NORMAS DE COMPETENCIA PARA LA INSTRUCCIÓN DEL INCIDENTE

The Analyze menu gives you options for viewing data about entities and, in some cases, editing the data.

When the construction plane is set to 3D, Mastercam calculates data using absolute, or world, coordinates relative to the system origin (0,0,0). In any other construction mode, the system calculates data using coordinates relative to the current Cplane.

You can access the Analyze menu by choosing Analyze from the Main Menu.

138 Analyzing the coordinates of a point

1. Choose Main Menu, Analyze, Point.

2. Enter a point in the graphics window. In the prompt area, Mastercam displays the coordinates of the point.

3. Repeat step 2 to analyze additional points.

4. Press [Esc] to exit the function.

Analyzing chains for coordinate data

1. Choose Main Menu, Analyze, Contour.

2. Select one or more chains, then choose Done.

3. Set Contour type to 2D to analyze the boundary for 2D data or 3D to analyze the boundary for 3D data.

Note: Choose 3D if your selection in step 2 contained spline entities.

4. Set Offset direction to Off and ignore all other options on the Analyze Contour Parameters dialog box.

Note: This step does not apply to Mastercam Design users since the only parameters available are those pertaining to Contour type (set in step 3).

5. Choose OK to close the dialog box.

6. In the prompt area, type a comment for the report (optional), then press [Enter].

7. View the data, then close the window.

Note: Press [Alt+P] to print the data.

Analyzing chains for offset data

1. Choose Main Menu, Analyze, Contour.

2. Select one or more chains, then choose Done.

3. Set Contour type to 2D.

4. Set Offset Distance to a value other than zero.

5. Set Offset direction to Left or Right.

6. Set the remaining parameters on the Analyze Contour Parameters dialog box, then choose OK.

7. In the prompt area, type a comment for the report (optional), then press [Enter].

139 8. View the data, then close the window.

Notes:

¨ To print the data, press [Alt+P] before closing the file in step 8.

¨ This function is not available in Mastercam Design.

¨ To analyze spline entities for offset data, you must first break them into line or arc segments. For more information, see Breaking a spline into multiple line segments and Breaking 2D splines into arc and line segments.

Analyzing entities of a defined type

You can limit the entities that are selectable by defining allowable entity types and/or attributes using the Only menu. Doing so reduces your chance of selecting the wrong entity to analyze, which is useful when you make your selection in complex geometry.

1. Choose Main Menu, Analyze, Only.

2. Use the Only menu to define your selection.

3. Select an entity. Mastercam displays data about the entity in the prompt area or in a dialog box, depending on the Edit option on the Analyze Entity menu.

4. Repeat steps 2 and 3 to analyze additional entities of the defined type.

Note: To redefine the type of entity to analyze, choose Only from the Analyze Entity menu.

5. Press [Esc] to exit the function.

Analyzing the distance and angle between two points 1. Choose Main Menu, Analyze, Between pts.

2. Enter two points in the graphics window. In the prompt area, Mastercam displays the coordinates of the points and the distance (2D and 3D) and angle between the points.

3. Repeat step 2 to analyze additional pairs of points.

4. Press [Esc] to exit the function.

Analyzing the distance and angle between two points 1. Choose Main Menu, Analyze, Between pts.

2. Enter two points in the graphics window. In the prompt area, Mastercam displays the coordinates of the points and the distance (2D and 3D) and angle between the points.

3. Repeat step 2 to analyze additional pairs of points.

4. Press [Esc] to exit the function.

140 Analyzing the distance and angle between two points 1. Choose Main Menu, Analyze, Between pts.

2. Enter two points in the graphics window. In the prompt area, Mastercam displays the coordinates of the points and the distance (2D and 3D) and angle between the points.

3. Repeat step 2 to analyze additional pairs of points.

4. Press [Esc] to exit the function.

Analyzing a curve, surface, or solid face at any position

Mastercam displays different data depending on the type of entity you select.

¨ For lines, Mastercam displays the point and tangent coordinates.

¨ For arcs and splines, Mastercam displays the point and tangent coordinates and the radius of curvature.

¨ For surfaces and solid faces, Mastercam displays the point coordinates, the normal coordinates, and the minimum radius of curvature.

