

5. Select Make segment parallel to reference plane and then select one of the buttons, Outside edge to reference plane or Center line to reference plane. See Step 9 to offset to another segment.

6. Enter a distance in the Offset field. If you enter 0 the routable will be placed on top of the beam if you have selected Outside edge to reference plane. If you select Center line to reference plane then entering 0 in the Offset field will place the center line of the routable on top of the beam.

7.

Click the Offset to far side or Offset to near side button. These buttons will place the routable on either side of the reference plane.

8. Click Preview if you want to preview, then click OK and then OK again in the Definition dialog box. The run segment will be placed on top of the beam.

9. To position a segment a certain distance from another segment, select the Offset to another segment option and click the segment to which you want to offset. Click one of the three buttons: Outside edge to outside edge, Center line to center line or Center line to outside edge.

Transfer Run to Another Document

This task shows you how to transfer a run to another document. You can use this function to transfer a run to documents or work packages that are under the same Product. See also Transfer Elements to New Document.

This command will only work if you do not have any parts placed on the run.

1. The image below shows a run in the document "Product4.1". You want to move it to the document Product3.1.

2.

Click the Transfer Run button . The Transfer Run dialog displays and you are prompted to select the run you want to transfer.

3. Select the run, at which time the Apply and OK buttons in the Transfer Run dialog box become available.

4. Click on the down arrow in the File name field to see documents that are directly under the top level product. Select the document you want to transfer the run to in this list or in the specifications tree. NOTE: If you have a third level document you will need to select it in the specifications tree.



5. Click Apply or OK. The run is transferred to the document you selected.

Managing SystemsWays of creating and modifying distribution systems or networks are given here.

Creating a System AssemblyCreating a Network

Saving in Separate DocumentCreating a Logical Set

Creating a System Assembly

This task describes how to create a system assembly.

A system assembly is a mechanism for organizing and grouping networks. You can create networks (such as a Walkway Net) under a system assembly, and then create pathways under each of them. A system assembly and network will only display in the specifications tree because they are organizational elements. A pathway will also display in your viewer. In the illustration below, the specifications tree shows a piping system assembly under an area, a network (Material Flow Net) under the piping system assembly, and a pathway (Path Reservation) under the network. The pathway is also physically shown in the area.

A logical set is a third organizational mechanism. If you want you can have system assembly-network-logical set and then a pathway.

1.

Click on the System Assembly button.

The System Assembly dialog box is displayed.

If you want to create the system in a new document see Saving a System Assembly or Network as a Separate Document.

2. Click on the down arrow and make a selection in the pull-down menu to designate your system assembly as being of a certain type, i.e. piping, power, HVAC, etc.

3.Click OK.

Creating a Network

This task shows you how to create a network..

A network is a mechanism for organizing and grouping pathways. You can create networks (such as a Walkway Net) under a distribution system, and then create pathways under each of them.

1.

Click on the Reservations Network button. The Reservations Network Creation dialog box is displayed.

2. Click on the down arrow and make a selection in the pull-down menu if you want to designate your network as being of a certain type, i.e. walkway.

3. Click OK.

Saving a System Assembly or Network as a Separate Document

This task shows you how to create a system assembly or network as a separate document..

This function is needed if you want to work separately on a component of a larger project. If you save the system assembly or network as a separate document you can open it without having to open the entire project. At the same time it remains part of the larger project.

1. When creating a new System Assembly or Reservations Network check the Create new document option.

2. Enter a file name in the box that displays and click OK. The new document appears in the specifications tree as a child of whichever element you created it under.

The icon that shows in the specifications tree next to a system or network created as a separate document is different from that which is not created in a separate document. In the illustration below WasteWater is created as a separate document, Piping System Assembly is not.

3. When you save the project a dialog box will ask if you want to proceed with other document save operations. Click OK.

Creating a Logical Set

This task shows you how to create a logical set.

A logical set is a mechanism for organizing and grouping. You can create logical sets under a network (such as a Walkway Net) and then create pathways under them. See Creating a Distribution System for more information.

1.

Click on the Logical Set button. The Logical Set Creation dialog box is displayed.

2. Click on the down arrow and make a selection in the pull-down menu if you want to designate your network as being of a certain type, i.e. work set.

3. Click OK.

Layout Tools

The following procedures describe the tools available in the Plant Layout product for advanced layout functions.

Using Offset Planes and Advanced Offset PlanesUsing Construction PlanesMoving Multiple Elements

Changing the Properties of Multiple ElementsDistributing ElementsMirroring Elements

Rearranging the Specifications Tree

Using Offset Planes and Advanced Offset Planes

This task shows you how to define a plane to use as a temporary reference for positioning other elements. The second part of the document explains the use of an advanced offset plane, which allows you to define origin, orientation and other parameters.1.

Select the Offset Plane icon .2. Define the reference plane by doing the following:


As you move the cursor, a small white rectangle is displayed to show the selectable planes, as shown below.



The white rectangle changes to a blue rectangle, and remains displayed on the reference element, as shown below.

The reference plane can now be used as a reference to position other elements.

3. Use the advanced offset plane feature to set your plane reference, origin and orientation settings as follows:

a. Click the Advanced Offset Plane button. The Define Plane dialog box will display.

b. The Define Plane button is selected by default. However, you can select any button in the Define Plane box. Click when you have found a location. The plane manipulator displays.

Click on the buttons in the Define Plane dialog box to make your selections. See Creating Connectors on using the buttons.

c. Click OK when done. The reference plane will be created.

Using Construction Planes

This task shows you how to create planes to use as references as you construct and position the elements in a drawing.

Construction planes are created relative to the axis of the active element, so make sure that the appropriate element (usually an area) is active.

1.

Select the Construction Planes button .The Grid Creation dialog box is displayed.

2. Specify the parameter values for the grid:

● Grid Type -- The axis/axes along which the construction planes are created.

● X

● Y

● Elevation (Z)

● XY

● Step Size -- The distance between construction planes.

Construction planes are created outward from the element's axis. If you are creating construction planes in an area along the X or Y axis, as soon as you enter a step size, the system calculates the number of construction planes that will fit in each direction and displays the values in the following fields:

● Number (+)

● Number (-)

If you select an XY Grid Type, the number of steps is calculated, and the Number(+) and Number (-) fields are not displayed. If you are creating construction planes in free space or along the Elevation (Z) axis, the number of steps cannot be calculated. A default value is used for the number of steps. When the Grid Type is set to Elevation (Z), the number of steps is displayed as:

● Upper

● Lower

You can change the number of steps.

3. Select OK to create the construction planes.

To use construction planes for routing or positioning elements, set the Snap Mode to one of the construction plane options on the General Environment Tool Bar.

Moving Multiple Elements

This task shows you how to move several elements at the same time. . . . .

You can move catalog resources as well as the following elements: item reservation, area, space reservation, run reservation, path reservation and boundary reservation.

1. Select the resources or elements you want to move. You can do this by placing the mouse pointer on each one and clicking the left button while holding down the Ctrl key. Another way is to hold down the left mouse button and drag the mouse pointer. Place the rectangle that shows around the elements you want to select. There are other selection methods also.

2. Drag any of the elements or resources and all selected elements and resources will move. You can drag an element or resource by placing the mouse pointer on the dot that shows in the center of selected elements or resources, holding down the left mouse button and moving the pointer to where you want to place the selected elements.

Changing the Properties of Multiple Elements

This task shows you how to change the properties of several elements at the same time. . . . .

The elements whose properties can be changed are: item reservation, space reservation, area, run reservation, path reservation and boundary reservation.

1. Select the elements whose properties you want to change. You can do this by placing the mouse pointer on each one and clicking the left button while holding down the Ctrl key. Another way is to hold down the left mouse button and drag the mouse pointer. Place the rectangle that shows around the elements you want to select. There are other selection methods also. See Infrastructure.

2. Click Edit-Properties to bring up the Properties dialog box.

3. Make your changes and click OK or Apply.You can also make changes to one of the elements instead of all. Click on the down arrow next to the Current Selection box. This will display a drop down list of all the elements you selected. Select the one you want to make changes to. You may need this if, for instance, you have two areas but want to change the properties of one area only.

Distributing Elements

This task shows you how to distribute elements within parameters that you define.

1. Select the elements you want to move.

2.

Click the Distribute button .3. Define a reference plane for the distribution by doing the following:


As you move the cursor, a small white rectangle is displayed to show the selectable planes, as shown below. A line perpendicular to the rectangle shows the direction in which the distribution will be performed.



The selected elements are distributed along a line perpendicular to the plane, as shown below.

