CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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CAD-CAM-CAE Példatár

example title: Multi-axis component modelling(CAD)

example number: ÓE-A07

example level: basic - medium - advanced

CAx system: CATIA V5

Related material part with TÁMOP CAD

Job Description: Create Cad model of a Multi-axis component in

CATIA v5.

1. The task

Create a CAD model in CATIA v5 from the figure!

2. The solution steps

Start the Part Design modul in CATIA: StartMechanical DesignPart Design

Write a name in new Part window then pres OK button.

CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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Part Design module starts, get to know in detail which. By default, in the model space is three

mutually perpendicular plane (xy, yz, zx). Insert a coordinates system in the planes.

InsertAxis System

We create a standard and right-handed coordinates system.

Now we have a coordinates system. Select the three main planes and hide with

Hide/Show command.

Select the XY plane so that we click between the X axis and Y axis then click to the

Sketch icon.

.

Click to the Circle icon in the sidebar then click to the centre of the coordinates

system. We draw a circle.

CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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Click to the Constraint icon then click to the circle and anywhere. Double-click on the

dimension text and write the exact size. Now it is 40mm.the circle colour is green. When you

are finished you can click to exit Workbench icon.

You click the Pad command and set the 36 thickness of the build one body element then

pres OK button.

Select the XY plane so that we click between the X axis and Y axis then click to the Sketch

icon.

Click to the Circle icon in the sidebar then click to the centre of the coordinates system. We

draw a circle. Repeat this process. Center of the circle locate on the same line. Both circle

diameter is 24 mm.

CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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The two circle each other and the previously drawn circle distance is the distance of their

centre. After clicking on the Constraint icon to click to select the origin, then click to the

centre point of closer circle. this method will do the other sizes. When you are finished you

can click to exit Workbench icon.

You click the Pad command and set the 28 thickness of the build one body element

then pres OK button.

Now create the third sketch on XY plane. Select the two outer cylinders while Hold CTRL

button down. Click to the Project 3D element icon. Now click to the background. The

circles are yellow.

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Click to the Line icon to draw a line. Draw a line between the two circles. See the picture.

Click on the Constraint icon and click to the line and one of them circle. Then click right

mouse button. A new menu is opened. Here select the Tangency.

The operation is repeated in between the middle cylinder and the line.

Then draw another line and create same tangency constrain but it is the other side of circles.

Next step is to click on the Quick Trim Icon, and one in yellow outer half of the projected

contour. This contour is repeated per second. Click on the Exit icon to exit the workbench

erasures.

Select the profile if not already selected and click Pad . As you prefer to create a larger

pad, enter 12 mm in the Length field. Click OK.

CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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Click Plane . The Plane Definition dialog box appears. Select the Offset from plane plane

type. Enter 15 mm in the Offset field. Click OK.

Select choose the completed plane then click on the Sketch icon. Select the line of centre

cylinder. Click to the Project 3D element icon. Now click to the background. The circles are

yellow.

Click to the Line icon to draw a line. Draw the lines from circle to circle. See the picture.

Click Constraint in the Constraints toolbar. Click in the geometry to create the constraint.

Click Quick Trim. Select yellow circle as the element you wish to be broken. Click Exit

workbench to exit the Sketcher.

CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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Select Sketch.1 as the profile to be extruded then click Pad command. Enter 9mm in the

Length field of First limit to increase the length value. Click the More button to display the

whole dialog box. Enter 9 in the Length field of Second Limit to increase the length value.

Click OK to confirm the creation.

Click Edge Fillet in the Dress-Up Features toolbar (Fillets sub-toolbar).The Edge Fillet

Definition dialog box appears. Select the edge as shown. The edge selected then appears in

the Object(s) to fillet field. Enter 9 mm in the Radius field to increase the radius value .The

application displays the radius value. Clicking Preview previews the fillet to be created.

Click OK. The edges are filleted.

Click Hole to create a hole in Part Design. Select the circular edge and upper face as shown.

The application can now define one distance constraint to position the hole to be created. The

hole will be concentric to the circular edge. The Hole Definition dialog box appears and the

application previews the hole to be created. The Sketcher grid is displayed to help you create

the hole.

CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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By default, the application previews a blind hole whose diameter is 10mm and depth 10mm.

Choose to specify the bottom limit. Here is good the Up to Next way.

Clicking opens the Sketcher workbench. You can then constrain the point defining the hole

position. Once you have quit the Sketcher, the Hole Definition dialog box reappears to let you

define the hole feature.

You can also define a threaded hole by clicking the Thread Definition tab and selecting the

Threaded button to access the parameters you need to define. Select the support Depth

parameter in the Bottom Type field. Select the Metric thick pitch parameter in Thread

Definition Type field. Select the M8 parameter in the Thread Description field. Check the

Right-threaded settings.

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Similarly, we make the central threaded bore of the cylindrical part is preparing. Select the

middle part of the upper face of the cylinder, then click on the Hole icon. Set the Up to Next

parameters in the extension tab.

Clicking opens the Sketcher workbench. You can then constrain the point defining the hole

position. Once you have quit the Sketcher, the Hole Definition dialog box reappears to let you

define the hole feature.

Click the Type tab to access the type of hole you wish to create. You are going to create a

countersunk hole. If you choose to create that hole type, the countersink diameter must be

greater than the hole diameter and the countersink angle must be greater than 0 and less than

180 degrees. Set the Angle & Diameter parameters in the Mode field. You will notice that the

image assists you in defining the desired hole. Enter 1mm in the Depth field. Enter 90deg in

the Angle field. The preview lets you see the new angle and new depth.

CAD/CAM/CAE example TÁMOP 4-1-2-08-2-A-KMR-2009-0029

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You can also define a threaded hole by clicking the Thread Definition tab and selecting the

Threaded button to access the parameters you need to define. Select the Dimension parameter

in the Bottom Type field. Select the Metric thick pitch parameter in Thread Definition Type

field. Select the M12 parameter in the Thread Description field. Enter 13mm value in the

Thread Depth field. Check the Right-threaded settings. Click OK. The threaded hole is

created.

The smaller outer cylindrical hole is made in the Hole command. Clicking opens the Sketcher

workbench in Extension tab of Hole command. You can then constrain the point defining the

hole position. Once you have quit the Sketcher, the Hole Definition dialog box reappears to

let you define the hole feature.

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Set the Up to Next parameters in the extension tab. Enter 12 mm value in the Diameter field.

Click OK to confirm the creation.

Select the larger outer upper face surface of the cylinder, then click on the Sketch icon.

Create a Circle then use the Constraint command. Enter 22mm value in the Diameter field of

Constraint Definition panel. Click Exit workbench to exit the Sketcher.

Select the larger outer downer face surface of the cylinder, then click on the Sketch icon.

Create a Circle then use the Constraint command. Enter 16mm value in the Diameter field of

Constraint Definition dialog box. Click Exit workbench to exit the Sketcher.

Click Removed Multi-sections Solid. The Removed Multi-sections Solid Definition dialog

box appears. Select both section curves as shown Sketch.10 and Sketch.11:

They are highlighted in the geometry area. Click Closing Point 2 arrow to reverse the

direction.

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Click OK to create the removed multi-sections solid.

The model is completed. You can display and filter out information about threads and taps

contained in a CATPart document. Click the Tap/Thread Analysis icon. The dialog box also

displays the total number of threads and taps contained in your document. Click Apply to

display the representations and the values of the threads and tap contained in the document.

The representations and the values (diameter x depth x pitch) are displayed in orange and

yellow respectively.