1. Choose Main Menu, Analyze, Dynamic.

2. Select a line, arc, spline, surface, or solid face. In the graphics window, Mastercam displays a dynamic arrow on the selected entity.

3. Use the mouse to move the base of the arrow to positions that you want to analyze on the entity.

In the prompt area, Mastercam displays data relative to the arrow position.

4. Press [Esc] to stop analyzing the selected entity.

5. Repeat steps 2 through 4 to analyze additional entities.

6. Press [Esc] to exit the function.

Analyzing the area/volume of entities

The Analyze Area/Volume menu gives you options for analyzing the 2D area of curves, the area defined by surfaces and solid faces, and the volume defined by solid entities. You can access this menu by choosing Main Menu, Analyze, Area/volume.

Analyzing 2D curve area

1. Choose Main Menu, Analyze, Area/volume, 2D area.

2. Select one or more closed, flat chains, then choose Done.

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Note: Nested chains are allowed and are treated as holes whose area is subtracted from the area of the outermost boundary. Disjoint chains are not allowed.

3. Enter a value for Chord height.

Note: This value sets the preciseness with which Mastercam analyzes the area defined by the selected entities. A smaller value results in a more precise analysis and a more accurate calculation of area but with the possibility of a longer processing time.

4. View the data, then choose OK to close the dialog box.

Analyzing surface and solid area

1. Choose Main Menu, Analyze, Area/volume, Surface area.

2. Select one or more surfaces, solids, and/or solid faces, then choose Done.

Note: For a solid, Mastercam analyzes the area of all faces associated with the solid.

3. Enter a value for Chord height.

Note: This value sets the preciseness with which Mastercam analyzes the area defined by the selected entities. A smaller value results in a more precise analysis and a more accurate calculation of area but with the possibility of a longer processing time.

4. View the data, then choose OK to close the dialog box.

Analyzing solid volumes

1. Choose Main Menu, Analyze, Area/volume, Solid props.

2. If prompted, select a solid.

Note: If there is only one solid in the graphics window, Mastercam selects it automatically.

3. View the data for Volume, then choose OK to close the dialog box.

Analyzing an entity by number

Mastercam assigns a unique number to each entity in the file, which provides a useful method for referencing entities.

1. Choose Main Menu, Analyze, Number.

2. In the prompt area, enter the number of the entity to analyze. Mastercam displays data about the entity in the prompt area or in a dialog box, depending on the Edit option on the Analyze Entity menu.

3. To analyze additional entities by number, choose Number on the Analyze Entity menu and enter the entity number in the prompt area.

142 4. Press [Esc] to exit the function.

Analyzing problems in chains

In addition to analyzing chains for overlapping entities, direction reversals, and short entities, you can create geometry to mark problem areas, which helps you identify these areas in order to fix them.

1. Choose Main Menu, Analyze, Chain.

2. Select one or more chains, then choose Done.

Note: To avoid missing overlapping or short entities, we recommend that you use the Window chaining method.

3. Set display options for the types of problems you want to locate in the chains, then choose OK.

4. In the prompt area, Mastercam reports the number of each type of problem it finds and highlights the problem areas in the graphics window. Press [Enter] to exit the function after reviewing the data.

Analyzing surfaces

The Analyze Surfaces menu gives you options for analyzing surfaces for information such as surface curvature, bad surfaces, base surfaces, downward normal directions, backups, and self-intersections. You can access this menu by choosing Main Menu, Analyze, Surfaces.

Analyzing surface curvature

1. Choose Main Menu, Analyze, Surfaces, Curvature.

2. Choose Rad limits.

3. In the prompt area, type a value for the minimum detectable radius, then press [Enter].

4. Type a value for the maximum detectable radius, then press [Enter].

5. Choose Surfaces.

6. Select one or more surfaces, then choose Done.

Note: To analyze all visible surfaces, skip this step.

7. Set additional parameters on the Surface Curvature Analysis menu, as needed, then choose Do it to view the curvature display.

Testing surface normals

The Test Normals function analyzes the normal vector of selected surfaces and reports the number of bad surfaces whose normal vector reverses direction abruptly in one or more locations. These surfaces are inherently unstable and may present problems during machining or may be unmachinable.

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In addition to reporting the number of bad surfaces, this function gives you the option to change the color of the surfaces, which is helpful for identifying them in the graphics window in order to fix or recreate them. When changing the color of these surfaces, Mastercam uses the main system color, as indicated on the Secondary menu.

