Difference between revisions of "Plate Tutorial"

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This tutorial is designed to guide you through the steps in creating a sheet metal part. As you walk through this tutorial, procedures are designed based on your knowledge of earlier procedures. Because of this, it is very important that you carefully step through this guide, understanding everything along the way. We would like to cover a few key items before starting the step-by-step instruction of the tutorial. It is very important you completely understand these items:
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'''This tutorial is designed to walk you through the steps in creating a part using the sheet metal module.'''
 +
__NOTOC__
 +
==Sheet Metal/Plate Design==
 +
*This tutorial will begin by showing how to create a specified piece of bent sheet metal designed with "'''PickPoints'''".
  
Points
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*'''If you're not familiar with this interface, it is suggested that you visit the [[Plate|Sheet Metal Module]] page for better understanding of the basics.'''
The Part Interface is a simplified 2-dimensional CAD interface. To create parts, you must create the lines and arcs that compose the part. These lines and arcs (in most cases) are connected and created by first creating points. Using points to locate the features ensures the precision of the part. In the Assembly interface, PickPoints are used to locate parts and define the 3-dimensional points in the assembly.
 
  
The Assembly Interface
 
The Assembly Interface is designed to allow you to assemble multiple parts together. Parts can also be made in the assembly, however it is usually quicker and more accurate (although not necessarily easier) to use one of the part interfaces to create parts.
 
  
Sense of Direction
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==Things To Know==
The Part Interface is mainly a 2-dimensional interface. While you may view the part in full and partial 3D, editing and creating the features of the part take place in 2D. The Assembly however, is full 3D and uses PickPoints to locate features/parts. These pickpoints must be created prior to placing parts in the Assembly.
 
  
Free Select
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*''This tutorial is designed to walk the user through creating a sheet metal/plate design. As you go through this tutorial, later procedures will assume that you understand all earlier procedures. Because of this, it is very important that you carefully step through this guide, understanding everything along the way and following all steps in order.''
Free Select can be used to allow the user to click anywhere on the screen as if there was a point. Whenever Free Select is on, the display window is dimmed slightly. It is very difficult to place points with precision using Free Select mode, so make sure you take it off whenever you are trying to do something where precision matters.
 
  
CAD vs Sheet Metal
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*'''A few key items need to be addressed before starting the step-by-step instructions of this tutorial. It is very important for Bend-Tech users to completely understand these items:'''
The Part Interface is basically divided into 2 areas, a simple CAD interface and sheet metal functions. The CAD functions allow you to create a part using points, lines, arcs, and other features for the part, much like other CAD software. These functions include trimming/extending lines, using tangent and intersection points, and placing dimensions. The sheet metal portion of the software allows you to convert features into a flange and add flanges together with bends.
 
  
Bending Radius
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;1) [[PickPoints]]
When creating a bent part and setting up a material in the Plate Material Library, it is important to understand that the bending radius is the INSIDE radius of the bend. While some areas of the software may use the centerline dimensions, the bending radius of each bend on a sheet metal part is referring to the Inside Radius.
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:PICKPOINTS ARE USED FOR EVERYTHING.  The Sheet Metal part of the software is largely run in full 3D.  Because a computer screen is only 2D, there is an unlimited amount of depth behind and in front of the cursor. A PickPoint is a point in 3D space that can be used for creating, editing, and placing parts in handrail design. PickPoints can be placed in a 2D environment by having their depth manually entered in the appropriate value fields.
  
The following image shows the part we will be building in this tutorial.
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:*There are 2 types of PickPoints; Those automatically created by the part by default (various colors) and user-defined points (green). In addition, the initial (0,0,0) point is an automatic point that resides at the center of the Tri-Star. The Tri-Star is our directional definition locator.  
  
[[File:W81.JPG]]
 
  
To begin, we must create a new part using the New Plate button on the main toolbar or by selecting File → New → Plate. The new plate interface will be displayed and can be broken down into two parts: The left side contains the features and value inputs, while the right side is where we see and select the features of the part. The large window on the right side of the screen is referred to as the Display Window in this tutorial.
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;2) Apex
 +
 
 +
:*Apex:  Most bend locations are created in Sheet Metal design with the "'''Apex'''". Our definition of apex is the intersection of the straight parts as if there wasn’t a radius. 
 +
:This is demonstrated in the picture below.
 +
 
 +
[[File:W5.PNG]]
 +
 
 +
 
 +
;3) Location Orientation
 +
:*Since there is no Tri-Star like in other tube bending interfaces, the only orientation users should worry about when designing in Sheet Metal, is a bird's eye view. This designer is set up so that users can imagine looking over their project as if it is on their table in front of them.
 +
 
 +
==Start Up==
 +
 
 +
1) Start by double clicking the "'''Bend-Tech 7x'''" icon to start up the program.[[File:Bend_tech_icon.png]]
 +
 
 +
2) Select the "'''Plate'''" icon [[File:Plate_icon.png]] in the [[Task Menu]] under the "'''Create New'''" section to open the Sheet Metal/Plate interface, '''Or...''' select the '''Plate''' button on the main toolbar, '''OR...''' select "'''File → New → Plate'''".
 +
The window that opens should be labeled [Plate - 1].
 +
 
 +
3) For the purposes of this tutorial, click the "'''Maximize'''" button [[File:Min_Max_Close_Tab.png]] at the top right of the plate design window.
 +
 
 +
===Free Select===
 +
*Free Select [[File:freeselect1.png]] can be used to allow the user to click anywhere on the screen as if there was a point. Whenever Free Select is on, the display window is dimmed slightly. It is very difficult to place points with precision using Free Select mode, so make sure you take it off whenever you are trying to do something where precision matters.
 +
 
 +
===CAD vs Sheet Metal===
 +
*The Part Interface is basically divided into 2 areas, a simple CAD interface and sheet metal functions. The CAD functions allow you to create a part using points, lines, arcs, and other features for the part, much like other CAD software. These functions include trimming/extending lines, using tangent and intersection points, and placing dimensions. The sheet metal portion of the software allows you to convert features into a flange and add flanges together with bends.
 +
 
 +
===Bending Radius===
 +
*When creating a bent part and setting up a material in the Plate Material Library, it is important to understand that the bending radius is the INSIDE radius of the bend. While some areas of the software may use the centerline dimensions, the bending radius of each bend on a sheet metal part is referring to the Inside Radius.
 +
 
 +
*The following image shows the part we will be building in this tutorial.
 +
 
 +
[[File:W81A.JPG]]
 +
==Creating The Base Flange==
 +
1. To begin, the new plate interface will be displayed and can be broken down into two parts: The left side contains the features and value inputs, while the right side is where we see and select the features of the part. The large window on the right side of the screen is referred to as the Display Area in this tutorial as in most others.
  
 
[[File:W82.JPG]]
 
[[File:W82.JPG]]
  
[[File:W83.JPG]]
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[[File:W83.JPG|700px]]
  
The first step to most any part is to create some points defining the part’s base flange. All features of a part can be created under the Create tab (except for bends).
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2. The first step to most any part is to create some points defining the part’s base flange. All features of a part can be created under the "'''Create'''" tab (except for bends).
Select the Create tab.
 
The following tabs will be available:
 
  
[[File:W84.JPG]]
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3. Select the "'''Create'''" tab.
  
The Points Panel will be displayed, showing the different methods you can use to create a point. You will also notice that the part already has a point created at the (0, 0) coordinate. We will use this point as the first point in our part. As you can see below, our first part is 8 inches wide, so we will create the base flange that wide. Select the Incremental point option.
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 +
[[File:W841.JPG]]
 +
 
 +
4. The "'''Point'''" sub-tab will be displayed, showing the different methods you can use to create a point.  
 +
 
 +
5. Notice that the part already has a point created at the (0, 0) coordinate. This point is the first point in our part.  
 +
As seen below, our first part is 8 inches wide, so start by creating the base flange that wide.
 +
 
 +
6. Select the "'''Incremental'''" point option.
  
