Abstract: A pressure sensing device particularly intended to equip a flowmeter of fluidic oscillator type, this device comprising a pressure orifice (3) linked to a measuring circuit (4) so as to send audible signals to a measuring membrane (1) fixed into a measuring cavity (2), a deformation sensor (5) sensitive to the deformations of this membrane and capable of converting them into electric signals, and an electronic amplifier associated with this deformation sensor (5), characterized in that the measuring circuit (4) comprises corrosion- and explosion-proof protection means (7, 8, 9) and filtering means (9, 10; 11, 12; 13, 2) for filtering the audible signals so as to enable the disturbance frequencies of these signals to be removed.

Abstract: A pressure sensing device particularly intended to equip a flowmeter of fluidic oscillator type, this device comprising a pressure orifice (3) linked to a measuring circuit (4) so as to send audible signals to a measuring membrane (1) fixed into a measuring cavity (2), a deformation sensor (5) sensitive to the deformations of this membrane and capable of converting them into electric signals, and an electronic amplifier associated with this deformation sensor (5), characterized in that the measuring circuit (4) comprises corrosion- and explosion-proof protection means (7, 8, 9) and filtering means (9, 10; 11, 12; 13, 2) for filtering the audible signals so as to enable the disturbance frequencies of these signals to be removed.

Abstract: A dispensing installation for fuel or other volatile liquids comprises a storage tank, a pipe and a pump for dispensing fuel, a vapor recovery pipe and pump for recovering vapor and delivering it back to the tank, and a controller maintaining the vapor delivery rate approximately equal to the liquid delivery rate. In order to check that the vapor recovery system is operating correctly, the vapor delivery rate is constantly detected and compared with a value of the liquid delivery rate. If the result of the comparison is outside a predetermined range, an alarm is triggered in order to indicate a malfunction. The predetermined range may be adjustable.

Abstract: The invention concerns a sensor for detecting leaks in a liquid hydrocarbon dispenser, said sensor comprising a sealed plate arranged at the dispenser base and provided with a collecting container for receiving said liquid hydrocarbons collected by said sealed plate and coming from leaks in the dispenser, said collecting container comprising a sensor at the level of said hydrocarbons, capable of stopping the operation of the dispenser when the hydrocarbon level sensed reaches a predetermined level (N). The invention is useful for protecting the environment against hydrocarbon pollution.

Abstract: A system for dispensing liquid hydrocarbons includes a vapour recovery circuit having a vapour/liquid separator and a vapour flow controller. The vapour/liquid separator has a receiving chamber in which liquid is collected and is mounted in the vapour recovery circuit upstream of the vapour flow controller. The recovery chamber is connected to a bleeding pipe having an inlet fitted with a non-return valve.

Abstract: A meter for measuring the volume of a flowing fluid includes a viscosensitive unit through which the fluid flows under laminar flow conditions, a first fluidic oscillator in series with the viscosensitive unit, and a second fluidic oscillator shunting at least the viscosensitive unit. The viscosensitive unit and the fluidic oscillators are adapted to determine the viscosity of the fluid so as to apply to the fluid volume measured by the fluidic oscillators a correction dependent on the Reynolds number.

Abstract: A device for measuring the viscosity of a fluid includes a viscosensitive unit through which the fluid flows under laminar flow conditions, a first turbulent flow flowmeter in series with the viscosensitive unit, and a second turbulent flow flowmeter shunting at least the viscosensitive unit. The flowmeters are adapted to determine the head loss .DELTA.p and the flowrate q of the fluid through the viscosensitive unit, the dynamic viscosity .mu. being given by the equation .mu.=.DELTA.p/kq where k is a constant dependent on the viscosensitive unit. The device is applicable to accurate measurement of fluid volumes.

Abstract: A pulse encoder for fitting to a meter of a liquid dispenser device for the purpose of supplying a signal representative of the flow of dispensed liquid. The encoder includes a coding wheel driven by the meter at a speed of rotation that is substantially proportional to the liquid flow rate. The wheel carries a first series of divisions of angular period P, and referred to as "primary" divisions. Two primary sensors which detect the primary divisions are angularly offset from each other by one-fourth of the angular period, i.e. P/4, modulo P, so as to provide two primary pulse signals that are likewise offset by one-fourth of a period. The coding wheel also carries a second series of divisions, referred to as "secondary" divisions, of angular period P' equal to twice the angular period P of the primary divisions. A secondary sensor is suitable for detecting the secondary divisions so as to supply a secondary pulse signal of a period that is double the period of the primary pulse signals.