A device and method used in a spindle or fixture to measure tool sizes. The device has two conical shapes that have precision machined surfaces. The device's face has a precise size which is the same nominal size as that of a material removing tool. The device's shaft allows for concentric and precision fastening of the device to a spindle or a fixture. The nose of the device is located on the end of the larger of the two conical shapes which is visible exposed when mounted and used. The end of the device is at the end of the smaller of the two conical shapes which is hidden after mounting. The combination of using the device and method will allow more accurate programming of machine tools which in turn will provide higher quality results on machined work pieces and reduced machining cycles.

The present invention provides a device and method for measuring dimensions of a back boring cutter. The device is formed by a measuring portion (1), a connecting portion (2) and a clamping portion (6). The measuring portion (1) has a first horizontal through hole (7), a horizontal hole (5) and a vertical hole (4). The clamping portion (6) comprises a second horizontal through hole (7), a side wall of the second horizontal through hole (7) is provided with a bolt hole (8), and a bolt (3) passes through the bolt hole (8) to install and fix a to-be-measured back boring cutter. One end of the connecting portion (2) is fixed on the measuring portion (1), while the other end is fixed on the clamping portion (6). The device and the method of the present invention have the advantages that simple measurement of important dimensions of the back boring cutter is realized, and dimension detection of the back boring cutter is simpler and more accurate.

The invention relates to a device (15) and a method (V) for machining a tool (16) by removing material. The tool is first of all measured in three dimensions using a measuring unit (17) and a three-dimensional virtual tool model (M) is produced therefrom. This virtual tool model (M) is compared with a reference contour (R) from a particular tool data record (WD). If a match was determined, a machining program (PR) assigned to the tool data record (WD) is selected and a desired contour (SK) is determined by fitting the reference contour (R) into the three-dimensional virtual tool model (M). The tool (16) can then be machined on the basis of this desired contour (SK).

The present invention provides a device and method for measuring dimensions of a back boring cutter. The device is formed by a measuring portion (1), a connecting portion (2) and a clamping portion (6). The measuring portion (1) has a first horizontal through hole (7), a horizontal hole (5) and a vertical hole (4). The clamping portion (6) comprises a second horizontal through hole (7), a side wall of the second horizontal through hole (7) is provided with a bolt hole (8), and a bolt (3) passes through the bolt hole (8) to install and fix a to-be-measured back boring cutter. One end of the connecting portion (2) is fixed on the measuring portion (1), while the other end is fixed on the clamping portion (6). The device and the method of the present invention have the advantages that simple measurement of important dimensions of the back boring cutter is realized, and dimension detection of the back boring cutter is simpler and more accurate.

An optical measuring and/or presetting method for a combined measuring and/or presetting of a set of profile machining tools comprises a plurality of individual profile machining tools is proposed, wherein the individual profile machining tools of the set of profile machining tools are configured for a successive machining of side edges of stone slabs, with at least one tool presetting and/or tool measuring apparatus, by means of which in at least one first tool measuring step an at least partly and/or at least section-wise concave-curved work contour, in particular milling contour or polishing contour, of a first profile machining tool of the set of profile machining tools is optically captured in an at least semi-automated manner, wherein in a first tool presetting step profile coordinates are assigned to the work contour of the first profile machining tool captured in the first tool measuring step, said profile coordinates being stored in a memory unit of the tool presetting and/or tool measuring apparatus.

A method, an apparatus and a processing center for autonomously measuring a tool or a complete tool, include a tool holder and a tool clamped in the tool holder. The autonomous measurement involves a type of the tool first being autonomously determined, a point on the tool that distinguishes the tool then being autonomously determined according to the type of the tool, functional geometries of the tool being autonomously measured starting from this point, and subsequently a cumulative geometry being autonomously ascertained for the tool from the measured functional geometries.