A method for mounting and aligning a guide rail in an elevator shaft of an elevator system, which elevator shaft primarily extends in a main extension direction, includes at least the following steps: securing a rail bracket base to a shaft wall of the elevator shaft; applying a mark to the rail bracket base; aligning the guide rail in relation to the mark; and securing the guide rail to the shaft wall using the rail bracket base. The alignment of the guide rail is carried out by an alignment device that includes an abutment part and a location device.

A method provides for measuring an assembled component including two or more parts, the method including the steps of: providing the component with a plurality of unique markers for detection during a scanning process; defining a first of the unique markers and aligning the first defined unique marker with a first element of the component; defining a second of the unique markers and aligning the second defined unique marker with a second element of the component; scanning the component and unique markers to capture a digitised version of the component and the relative positions of the first and second defined unique markers; and aligning a nominal CAD model of a part of the component with the equivalent part of the digitised version of the component using the relative positions of the first and second defined unique markers.

A method provides for measuring an assembled component including two or more parts, the method including the steps of: providing the component with a plurality of unique markers for detection during a scanning process; defining a first of the unique markers and aligning the first defined unique marker with a first element of the component; defining a second of the unique markers and aligning the second defined unique marker with a second element of the component; scanning the component and unique markers to capture a digitised version of the component and the relative positions of the first and second defined unique markers; and aligning a nominal CAD model of a part of the component with the equivalent part of the digitised version of the component using the relative positions of the first and second defined unique markers.

A surface profiler including at least one front support wheel and at least one rear support wheel for travelling along the surface of a profile to be measured, the rotational axes of said wheels being longitudinally spaced, and the wheels contacting the surface being profiled in a collinear manner. A frame carried on the wheels carries at least one inclinometer and at least two vertical distance measuring apparatus such as lasers, and may also carry an optical encoder. The lasers are collinear with each other and with the wheels. Incremental .[.to.]. measurements of inclination angles provided by the inclinometer, together with incremental measurements of distance to the surface being measured provided by the lasers, produce a continuous, high resolution mathematical series of elevations representing the surface profile, including reproduction of surface features that are smaller than the distance between the wheels.

A drop-out mounting structure for wheel alignment is disclosed. The disclosed drop-out mounting structure for the wheel alignment according to an aspect of the present disclosure for mounting a drop-out member as a wheel mounting unit to a bicycle frame through a bolt in a state that the drop-out member may be set according to a predetermined reference position includes a wheel alignment unit provided to be in spherical contact with a bolt fastening portion of the drop-out member and the frame as a male and female type and performing wheel alignment according to deformation of the frame.

A drop-out mounting structure for wheel alignment is disclosed. The disclosed drop-out mounting structure for the wheel alignment according to an aspect of the present disclosure for mounting a drop-out member as a wheel mounting unit to a bicycle frame through a bolt in a state that the drop-out member may be set according to a predetermined reference position includes a wheel alignment unit provided to be in spherical contact with a bolt fastening portion of the drop-out member and the frame as a male and female type and performing wheel alignment according to deformation of the frame.

An alignment tool for a laser machine tool includes a frame that is mountable to the laser cutting head of the laser machine tool; a first indicator mounted to the frame along an X-axis; a second indicator mounted to the frame along a Y-axis; a position device mounted to the frame, the position device operable to reference upon a surface of the laser cutting head to align the first indicator along an X-axis of the laser cutting head, and to align the second indicator along a Y-axis of the laser cutting head; and a fastener mounted to the frame, the fastener operable to retain the frame to the laser cutting head.

A method of installing a diffuser in an air cycle machine includes placing a first housing on a shaft, placing a seal plate on the shaft, and placing a diffuser on the shaft. Next, the diffuser and the seal plate are aligned with an alignment tool. The alignment tool has a first annular surface to align with a radially outer surface of the seal plate and a second annular surface to align with an annular flange on the diffuser. Finally, the diffuser is fastened to the seal plate and the alignment tool is removed from the diffuser and the seal plate.

A method of installing a diffuser in an air cycle machine includes placing a first housing on a shaft, placing a seal plate on the shaft, and placing a diffuser on the shaft. Next, the diffuser and the seal plate are aligned with an alignment tool. The alignment tool has a first annular surface to align with a radially outer surface of the seal plate and a second annular surface to align with an annular flange on the diffuser. Finally, the diffuser is fastened to the seal plate and the alignment tool is removed from the diffuser and the seal plate.

A monitoring module for assembly accuracy between two components includes a first component having an installation surface, and a second component having an opposite surface and disposed in a way that the opposite surface faces towards the installation surface. A preload is continuously applied to at least one of the first and second components to press the opposite surface of the second component on the installation surface of the first component. The installation surface is defined with a reference point. At least two load cell pairs are disposed on the installation surface. Each load cell pair has two load cells located on two sides of the reference point respectively, and the imaginary line connecting the two load cells passes through the reference point.

Besides, the load cells are separated from each other without any overlap. The opposite surface is pressed on the at least two load cell pairs.