The invention describes a vibrating fork point level switch with multiple switching points.

A sensor arrangement for measuring liquid height in a tank can include a housing, a transducer, and a couplant. The housing can have an interior and an aperture, the aperture placing the interior of the housing in communication with the environment external to the housing. The transducer can be seated within the aperture. The couplant can be mechanically connected to the transducer and can have a compressible couplant body. The couplant body can extend between the transducer and the external environment for transmitting an acoustic pulse from the transducer to a tank bottom for measuring height of a liquid overlaying the transducer.

An apparatus for determining and/or monitoring at least one process variable of a medium in a container, comprising at least an oscillatable unit having at least one membrane, and at least one oscillatory element, a driving/receiving unit embodied to excite the mechanically oscillatable unit by means of an electrical, exciter signal of adjustable excitation frequency to execute oscillations in an oscillation mode corresponding to the excitation frequency and to receive mechanical oscillations from the oscillatable unit and to convert such into an electrical received signal, and an electronics unit embodied, to produce the exciter signal, and to ascertain from the received signal the at least one process variable. The membrane is connected with the driving/receiving unit. The oscillatory element has the shape of an oscillatory rod, on which a paddle is terminally formed, and the oscillatory element is secured on the membrane in an end region remote from the paddle. Mass distribution, stiffness and/or geometry of the oscillatable unit is/are selected in such a manner that at least one of the oscillation modes of the oscillatable unit higher in reference to the oscillation mode corresponding to the excitation frequency lies in the range between two neighboring whole-numbered multiples of the excitation frequency.

The present disclosure relates to an apparatus for determining and/or monitoring a process variable of a medium in a containment, including an oscillatable unit with a membrane, three rods secured to the membrane and extending perpendicularly to a base area of the membrane, a housing, wherein the rods extend into the housing a driving/receiving unit disposed at an end region of the rods and configured to excite the oscillatable unit and transduce mechanical oscillations into a received signal, and an electronics unit configured to produce an exciter signal from the received signal and to ascertain the process variable at least from the received signal. At least one of the rods is secured to the membrane at a site on the base area where the second derivative of the deflection of the membrane from a rest position as a function of the site on the base area is essentially zero.

A liquid level detector includes an ultrasonic sensor that emits an ultrasonic wave toward a liquid surface of liquid in a tank, a driving circuit unit that provides a driving signal to the ultrasonic sensor to emit the ultrasonic wave, a reception circuit unit that detects a reflected wave signal that corresponds to a reflected wave from a received signal received by the ultrasonic sensor, and an arithmetic control circuit unit that computes a level of the liquid surface with the reflected wave signal. The liquid level detector further includes a temperature detection unit that detects a temperature of the liquid and a driving condition computing circuit unit that instructs the driving circuit unit to increase a strength of the driving signal as the temperature of the liquid that is detected by the temperature detection unit decreases.

Examples of analyzing data for a distribution pipe network within a fluid distribution system are disclosed. In one example implementation according to aspects of the present disclosure, a method for analyzing data for a distribution pipe network within a fluid distribution system includes: receiving acoustic data from a plurality of nodes for a plurality of pipe segments; determining a characteristic frequency range for each pipe segment; decomposing the characteristic frequency range into a plurality of frequency sub-bands; building a leak sensitivity model based on the plurality of frequency sub-bands; and implementing a correlation schedule with the plurality of nodes based on a selection of the plurality of frequency sub-bands.

Provided is a fuel pump module for measuring a height of fuel using an ultrasonic wave, and more particularly, a fuel pump module for measuring a height of fuel using an ultrasonic wave, where an ultrasonic wave sensor for measuring the height of the fuel contained in a fuel tank is integrally installed in the fuel pump module provided in the fuel tank.

An electromechanical transducer unit for a field device includes a membrane embodied to execute mechanical oscillations, two rods perpendicular to the membrane and secured to the membrane, a housing, wherein the membrane forms at least one portion of a wall of the housing, and wherein the two rods extend into the housing interior, two magnets, wherein each magnet is secured in an end region away from the membrane to a different one of the two rods, and a coil with a core, wherein the coil is secured above the magnets within the housing, and is contactable with an electrical, alternating current signal, wherein the coil is embodied to produce a magnetic field that causes the two rods via the two magnets to execute mechanical oscillations, and wherein the two rods are secured to the membrane such that oscillations of the membrane result from oscillations of the two rods.

A fill level sensor monitors the level of material, such as grain, in a storage silo. A controller includes a logic circuit, a solenoid assembly including an electromagnet fixedly attached to an external wall of the silo and a plunger which is displaceable in response to electrical energization of the electromagnet between a first position spaced from the silo wall and a second position contacting the silo wall to affect an impact noise. A microphone detects each time the plunger contacts the wall. A memory records each plunger strike, and the time between successive plunger strikes. The controller and microphone are affixed to an outer wall of the silo by permanent magnets. A warning signal alerts when a fill level drops below a pre-determined level or reports in real time the estimate of the fill level in terms of percentages or actual height from the bottom of the silo.

A sensor arrangement for measuring liquid height in a tank can include a housing, a transducer, and a couplant. The housing can have an interior and an aperture, the aperture placing the interior of the housing in communication with the environment external to the housing. The transducer can be seated within the aperture. The couplant can be mechanically connected to the transducer and can have a compressible couplant body. The couplant body can extend between the transducer and the external environment for transmitting an acoustic pulse from the transducer to a tank bottom for measuring height of a liquid overlaying the transducer.