There is provided a profile measuring apparatus, including: an irradiation section configured to irradiate a measurement light to a measurement area of the object; an imaging section configured to obtain an image of the measurement area; a table configured to place the object thereon; a coordinate calculation section configured to calculate a position of the measurement area based on an image detected by a detection section; and a positioning mechanism configured to drive and control a relative position of the imaging section and the table. The positioning mechanism calculates a relative position of the imaging section to the table, based on an information with respect to an edge line direction of a convex portion or an extending direction of a concave portion in the measurement area of the object having a repetitive concave-convex shape, to move at least one of the table and the imaging section.

The present invention concerns a method and a system for detecting malfunctions in an apparatus and/or defects in a workpiece processed by said apparatus. The method provides for acquiring a sound signal emitted by an apparatus during an operation cycle of the same, then comparing the sound signal with a plurality of audio tracks stored in a memory area for determining a malfunction of the apparatus and/or a defectiveness of the workpiece processed by the apparatus based on the result of said comparison. The operation cycle is subdivided into a plurality of work phases and during the acquisition of the sound signal a work phase of said plurality of work phases is identified. Each audio track of the plurality of stored audio tracks comprises an audio component relating to acquired sound signals, and additional information data comprising at least one identifier of the work phase executed by the apparatus during the acquisition of the sound signals of the audio component. The plurality of audio tracks used for the comparison with the sound signal is a group of audio tracks of the plurality of audio tracks whose identifier of the work phase of the apparatus corresponds to the identified work phase. The identification data of the audio tracks additionally comprise at least one identifier of a plurality of components activated during the phase to which the audio component refers, and it is further provided for a) identifying a plurality of components activated during the identified work phase, b) on the basis of the plurality of activated components, identifying a set of comparison phases among the plurality of phases of the operation cycle, and c) identifying as defective at least one component between the plurality of components activated during the work phase and/or the workpiece, on the basis of the audio tracks relating to the set of comparison phases identified and/or on the basis of sound signals acquired during the identified comparison phases.

A cleaning system capable of improving efficiency of a cleaning operation onto a work area of a machine tool. The cleaning system includes a cleaning nozzle attached to and detached from an attachment device provided in the machine tool, and configured to inject fluid; a robot configured to grip the cleaning nozzle; and a cleaning execution section configured to execute a detaching operation to operate the robot so as to grip the cleaning nozzle attached to the attachment device and detach the cleaning nozzle from the attachment device, and a cleaning operation to move the cleaning nozzle with respect to the work area by the robot, and inject the fluid from the cleaning nozzle to clean the work area.

An ice blade measuring system having a holder, a non-contact measuring device, and a data storage means is disclosed. The holder holds the ice blade in a measurement position. The non-contact measuring device being operationally positioned relative to the holder to measure at least a three-dimensional (3D) shape of an ice contacting surface of an ice blade held in the holder. The non-contact measuring device being configured to create a dataset which corresponds to the 3D shape. The data storage means being operatively connected to the non-contact measuring device to record the measured dataset.

There is provided a profile measuring apparatus, including: an irradiation section configured to irradiate a measurement light to a measurement area of the object; an imaging section configured to obtain an image of the measurement area; a table configured to place the object thereon; a coordinate calculation section configured to calculate a position of the measurement area based on an image detected by a detection section; and a positioning mechanism configured to drive and control a relative position of the imaging section and the table. The positioning mechanism calculates a relative position of the imaging section to the table, based on an information with respect to an edge line direction of a convex portion or an extending direction of a concave portion in the measurement area of the object having a repetitive concave-convex shape, to move at least one of the table and the imaging section.

A system to control a workpiece during its manufacturing in a machining system. The control being performed in the same manufacturing phase following machining operation. The workpiece being set in the work volume of the machining system. The check operation includes the acquisition of points on the surface of the part. The robot is moved by a cart so the robot can reach the protected working area. The measuring device is positioned relative to the workpiece by the robot. Acquisition of a plurality of points on the surface of the workpiece is performed. The position of the plurality points acquired is compared with the three-dimensional model stored in the memory of the computer.

An automated apparatus for grinding an ice blade on an ice skate comprises a processor, an input device in communication with said processor, a skate holder, a non-contact measuring device in communication with said processor, and a grinding device in communication with said processor. The input device permits a user to select an ice blade grinding option. The skate holder releasably holds at least one said ice skate to said apparatus. The non-contact measuring device is configured to measure a three-dimensional (3D) shape of said ice blade. The grinding device is configured to perform a grinding action on said ice blade in said holder based on said selected ice blade grinding option to change said 3D shape of said ice blade to a desired 3D shape.

Various embodiments of tools with associated optical measurement devices are described. An apparatus may include a tool to be applied to a workpiece, an optical measurement device in a feed path of the tool, and a controller. The optical measurement device may generate displacement measurements indicative of displacement of the workpiece as the workpiece traverses the feed path toward the tool. The controller may generate a measurement of the workpiece based on the plurality of displacement measurements.

A system for reconditioning barrels comprising: a robot arm; a router assembly for routing the inside surface of a barrel; and a laser assembly for measuring the inside profile of a barrel, wherein: the router assembly is fixedly attached to the robot arm; and the laser assembly is removably attached to the router assembly thus allowing the laser assembly to be removed while the barrel is being routed in order to protect the laser from airborne particles and vibrations from the router.

Apparatus for enabling determination of position of an object, the apparatus comprising: a baseplate configured to support a fixture for retaining the object, the base plate comprising: a body comprising: a first connector configured to connect to a second connector of the fixture; and a plurality of first reference marks distributed on at least a first surface of the body.