Mirroring Elements

This task shows you how to move one or more elements to the opposite side of a selected plane, as a mirror image. It also shows how to copy one or more elements to the opposite side.

1.Select the element(s) you want to move. (You can also select after Step 2.)

2.

Click the Mirror icon .3. The Reference panel will display if you already have a reference plane defined (by having used the offset plane

command).

Click the New Reference Plane button and follow Step 4 to define a new reference plane. Follow Step 4b if you want to use the existing reference plane.

The Reference panel will not display if you do not have a reference plane already defined.

4. Define a reference plane across which to mirror the element by doing the following:


As you move the cursor, a small white rectangle is displayed to show the selectable planes, as shown below.



The selected elements are mirrored to the other side of the plane, as shown below.

5.

To Mirror and Copy the elements, follow the steps outlined above and then click the Mirror and Copy icon . The selected elements will be copied to the other side of the plane. In the illustration above, the selected elements will stay where they are and two similar elements will be added to the other side of the plane.

Rearranging the Specifications Tree

This task shows you how to transfer elements in your layout from one level of the specifications tree to another.

1.Make the appropriate element active.

You must make active an element that is at least one level higher than both the source element (i.e., the one that is being transferred) and the target element.

For example, in order to transfer ArrBox5, ArrBox6, ArrBox7, ArrBox 8, and ArrBox9 to ArrArea3, shown below, ArrArea1 or Product1 must be active.

2. Select the elements you want to transfer.

3.Select the Transfer Elements in Tree button .

4. Select the element to which you want the elements transferred.

The target element must also be a child of the active element.

The elements you select in Step 2 become children of (i.e., subordinate to) the element you select in Step 4.

Tasks for Path Reservations

The following procedures describe how to perform advanced path reservation routing.

Routing Path Reservations With a Slope

Routing Path Reservations in Any DirectionRouting from an Item Reservation

Fixing Broken RoutablesEdgeline: Routing Parallel to a Run

Routing Path Reservations With a Slope

This task shows you how to route a path reservation with a slope.

1.

Click the Path Reservation button .

The Routing dialog box is displayed.2.

Click the Slope button .3.

Key in a value for the slope and press the Enter key.

4. Click in the drawing to define routing points, changing the slope as needed.


Routing Path Reservations in Any Direction

This task shows you how to route a path reservation in any direction.

1.

Click the Path Reservation button .

The Routing dialog box is displayed, and crosshairs track the movement of your cursor in the drawing.

2.

Click the Directional button .

The compass is displayed in the drawing.3.

Define the first point to begin routing.

If the first point is a free point, the default direction for routing is along the X axis. If the first point is the end point of a line, the default direction is along that line.

4. Do either of the following to change the direction for routing: ● Press the Shift key repeatedly until the desired axis is highlighted.

● Select and drag an axis to rotate it. The angle at which the axis is turning is displayed.

5. Click in the drawing to define additional routing points, changing the direction for routing as needed.


Routing from an Item Reservation

This task shows you how to route from an item reservation.

1.

Click the Path Reservation button.2. Click on the face of the item reservation from which you want to route.3. Begin routing.

The point on the item reservation face from which the run will start depends on the set point of the run. In the illustration above the set point is set at Center Center. If the set point was set at Bottom Center the run would have started at the bottom center edge of the item reservation. To change the set point,

click on the Section Type button in the Run dialog box and select a set point from the drop down list in the Section dialog box.

Fixing Broken Routables

This task shows you how to fix - or rejoin - routables in which segments have become separated. In the illustration below the dotted line - the broken routable indicator - shows that a run has become separated at that point.

You can re-join the run in one of several ways, depending on the nature of the break and your requirements. The methods are as follows:1. Bring up the Definition dialog box for the run, then place the mouse pointer over the broken routable indicator and click the right mouse button. This will

display a pop-up menu. Click Create Segment.

2. Bring up the Definition dialog box, then drag one of the segment handles to re-join the run.

3. Bring up the Definition dialog box. An arrow will display at each end of the broken routable indicator. Drag one of the arrows (depending on circumstances) to re-join the run. In the illustration below, one segment of the run has been moved to connect to the portion of the run still connected to the pump.

4. In certain cases you will see the Auto Route option beneath the Create Segment option in the pop-up menu (See Step 1). This happens when a segment connecting two parallel routables (which are on different X-Y planes) is broken.

● Select Auto Route. The Auto Route dialog box will display.

● Click on the Toggle button. Options for re-joining the run will be shown as a dotted line.

● Click OK to make your selection.

Edgeline: Routing Parallel to a Run

This task shows you how to route parallel to, or at an offset of, a routable. See also Routing at an Offset of a Routable and Position Segment Relative to Plane.

This function is used when you have an existing run and want to route parallel to it, or at a certain clearance from it. It is sometimes known as edgeline routing. You can also place an offset plane on a surface and use it as a reference point.1.

Display the run you want to route parallel to and click the Run button . The Run dialog box displays.

2.

Click the Edgeline button . The Distance field will display and the Offset and Clearance

buttons will appear in the Run dialog box.

If you click the Offset button the distance between the two runs will be measured from centerline to centerline. If you click the Clearance button the distance between the two nearest edges will be measured. If there is a part on a piping or tubing line the distance will be measured from the part. If there is no part the distance will be measured from the line.3. Enter the distance between the two runs. If you enter 0 and click the clearance button, the two runs

will touch at the edges.4. Click at the starting point. The compass will display at that point.5. Move the compass so that the Z axis points in the direction that you want to route, which should be

in the direction of the run that you want to parallel. You can do this by moving it manually, or by clicking the second mouse button once and then toggling the shift key.

http://pc220dsa/MARCXR15/doc/online/ucfug_C2/ucfugat0103.htm

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6. Once the direction is selected, route toward the run you want to parallel. When the centerline of the target run is highlighted, press the Shift key to toggle between various "solutions," or various sides. In the images below there are only two solutions and you can route on two sides of the target run.

7. Select the target run after you have decided which side you are routing on.8. Begin routing and double click to end. The finished run is shown below.

You can place an offset plane on a surface and use it as a reference to route parallel to, or to keep a certain clearance from. After placing the offset plane use the procedure described above.

Tasks for Areas

The following procedures describe how to extract data about an area.Performing an Inclusion AnalysisGenerating a Footprint Report

Creating Area with Multiple Contours

Performing an Inclusion Analysis

This task shows you how to find out if elements that are logically contained in an area (in the specification tree) are also physically located within the contour of the area (in the drawing).

1.Right-click the area on the specification tree.

2. From the pull-down menu, select the area object and select the Verify Inclusion option.

The Inclusion dialog box is displayed.

3. Define the parameters for the analysis:

● Type ❍ Inclusion reports which elements are partially inside or touching the selected area.

❍ Inclusion No Contact reports which elements are completely outside of the selected area.

● Scope: ❍ 1 Level checks the inclusion status of elements one level down from the area in the

specification tree.

❍ All levels checks the inclusion status of all elements below the area in the specification tree.

4. Select OK.

The Results Window is displayed.

You can select entries in the report to highlight the corresponding element in the drawing.

Generating a Footprint Report

This task shows you how to generate a report showing the following information about an area: ● Name of the area

● Size of the area

● Names of the elements in the area

● Size of the elements in the area

● Total used and unused space expressed in units, squared

● Total used and unused space expressed as a percentage of the total area

To accomplish this procedure, you must have installed Microsoft Excel 97 or later version. You should also be familiar with the file navigation and file editing capabilities of your system.

1.Copy the following files from \intel_a\code\command to a drive or directory for which you have read and write permissions:

● PSLFootprint.CATScript

● PSLFootprintTemplate.xls

2. Edit the PSLFootprint.CATScript using a text editor such as WordPad as follows:

Define the path for strGReportTemplate to point to the directory to which you copied the files in Step 1.

3. Save and close the file.

4. Start the application.

5. Select the area for which you want to run the footprint report.

6. From the menu bar, select Tools -> Macro -> Macros.

7. From the Macro In field, select External File.

8. Click the Select button, and use the Windows dialog box to navigate to the appropriate file.

9. Select the file PSLFootprint.CATScript.

10. Select Run.

The report is generated in a Microsoft Excel file, Excel is launched, and the report file is displayed, shown in the example below.

Creating an Area with Multiple Contours

This task shows you how to create an area that has more than one contour. . . . .

There may be times when you need to work with areas that are physically not contiguous, but which you want to treat as a single area logically. An example may be two (or more) work areas in a factory separated by a walkway. If you create an area with more than one contour, all the different contours (or areas) you have created will be treated as one logical area, even though they are physically separated. This will, for instance, allow you to more easily analyze available space for placing work cells. In the example below you have one assembly line and you want to add a second contour to it.

