Autodesk autocad plant 3d 2016 product key free
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To add an off page connector, click the Non-engineering tab on the Tool palette. Click the Off Page connector icon on the Non-engineering tool palette. Select the end point of the line connecting the top portion of the vessel, as shown.
You learn how to connect two off page connectors in the next tutorial. Checking the Drawing 1. The program checks the drawing for any inconsistencies with the project. Click the Save button on the Quick Access Toolbar. Enter Tutorial 2 in the File name field and click OK.
Create the symbol shown in below figure using the Line and Arc command. Do not dimension it. Dimensions are for your reference only. Select all the entities of the symbol by dragging a window. Click OK. Next, you have to select the insertion base point. Select Midpoint from the shortcut menu.
Select the midpoint of the lower horizontal line. Select the symbol and move it to the left side of the drawing sheet. Next, join then using the JOIN command. Select the lines and click the right mouse button. Place a Centrifugal pump. Draw the pipeline connecting the equipment symbols. Creating the Secondary Line Segments 1. Click the Secondary Line Segments icon on the Lines tool palette and create the secondary line segments, as shown next.
Select the end point of the line connecting the heat exchanger, as shown. Connecting the Off page connectors 1. To connect off page connectors, select the off page connector located at the top left.
The Create Connection window appears. You notice that the off page connector located in the Tutorial1. Press Enter. The off page connector is connected. However, you notice that an error symbol appears at the end of the off page connector. The View Connected Off page Connector dialog appears. You notice that the Size and Spec fields are highlighted in this dialog. You need to specify the size and spec of the line connected to the off page connector of the Tutorial2.
Click in the Size field, right-click, and then select Accept. The sizes of the two lines are matched. Likewise, match the spec. Click the OK button to solve the error. Click the Save button on the Application Menu. Right-click on Tutorial1 in the Project Manager and select Open from the shortcut menu. Applying Corners 1. To apply corners to a line, select the line connecting the bottom portion of the vessel. Select a point on the line to specify the corner point.
Move the pointer downward and click to specify the second point. Select a point on the line to specify the side of the corner. The corner is applied to the line. Adding Gaps to lines In this section, you add gaps to lines. Before adding gaps, you need to create lines passing over equipment.
Create two lines passing through the heat exchanger, as shown. Click the Edit button on the Schematic Lines panel of the Home ribbon. Select the line passing over the heat exchanger.
Select the Gap option. Select the first point of the gap. Select the second point of the gap. Press Enter key to create a gap. Reversing the Flow Direction Sometimes you may create a line with wrong flow direction. For example, the line connecting the heat exchanger is created in the opposite flow direction, see figure below.
The flow direction of the line is reversed. To modify the line using grips, select the line; the Move Schematic line grips appear at the midpoints of the line. Select the Move Schematic line grip and move the line downwards. Select a point in line to the nozzle. The line is modified. The line is detached from the component. Note: You can also detach a line from a component by using the Detach option. Next, specify the end point of the line. To reattach the line to the component, click on the Continue grip and connect it to the component.
To substitute a valve symbol, select the Check valve placed on the line connecting the centrifugal pump. The Substitute grip appears on it.
Click on the substitute grip to display various valve symbols. Select the Globe Valve. The Globe valve replaces the Check Valve. To substitute an instrument symbol, select the Temperature Indicator symbol connected to the vessel.
Click the Substitute grip. The instrument symbol is replaced. You can also substitute equipment symbols. However, you have to reconnect the pipelines after substituting. For example, on substituting a centrifugal pump with a vertical inline pump, the pipeline is disconnected. You need to connect the pipelines using the grips.
Do not close it. You need to use the Data Manager to view, export or import data. The Data Manager appears as shown next. Various components of the Data Manager are shown in the figure. The Filter Data drop-down is used to select the type of data to be displayed in the Data Manager. The data related to the selected type is displayed. The Data Manager toolbar is used to perform various operations such as import, export, view data and so on.
The Data table is similar to a spreadsheet and displays data. Filtering the Data 1. Open the Tutorial1. Click Current Drawing Data on the Filter data drop-down to view the data of the currently opened drawing file. Click Equipment from the Class tree to view all the equipment in the drawing, 5. Click Nozzles in the Class tree to view the nozzle data The nozzle data appear in the Data table. To remove the filter, right-click in the Data table and select Remove Filter.
Now, you need to add some information to the Data table. Add the manufacturer information in the Manufacturer column. Exporting the Data 1. Export the data by clicking the Export button on the Data Manager toolbar. Click the Active node only option under Include child nodes. Click the Browse button and specify the location of the export file.
In the Export To dialog, specify the file type using the File Type drop-down. Click the Save button 6. Click OK to export the data. Browse to the location of the exported file and open it.
Enter the Manufacturer information. Save the spreadsheet. Now, you need to import the spreadsheet. Click the Import button on the Data Manager toolbar. In the Import From dialog, browse to the location of the spreadsheet and double-click to open the file. The Import Data dialog appears. Click OK to import the data.
