The present invention is to provide a measurement control device. A sensor unit 1 disposed at least in the horizontal direction perpendicular to the traveling direction in which the article G to be packaged is conveyed, and a pressing member detection unit D for detecting an article conveyance pressing member P mounted on the packaging device are connected to the measurement control device main body 2, and the measurement control device is provided with an acquisition signal stopping unit which stops acquisition of signals from the sensor unit 1 when the pressing member detection unit D detects the pressing member P, and a signal acquisition restarting unit which restarts acquisition of signals from the sensor unit 1 when the pressing member detection unit D does not detect the pressing member P.

A communication method includes: transmitting, by a transmitter, advertising packets having different data lengths per transmitting channel; and identifying, by a receiver, a transmitting channel of an advertising packet based on data length information contained in header information in the advertising packet, and the receiver receives remaining data in the advertising packet when the identified transmitting channel and a receiving channel match, and not receive the remaining data in the advertising packet when the identified transmitting channel and the receiving channel do not match.

The measuring unit comprises a first carriage arranged to be connected to the bending machine and to be passed through by the workpiece under bending coming from the bending machine. The first carriage comprises: a main body; a pair of measure rollers; a first measuring device; a guide device; an elastic device; a second measuring device; and a positioning device.

A rigidity measurement apparatus is a rigidity measurement apparatus that measures rigidity of an object to be measured and includes a load estimator, a displacement calculator, and a rigidity calculator. The load estimator estimates a load applied to a measurement point set on the object to be measured by using a captured image of the object to be measured. The displacement calculator calculates a displacement of the measurement point by using the captured image. The rigidity calculator calculates the rigidity of the object to be measured by using the load and the displacement.

A rigidity measurement apparatus is a rigidity measurement apparatus that measures rigidity of an object to be measured and includes a load estimator, a displacement calculator, and a rigidity calculator. The load estimator estimates a load applied to a measurement point set on the object to be measured by using a captured image of the object to be measured. The displacement calculator calculates a displacement of the measurement point by using the captured image. The rigidity calculator calculates the rigidity of the object to be measured by using the load and the displacement.

A PLC system includes a displacement sensor, drives, and a PLC. In the PLC system, the trace control unit calculates a target position at which a distance between the displacement sensor and the object is constant based on measurement information (1D information) from which measurement noise (noise information) has been removed by the filter and positional information from the drives.

Measuring device (1) for measuring the length of sealing profiles (2) in a sealing profile application device, comprising a measuring belt (4). The measuring belt runs over at least two rollers (3a, 3b). The measuring belt (4) and/or at least one of the rollers (3a, 3b) interacts with a measured value acquisition system (5), a transport fixture (6) with a conveyor belt (7) running over rollers (3a, 3b) being arranged opposite the measuring belt (4). The measuring device (1) is arranged in an application head (8) of the sealing profile application device. Also, a measuring belt contact area (KM) of the sealing profile (2) with the measuring belt (4) extends longer than a transport contact area (KT) of the sealing profile (2) with the conveyor belt (7).

A form measuring machine includes: a scanning probe including a stylus with a tip ball and a probe body attached with the stylus; a movable slider supporting the scanning probe; a scale detecting a slider displacement of the slider; a tip ball displacement detector detecting a tip ball displacement of the tip ball; and an arithmetic unit calculating a measurement value based on the slider displacement, the tip ball displacement and a correction filter and comprising a correction filter setting section that: calculates a correction matrix diagonal component from the slider displacement and the tip ball displacement detected by calibration of the scanning probe; and calculates a correction factor of the correction filter from the correction matrix diagonal component to set the correction filter.

A differential compensator reduces uncertainty in determination of movement of a structural member and includes: a first probe line to attach to the structural member and to provide a first combination of displacement of the structural member and a first expansion of the first probe line in response to movement of the structural member and expansion of the first probe line; and a second probe line having a coefficient of thermal expansion that is different than that of the first probe line, the second probe line to attach to the structural member at a position on the structural member proximate to a point of attachment of the first probe line to the structural member and to provide a second combination of displacement of the structural member and second expansion of the second probe line in response to movement of the structural member and expansion of the second probe line.

A coordinate measurement device comprises an articulated arm having a first end, a second end, and a plurality of jointed arm segments therebetween. Each arm segment defines at least one axis of rotation. A laser scanner assembly is coupled to the second end of the arm and is rotatable about a last axis of rotation of the articulated arm. The laser scanner assembly comprises a laser and an image sensor. The laser is positioned on an opposite side of the last axis of rotation from the image sensor.