The present disclosure relates to a device for machining a work-piece with a tool, including a tool receptacle for releasably clamping a tool, such as a hob peeling wheel, and a machining head, which is provided with the tool receptacle, and is designed to drive a tool clamped therein, and to move it relative to a work-piece to be machined, including an assessment unit for imaging and/or measuring a tool, or a part thereof, in order to detect the state of wear of the tool.

Provided herein are a numerical control mechanism, a tool replacement equipment and a tool replacement method, which are used for disassembling a first tool and preparing a second tool according to a tool replacement task and replacing the first tool with a second tool, so as to realize automatic tool replacement, reduce manpower and machine waiting time for the tool replacement, and improve the tool replacement efficiency.

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

A method of inspecting a cutting blade having a cutting edge formed of abrasive grains of selected abrasive grain diameters which are bound by a bonding material, includes a cutting step of moving the chuck table and the cutting blade, which is being rotated at a high speed, relatively to each other along a direction perpendicular to an axis of rotation of a spindle, thereby forming a cut groove in the workpiece, and an inspecting step of capturing an image of the cut groove formed in the workpiece by image capturing means, and inspecting the state of the cut groove. The inspecting step examines whether or not the selected abrasive grain diameters are proper on the basis of any of the elements representing the size of an average chip, the number of chips, and the area of chips on both sides of the cut groove per unit length.

This machine tool has a tool changing device, and sequentially changes tools to machine a workpiece. The machine tool comprises: an input unit which receives a machining program output from a CAM system and tool basic data; a storage unit which stores the tool basic data received from the input unit for each tool number; a tool measuring device which measures the size of a tool loaded into a tool magazine of the tool changing device; and a determination unit which compares the tool basic data stored in the storage unit and the actual data measured by the measuring device, and determines that the measured tool is different from a desired tool if the difference between the two tool sizes is beyond a preset allowable range.

A broken tool detection mechanism applied in a CNC machine includes a base support, a first conductive elastic sheet securely mounted on the base support, and a second conductive elastic sheet. The second conductive elastic sheet is mounted on the base support, at least partially located over the first conductive elastic sheet, and spaced apart from the second conductive elastic sheet by a predetermined distance. The second conductive elastic sheet is pushed towards the first conductive elastic sheet so that the first conductive elastic sheet and the second conductive elastic sheet make electrical contact.

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 flexible manufacturing system that can reliably place a workpiece that isn't defective piece in a state where the workpiece will be machined again. After a pallet is conveyed to a standby position and before machining of the workpiece attached to the pallet is started, controllers determines whether machining of the workpiece with a corresponding machining device is possible. When it is determined that machining is possible, the controller starts machining with the machining device. When it is determined that machining is impossible, the controller make a conveyor convey the pallet from the standby position to a pallet storage room, and stores the machining status information on the conveyed pallet as the machining-waiting state.

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.

The invention primarily relates to a system (10) for detecting a total or partial obstruction of at least one internal fluid pipe (11) of a tool (12), characterised in that said system (10) comprises: a pneumatic system (13) that is intended to be connected upstream of said internal pipe (11) of said tool (12), a pressure source (16) that is connected to said pneumatic system (13) by means of a solenoid valve (17), and a control unit (22) that is configured to open said solenoid valve (17) so as to pressurise said pneumatic system (13), and then to close said solenoid valve (17) so as to let said pneumatic system (13) be emptied freely by means of said internal pipe (11), and to detect an obstruction state of said internal pipe (11) depending on an analysis over time of a change in the pressure in said pneumatic system (13).