A numerical controller looks ahead and analyzes commands indicated by a block contained in a program, and identifies a travel direction of a control target for each of the commands to calculate a time constant based on the identified travel direction. The numerical controller then sets a time constant for filter processing based on the time constant for each of the commands, and performs filter processing on command data subjected to a linear acceleration and deceleration process, based on the set time constant. The numerical controller then calculates movement of each axis for each interpolation period, based on the command data subjected to the filter processing.

Method and device for guiding a tool in a recurring application of a product moved along an X-axis, wherein the tool is mounted on the Z-carriage of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage is mounted on the X-carriage of the cross guide, the guide of which is mounted along the X-axis in a base plane, wherein the X-carriage is driven with an X-drive, wherein the Z-carriage is driven by a Z-drive, which is held stationary in the base plane and has a traction means driven by a first servo motor provided for the drive of the Z-carriage, which is driven from the base plane on the movable Z-carriage.

A numerical controller (100) capable of shortening the cycle time during tool replacement without modifying an existing program is provided. A numerical controller (100) includes a block information checking unit (108) that analyzes a program for respective blocks. When it is determined that one or two or more feed axis positioning commands are present before a tool replacement command found in the analysis result of the program, the block information checking unit (108) modifies the analysis result of the program so that a rotating tool axis orientation operation in the tool replacement command is executed during execution of a feed axis positioning command in any one of the one or two or more feed axis positioning command blocks.

Disclosed embodiments relate to a method of independent control period allocation of axes in a PLC positioning system. In some embodiments, the method includes: dividing the axes into a first axis group including a first control period and a second axis group including a second control period and allocating different control periods for different axes; when position control calculation of the first axis group is requested during position control calculation of the second axis group, performing the position control calculation of the first axis group through task switching by an interrupt; and, after completing the position control calculation of the first axis group, resuming the position control calculation of the second axis group through task switching by an interrupt.

Method and device for guiding a tool (2) in a recurring application of a product (3) moved along an X-axis, wherein the tool (2) is mounted on the Z-carriage (12) of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage (12) is mounted on the X-carriage (10) of the cross guide, the guide of which is mounted along the X-axis in a base plane (13), wherein the X-carriage (10) is driven with an X-drive, wherein the Z-carriage (12) is driven by a Z-drive, which is held stationary in the base plane (13) and has a traction means (17) driven by a first servo motor (8) provided for the drive of the Z-carriage, which is driven from the base plane (13) on the movable Z-carriage (12), wherein a movement of the Z-carriage (12) that is brought about by the movement of the X-carriage (10) and a motive force caused thereby on the traction means (17), is compensated when actuating the first servo motor (8) provided for the drive of the Z-carriage.

Method and device for guiding a tool in a recurring application of a product moved along an X-axis, wherein the tool is mounted on the Z-carriage of a cross guide and is moved therewith along the Z-axis standing perpendicular on the X-axis, wherein the Z-carriage is mounted on the X-carriage of the cross guide, the guide of which is mounted along the X-axis in a base plane, wherein the X-carriage is driven with an X-drive, wherein the Z-carriage is driven by a Z-drive, which is held stationary in the base plane and has a traction means driven by a first servo motor provided for the drive of the Z-carriage, which is driven from the base plane on the movable Z-carriage, wherein a movement of the Z-carriage that is brought about by the movement of the X-carriage and a motive force caused thereby on the traction means, is compensated when actuating the first servo motor provided for the drive of the Z-carriage.

A numerical controller looks ahead and analyzes commands indicated by a block contained in a program, and identifies a travel direction of a control target for each of the commands to calculate a time constant based on the identified travel direction. The numerical controller then sets a time constant for filter processing based on the time constant for each of the commands, and performs filter processing on command data subjected to a linear acceleration and deceleration process, based on the set time constant. The numerical controller then calculates movement of each axis for each interpolation period, based on the command data subjected to the filter processing.

A robot capable of substituting a plurality of parameter candidates in a point by a single-kind instruction sequence in accordance with the point is provided. A robot stores a main program, a sub program referred when the main program is executed, and a plurality of parameters. The sub program contains an instruction sequence containing a variable, and defines control details. The parameters are substitution candidates for the single kind of variable. The parameter to be substituted in the single kind of variable is determined, and one of the memory areas where the parameter is stored is interlinked with the variable in accordance with a determination result.

A numerical controller (100) capable of shortening the cycle time during tool replacement without modifying an existing program is provided. A numerical controller (100) includes a block information checking unit (108) that analyzes a program for respective blocks. When it is determined that one or two or more feed axis positioning commands are present before a tool replacement command found in the analysis result of the program, the block information checking unit (108) modifies the analysis result of the program so that a rotating tool axis orientation operation in the tool replacement command is executed during execution of a feed axis positioning command in any one of the one or two or more feed axis positioning command blocks.

Disclosed embodiments relate to a method of independent control period allocation of axes in a PLC positioning system. In some embodiments, the method includes: dividing the axes into a first axis group including a first control period and a second axis group including a second control period and allocating different control periods for different axes; when position control calculation of the first axis group is requested during position control calculation of the second axis group, performing the position control calculation of the first axis group through task switching by an interrupt; and, after completing the position control calculation of the first axis group, resuming the position control calculation of the second axis group through task switching by an interrupt.