The internal or external part of the trimmed toolpath can be retained. Toolpath Trimming – With this option a toolpath can be trimmed to a profile or a set of profiles. Points on the toolpath can be edited or even deleted if necessary. Edit Toolpath – This allows the user to edit the toolpath completely. Operations can be ordered using different methods, at any time the original order can be re-instated. Operations Ordering – Here you can re-order the toolpath into the sequence that you require. Expand/Collapse all Tree items – This will expand all the tree items of all the operations and active projects. We now have all the profiles set ready for machiningġ0. NOTE : The colour of a pocket and a boss are different ‘The material side can be changed by pressing the space bar’ Profile - PF11 material side to be inside (arrow pointing inwards) and the thickness to be as follows (See Fig 5.0).
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Repeat the procedure for the remaining profiles with the values shown on the next page. Profile - PF10 (SMALL LINEAR SLOT) material side to be outside (arrow pointing outwards) and the thickness to be as follows (See Fig 5.0). We have now assigned a material side and thickness to one of the profiles. Profiles - PF5, PF6, PF7, PF8 and PF9 (CIRCLES & LARGE LINEAR SLOT) all material sides to be outside (arrows pointing outwards) and the thickness to be as follows (See Fig 5.0).Įnter the values as in the box above and select ‘OK’ Once the required material side has been selected hit the right hand mouse button and you will be presented with the following dialogue box. ‘The material side can be changed by pressing the space bar’ When the arrow is pointing inside then it is indicating that the material is on the inside and all machining will be calculated on the outside (a boss). Profiles - PF1, PF2, PF3, and PF4 (CIRCULAR SLOTS) all material sides to be outside (arrows pointing outwards) and the thickness to be as follows (See Fig 5.0). For this example, the outer most profile will have the material side pointing outwards. When the arrow is pointing out then it is indicating that the material is on the outside and all machining will be calculated on the inside (a pocket). The direction in which the arrow is pointing on the highlighted profile is an indication of the material side. Select again outside the two slots (as indicated above), this will automatically create all profiles apart from the outer rectangle (See Fig 2.0). Outer Profile Arrow pointing outwards Figure 2.0 : 2D Milling Example Select MACHINING/PROFILE CAM ATTRIBUTES and pick the outer profile (See Fig 4.0). “NOTE’’ All profiles must have a thickness and material side before any 2D machining can be performed on them. Now we must define the required thickness for each profile. We now have created profiles for all of the provided geometry. This will create a profile for the middle slot (See Fig 2.0). Select ‘Yes’ to confirm the profile creation Figure 1.0 : 2D Milling Example Select the WIREFRAME/ PROFILE/QUICK command Make sure the intersection icon is selected and pick anywhere inside the centre slot. Select ‘A’ for Automatic Figure 3.0 This will join all elements, travelling in the direction of the arrow, to become one profile. Select the automatically close the profile.Ī from the icons presented on the left to Select the FILE/OPEN command and open the file 2D Milling Example.wkf from the training folder. Select WIREFRAME/PROFILES/CLOSE and pick one of the elements that make up
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Included within the 2D machining we will cover basic drilling and point sets. A brief explanation of profile creation will be given at the start of the machining course. All 2D machining is performed on profiles, you should be familiar with profile creation from day 1 of the basic modelling course. The following examples show how each of the 2D machining strategies are used and gives an explanation of how they work.