 
[[File:W85.JPG]]
 
[[File:W85.JPG]]
  
Enter a value of 8 in the X field as shown here.
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7. Type a value of "'''8'''" in the "'''X'''" value field as shown here.
As you move the cursor over the part, you will notice a point 8 inches to the right.
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Now we need to select the base point to create the new point with the offset.
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8. As you move the cursor over the part, you will notice a point "'''8'''" inches to the right.
Select the base point of the part and the software will create the new point 8 inches in the X-direction.
 
  
[[File:W86.JPG]]
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9. Now, select the base point to create the new point with the offset.
 +
 
 +
10. Select the base point (origin) of the part and the software will create the new point 8 inches in the X-direction.
 +
 
 +
[[File:W861.png]]
  
 
[[File:W87.JPG]]
 
[[File:W87.JPG]]
  
Next we will create a point 6 inches above this new point.  
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11. Next, we will create a point "'''6'''" inches above this new point.  
Enter 0 in the X field and 6 in the Y field. This will create a point 6 inches above our cursor.
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Select the new point to create the third point of the flange.
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12. Type "'''0'''" in the "'''X'''" field and "'''6'''" in the "'''Y'''" field. This will create a point 6 inches above our cursor.
The next point we create will be 6 inches above the origin point. We already have this offset in the fields so we can simply click the origin point to create the fourth point.  
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 +
13. Select the point created in the last step to create the third point of the flange.
 +
 
 +
14. The next point we create will be 6 inches above the base (origin) point. We already have this offset in the fields so we can simply select the origin point to create the fourth point.  
 +
 
 +
[[File:W881.png]]
  
 
[[File:W88.JPG]]
 
[[File:W88.JPG]]
  
We now have the four points defining the outer edge of our base flange. We will now connect these points with four lines.
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15. The four points now define the outer edge of our base flange. Connect these points with four lines.
Select the Create Tab (if it is not already selected).
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Select the Line Tab.
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16. Select the "'''Create'''" tab (if it is not already selected).
Select the 2 Points option.
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Select the upper-left point for the first point of the line. Select the origin point as the second point of the line.
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17. Select the "'''Line'''" tab.
You will now have a line created, connecting the 2 points you selected.
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 +
18. Select the "'''2 Points'''" option.
 +
 
 +
19. Click the "'''Continuous'''" checkbox next to the "'''Two Points'''" option.
 +
 
 +
20. Select the upper-left point for the first point of the line. Select the origin point as the second point of the line.
 +
 
 +
[[File:W891.png]]
 +
 
 +
'''You will now have a line created, connecting the 2 points you selected.'''
  
 
[[File:W89.JPG]]
 
[[File:W89.JPG]]
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 +
21. Click the top right point in the display area, then the bottom right point and finally the bottom left point making a rectangle like in the picture below.
  
Click the Continuous checkbox next to the Two Points option. Click the top left point, then the top right point, then the bottom right point, and finally the bottom left point. There should be a rectangle drawn on the screen like in the picture below.
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'''The base part is complete.'''
  
 
[[File:W90.JPG]]
 
[[File:W90.JPG]]
  
We now have completed our 8 inch by 6 inch base flange. Before we can add our second flange or view the part in anything other than 2D, we must define this flange.
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==Defining the Base Flange==
Select the Part Tab. In the Definition tab, click the Library button. The Plate / Sheet Library will open.
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 +
*Now that we've completed our 8 inch by 6 inch base flange, we must define the flange.
 +
 
 +
1. Select the "'''Part'''" tab. In the "'''Definition'''" sub-tab, click the "'''Library'''" button. The Plate / Sheet Library will open.
  
 
[[File:W91.JPG]]
 
[[File:W91.JPG]]
  
There are two Add New buttons. Click the left one. Enter “.25 Inch” in the Material Name field. Enter .25 in the thickness field (the field with the arrow pointing towards it in the picture below). Make sure Inches is selected in the Units area and click the Apply button.
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2. There are two Add New buttons. Click the left one and type '''.25 Inch'''” in the Material Name field.  
 +
 
 +
3. Type "'''.25'''" in the thickness field (the field with the arrow pointing towards it in the picture below). Make sure '''Inches''' is selected in the Units area and click the Save button.
 +
 
 +
*(Note) Make sure to "'''Save'''" this to the "'''Material List'''" in order to perform the next steps.
  
 
[[File:W92.JPG]]
 
[[File:W92.JPG]]
  
Click on .25 Inch in the Material List. Click the right Add New button. Enter .5 in the Inside Bending Radius field and click the OK button. Enter 40 for the K-Factor and click the OK button. Click the Apply button. Click the Close button to close the Plate / Sheet library.
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4. Click on "'''.25 Inch'''" in the '''Material List'''. Click the right "'''Add New'''" button.  
 +
 
 +
5. Type "'''.5'''" in the "'''Inside Bending Radius'''" value field and click the "'''OK'''" button.  
 +
 
 +
6. Type "'''40'''" for the '''K-Factor''' and click the "'''OK'''" button. Click the Apply button, then the Close button to close the Plate / Sheet library.
  
 
[[File:W93.JPG]]
 
[[File:W93.JPG]]
  
Go to the Part tab.
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7. Go to the "'''Part'''" tab.
 +
 
 +
8. Select "'''.25 Inch'''" in the "'''Material'''" drop down menu. Click the "'''Define Flange'''" button.  
  
Select .25 Inch in the Material drop down menu. Click the Define Flange button. Click anywhere inside the box that you made in the display window. You should see the Flanges List button turn green, indicating that a flange has been defined successfully.
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9. Click anywhere inside the box that you made in the display area. (Note: When defining more intricate parts which include entities like holes, text, arcs, etc. be sure to click on the outer-most edge of the flange. The software defines the part closest to the cursor.) You should see the "'''Flanges List'''" button turn green, indicating that a flange has been defined successfully.
  
 
[[File:W94.JPG]]
 
[[File:W94.JPG]]
Line 89: Line 156:
 
[[File:W95.JPG]]
 
[[File:W95.JPG]]
  
Go to the Bends sub-tab of the Part tab.
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10. Go to the "'''Bends'''" sub-tab within the "'''Part'''" tab.
  
In the Bend Properties area, change the Flange Initial Height to 3. Make sure 0.5 is selected in the Inside Bend Radius field and Up is selected in the Direction area.
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11. In the "'''Bend Properties'''" section, change the "'''Flange Initial Height'''" to "'''3'''". Make sure "'''0.5'''" is selected in the "'''Inside Bend Radius'''" value field and "'''Up'''" is selected in the "'''Direction'''" section.
  
[[File:W96.JPG]]
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[[File:W96.png]]
  
Change the Parent and Child Bend Location to Outside Apex.
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12. Change the "'''Parent'''" and "'''Child Bend Location'''" to "'''Outside Apex'''".
  
 
[[File:W97.JPG]]
 
[[File:W97.JPG]]
  
Click the New button. Click the line on the left side of the box you made. You will be prompted to name the flange. By default it will be named “Flange 2” which is good enough. Click the OK button. You should now see two new areas created on the part. The first area is the bend zone, an area between each flange that extends from the start of the bend to the end of the bend. The second area that was created is the second flange, which is built according to the Flange Initial Height we specified ( 3 inches in this case ). Your screen should now look like the picture below.
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13. Select the "'''New'''" button. Click the line on the left side of the box you made. You will be prompted to name the flange. By default it will be named “Flange 2” which is good enough.  
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 +
14. Select the "'''OK'''" button. You should now see two new areas created on the part. The first area is the bend zone, an area between each flange that extends from the start of the bend to the end of the bend. The second area that was created is the second flange, which is built according to the Flange Initial Height we specified ( 3 inches in this case ). Your screen should now look like the picture below.
  
 
[[File:W98.JPG]]
 
[[File:W98.JPG]]
  
Note: The two flanges and bend zone will overlap, as we have selected Outside Apex for both sides of the bend. The bend zone extends from the tangent of each side. If we have selected tangent for both sides, the bend zone would not overlap.
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(Note) The two flanges and bend zone will overlap, as we have selected Outside Apex for both sides of the bend. The bend zone extends from the tangent of each side. If we have selected tangent for both sides, the bend zone would not overlap.
  
 
[[File:W99.JPG]]
 
[[File:W99.JPG]]
  
Click the New button. Click the line on the right side of the box in the display window.
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15. Select the "'''New'''" button. Click the line on the right side of the box in the display area.
  