1. Choose Main Menu, Analyze, Surfaces, Test norms.

2. Select one or more surfaces, then choose Done.

3. Mastercam displays a window containing the number of bad surfaces in the selection. Choose OK to continue.

4. If prompted, choose Yes to change the color of bad surfaces to the current system color, which makes them easier to identify in the graphics window, or No to maintain the current color of the surfaces.

Notes:

¨ Once you’ve identified bad surfaces, you can use the Analyze, Dynamic function to further analyze the direction changes.

¨ To correct a bad surface, the portion of the surface containing the direction reversal must be trimmed from the surface, if possible. Otherwise, the surface must be recreated.

Checking the display for visible base surfaces

This function lets you quickly check for and optionally blank visible base surfaces in the graphics window.

Note: A base surface is the untrimmed parent surface of a trimmed surface. When Mastercam trims a surface, it creates the trimmed surface as a new surface and, in most cases, blanks the base surface, which allows you to work with the new surface and does not crowd the graphics window with the associated base surface.

1. Choose Main Menu, Analyze, Surfaces, Base surfs.

2. Choose All, Surfaces, Done.

3. Mastercam displays a window containing the number of visible base surfaces in the current file.

Choose OK to close the dialog box.

4. If prompted, choose Yes to blank the base surfaces or No to maintain the base surfaces as visible surfaces.

Setting the surface normal direction upward relative to the current Cplane

The Check Model function analyzes surfaces for the following conditions, which pose problems in surface machining and surface shading: self-intersections, backups, and internal sharp ridges. The Check Model function is capable of fixing backups. However, it is not capable of fixing self-intersections or internal sharp ridges. We recommend that you try to fix these conditions in the sending system before importing the file

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into Mastercam. You can also try to fix the problems in Mastercam by trimming the self-intersection from the trimmed surface and by splitting surfaces along the ridges. See the related topics below for more information.

1. Choose Main Menu, Analyze, Surfaces, Check model.

2. Select one or more surfaces, then choose Done.

3. In the prompt area, enter a self-intersection tolerance.

4. Mastercam analyzes the selected surfaces and displays a message stating the number of trimmed surfaces and the number of surfaces containing each type of problem. Choose OK to continue.

5. When problem surfaces are detected, you have the option to have Mastercam mark them in the graphics window. Doing so is helpful for identifying them in order to fix or recreate them. Follow the system prompts.

Note: You have the following options for marking problem surfaces:

¨ For backups, you can change the surface color to a color that you select.

¨ For self-intersections, you can change the surface color to a color that you select. You can also create a point entity at the location where the surface crosses over itself. Mastercam creates this point using the main system color, as defined on the Secondary menu.

¨ For internal sharp ridges, you can create curves (lines, arcs, splines) along the sharp ridges. You have the option to create the curves using a color that you select or the main system color, as defined on the Secondary menu.

Checking surface models for self-intersections, backups, and internal sharp ridges

The Check Model function analyzes surfaces for the following conditions, which pose problems in surface machining and surface shading: self-intersections, backups, and internal sharp ridges. The Check Model function is capable of fixing backups. However, it is not capable of fixing self-intersections or internal sharp ridges. We recommend that you try to fix these conditions in the sending system before importing the file into Mastercam. You can also try to fix the problems in Mastercam by trimming the self-intersection from the trimmed surface and by splitting surfaces along the ridges. See the related topics below for more information.

1. Choose Main Menu, Analyze, Surfaces, Check model.

2. Select one or more surfaces, then choose Done.

3. In the prompt area, enter a self-intersection tolerance.

4. Mastercam analyzes the selected surfaces and displays a message stating the number of trimmed surfaces and the number of surfaces containing each type of problem. Choose OK to continue.

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5. When problem surfaces are detected, you have the option to have Mastercam mark them in the graphics window. Doing so is helpful for identifying them in order to fix or recreate them. Follow the system prompts.

Note: You have the following options for marking problem surfaces:

¨ For backups, you can change the surface color to a color that you select.

¨ For self-intersections, you can change the surface color to a color that you select. You can also create a point entity at the location where the surface crosses over itself. Mastercam creates this point using the main system color, as defined on the Secondary menu.

