SU1765696A1 - Flowmeter - Google Patents

Abstract

Use: for measuring the flow rate of liquid and gaseous media with a high velocity of V 2 g & t b, ' transport speed. SUMMARY OF THE INVENTION: The flow meter comprises a knee-shaped measuring section of pipeline 1, at the beginning and end of the generator of which nozzles 2, 3 are placed, and at the beginning and at the end of the external generator there are nozzles of 4.5 pressure extraction. The nozzles 2, 3 are connected to the differential pressure gauge 6, and the nipples 4, 5, respectively, to the differential pressure gauge 7. The outputs of the differential pressure gauges are connected respectively to the inputs of the programmable computing device 8. 1 Il.

Description

The invention relates to measuring technique and can be used to measure the flow of liquid and gaseous media with a high speed of transportation.

The closest technical solution, selected as a prototype, is the device described in [1]. The device includes an element in which centripetal forces arise as the flow moves, as well as equipment for measuring the pressure difference at two points of the element, followed by determining the average square root of the fluctuations of this difference.

The disadvantage of the above device is the low sensitivity.

The purpose of the invention is to increase the sensitivity of the device by measuring the gradient of centrifugal components of dynamic pressure along the internal and external generators of a non-linear section of the pipeline.

The goal is achieved in that the flow meter containing a knee-shaped measuring section of the pipeline, the first and second pressure take-off nozzles located on its external and internal generators, and the first pressure transducer connected to the information processing unit are additionally equipped with a third and fourth pressure take-off nozzles located on external and internal generators of the knee-shaped measuring section of the pipeline, and a second pressure transducer, the first and second pressure take-off nozzles at the beginning, and the third and fourth at the end of the knee-shaped measuring section of the pipeline, the outputs of the first and third pressure take-off nozzles are connected to • the inputs of the first pressure transducer, and the outputs of the second and fourth pressure take-off nozzles are connected to the inputs of the second pressure transducer, the output of which is connected to the corresponding input of the information processing unit. The location of the pressure take-off nozzles at the beginning and end of the knee-shaped section and their location on the external and internal generators makes it possible to measure the pressure change not only depending on the radius of the pipeline, but also additionally on the difference between the lengths of the external and internal generators with the corresponding connection of measuring equipment. This property meets the criterion of significant differences.

The drawing shows a flowmeter diagram.

The flow meter contains a knee-shaped measuring section of the pipeline 1, at the beginning and end of the inner generatrix of which the nozzles 2,3 are located, and at the beginning and end of the outer generatrix there are nozzles 4,5 of pressure selection. The nozzles 2,3 are connected to the differential pressure gauge 6, and the nozzles 4,5 are connected respectively to the differential pressure gauge 7. The outputs of the differential pressure gauges are connected respectively to the inputs of the programmable computing device 8.

The flow meter operates as follows.

When the mass of substance moves along the pipeline 1 (in the direction of the arrow), a full head is created at the inlet of the nozzles 2,3 and 4,5. Dynamic pressure is determined

Rdin = Rst2 - Rstz (1)

At the inlet of the nozzles 2,3 static pressure Pst2. PSTZ and PST4, PST5 decreases by P due to centrifugal forces

ΔΡ = ^, (2) where R is the radius of the knee.

A signal proportional to Rdin external and Rdin internal comes in from the 6.7 differential pressure gauges to the computational programmable device. and Rdin.centrob.

This pressure drop includes not only the pressure drop from the centrifugal flow forces, but also the pressure gradient along the curve radius of the non-linear section of the pipeline.

Thus, the flow rate of the substance measured by the flowmeter is described by the expression (3) and is recorded through the differential pressure gauge by a programmable device 8:

Q - G (+ Rdin.vnesch Rdin.vnutr Rdin.tsentr ^+.). (3)

Claims (1)

Claim A flow meter containing a knee-shaped measuring section of the pipeline, first and second pressure take-off nozzles located on its outer and inner generators, and a first pressure transducer connected to the information processing unit, characterized in that, in order to increase the sensitivity, it is provided with a third and fourth pressure take-off nozzles located on the outer and inner generators of the knee-shaped measuring section of the pipeline, and a second pressure transducer, the first and second nozzle and pressure take-off are located at the beginning, and the third and fourth at the end of the knee-shaped measuring section of the pipeline, the outputs of the first and third pressure take-off nozzles are connected to the inputs of the first pressure transducer, and the outputs of the second and fourth pressure take-off nozzles are connected to the inputs of the second pressure transducer, the output of which is connected occupied with the corresponding input of the information processing unit. Editor T. Loshkareva Compiled by A. Dementiev ' Tehred M. Morgenthal Corrector N.Korol Order 3379 Circulation Subscription VNIIPI of the State Committee for Inventions and Discoveries under the USSR SCST 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.