 
[[File:W99.JPG]]
 
[[File:W99.JPG]]
  
You will be prompted to name the flange, but “Flange 3” is good enough so click the OK button. Your part should now look like the picture below.
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*You will be prompted to name the flange, but “Flange 3” is good enough.
 +
 
 +
16. Select the "'''OK'''" button.  
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 +
'''Your part should now look like the picture below.'''
  
 
[[File:W101.JPG]]
 
[[File:W101.JPG]]
  
On the toolbar, click the arrow next to the Display Mode button. Select 3D Shaded. The part will now be displayed in full 3D. You can click and drag the right mouse button to rotate the display or click and hold both mouse buttons to pan. Use the scroll wheel to zoom in and out. Go back to the Display Mode menu and select Design.
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17. On the "'''Toolbar'''", click the arrow next to the "'''Display Mode'''" button. Select "'''3D Shaded'''". The part will now be displayed in full 3D.  
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 +
18. '''Click and hold the right mouse button on the part to rotate the display or click and hold both mouse buttons to pan. Use the scroll wheel to zoom in and out.'''
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 +
19. Go back to the "'''Display Mode'''" menu on the "'''Toolbar'''" and select "'''Design'''".
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 +
[[File:W102.png]][[File:W103.JPG]]
  
[[File:W102.JPG]][[File:W103.JPG]]
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20. Now, to define the two new flanges, go to the "'''Definition'''" sub-tab within the "'''Part'''" tab. Select on the "'''List'''" button in the "'''Flanges'''" area.  
  
We need to define the two new flanges. Go to the Definition sub-tab within the Part tab. Click on the List button in the Flanges area. Double Click on Flange 2.  
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21. Double Click on "'''Flange 2'''".  
  
[[File:W105.JPG]]
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[[File:W105.png]]
  
Click the Define Flange button and click on the line on the right side of Flange 2. See the picture below to make sure you are selecting the correct line.
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22. Select the "'''Define Flange'''" button and click on the line on the left side of "'''Flange 2'''". See the picture below to make sure you are selecting the correct line.
  
 
[[File:W104.JPG]]
 
[[File:W104.JPG]]
  
Use the List menu in the Flanges area to select Flange 3. Click the Define Flange button and click on the line that is on the left side of Flange 3.
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23. Use the List menu in the Flanges area to select Flange 3. Click the "'''Define Flange'''" button and click on the line that is on the right side of "'''Flange 3'''".
  
 
[[File:W106.JPG]]
 
[[File:W106.JPG]]
  
Internal Features:
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*'''The part will be completely defined when the "List" button at the top of the screen turns green.'''
Now that we have created the main structure of our part, we will begin creating the internal features of each flange. In order to create a feature on a flange, that flange must be the active flange. We will begin with the base flange.
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Use the Flange List to select the Base Flange item.
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==Internal Features==
The first flange we created should now be active (the other flanges should be gray).
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*Now that the main structure of the part has been created, we will begin creating the internal features of each flange. In order to create a feature on a flange, that flange must be the active flange. We will begin with the base flange.
Referring to our part dimensions, we must create a square hole and a custom cutout in this flange. We will first create the square hole, however, we must create a point to place the hole with. Go to the Create tab and make sure you are in the Point sub-tab.
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 +
1. Use the "'''Flange List'''" to select the Base Flange item.
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 +
2. The first flange you've created should now be active (the other flanges should be gray).
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 +
3. Referring to the part dimensions, create a square hole and a custom cutout in this flange. First, create the square hole, however, we must create a point to place the hole with. Go to the Create tab and make sure you are in the Point sub-tab.
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 +
4. Select Incremental. Enter 2 in the X field and 3 in the Y field. Click the bottom left point of the base flange, which is also the location of the XY axis.
 +
 
 +
[[File:W107.png]][[File:W108.JPG]]
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 +
5. Go to the "'''Hole'''" sub-tab within the "'''Create'''" tab. Select "'''Square'''" in the "'''Hole Shape'''" area. Type "'''1'''" in the "'''Width'''" value field, "'''0'''" in the "'''Angle'''" value field, and "'''0'''" in the "'''Corner Radius'''" value field.
 +
 
 +
6. Select the point that you just made in the display area to place the hole there.
 +
 
 +
[[File:W109.png]][[File:W110.JPG]]
 +
 
 +
7. The upper-left corner of the cutout is 2 inches to the right of the center of our square hole. Try using the Angle method of creating a point for the first one.
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 +
8. Go to the "'''Point'''" sub-tab within the "'''Create'''" tab.
 +
 
 +
9. Select the "'''Angle'''" option and enter '''Angle: 0''', '''Distance: 2'''.
 +
 
 +
10. Since we created the point for the square hole, we can use that as the reference point for the new point. Select the point at the center of the square hole to create a new point 2 inches to the right.
  
Select Incremental. Enter 2 in the X field and 3 in the Y field. Click the bottom left point of the base flange, which is also the location of the XY axis.
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11. Our next point is located 1 inch down from this new point. Change the values in the Angle fields to '''Angle: 270''', '''Distance: 1'''.
  
[[File:W107.JPG]][[File:W108.JPG]]
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12. Select the last point we created to create the new point. You should now have 2 points created for the cutout.
  
Go to the Hole sub-tab within the Create tab. Select Square in the Hole Shape area. Enter 1 in the Width field, 0 in the Angle field, and 0 in the Corner Radius field. Click the point that you just made to place the hole there.
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13. The next point is located 2 inches to the right of the last point we created. Change the values in the Angle fields to '''Angle: 0''', '''Distance: 2'''. Select the last point we created to create the new point.
  
[[File:W109.JPG]][[File:W110.JPG]]
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14. The last point is located 2 inches above the last point we created. Change the values in the Angle fields to '''Angle: 90''', '''Distance 2'''. Select the last point we created to create the new point.
  
The upper-left corner of the cutout is 2 inches to the right of the center of our square hole. We will use the Angle method of creating a point to create this first point.
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*The four points of our cutout have been created . We can now connect these points with lines.
Go to the Point sub-tab within the Create tab.
 
Select the Angle option and enter Angle: 0, Distance: 2.
 
Since we created the point for the square hole, we can use that as the reference point for the new point. Select the point at the center of the square hole to create a new point 2 inches to the right.
 
Our next point is located 1 inch down from this new point. Change the values in the Angle fields to Angle: 270, Distance: 1.
 
Select the last point we created to create the new point. You should now have 2 points created for the cutout.
 
The next point is located 2 inches to the right of the last point we created. Change the values in the Angle fields to Angle: 0, Distance: 2. Select the last point we created to create the new point.
 
The last point is located 2 inches above the last point we created. Change the values in the Angle fields to Angle: 90, Distance 2. Select the last point we created to create the new point.
 
We now have created the four points of our cutout. We can now connect these points with lines.
 
  
 
[[File:W111.JPG]]
 
[[File:W111.JPG]]
  
Go to the Line sub-tab within the Create tab. Select Two Points and check the Continuous checkbox. Select the upper-left point of our cutout. You will notice that the point turns into a blue circle. Select the point directly below this point to create the first line. Since Continuous mode is enabled, you may continue selecting points to create lines. Select the bottom right point of the cutout, followed by the top right point, and click the top left point to finish the shape. See the picture below.
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15. Go to the "'''Line'''" sub-tab within the "'''Create'''" tab.
 +
 
 +
16. Select "'''Two Points'''" and check the "'''Continuous'''" checkbox. Select the upper-left point of our cutout. You will notice that the point turns into a blue circle.
 +
 
 +
17. Select the point directly below this point to create the first line. Since '''Continuous''' mode is enabled, you may continue selecting points to create lines.
 +
 
 +
18. Select the bottom right point of the cutout, followed by the top right point, and click the top left point to finish the shape. See the picture below.
  
