A coordinate measurement machine includes a column that can move relative to a placement surface on which a workpiece is placed, a guide part that is provided on the placement surface, the guide part guiding the column, a scale of a linear encoder that is supported on a side surface of the guide part, and detectors that are provided on the column, the detectors detecting a relative displacement with respect to the scale. The detectors detect a displacement of the column in each of a moving direction and a vertical direction. A coordinate measurement machine further includes a deformation amount acquisition part that acquires an amount of deformation of the guide part relative to the scale on the basis of detection results of the detectors.

A device for measuring the straightness of a rod-like work piece includes a support for the rod-like work piece. The support has multiple sections, each of which has a support surface. At least one force sensor is provided to measure the force applied by the work piece onto the support surface in a direction that extends essentially transverse to gravitational acceleration.

A Coordinate Measuring Machine (CMM) system comprising a CMM, a rotary table, and a rotation arrangement, wherein the CMM system is configured to be calibrated by determining the 6 dof pose of a jig, and to a method for calibrating. The jig may be mounted such that a current pose of the jig is associated with a current pose of the rotary table with respect to the CMM. The rotary table may be moved into multiple poses, and the 6 dof pose of the jig is measured for each of the multiple poses of the rotary table. An error map is generated, based on the angles associated with the poses of the rotary table, and is used to generate a coordinate transformation from the CMM coordinate system to the part coordinate system, which is associated with the rotary table, based on the error map.

The present invention relates to a coordinate measuring machine with a measuring system for measuring a workpiece, a carrier structure for carrying the measuring system and a base plate for supporting the workpiece. The carrier structure is movably guided in at least one direction on the base plate. The coordinate measuring machine also has a first support system with at least three supports for supporting the base plate, a second support system and a control device for controlling the second support system dependent on a force application to the first support system. The present invention also relates to a method for compensating for large workpiece masses on a coordinate measuring machine.

A measuring probe includes a stylus having a contact part to be in contact with an object to be measured, an axial motion mechanism having a moving member that allows the contact part to move in an axial direction, and a rotary motion mechanism having a rotating member that allows the contact part to move along a plane perpendicular to the axial direction by means of rotary motion. The measuring probe includes a main body housing that supports the axial motion mechanism, a module housing that supports the rotary motion mechanism, and a displacement detector supported by the main body housing for detecting displacement of the moving member. The measuring probe with this configuration ensures high measurement accuracy while keeping a low cost.

Methods and apparatus provide for obtaining a gravity free shape, and intrinsic shape, and a thermal strain of a glass sheet and using same to improve glass manufacturing techniques.

A device for contactlessly determining the straightness of at least one long product, where punctiform or linear measuring radiation is moved by a radiation source module over the long product at least transversely to the longitudinal direction of the long product during a measuring cycle. The intensity of detection radiation coming from an area of incidence of the measuring radiation is recorded by a radiation detection module in a time-resolved manner and is supplied to a control and evaluation unit. The spatial position of the areas of incidence and thus the straightness of a long product can be determined from location information regarding the areas of incidence in the longitudinal direction and from characteristic intensity values of the detection radiation. For a calibration, a reference straightness can be determined by carrying out multiple measuring cycles by rotating a long product of unknown straightness.

A coordinate positioning machine includes a plurality of drive axes, each being a rotary or linear drive axis, for positioning a platform within a working volume of the machine, and a separate linear counterbalance axis for counterbalancing the platform. With this arrangement the counterbalance axis can be substantially invariant to changes in orientation of the drive axes and can be counterbalanced by a simple counterweight. Also, an arrangement wherein the counterbalance axes and force generator are arranged so horizontal movement of the platform causes substantially no net movement of and/or no work to be done on the generator. Also, an arrangement wherein a series of counterbalance axes has at least one rotary counterbalance axis, and the generator is arranged behind or at a predetermined distance from the counterbalance axis. Also, an arrangement having a series of counterbalance axes with at most one rotary counterbalance axis between the generator and ground.

The present invention relates to a displacement extensometer for measuring the linear displacement of an object to be measured, the displacement extensometer comprising: a first bracket installed at a reference point so as to provide support force; a second bracket fixed to an object to be measured; a displacement meter body fixed to the first bracket and including a center rod connected to the second bracket, so as to detect displacement while the center rod horizontally moves according to positions of the object to be measured; a first link connecting the displacement meter body to the first bracket; a second link connecting the center rod of the displacement meter body to the second bracket; and a friction compensation member provided in the displacement meter body so as to compensate for the friction due to sagging of the center rod while providing physical stress to the center rod.

An apparatus and a relative method for measuring straightness errors of elongated-shape elements, such as bars, tubes and the like is presented. The measuring apparatus includes a supporting system for a bar, a first detecting system having one or more first sensors to detect the development of the longitudinal axis of the bar, and a central control unit. The measuring apparatus further includes a second detecting system provided with a plurality of second sensors to detect the forces the bar applies to the supporting system and acquiring means to acquire at least one physical parameter of the bar under measuring. The central control unit includes at least one data acquiring and processing module to acquire and process the data detected by said first and second detecting systems and acquired by said acquiring means, in order to determine the possible straightness error of the bar.