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高速加工 (HSM)

可快速去除材料的高速加工與自適應刀具路徑。
考慮到刀具壽命。

SprutCAM 高速加工

高速加工的兩種刀具路徑策略

高速加工

High speed machining

刀具側面移動步進距離大,切削深度小。

最適應性

Adaptive

刀具側面移動步進距離小,切削深度大。

Collision control during toolpath calculation

SprutCAM takes into an account real machine kinematic limitations for initial toolpath calculation. There is no need for postprocessing and separate simulation for collision and axis limits control.

Tool holder collision control

Tool holder collision control in SprutCAM

Tool holder collisions handling during toolpath calculation.

Moving parts collision control

Moving parts collision control in SPrutCAM

Possible collisions between moving machine parts and with the workpiece are handled automatically during toolpath calculation.

Axis limits control

Axis limits control in SprutCAM

Axis limits are considered during toolpath calculation.

殘料處理

SprutCAM始終在操作順序中保持工件材料範圍的適時更新,以最佳化刀具路徑並避免空跑現象。
隨後的每個工程, 都會偵測到先前工程留下的工件材料範圍的狀態。
因此,機器時間保持最佳狀態。
在螢幕截圖中,綠色是工件本身,橘色是工件材料範圍當前的狀態。

Rest material handling

殘料處理

Rest material handling

SprutCAM始終在操作順序中保持工件材料範圍的適時更新,以最佳化刀具路徑並避免空跑現象。
隨後的每個工程, 都會偵測到先前工程留下的工件材料範圍的狀態。
因此,機器時間保持最佳狀態。
在螢幕截圖中,綠色是工件本身,橘色是工件材料範圍當前的狀態。

Explore other milling solutions

2.5- and 3-axis milling

Find out more about 3-axis machines programming in SprutCAM. Production of 2D / 3D parts, mold & dies.

Rotary milling

Find out more about milling with 4th axis solution. Productions of screws, blades, gear wheels, balusters

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