1. Bring up the definition panel (or dialog box) for the assembly line. (A) Click Edit in the menu bar, (B) then on the line that corresponds to the area for which you want a second contour, e.g. "assembly line1.1 object" and (C) then on Definition. This displays the Definition Panel. (You can also press Ctrl+Enter to display the panel. Or click the right mouse button and then follow from Step B above.)

2. Enter your information and click Add. This brings up the Contour Add dialog box. Displayed functions

are similar to the Area Creation dialog box, with the difference that the Rectangular - Corners function does not allow use of the Shift key to change axis.

3. Enter information and make your selections, then click the left mouse button to create the second contour and click OK. The second contour is created.

Since all contours you create for one area are considered part of that area, only one object will display in the specifications tree, in this case Assembly Line1.

Creating and Modifying ConnectorsThis section explains ways of creating, modifying and deleting connectors.

Create ConnectorsUse the Compass to Manipulate Connectors

Modifying or Deleting ConnectorsCreating Duplicate ConnectorsUsing the Plane Manipulator

Place Connector on Hole in V4 Model

Create Connectors This task shows you how to create a connector. Connectors can only be created on objects that have existing geometry that satisfies the rules of connector creation. If existing geometry is not present, you will have to create the geometry.

1. If the resource is not active, make it active by double-clicking in the specifications tree.

2. Click the Build Connector button. This will bring up the Manage Connectors dialog box.You will not be able to add a connector on the instance of a part using the Add command in the Manage Connectors dialog box. You can only add connectors on the reference of a part (the part in the master catalog), using the Create Part command. However, you can add a connector to a unique part using the Manage Connectors dialog box.

The Manage Connectors dialog box will list all connectors on the selected part. To see a connector and its associated geometry on the part, select a connector from the list.

Adding a connector is explained below; Delete, Modify and Duplicate are explained elsewhere in this section. To Publish a connector means you are allowing people who do not have write access to your document to establish a connection. This is explained further in Using Work Packages. You can Publish or Unpublish connectors using the two buttons.


3. Click the Add button. The Add Connectors box displays.

Select the type of connector - piping, HVAC, etc.

In some applications the flow direction field will be available. The piping (or tubing) part connector has flow direction built in and you must select a flow direction also from the drop down menu. The mechanical part connector has no flow direction.

Another type of connector - the nozzle connector - will be available if you are placing a connector on a nozzle. A nozzle connector must be placed on the end of the nozzle that connects to equipment. A part connector is placed on the end that connects to the pipe or duct.

An electrical part connector should only be placed on a socket. The electrical part connector should be placed on the end of the socket that connects to equipment. A cableway part connector should be placed on the free end of the socket that does not connect to equipment.

When you are placing a connector on a Bendable, such as a bendable pipe, you must use the Define New Geometry option. You must not use existing geometry to place the connector.

You can name each connector by selecting in the Name field. This is useful for some functions, such as designing using a schematic.

The concept of Publishing or Unpublishing a connector is explained above. Check the checkbox as necessary.

Face, orientation and alignment are explained below.The orientation, alignment and face must be defined correctly before a connector can be created. To explain what these are, the face is the surface to which you attach a connector. As an example, if you want to attach a clock to your office wall, the wall is the face. You want the numeral "12" to be up, so you orient the clock accordingly. This is the orientation. The alignment is the direction in which the clock face is pointed - normally it would be perpendicular to the wall. When creating a connector, the alignment always has to be perpendicular to the face.

The face is generally defined using a face of the part, such as the end of a pipe. Alignment is usually defined using a line, such as the not-shown line along the centerline of a pipe. Orientation is defined using the xy plane, or another plane or face to define an "up" direction.

In the illustration below the Z axis indicates the alignment of the connector. It also indicates the direction in which routing will occur. The X and Y axis together define the orientation. They are useful when attaching two resources.

It is necessary to select geometry in the part to which you want to attach a connector so that these three characteristics are correctly defined. If the part does not have the necessary geometry then you must create it.4. If you want to create a connector using the part's existing geometry click the Use existing geometry

option.

Click the Select Face button to select a face. Selectable faces will highlight as you move your pointer over the part.

Click this button to select the alignment. You will only be able to indicate the alignment by selecting a line - from the construction geometry, or elsewhere in the part if there is one. You can only select a line that is perpendicular to the face plane.

Click this button to select the orientation. You will only be able to select a plane that is perpendicular to the face you selected. If you cannot find a plane to select, click the Swap Visible Space button (see below) to make the construction geometry visible, and select a plane.

Some connector types require you to place a datum point. The datum point is placed by clicking this button and then clicking a 3-D point on the part. The datum point is used as follows:

● Lofted reservation section: Datum is used to define where the spline will start and end when creating lofted reservations.

● Tubing & waveguide parts: Datum is used to define where the spline will start and end when creating flexible tubes.

● Hangers: See Hanger Design documentation.

You can display the part construction geometry, if there is any, to make it easier to select existing geometry. Do this by:

● Right click on the part entry in the specifications tree.

● Click Hide/Show. The part will disappear from the screen.

● Click the Swap Visible Space button . The part will reappear on your screen with the construction geometry visible. Clicking the button again will toggle you back.

5. The fields under Classify Connector will become available after you have successfully selected the geometry explained in Step 4. Click on the down arrows to make your selection.

Select a type.

For Flow direction, select In, Out, InOut or None.

Select the Face type. A Hole connection allows a routable to pass through it - it is useful for placing parts like clamps along a run without cutting a tube. A Face connection will stop a routable and not allow it to pass through.

Select an alignment.

Choose an orientation: Circular will allow the connector to attach to another connector at any orientation; round ducts and pipes, for instance, do not need a well-defined "up" direction because they can rotate. A Rectangular orientation is used for parts like rectangular ducts; they do not have a strict ''up" direction. Up allows the connector to attach to another connector or part in the up position: horizontal trays, for instance, require a well-defined "up" position. You can also use the "up" orientation for a hole connector. In the image below, the connector on the right has the up orientation, the connector on the left does not.

The number in the Number field is assigned by the application. This can be significant because when you are creating a new connector, you have the option of using the alignment and orientation used in the previous connector after you select the face. You can choose to do this, or select a new alignment and/or orientation.

6. Click OK. The new connector will be listed in the Manage Connectors box.

7. To define new geometry for placing a connector, select the option Define new geometry, then click

on the Select plane button . The Define Plane box will display.

8. Use the functions provided by the Define Plane box to reposition the connector, if necessary, as explained below. (The colors of the buttons may be slightly different in some applications.)

Click the Define Plane button to redefine the plane as well as the origin by clicking once on the face.

Click the Define Plane using Compass button to redefine the plane using the compass.

Click the Define 3-point Plane button to define the plane by clicking on any three points with your pointer. The connector will be placed on the first point you click.

Click the Define Line-Point Plane button to select the plane by clicking on a point and a line, like an edge. The connector will be placed on the first point you click.

Click the Define Line-Line button to select the plane by clicking on two lines. The plane will be defined by the first line selected. But if the two lines are parallel the plane will be defined as the plane in which both lines exist.

Click the Define plane at center of circle button to select the plane by clicking three points on the edge of a circle. This method is used for multi-CAD documents, usually for CGR circles. You can click at points where two lines meet or in the center of a face. The Z axis of the plane manipulator will be placed according to the right hand rule. If you click clockwise the Z axis will point into the object. If you click counter clockwise the Z axis will point out from the object.

Click the Define plane at product origin button and then the object to place the plane manipulator on the origin of the object. The plane manipulator axis will match that of the product.

Click the Define Orientation button to change the orientation. Click the button and then click a point or a line. If you click a point the X axis will point to it. If you click a line the X axis will become parallel to the line.

Use the Move Origin buttons to define the plane. Define Origin at Plane or Compass allows you to define the origin using the compass or plane command. You use the compass or plane as the base

plane along which the origin can be selected. Define Origin at Point or Center of Face lets you

select the origin by clicking on a point or face. Define Origin at Center of Circle allows to select the origin by clicking at three points - the origin will be placed in the center of an imaginary circle drawn using those three points. The plane and orientation will not change when using this command.

9. Click OK. The connector will be placed and the Add Connector dialog box will display again.<

10. Make your selections in the fields under Classify Connector as described in Step 5. Click OK.

Using the Compass to Manipulate Connectors

This task shows you how to use the compass to manipulate connectors placed on resolved parts.

You can use the compass to manipulate connectors placed on resolved parts only. Use this method when adding a new connector, or by using the Modify command. Both are explained below.

