Vero Software是為模具行業提供CAD / CAM / CAE解決方案的領先提供商,該公司很高興地通過7月在英國舉行的為期5天的開放日發布最新版本的旗艦產品VISI 19。
該產品將在夏季發布,代表著對工具設計和製造的持續關注,並包括一系列生產力的提高,包括核心3D CAM開發,64位支持,JT Open以及將PEPS功能進一步遷移到VISI平台上。
VISI Modeling是所有VISI產品的基礎應用程序,V19提供了CAD增強功能,包括具有改進的用戶交互性的更新GUI,新的融合功能,對廣泛採用的JT Open格式的支持,具有幾何和表面公差的改進3D註釋,高級輪廓偏移和圖形紋理映射。
【模具3D設計】Vero VISI 2021 的功能:
以下是安裝Vero VISI 2021後可以體驗的一些令人驚奇的功能,請記住功能可能有所不同,並且完全取決於您的系統是否支持它們。
核心粗加工–開發了一種新的粗加工算法,當從零部件外部進行加工時,刀具路徑形狀得到了改進。新的刀具路徑將大大減少快速移動的次數,允許使用超過刀具平面面積50%以上的步長,並縮短了計算時間。
結果是一條流動的刀具路徑,使機器在加工核心部件時可以接近其最大潛力運行。
HM Constant Z –該刀具路徑非常類似於陡峭和淺灘,並結合了傳統的Constant Z作業的所有優勢以及用於平面區域的高度複雜的3D套袋程序。
新的CAM算法對中間平面區域使用2D裝袋投影,而不是真正的3D過渡,結果可節省大量時間。
肋骨加工–這種新策略是專門為解決非常薄的肋骨壁的加工而設計的。使用多種操作的典型方法存在損壞零件的風險,特別是在肋骨遭受高頻振動和微彎曲的過程中,尤其是在加工即將結束時。
為了克服這些問題,Rib Machining算法將新的粗加工算法與新的精加工程序相結合,以通過對模型進行單獨的粗加工和精加工來確保最高的零件剛度。
【模具3D設計】Vero VISI 2021 官網下載:
https://www.visicadcam.com/
Vero Software, a leading provider of CAD/CAM/CAE solutions for the tooling industry, are pleased to present the latest release of its flagship product VISI 19 through a number of UK open houses running over 5 days in July. Due for a Summer release, the latest product offering represents a continued focus on tool design and manufacture and includes a host of productivity enhancements including core 3D CAM development, 64Bit support, JT Open and further migration of PEPS capabilities onto the VISI platform.
VISI Modelling is the base application for all VISI products and V19 delivers CAD enhancements that include an updated GUI with improved user interaction, new blending capabilities, support for the widely adopted JT Open format, improved 3D annotation with geometric & surface tolerances, advanced profile offset and graphical texture mapping.
Features of Vero VISI 2021
Below are some amazing features you can experience after installation of Vero VISI 2021 please keep in mind features may vary and totally depends if your system supports them.
Core Roughing – A new roughing algorithm has been developed with an improved toolpath shape when working from outside a component. The new toolpath will dramatically reduce the number of rapid movements, allow the use of more than 50% step over of the flat area of the cutter and improve calculation time. The result is a flowing toolpath that allows the machine to run near to its maximum potential when machining core components.
HM Constant Z – This toolpath is very similar to steep & shallow and combines all the benefits of a traditional constant Z operation with a highly sophisticated 3D pocketing routine for planar areas. The new CAM algorithm uses a 2D pocketing projection for the intermediate planar areas instead of a true 3D stepover and the results produce dramatic time savings.
Rib Machining – This new strategy has been designed specifically to resolve the issue of machining very thin rib walls. The typical approach of using multiple operations runs the risk of damaging the part, specifically towards the end of the process when the rib is subjected to high frequency vibrations and micro-flexes.
To overcome these issues the Rib Machining algorithm combines the new roughing algorithm with a new finishing routine to ensure the highest part-rigidity possible by roughing and finishing each level individually working down the model.