SU1642236A1 - Variable-level flowmeter - Google Patents

Abstract

The invention relates to instrument engineering and is intended to measure the flow rate of sedimentation fluids. A preferred area of application is control of reagent consumption in hydrolysis industry plants. The purpose of the invention is to improve the accuracy of measurement of the instantaneous and integral expenses of the precipitation of a section of liquid liquids. The liquid enters the tank 1 through the openings of the distribution partition 3, and then flows out of the tank 1 through the diaphragm 5. The pressure at the bottom 2 of the tank, proportional to the flow rate of the liquid, is measured by means of a pressure transducer 8 equipped with a compensating flow cup 9. the handle 21 and 23 remove the diaphragm 5 and the flow distribution partition 3 without stopping the operation of the flow meter. 1 hp f-ly. 1 il. J

Description

The invention relates to instrumentation and is intended to measure the flow rate of sediment-separating liquids.

The purpose of the invention is to improve the accuracy of measuring the instantaneous and total consumption of precipitating liquids.

The drawing schematically shows the proposed ¹ variable level flow meter.

The flowmeter consists of a tank 1 with a conical bottom 2, an inclined flow distribution partition 3 and a socket 4, a bottom flow transducer 5 with a round outlet 6 and a level meter 7 with a bubble pressure transducer 8 of liquid to gas pressure (transducer 5 is shown as a cross-shaped, double hatching). The conical bottom 2 is provided with a flowing cup 9 with a drain hole 10 located at the bottom of the flowing cup 9 coaxially to the bubbler transducer 8, below it and made 10-40 times smaller in diameter than the diameter of the outflow opening in a natural flow transducer.

The tank 1 has a slotted overflow hole 11 at the top, a hinged lid 12 with a hinge 13, and a vent riser 14. The bubbler transducer 8 is provided with a plug 15 and is connected to the secondary device 16 via a pressure gauge 17. The secondary device 16 includes a flow integrator, a recorder and instant flow indicator. The flow pipe 18 of the controlled fluid is connected to the side wall of the tank near its conical bottom, the pipe 19 for supplying compressed air is connected through a flowmeter 20 with a bubble pressure transducer 8.

The socket 4 is provided with a central conical opening, tapering downwards, in which a flow transducer 5 is mounted, made in the form of a diaphragm equipped with a handle 21. On the guides of which there is a float 22, and the outlet of the diaphragm 6 is located at the level of the bubble edge of the bubble transducer 8. The distance between the guides the handle 21 has more than two diameters of the hole in the diaphragm 6, and the lower ends of the guides are bent toward the diaphragm 6.

The flow-distributing partition 3 is made in the form of a colander-filtering cone expanding upward, with the upper outer diameter of the cone being equal to the inner diameter of the flowmeter tank 1, the lower end located near the bottom of the flowmeter tank, and the colander-filtering cone is made up of two sectors, 'each of which is equipped with a handle 23. The upper horizontal sections of the arms 23 are located along the chords of the tank 1 near the cover 12. The lower edge of the distribution partition 3 is made stepped with a step height of 24 equal to 1 to 3 mm. A pipe 25 is connected to the conical bottom 2 to hydraulically remove the removed large-sized contaminants from the annular space between the tank and the flow partition 3.

The device operates as follows.

The controlled precipitation-separating liquid enters the tank 1 with a conical bottom 2 through the flow-through pipe 18 and then is distributed along the annular gap between the inclined flow-distributing partition 3 and the tank 1, then it flows through the colander-filtering openings of the partition 3 to the central part of the flowmeter tank and from it through a round hole 6 the outflow of the bottom flow transducer 5 flows from the flow meter reservoir.

The liquid level in the tank 1 is measured by a level meter 7 using a bubbler transducer 8 of the liquid pressure into gas pressure, coupled to a flowing cup 9 provided with a drain hole 10. When the flow rate of the precipitating liquid changes, the liquid pressure changes at the level of the inlet edge of the bottom transducer 5 and the bubbler hole the transducer 8, the higher the flow rate, the greater the hydrostatic pressure, and the hydrostatic pressure is quadratically related to the flow rate awes

At low flow rates, for example, less than 60% of the nominal flow rate, a rotating gas-filled funnel appears above the outlet 6 and the float 22 raised to the cover 12, which interferes with the measurements. This funnel can be eliminated if a flat float 22 with a diameter of more than two diameters of the outlet 6 is lowered onto the surface of the liquid in the tank 1. In the absence of the specified float, flow measurements in the area of less than 50% of the nominal are inaccurate, which narrows the measurement range.

Considering that in the hydrolysis industry, the most important case is the measurement of large flows of hydrolyzate and other liquids with interruptions in the flow of more than 15 minutes, the corresponding flowmeters are required to reduce the flowmeter to zero when the flow ceases to flow within 1-2 minutes.

This requirement is fulfilled due to the fact that when the flow ceases, the tank 1 and the flow cup 9 are completely empty from the liquid for 1 - 2 min, which leads to a decrease in the input signal to the gauge device 17 to the level of 0% of the nominal value of the input signal, how the bubbling edge of the bubbler transducer 8 when the flowing nozzle 9 is empty is out of the liquid.

In case of emergency super-nominal flow rates of the controlled fluid, the fluid level rises to the overflow edge of the slotted overflow hole 11 and is removed from the tank 1.

The flowmeter elements are cleaned by removing the bottom transducer 5 from the socket 4 with the cover 12 folded out by turning it around the hinge 13 until it stops in the ventilation riser 14. The bottom transducer 5 is cleaned of growths or replaced by a similar one and is reinserted into socket 4. Removing trapped large-crust contaminants produced through the pipe 25. The bottom transducer 5 is changed using the handle 21 without stopping the flowmeter.

The integral flow rate is measured using an integrator installed on the secondary device 16, and in the time interval when the controlled fluid does not enter the flowmeter, the integrator does not increase its values, which serves as the basis for increasing the accuracy of measuring the integral flow of the controlled fluid.

Claims (2)

, Claim 1. A variable-level flow meter containing a reservoir with a flow-distributing partition and a conical bottom, a bottom flow transducer with a round outlet, and a level meter with a bubbler transducer with a compensator, distinguishing it by the fact that, in order to increase the accuracy of measuring the instantaneous and total flow rates precipitation of separating liquids, the compensator is made in the form of a flowing cup with a drain hole located on the conical bottom of the flow meter, the flow converter is equipped with a handle, the guides of which the float is fixed, the lower ends of the guides are bent towards the flow transducer, and the distance between the guides is greater than two diameters of the flow transducer opening, the flow distribution partition is made in the form of a perforated cone expanding upward, and the upper outer diameter of the cone is equal to the inner diameter of the tank, and the perforated cone itself is made composite of two sectors, each of which is equipped with a handle. 2. The flow meter according to claim 1 differs in that the drain hole in the compensator is located at the bottom of the flowing cup coaxially with and below the bubbler tube of the pressure transducer. and the diameter of the drain hole is 10 to 40 times smaller than the diameter of the outlet of the flow converter.