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SPI SheetMetalWorks

張貼者:2010年10月4日 下午6:52未知的使用者   [ service orderble 已於 2011年5月26日 清晨7:28 更新 ]
SPI SheetMetalWorks是100%與 SolidWorks集成。 SolidWorks的完整功能可用,確保鈑金零件可隨時進行編輯。 SPI的SheetMetalWorks專門處理涉及公司的需要,在設計和製造的參數板材零件和組件。 這導致大幅增加,準備到製造產品,使設計過程瞬間,造成巨大節省時間和測試之間概念的實際組成部分。

開發商:SPI GmbH
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在設計過程中,你經常修改你的模型之前,準備生產。 你需要一個軟件,有能力來分析過程中要防止昂貴的返工。





精密展開 ...

SPI的SheetMetalWorks提供了一個 100%正確的開展,可用於在流程鏈不返工。 自由曲面,洞地區,甚至在彎曲的表面,其中生產轉移到了精確放樣展開。

... ...甚至進口車型

與 SPI SheetMetalWorks您可以指定材料的定義,以進口車型(DWG格式,星期六,IGES)的。 導入的數據不準確或經常表現出數學幾何不利的陳述。 SPI的SheetMetalWorks彌補這個由不同的容差選擇,是指除其他事情本身的鋼板厚度,並行上下表面的角度,根據該相鄰表面上的一個滿足其他。

...和直接出口的幾何展開沖孔,激光切割和折彎 ...

例如作為上衣,展望格式。 SPI的SheetMetalWorks允許直接出口的幾何從 SolidWorks來展開的頂部,地理文件格式。 不同的DXF計算轉移一次全球環境展望文件,可直接向上載入 TruTops激光與 TruTops沖床模塊排料,激光切割等耗時的幫助下轉化頂部繪圖編輯器是無效的! 對於彎曲模擬的所有信息(彎曲半徑,彎曲係數)控制,因此可立即在TruTops本德(上衣600)。 為進一步加工折彎機上的Delem和Cybelec的開展提供必要的額外信息也。 您可以使用任意的幾何其他數控編程系統。 

無邊界的靈活性 ...

相關的數據的過程鏈(機器,材料和金屬板厚度)均保持在SPI的材料管理。 只要你不保持defi奈德參數在你的課程建設,軟件指的是一個潛在的衝突。 然而,隨著選擇你需要的材料不承諾自己:你當然可以分配的另一種物質對工件以後。 計算發生的縮短按照DIN,公式或表。 縮短定義(公式或表)可適應您公司的標準,如果計算的展開並非指在DIN K因子。 您可以定義是有區別的,每彎曲。 

Your advantage  

In the design process you often modify your models before the are ready for manufacturing. You need a software that has the capability to analyse the process to prevent expensive re-work.

SPI SheetMetalWorks

is the link between design and manufacturing and therefore provides designers and manufacturers with dramatic improvements in the design process for ready to manufacture products.

Ready-to-manufacture design

For your CAD model select the material that you would like to use during production to ensure that you consider material properties and bending behaviour for the unfold calculation.

Precise unfolding...

SPI SheetMetalWorks delivers a 100 % correct unfolding, that can be used within the process chain without rework. Freeform surfaces, holes in bending areas and even surfaces which were produced by lofting are transferred to precise unfolding.

…even of imported models…

With SPI SheetMetalWorks you can assign material definitions to imported models (DWG, SAT, IGES). Imported data frequently exhibit inaccuracies or mathematically unfavourable representations of geometry. SPI SheetMetalWorks compensates this by different tolerance options, which refer themselves among other things to the plate thickness, parallelism of upper and lower surface and the angles, under which adjacent surfaces meet one on the other.

...and direct export of the unfolding geometry for punching, laser cutting and bending...

For instance as Tops-GEO-format. SPI SheetMetalWorks allows for the direct export of the unfolding geometry from SolidWorks to the ToPs-GEO file format. Different to the DXF transfer the once calculated GEO-files can directly be up-loaded to TruTops Laser and TruTops Punch modules for nesting, laser cutting etc. A time-consuming transformation with the help of the Tops drawing editor is void! For the bending simulation all information (bending radii, bending factors) is contained and thus is immediately available in TruTops Bend (ToPs 600). For the further processing on bending machines of Delem and Cybelec the  unfolding supplies the necessary additional information also. You can use the geometry in arbitrary other numerical control programming systems. 

…with borderless flexibility

The data that are relevant for the process chain (machines, material and sheet metal thicknesses) are maintained in SPI‘s material management. As soon as you do not keep the defi ned parameters in the course of your construction, the software refers to a potential conflict. However, with the selection of the material you do not commit yourself: Of course you can assign another material to the work piece later on. The calculation of the shortening takes place according to DIN, formula or table. Shortening definitions (formulas or tables) can be adapted to your company standards, if the calculation of the unfolding does not refer to the DIN k factor. You can define them differently per bend.