Patent ID: 11934173
Assignee: SABANCI UNIVERSITESI
Field: Control (Instruments)
Classification: CPC G  Y | IPC G

Claim 0:
1. A method for generating a tool path to manufacture a part using a computer numerical control system comprising the steps of:
(a) generating an initial design part geometry from a geometry modelling program as an input and using at least one tool in the computer numerical control system along a semi-finishing tool path for removing a portion of a rough stock material over a first predetermined distance by leaving behind a semi-finishing thickness portion with a varying offset distance calculated at each tool contact point with respect to a surface normal of the part;
(b) creating a pre-finished in-process workpiece geometry before a finishing process, using a numerical control program by a subtracting and/or adding tool processed volume to leave behind a post-form having an amount of a stock thickness with respect to surface normal vectors of corresponding surfaces of the initial design part geometry for overcoming vibration or chatter events during the finishing process, wherein the numerical control program further comprises continuously variable sets of a surface stock offset with respect to at least one surface normal vector of a part surface to be machined, in a semi-finishing tool path, and using the at least one tool in the computer numerical control system along a finishing tool path for removing the semi-finishing thickness portion over a second predetermined distance;
(c) controlling a stock thickness distribution of an in-process workpiece geometry by following the tool path wherein the stock thickness distribution is based on at least one predetermined direction of the initial design part geometry, wherein a variable stock thickness distribution around the pre-finished in-process workpiece geometry is obtained;
(d) locating the at least one tool on a tool path to be generated with respect to the initial design part geometry wherein a location is calculated by using design part surface data of a corresponding design part and a corresponding stock thickness value; and
(e) repeating the steps a), b), c), and d), and using individual stock thickness values to calculate the tool path defined as a series of subtracting or adding tool location to be stored in the numerical control program, wherein the at least one tool removes a predefined portion of an in-process workpiece material in a controlled manner, leaving a variably controlled stock thickness around the initial design part geometry.