Abstract: In some embodiments, the disclosure includes method for optimizing lumber derived from a log. The method may include the steps of debarking the log and cutting the log to provide a plurality of boards. The plurality of boards are then scanned to determine knot properties and/or warp stability for each of the plurality of boards and a lumber upgrade process is selected based on the knot properties and/or warp stability. Finally, one or more of the plurality of boards are planed after being subjected to the lumber upgrade process.

Abstract: An apparatus for slicing food products includes a product feed which feeds a product to be sliced along a product feed direction through a cutting plane in which at least one cutting blade moves. The position of the cutting blade is adjustable relative to the product. A control unit is provided which is designed to automatically adjust the position of the cutting blade for the optimization of the blade wear.

Abstract: The disclosure describes a method for cutting a food product into slices for producing portions by taking into account the target weight thereof. Information about a remainder of the food product to be sliced is used to control corresponding actuators for a successive food product to be sliced.

Abstract: A food slicing and weighing system produces stacks of slices of food product. Each stack has a total number of slices or a weight greater than a predetermined minimum stack weight. The food slicing and weighing line comprises a slicing unit and a weighing unit. The slicing unit has a blade for cutting slices off a log of food and a control arrangement comprising a controller for setting the thickness of the slices. The weighing unit has a surface supported by a load sensor. The surface is positioned at the location the slices are cut off the log, each slice dropping onto the surface as each slice is cut from the log. The load sensor senses the weight of the slices as each slice is dropped onto the surface and provides a signal to the controller. The controller determines from the signal a measured combined weight of a number of slices less than the total number of slices and then a target thickness for a next slice to be added to the stack of slices based on the measured combined weight.

Abstract: Embodiments of techniques and systems for control of cutting tools for logs on a conveyor are described herein. A preferred position may be determined for a log on a conveyor, such as, for example a chain conveyor. The preferred position may be determined based on a scan of the log prior to the log being placed on the conveyor. After the log is placed on the conveyor an initial portion of the log may be scanned by a second scan and the initial portion may be compared to a corresponding portion of the preferred position for the log. Differences may be determined between the scanned portion and the corresponding portion of the preferred position. One or more cutting tools may then be controlled, such as in position and/or orientation, to adjust for the determined differences. Other embodiments are also described and claimed.

Abstract: A system for cutting a three-dimensional portion from a foodstuff. The system includes a scanner for scanning the foodstuff, a computer coupled to the scanner for receiving information from the scanner to determine one or more cutting paths for the foodstuff, and a cutter for portioning the foodstuff according to the one or more determined cutting paths. The computer is configured to perform generally four steps: (i) receiving scan information of the foodstuff from the scanner; (ii) building a three-dimensional map of the foodstuff based on the received scan information of the foodstuff; (iii) fitting at least one desired shape, which is stored in memory of the computer, onto the three-dimensional map in the memory of the computer; and (iv) determining one or more cutting paths to be used in portioning the foodstuff so as to produce one or more portioned foodstuffs corresponding to the at least one desired shape.

Abstract: Metrology data associated with a plurality of workpieces processed at a selected operation in the process flow including a plurality of operations is retrieved. A processing context associated with each of the workpieces is determined. The processing context identifies at least one previous tool used to perform an operation on the associated workpiece prior to the selected operation. A plurality of performance metrics is determined for a plurality of tools capable of performing the selected operation based on the metrology data. Each performance metric is associated with a particular tool and a particular processing context. A set of the performance metrics is identified for the plurality of tools having a processing context matching a processing context of a selected workpiece awaiting performance of the selected operation. The selected workpiece is dispatched for processing in a selected one of the plurality of tools based on the set of performance metrics.