You notice that all the edited cells are highlighted in yellow color. Click the fifth row of the first column; the drawing is zoomed to the related nozzle. You notice that a revision cloud appears on the nozzle. In addition, revision clouds appear on other modified nozzles. Click the Accept button on the Data Manager toolbar to accept the edited value.
Click the Accept All button to accept all the edited values. Adding Annotations using the Data Manager 1. Click Equipment in the Class tree to display the equipment data. In the Data table, click in the Description cell of the P component. Drag and place the description below the centrifugal pump. Make sure that the Tutorial 1 file is open.
You notice that many nozzles have same tag information. Now, you need to assign a unique tag to each nozzle. You notice that tag information for nozzle N-1 to N-6 is already defined. Double-click in the N-1 cell in the Tag column. On the Assign Tag dialog, check the Parent Equipment. It shows P which is the www. Type-in 7 in the Number box and click Assign. Likewise, assign tags to other nozzles, as shown. Save and close all the files. Tutorial 5 Defining a new Class In this tutorial, you create a block of a symbol and add it to the category list of the project.
Start a new drawing by clicking the New button on the Quick Access toolbar. Create the symbol shown. Select all the entities of the symbol. Click the Pick Point button on the Block Definition dialog. Select the center point of the circle as a base point. Click the OK button to create a block. Next, you need to define a new class using the Project Setup dialog. To open a project, click the Open option on the drop-down in the Project Manager. Click the Project Setup button from the Project drop-down in the Project panel.
Right-click on Pumps and click New. The new class is displayed under the Pumps list. In this dialog, click the Browse button next to the Selected Drawings field. Click the Next button. Type Vacuum Pump in the Symbol Name edit box. Specify the other properties, as shown. Click the Finish button to add the symbol to the list.
The block editor is opened. Select the Parameters tab from the Block Authoring Palettes tool palette. Select the Point button from the tool palette Press and hold the Shift key and right-click to display the shortcut menu.
Click Midpoint on the shortcut menu. Select the midpoint of the left vertical line. Move the pointer toward left and click. Likewise, add another point on the right vertical line. Click on the yellow grip displayed on the left point, right click, and select Properties; the Properties palette is opened. Likewise, specify the Position name of the second point as AttachmentPoint2. Click the Close Block Editor button. Next, you need to add this symbol to the tool palette.
The Vacuum Pump is added to the tool palette. Adding Annotations to the Symbol www. To add annotations to the symbol, make sure that Equipment tag is selected in the drop-down available under Annotation. Now you need to assign a format to the annotation. The Block Editor is opened. Click the Assign Format button on the Annotation toolbar. Select the Equipment Tag attribute from the graphics window; the Assign Annotation Format dialog appears. The Select Class Property dialog appears.
Select Equipment Spec from the Property list. Close the Block Editor and save the changes made. Click the Apply button. Type report in the search bar located on the left side of the taskbar. In this dialog, you can define the location of the report data.
You can use the General option to define the default location. The Project option is used to define the report file location in the ReportFiles folder under the current project directory. You can also use the Custom Path option to define the custom location for the report files. Select the General option from the Settings dialog and click OK. Browse to location …. Click the Open button to the set the project for generating the reports.
Select Linelist from the Report Configuration drop-down. Click the Preview button; the Preview window appears. You can also specify the export format of the report. You can also save the changes as a template. Click the OK button; the Save As dialog appears. Specify the location of the template file.
Close the Preview window. Click the OK button; the Export Results dialog appears. View the report in a PDF file. Close all the files. The 3D model can be used to visualize a plant. Using the 3D model, you can create orthographic views, section, elevations, and isometric drawings.
These drawings are updated when you modify the 3D model. Activate the Tutorial Project using the drop-down located on the Project Manager.
In the graphics windows, click on the In-canvas tools located the top left corner and select SW Isometric. These commands are available on the Structure tab of the ribbon. You can then use this structural model as a reference to design the plant model.
If you want more complex structural model, you can create them in other applications such as Autodesk Revit and AutoCAD Architecture and import them. You can learn about layers from the Help file. In this book, you will create layers and use them to arrange different objects of a plant 3D model. Click the New layer button on the Layer Properties Manager. Enter Grid in the Name field. Click the Color swatch of the grid layer; the Select Color dialog appears.
Likewise, create other layers, and then assign colors to them, as shown. Creating the Grid 1. Change the workspace to 3D Piping. Change the view orientation to SW Isometric. On the Layer Properties Manager, double click on the Grid layer to set it as current. Next, you have to type-in values in the boxes available on the dialog. Click the arrow button next to the Axis name box.
You notice that the alphabets A, B, C, D are added. These alphabets represent the grid names along the X-axis. The values in this box represent the grid spacing along the X-axis. You have to enter values separated by a comma. Click the arrow next to the Row name box. The values in the Row name box represent the grid names along the Y-axis. These values define the grid spacing along the Y-axis. These values define the grid spacing along the Z-axis.
They represent the grid names along the Z-axis. On the dialog, you can type-in a new value in the Font size box. The program changes the font size of the grid names. Click Create to create a grid. Creating Footings 1. On the Status bar, click the down-arrow next to Object Snap icon and select the Endpoint, Node, and Intersection options. Disable all the other options. Click Settings in the command line. Leave the default dimensions of the footing and click OK. Click the lower intersection point of the grid in order to place the footing.
