The present invention is a new multipurpose speed square that is easily utilized by any workman who typically requires a means for measuring, aligning, leveling, etc. The speed square is multi-functional, of simple construction, lightweight and portable. The speed square can be easily carried as an all-in-one tool and thus eliminates the need for additional tools, or the like. The speed square that can be manufactured from substantially any suitable material of engineering choice, is cost effective to produce, manufacture, easily marketed and easily sold.

A six DOF measurement aid module for determining 3D coordinates of points to be measured of an object surface, comprising a laser tracker for determining the position and orientation of the six DOF measurement aid module. The six DOF measurement aid module has a body comprising an object coupling device with an object interface, configured to couple, via the object interface, alternatively both a handle to the body with a fixed pose and the body to a mobile platform with a fixed pose, a sensor attachment coupling device with a sensor interface-configured to couple alternatively both a sensor attachment effecting non-contact measurement and a sensor attachment effecting tactile measurement to the body with a fixed pose via the sensor interface, and visual markings, which are arranged in a defined spatial relationship in a manner forming a pattern in a marking region on the body.

A position detection and determination device and a position calibration device and method are provided. The position detection and determination device includes a standard positioning pin position limiting component configured to limit standard position information of a positioning pin of a load port of a silicon wafer pod; a positioning pin position detecting component configured to detect real-time position information of the positioning pin of the load port of the silicon wafer pod; and a determining module configured to obtain the standard position information and the real-time position information, and determine whether the position of the positioning pin of the load port of the silicon wafer pod is accurate or not according to the standard position information and the real-time position information.

The present disclosure relates to the field of tools and more particularly to tools used for locating non-visible structural elements. In specific embodiments, the tools are used to locate non-visible structural elements, such as under a roof or behind a wall.

A multi-dimensional measuring system is disclosed. The measuring system includes a dimensional measuring device that fits over an exterior portion of an item and provides reference measurements in three orthogonal directions. The measuring system also includes a camera to take an image of the item with the dimensional measuring placed thereon and a hardware processor that receives and processes the image to determine the dimensions of the item based upon the reference measurements of the dimensional measuring device.

A multi-dimensional measuring system is disclosed. The measuring system includes a dimensional measuring device that fits over an exterior portion of an item and provides reference measurements in three orthogonal directions. The measuring system also includes a camera to take an image of the item with the dimensional measuring placed thereon and a hardware processor that receives and processes the image to determine the dimensions of the item based upon the reference measurements of the dimensional measuring device.

A displacement sensor includes a coil which is mounted on a board and which is formed to have less than one turn, an inverter electrically connected to the coil, the inverter being configured to generate an oscillation signal, and a frequency detector electrically connected to the inverter, the frequency detector being configured to detect an oscillation frequency of an oscillator circuit including the coil and the inverter in accordance with a distance between a measurement object and the coil.

An operation accuracy measuring method for measuring the operation accuracy of a linear motion mechanism includes the steps of placing on a support table a measuring jig having a flat lower surface, a parallel surface opposite and parallel to the lower surface, and a slanted surface joined to the parallel surface through a straight boundary line, adjusting the position of the measuring jig to allow the white light interferometer to observe the parallel surface and the slanted surface simultaneously, capturing images of the parallel surface and the slanted surface with the white light interferometer and observing changes in interference fringes appearing in image sections of the captured images that represent the parallel surface and the slanted surface while the support table is being linearly moved, and the step of deducing the operation accuracy of the linear motion mechanism on the basis of the observed changes in the interference fringes.

There is provided a probe unit correction method for correcting linear expansion of a probe unit to obtain an accurate measurement value. First, a probe offset value is calculated as a model. Then, a probe unit correction method includes a temperature data acquisition step of acquiring a temperature difference between a temperature at a time of calibration and a temperature of a current measurement environment, a reference tip coordinate correction step of calculating, as a reference tip correction coordinate value, a correction value of a reference tip coordinate value to which linear expansion is added, and a probe offset correction step of calculating, as a probe offset correction value, a correction value of a probe offset value to which the linear expansion is added.

The cartridge case volume measurement system determines case capacity by sealing the internal system volume, and then changing it by a fixed amount. The resulting change in internal pressure of the system is measured and used to compute the volume of the case. The internal system volume includes the volume of the case, the volume inside a master cylinder that is behind a master piston, the volume inside any sensors, tubing, and channels that are part of or connected to the master cylinder. A computing device uses the ideal gas law in conjunction with calibration of the system using cases of known capacity in order to compute case volume from the change in internal pressure resulting from the change in volume.