Abstract: Saw mill for machine vision detection of undesirable features in the wood in shingles being cut from billets and automated optimized saw operation are disclosed. The saw mill includes a transport system that carries the billet through a butt-trimming saw, past a machine vision station, into an transition station for changing direction of travel of the billet and aligning the billet for travel into the subsequent gang rip saw station. The machine vision station determines any defects in the billet, grades the billet according to order-specific parameters, determines the optimal saw cut to maximize the value of the shingle, and sends control data to the gang rip saw controller, to position the saw blades for the optimal saw cut(s) for the shingle. A sorting system receives instructions from the visual imaging system and automatically shunts the product coming from the gang rip saw station into the appropriate container.

Abstract: A material cutting line system including a cutting table, a material cutter positioned on the table and a control system for controlling the material cutting line such that sheets of material are cut into a plurality of individual workpieces, the control system including a machine readable medium having computer readable instructions thereon for defining a plurality of runs, wherein each run is optimized to minimize the number of sheets of material required to be cut to produce the plurality of individual workpieces, thereby minimizing the amount of resulting waste material from the sheets; identifying the amount of waste material from each sheet to determine the lowest yielding sheets from the plurality of runs; and, grouping the plurality of lowest yielding sheets to form an exception run.

Abstract: The portioning foodstuffs in three dimensions includes generating a three-dimensional map of the foodstuff, and then comparing the generated three-dimensional map of the foodstuff with the desired shape as stored in the memory of a computer. The computer determines the particular cutting path in three dimensions in order to arrive at the predetermined shape. This is followed by cutting in one direction to fix at least one dimension of the foodstuff, determining whether the foodstuff is within the tolerance limits or whether the foodstuff portion has moved during the first cutting operation. If so, the foodstuff is rescanned to generate a two-dimensional image of the foodstuff, followed by cutting the foodstuff to arrive at a portion trimmed along three dimensions.

Abstract: The apparatus for cutting glass panes from a continuously produced glass sheet includes a conveying apparatus for the glass sheet and for crosscut pieces; a crosscutting device for cutting the crosscut pieces from the glass sheet; a glass pane cutting device for cutting glass panes from the crosscut pieces; a glass fault detecting device; a border trimming station for cutting away borders; an edge control device and a cutting optimization device. The cutting optimization device determines one or more optimized cutting patterns so that cutting lines are placed in each crosscut piece close to regions to be discarded containing glass faults so that widths of the regions are minimized while providing a maximum number of usable glass panes. A method of cutting off glass panes so that the discarded glass sheet regions are minimized is also disclosed.

Abstract: The method includes continuously detecting glass faults in the glass sheet. Based on the results of the detecting of the glass faults an optimized cutting pattern for cutting crosscut pieces from a predetermined sheet section and for cutting glass panes from the crosscut pieces is determined. In order to reduce waste, the cutting lines for the glass panes are placed sufficiently close to fault-containing glass sheet regions, so that the glass sheet regions to be discarded are minimized, while producing a largest possible number of usable glass panes. The crosscut pieces are then cut out according to the optimized cutting pattern and then the glass panes are cut from the crosscut pieces. An appropriate apparatus for performing the method is described.

Abstract: An automated saw system for cutting a crooked piece of lumber with a mitered end and a length. The saw system includes a saw for cutting the piece of lumber, a lumber feed conveyor for feeding the piece of lumber to the saw, and a sensor that measures a deviation amount by which the piece of lumber deviates from an idealized straight piece of lumber. A controller communicates with the sensor to adjust either the saw or the conveyor in response to the detected deviation amount so that the piece of lumber is cut to correspond to a cut of the idealized straight piece of lumber.

Abstract: Embodiments of the present invention provide a wood processing machine adapted to cut wood workpieces along multiple optimized cutting paths. In various embodiments, the wood processing machine includes a first saw assembly and a second saw assembly that is disposed down stream from the first saw assembly. The first saw assembly is adapted to cut the workpiece along the first optimized cutting path and the second saw assembly is adapted to cut the workpiece along the second optimized cutting path.

