SU157830A1 - - Google Patents

Description

BRIBOR FOR AUTOMATIC DETERMINATION OF PLOTZ was established on July 18, 1962 for L 787805 / 23-4 to the Committee for Inventions and Discoveries at the Council of Ministers of the USSR

Published in the "Bulletin of inventions and trademarks L 19 1963

Instruments are known for automatically determining the density of a liquid, consisting of membrane sampling pressure devices installed at different heights.

The proposed device is distinguished by the fact that the membrane of the sample chamber is equipped with an overflow funnel with a reference compensation liquid (for example, water) and a membrane displacement sensor. The output of the sensor is connected to a reversible motor, which regulates the position of the funnel and is associated with the ferrodynamic converters of the compensation circuit. This greatly improves the measurement accuracy.

The drawing shows a diagram of the device.

The controlled slurry is fed by a pump to a pipeline, in the vertical section of which at a distance H there is a built-in membrane / and 2 connected to the plug of differential induction error sensors 5 and 4 or any other imbalance sensors. The sensors are connected to the input of compensation circuits, which consist respectively of amplifiers 5, 6 and reversible engines 7 and 8, kinematically associated with overflow funnels 5 and 10. The funnels have flexible hoses for transmitting a pressure-compensating water column (or other reference liquid ) on the membrane and can be moved by reversing motors vertically.

The reversible motors of compensation circuits are kinematically connected also with the framework of ferrodynamic or other converters // and 12, which are included in the subtraction scheme. LIQUID FEET

No. 157830-2 -

The voltage difference between the ferrodynamic and 13 compensating converters is fed to the input of the amplifier 14, which controls the reversing motor 15, which is connected through the gearbox 16 to the frame of the compensating converter and the arrow of the secondary device, which shows the pulp controlled in the pipeline.

The device works as follows. The pressure at the lower and upper points of the vertical pipeline is measured using special compensation devices connected to each other by a subtraction circuit. The change in density of the controlled pulp is sensed by the sensitive membranes. The deviation of, for example, the membrane 1 from the equilibrium position in one direction or the other gives an electrical signal of the corresponding phase in the mismatch sensor with the help of the plunger 3 connected to the membrane.

This signal is fed through amplifier 5 to the reversing capacitor motor 7. The last system is connected with an overflow funnel 9, into which a small amount of water is constantly supplied. The funnel is connected to the membrane cavity and has a flexible hose that allows it to move freely in a vertical plane, thereby changing the compensating pressure on the membrane. Thus, any change in the density of the controlled pulp causes a displacement of the membrane from the equilibrium position, the activation of the compensation system and then the re-establishment of the membrane in the neutral position. The compensating device controlling the pressure of the top point of the pipeline works in a similar way.

Subject invention

A device for automatically determining the density of a liquid, consisting of membrane pressure devices, installed at different heights, characterized in that, in order to improve the measurement accuracy, the membrane of each sample device has a snubber overflow funnel with a reference compensation liquid (for example, water) and a displacement sensor a membrane whose output is connected to a reversible motor, which regulates the position of the funnel and is connected with the ferrodynamic converters of the compensation circuit.