1. To manipulate while adding a connector, drag the compass and place it over the connector while the Define Plane box is displayed.

2. To manipulate using the Modify command, select the resource, click the Manage Connectors button and, in the Manage Connectors dialog box, select the connector in the connectors list. Click the Modify button.

3. The Modify Connectors box will display. You can now drag the compass and place it over the connector.

4. Click on one of the handles on the compass and manipulate the connector to the desired position. You can change alignment, orientation and origin using the compass.

5. Click OK on the Modify Connector or the Define Plane dialog box when done. Remove the compass from the

connector by dragging it to the axis.

Modifying or Deleting Connectors

This task shows you how to modify or delete connectors.

You will not be able to modify or delete a connector that has constraints or connections.

You will not be able to modify or delete a connector on the instance of a part using the Modify or Delete commands in the Manage Connectors dialog box. You can only modify or delete connectors on the reference of a part (the part in the master catalog). You need to use the Create Part command to modify a reference part. However, you can modify or delete a unique part using the Manage Connectors dialog box. 1. To delete a connector select the resource by double clicking in the specifications tree and click the

Build Connectors button. This will display the Manage Connectors dialog box.

2. Select the connector in the connectors list and click the Delete button. The connector will be deleted.3. To modify a connector click the Modify button in the Manage Connectors box. The Modify

Connectors dialog box displays.

4. Follow the procedures described in Step 4 and subsequent of Creating Connectors.

Creating Duplicate Connectors

This task shows you how to create one or more duplicate connectors.

You can only make duplicate connectors on a resolved part. Connectors can only be duplicated on the same part.

1.With your resolved part displayed, click the Build Connectors button. This will open the Manage Connectors dialog box.

2. Select the part. This will display all connectors on it and also display a list in the dialog box.

3. Select the connector you want to duplicate and click Duplicate in the Manage Connectors dialog box. The Duplicate Connectors dialog box displays.

4. Enter the spacing between the connectors and the number of connectors you want.

5. Drag the compass and place it on a surface with the Z axis pointing toward the direction in which you want the new connectors located. The two illustrations below show how you can change the location of the new connectors by changing the direction of the Z axis.

6. Click OK.

Using the Plane ManipulatorThis task shows you how to use the plane manipulator.

You can use the plane manipulator to change the orientation, alignment, plane and location of the plane you propose to create. The X and Y axis indicate the orientation and the Z axis indicates the alignment. For example, if you create a connector and route from it, routing will occur in the direction indicated by the Z axis.

1. To change the orientation of an axis, click on the dot at the end of it. It will flip 180 degrees.

2. To move the manipulator along any axis, click and drag on that axis. The manipulator will move and the distance will display.

3. Click on the origin (red square) and drag to move the manipulator to a new plane.4. To change the orientation you can also click and drag any of the arcs in the manipulator to rotate it.

It will rotate in increments, which is 15 degrees in the image below.

To change the degree of rotation click Tools-Options, select Equipments & Systems and select the General tab. Enter the degree of rotation in the Snap Angle field. For instance, if you enter 45, the manipulator will snap in increments of 45 degrees, counting its starting position as 0. It will snap to the nearest 45 degree step - if you move it to 88 degrees from its starting position it will snap to 90 degrees.

Place Connector on Hole in V4 Document

This task shows you how to place a connector on a hole in a V4 document that has been imported into V5.

1. Click on Start - Mechanical Design - Part Design. You need to have a license to use the Part Design product. If you do not have a license then use the compass method, outlined below, to place the connector.

2. Select the part geometry near the hole on which you want to place a connector.

3.

Click the Sketcher button . The sketching mode will appear.4.

Zoom into the hole and, using the three-point circle tool , draw a circle that conforms to the insides of the hole.

5.

Create a point at the center of the hole, using the point tool .

This is all the geometry you need in order to place a connector over the hole. You can now follow the steps outlined in Creating Connectors.

6. Using the compass

Position the compass on the center line of the hole (holes in V4 models have a center line).

7. Change to a view that gives the clearest view, in this case the top view.

8. Adjust the compass so that you have the correct plane and alignment. The compass provides the geometry needed by a connector to snap to.

9. Follow the steps given in Creating Connectors.

Creating and Using ResourcesThis section explains ways of creating and using parts and other resources.

Change the Reference File for a PartChange the Parameters of a Part

Changing the Reference File for a Part

This task shows you how to change the reference file for a part.

When you place a part in a document, each part has a reference file associated with it. This file contains data about that part. To save disk space, the application normally uses one reference file for all similar parts - an elbow that has been placed nine times in a document will have one reference file for it. It also means that you cannot change the dimensions of one or more of those elbows. This function allows you to create a unique reference file for one or more parts, allowing you to assign unique parameters to them. Using this function you can:

● Assign a unique reference file to a part.

● Assign a part the unique reference file (and parameters) of another part.

1.

With your document open, click the Change Part Reference button . The Change Reference dialog box will display.

2. If you have already selected a part a file name will display in the file name field; if not it will display when you select a part. If you want to change the file name make sure you have not already assigned it.

3. Click OK.

4. To assign an existing unique reference file to a part:

If one of the parts in your document already has a unique reference file you can assign it to other parts. Select the part or parts to which you want to assign a reference file; click the Select New Reference button in the Change Reference box; then select the part that has the unique reference file. You will see the file name change to the unique reference file name in the specifications tree.

Change the Parameters of a Part

This task shows you how to change the parameters of a part.

1.

Select the part, in this case an elbow at the end of a run, and click the Edit Part Parameters button . This will display the Parameter Explorer dialog box.

2. The box will display a list of parameters that can be edited for the part you selected. Select one of the parameters.

3. If it is possible to change this parameter by entering a value in the Parameter Value field then do so. If the Value field is

grayed out click the button to the right of it .4. A dialog box will display, displaying the values that can be selected. Select one of the values.

5. Click OK to exit the dialog boxes.

These are the only commands relevant to the change part parameter procedure. Other buttons and fields on the Parameter Explorer dialog box are meant for other functions and should not be used.

CustomizingThis section describes the ways in which you can customize the Plant Layout workbench.

Customizing Settings

Cache ModeCustomizing the Dictionary of Types

Customizing the Specifications Tree DisplayCreating a Catalog


Customizing Settings

This section describes the settings that you can access through the Tools - Options command in the menu bar. These settings are stored in permanent setting files and will not be lost when you end your session. Some of these settings affect the looks of the workbench. Others affect the way certain functions behave. Still others are necessary to have access to certain functions. When they are necessary for a function they are also identified in that specific task.1. Click Tools - Options in the menu bar. The Options dialog box displays.

2. Click Equipment & Systems under the Options heading in the left column. Tab pages become available in the main window. These apply to more than one application.

These tab pages allow you to customize the following:

● General settings

● Display settings

Not all options in these pages are relevant for all applications.

General

This tab provides settings for:

● General environment

● Resolved part storage path

● Resource attributes

● Catalog placement.

General environment

Grid Step

This is the default grid step setting that displays in the General Environment toolbar at the bottom of the 3D viewer. Even if you change the value in the toolbar during your session, the value entered in the Grid Step field will re-appear when you open a new session. Enter your preference for the Grid Step. Note: The Units (unit of measure) is set in the Units tab under Tools - Options - General - Parameters and Measure. See also Set Correct Working Units and Grid.

Snap Angle

It sets the degree of rotation of the plane manipulator.See Using the Plane Manipulator for more information.

Resolved part storage for spatial objects

Directory

This is the location where resolved Spatial objects unique to the Plant Layout, Systems Routing and Systems Space Reservations products are stored.Click the Open file button and navigate in the Resolved Part Storage Directory Browser window to set or change the location for the directory.

Resource attributes

Automatic creation of resource attributes

Certain attributes accompany Spatial objects (those created in Plant Layout, Systems Routing and Systems Space Reservations); objects such as item reservations, areas, runs, etc. These attributes, or properties, are generated specifically for the DELMIA product line and cannot be assigned or changed in other product lines.

Although you will not be making use of these resource properties, their creation will have no affect on the product you are working in. If you do not want these properties to be created, click to clear the check box Automatic creation of resource attributes and click OK.

Catalog placement

Display image while placing catalog object in 3D viewer

You can choose to hide or display a preview of the part you are placing. Check or uncheck the box Display image while placing catalog object in 3D viewer to obtain the effect you want.

Place at component's origin when placing in free space

By default, when you click (in free space) to place a part, the center of the part will be placed at that location. The application determines the center of the part by creating a box around it and selecting the center of the base of the box. You can also choose to place the origin of the part at the point where you click. To do this check the box Place at component's origin when placing in free space.

