Class / Patent application number | Description | Number of patent applications / Date published |
700187000 | For curve or contour | 28 |
20100268373 | METHOD FOR CUTTING OUT A PANOPLY OF PARTS - A method for cutting out a panoply of parts. This cutting-out method includes producing data relating to points defining the contour of each part and to the position of each part in a Cartesian frame of reference of the panoply, grouping the parts together into at least one subset, each subset embodied by a box being considered as a single part; grouping the subsets into at least one set, each set embodied by a box being considered as a single part; establishing an order in which to cut out the parts from the subsets and sets defined respectively a cutting-out step in which the cutting-out tool moves from part to part in the cutting-out order. | 10-21-2010 |
20110166693 | NUMERICAL CONTROL DEVICE - A main control process is made common to all machine tools by describing in a NC program a tool trajectory including a change in posture in a coordinate system ( | 07-07-2011 |
20110178629 | Engagement Milling Using Circularly Shaped Tool Passes - A method for generating a tool path for milling a region of a workpiece is disclosed. The region has a first side meeting at its respective ends a first end of each of a second side and a third side. The method includes the steps of: (1) determining, using a computer, a radius of curvature and a center of each of a succession of circularly shaped tool passes, each successive tool pass advancing into the region from the first side of the region, wherein the radius of curvature and the center of each advancing tool pass is determined such that an engagement of the cutter following the tool path does not exceed a predetermined value of cutter engagement, and (2) generating instructions for controlling the milling cutter to mill the region in accordance with the generated tool path. | 07-21-2011 |
20110202167 | NUMERICAL CONTROLLER WITH TOOL TRAJECTORY DISPLAY FUNCTION - Coordinate values of a tool center point is calculated by obtaining coordinate values at each time of respective drive axes driven by a numerical controller. A tool radius compensation vector connecting the calculated tool center point at each time and an actual machining point is obtained. Then, coordinate values of the actual machining point are calculated based on the calculated coordinate values of the tool center point and the obtained tool radius compensation vector, and the trajectory of the actual machining point is displayed on a display. | 08-18-2011 |
20120046782 | KINEMATIC APPROXIMATION ALGORITHM HAVING A RULED SURFACE - In a method for producing at least one surface on a workpiece by a material removal tool and a corresponding material removal device, the surface is produced quickly and at low cost. Based on any surface to be produced, a movement path of the material removal tool is controlled to produce a ruled surface approximating to the surface, the movement path being provided in the form of a curve on a dual unit sphere, wherein a curve point corresponds to a location and an orientation of the removal tool. The curve can be produced based on ruling lines, which are converted into points, interpolated by a dual sphere spline interpolation algorithm, on the dual unit sphere by mathematical transformations. The curve can then be transformed back or can be used directly to follow the material removal tool. Likewise, directrix curves can be determined by the dual sphere spline interpolation algorithm. | 02-23-2012 |
20120065768 | NUMERICAL CONTROLLER AND NUMERICAL CONTROL MACHINING SYSTEM - An NC machining system includes a chuck that clamps a workpiece; a first rotation axis, located opposite the chuck, that rotates as a main axis; a second rotation axis that rotates about its center on the first axis; a numerical control apparatus that outputs, according to on pre-programmed machining instructions, rotation commands for the first and the second rotation axes; and a tool, fixed on the second rotation axis, that moves along a circumference of the workpiece by a rotation of the first rotation axis, and whose machining radius is determined by a rotation of the second rotation axis. | 03-15-2012 |
20120221140 | COMPUTERIZED TOOL PATH GENERATION - An automated computer-implemented method for generating commands for controlling a computer numerically controlled machine to fabricate an object from a workpiece, the method including the steps of selecting a maximum permitted engagement angle between a rotating cutting tool and the workpiece, selecting a minimum permitted engagement angle between the rotating cutting tool and the workpiece, and configuring a tool path for the tool relative to the workpiece in which the engagement angle gradually varies between the maximum permitted engagement angle and the minimum permitted engagement angle. | 08-30-2012 |
20120253504 | CUTTING APPARATUS, CUTTING DATA PROCESSING DEVICE AND CUTTING CONTROL PROGRAM THEREFOR - A cutting apparatus is disclosed in which a cutting blade and an object to be cut are moved relative to each other so that a desired pattern is cutout of the object. The cutting apparatus includes an arranging unit arranging the pattern in a cut-allowable region of the object, a frame setting unit setting a minimum boundary frame which is polygonal or curved in shape and includes a contour of the pattern arranged by the arranging unit, and a cutting data generating unit generating outer line cutting data for cutting an outer line dividing a first region near the pattern within the cut-allowable region and a second region other than the first region, outside the boundary frame, based on the boundary frame. The pattern and the outer line are cut out of the object based on pattern cutting data for cutting the pattern and the outer line cutting data. | 10-04-2012 |
