KOMPAS-3D v24

1.ECAD - KOMPAS converter

•Added the ability to select a local or remote POLYNOM server.

•In a number of cases, when identical components with different Reference numbers had different three-dimensional models depending on the variant of the footprint, the Converter remembered the first established correspondence between the model and the component name, as a result of which it added the same model to the assembly regardless of its Reference number. Now a check for the uniqueness of the insert has been added, and the user can independently specify in the Converter the name of the field in the BOM file that is responsible for the Positional number.

•If the user chose to build a realistic model from a BOM-file containing component IDs in POLYNOM:MDM, but those components were not present in the POLYNOM database, the system would hang. Now in this situation the Converter moves on to building a layout model.

•Fixed some bugs detected during operation.

•The Help system has been improved.

2.Equipment. Cables and harnesses

•Building the "common areas" that model the conductor bundles was very time consuming in the whole process of creating the harness/cable model. Now, the time to build "common areas" has been significantly reduced by optimizing and changing the building methods.

•For the reason mentioned in the previous paragraph, the time to build the flat pattern is also significantly reduced, since the common areas will not be displayed on the flat pattern. The formation of the plaza markings is virtually unaffected, as the branch points remain in place.

•If a braid or outer tube was formed on any common area, they will be shown in the flat pattern.

•Added the ability to not draw leader-landings from the alphanumeric designation when assigning it to assembly components.

•Added possibility to import auxiliary material sets for harnesses and connectors from CAD MAX.

•In importing data from CAD MAX, added the ability to import only the list of components, or only the list of connections, or only the list of materials to a harness.

•The possibility of selection in POLYNOM: MDM and automatic placement in the main assembly or in subassemblies of harnesses of those components for which a unique global identifier ID PartLib (location) is defined in the exchange XML-file from CAD MAX or KOMPAS-Electric. Components are placed in the assembly as library items with BOM section set in POLYNOM.

•Added the ability to select a local or remote POLYNOM server.

•Fixed some bugs detected during operation.

•The Help system has been improved.

3.Shafts and mechanical gears

•A mechanism for creating and editing mechanical gears directly in the assembly model has been implemented. Assemblies of chain and belt gears (except for round chain gears) contain models of chains and belts immediately after building. This approach to gear design facilitates proper positioning of the gear elements relative to each other.

The model of each element is stored in a separate file and is available for editing using the application's standard tools. After editing, the modified element is regenerated and the assembly of the designed gear is rebuilt.

For gear elements designed in an assembly, the application can create drawings that will be linked to the models of the corresponding parts.

•Added the ability to design and calculate new types of mechanical gears:

•Chain gear with round link chain,

•Planetary chain gear,

•External gear pump.

•The calculation of a bevel gear with circular teeth has been improved. The diameter of the cutter head can be selected from an extended range of values or set arbitrarily.

•When calculating gears (wherever there is a cylindrical gear), the ability to select the degree of precision, type of mating and type of tolerance for lateral clearance from a table with lists of basic and custom options has been added.

•For involute splines according to GOST 1.00086-73 allowed the choice of rounded shape of the bottom of the depression, and added the calculation of tolerances with or without chemical-thermal treatment.

•In calculations of V-belt and flat-belt gear at selection of geometrical parameters the possibility of assignment of non-standard design diameter of the pulley, as well as input of non-standard (custom) length of the belt is realized.

•The geometry of 2D buildings in the places where the keyway and the slot for the grinding wheel outlet are connected has been improved.

•When entering thread parameters, it is now possible to disable the building of thread overhang.

•In 2D documents, it is now possible to add a callout with the designation of splines.

•When designing non-standard straight-sided splines, the ability to specify arbitrary (from the tolerance field database) or numeric tolerance fields has been added.

•Increased the number of input fields (diameter and length), when entering values in which it is available to remove dimensions from the drawing.

•For all types of splines, the choice of tool type has been implemented. If you select the Chisel tool, there will be no mill output.

•In all dialogs where rounding parameters are accessible, the selection of rounding direction has been removed. The direction is now automatically determined.

•For cylindrical gears, it is now possible to design shoulder to highlight the nitrocemented (cemented) zone of the gear teeth.

•For cylindrical gears with external engagement, a table of parameters with all control options has been added. Such a table is usually used when developing custom drawings, since it is not known in advance which control method the customer will use.

•For grooves under the grinding wheel exit, the possibility of building all types provided by GOST 8820-69 and GOST 18430-73 has been added.

•For cutouts in Array by concentric grid  added:

•possibility of uneven angular distribution of holes (set in the form of a table);

•the possibility to assign the depth for through holes (e.g. when it is necessary to cut the next step as well); the formulas of the application's geometric calculator can be entered in the hole depth value input field;

•new types of holes: Conical hole ,Hole with counterbore and chamfer;

•Selecting the thread type for a threaded hole.

•On rails (round and round with cut) the possibility to build a keyway has been added.

•Building of the worm profile ZK1 is realized.

•Implemented a new type of step - custom step. The user can create a fragment with the stage geometry (external or internal) according to certain rules  and load it into the shaft model.

•Using similar rules, it is possible to create a custom annular cutout for a step and a custom cutout (e.g. to create a toothed sector).

4.KompasFlow, fluid dynamics for Kompas-3D

•The view of the project tree and properties window has been changed.

•Added a new type of layer display -Fill. Now the display of this layer can be set not only as gradients with smooth color transitions, but also as a fill with gradation of each color with clear contours of borders, and the colors of the ranges will correspond exactly to the colors set in their palette.

•Added automatic check for self-intersections of the model mesh geometry when creating a new KompasFlow project on it. If self-intersection areas are detected as a result of the check, the surface to which such areas belong will be marked as erroneous in the Project tree.

•The possibility of creating projects on geometric models containing the same body names has been implemented.

•The ability to modify existing and create new layers and objects between solver calculation runs has been implemented. Now when you press the Open solution screen button, the project settings and the data calculated on the solver are synchronized, which make it available to continue the calculation with changes in the layers and objects of the project.

•Added a relativity parameter in the layer properties window, which can be used to set one of three options for expressing the variables Temperature and Pressure: absolute value, relative value, and over value. The specified variant of the variable expression is also displayed in the layer legend.

5.Service tools

Export of BOM is excluded from the set of BOM operations.

6.Equipment: Flat patterns

•New elements have been added:

•Tee type 4,

•Tee type 5.

•Added new type of Pipe transitional from circle to rectangle - type 2. The former Pipe transitional type 2 has been renamed "Pipe transitional type 3"

7.Mechanics: Springs

The building of the tension spring types of hooks views has been finalized.

8.Equipment: Pipelines

•It is now possible to build a point-to-point pipeline.

•In the interface of material/element selection from the reference, it is now possible to work with favorite objects.

9.Equipment: Steel structures

In the interface of material selection from the reference it is now possible to work with favorite objects.