SU659906A1 - Hydrostatic level gauge - Google Patents

Description

The invention relates to the food industry and can be used in the wine industry to continuously monitor the level of wine in wine storage tanks.

Pneumatic level sensors 1 are known, containing a measuring membrane and a feedback membrane interconnected by a common brush, a nozzle-damper system, an additional chamber divided by a compensating membrane rigidly connected to a common stem, into two cavities, one of which is located side of the common stem, communicated with the atmosphere, and the other - with the camera blowing, and the system of nozzle - valve is made in the form of a disk mounted on the rod and an annular gap formed by the rod and the hole in the wall of the additional chamber.

A disadvantage of the prior art level sensors lies in the complexity of circuit design, low accuracy and reliability of measurement, and limited range of application.

Most of the technical essence described here is a hydrostatic liquid level sensor 2, containing a bellows filled with a controlled fluid and connected to a pneumatic follower membrane, the output chamber of which is equipped with a nozzle and connected to a source of compressed air.

A disadvantage of the known level sensor is low accuracy, reliability and low speed.

The aim of the invention is to improve the accuracy of measuring hydrostatic pressure, increasing the reliability and speed of the system.

The goal is achieved by the fact that the sensor is equipped with a compensator, made in the form of a housing with a membrane that separates the compensator housing into a pressure and discharge chamber, each of which has its own nozzle, while the pressure chamber of the compensator is connected to the output chamber of the repeater, the discharge chamber of the compensator - with a repeater nozzle, a pressure chamber nozzle is connected to a power source, and a waste chamber nozzle is connected to the atmosphere.

The drawing shows a hydrostatic fault level sensor.

The sensor includes a pneumatic repeater / with a membrane 2 and a nozzle 3, equipped with a compensator 4, containing pressure and discharge chambers 5 and 5 with nozzles 7 and 8 that interact with the membrane 9 separating the chambers. Pressure chamber

5 of the compensator 4 is connected to the output chamber 10 of the pneumatic innovator, and the discharge chamber 6 with a seat 5 repeater. The nozzle 7 of the pressure chamber is connected to the source and the airfoil, and the nozzle 8 of the discharge chamber 6 is connected to the atmosphere.

The compensator 4 maintains on the nozzle 5 of the pneumatic repeater a constant pressure drop corresponding to the force of the weak spring I.

The pneumatic repeater chamber 12 is connected to the wine reservoir 13 and the hydrostatic pressure Rschdr of the wine located in the reservoir 13 acts on the membrane 2, on which the output pressure of the pneumatic repeater acts on the side of the pneumatic repeater 10 output chamber as follows.

Static equilibrium of membrane 2 is provided by the pressure of the RPGDR and PBWX. If one of the pressures deviates, for example, due to a change in wine level, an impulse of hydrostatic pressure changes Prgdr acts on the membrane 2, which deflects the conductivity of the nozzle 3. This leads to change of pressure drop on the nozzle 3 mon: evmaticheskii repeater. Under the action of a change in pressure drop, the position of the membrane 9 of the compensator 4 relative to the pressure nozzle 7 and the discharge nozzle 8 changes, which leads to a change in their conductivities. When changing the conductivity of the nozzles 7 and S, the output pressure of the outlets changes. which returns the membrane. the pneumatic actuator is reset, acting as negative feedback, and the pressure in the discharge chamber 6 is measured, as a result of which the pressure drop across the nozzle 3 remains constant. In this case, the hydrostatic pressure of the wine is equal to the output pressure of the pneumatic repeater. The sensor is powered by a standard supply pressure of Ppt 1.4 kg1sl1. The outlet pressure is taken from the air repeater chamber 10.

formula of invention

A hydrostatic level sensor containing a power source and a pneumatic repeater, made in the form of a housing divided by a membrane into a receiving and output chambers, the output chamber equipped with a nozzle and the receiving chamber connected to the vessel with the measured liquid and in order to increase accuracy, reliability and

speed, it is equipped with a compensator, made in the form of a housing with a membrane that separates the compensator housing into a pressure and discharge chamber, each of which has its own nozzle, with

In this case, the pressure chamber of the compensator is connected to the output chamber of the repeater, the discharge chamber of the compensator is connected to the repeater nozzle, the pressure chamber nozzle is connected to the power supply, and the nozzle

The waste chamber is connected to the atmosphere.

Sources of information taken into account during the examination:

1. USSR Author's Certificate No. 472259, cl. G 01 F 23/16, 1973.

2. Gudkov V.K. and Stalny P.I. Level and density sensors based on pneumo-repeaters. Journal "Lime universities. Instrument making, M., t. 16, No. 1, 1973.

with. 78-83.

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