Abstract: A wood product assembly includes a cutter subassembly and a skewing assembly. A cutter positioning body is movable by a slewing assembly along a slewing axis. A spindle housing is mounted to the cutter positioning body for pivotal movement about a pivot axis. A spindle, to which a cutter, such as a sawblade or chipper head, is affixed, is mounted to the spindle housing for rotation about a spindle rotation axis by a cutter driver. The skewing assembly is coupled to the spindle housing to position the spindle rotation axis to a selected angular orientation to position the cutter at a selected skew angle. In some examples the cutter driver comprises a drive source fixedly secured to a frame and an extendable length universal-joint driveline assembly.

Abstract: A method for portioning foodstuffs in three dimensions includes scanning the foodstuff to be portion, generating a three-dimensional map of the foodstuff, then comparing the generated three-dimensional map of the foodstuff with the desired shape which is stored in the memory of a computer. A computer then determines a particular cutting path in three dimensions in order to arrive at the predetermined shape, followed by a cutting in one direction to fix at least one dimension of the foodstuff, then determining whether the foodstuff is within the tolerance limits. The foodstuff is thereafter cut along its other dimensions to arrive at a portion trimmed along three dimensions.

Abstract: The method includes continuously detecting glass faults in the glass sheet. Based on the results of the detecting of the glass faults an optimized cutting pattern for cutting crosscut pieces from a predetermined sheet section and for cutting glass panes from the crosscut pieces is determined. In order to reduce waste, the cutting lines for the glass panes are placed sufficiently close to fault-containing glass sheet regions, so that the glass sheet regions to be discarded are minimized, while producing a largest possible number of usable glass panes. The crosscut pieces are then cut out according to the optimized cutting pattern and then the glass panes are cut from the crosscut pieces. An appropriate apparatus for performing the method is described.

Abstract: A wood product assembly includes a cutter and skewing assemblies. A cutter positioning body is movable by the slewing assembly along a slewing axis. A spindle housing is mounted to the cutter positioning body for pivotal movement about a pivot axis. A spindle, to which a cutter, such as a sawblade or chipper head, is affixed, is mounted to the spindle housing for rotation about a spindle rotation axis by a drive assembly. The drive assembly includes a fixed position drive motor and a drive shaft assembly. The drive shaft assembly comprises a hollow drive shaft sleeve and a drive shaft. The drive shaft sleeve extends at least part way through the drive motor and is rotatable by the drive motor. An end of the drive shaft is slidably housed within and rotated by the drive shaft sleeve. The skewing assembly is coupled to the spindle housing to position the spindle rotation axis to a selected angular orientation to position the cutter at a selected skew angle.

Abstract: The present invention is to provide an optical filter for enabling a neutral filter for suppressing the quantity of passage light in an optical path to be mass-produced in an accurate position of an optical path opening with correct density characteristics without fluctuations, and the neutral filter is comprised of a filter 14 for suppressing a quantity of transmitted light, a base plate (aperture wheel) 11 attached with the filter to cause the filter to face the optical path, and alignment reference faces respectively formed in the base plate 11 and the filter 14 to define mutual bonding positions, where the filter 14 is formed into a predetermined outside shape by press forming from a transparent or translucent sheet with an light-reducing film formed on its surface, and is coated with the light-reducing film in which are formed two or more density regions having at least one density boundary line, while the outside shape of the filter 14 and the alignment reference faces are concurrently formed in beforeh

Abstract: A computer-based method for maximizing the use of lumber in the production of truss members for a truss assembly using a linear feed saw apparatus. The method comprises storing a list of truss members to be cut by the linear feed saw apparatus, selecting from the list a first truss member for cutting, the first member having a trailing end. A second truss member from the list is selected for cutting, the second member having a first end that will nest with the trailing end of the first member. The second member is oriented such that its first end nests with the trailing end of the first member. The members are then cut using the linear feed saw. The nesting members can abut across the entire member width, only across a portion of the member width or at a single point. The nested ends of the first and second members may be bevel cuts.