 
[[File:W112.JPG]]
 
[[File:W112.JPG]]
  
click the top left point to finish the shape. See the picture below.
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19. Click the top left point to finish the shape. See the picture below.
Once you create the last line, a line will still be attached to your cursor, as Continuous mode is still enabled. Select the Cancel button on the top of the screen to cancel creating lines. Go to the Arc tab. Select Fillet, change the Radius to 0.5 and check the Auto-Trim checkbox.
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 +
20. Once you create the last line, a line will still be attached to your cursor, as Continuous mode is still enabled. Select the "'''Cancel'''" button on the top of the screen to cancel creating lines. Go to the "'''Arc'''" tab. Select "'''Fillet'''", change the Radius to "'''0.5'''" and check the "'''Auto-Trim'''" checkbox.
  
 
[[File:W113.JPG]]
 
[[File:W113.JPG]]
  
Click on the right line of the cutout, followed by the bottom line. This will create a fillet at the intersection of the two lines.
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21. Click on the right line of the cutout, followed by the bottom line. This will create a fillet at the intersection of the two lines.
  
 
[[File:W114.JPG]]
 
[[File:W114.JPG]]
  
The cutout should now look like the picture below. We must now define both of the holes on the flange. To do so, all we need to do is define the flange like normal. The holes will automatically be defined along with the flange.
+
*The cutout should now look like the picture below. We must now define both of the holes on the flange. To do so, all we need to do is define the flange like normal. The holes will automatically be defined along with the flange.
  
 
[[File:W115.JPG]]
 
[[File:W115.JPG]]
  
Go to the Definition tab within the Part tab. Click the Define Flange button and click the bottom line of the Base Flange.
+
22. Go to the "'''Definition'''" tab within the "'''Part'''" tab.  
 +
 
 +
23. Select the "'''Define Flange'''" button and click the bottom line of the '''Base Flange'''.
  
 
[[File:W116.JPG]]
 
[[File:W116.JPG]]
  
We have completed the base flange of our part and will now move on to the left side flange. This flange has a single circular hole on it. Select the Flange List button and select Flange 2. Close the Flange List by selecting the List button again.
+
'''The base flange of our part is now complete.''' Now, move on to the left side flange. This flange has a single circular hole on it.
 +
 
 +
24. Select the "'''Flange List'''" button and select "'''Flange 2'''". Close the Flange List by selecting the "'''List button'''" again.
 
The flange on the left of our part will now be the active flange. To create the circular hole, we will first need to create the center point.
 
The flange on the left of our part will now be the active flange. To create the circular hole, we will first need to create the center point.
Select the Create tab.
 
Select the Point sub-tab.
 
Select the Entity Center option.
 
The hole is centered on the flange, so we will use the Entity Center feature to locate a point on the center on the flange’s edge line. Select the left-most vertical line of the flange. A point will be created at the center of this line.
 
We must now create a point 1.5 inches from this edge. Select the Incremental point method and enter the values shown here:
 
  
[[File:W117.JPG]]
+
25. Select the "'''Create'''" tab.
 +
 
 +
26. Select the "'''Point'''" sub-tab.
  
Select the new point we just created. A new point will be created to the right of it. Now that we have created the point for the hole, we can create the hole. We will use an arc for the hole.
+
27. Select the "'''Entity Center'''" option. The hole is centered on the flange, so we will use the Entity Center feature to locate a point on the center on the flange’s edge line.  
Select the Arc tab.
 
Select the Values option and enable the Full Circle option. Enter a radius of 0.5 in the Radius field. Since we are creating a complete circle, the start and end angle fields are not available.
 
  
[[File:W118.JPG]]
+
28. Select the left-most vertical line of the flange. A point will be created at the center of this line. Now, create a point "'''1.5 inches'''" from this edge.  
  
Select the point we created in the center of the flange to create the circle. Once again, we will need to re-define this flange in order to update the part.
+
29. Select the "'''Incremental'''" point method and type in the values shown here:
Select the Part tab.
 
Select the Definition tab.
 
Select the Define Flange button and then select the left-most vertical line of the flange. The flange and the circle hole will be defined.
 
  
We must now create the holes in the final flange. Click the Select button next to the Flange area. We will use this method to select the flange we wish to work on. Select the far-right line on the right flange. This flange will become the active flange; we can now create the features.
+
[[File:W117.png]]
  
[[File:W119.JPG]]
+
30. Select the new point we just created. A new point will be created to the right of it. Now that we have created the point for the hole, we can create the hole. We will use an '''arc''' for the hole.
  
Select the Create tab followed by the Point tab.
+
31. Select the "'''Arc'''" tab.
Select the Incremental option and enter the values shown here:We will be creating a point 1.5 inches from the edge of the part and 1 inch in. Note the negative sign in the X field.
 
  
[[File:W120.JPG]]
+
32. Select the "'''Values'''" option and enable the "'''Full Circle'''" option. Type in a radius of "'''0.5'''" in the "'''Radius'''" field. Since we are creating a complete circle, the start and end angle fields are not available.
  
To create the point, select the bottom right corner of the flange, this will place the point as shown in the picture below.
+
[[File:W118.png]]
 +
 
 +
33. Select the point we created in the center of the flange to create the circle. Once again, we will need to re-define this flange in order to update the part.
 +
 
 +
34. Select the "'''Part'''" tab.
 +
 
 +
35. Select the "'''Definition'''" tab.
 +
 
 +
36. Select the "'''Define Flange'''" button and then select the left-most vertical line of the flange. The flange and the circle hole will be defined.
 +
 
 +
37. Now, create the holes in the final flange. Click the "'''Select'''" button next to the Flange area. We will use this method to select the flange we wish to work on.
 +
 
 +
38. Select the far-right line on the right flange. This flange will become the active flange; we can now create the features.
 +
 
 +
[[File:W119.png]]
 +
 
 +
39. Select the "'''Create'''" tab followed by the "'''Point'''" tab.
 +
 
 +
40. Select the "'''Incremental'''" option and enter the values shown here: '''We will be creating a point 1.5 inches from the edge of the part and 1 inch in. Note the negative sign in the X field.'''
 +
 
 +
[[File:W120.png]]
 +
 
 +
41. To create the point, select the bottom right corner of the flange, this will place the point as shown in the picture below.
  
 
[[File:W121.JPG]]
 
[[File:W121.JPG]]
  
Select the Hole tab.
+
42. Select the "'''Hole'''" tab.
Select the Rectangle shape and enter 0.5 for Width, 0.1 for Corner Radius, 1 for Length. Enter 0 in the Angle field.
+
 
Click on the point that we just created to place a hole there.
+
43. Select the Rectangle shape and enter "'''0.5'''" for Width, "'''0.1'''" for Corner Radius, "'''1''''" for Length and "'''0'''" in the Angle field.
We now have the first hole of this flange. To create the remaining holes, we will use Move/Copy. Select the Edit tab and select the Move sub-tab. Ensure Cursor Select is selected under Selection.
+
 
Uncheck the All box under Include Features. Next, check the Holes box to allow us to select only holes.
+
44. Select the point that we just created to place a hole there. We now have the first hole of this flange.  
Select the Move - Incremental option and enter 1 in the Vertical field.
+
 
We also have to enable the Duplicate option, otherwise we will simply move the hole. We want to copy the hole and create 4 copies; this will give us the 5 holes needed on this flange. The holes will be evenly spaced 1 inch apart vertically.
+
*To create the remaining holes, we will use "'''Move/Copy'''".
Check the Duplicate checkbox and enter 4 in the Number of Copies field.
+
 
Select the rectangle hole we created earlier. Four copies of the hole will be created instantly. Your screen should look like the picture below.
+
45. Select the "'''Edit'''" tab and select the "'''Move'''" sub-tab. Ensure "'''Cursor Select'''" is selected under "'''Selection'''".
 +
 
 +
46. Uncheck the "'''All'''" box under "'''Features to Include'''". Next, check the "'''Holes'''" box to allow us to select only holes.
 +
 
 +
47. Select the "'''Move - Incremental'''" option and enter "'''1'''" in the Vertical value field.
 +
 
 +
48. Also, enable the "'''Duplicate'''" option, otherwise we will simply move the hole. We want to copy the hole and create '''4''' copies; this will give us the '''5 holes''' needed on this flange. The holes will be evenly spaced 1 inch apart vertically.
 +
 
 +
49. Check the "'''Duplicate'''" checkbox and enter "'''4'''" in the "'''Number of Copies'''" field.
 +
 
 +
50. Select the rectangle hole we created earlier. Four copies of the hole will be created instantly. Your screen should look like the picture below.
  
