LIQUID MEASURING

Brand Owner Address Description
TOKHEIM DOVER FUELING SOLUTIONS UK LIMITED UNITS 1 & 3 BAKER RD. WEST PITKERRO INDUSTRIAL ESTATE Dundee DD53RT United Kingdom Liquid Measuring, Registering and Dispensing Apparatus for Recording the Amount and Cost of Liquid Dispensed; and Registers, Recorders, Computers, Junction Boxes, Intercoms and Controls for Use Therewith; Power Driven and Manually Operated Fluid Measuring Meters; Combinations of Pumps and Meters, Recorders, Registers, Junction Boxes, Controls, Intercoms, Computers in the Nature of an Apparatus by which the Number of Gallons Dispensed Can Be Converted by a Price per Gallon Ratio to an Amount of Money, Relays and/or Motor Controllers, Sold as a Unit; Mechanical and Electrical Controls for Hose Reels, Hose Reel Assemblies, Rollers and Roller Assemblies; and Parts Thereof;Power Driven Hose Reels and Hose Reel Assemblies; Hose Guides for Power Driven Hose Reels and Hose Reel Assemblies; Non-Metering Pumps and Pump Assemblies for Use with Gasoline, Oils, Fuels and Other Liquids; Submerged Motor-Pumps and Submerged Motor-Pump Assemblies; and Parts Thereof;Metallic Valves, Nozzles and Fittings for Use with Gasoline, Oils, Fuels and Other Liquids; Manually Operated Hose Reels and Hose Reel Assemblies; Hose Guides for Manually Operated Hose Reels and Hose Reel Assemblies; Hose Rollers and Hose Roller Assemblies; and Parts Thereof;
 

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

    
Technical Examples
  1. An ultrasonic filling level sensor (1), has an elongated measuring chamber (2), which is provided with an opening (3) at each of its two ends, wherein a liquid has the same filling level as outside the measuring chamber (2). The sensor includes an ultrasonic transceiver (6), which is associated with one end of the measuring chamber (2) and the emitted sound signals of which are reflected at the surface of the liquid and at a calibrating reflector (5) and received by the ultrasonic transceiver (6), in order to determine the filling level from the relationship between the transit times of the two signals. It is provided that the cross-section of the measuring chamber (2) and the nature of a wall of the measuring chamber are made to suit the properties of the liquid in such a way that, even in a tilted position of the measuring chamber (2), the surface of the liquid forms a meniscus (14) which forms a reflection portion directed toward the ultrasonic transceiver (6).