OX7 offer complex functions like gap, edge or height measurement, preconfigured in an easy-to-operate, compact sensor. Thanks to their intelligent evaluation within the sensor, their standardized operating concept and robust housing, OX7 sensors are the ideal solution for measuring and inspection tasks.
Ready for immediate use thanks to fast setup
Optimum design thanks to optically aligned axis (qTarget)
Fast sensor alignment thanks to visible laser line and LED indicators
Mounting at any angle within ±30°
Sensor operation does not require reflector
Easy adaptation in any application
Predefined measuring functions for selected applications
No external software required
Measured value output in millimeters thanks to calibrated sensor
Simple parameterization and operation for precisely fitting measurement solutions via Webinterface
Accurate measuring results even under demanding conditions
Accurate measurements even on high-gloss, black or very uneven surfaces
High measuring rates for fast-moving objects
Immune to ambient light impacts
Ethernet interface with OPC UA and Modbus TCP
Easy integration into network structures
Width measurement of tapes independent of radial run-out (OXE7)
Reliable, fast measurements on absorbent materials like rubber belts (OXH7)
Flexible mounting for optimal integration into the machine
OX7 sensors can be positioned laterally at an angle of ± 30° above the object. This allows avoidance of disruptive installation obstacles, greatly extending the range of applications.
Easy alignment of the sensor by design
The qTarget design of the OX7 sensors is referencing the optical axis to the mounting holes. This enables system integration already in the CAD stage. No later mechanical adjustments or alignments in the application are necessary.
Measurement independent of object positions
An appropriate object can move within the measuring field without having any impact on the measurement. This absence of sensitivity makes a significant contribution to the reliable functioning of the sensor in the application.