SU1627843A2 - Partial hot-wire anemometer - Google Patents

Abstract

The invention relates to the measurement of fluid flow in pipelines. The purpose of the invention is to improve the accuracy and expand the range of measurable costs. When measuring small pL of fluid passages, the main channel 2 overlaps with the help of a crane 4 and the entire fluid flow passes through the diverter channel 3, washing the sensor 8. At the flow measurement meter in a wide range, the valve 4 opens the main part of the fluid flow through the main channel. The flow rate in the bypass channel 3 is proportional to the target flow rate. I zp f-lp, I ill.

Description

The invention relates i to the measurement of fluid flow in pipelines, for example, hydraulic and hepatitis systems of self-powered boats.

The purpose of the invention is modern precision and expansion of the measured expenditure range.

The drawing shows a schematic diagram of the arrangement.

In the housing 1 is made the main 2 and bypass J dripped. In the main channel 2 there is a turnpipe. A crane 4, a movable sleeve 5 with a cable mOpi of aperture 6 and a t ipnpr: wnn nnv- rubber 7. In a bypass rope. The 3 hour sensor 8 sensor of the brake-flow meter of the flow sensing device with a single element 9 and the rotary valve 10 with the sleeve 11 and a calibrated spring 12. The spool has several holes 13 (nozzles) of different diameters and 14 days long

prevent rotation of tulk 11 relative to the spool. Zooiotnik 10 is connected to the handle 15, which had a latch 16. In the sleeve there are four holes (live) 17, corresponding to the diameters of the hole 13 of the spool 10. The slide is rotated through the sleeve and can move relative to it in the longitudinal direction.

Irsobaram gel rabomet as follows.

When measuring fluid (close to zero) flow rates to ensure maximum feeling of flaxiness and exclusion of dead zones, the main channel 2 overlaps with a crane (the closed position is shown by a dotted line) and all fluid flow passes through the bypass channel 3, washing the sensor 8. To measure costs in a wide range of crane

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4 opens and the main part of the fluid flow passes through the main channel, and in the narrowing part the pressure drops and thus forms the effect of suction and ejection of the flow from the bypass channel, where part of the total flow passes through the converter. The flow rate in the bypass channel 3 is proportional to the Q value of the total flow. To switch measurement ranges, i.e. selection of the operating mode of the thermo-anemometric sensor in the zone of maximum sensitivity, turn the spool 10 15 with the sleeve 11, having several openings 13 and 17, respectively, of different diameters. Thus, the hydraulic resistance of the bypass channel changes, its throughput is 20 Capacity, and consequently, the cost ratio in channels 2 and 3, i.e. switches the measurement range. The spool is rotated by means of a handle 15 having a latch 16. 25

The elimination of errors caused by changes in the pressure and temperature of the fluid in the converter is carried out as follows.

As the pressure increases, the fluid viscosity increases, which results in an increase in the fraction of the flow rate of the fluid flowing in the bypass channel. In the converter, this increase is compensated for by the fact that the spool moves, relative to the bushing 11, by the action of the pressure force, compresses the calibrated spring 12. At the same time, the spool bores 13 and 17 bushings are displaced, reducing the effective through-passage of the holes (jets), compensating flow redistribution due to pressure measurement.

When the temperature of the working fluid flow decreases, its viscosity increases, which leads to an increase in the proportion of fluid flow in the bypass channel. To restore this lobe, the effect of viscous friction of the liquid on the surrounding stacks is used. When the viscosity of the fluid increases, the force of friction of the fluid against the wall of the sleeve 5 increases and the sleeve moves, overcoming the resistance of the calibrated spring 7. This calibrates the calibrated hole 6, reducing the effective passage area of the output of the bypass channel to the narrowing part of the main one. This leads to a decrease in the flow rate in the bypass channel, and, therefore, compensation of the error caused by a change in the temperature of the working fluid occurs.

Claims (2)

1. Partial hot-wire anemometer converter according to the author No. 1420374, characterized in that, in order to increase the accuracy and expand the range of measurable flow rates, a movable sleeve with a calibrated orifice coinciding with the bypass channel outlet and a calibrated spring connecting the movable sleeve with the housing are installed in the constricted part of the main channel. 2. A transducer according to claim 1, characterized in that a rotary shut-off valve is installed in the main channel. 14 5 6 7 15 13 11 1Z and