Abstract: The invention concerns an apparatus and method for guiding a plank towards cutting tools for curve sawing of the plank. The apparatus comprises a first guide and drive mechanism mounted on a platform for receiving, guiding and driving the plank along a path. The first mechanism comprises two first elements arranged opposite relative to the path. The apparatus comprises a second guide and drive mechanism mounted on the platform for guiding and driving the plank from the first mechanism along the path on the support surface up to the cutting tools. The second mechanism comprises two second elements arranged opposite relative to the path while being parallel to the path. The elements of the mechanisms located on the same side of the path are connected through a pivot pin. The apparatus further comprises displacing means for parallel and equidistant displacement relative to the path of the elements of the mechanisms.

Abstract: The apparatus for cutting glass panes from a continuously produced glass sheet includes a conveying apparatus for the glass sheet and for crosscut pieces; a crosscutting device for cutting the crosscut pieces from the glass sheet; a glass pane cutting device for cutting glass panes from the crosscut pieces; a glass fault detecting device; a border trimming station for cutting away borders; an edge control device and a cutting optimization device. The cutting optimization device determines one or more optimized cutting patterns so that cutting lines are placed in each crosscut piece close to regions to be discarded containing glass faults so that widths of the regions are minimized while providing a maximum number of usable glass panes. A method of cutting off glass panes so that the discarded glass sheet regions are minimized is also disclosed.

Abstract: An auto-centering apparatus and method of auto-centering and dividing a cheese loaf into equal cheese portions is disclosed wherein the cheese loaf is loaded on to a bottom conveyor that centers the cheese along the cutting harp centerline and equally divides the cheese loaf to provide substantially equally sized cheese portions.

Abstract: The present invention discloses a log sawing system comprising multiple cutting blades. The multiple cutting blades are positioned to cut laterally or perpendicular to the centerline of the log which is to be cut. The logs are transported into cutting position using some type of log positioner. The multiple cutting blades are rotatably mounted on an arm which is pivotally mounted on a shaft in groups, being driven by an electrical or like motor, all of which are mounted onto a platform positioned adjacent to the log to be cut. Hydraulic lifters are used to partially rotate the saw blades into the cutting position adjacent the log. Means utilizing a computer and lasers are provided to develop a log cutting solution to best utilize the logs.

Abstract: A food processing system is provided for outputting groups of slices of a food product, with each group having a weight greater than a predetermined group weight threshold. The system includes a food slicing machine (10) having control means (32) for regulating the thickness of the slices cut by the machine so that they are cut according to the current value of a slice size parameter. Means (26) are provided for generating an under-weight signal responsive to the generation of any groups of slices by the slicing machine having a weight less than the predetermined group weight threshold, and an end-of-line weighing means monitors the weight of groups of slices outputted by the system and generates an end-of-line weight signal responsive thereto.

Abstract: An even ending device is disclosed that is adapted to even end lumber and other materials being conveyed in a longitudinal end to end fashion. Embodiments include a mover adapted to work with a material support, and engage each piece of material to urge the end of the material towards a fence to form an even end line. Various embodiments also may include fixed, live, and/or moving solid fence, as well as powered and no-powered movers.

Abstract: Methods and systems are disclosed to optimize punching instructions. An example method disclosed herein obtains a tool bed layout, the tool bed including a description of a plurality of tool punch parts, each tool punch part further including tool definition information; obtains a component layout, the component including a description of a component having at least one feature requiring a punching operation; validates the component layout; advances the component to a position of optimum depth; determines a hit score at the position of optimum depth; and repeats the component advancing and the hit score determination until all of the at least one feature of the component is assigned to a tool punch part.

Abstract: An automated saw system for cutting a crooked piece of lumber with a mitered end and a length. The saw system includes a saw for cutting the piece of lumber, a lumber feed conveyor for feeding the piece of lumber to the saw, and a sensor that measures a deviation amount by which the piece of lumber deviates from an idealized straight piece of lumber. A controller communicates with the sensor to adjust either the saw or the conveyor in response to the detected deviation amount so that the piece of lumber is cut to correspond to a cut of the idealized straight piece of lumber.