 
[[File:W122.JPG]]
 
[[File:W122.JPG]]
  
Go to the Definition tab inside the Part tab. Click the Define Flange button and click the line on the far right side of Flange 3. In the Display Mode drop down menu in the toolbar, select 3D Shaded. Your part should look like the picture below. Use the Display Mode menu to switch back to Design view when you are finished viewing the part.
+
51. To apply these holes, select the "'''Complete'''" button at the top of the display area.
 +
 
 +
52. *Go to the "'''Definition'''" tab inside the "'''Part'''" tab. Select the "'''Define Flange'''" button and click the line on the far right side of Flange 3. In the "'''Display Mode'''" drop down menu in the toolbar, select "'''3D Shaded'''". Your part should look like the picture below.  
 +
 
 +
*Use the Display Mode menu to switch back to Design view when you are finished viewing the part.
  
 
[[File:W123.JPG]]
 
[[File:W123.JPG]]
  
PickPoints:
 
We will now create some PickPoints on the part for use in the assembly. As stated before, PickPoints are crucial to the placement of parts in the assembly. All creation and editing in the assembly is done with pickpoints. We will create some PickPoints on the part to allow us to assemble our parts.
 
Be sure that the right flange is the active flange. If not, select it from the Flanges List before moving forward.
 
Select the Create tab followed by the Misc tab. Inside the Misc tab, go to the PickPoint tab.
 
We will create a pickpoint on the far edge of the part, on the bottom of the material. Ensure that the Depth is set to 0.0 and then select the lower-right corner of the right flange. The pickpoint will be created.
 
Next we will create two pickpoints on the left flange of the part. Select the Flange List and select the left flange. Select the List button again to close the list.
 
Select the lower-left corner of this flange to create the first pickpoint. Next, select the upper-left corner to create the second pickpoint.
 
We have now created the three pickpoints we will later use in the assembly.
 
Remember: the flange you are working on must be the active flange.
 
  
Send to Assembly:
+
==Transfer to Assembly==
We will now send the completed part to an assembly. This will allow us to create the second part and assemble them together.
 
Select the Part tab followed by the Assembly tab.
 
Select New Assembly from the drop-down list.
 
We must now select three points defining the base point and direction of the part. We also have to assign a depth to these points. We will define the points on the bottom of the material, so we will leave the Depth at 0.0.
 
Click the Set button in the Base Point area. Select the lower-left corner, the lower-right corner, and then the upper-left corner of the base flange (in that order). The Send button should now be available.
 
Make sure you are selecting the corners of the base flange and not part of the bend zones. You must take care when selecting the points. Once you have properly selected the three points, select the Send button.
 
The image here shows the points to pick.
 
  
[[File:W126.JPG]]
+
[[File:transfer_part_dropdown1.png|right]]
  
You will be prompted to give the part a name. Name the part however you wish and select the OK button. The part will be opened in the Assembly. You should see the part in the Master Part List and a preview of it to the right. To continue, we must first make the second part of this tutorial. To create a new part, open a new Part Interface by clicking on the New Plate icon in the main toolbar.
+
1. Select the "'''Transfer Drop Down Menu'''" [[File:Transfer.png]] on the '''Icon Menu Bar''' at the top of the screen.
 +
 
 +
2. From there, select the "'''New Assembly'''" option.
 +
 
 +
3. A window will open labeled "'''Prepare for Assembly'''".
 +
 
 +
[[File:Transfer_prepare_2_assembly2.png]]
 +
 
 +
4. Select the "'''Axis'''" [[File:Transfer_axis_button.png]] button and click on the "'''Red'''" axis in the display area.
 +
 
 +
5. Then, select the "'''Rotate'''" [[File:Transfer_rotate_button.png]] button 3 times to rotate the part into place as seen in the picture below.
 +
 
 +
[[File:Transfer98.png]]
 +
 
 +
6. Now, select the "'''OK'''" [[File:OK99.png]] button to bring the part into Assembly.
 +
 
 +
7. When the "'''Name Part'''" window opens, simply select the "'''OK'''" [[File:OK99.png]] button to continue. [[File:Name_part_window1.png|right]]
 +
 
 +
8. Click on the Tri-star to place the point there.
 +
 
 +
[[File:Plate_in_ass2.png]]
 +
 
 +
'''The transfer is now complete.'''
 +
 
 +
9. Next, we need to create an anchor point for the next Plate to attach to, so go into the Pickpoints tab and type "'''3'''" into the "'''Ceiling'''" field.
 +
 
 +
10. Place the cursor on the Tri-star and SHIFT+CLICK (hold the Shift key and Click with the mouse at the same time) to apply a point 3 inches above the Tri-star.
 +
 
 +
[[File:Plate_in_ass3.png]]
 +
 
 +
'''We will now create a new part that will be attached to this one.'''
 +
 
 +
*To continue, create the new part.
 +
 
 +
11. Open a new part by clicking on the "'''New Plate'''" [[File:Plate_icon.png]] icon in the [http://www.bend-tech.com/wiki7/index.php?title=Main_Menu_Bar#Toolbar.2FStatus_Bar Toolbar/Status Bar].
  
 
[[File:W127.JPG]]
 
[[File:W127.JPG]]
  
Select the Create tab followed by the Point button.
+
12. Back in the Plate designer, select the "'''Incremental'''" option in the "'''Create-->Point'''" tab.
Select the Incremental option and input values as shown here:
+
 
 +
13. Type "'''10'''" into the X field and type "'''8'''" into the Y field.
 +
 
 +
[[File:Trans_tut1.png]]
 +
 
 +
14. Select the Origin in the display area to place the point.
 +
 
 +
[[File:Trans_tut2.png]]
 +
 
 +
15. Then, select the "'''Line'''" sub-tab and the "'''Rectangle (Two Points)'''" option.
 +
 
 +
[[File:Trans_tut4.png]]
 +
 
 +
16. Now, click the Origin and the new point in the display area to create a rectangle.
 +
 
 +
[[File:Trans_tut3.png]]
 +
 
 +
'''Now, define the part so we can transfer it.'''
 +
 
 +
17. Go to the "'''Part'''" tab and the "'''Definition'''" sub-tab.
 +
 
 +
[[File:Trans_tut5.png]]
  
[[File:W128.JPG]]
+
18. Select the "'''.25'''" material from the "'''Material'''" drop down menu.
  
Select the origin point to create the new point, 1 inch above and 1 inch to the right.
+
[[File:Trans_tut6.png]]
Select the Absolute option and input the values shown here:
 
  
[[File:W129.JPG]]
+
19. Select the "'''Define Flange'''" button and click just outside of the rectangle in the display area to define it.
  
Click the Submit button to place the point 9 inches to the right and 1 inch above the origin point.
+
'''Now, we need to transfer this part into the same Assembly project as the other part.'''
The two points we just created will be used for positioning the part when we send it to the assembly. Now we must create a third point for the part itself. Select the Incremental option again and input these values:
 
  
[[File:W130.JPG]]
+
[[File:Trans_tut7.png|right]]
  
Select the origin point and the point will be created. We can now create the lines for this part.
+
20. Select the "'''Transfer'''" drop down menu from the Icon Menu bar and click on the "'''Existing Assembly'''" option.  
Select the Line tab.
 
Select the Rectangle (2 Points) option.
 
We are going to create a rectangle by specifying two opposite corners. Select the origin point as the first point of the rectangle. Select the point that is farthest to the top right. We now have created the rectangle part we need. However, we must first define it before moving forward.
 
Select the Part tab.
 
Select the Definition tab.
 
Select the same material we used for the previous part from the Material drop-down list. Select the Define Flange button.
 
Click one of the four lines of the rectangle to define the part.
 
  
The part should now be defined. We can send this part to the assembly to assemble it with our other part we created.
+
21. Select "'''Assembly - 1'''" from the list and the "'''Prepare for Assembly'''" window will appear.
Select the Assembly tab.
 
Select the Assembly drop-down list and select the assembly we already have opened.
 