Display

This tab provides display options for:

● Analysis mode

● Specifications tree

● 3D Viewer display

● Routable display.

Analysis mode

Analysis mode

Select the box in Analysis Mode to display information about routables. It works only when you are performing an action with a routable, such as placing a part, branching a run or creating an offset route.

Specification tree

Application objects: Show application grouping

Selecting the checkbox Show application grouping displays object grouping mechanisms such as piping lines or zones in the specifications tree, along with all their members - pipes, valves, etc. These members will also display as separate entries in the specifications tree (they will display twice). If you do not select this checkbox then the parts will display in the specifications tree, but there will be no entry grouping them under their parent piping line, zone or other grouping mechanism.

Spatial objects

Click to select the check boxes of the items you want to appear in the specifications tree. Spatial objects may only be placed using the Systems Routing, Systems Space Reservation and Plant Layout workbenches.

Spatial Assembly

When the Spatial Assembly checkbox is not selected, objects (that are specified in this option) in a document will display in the specifications tree in the order in which they were placed. If you select the checkbox then they will display alphabetically. This applies to Plant Layout, Systems Routing and Systems Space Reservation.

3D Viewer display

Run connections

Click to select the check boxes to set the connection and connector display options as desired.

Part connectors

Set the color of the connection and connector symbols using the drop down color palette.

Routable display

Twist Smoothness Factor

Change this option to increase the smoothness of a run at a twisting turn.

Cache ModeThis section discusses ways in which you can design efficiently in cache mode, as well as tips about using it.

Working in Cache Mode

Working in Cache Mode

This task discusses steps you should take to design efficiently in cache mode.

Cache mode refers to designing without loading all the technological data of objects in your document. It is recommended because it allows quicker loading of documents and execution of commands. However, you may need to take certain steps to design efficiently in this mode, which are discussed here. This task also explains ways of executing certain commands while in cache mode.

1. When you are using the command Place Object from Catalog while you are in cache mode you will not be able to place a part on a connector because connectors are not loaded. To change that part to

design mode click the Analyze Item button and then click the part. That part will be converted to design mode and connectors will be visible.

2. It is recommended that you redefine the location of the CATCache directory. This directory is used to store certain design elements (cgr files) that are used when visualizing a document in cache mode. If the file name of an element is too long then the visualization will not be correct - this is a Windows limitation. Because the full path name is used in the file name, you should redefine the location so that the path name is short - as short as you can make it. To redefine the path name click Tools - Options - Infrastructure - Product Structure and select the Cache Management tab. Enter the new path in the Path to the Local Cache field.

3. Wireframe geometry, such as the sections on trapeze hangers, are not visible in cache mode, which also means they cannot be selected. If you want to be able to see them in cache mode then check the option Save Lineic Elements in CGR. You can find it in Tools - Options - Infrastructure - Product Structure and the CGR Management tab.

Customizing the Dictionary of Types

This section explains how to customize the list of types that are displayed when you create any of these elements:

● Areas

● Routing elements

● Item reservations

● Distribution systems

● Network reservations

● Grids

A basic dictionary of these element types is provided with the product. You can add entries to or delete entries from the basic dictionary, or you can replace it entirely. The example and procedure below provide details.

Customizing: ExampleCustomizing: Procedure

Searching User-Created Dictionary Entries

Customizing the Dictionary of Types: Example

The capability for customizing the Dictionary of Types is available only on the Windows platform.

To customize the dictionary of element types provided with the Plant Layout product, you need to run two scripts:

PSLNomenAccessFeat.CATScript reads the existing dictionary and writes it to a preformatted Microsoft* Excel file.

PSLNomenBuildFeat.CATScript takes a properly formatted Excel file and generates a new dictionary.

The example below illustrates how the type Work Cell is added to the list of types available when you create an area.

Customizing the Dictionary of Types: Procedure

This task explains how to customize the list of types that are displayed when you create any of these elements:

● Areas

● Routing elements

● Item reservations

● Distribution systems

● Network reservations

● Grids

The capability for customizing the Dictionary of Types is available only on the Windows platform.

To accomplish this procedure, you must have installed Microsoft Excel 97 or later version. You should be familiar with the basic editing features of Excel, as well as with the file navigation and file editing capabilities of your system.

1. Copy the following files from \intel_a\code\command to a drive or directory for which you have read and write permissions:

● PSLNomenAccessFeat.CATScript

● PSLNomenBuildFeat.CATScript

● PSLNomenAccessFeatTemplate.xls

2. Start the application.

3. From the menu bar, select Tools -> Macro -> Macros.

4. From the Macro In field, select External File.

5. Click on the Select button, and use the Windows dialog box to navigate to the appropriate file.

6. Select the file PSLNomenAccessFeat.CATScript and select OK.

7. Edit PSLNomenAccessFeat.CATScript as follows:

Define the path strEXCELTemplateFileName to point to the directory to which you copied the files in Step 1.


9. Select Run.

Microsoft Excel is launched, and a file is created.

10. Edit the Excel file to add or delete entries, as appropriate.

11. Save the Excel file with a unique name.

12. From the menu bar, select Tools -> Macro -> Macros again.

13. Select the Select button, and select the file PSLNomenBuildFeat.CATScript.

14. Edit PSLNomenBuildFeat.CATScript as follows: ● Define the input path strEXCELInputFileName to point to the Excel file you saved in Step 11.

● Define the output path strCATIAV5FeatOutputFileName to point to \intel_a\resources\graphic\CATArrNomenclature.feat.

If you do not have write permissions for this output path directory, you can define a temporary location. Contact your system administrator to move or copy the file to the correct location after it has been created.


16.

Select Run.

The output file is created in the directory you specified. If you defined a temporary location for the file, it must be moved or copied to \intel_a\resources\graphic\CATArrNomenclature.feat before the modifications can take effect.

The modifications will take effect when you restart the application..

Searching User-Created Dictionary Entries

This task shows you how to search documents for objects or elements that are user created. To learn more about the Search function see the Infrastructure user guide. To learn more about customizing see Customizing the Dictionary of Types: Example and Customizing: Procedure.

1. Click Tools - Macro - Macros. This will display the Macro dialog box. In the drop down menu select External File and click Select.

2. The Select External File dialog box will display. Navigate to the directory where the application is installed and open the directory Intel_a\code\command. Select the file CATArrExtractArrFeatAsCATNLS.CATScript and click Open. The Select External File dialog box will close and the Macro dialog box will display, with the file CATArrExtractArrFeatAsCATNLS.CATScript selected. Click Run.

3.Close the session.

4. Using Windows Explorer navigate to the directory C:\ temp and copy the file CATArrNomenclatureFeat.CATNls to the directory Intel_a\resources\msgcatalog.

5. Also copy the file CATArrNomenclatureFeat.CATNls to all language subdirectories (if any) of Intel_a\resources\msgcatalog.

Customizing the Specifications Tree Display

This task shows you how to turn on and turn off the display of certain objects in the specifications tree. . .

If you are working on a large project then turning off the display of some objects in the specifications tree may reduce visual "clutter" in the tree. Turning off an object in the tree does not remove it from your design or layout. In the first example below, the tree shows the object "Equipment Reservation.1." In the second example it has been removed from the tree but continues to show in the layout.

Changes made in the specifications tree remain effective until you change them again.

1. Click Tools-Options in the menu bar.

2. In the Options dialog box, select your workbench in the left column. This displays a list.

3. Uncheck the objects you do not want displayed in the specifications tree.4. Check the objects you want to display in the tree.5. Click OK.6. Refresh the specifications tree by expanding it again.

Creating a Catalog

The following tasks are required for creating a catalog that can be used to place parts in the Plant Layout product.

Creating PartsCreating a Catalog

Making a Catalog AccessibleCatalog Keywords

Creating Parts

This task explains how to create parts for the Plant Layout Product.

1. Create the geometry for the part.

Use the Version 5 Part Design product to create the geometry. See the Version 5 Part Design User's Guide for instructions about how to use this product.

● If you want to be able to place the part parametrically, go on to Step 2.

● For fixed-sized parts, save the part as a CATPart document and skip to Step 5.

● If you want to use the same set of geometry for different sizes of the same type of part, go on to Step 2.

2.Define parameters for the geometry.

When you define parameters, you must adhere to the following naming conventions to ensure that the part can be sized correctly when it is placed. The values for these reserved parameters are derived from the run on which the part is placed.

