A detection device for the seating detection of an object on a clamping device includes a measuring chamber with an inflow opening to supply a detection fluid from a pressure source, at least one outflow opening to discharge the detection fluid to a pressure sink and with at least one detection opening, which can be closed at least partially by the object abutting on the clamping device. An inflow resistance limits an inflow of the detection fluid via the inflow opening, at least one outflow resistance limits an outflow of the detection fluid via the at least one outflow opening and a pressure sensor determines a pressure of the detection fluid in the measuring chamber.

A detection device for the seating detection of an object on a clamping device includes a measuring chamber with an inflow opening to supply a detection fluid from a pressure source, at least one outflow opening to discharge the detection fluid to a pressure sink and with at least one detection opening, which can be closed at least partially by the object abutting on the clamping device. An inflow resistance limits an inflow of the detection fluid via the inflow opening, at least one outflow resistance limits an outflow of the detection fluid via the at least one outflow opening and a pressure sensor determines a pressure of the detection fluid in the measuring chamber.

A linear gauge includes a contact member having a lower tip to be positioned facing a workpiece; an air slider including a cylinder surrounding the contact member with a clearance left between them, and configured to eject air such that the contact member is supported movably in a vertical direction; a scale that detects a height position of the contact member; a casing accommodating therein the contact member, the air slider, and the scale; an evacuation portion formed in an upper portion of the cylinder such that the ejected air is evacuated into the casing; and a communication channel communicating an inlet, which is formed in an upper portion of the contact member, and an outlet, which is formed in the lower tip of the contact member, with each other inside the contact member.

A linear gauge includes a contact member having a lower tip to be positioned facing a workpiece; an air slider including a cylinder surrounding the contact member with a clearance left between them, and configured to eject air such that the contact member is supported movably in a vertical direction; a scale that detects a height position of the contact member; a casing accommodating therein the contact member, the air slider, and the scale; an evacuation portion formed in an upper portion of the cylinder such that the ejected air is evacuated into the casing; and a communication channel communicating an inlet, which is formed in an upper portion of the contact member, and an outlet, which is formed in the lower tip of the contact member, with each other inside the contact member.

An apparatus and method for inspecting an object by optical triangulation, where the signal of interest in a captured image corresponds to an interaction between a light beam and an environment surrounding the object rather than between a light beam and the object itself. The surrounding environment may be configured to interact in a manner that is detectable by filling it with a flowable scattering medium, e.g. a gas, mist or vapour comprising a suspension of fine particles in air. Light that is scattered by the flowable scattering medium is visible in a captured image. Where the flowable scattering medium is not present, e.g. because the object blocks it, the scattered signal is less. A boundary of a scattered signal region may thus provide information about the location of an object.

An apparatus for calibrating an air gap sensor of a machine tool can include a gauge block and a plurality of magnets. The gauge block can have a plurality of gauge grooves. Each of the gauge grooves can have a unique gauge depth that corresponds to a respective one of a plurality of predetermined calibration values for the air gap sensor. Each of the magnets can be embedded in the gauge block. A method of using the apparatus for calibrating an air gap sensor can include attaching the apparatus to a machine tool using only magnetic force to keep the apparatus in place.

An apparatus for calibrating an air gap sensor of a machine tool can include a gauge block and a plurality of magnets. The gauge block can have a plurality of gauge grooves. Each of the gauge grooves can have a unique gauge depth that corresponds to a respective one of a plurality of predetermined calibration values for the air gap sensor. Each of the magnets can be embedded in the gauge block. A method of using the apparatus for calibrating an air gap sensor can include attaching the apparatus to a machine tool using only magnetic force to keep the apparatus in place.

A gap measurement tool assembly for measuring a gap at a through hole between mating parts of a structure is provided. The assembly includes a gap measurement tool with a first end, a second end, and a body having a hollow inner channel, an exterior annular crevice, a first exterior annular groove having a cross-hole intersected by the hollow inner channel, and a second exterior annular groove. The assembly includes a first seal element, a second seal element, and a third seal element. The assembly is configured for insertion and sealing into the through hole, and the cross-hole is configured to align with the gap. When compressed air is passed into the gap, an air gage system takes a measurement of one of, a back pressure, an air flow, or a differential pressure, and correlates the measurement to a predetermined gap measurement, to determine a gap size of the gap.

A gap measurement tool assembly for measuring a gap at a through hole between mating parts of a structure is provided. The assembly includes a gap measurement tool with a first end, a second end, and a body having a hollow inner channel, an exterior annular crevice, a first exterior annular groove having a cross-hole intersected by the hollow inner channel, and a second exterior annular groove. The assembly includes a first seal element, a second seal element, and a third seal element. The assembly is configured for insertion and sealing into the through hole, and the cross-hole is configured to align with the gap. When compressed air is passed into the gap, an air gage system takes a measurement of one of, a back pressure, an air flow, or a differential pressure, and correlates the measurement to a predetermined gap measurement, to determine a gap size of the gap.

The present invention provides a surface following nozzle, an observation device for a moving object surface, and an observation method for the moving object surface that can remove water in the vicinity of the nozzle while following changes in the shape and changes in the distance of a moving object. A surface following nozzle includes a nozzle that injects gas from a tip end thereof, a separating part that closes a base end of the nozzle, and an extending and contracting part that is provided at a rear side of the nozzle via the separating part, and extends and contracts along an axial direction of the nozzle. The extending and contracting part includes an elastic body that applies a forward force with respect to the nozzle.