Creating Swept Surfaces Using an Explicit Profile

This task shows you how to create swept surfaces that use an explicit profile. These profiles must not be T- or H-shaped profiles.
  The following sub-types are available:
  You can use the wireframe elements shown in this figure.

Open the Sweep1.CATPart document.

 

 

With reference surface

 

  1. Click Sweep .

    The Swept Surface Definition dialog box appears.
  2. Click the Explicit profile icon and select With pulling direction from the Subtype drop-down list.

    It is not mandatory that the profile be a sketch.
  3. Select the Profile to be swept out (DemoProfile1).

  4. Select a Guide curve (DemoGuide1).

  5. Select a surface (by default, the reference surface is the mean plane of the spine) in order to control the position of the profile during the sweep.

    In this case, the guiding curve must lie completely on this reference surface, except if it is a plane. You can impose an Angle on this surface.
    The angular definition defined by the law (if selected) applies to the projection of the normal to the reference element in the sweeping plane normal to the spine.
  6. If needed, select a Spine.
    If no spine is selected, the guide curve is implicitly used as the spine.
    Here is an example with DemoGuide2.

    If a plane normal to the spine intersects one of the guiding curves at more than one points, the application chooses the closest point to the spine point.
  7. Click OK to create the swept surface.

    The surface (identified as Sweep.xxx) is added to the specification tree.
 

With two guide curves

 

  1. Click Sweep .

    The Swept Surface Definition dialog box appears.
  2. Click the Explicit profile icon and select With with two guide curves from the Subtype drop-down list.

  3. Select the Profile to be swept out (DemoProfile1).

  4. Select a first Guide curve (DemoGuide1).

  5. Select a second Guide curve (DemoGuide2).

    You can also specify anchor points for each guide. These anchor points are intersection points between the guides and the profile's plane or the profile itself, through which the guiding curves will pass.
    There are two anchoring types:
     
     
      Sweep without positioning
    Two points anchoring type
       
     
      Sweep without positioning
    Point and direction anchoring type
    If the profile is manually positioned defining anchor points will position the profile between the guides, matching the anchor points with guide intersection points, prior to performing the sweeping operation.
    If you do not explicitly select anchor points or anchor direction, they are automatically computed if the profile is planar. Note that the selection is still available. The anchor points are computed as follows:
    • for Anchor point 1: intersection between the profile plane and Guide curve 1 (I1).
    • for Anchor point 2: intersection between the plane, passing through Anchor point 1 and normal to the spine, with Guide curve 2 (I2).
    • for Anchor direction: line between I1 and I2
      Automatic computation for Two points anchoring type
       
      Automatic computation for Point and direction anchoring type
  6. If needed, select a Spine.
    If no spine is selected, the guide curve is implicitly used as the spine.
    Here is an example with DemoGuide2.

    If the plane normal to the spine intersects one of the guiding curves at different points, it is advised to use the closest point to the spine point for coupling.
  7. Click OK to create the swept surface.

    The surface (identified as Sweep.xxx) is added to the specification tree.
 

With pulling direction

  The With pulling Direction subtype is equivalent to the With reference surface subtype with a reference plane normal to the pulling direction.
  1. Click Sweep .

    The Swept Surface Definition dialog box appears.
  2. Click the Explicit profile icon and select With pulling direction from the Subtype drop-down list.

  3. Select the Profile to be swept out (DemoProfile2).

  4. Select a first Guide curve (DemoGuide1).

  5. Select a Direction (zx plane).

  6. Optionally, you can impose an Angle.

  7. If needed, select a Spine.
    If no spine is selected, the guide curve is implicitly used as the spine.
    Here is an example with DemoGuide2.

    If the plane normal to the spine intersects one of the guiding curves at different points, it is advised to use the closest point to the spine point for coupling.
  8. Click OK to create the swept surface.

    The surface (identified as Sweep.xxx) is added to the specification tree.

 

 

Previewing The Angular Value

 
This option is not available with the With two guides curves subtype.
  When creating a sweep, you are now able to preview the four solutions based on the values given for the Angle. The first solution corresponds to Angle value, the second solution to -Angle value, the third solution to 180deg+Angle value, and the fourth solution to 180deg-Angle value.
  Here is an example with the With pulling direction sub-type, DemoProfile1 as the Profile, DemoGuide1 as the Guide, xy plane for the Direction, and 45deg for the Angle.
 

  The orange arrow corresponds to the current solution. You can click on any arrow then Preview or OK to recompute the swept surface. You can also use Previous or Next or enter a solution number in the Angular sector field.
  Here is an example with Solution 2:
 

 

Optional Elements

  Refer to Creating Swept Surfaces.
 

Positioning Parameters

 

 

  • You can then directly manipulate the profile using the graphic manipulators in the geometry or access positioning parameters clicking Show Parameters>>.

  • These parameters allow you to position the profile in the first sweep plane.
    • Specify a positioning point in the first sweep plane by either entering coordinates or selecting a point.
    • Specify the x-axis of the positioning axis system by either selecting a line or specifying a rotation angle.
    • Select the X-axis inverted check box to invert the x-axis orientation (while keeping the y-axis unchanged).
    • Select the Y-axis inverted check box to invert the y-axis orientation (while keeping the x-axis unchanged).
    • Specify an anchor point on the profile by selecting a point. This anchor point is the origin of the axis system that is associated with the profile.
    • Specify an axis direction on the profile by selection a direction. If no anchor direction was previously defined, the x-axis of the positioning axis system is used to join the extremities of the profile. The x-axis is aligned with the reference surface.
    Reference Surface Two Guides
     
    If you want to go back to the original profile, deselect Position profile.