Now we must select the three anchor points for the part. We will use the two points we created earlier. Select the first point, the second point, and the upper-left corner of the part (in that order).  Leave the Depth at 0 (zero) for all three of the points.
 
  
[[File:W132.JPG]]
+
[[File:Trans_tut8.png]]
  
The Send button should now be available. Select the Send button. Leave the parts name as “Plate 2” and click the OK button in the Plate Name window. The part will then be opened in the assembly. We should now have two parts available in the assembly.
+
22. In this window, select the "'''Axis'''" [[File:Transfer_axis_button.png]] button and click the "'''Red'''" axis in the display area.
Now that we have both parts created, we must create a few base pickpoints in the assembly. The pickpoints will be used to position our first part.
 
Select the PickPoints Tab.
 
Select the Reference Tab.
 
Select the Set Reference button.
 
We are going to create a pickpoint similar to using the Incremental method in the Plate Interface, but we select the reference point first, then enter the values for where the point is to be located. We already have one point created for us, it lies at the center of the origin or tri-star. This point is the (0, 0, 0) coordinate.
 
Select this point. The point should turn red.
 
Now we can enter the values for the new point. Enter 8 in the Front field. Click the Apply button, followed by the Clear Values button. Enter 6 in the Left field and click the Apply button.
 
  
[[File:W134.JPG]]
+
23. Then, click the "'''Rotate'''" [[File:Transfer_rotate_button.png]] button 3 times so the part is in the position seen in the picture below.
  
Select the Main Tab.
+
[[File:Trans_tut9.png]]
Select “Plate 1” (the 3-flange part).
 
Select the Paste Part button.
 
The part is now ready to be pasted into the assembly. To add the part, we must select three anchor points in the design area. These points will coincide with the three points we used when transferring the part to the assembly.
 
Select the origin point as the base point for the part. The point should turn red.
 
Select the first point we created (in the to front direction) as the second anchor point. The point should turn red.
 
Select the second point we created (in the to left direction) as the final anchor point. The part will now be displayed in the design area.
 
You should notice the PickPoints we created with the part are displayed with the part. We will use these points to attach the next part.
 
  
Select “Plate 2” from the Master Parts List (part with no bends).
+
24. Now, under the "'''Create Points'''" section, type "'''1'''" into the "'''Front'''" field and "'''1'''" into the "'''Right'''" field.
Select the Paste Part button. Once again we need to select three points in the design area to paste the part. Select the three pickpoints that we created with the first part as shown below in the specified order.
 
  
[[File:W137.JPG|700px]]
+
[[File:Trans_tut10.png]]
  
 +
25. Select the "'''Set Reference'''" button.
  
Once you select the third point, the part will be added to the assembly. Your assembly should now look similar to the picture below.
+
26. Now, click the intersection of the 3 axes to set it as a reference and place the Pickpoint.
  
[[File:W138.jpg]]
+
27. Click the "'''Apply'''" button and select the "'''Change Coupler'''" [[File:Transfer_change_coupler.png]] button.
  
 +
28. Select the new (green) Pickpoint in the display area to assign the coupler there.
  
 +
[[File:Trans_tut13.png]]
  
Select the Projection button at the top of the design area. [[File:W139.jpg]]
+
29. Select the "'''OK'''" [[File:OK99.png]] button to close the window and finish the transfer.
  
Select the Right button. [[File:W140.jpg]]
+
30. Now, minimize the Plate window and maximize the Assembly window.
  
The view will re-orientate itself so hat you are looking at the assembly from the right side. Your assembly should look similar to the picture below.
+
31. Back in the Assembly designer, click on the green Pickpoint on the top of the first part to place the second part on top of it.
  
[[File:W141.jpg]]
+
[[File:Trans_tut11.png]]
  
 +
'''You have completed the Plate Tutorial!'''
  
 +
[[File:Trans_tut12.png]]
  
 
Dimensions: We will now add several dimensions to the assembly to verify the overall dimensions of the parts.
 
Dimensions: We will now add several dimensions to the assembly to verify the overall dimensions of the parts.
  
Click the Dimension tab. [[File:W142.jpg]]
+
* Select the "'''Dimension'''" tab. [[File:W142.jpg]]
  
Select the Horizontal button. [[File:W143.jpg]]
+
* Select the "'''Horizontal'''" button. [[File:W143.jpg]]
  
  
We will create a dimension measuring the overall width of the first part. Select the two pickpoints shown below-left, you will then need to select a location to create the dimension. Select the two points shown below-right to create a dimension measuring the width of the part.
+
* Create a dimension measuring the overall width of the first part. Select the two Pickpoints shown below-left, you will then need to select a location to create the dimension.
  
[[File:W144.jpg]]
+
* Select the two points shown below-right to create a dimension measuring the width of the part.
  
 +
[[File:platetut55.jpg]][[File:W144.jpg]]
  
We will now add a dimension to measure the height of the first part we created.
+
*Now, add a dimension to measure the height of the first part created.
  
Select the Vertical button. [[File:W145.jpg]]
+
* Select the "'''Vertical'''" button. [[File:W145.jpg]]
  
Select the bottom and top point of the right side of the flange to create the vertical dimension shown above.
+
* Select the bottom and top point of the right side of the flange to create the vertical dimension shown above.
  
  

Latest revision as of 06:42, 28 September 2016

This tutorial is designed to walk you through the steps in creating a part using the sheet metal module.

Sheet Metal/Plate Design

  • This tutorial will begin by showing how to create a specified piece of bent sheet metal designed with "PickPoints".
  • If you're not familiar with this interface, it is suggested that you visit the Sheet Metal Module page for better understanding of the basics.


Things To Know

  • This tutorial is designed to walk the user through creating a sheet metal/plate design. As you go through this tutorial, later procedures will assume that you understand all earlier procedures. Because of this, it is very important that you carefully step through this guide, understanding everything along the way and following all steps in order.
  • A few key items need to be addressed before starting the step-by-step instructions of this tutorial. It is very important for Bend-Tech users to completely understand these items:
1) PickPoints
PICKPOINTS ARE USED FOR EVERYTHING. The Sheet Metal part of the software is largely run in full 3D. Because a computer screen is only 2D, there is an unlimited amount of depth behind and in front of the cursor. A PickPoint is a point in 3D space that can be used for creating, editing, and placing parts in handrail design. PickPoints can be placed in a 2D environment by having their depth manually entered in the appropriate value fields.
  • There are 2 types of PickPoints; Those automatically created by the part by default (various colors) and user-defined points (green). In addition, the initial (0,0,0) point is an automatic point that resides at the center of the Tri-Star. The Tri-Star is our directional definition locator.


2) Apex
  • Apex: Most bend locations are created in Sheet Metal design with the "Apex". Our definition of apex is the intersection of the straight parts as if there wasn’t a radius.
This is demonstrated in the picture below.

W5.PNG


3) Location Orientation
  • Since there is no Tri-Star like in other tube bending interfaces, the only orientation users should worry about when designing in Sheet Metal, is a bird's eye view. This designer is set up so that users can imagine looking over their project as if it is on their table in front of them.

Start Up

1) Start by double clicking the "Bend-Tech 7x" icon to start up the program.Bend tech icon.png

2) Select the "Plate" icon Plate icon.png in the Task Menu under the "Create New" section to open the Sheet Metal/Plate interface, Or... select the Plate button on the main toolbar, OR... select "File → New → Plate". The window that opens should be labeled [Plate - 1].

3) For the purposes of this tutorial, click the "Maximize" button Min Max Close Tab.png at the top right of the plate design window.

Free Select

  • Free Select Freeselect1.png can be used to allow the user to click anywhere on the screen as if there was a point. Whenever Free Select is on, the display window is dimmed slightly. It is very difficult to place points with precision using Free Select mode, so make sure you take it off whenever you are trying to do something where precision matters.

CAD vs Sheet Metal

  • The Part Interface is basically divided into 2 areas, a simple CAD interface and sheet metal functions. The CAD functions allow you to create a part using points, lines, arcs, and other features for the part, much like other CAD software. These functions include trimming/extending lines, using tangent and intersection points, and placing dimensions. The sheet metal portion of the software allows you to convert features into a flange and add flanges together with bends.