Likewise, place the other footings. Creating Structural Members 1. Activate the Orthomode on the Status bar. Alternatively, press F8 to activate the orthomode. Change the view orientation to Left. You can also set the orientation of the cross-section. Leave the other default values and click OK.
Click the lower intersection point of the grid. Move the pointer up and click the intersection point between the vertical and horizontal grid line. The Member command creates a vertical structural member. You can select further points to create multiple members.
Move the pointer toward right and click the intersection point between the horizontal and vertical grid lines. The command creates a horizontal structural member. Move the pointer down and click the lower intersection point.
Press Esc to deactivate the command. Click on the three structural members, and then click the right mouse button. Select Copy Selection from the menu. Select the intersection points, as shown. The Copy command defines the destination points and places copies of the selected objects. Create other vertical and horizontal structures. Create horizontal structures by selecting the intersections between the gridlines, as shown.
Create horizontal structural members by selecting the intersection points between the vertical gridlines and second platform. Click on the horizontal structural member located at the top.
Click on the left end grip of the structural member. Move the pointer and click on the grid point, as shown. Click Undo on the Quick Access toolbar to restore the structural member to its original length.
Click Total in the command line. This option sets a new length of the structural member. The Delta option specifies the increase in length of the structural member.
Select the horizontal structural member, as shown. The Lengthen Member command increases the total length of the member. Select the lengthened structural members to restore it to the original length.
Create two horizontal structural members up to the left end. Extending the Structural Members 1. Change the view orientation to NW Isometric. On the Extend to plane dialog, select 3Points and click OK to define the method to create a boundary plane. Select the grid points, as shown in figure. A boundary plane is set. Select the lower horizontal structural member, as shown in figure.
The Extend Member command extends the structural members up to the boundary plane. You can select these options from the drop-down available on the Parts panel.
These options are explained in the following illustrations. Line Model www. Select the structural members and the grid, as shown. All the other objects except the selected ones are hidden. Select the grid intersection points, as shown.
Select the portions to trim, as shown. The Trim Member command trims the structures by using the intersecting plane created by the three points. Using the Cut Back Member command 1. Zoom-In to the intersection between the members, as shown. Select the limiting member and member to cut. The Cut Back Member command cuts the second selection. The Gap option adds a gap between the two members.
Likewise, cut the other members, as shown. Select the two intersecting structural members. The Miter Cut Member cuts the structural members to form a corner. Miter the other corners. Using the Structure Edit command The Structure Edit command edits the structural members, stairs, ladders, grid, footings, and railings. Click on the top horizontal structural members, as shown. On the Edit Member dialog, you can modify the properties of the structural member. Likewise, if you select any other type of the structural element, the dialog related to it would appear.
You can modify the properties on the dialog and click OK. On the Edit Member dialog, under the Orientation section, click the top center point of the cross-section. The orientation of the structural members is changed to the top center. Likewise, change the anchor points of the structural members on the bottom platform to the top center. Use the Cut Back Member command to cut the intersecting portions of the structural members. Adding Platforms After creating the structural frame, you have to add platform to accommodate equipment.
All elements except the grid is hidden. Select the Material Standard and Material Code based on the location of your project. Set the Justification to Top. Set the Shape to New rectangular. Click Create and select the grid points, as shown. The plate is created. Change the view orientation to top. Set the Shape to New polyline. Change the orientation to SW Isometric.
You notice that the platform is created at the bottom. Click the right mouse button on the bottom plate and select Properties. On the Properties palette, scroll down to the Structural section. You notice the structural properties of the plate.
You can modify these properties. The bottom plate will be moved to the top. Adding Stairs 1. Turn on the Orthomode on the status bar. Move the pointer up and type-in in the command line. Press Esc to deactivate the Line command. On the Stair Settings dialog, the boxes in the Geometry section define the dimensions of the stair set. You can type-in the Stair width inside distance between the stairs and the Maximum tread distance distance between the steps. Leave the default settings in the Geometry section.
In the Shape section, you can define the shape and size of the steps and stairs. To define the step geometry, click the button next to the Step data box. On the Select Step dialog, select the Tread standard based on the location of the project. You can also select the User defined standard.
Next, define the dimensions of the tread by selecting already existing configurations from the Tread shape section. You can also add a new configuration to this section. To do this, type-in values in the Dimensions section, and then click the Add button. Click OK on the Select Step dialog.
Click the button next to the Stair shape box. On the Select Stair Shape dialog, you can define the shape standard, shape and size of the stair. Note that you cannot change the orientation and material of the stairs. Leave the default settings on this dialog and click Select. Click OK on the Stair Settings dialog.
On the Status bar, click the down-arrow next to the Object Snap icon and select Midpoint. Select the midpoint of the line to define the starting point of the stairs. Select the midpoint of the top edge of the platform to define the endpoint of the stair. Press Enter to create the stairs. Select the stairs, and you notice the grips on it.
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