Cavity elliptical cycloid milling cutter path planning method based on contour central axis

The invention discloses a cavity elliptic cycloid milling cutter path planning method based on a contour central axis. The method comprises steps of describing the boundary characteristics of the complex cavity by using a contour central axis, and calculating an elliptical cutter path by using centr...

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Hauptverfasser:	WANG XIAOSUN, QIAO FAN, DU HANG, WU SHIJING, HUANG QIAN, HUANG NUODI
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	CONTROL OR REGULATING SYSTEMS IN GENERAL CONTROLLING FUNCTIONAL ELEMENTS OF SUCH SYSTEMS MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS ORELEMENTS PHYSICS REGULATING
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creator	WANG XIAOSUN QIAO FAN DU HANG WU SHIJING HUANG QIAN HUANG NUODI
description	The invention discloses a cavity elliptic cycloid milling cutter path planning method based on a contour central axis. The method comprises steps of describing the boundary characteristics of the complex cavity by using a contour central axis, and calculating an elliptical cutter path by using central axis point information; and under the constraint of a cutting width threshold value, taking the central axis point closest to the maximum root node as a starting point, traversing all the central axis points in the reachable area of the cutter along the direction from the root node to the root node or from the root node to the leaf node, and reserving the central axis point information meeting the cutting width threshold value limit and the corresponding cutter path. Smooth connection betweenthe tool paths is achieved through the Hermite curve. The method is suitable for numerical control milling cutter path planning of simple cavities and complex cavities, the average actual radial cutting width is increased, t
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The method comprises steps of describing the boundary characteristics of the complex cavity by using a contour central axis, and calculating an elliptical cutter path by using central axis point information; and under the constraint of a cutting width threshold value, taking the central axis point closest to the maximum root node as a starting point, traversing all the central axis points in the reachable area of the cutter along the direction from the root node to the root node or from the root node to the leaf node, and reserving the central axis point information meeting the cutting width threshold value limit and the corresponding cutter path. Smooth connection betweenthe tool paths is achieved through the Hermite curve. 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The method comprises steps of describing the boundary characteristics of the complex cavity by using a contour central axis, and calculating an elliptical cutter path by using central axis point information; and under the constraint of a cutting width threshold value, taking the central axis point closest to the maximum root node as a starting point, traversing all the central axis points in the reachable area of the cutter along the direction from the root node to the root node or from the root node to the leaf node, and reserving the central axis point information meeting the cutting width threshold value limit and the corresponding cutter path. Smooth connection betweenthe tool paths is achieved through the Hermite curve. The method is suitable for numerical control milling cutter path planning of simple cavities and complex cavities, the average actual radial cutting width is increased, t</abstract><oa>free_for_read</oa></addata></record>
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subjects	CONTROL OR REGULATING SYSTEMS IN GENERAL CONTROLLING FUNCTIONAL ELEMENTS OF SUCH SYSTEMS MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS ORELEMENTS PHYSICS REGULATING
title	Cavity elliptical cycloid milling cutter path planning method based on contour central axis
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