20130218323 | NUMERICAL CONTROLLER WITH MACHINING CURVE CREATING FUNCTION - Provided is a numerical controller having a machining curve creating function. A command point sequence is divided into a plurality of segments and a segment curve corresponding to each segment command point sequence is created. The segment curve is created so that a distance of the segment curve from the segment command point sequence is within a permissible value set in advance, and the maximum number of command points are included between a starting point and an ending point of the segment command point sequence. This process of segment curve creation is repetitively executed from the starting point to the ending point of the command point sequence to create a machining curve. Subsequently, the machining curve is interpolated and drive axes of a machine tool are moved to the interpolated positions on the machining curve. | 08-22-2013 |
20130268109 | SYSTEM AND METHOD FOR MEASURING CUTTING TOOL - A computing device is electronically connected with an image measuring machine. A cutting tool is fixed on a rotatable holder of the image measurement machine. The rotatable holder rotates the cutting tool, and an image capturing device captures one or more images of the cutting tool. The image measurement machines transmits image data in relation to the cutting tool, including X, Y coordinate values of pixels in each image measured by X, Y raster rulers, and a Z coordinate value of each image measured by a Z raster ruler, to the computing device. The computing device determines three-dimensional (3D) contour points of the cutting tool by processing the image data, aligns the set of 3D contour points with a reference contour image of the cutting tool, and determines whether a design of the cutting tool is qualified according to the set of 3D contour points and the reference contour image. | 10-10-2013 |
20130282161 | COMPUTERIZED TOOL PATH GENERATION - An automated computer-implemented method for generating commands for controlling a computer numerically controlled machine to fabricate an object from a workpiece, the method including the steps of selecting a maximum permitted engagement angle between a rotating cutting tool and the workpiece, selecting a minimum permitted engagement angle between the rotating cutting tool and the workpiece, and configuring a tool path for the tool relative to the workpiece in which the engagement angle gradually varies between the maximum permitted engagement angle and the minimum permitted engagement angle. | 10-24-2013 |
20130345853 | COMPUTERIZED TOOL PATH GENERATION - An automated computer-implemented method for generating commands for controlling a computer numerically controlled milling machine to fabricate a machined object from a workpiece, the machined object being configured to facilitate subsequent finishing into a finished object, the method including defining a surface of the finished object, defining an offset surface defining an inner limiting surface of the machined object, defining a scallop surface defining an outer limiting surface of the machined object and calculating a tool path for the milling machine which produces multiple step-up cuts in the workpiece resulting in the machined object, wherein surfaces of the machined object all lie between the inner limiting surface and the outer limiting surface and the number of step-up cuts in the workpiece and the areas cut in each of the step-up cuts are selected to generally minimize the amount of workpiece material that is removed from the workpiece. | 12-26-2013 |
20140018953 | Method of Optimizing Toolpaths Using Medial Axis Transformation - Rough machining of a workpiece is performed by a numerically controlled machine tool using an adaptive toolpath technique. Material removal rate and machine efficiency are increased by forming a pre-roughing slot in the workpiece along medial axes, and machining the remainder of the workpiece using a toolpath that begins inside the pre-roughing slot and spirals outwardly in smooth curves. | 01-16-2014 |
20140025194 | NUMERICAL CONTROLLER INCLUDING CORNER MULTIPLE CURVES INSERTING UNIT - A numerical controller configured to control a machine tool for machining the workpiece on the basis of a machining program composed of a plurality of blocks includes a corner multiple curves inserting unit. This corner multiple curves inserting unit inserts, between consecutive two blocks, three cubic polynomial curves in which a position, a direction and a curvature are continuous and the distances from these two blocks are within a prescribed allowable tolerance, if a direction or a curvature between these two blocks is discontinuous in the machining program. | 01-23-2014 |
20140088754 | SYSTEM AND METHOD FOR ENHANCING REACH OF A ROBOTIC ARM - A system and method for machining a work-piece in restrictive access operating position is disclosed. The system includes a robot arm adapted to access the bottom face of the work-piece; a computation means adapted to compute a central line on the bottom face while ascertaining an area of overlap that is accessible from all sides of the work-piece; and a robot controller adapted to sequentially maneuver the robot arm from one side of the work-piece to other side of the work-piece on the bottom face. Other embodiments are also disclosed. | 03-27-2014 |
20140316554 | SYSTEM AND METHOD FOR GENERATING MACHINE MARKING INSTRUCTIONS - A system and method of generating machine marking instructions for marking an ophthalmic lens is disclosed. The method comprises the steps of receiving lens order data related to a lens order, receiving an initial marking layout and calculating, using the lens order data, ophthalmic lens data of an ophthalmic lens related to the lens order. The method also comprises the steps of determining, using the ophthalmic lens data, marking parameters relating to the ophthalmic lens, producing an additional marking layout by modifying the initial marking layout using the marking parameters and the lens order data, the additional marking layout representing the markings to be applied to the ophthahmc lens, and generating machine marking instructions arranged to cause a marking machine to mark the ophthalmic lens in accordance with the additional marking layout. | 10-23-2014 |
