英國VISI-Series CAD/CAM 模具軟件。VISI-系列在全球模具業界被公
認為是世界領先的CAD/CAM解決方案.它提供了一種獨特而完整的應用組
合,包括線架構、曲面及實體建模,全面的2D和3D加工策略,以及專業的
塑模和級進模設計工具.這是2013年最新發行的版本。
VISI 是一套完整而全面的模具業專用的先進的 CAD/CAM/CAE 解決方案
. 它提供了一套獨特的整合工具, 完全集成了線架構, 曲面和實體混合
建模, 綜合高速路徑專用的 2D, 3D 和 5 軸加工策略. 此外, VISI 還
涉及到日益重要的模具設計領域, 擁有全 3D 的沖模設計 (Visi-
Progress), 塑模設計 (Visi-Mould) 和塑膠模流分析 (Visi-Flow) 等
模塊.
針對不同軟件供應商間的銜接, 實體至曲面, CAD/CAM 圖形轉換等要求
, Vero Software 提供了專門的解決方案消除傳統系統的轉檔問題.
VISI 提供了以下模組:
VISI Modelling
VISI Modelling 是所有 VISI 產品的基礎, 提供一個基於行業標準
Parasolid 核心的健全的和強大的實體和曲面建模系統.
VISI Analysis
在工程早期找出潛在的問題是非常有益的. VISI Analysis 提供了一套
專業的工具來對模型進行檢查和準備.
VISI Mould
VISI Mould 基於特殊的自動化行業之上, 提供了完整的塑模設計的解
決方案, 引導客戶完成整個的塑模開發流程.
VISI Flow
VISI Flow 是一個獨特的預測工具. 產品設計, 模具製作和模具設計者
將受益於使用 Vero 的專業的射出模擬, 以實現成本效益和可靠的模具
設計以及最佳的成型條件.
VISI Electrode
VISI Electrode 是一種自動化模塊, 用於加工和管理電極以及為精密
製造而製作的電極治具, 並且努力加工塑膠模和沖壓模上的特徵.
VISI Progress
VISI Progress
VISI Progress 是一種直觀的工具, 用於製品分析, 3D 排料帶, 以及
級進模和沖壓模的設計.
VISI Multi-Slides
VISI Multi-Slides
VISI Multi-slides 是 VISI Progress 的延伸. 它被用於 “多滑塊機
床” 使用的凸輪設計, 及折彎工藝.
VISI Machining 2D
VISI Machining 2D 是 VISI Progress 的延伸. 它被用於 “多滑塊機
床” 使用的凸輪設計, 及折彎工藝.
VISI Machining 3D
VISI Machining 3D 在最複雜的 3D 製品上創建智能的刀具路徑. 專注
的高速銑削技術, 以平順的運算法則建立高效率的 NC 代碼.
VISI Machining 5 Axis
5 軸加工擁有許多優勢, VISI Machining 為操作者提供了卓有成效的
解決方案, 建立有著先進的碰撞控制的高效的刀具路徑.
VISI PEPS-Wire
完全基於特徵, VISI PEPS-Wire 採用了專為精密工程和模具工業研發
的業界領先的 PEPS Wire 技術.
VISI Blank
VISI Blank 是一款專為沖壓模具行業解決複雜 3D 形狀展開成 2D 形
狀的解決方案.
VISI Reverse
VISI Reverse 是一款高層次專門為 3D 逆向工程, 3D 實體再現, 醫學
應用和多種其它學科所設計的軟件解決方案.
官方最新消息:http://www.vero-software.com/ http://www.vero-
china.com.cn/
VISI-系列憑藉其專業化的運用,給精密製造者們帶來了超乎想像的生產
力.在處理不同軟件間和傳統系統所需的實體到曲面的轉換方面,它提供
了專業的解決方案.
英國華沃國際軟件有限公司很高興地宣佈在VISI-系列的V15版本中發佈
VISI-5軸加工功能,這將為模具、航空航天和汽車工業提供完整的5軸
解決方案
由25種不同的加工方式組成了功能豐富的模塊,允許用戶自主選擇需要
的功能。如果您正在加工葉片、深腔或發動機蓋,VISI-5軸加工功能為
您提供一套完整的解決方案。
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Description:
The 2019 R1 release of VISI software includes a boost for
reverse engineering, along with a range of new and enhanced
CAD/CAM functions for the mold and die market.
Reverse Engineering Features And Enhancements:
As part of a larger synergy project for reverse engineering
and casting, VISI 2019 R1 introduces an extended direct
interface to multiple portable measuring arms and Leica
scanning devices from Hexagon. Together with the enhanced
dedicated module, it provides a reverse engineering solution,
as well as the ability to generate casting and stock models
from VISI’s existing modelling and machining environment.
It means that a points cloud can be loaded either directly or
indirectly, and the relative mesh can be created by setting
different options for refining and smoothing. Surfaces can be
created automatically or semi-automatically by extracting
different key geometrical references from the refined mesh.
And scan data, stock or reference casting mesh models can
easily be aligned to the original geometrical CAD model using
dedicated commands to allow comparisons, gap analysis and
optimised toolpath processes.
Ejector Pin Labelling For Plastic Mold Design:
The new ejector pin labelling functionality, which has been
specifically produced for plastic mold designers, enables all
the ejector pins in a mold design project to be identified in
a table by a user-defined label. This feature simplifies the
maintenance process of the mold itself where one or more
ejector pins need to be replaced. It easily identifies any
ejector pin for maintenance purposes, and updates it if it
needs replacing.
Conformal Cooling Channels For Plastic Mold Design:
VISI 2019 R1 introduces a function for advanced sketching of
conformal cooling channels. It allows the use of wireframe
circuits, previously created in CAD, along with selecting
predefined or user sections, and automatically creates the
conformal channels to form the desired cooling circuit. It’s
also possible to edit those channels, even after subtraction
from the mold insert.
All the information defined on the conformal cooling during
the design phase are automatically managed by VISI Flow’s
thermal analysis. The Flow thermal analysis itself has also
been enhanced to provide a graphical temperature display on a
dynamic section on the inserts. The result is a simplified
process and time saving of the mold design and Flow analysis.
Pressure Pad Management For Progressive Die Design:
The blanking process has been enhanced, to set the faces on
the model affected by the pressure pad, by simply defining the
relative force to apply. This allows the material to flow,
based on the applied force on the pressure pad.
Users can also set constraints to simulate the effect of a
uniformly distributed blank holder force. It’s possible to
define a friction value and the force value to be applied for
the blanking phase. This leads to a more accurate blanking
process, which gives additional support to the user during the
design phase of the die.
System Requirements:
-OS:Windows 7, Windows 8.1 and Windows 10, 64 bit version
(only Professional version supported)
-GPU:Graphic board supporting either OpenGL or DirectX with a
minimum 1280x1024 resolution, supporting at least 65.000
colors
-Memory:4 Gbyte RAM
Power users are recommended to use:
-OS:Windows 7, Windows 8.1 and Windows 10, 64 bit version
(only Professional version supported)
-GPU:Graphic board supporting either OpenGL or DirectX with a
minimum 1920X1080 resolution, supporting at least 65.000
colors
-Memory:16 Gbyte of RAM
-Disk Space:SSD HardDisk
Homepage
http://www.visicadcam.com/
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