SU637714A1 - Apparatus for automatic measuring of liquid and gas flow rates - Google Patents

Description

NIKS 3 and 4 are blocked by valves 5, the springs 6, 7 and 8 fix its position of the valves 5 and spools 3 and 4, and the differential pressure gauges 9 and 10 do not issue output signals.

In the presence of flow, the pressure input node on the spools at spools 3 and 4 last are not moved down, the tension of the spring 6 increases, the springs 7 decreases, and the spring 8 remains unchanged.

During the movement of the spools 3 and 4, the differential pressure gauges 9 and 10 measure the pressure surges on the spools 3 and 4. The differential pressure meters 9 and 10 convert the pressure drop to the output pulse frequency that is proportional to the flow rate.

The movement of spools 3 and 4 still continues until the holes in channel 11 of spool 3 and channel 12 of spool 4 do not coincide with channels 13 and 14 of housing 1.

Due to the fact that the spool 4 has a larger diameter than the spool 3, the movement of the spool 4 will be less than the displacement of the spool 3. In this case, n) and equal moves of the spools 3 and 4 to match the flow channels of the spool 3 reaches position faster when channels 11 and 13 match.

When the channels 11 and 13 coincide, the pressure in the cavities above and the nodes of the spool 3 is equalized, and the valve 5, under the action of springs 7 and 8, moves away from the nozzle 2, and the valve 3 under the action of spring 6 returns to its original position (up). When the valve 3 moves upwards, there is no pressure drop on it and the differential pressure meter 9 does not give readings.

Measurement of the flow rate in this case occurs at the expense of the differential pressure gauge 10, which measures the pressure drop across the spool 4 as it continues to move downwards.

After the return of the spool 3 to its original position 11a: it begins to move downwards, and the spool 4 when it coincides

Channels 12 and 14 return to their original position in the same way as gold 1 and 3.

The diameters of spools 3 and 4 are selected in such a way that, within the limits of the measured flow rates, there is no coincidence of the reverse moves of the spools 3 and 4.

The signals from the diff. Meters 9 and 10 are sent to the counter and pulses 15 and through the transducer 16 are fed to the electronic display 17 and to the recording device 18.

During operation of the device, the resetting of the spools 3 and 4 takes place in such a way that when one spool returns to the initial position, the other spool makes a working stroke, due to which a continuous flow measurement is provided.

Claims (2)

Invention Formula A device for automatic measurement of the flow rates of liquids and gases, containing a sensitive element installed in a cylindrical, calibrated tube, made in the form of an spring-loaded zolotpika with a nozzle and a valve with a bypass channel and a groove in the spool, characterized in that In the course of measuring the flow rate, the same sensitive element is added to it, connected in series with the nerve, and the spool of the additional sensitive element is made up of a larger diameter. Information sources taken into account during the examination: 1- Kremlin P. P. Flow meters and quantity counters. L., “Mashipostroenie, 1975, p. 713 - 715, fig. 374. 2. For the USSR .J 2431163 / 18-10, cl. G 01 F 3/18, 1977, but which made the decision to issue an author's certificate. I, .1 -1-J