Abstract: A combination gang saw and edger system cuts both cants and flitches into boards. Cants and flitches are fed singly, lengthwise into the system on an infeed conveyor. On the conveyor, the cant or flitch is scanned to produce a lengthwise cross-sectional profile. An optimizer determines whether the profile is for a cant or flitch and determines how the piece will be cut. A controller responsive to the optimizer directs the positioning of a first and second set of saws on a pivotably mounted saw arbor to cut either a cant or flitch, respectively. The boards cut from the cant or flitch are fed outfed from the system. The system can cut cants with longitudinal curvature and can cut cants or flitches that are placed at an angle to the length of the infeed conveyor.

Abstract: System, including apparatus and method, involves processing materials in opposite directions between two machines along a processing path.

Abstract: A method for optimizing yield from a slicing apparatus, includes scanning and weighing a carcass, slab or loaf upstream of a slicing head of the slicing apparatus. The carcass, slab or loaf weight is divided by a desired pre-selected portion weight to determine the number of slices to be made. A remainder portion is allocated to an intermediate position along the carcass, slab or loaf to be sliced from the carcass, slab or loaf before a butt end portion, gripped by a gripper of the slicing apparatus, reaches the slicing head. The butt end portion is pre-arranged to be the desired pre-selected portion weight or at least an acceptable pre-selected portion weight. The butt end portion can then be released by the gripper as a desired or acceptable weight portion.

Abstract: A glass product cutting line includes a CNC cutting table, a sheet feeding device for feeding glass sheets to the glass cutting table, a plurality of harp racks, a sorting device and a dynamic cutting line control system. The control system optimizes the work piece layout on the individual sheets with a biasing favoring individual work pieces assigned to a leading harp rack. The bias tends to cut work pieces of the leading harp rack on leading sheets fill the leading harp rack in a minimum time. The system allows for removal of a filled leading harp rack, by designating a new leading harp rack for the control system, which then dynamically adjusts the bias and associated cutting scheduling.

Abstract: The present invention discloses a log sawing system comprising multiple cutting blades. The multiple cutting blades are positioned to cut laterally or perpendicular to the centerline of the log which is to be cut. The logs are transported into cutting position using some type of log positioner. The multiple cutting blades are rotatably mounted on an arm which is pivotally mounted on a shaft in groups, being driven by an electrical or like motor, all of which are mounted onto a platform positioned adjacent to the log to be cut. Hydraulic lifters are used to partially rotate the saw blades into the cutting position adjacent the log. Means utilizing a computer and lasers are provided to develop a log cutting solution to best utilize the logs.

Abstract: A sawguide assembly includes a plurality of sets of sawguides, the sawguides within each set positioned adjacent to one another to create an array of laterally-abutting sawguides. Corresponding sawguide biasing assemblies bias the sawguides in each set against one another. The arrays are supported for independent movement along a lateral path generally parallel to the axis of the arbor. Lateral drivers are used to move each array in unison along the lateral path but independent of the other arrays. A sawguide array skewing assembly couples the sawguides of each array to one another so that the sawguides can be pivoted in unison about their respective pivot axes by a corresponding skewing driver.

Abstract: In preferred embodiments the invention includes a transverse board conveyor, a board extrusion portion, a marking station, a sawing portion, and a plurality of board feeding portions, all of which are controlled by a process controller. In such preferred embodiments, a bunk feeder and magazines feed boards serially onto the transverse board conveyor and are conveyed in a direction transverse to the length of the boards. The boards are individually deposited into an elongate receiver of a board extrusion portion to be conveyed longitudinally. A carriage in the receiver transports the boards past an end detection station, past a marking station, and to a sawing station. The marking station prints desired indicia at selected positions on the board such as by an ink jet printer without physical contact of the printing mechanism with the board and while the board is moving.