● CATRouOutsideDiameter -- outside diameter of the part if it is placed on a cylindrical run

● CATRouOutsideHeight -- overall height of the part if it is placed on a rectangular run

● CATRouOutsideWidth -- overall width of the part if it is placed on a rectangular run

● CATRouFaceToFaceLength -- overall length of a stretchable part such as pipe or duct

● CATRouAngle -- turn or branch angle of parts such as an elbow or tee

● CATRouTurnRadius -- bend radius of a part such as an elbow or horizontal turn

You may also add two other reserved parameters to your part as User attributes.

● CATRouPartNumber -- a string parameter. This parameter will contain the part's part number.

● CATRouSize -- a string parameter. This parameter will contain a character string representing the nominal size of the part. It can be used instead of CATRouOutsideDiameter/Height/Width.

All of these parameters do not need to exist on every part. Define only those parameters that apply to the part you are creating. For example, to create a straight cylindrical part, you would define

only the CATRouOutsideDiameter and CATRouFaceToFaceLength parameters. Optionally you can define CATRouSize instead ofCATRouOutsideDiameter.

In addition to the reserved parameters, you may define other parameters on the part. These parameters must also be included in the design table if these parameters have different values for different sizes when the part is placed..

3. Save the part as a CATPart document.4.

Create the design tables.

See the Version 5 Infrastructure User's Guide for detailed instructions on how to create a design table and associate it to a part for which you must use external table files.

Excel files are easy to edit, but using tab-delimited text files instead of Excel files makes parts placement more efficient. You can build and edit your tables in Excel, then convert the file to a tab-delimited text file, and attach the text file to your part document.

Design tables are used to manage the allowable combinations of values for the parameters of a part. You must create tables with the following reserved names in order for them to be recognized by the Systems Routing product. (Except external files - see below.)

● CATRouFixedSize

This table must contain those reserved run parameters described after Step 2 which you want as fixed size parameters. Your table may contain one or more rows of values - each row generally represents a specific fixed size part. The first row contains the parameter names. They may be reserved parameters or other parameters. Those that are reserved run parameters are used as a key to select the appropriate row in the table. When the part is placed, the values for these parameters are derived from the run. If an exact matching of values on the run and values in the table is not found then the row with the closest match is used.

This table must also contain parameters not associated with the run, if any, that are needed to complete the geometry definition. Generally, you may wish to include in your table CATRouPartNumber as the first parameter, CATRouSize as the second, then the other reserved run parameters, then the other part parameters.

● CATRouParametricSize

This table is used to define parameters that can be dynamically defined by the run. All parameters in this table must be defined on the run. When a part is placed, the values for these parameters are retrieved from the run and used to size the geometry.

If you use external files they can have any name. But when you create the design table in the part document it must have one of the reserved names.

5.Define connector data on the part by following the steps below.

Connector data is used to properly position, align, and orient parts when they are placed on a run. In addition, it is used to properly position, align, and orient a run that is started from a part.

a. Start a new CATProduct document.b. Right-click the Product in the specification tree and select Existing Component.

The Insert an Existing Component dialog box is displayed.

c. Find and select the CATPart document you saved.d. Select the part in the specifications tree.e. Add a connector using the Build Connector command.

h. Save the CATPart document.

All About Connector Data

There are three types of connector data: Face data, Alignment data and Orientation data.

Face data is generally defined using a face of the part, such as the circular face at the end of a pipe. Alignment data is generally defined using a line, such as a no-shown line along the centerline of a pipe. The actual connection point location is the intersection between the face plane and the alignment line. They do not have to actually intersect: the system will find the intersection location between the infinite line and the infinite plane. The face does not have to be the actual diameter face or width-height face. Orientation data is generally defined using the xy plane, or another plane or face in the part, to define an "up" direction.

Face Connector Data. To define the directional planar location for each connection face of the part. If the part is stretchable, two connection face definitions will be used to define the extremity locations of the part. For routing from the part, a connection face (along with the corresponding intersecting alignment line) will be used to define the start point of the run.

You should select one of the faces in the part to define a face connection. Select a face that faces outward from the part, in the direction of routing or other attached parts. You must define a face for each connection end of your part.

The pre-defined names for face connector data include the following. The names are defined by the connector function. Use the connector function to delete a connector.

CATRouFace: for the first or only connection face of a part.

CATRouFace1 (same as CATRouFace): for the first connection face of a part.

CATRouFace2: for the second connection face of a part.

CATRouFace3: for the third connection face of a part.

CATRouFace4, 5, 6, etc.

CATRouHole

CATRouHole1

CATRouHole2, 3, 4, etc.

Hole connections are a unique type of face connection. Whereas a pipe or tube may stretch to a face connection, a pipe or tube may pass through a hole connection. This is useful for placing such parts as tubing clamps along a run without cutting a tube.

Alignment Connector Data. To define the alignment at each of the face connections of this part. For placement of an attached part or routing from the end of a part, this data will define the alignment.

You will generally select a line for the alignment connector data, which may likely be no-shown. But you may also select a cylinder, and its implied centerline will become your alignment data.

Each part connection face does not necessarily need its own alignment line. A pipe and a valve might have one alignment definition, but an elbow would need two alignment definitions. A tee needs two alignment definitions, but could have three. A cross with four connection ends needs at least three alignment definitions. When the number of alignment definitions is less than the number of connection ends, it must be only one less, and alignment1 corresponds with face1 and face2, and alignment2 corresponds with face3.

The pre-defined names for alignment include the following:

CATRouAlignment: for the first or only alignment line of a part.

CATRouAlignment1 (same as CATRouAlignment): for the first alignment line.

CATRouAlignment2: for the second alignment line of a part.

CATRouAlignment3, 4, etc.

Other pre-defined names for alignment include the following:

CATRouTop: for top-center

CATRouCenter: for center (same as CATRouAlignment) (center is default alignment)

CATRouBottom: for bottom-center

CATRouLeft: for left-center

CATRouRight: for right-center

CATRouTopLeft

CATRouTopRight

CATRouBottomLeft

CATRouBottomRight

including 1, 2, 3, 4, etc

Orientation Connector Data. To define the orientation/clocking of a part when placed on a run. Many parts direction, such as horizontal trays and power & free conveyors, require a well-defined "up". Round ducts and pipes do not require a well-defined "up" direction, they can rotate. Rectangular ducts do not have a strict "up" direction, but do have four usual orientations corresponding to each of the four sides. Tubing elbows can flip upside down in order to swap end1 and end2, since they often have different end styles.

Generally, parts are built in such a way that the Z direction is up. If this is the case, then generally the XY plane can be used to define the orientation. The orientation plane and the face plane should not be parallel. For a particular connection end, you should not define an alignment going up in the Z direction and an orientation plane pointing up in the Z direction.

Rarely will an "Orientation2" be needed. Some tubing clamps use an orientation2 because they have one alignment along the tube alignment and another alignment going up through the bolt hole (for stacking). Tray vertical elbows and vertical tees also need an orientation2.

The pre-defined names for orientation include the following:

CATRouUpOnly: the part has a well-defined "up" direction. (Tray)

CATRouUpOnly1: same as CATRouUpOnly

CATRouUpOnly2, 3, etc.

CATRouCircular: the part has no strict "up" direction. (Pipe)

CATRouCircular1: same as CATRouCircular

CATRouCircular2, 3, etc.

CATRouRectangular: the part has four orientations that can be "up". (Rect duct)

CATRouRectangular1: same as CATRouRectangular

CATRouRectangular2, 3, etc.

CATRouOrientation: same as CATRouUpOnly (up-only is default orientation)

CATRouOrientation1: same as CATRouUpOnly1

CATRouOrientation2, 3, etc: same as CATRouUpOnly2, 3, etc.

Sample Publication Management combinations for connector data:

A pipe or piping valve: CATRouFace1

CATRouFace2

CATRouAlignment

CATRouCircular

A piping cap: CATRouFace

CATRouAlignment

CATRouCircular

A rectangular duct elbow: CATRouFace1

CATRouFace2

CATRouAlignment1

CATRouAlignment2

CATRouRectangular

An OPF conveyor track: CATRouFace1

CATRouFace2

CATRouBottom

CATRouOrientation

A tray horizontal tee: CATRouFace1 OR CATRouFace1

CATRouFace2 CATRouBottom1

CATRouBottom1 CATRouFace2

CATRouFace3 CATRouBottom2

CATRouBottom2 CATRouFace3

CATRouOrientation CATRouBottom3

CATRouOrientation

A round duct cross: CATRouFace1 OR CATRouFace1

CATRouFace2 CATRouAlignment1

CATRouAlignment1 CATRouFace2





CATRouCircular CATRouAlignment4

CATRouCircular

A tubing clamp: CATRouHole1 OR CATRouHole1

CATRouHole2 CATRouAlignment1

CATRouAlignment1 CATRouOrientation1

CATRouOrientation1 CATRouHole2



CATRouOrientation2 CATRouFace3



CATRouOrientation3 CATRouFace4

CATRouAlignment4

CATRouOrientation4

Creating a Catalog

This task explains how to create a catalog. The Catalog facility is a standard facility provided with the V5 Product line. For detailed information regarding Catalogs, please see the Infrastructure documentation - Advanced Tasks - Using Catalogs. Information that is particular to this product is given here. To properly learn to create a catalog you must read the document referenced above.1. Open the Catalog Editor by clicking on Start-Infrastructure-Catalog Editor. The Catalog Window opens with a basic catalog

structure in the left column. Catalogs are created analogous to books, with the book being at the top level, chapters under it, and, if necessary, sub-chapters under them, and with pages at the lowest level. Each family contains references to one or more parts.

