Methods, systems, and devices for determining an optimized toolpath in a computer-aided manufacturing (CAM) system, wherein the optimized toolpath comprises a toolpath associated with a part of a workpiece and wherein the optimized toolpath is configured for a computer numerical control (CNC) machine.

A control device for a machine, with at least one axis, is configured to accept first parameters and to render a first general technological problem as a first specific technological problem. The control device is configured to determine once in advance, for a sequence of values of a position or a temporal derivation of the position of the axis of the machine, a number of variables assigned to the respective value, to solve the first specific technological problem in an optimum way. The control device is configured to store the assigned variables in a memory and, after the storage of the assigned variables, is configured to accept a first execution command. Based upon the first execution command, it is configured to output the sequence of values to the axis and during output, is configured to activate the machine in accordance with the number of variables assigned to the respective value.

Disclosed is a method and apparatus for machining a workpiece (2). The method comprises specifying a path along which a cutting tool (6) is moved during machining the workpiece (2), the path comprising segments (26); defining, for each segment (26), an exit point on that segment (26); defining, for each segment (26), an exit path (38) from the exit point of that segment (26) to a point remote from the workpiece (2); performing a machining process including moving the cutting tool (6) along the tool path and machining the workpiece (2); and, during the machining process, when one or more criteria are satisfied: interrupting the machining process and, without machining the workpiece (2), moving the cutting tool (6) to the exit point of the current segment (26) and then along the exit path (38) of the current segment (26).

Technology for milling selected portions of a workpiece by a cutting tool of a numerical control machine is described. The described technology provides methods and apparatuses for milling areas of a part so that more aggressive machining parameters can be used in the toolpath, thereby resulting in reduced machining time and load. The technology creates a series of toolpath contours where arcs in the toolpath contours are non-concentric with arcs in other toolpath contours. The selected portions of the workpiece are milled by moving the cutting tool in accordance with the toolpath.

A method of manufacturing a plurality of parts receives cutting instructions to produce a part based on a nominal model of the part. The method then drives a machine tool with the cutting instruction to produce a given part, and subsequently measures the given part with a coordinate measuring machine by measuring at least one particular feature of the given part. After measuring the given part, the method calculates an error of the given part by determining an initial deviation between the cutting instructions and the nominal model, the initial deviation being a function of the measured at least one particular feature of the given part and a corresponding at least one particular feature of the nominal model. The cutting instructions are then adjusted based on the error map to obtain updated cutting instructions, where the updated cutting instructions have a reduced deviation from the initial deviation with regard to the nominal model. The method then uses the updated cutting instructions to produce another part having a reduced error deviation from the nominal model.

Technology for milling selected portions of a workpiece by a cutting tool of a numerical control machine is described. The described technology provides methods and apparatuses for milling areas of a part so that more aggressive machining parameters can be used in the toolpath, thereby resulting in reduced machining time and load. The technology creates a series of toolpath contours where arcs in the toolpath contours are non-concentric with arcs in other toolpath contours. The selected portions of the workpiece are milled by moving the cutting tool in accordance with the toolpath.

A machining program editing apparatus that enables a machining program to be edited accurately in a short time, and a machine tool having the same, are provided. A machining program editing apparatus 1 for editing a machining program of a machine tool 10 includes a control means 5 for controlling the display content of a display means 3 for displaying the machining program. When a preset NC code, among the NC codes included in the machining program, is selected on the display means 3, the control means 5 allows an edit window 7 for inputting an editing content, according to the type of the NC code, to be displayed near the display position of the NC code.

Methods, systems, and devices for determining an optimized toolpath in a computer-aided manufacturing (CAM) system, wherein the optimized toolpath comprises a toolpath associated with a part of a workpiece and wherein the optimized toolpath is configured for a computer numerical control (CNC) machine.

Technology for milling selected portions of a workpiece by a cutting tool of a numerical control machine is described. The described technology provides methods and apparatuses for milling areas of a part so that more aggressive machining parameters can be used in the toolpath, thereby resulting in reduced machining time and load. The technology creates a series of toolpath contours where arcs in the toolpath contours are non-concentric with arcs in other toolpath contours. The selected portions of the workpiece are milled by moving the cutting tool in accordance with the toolpath.

A precut module with one or more profiling heads and/or circular saws may be provided upstream of a saw module. The precut module may be used to implement a portion of a cut that would otherwise be made by the saw module, thereby reducing the depth of cut required at the saw module. In some embodiments, profiling heads may be used to profile a block that is wider than a desired side board. The block may be cut from the workpiece and sent to the edger. This may provide the same or better wood volume recovery and/or throughput speed than profiling the side board or cutting the side board from a flitch. In some embodiments, cut patterns for the precut module and other machine centers may be calculated and/or selected based on a desired depth of cut at the saw module, desired throughput speed, wood volume recovery, and/or other parameters.