Bending Radius

  • When creating a bent part and setting up a material in the Plate Material Library, it is important to understand that the bending radius is the INSIDE radius of the bend. While some areas of the software may use the centerline dimensions, the bending radius of each bend on a sheet metal part is referring to the Inside Radius.
  • The following image shows the part we will be building in this tutorial.

W81A.JPG

Creating The Base Flange

1. To begin, the new plate interface will be displayed and can be broken down into two parts: The left side contains the features and value inputs, while the right side is where we see and select the features of the part. The large window on the right side of the screen is referred to as the Display Area in this tutorial as in most others.

W82.JPG

W83.JPG

2. The first step to most any part is to create some points defining the part’s base flange. All features of a part can be created under the "Create" tab (except for bends).

3. Select the "Create" tab.


W841.JPG

4. The "Point" sub-tab will be displayed, showing the different methods you can use to create a point.

5. Notice that the part already has a point created at the (0, 0) coordinate. This point is the first point in our part. As seen below, our first part is 8 inches wide, so start by creating the base flange that wide.

6. Select the "Incremental" point option.

W85.JPG

7. Type a value of "8" in the "X" value field as shown here.

8. As you move the cursor over the part, you will notice a point "8" inches to the right.

9. Now, select the base point to create the new point with the offset.

10. Select the base point (origin) of the part and the software will create the new point 8 inches in the X-direction.

W861.png

W87.JPG

11. Next, we will create a point "6" inches above this new point.

12. Type "0" in the "X" field and "6" in the "Y" field. This will create a point 6 inches above our cursor.

13. Select the point created in the last step to create the third point of the flange.

14. The next point we create will be 6 inches above the base (origin) point. We already have this offset in the fields so we can simply select the origin point to create the fourth point.

W881.png

W88.JPG

15. The four points now define the outer edge of our base flange. Connect these points with four lines.

16. Select the "Create" tab (if it is not already selected).

17. Select the "Line" tab.

18. Select the "2 Points" option.

19. Click the "Continuous" checkbox next to the "Two Points" option.

20. Select the upper-left point for the first point of the line. Select the origin point as the second point of the line.

W891.png

You will now have a line created, connecting the 2 points you selected.

W89.JPG

21. Click the top right point in the display area, then the bottom right point and finally the bottom left point making a rectangle like in the picture below.

The base part is complete.

W90.JPG

Defining the Base Flange

  • Now that we've completed our 8 inch by 6 inch base flange, we must define the flange.

1. Select the "Part" tab. In the "Definition" sub-tab, click the "Library" button. The Plate / Sheet Library will open.

W91.JPG

2. There are two Add New buttons. Click the left one and type “.25 Inch” in the Material Name field.

3. Type ".25" in the thickness field (the field with the arrow pointing towards it in the picture below). Make sure Inches is selected in the Units area and click the Save button.

  • (Note) Make sure to "Save" this to the "Material List" in order to perform the next steps.

W92.JPG

4. Click on ".25 Inch" in the Material List. Click the right "Add New" button.

5. Type ".5" in the "Inside Bending Radius" value field and click the "OK" button.

6. Type "40" for the K-Factor and click the "OK" button. Click the Apply button, then the Close button to close the Plate / Sheet library.

W93.JPG

7. Go to the "Part" tab.

8. Select ".25 Inch" in the "Material" drop down menu. Click the "Define Flange" button.

9. Click anywhere inside the box that you made in the display area. (Note: When defining more intricate parts which include entities like holes, text, arcs, etc. be sure to click on the outer-most edge of the flange. The software defines the part closest to the cursor.) You should see the "Flanges List" button turn green, indicating that a flange has been defined successfully.

W94.JPG

W95.JPG

10. Go to the "Bends" sub-tab within the "Part" tab.

11. In the "Bend Properties" section, change the "Flange Initial Height" to "3". Make sure "0.5" is selected in the "Inside Bend Radius" value field and "Up" is selected in the "Direction" section.

W96.png

12. Change the "Parent" and "Child Bend Location" to "Outside Apex".

W97.JPG

13. Select the "New" button. Click the line on the left side of the box you made. You will be prompted to name the flange. By default it will be named “Flange 2” which is good enough.

14. Select the "OK" button. You should now see two new areas created on the part. The first area is the bend zone, an area between each flange that extends from the start of the bend to the end of the bend. The second area that was created is the second flange, which is built according to the Flange Initial Height we specified ( 3 inches in this case ). Your screen should now look like the picture below.

W98.JPG

(Note) The two flanges and bend zone will overlap, as we have selected Outside Apex for both sides of the bend. The bend zone extends from the tangent of each side. If we have selected tangent for both sides, the bend zone would not overlap.

W99.JPG

15. Select the "New" button. Click the line on the right side of the box in the display area.

W99.JPG

  • You will be prompted to name the flange, but “Flange 3” is good enough.

16. Select the "OK" button.

Your part should now look like the picture below.

W101.JPG

17. On the "Toolbar", click the arrow next to the "Display Mode" button. Select "3D Shaded". The part will now be displayed in full 3D.

18. Click and hold the right mouse button on the part to rotate the display or click and hold both mouse buttons to pan. Use the scroll wheel to zoom in and out.

19. Go back to the "Display Mode" menu on the "Toolbar" and select "Design".

W102.pngW103.JPG

20. Now, to define the two new flanges, go to the "Definition" sub-tab within the "Part" tab. Select on the "List" button in the "Flanges" area.

21. Double Click on "Flange 2".

W105.png

22. Select the "Define Flange" button and click on the line on the left side of "Flange 2". See the picture below to make sure you are selecting the correct line.

W104.JPG

23. Use the List menu in the Flanges area to select Flange 3. Click the "Define Flange" button and click on the line that is on the right side of "Flange 3".

W106.JPG

  • The part will be completely defined when the "List" button at the top of the screen turns green.

Internal Features

  • Now that the main structure of the part has been created, we will begin creating the internal features of each flange. In order to create a feature on a flange, that flange must be the active flange. We will begin with the base flange.

1. Use the "Flange List" to select the Base Flange item.

2. The first flange you've created should now be active (the other flanges should be gray).

3. Referring to the part dimensions, create a square hole and a custom cutout in this flange. First, create the square hole, however, we must create a point to place the hole with. Go to the Create tab and make sure you are in the Point sub-tab.

4. Select Incremental. Enter 2 in the X field and 3 in the Y field. Click the bottom left point of the base flange, which is also the location of the XY axis.

W107.pngW108.JPG

5. Go to the "Hole" sub-tab within the "Create" tab. Select "Square" in the "Hole Shape" area. Type "1" in the "Width" value field, "0" in the "Angle" value field, and "0" in the "Corner Radius" value field.

6. Select the point that you just made in the display area to place the hole there.

W109.pngW110.JPG

7. The upper-left corner of the cutout is 2 inches to the right of the center of our square hole. Try using the Angle method of creating a point for the first one.

8. Go to the "Point" sub-tab within the "Create" tab.

9. Select the "Angle" option and enter Angle: 0, Distance: 2.

10. Since we created the point for the square hole, we can use that as the reference point for the new point. Select the point at the center of the square hole to create a new point 2 inches to the right.

11. Our next point is located 1 inch down from this new point. Change the values in the Angle fields to Angle: 270, Distance: 1.

12. Select the last point we created to create the new point. You should now have 2 points created for the cutout.

13. The next point is located 2 inches to the right of the last point we created. Change the values in the Angle fields to Angle: 0, Distance: 2. Select the last point we created to create the new point.

14. The last point is located 2 inches above the last point we created. Change the values in the Angle fields to Angle: 90, Distance 2. Select the last point we created to create the new point.

  • The four points of our cutout have been created . We can now connect these points with lines.

W111.JPG

15. Go to the "Line" sub-tab within the "Create" tab.

16. Select "Two Points" and check the "Continuous" checkbox. Select the upper-left point of our cutout. You will notice that the point turns into a blue circle.

17. Select the point directly below this point to create the first line. Since Continuous mode is enabled, you may continue selecting points to create lines.

18. Select the bottom right point of the cutout, followed by the top right point, and click the top left point to finish the shape. See the picture below.