The illustration below shows the Catalog Editor. The column to the left is where your chapters and families are displayed. The column to the right will display parts when you click on a family.

If you click the Reference tab you will see the directory path to each part (the file). Clicking the Preview tab displays the part. Clicking the Keywords tab displays the keywords. To add a keyword double click on the family where you want to add it,

click on the Add Keywords button , and add your information in the Keyword Definition dialog box that displays. See below on how to add values for keywords. Click here to see a list of keywords.

2. Rename the catalog and chapter and add as many chapters and families as you want to. You can add these later also. Save and close the window and reopen it to see your changes. To rename the chapter, right-click on it and bring up the Definition dialog box. To rename the book, save the catalog, at which time you can rename it.

3.

Add a component to the page. Make the page active and click the Add component button to bring up the Description Definition dialog box. Click the Select document button, navigate to the the component document and select it. Click OK to end.

To add values for keywords click the Keywords values tab. A window will display all the keywords associated with that family. Select a keyword and enter the value in the Values field. Keywords and values are case sensitive and you must enter them accordingly.

Making a Catalog Accessible

This task explains how to specify the location of a catalog so that it can be accessed in order to place parts from it.

Some catalogs are provided with the application. These are located in the ..\intel_a\startup\components subdirectory.

1. Click Tools-Options, select General and then the Document tab. Select Other folders in the window and click Configure.

2. In the Other Folders dialog box that appears, double-click on the drive where the catalogs you want are located. This will display all directories in the drive. Navigate to the directory that contains the catalog(s), select one or more, and click Add. All the catalogs you have selected will display in the lower window, as shown in the image below.

3.

Click OK. This will save the search order. Now when you click the Catalog Browser button you will be able to select parts from the catalogs you defined.

To change the catalogs that are displayed when you click the Browser button (the search order), you can repeat the steps above and specify different catalogs. You can also use the Export function in the Other Folders box to save the location of other catalogs or groups of catalogs. This will enable you to open them by recalling the search order, rather than having to repeat the steps given above. To do this:4. Bring up the Other Folders dialog box and navigate to the directory where the catalogs are located. Select the catalogs so that they

appear in the lower window. Click Export. The Export Search Order dialog box will display.

5. Enter a file name and specify a location for the file. Click Save.6. To recall the search order, click Import in the Other Folders dialog box and select the file that specifies the catalogs you want to

open. Click OK. This will create a new search order and these catalogs will display when you click the Browser button.7. Use the Import Add button to add a search order to an existing search order. For instance, if you have a search order open but you

want to add to it catalogs defined in another search order, click Import Add, navigate to the directory where the saved file is, and select it. The catalogs in that file will be added to the search order that was open.

Catalog Keywords and ValuesYou need to add keywords and values for some parts to the catalog to enable certain behavior. The process for adding keywords and values is explained in Creating a Catalog. A list of keywords and values is given below. They should be entered exactly as they are shown below.

The keyword PlaceAndStretch allows parts to bridge the gap between two dissimilar ends, such as a round and square run, or different sized pathways. It has no values.

The keyword LoadType affects how a part should be loaded into memory from the catalog. If the keyword is not added then its values is assumed to be NewReference, which is explained below.

LoadType has two values. SameReference means the part is always an exact copy of the catalog part. None of the parameters of the placed part should ever be changed. NewReference means the part has parameters that can be changed, and so new copies of the part will made as needed.

The keyword PlacementType

FreeSpaceOnly -- part can only be placed in free space.

Equipment -- same as FreeSpaceOnly.

Stretchable -- part is placed on straight segments in a run and stretches to fill available space. This keyword is necessary to make a stretchable place correctly. When using the multiplace (shift) option, stretchables will place on all open portions of straight segments.

Bendable -- part is placed on runs and fills available space, including going around corners (bends). This keyword is necessary to make a bendable place correctly. When using the multiplace (shift) option, bendables will place on all open portions of the run.

Inline -- part is normally placed on a run straight segment (e.g. a valve). Can also be placed on ends of parts and runs.

Reducer -- part is used to change size or shape. Usually placed on the node between two connected, colinear or parallel runs of different size or shape. Reducers can also be placed in the middle of segments and at the ends of runs and parts.

Turn -- part is usually placed at a corner (e.g. an elbow). It can also be placed at the ends of runs and parts. When using the multiplace (shift) option, turns

will place on all open corners of a run.

Branch -- part is usually placed at the intersection of two straight segments, where the end of one segment intersects the middle of the other. Branches can also be placed at the ends of runs or parts, on straight segments, at corners and at intersections of the ends of no more than three segments. When using the multiplace (shift) option, branches will place on all intersections on a run that have exactly three pathways.

Cross -- part is usually placed at any intersection containing four pathways (e.g. four end segments, or two end segments meeting in the middle of another segment). Can also be placed on the ends of runs and parts, on straight segments or at corners. When using the multiplace (shift) option, crosses will place on all intersections on a run that have exactly four pathways.

Complex branch -- part can be placed anywhere a cross can, plus at intersection with more than four connections.

Offset -- part that connects runs that are offset from one another. It can be placed at the ends of parts or runs.

Terminus -- part placed at the end of a run or part (e.g. a cap).

Coupler -- small connecting part, such as a gasket or flange. It can be placed on part ends.

Support -- part used to support other parts, such as hangers. It can be placed in the middle of segments, or on the ends of parts and runs.

Strengthener -- part used to strengthen or stiffen. It can be placed in the middle of segments.

Nozzle -- part used to connect equipment to fluidic part (e.g. pipe). It can be placed on the ends of parts.


This task shows you how to stop the creation of resource properties every time you create an object.

Certain resource properties are created every time you create an object such as item reservation, area, run, etc. These properties cannot be changed or made use of by users of most of our products, such as Plant Layout. However, there are a few products lines that can make use of them. To view these resource properties:

● Right click on an object in the specifications tree.

● Select the Properties line.

● Click on the More button in the Properties dialog box.

● Click on the Resource tab when it displays. This will display the properties associated with the object.

Even if you cannot make use of these resource properties, their creation causes no problems. However, if you do not want the properties to be created then follow the steps below.1. Click Tools - Options, select AEC Plant under Options and then the General tab.

2. Uncheck the line Automatic creation of resource attributes. Click OK.

Workbench DescriptionThe Plant Layout workbench includes the following toolbars:

Plant Layout Toolbar

General Design Toolbar

General Environment Toolbar

Product Placement Toolbar

Update the System

Plant Layout ToolbarThe Plant Layout Toolbar contains the following tools:

See Using Areas

See Managing Systems

See Network Reservations

See Logical Set

See Creating Path Reservations and Modifying Routables

See Using Boundaries

See Disconnecting a Run

See Connecting a Run

See Using Item Reservations

See Copy and Item Reservation

See Creating a Temporary Axis

See Using Construction Planes

General Design ToolbarThe General Design Toolbar contains the following tools:

Align Toolbar

Align Side: See Aligning Elements

Align Center: See Aligning Elements

Rotate to Align: See Aligning Elements

Distribute: See Distributing Elements

Align Planes: See Aligning Elements

Snap Toolbar

See Snap Resources Together

Snap Three Points: See Quick Snap Resources

Snap Center of Polygon: See Quick Snap Resources

Snap Surface: See Quick Snap Resources

Snap to Attach: See Creating a Parent-Child Relationship

See Mirroring Elements.

See Mirroring Elements

See Rearranging Elements in the Specification Tree.

See Connectors

General Environment ToolbarThe General Environment Toolbar contains the following tools:

See Changing the Current Axis.

See Generating Detail Information

See Using Offset Planes.

See Using Offset Planes

See Using a Step Grid for these icons:

Snap to steps off current axis

Snap to steps off last position

Snap to XY construction planes

Snap to all construction planes

Snap to elevation (Z) construction planes

Snap to Drafting elements

See Making an Element Active..