20150032250 | FIVE-AXIS FLANK MILLING SYSTEM FOR MACHINING CURVED SURFACE AND TOOLPATH PLANNING METHOD THEREOF - This invention provides a novel tool path planning method for five-axis flank milling by imposing the constraints of curve interpolation on the tool path. The tool motion is described in the form of spline curves during its optimization-driven calculation process, instead of discrete cutter locations in CNC linear interpolation. The coefficients of the curve equations are generated by minimizing accumulated geometrical errors on the machined surface using optimization algorithms. The continuity imposed by the spline motion reduces uneven modifications of cutter locations during the optimization process. The resultant tool path yields superior. | 01-29-2015 |
20150112474 | MACHINING CURVE CREATING APPARATUS AND MACHINING CURVE CREATING METHOD THEREOF - A machining curve creating apparatus create curve of a tool used to machine a workpiece by repeating a procedure of taking, as a partial point sequence, a part of a point sequence expressing the tool path and generating a partial curve. The machining curve creating apparatus includes stored-information-utilized curve generating unit for generating a partial curve utilizing segmented curve information. When curve information utilization determining unit determines to utilize the stored information, the stored-information-utilized curve generating unit generates a partial curve. | 04-23-2015 |
20150120037 | COMPUTING DEVICE AND METHOD FOR COMPENSATING COORDINATES OF POSITION DEVICE - A computing device compensates a coordinate of a position device for a computerized numerical control (CNC) machine. The computing device generates a point cloud according to contour points of the position device. The computing device deletes selected contour points from the point cloud upon the condition that the distance corresponding to each selected contour point exceeds a predetermined threshold. The computing device calculates an average coordinate of the contour points which are remained in the point cloud. | 04-30-2015 |
20150142167 | Method for producing structures or contours on a workpiece, and moulder - In a moulder, at least one rotatably driven tool ( | 05-21-2015 |
20150293520 | COMPUTERIZED TOOL PATH GENERATION - An automated computer-implemented method for generating commands for controlling a computer numerically controlled machine to fabricate an object from a workpiece, the method including the steps of selecting a maximum permitted engagement angle between a rotating cutting tool and the workpiece, selecting a minimum permitted engagement angle between the rotating cutting tool and the workpiece, and configuring a tool path for the tool relative to the workpiece in which the engagement angle gradually varies between the maximum permitted engagement angle and the minimum permitted engagement angle. | 10-15-2015 |
20160011579 | NUMERICAL CONTROL DEVICE | 01-14-2016 |
20160041545 | NUMERICAL CONTROLLER HAVING CORNER PATH GENERATION FUNCTION IN CONSIDERATION OF POST-INTERPOLATION ACCELERATION/DECELERATION - A numerical controller controls a machine tool with a plurality of control axes so as to compensate an inward turning error by inserting a curved movement path into a corner section between two consecutive blocks. An estimated inward turning amount generated as the corner section is subjected to post-interpolation acceleration/deceleration is calculated based on the radius of curvature of the curve and allowable accelerations of the axes of the machine tool, and such a curved movement path that its inward turning amount has a value obtained by subtracting the estimated inward turning amount from a tolerance is inserted into the corner section if the sum of the estimated inward turning and the inward turning amount of the curve is larger than the tolerance. | 02-11-2016 |
20160116905 | Systems and Methods For Machining To Nominal Geometry Using Local Features - Systems and methods for retuning a surface to a nominal geometry using local reference points are disclosed. The system can include an imaging device for detecting the location of local features on an object. The system can use the location of local features, as opposed to an absolute reference frame, to determine one or more reference areas and one or more surface defects on an object. The system can then determine a nominal geometry for the surface (i.e., a surface that is substantially free of surface defects) and calculate the tool path necessary to create a nominal geometry. The system can machine the surface and, in some cases, rescan the surface to ensure the operation has machined the part to the nominal geometry. | 04-28-2016 |
20160154400 | TOOL PATH CURVE GENERATION METHOD AND TOOL PATH CURVE GENERATION APPARATUS | 06-02-2016 |
20160170401 | ROUND HOLE MACHINING METHOD AND ROUND-HOLE MACHINING DEVICE | 06-16-2016 |
20160187866 | NUMERICAL CONTROL APPARATUS - A numerical control apparatus includes a command argument determination unit which determines whether a vector is included in an argument of a circular arc interpolation command which is included in command data and a circular arc shape forming unit which forms a circular arc shape based on a machining program, and a start point, an end point, and the vector, which are specified by the argument of the circular arc interpolation command, when the command argument determination unit determines that the vector is included in the argument of the circular arc interpolation command. | 06-30-2016 |
20170235289 | PROGRAM GENERATION DEVICE GENERATING PROGRAM FOR GROOVE MACHINING BY DRILLING | 08-17-2017 |