¨ For internal sharp ridges, you can create curves (lines, arcs, splines) along the sharp ridges. You have the option to create the curves using a color that you select or the main system color, as defined on the Secondary menu.

Checking solid models for errors

The Check Solid function analyzes solids for error conditions that may pose problems in solid modeling operations. This function identifies and describes specific errors and highlights their location in the solid drawing. This function is particularly useful for analyzing the integrity of imported solids and identifying entities that you may need to repair or reconstruct. For example, with file formats in which healing during import is supported, you may want to reimport the file with this feature turned on. Or you may use the Remove Faces function to remove faces having problems identified by the Check Solid function in order to reconstruct new surfaces, which can be subsequently stitched using the From Surfaces function.

You can access the Check Solids function from the Analyze Surfaces menu, from the Analyze Solid dialog box, or from the Solids Manager.

Checking solids from the Analyze Surfaces menu

1. Choose Main Menu, Analyze, Surfaces, Check Solid. The Check Solid dialog box displays.

2. Choose Perform Check.

3. Select a solid entity in the graphics window. If errors are detected, the Check Solid dialog box redisplays and lists up to ten errors. If no errors are detected, a confirming message displays.

Checking solids from the Analyze Solid dialog box 1. Choose Main Menu, Analyze, Only, Solids.

2. On the Analyze Entity menu, make sure Edit is set to Y.

3. Select a solid entity in the graphics window. The Analyze Solid dialog box displays.

4. Choose Check Solid. If errors are detected, the Check Solid dialog box displays and lists up to ten errors. If no errors are detected, a confirming message displays.

146 Checking solids from the Solids Manager

1. Choose Main Menu, Solids, Solids mgr or press [Alt+Y]. The Solids Manager dialog box opens.

2. Select a solid in the list.

3. Right-click on the selected solid, then choose Check Solid. If errors are detected, the Check Solid dialog box displays and lists up to ten errors. If no errors are detected, a confirming message displays.

Notes on managing error display

When errors are listed in the Check Solid dialog box:

¨ Select a listed error to highlight its location in the graphics window.

¨ Choose Zoom to selected item to magnify the selected error in the graphics window.

¨ Choose Unzoom to return the graphics window to the original display scale.

¨ If ten errors are listed, you can reset Maximum number of errors to a higher value (default is 10) and choose Perform Check see if there are more detectable errors.

Analyzing entity and attribute data 1. Choose Main Menu, Analyze.

2. Select an entity in the graphics window. Mastercam displays data about the entity in the prompt area.

Note: If the Edit option on the Analyze Entity menu is set to Y, Mastercam displays the data in a dialog box.

Some of the data may be editable.

3. Repeat step 2 to analyze additional entities.

4. Press [Esc] to exit the function.

Creating a point at the center of gravity of a 2D curve boundary 1. Choose Main Menu, Analyze, Area/volume, 2D area.

2. Select one or more closed, flat chains, then choose Done.

Note: Nested chains are allowed and are treated as holes whose area is subtracted from the area of the outermost boundary. Disjoint chains are not allowed.

3. Enter a value for Chord height.

Note: This value sets the preciseness with which Mastercam analyzes the area defined by the selected entities. A smaller value results in a more precise analysis and a more accurate calculation of area but with the possibility of a longer processing time.

147 4. Check Create Pt (Center of Gravity).

5. Choose OK to close the dialog box and create the point.

Creating a point at the moment of inertia about X,Y of a 2D curve boundary 1. Choose Main Menu, Analyze, Area/volume, 2D area.

2. Select one or more closed, flat chains, then choose Done.

Note: Nested chains are allowed and are treated as holes whose area is subtracted from the area of the outermost boundary. Disjoint chains are not allowed.

3. Enter a value for Chord height.

Note: This value sets the preciseness with which Mastercam analyzes the area defined by the selected entities. A smaller value results in a more precise analysis and a more accurate calculation of area but with the possibility of a longer processing time.

4. Check Create Pt (Moment of Inertia, about X,Y).

5. Choose OK to close the dialog box and create the point.

Creating a point at the moment of inertia about the center of gravity of a 2D curve boundary

Creating a point at the moment of inertia about the center of gravity of a 2D curve boundary

In document PROTECCIÓN DE LA IMPARCIALIDAD JUDICIAL(ABSTENCIÓN Y RECUSACIÓN). Tomo II. TD (página 164-170)