See Manipulation Handle Mode

See Making an Element Active for these icons:

Activate parent

Activate area

Activate network

Product Placement ToolbarThe Product Placement Toolbar contains the following tools.

See Catalog Browser

See Change the Reference File for a Part

See Changing the Parameters of a Part

Glossary

A

annotation Used in schematic diagrams to annotate lines and components. Annotations may be entered manually, derived from an attribute, or placed by means of a text template as part of an annotations catalog.

ATS Annotation Tag Style. In schematic diagrams; employed when creating a text template.

attribute Characteristics of an object, such as length, flow rate, etc. Also referred to as property.

B

boundary A two or three dimensional reservation of space, used to separate or define portions of an area.

branch Routed object that is connected to another routed object at a mid-point between nodes.

branching The act of routing from an existing routable. The routing starts at a point between two nodes, not from a node.

C

catalog A collection of parts and parts component catalog data. There are several types of catalog, such as a specifications catalog, standard catalog.

child A status defining the genealogical relationship between two objects.closed loop run A run whose ends are joined to each other.compass A tool for defining direction.component group Used in schematic diagrams. Two or more connected components

assembled to make up an individual assembly that can be stored and placed from a catalog

conduit line A mechanism for identifying and organizing Conduit routes and the components placed in them. A line ID.

connector Location on a resource (components, parts, item reservation, etc.) used to attach other resources. Connectors can be created, modified or deleted.

constraint A geometric or dimension relation between two elements.contour The physical shape of an area.coordinates The XYZ locations.

D

definition The physical characteristics of an element. Changing the definition changes the shape of an element.

discrete values Values, usually of an attribute, that are pre-defined. Instead of entering a value you select a value in a drop-down box.

distribution system An object used for organizing and grouping elements, mainly routables and resources, that distribute some commodity (fluid, air, etc.).

document The file in which a drawing or a project is created, sometimes also referred to as model. Document is the preferred terminology.

downcomer The legs of a hanger.

E

element Any of the features contained in a document, such as component, line, etc.

F

fabrication Used in HVAC Design. A contiguous grouping of connected HVAC parts. Analogous to spools in Piping Design or welded assemblies in Tubing Design.

face A surface on an object, usually item reservation or part.feature dictionary The document in which object classes are defined.

G

grab A Windows feature for clicking and dragging.graphic representation A geometric representation of an object. An object may have multiple

graphic representations.

H

HVAC line A mechanism for identifying and organizing HVAC routes and the components placed in them. A line ID.

hanger Supports used for routing cables, pipes, etc.hole An opening through an object.

I

I & C loop Stands for Instrumentation & Control Loop. It is an object used for grouping and organizing instrumentation and control objects.

intel_a A Windows directory in which this application is stored and executed by default.

item reservation A two or three dimensional reservation of space, in which one or more objects can be placed.

L

line ID A mechanism for identifying and organizing routes and components. Conduit, HVAC, Piping, Raceway,Tubing lines and I & C loops are line IDs.

M

master The controlling object in a relationship. Such a relationship can be created between some objects.

member Belonging to or part of, as in belonging to a line ID.mirror

Nnode Symbols that mark the end of segments in routables. They can be used

to move or manipulate segments.

nozzle A piece of pipe welded to a piece of equipment or vessel with a flanged end to which a pipe can be connected.

O

object class An object class is the classification or type of object.offset plane A command used to define a reference plane.

P

parent A status defining the genealogical relationship between two objects.part The geometric representation of a 3D object.part types Object classes.path reservation A two or three dimensional reservation of space, in which assembly lines,

conveyor belts, etc., can later be created.pathway Path reservation.piping line A mechanism for identifying and organizing piping routes and the components

placed in them. A line ID.plane manipulator A geometric tool to change the orientation, alignment, plane and location

of a plane that is to be created.properties Characteristics of an object, such as length, flow rate, etc. Also referred

to as attribute.

R

raceway line A mechanism for identifying and organizing raceway routes and the components placed in them. A line ID.

reference plane A plane that has been defined as an aid to performing certain functions, such measuring distance.

routable Anything that can be routed, typically: run, path reservation and boundary.

run A two or three dimensional reservation of space, in which pipes and parts can later be placed.

S

scaling An operation that resizes features to a percentage of their initial sizes.set point The alignment point for a routable, such as run or path reservation, for

which a section is defined. The set point determines, for example, whether the routing line drawn for a boundary represents the bottom left, bottom right, or bottom center of the boundary. There are three possible set points for a boundary and nine possible set points for a path reservation and run.

slave The following object in a relationship. Such a relationship can be created between some objects.

snap Join, as in snap together. Also snap to a grid, in which the position of an object is automatically adjusted to a grid.

space reservation A two or three dimensional reservation of space, in which equipment, pipes and parts can later be placed.

specifications tree A graphic display of the organizational structure of all elements in a document.

spoolA grouping of objects. All objects in a spool must be contiguous and connected to each other.

standard A collection of specifications.support line A location on a routable used as a reference point for routing when the

centerline is not used. It is also used in placing parts. The support line is defined by the set point (see above).

system A mechanism for organizing and grouping elements, mainly routables and resources.

T

tubing line A mechanism for identifying and organizing tubing routes and the components placed in them. A line ID.

turn angle The angle formed between two lines.

W

waveguide line A mechanism for identifying and organizing waveguide routes and the components placed in them. A line ID.

welded assembly Used in Tubing Design. A contiguous grouping of connected tubing parts. Analogous to spools in Piping Design and fabrication in HVAC Design.

Index

Aactivate parent area

create by boundary lines

create by size or location

create inside boundary

creating

creating multiple contours

defining elevation

inclusion analysis

moving

resizing contour

set origin

toggle axis axis

changing the current

create temporary axis

Bboundary

creating

stretching

Ccache mode

CATCache directory location

make wireframe geometry visible catalog

creating

creation tasks

keywords

making accessible

change axis and snap compass

clash detection

closed loop routable command

Activate Products Parent

Align Center

Align Side

Align Two Planes

Analyze Item

Area

Boundary

Build Connectors

Clash Detection (Off)

Clash Detection (On)

Clash Detection (Stop)

Distribute

Force Update

Item Position

Item Reservation

Logical Set

Mirror

Path Reservation

Quick Translate

Reservations Network

Rotate to Align

Snap

Snap Center of Polygon

Snap Surface

Snap Three Points

System Assembly

Transfer Run

connect run to hole connector

connector data

connectors

and V4 model

creating

duplicating

manipulating with compass

modify on reference part

modifying or deleting

plane manipulator

construction planes contour

moving

resizing

customizing settings

Ddatum point

defining plane

dictionary of types

disconnecting a run

display values documents

saving

Eelectrical part connector elements

aligning

changing properties

distributing

making active

mirror

moving multiple

rearranging in specifications tree

snapping to grid

Ffootprint report

force update

Ggrid grid step

setup

Iinclusion analysis item reservations

copying

creating

creating at compass base plane

creating on defined plane

creating over resource

moving

resizing

rotating

routing from

save in separate document

Kkeywords

adding to catalog

list of

Llayout tools

logical set

Mmanaging systems multi-CAD document

defining plane for connector

Nnetwork

creating

saving as separate document

node edit table nodes

deleting

display coordinates of

moving

opening a closed run

nozzle connector

Ooffset planes

options settings

Pparent-child relationship parts

change parameters

change reference file

modifying connector on reference parts (also see resources)

creating

path reservations

branching

creating

modifying

routing from end

plane manipulator

plant site, create

product parent

Q

Quick Snap

Rrename

catalog resource

Quick Snap

rotate using definition panel

snap and rotate

snap together

resource properties

resources

changing parameters

changing reference file

create parent-child relationship

measuring distance between

placing

placing on different planes routable

display information about

routing

at a slope

edgeline

edgeline to offset plane

fix broken routables

from an item reservation

on compass base plane

parallel to a run

position branch

routing modes run

changing a section

changing angle of segment

close

connecting

disconnecting

modifying

open

transfer

turn radius error

using definition dialog box

Ssave documents

search dictionary entries

section parameters segment

fit for parts assembly segments

position relative to a plane specifications tree

rearrange

specifications tree, customizing system assembly

creating

saving as separate document

Ttoggle manipulator handle mode Tools Options - Equipment and Systems

Display

General

transfer run

transitional parts

turn radius, invalid

types of parts

Uupdate connections

Vvalues

adding to catalog

list of keyword values

Catia Plant Layout

Documents

Transcript of Catia Plant Layout