W112.JPG

19. Click the top left point to finish the shape. See the picture below.

20. Once you create the last line, a line will still be attached to your cursor, as Continuous mode is still enabled. Select the "Cancel" button on the top of the screen to cancel creating lines. Go to the "Arc" tab. Select "Fillet", change the Radius to "0.5" and check the "Auto-Trim" checkbox.

W113.JPG

21. Click on the right line of the cutout, followed by the bottom line. This will create a fillet at the intersection of the two lines.

W114.JPG

  • The cutout should now look like the picture below. We must now define both of the holes on the flange. To do so, all we need to do is define the flange like normal. The holes will automatically be defined along with the flange.

W115.JPG

22. Go to the "Definition" tab within the "Part" tab.

23. Select the "Define Flange" button and click the bottom line of the Base Flange.

W116.JPG

The base flange of our part is now complete. Now, move on to the left side flange. This flange has a single circular hole on it.

24. Select the "Flange List" button and select "Flange 2". Close the Flange List by selecting the "List button" again. The flange on the left of our part will now be the active flange. To create the circular hole, we will first need to create the center point.

25. Select the "Create" tab.

26. Select the "Point" sub-tab.

27. Select the "Entity Center" option. The hole is centered on the flange, so we will use the Entity Center feature to locate a point on the center on the flange’s edge line.

28. Select the left-most vertical line of the flange. A point will be created at the center of this line. Now, create a point "1.5 inches" from this edge.

29. Select the "Incremental" point method and type in the values shown here:

W117.png

30. Select the new point we just created. A new point will be created to the right of it. Now that we have created the point for the hole, we can create the hole. We will use an arc for the hole.

31. Select the "Arc" tab.

32. Select the "Values" option and enable the "Full Circle" option. Type in a radius of "0.5" in the "Radius" field. Since we are creating a complete circle, the start and end angle fields are not available.

W118.png

33. Select the point we created in the center of the flange to create the circle. Once again, we will need to re-define this flange in order to update the part.

34. Select the "Part" tab.

35. Select the "Definition" tab.

36. Select the "Define Flange" button and then select the left-most vertical line of the flange. The flange and the circle hole will be defined.

37. Now, create the holes in the final flange. Click the "Select" button next to the Flange area. We will use this method to select the flange we wish to work on.

38. Select the far-right line on the right flange. This flange will become the active flange; we can now create the features.

W119.png

39. Select the "Create" tab followed by the "Point" tab.

40. Select the "Incremental" option and enter the values shown here: We will be creating a point 1.5 inches from the edge of the part and 1 inch in. Note the negative sign in the X field.

W120.png

41. To create the point, select the bottom right corner of the flange, this will place the point as shown in the picture below.

W121.JPG

42. Select the "Hole" tab.

43. Select the Rectangle shape and enter "0.5" for Width, "0.1" for Corner Radius, "1'" for Length and "0" in the Angle field.

44. Select the point that we just created to place a hole there. We now have the first hole of this flange.

  • To create the remaining holes, we will use "Move/Copy".

45. Select the "Edit" tab and select the "Move" sub-tab. Ensure "Cursor Select" is selected under "Selection".

46. Uncheck the "All" box under "Features to Include". Next, check the "Holes" box to allow us to select only holes.

47. Select the "Move - Incremental" option and enter "1" in the Vertical value field.

48. Also, enable the "Duplicate" option, otherwise we will simply move the hole. We want to copy the hole and create 4 copies; this will give us the 5 holes needed on this flange. The holes will be evenly spaced 1 inch apart vertically.

49. Check the "Duplicate" checkbox and enter "4" in the "Number of Copies" field.

50. Select the rectangle hole we created earlier. Four copies of the hole will be created instantly. Your screen should look like the picture below.

W122.JPG

51. To apply these holes, select the "Complete" button at the top of the display area.

52. *Go to the "Definition" tab inside the "Part" tab. Select the "Define Flange" button and click the line on the far right side of Flange 3. In the "Display Mode" drop down menu in the toolbar, select "3D Shaded". Your part should look like the picture below.

  • Use the Display Mode menu to switch back to Design view when you are finished viewing the part.

W123.JPG


Transfer to Assembly

Transfer part dropdown1.png

1. Select the "Transfer Drop Down Menu" Transfer.png on the Icon Menu Bar at the top of the screen.

2. From there, select the "New Assembly" option.

3. A window will open labeled "Prepare for Assembly".

Transfer prepare 2 assembly2.png

4. Select the "Axis" Transfer axis button.png button and click on the "Red" axis in the display area.

5. Then, select the "Rotate" Transfer rotate button.png button 3 times to rotate the part into place as seen in the picture below.

Transfer98.png

6. Now, select the "OK" OK99.png button to bring the part into Assembly.

7. When the "Name Part" window opens, simply select the "OK" OK99.png button to continue.
Name part window1.png

8. Click on the Tri-star to place the point there.

Plate in ass2.png

The transfer is now complete.

9. Next, we need to create an anchor point for the next Plate to attach to, so go into the Pickpoints tab and type "3" into the "Ceiling" field.

10. Place the cursor on the Tri-star and SHIFT+CLICK (hold the Shift key and Click with the mouse at the same time) to apply a point 3 inches above the Tri-star.

Plate in ass3.png

We will now create a new part that will be attached to this one.

  • To continue, create the new part.

11. Open a new part by clicking on the "New Plate" Plate icon.png icon in the Toolbar/Status Bar.

W127.JPG

12. Back in the Plate designer, select the "Incremental" option in the "Create-->Point" tab.

13. Type "10" into the X field and type "8" into the Y field.

Trans tut1.png

14. Select the Origin in the display area to place the point.

Trans tut2.png

15. Then, select the "Line" sub-tab and the "Rectangle (Two Points)" option.

Trans tut4.png

16. Now, click the Origin and the new point in the display area to create a rectangle.

Trans tut3.png

Now, define the part so we can transfer it.

17. Go to the "Part" tab and the "Definition" sub-tab.

Trans tut5.png

18. Select the ".25" material from the "Material" drop down menu.

Trans tut6.png

19. Select the "Define Flange" button and click just outside of the rectangle in the display area to define it.

Now, we need to transfer this part into the same Assembly project as the other part.

Trans tut7.png

20. Select the "Transfer" drop down menu from the Icon Menu bar and click on the "Existing Assembly" option.

21. Select "Assembly - 1" from the list and the "Prepare for Assembly" window will appear.

Trans tut8.png

22. In this window, select the "Axis" Transfer axis button.png button and click the "Red" axis in the display area.

23. Then, click the "Rotate" Transfer rotate button.png button 3 times so the part is in the position seen in the picture below.

Trans tut9.png

24. Now, under the "Create Points" section, type "1" into the "Front" field and "1" into the "Right" field.

Trans tut10.png

25. Select the "Set Reference" button.

26. Now, click the intersection of the 3 axes to set it as a reference and place the Pickpoint.

27. Click the "Apply" button and select the "Change Coupler" Transfer change coupler.png button.

28. Select the new (green) Pickpoint in the display area to assign the coupler there.

Trans tut13.png

29. Select the "OK" OK99.png button to close the window and finish the transfer.

30. Now, minimize the Plate window and maximize the Assembly window.

31. Back in the Assembly designer, click on the green Pickpoint on the top of the first part to place the second part on top of it.

Trans tut11.png

You have completed the Plate Tutorial!

Trans tut12.png

Dimensions: We will now add several dimensions to the assembly to verify the overall dimensions of the parts.

  • Select the "Dimension" tab. W142.jpg
  • Select the "Horizontal" button. W143.jpg


  • Create a dimension measuring the overall width of the first part. Select the two Pickpoints shown below-left, you will then need to select a location to create the dimension.
  • Select the two points shown below-right to create a dimension measuring the width of the part.

Platetut55.jpgW144.jpg

  • Now, add a dimension to measure the height of the first part created.
  • Select the "Vertical" button. W145.jpg
  • Select the bottom and top point of the right side of the flange to create the vertical dimension shown above.




We have now concluded this tutorial. You may experiment more with this part if you wish. For further information, please use the Help menu in the software or visit the rest of the wiki pages here.