TECHNICAL MEASURING APPARATUS SENSORS

Brand Owner Address Description
CRYOFUELTRONICS CRYOSTAR SAS Boite Postale 48 Zone Industrielle F-68220 Hesingue France Technical measuring apparatus and sensors, namely, pressure sensors, pressure indicator plugs for valves; apparatus for analyzing gases and liquids, namely, equipment for the analysis of the composition and the presence of specific components in a main product in the form of gas and liquid; apparatus for regulating and controlling the pressure, flow rate and temperature of gas and liquids, equipment for controlling operations and processes and computers associated therewith, namely, pressure indicators, temperature indicators; data processing apparatus; apparatus for regulating and controlling, measuring, signaling and monitoring for the distribution of gases/liquid gases, namely, thermometers, pressure sensors, pressure indicator plugs for valves, machines for dispensing pre-determined dosages of medication, measuring and counting apparatus for gases, namely, metering pumps for gas and liquid, fixed, for filling of or transfer from cryogenic tanks;Compressors for machines, pumps for machines, waste compactors, turbines not for land vehicles; air condensers and recycling apparatus for vapors, mechanical energy generators using excess pressure or dissipated heat, apparatus for distributing cryogenic gas for public or private use, namely, dispensing pumps for cryogenic gases in the air, centrifugal pumps for stationary gas, industrial centrifugal pumps for embedded industrial gas, piston pumps for industrial gas; fuel pumps and tank-filling devices for filling stations or other premises distributing liquid gas;CRYO FUEL ELECTRONICS;
 

Where the owner name is not linked, that owner no longer owns the brand

   
Technical Examples
  1. A method for distance measuring using at least two contact-less distance sensors, e.g., ultrasound sensors, is provided, which distance sensors each have one emitter for emitting measuring pulses (MI) and one receptor for receiving measuring pulse echos (ME). The distance from an obstacle that reflects the measuring pulse (MI) is determined from the time difference between the measuring pulse (MI) and the received measuring pulse echo (ME). A first measurement is performed, which involves alternatingly emitting by the at least two distance sensors the measuring pulses (MI) offset in time by a first offset, and subsequently receiving the measuring pulse echos (ME) by the distance sensors. In addition, a verification measurement is performed, which involves alternatingly emitting by the at least two distance sensors the measuring pulses (MI) offset in time by a second offset, which is different from the first offset in time used in the first measurement.