Abstract: A method of forming a workpiece into sectioned parts using a pair of laterally translatable chipping heads and, downstream, a cutting device of the type having a plurality of rotatable cutting members mounted for rotation on a common axis which is movable and including workpiece transport means for moving the workpiece from a starting position to a final position along a path which extends first past the chipping heads and then past the cutting device.

Abstract: A sawguide assembly includes a set of sawguides positioned adjacent to one another to create an array of laterally-abutting sawguides. A sawguide biasing assembly biases the sawguides against one another. The array is supported for movement along a lateral path generally parallel to the axis of the arbor. A lateral driver is used to move the entire array in unison along the lateral path. A sawguide array skewing assembly couples the sawguides to one another so that the sawguides can be pivoted in unison about their respective pivot axes by a skewing driver.

Abstract: A high-throughput, high-end-product-recovery, lineal log bucking device featuring continuous stem travel during the cutting process by using a simple and efficient machinery design for economy of equipment and monies. The apparatus includes: (1) a saw for cutting stem into logs; and (2) apparatus for accelerating the carrier up to the speed of the stem conveyor(s), maintaining the speed during the cut, decelerating the carrier, and then returning the carrier to its starting point.

Abstract: A method and apparatus for identifying a place where a saw may be performed. An oscillating laser beam is provided to a target according to a user preference. The user selects at least one characteristic of the oscillating laser beam in order to identify the target in an outdoor environment. The selected at least one characteristic is then provided to a motor which executes the oscillating.

Abstract: A glass product cutting line includes a CNC cutting table, a sheet feeding device for feeding glass sheets to the glass cutting table, a plurality of harp racks, a sorting device and a dynamic cutting line control system. The control system optimizes the workpiece layout on the individual sheets with a biasing favoring individual workpieces assigned to a leading harp rack. The bias tends to cut workpieces of the leading harp rack on leading sheets fill the leading harp rack in a minimum time. The system allows for removal of a filled leading harp rack, by designating a new leading harp rack for the control system, which then dynamically adjusts the bias and associated cutting scheduling.

Abstract: A process is provided for minimizing waste during processing of a length of stock into one or more shorter usable segments, where in connection with the processing station upon which the length of stock is processed, the length of stock has a minimum handling length. The waste is minimized by mapping the remnant segment at a position other than the last segment at the trailing end of the length of stock. The last segment at a trailing end of the length of stock is alternatively defined as one of the usable segments having a length greater than the minimum handling length.

Abstract: A lumber trimming device for trimming elongate workpieces conveyed on an infeed conveyor in a laterally disposed orientation relative to an infeed direction. The lumber trimming device includes a gang of laterally spaced apart drop saws wherein the drop saws are independently actuable according to generally optimized trimming instructions from an optimizer. At least on end-trimming saw is mounted adjacent the gang. The end-trimming saw or saws is or are selectively laterally translatable according to optimized end-trimming instructions from the optimizer so as to cooperate with the gang. The end-trimming saw or saws cooperate with the optimizer and the drop saws so that a first drop saw of the drop saws is actuated simultaneously with optimized lateral positioning of a first end-trimming saw so as to trim a first workpiece of the workpieces on the infeed conveyor simultaneously by both the first drop saw in a first trim cut and the first end-trimming saw in a second trim cut.

Abstract: A method of optimizing a layout of selected parts to be cut from a piece of raw material such as wood, uses data representing geometric and defect-related characteristics of the each piece and data representing geometric and grade characteristics of a set of parts to be cut. A subset of parts characterized by a predetermined grade (quality) value and associated with a predetermined group of dimension values (width/length) is defined, as well as an arrangement of subdivided piece surface sections to be obtained through a primary cutting operation according to one or more of the width/length values. One or more subsections included in each piece surface section is defined according to the geometric and defect-related characteristics of the piece, and, for each subsection, a plurality of arrangements of parts to be included therein and selected from the subset of parts, to be obtained through a secondary cut operation, are defined.

