A device (1) at least for measuring the geometry of an axle (2) of a motor vehicle, with at least two mounting devices (4) for fastening the opposing ends (5) of the axle (2), and at least one detection means (9) for detection of at least one geometric parameter of the axle (2), wherein the mounting devices (4) are displaceably mounted in at least two spatial directions (X, Y), wherein each mounting device (4) features at least one fastening region (12) for fastening of one end (5) of the axle (2). A device (1) at least for measuring the geometry of an axle (2) of a motor vehicle which features a low-level of complexity and is of compact design is obtained in that at least the fastening region (12) of the mounting device (4) is pivot-mounted at least partially by means of at least two mutually movable, arched bearing surfaces (13).

The disclosure relates to a vertical displacement detecting device, comprising a fixed frame, a first guiding rail and a second guiding rail. The first guiding rail and the second guiding rail are respectively provided with a first sliding block and a second sliding block. The top or bottom surface of the blocking plate is contacted with a displacement detector. The second sliding block is provided with a traction wire. A top end of the fixed frame is provided with a pulley and a traction wire, and the traction wire is wound around the pulley, one end of the traction wire is connected with the first sliding block and the other end is connected to the second sliding block. The disclosure has the advantages of simple structure, accurate precision, low cost and simple realization method, and it is advantageous for wide use.

Jigs and fixtures for aligning, guiding, and/or holding a workpiece on woodworking machinery during a woodworking operation are described, as well as methods of making, modifying, and using jigs and fixtures.

A step gauge and a reference gauge block are placed in a temperature-controlled chamber in parallel with each other. A temperature of the step gauge is changed to a first temperature and a second temperature using a measurement-target temperature adjuster and the temperature-controlled chamber. A distance between a first surface and a second surface of the step gauge is relatively measured at each of the first and second temperatures with reference to a distance between a first reference surface and a second reference surface of the reference gauge block. A coefficient of thermal expansion of the measurement target is calculated from the length of the measurement target at the first temperature and the length of the measurement target at the second temperature.

A three-dimensional coordinate measurement apparatus capable of reducing shaking of a Y carriage and improving measurement accuracy. The Y carriage is supported by two strut members which are across a surface plate and movable in a Y-axis direction. The two strut members include a first strut member having a driving mechanism and a second strut member which moves following the first strut member. A guide portion parallel to the Y-axis direction is formed in the surface plate on a first strut member side. Side surface support members support the first strut member on the surface plate by holding both opposed side surfaces of the guide portion. The driving mechanism includes a roller having an axis perpendicular to a surface plate surface, and the roller is brought into contact with one side surface of the guide portion and rolled to move the Y carriage relatively to the surface plate.

A linear guide for a coordinate measuring machine. The linear guide comprises at least one plate-shaped main body and at least one guide rail. The plate-shaped main body has a material with a first coefficient of thermal expansion. The at least one guide rail has a material with a second coefficient of thermal expansion, which differs from the first coefficient of thermal expansion. The guide rail is connected to the plate-shaped main body, and arranged in a neutral axis of the plate-shaped main body.

Apparatuses, systems and methods associated with a metrology system for high-speed, non-contact coordinate measurements of parts are disclosed herein. In embodiments, the metrology system includes a metrology bridge to be coupled to a measurement assembly. The measurement assembly may include a stage moveable across multiple independent axes. The bridge may include a housing, mounting members coupled to the housing, and a plurality of sensors mounted within the housing. The mounting members may rotatably couple the housing to the measurement assembly. Further, sensor elements of the plurality of sensor devices may be aligned along a length of the housing and may be directed out of the housing.

There is provided a three-dimensional coordinate measurement apparatus capable of reducing shaking of a Y carriage and improving measurement accuracy. A groove is formed along a Y-axis direction in a right side part of a surface plate made of stone, and a Y guide is formed between the groove and a right side surface of the surface plate to support a Y carriage in a portal shape in a movable manner in the Y-axis direction. A support section is provided at a lower end of a right Y carriage on the right side of the Y carriage, and the support section is supported by the surface plate through air pads which are disposed by two air pads back and forth on the corresponding one of a top surface, a right side surface, and a bottom surface, of the surface plate, and a right side surface of the groove.

Surface measuring device for measuring a surface of a workpiece has a device base body, and a measuring probe that by use of a feed apparatus is movable along a feed axis relative to a workpiece to be measured. The measuring probe has a probe base body and a probe element, connected to the probe base body, for scanning the workpiece in the direction of a measuring axis. The probe base body is connected to the measuring device base body via the feed apparatus. An oscillation damper is associated with the measuring probe, and is designed and configured for oscillation rate-dependent damping of oscillations of the probe base body of the measuring probe, and is active between the probe base body and the device base body.

A three-dimensional coordinate measuring machine includes a base, a moving mechanism provided on the base, and a probe moved by the moving mechanism, the three-dimensional coordinate measuring machine measures coordinates of a surface position of an object to be measured by using the probe, the moving mechanism includes: a linear guide using a mechanical bearing; and an air bearing mechanism provided in parallel to the linear guide, one of ends of the moving part is attached to a linear moving unit that moves by the linear guide and the other is attached to the air moving part so that the other end can swing with respect to the air moving part, and the air bearing mechanism absorbs a difference in the height change between the linear guide and the air bearing mechanism by the air bearing.