A numerical control apparatus of a machine tool that performs tapping, includes a numerical control, an acceleration learning block, an acceleration/deceleration processing unit that applies an acceleration/deceleration process to the command acceleration and the position command value to calculate a post-acceleration/deceleration position command value, a position control unit that calculates a speed command value based on the post-acceleration/deceleration position command value, a speed/torque control unit that calculates a motor torque command value from the speed command value, and a current control unit that calculates a motor current value of a spindle motor from the motor torque command value. The acceleration learning block outputs, as the command acceleration A, an initial command acceleration A[0] which is smaller than the calculated command acceleration, in accordance with a state quantity of the spindle motor, to the acceleration/deceleration processing unit.

A numerical controller is provided with a speed feedforward gain correction unit configured to obtain an associated axis, which is subject to a varying load applied to a particular axis according to a coordinate value, and a correction coefficient of the particular axis corresponding to the current coordinate value of the associated axis, based on a correction coefficient storage unit, and correct a speed feedforward gain for speed feedforward control of the particular axis, and a motor control unit configured to control the particular axis based on the corrected speed feedforward gain.

Workpieces WP are scanned at a scanning station (14) while being transported on a conveyor (12). A control system (18) analyzes the scanning data to develop a three-dimensional model of the workpiece WP and determine how to portion or trim the workpiece as desired. The cutting/trimming paths made through the workpiece is compared with the predetermined cutting paths to quantify the correspondence (or deviance) of the actual cutting paths from the predetermining cutting paths. This information is reviewed to determine whether the system (10) is operating property. If the alignment of the actual cutting/trimming paths with the predetermined cutting/trimming paths are not within a predetermined set point, the control system (18) seeks to determine the cause of the deviation as well as determine what remedial steps to take to restore the alignment of the actual cutting/trimming paths with the predetermined cutting/trimming paths.

A method and a device applying surface structuring to a surface of a workpiece on a machine tool, performing a feed motion of a milling cutter which is rotationally driven by a work spindle of the machine tool, received in a tool head of the machine tool and has at least one protruding cutting edge along the surface of the workpiece; applying the surface structuring in accordance with a predetermined pattern to the surface of the workpiece during the feed motion of the milling cutter on the basis of a control signal to an actuator which is integrated in the tool head and is configured to drive a vibration of the milling cutter on the basis of the control signal, wherein the control signal contains high-frequency carrier signal and a useful signal which modulates the carrier signal and which is generated on the basis of data indicating the predetermined pattern.

To provide a numerical controller that is capable of analyzing a machining program so as to determine whether machining is machining placing emphasis on accuracy and machining placing emphasis on speed and vary an allowable speed difference. The numerical controller includes a determination unit and a corner deceleration control unit. The determination unit analyzes a machining program so as to determine which machining is to be performed between machining placing emphasis on accuracy and machining placing emphasis on speed. The corner deceleration control unit executes corner deceleration control based on a speed difference between cutting feed speeds on blocks leading and following a corner and an allowable speed difference which is predetermined. At this time, the corner deceleration control unit varies the allowable speed difference in accordance with a determination result of the determination unit.

A controller of a machine tool includes a plurality of feed axes that feed a tool, machines a workpiece while making the tool oscillate and includes: an oscillation command creation unit which creates an oscillation command based on a machining condition; and a control unit which machines, based on the oscillation command and a movement command, the workpiece while making the tool oscillate, and the oscillation command creation unit creates, when the machining condition indicates machining by an interpolation operation of one feed axis of the plurality of feed axes, the oscillation command so as to make the tool oscillate in a direction along a machining path and changes, when the machining condition indicates machining by a simultaneous interpolation operation of the plurality of feed axes, the oscillation command so as to change the direction of the oscillation with respect to the machining path.

This machining system comprises: a CAM device for generating, on the basis of three-dimensional shape data, a machining program including an operation code; and a numerical control device for controlling an electric motor of a machine tool. The machining system is provided with a monitoring device for detecting an abnormality of the machine tool on the basis of a drive state of the electric motor. The machining system is provided with a revision device for generating a revision command for revising a parameter for when the CAM device generates the machining program. The revision device transmits the revision command to the CAM device so as to revise the curvature of a tool path and/or the feed rate of a tool for when the abnormality occurred.

A central tire inflation system for a vehicle having a plurality of inflation control valves for controlling inflation of a respective tire, a first gas source for supplying pressurized gas to the inflation control valves, a first gas inlet valve for controlling the supply of gas from the first gas source to a fluid gallery, and a plurality of gallery outlet valves each arranged to control gas flow between the fluid gallery and a respective tire supply line that supplies gas from the fluid gallery to the inflation control valve. The gallery has two gallery pressure sensors for measuring a pressure of gas in the gallery. An electronic controller performs a gallery pressure sensor check that involves, with the gallery outlet valves and first gas inlet valve closed, causing the gallery exhaust valve to open and monitoring the pressure in the gallery according to each of the gallery pressure sensors.

A machine tool controlled by a numerical controller includes a feed handle for driving a drive-shaft for moving a tool and a workpiece relatively by using a mechanical mechanism and a motor for driving the drive shaft. The numerical controller generates an automatic feed command for driving the motor when a specific handle operation performed on the feed handle is detected.

An e-liquid cartridge designed to provide e-liquid for an electronic cigarette vaporizer, the cartridge including two apertures, the first aperture being used to fill the cartridge on a filing line and then being covered with a bung or plug or other form of seal and the second aperture being sealed by a septum or other form of seal that is designed to be penetrated or punctured by a needle or stem that, in use, withdraws e-liquid from the cartridge. The first aperture is sized to enable rapid filling with e-liquid on an automated or semi-automated manufacturing line.