Abstract: A glass product cutting line includes a CNC cutting table, a sheet feeding device for feeding glass sheets to the glass cutting table, a plurality of harp racks, a sorting device and a dynamic cutting line control system. The control system optimizes the workpiece layout on the individual sheets with a biasing favoring individual workpieces assigned to a leading harp rack. The bias tends to cut workpieces of the leading harp rack on leading sheets fill the leading harp rack in a minimum time. The system allows for removal of a filled leading harp rack, by designating a new leading harp rack for the control system, which then dynamically adjusts the bias and associated cutting scheduling.

Abstract: A rotatable saw unit for optimized log breakdown includes a saw unit immediately downstream of an infeed conveyor and cooperating with the infeed conveyor for sawing a workpiece as the workpiece is translated by the infeed conveyor into the saw unit. The saw unit includes at least one saw aligned for sawing of the workpiece parallel to a longitudinal infeed axis. An optimizing processor determines an optimized sawing orientation relative to the longitudinal infeed axis. A saw unit positioner'selectively rotates the saw unit about a saw unit rotation axis so as to rotate the at least one saw into the optimized sawing orientation prior to sawing of the workpiece.

Abstract: The invention relates to a device and a method for marking and analyzing detects in a means for cutting-to-size boards of wood at least in part, in which defect detection is combined with marking by a marking means. By an assignment between the detected defects and marks, the steps in the process following cutting-to-size can be controlled as a function of the existence of defects.

Abstract: An improved method and apparatus for automatic cutting of graphics area(s) from a sheet of material which includes such graphics area(s), the graphics areas having a plurality of registration marks in predetermined positions with respect thereto and including a subset of the marks on no more than one side of the graphics area which are initial-position/orientation-determining marks. The method involves placing the sheet on a sheet-receiving surface, attempting to sense the subset in the field of view of a main sensor, and, when the subset is not in an expected location, automatically determining the coordinate region of the subset on the sheet-receiving surface and automatically repositioning the main sensor to the coordinate region such that the subset is within the field of view of the main sensor.

Abstract: An improved method and apparatus for cutting a graphics area from a sheet of material which includes such graphics area. The method improved involves applying a plurality of registration marks on the sheet at and about the graphics area in predetermined positions at the time the graphics are applied thereto, the plurality of marks including a subset of marks (the subset preferably being a tandem pair of marks) which is applied on one side of the graphics area which are used to determine the position and orientation of the sheet, sensing the locations of the registration marks on the sheet of material at the time of cutting, and cutting the graphics area from the ready-to-cut sheet along a path determined in response to the sensed positions of the registration marks with respect to the graphics area at that time, whereby precise cutting occurs despite two-dimensional distortion of the sheet prior to cutting.

Abstract: A sawguide assembly includes a set of sawguides positioned adjacent to one another to create an array of laterally-abutting sawguides. A sawguide biasing assembly biases the sawguides against one another. The array is supported for movement along a lateral path generally parallel to the axis of the arbor. A lateral driver is used to move the entire array in unison along the lateral path. A sawguide array skewing assembly couples the sawguides to one another so that the sawguides can be pivoted in unison about their respective pivot axes by a skewing driver.

Abstract: The present invention discloses a log sawing system comprising multiple cutting blades. The multiple cutting blades are positioned to cut laterally or perpendicular to the centerline of the log which is to be cut. The logs are transported into cutting position using some type of log positioner. The multiple cutting blades are rotatably mounted on an arm which is pivotally mounted on a shaft in groups, being driven by an electrical or like motor, all of which are mounted onto a platform positioned adjacent to the log to be cut. Hydraulic lifters are used to partially rotate the saw blades into the cutting position adjacent the log. Means utilizing a computer and lasers are provided to develop a log cutting solution to best utilize the logs.