RU199216U1 - Measuring pipeline for gas flow measurement unit - Google Patents

Abstract

The utility model relates to a measuring technique used to measure the flow rate and volume of transported and distributed gas at gas distribution stations after the reduction unit, and is designed to achieve the specified accuracy of gas flow rate measurement by ultrasonic flow transducers (UFC) by reducing the area of the gas flow measurement unit. task: to create a design of the measuring pipeline that allows to reduce the area of the gas flow measurement unit. The technical result is to reduce the area of the gas flow measurement unit. The technical result is achieved due to the fact that in the measuring pipeline of the gas flow measurement unit containing straight pipes located under angle to each other, and an ultrasonic gas flow rate transducer, with one of the pipes divided into two parts, which are located at an angle to each other with the formation of an additional bend (rotation) in such a way that the meter ny pipeline has a U-shape. 1 fig.

Description

The utility model refers to a measuring technique used to measure the flow rate and volume of transported and distributed gas at gas distribution stations after a reduction unit, and is designed to achieve a given accuracy of gas flow rate measurement by ultrasonic flow transducers (UPCR) by reducing the area of the gas flow measurement unit.

A device for measuring the flow rate is known, including a turbulence reduction component having open areas and located between the measuring channel and a pair of holes through which a pair of ultrasonic transceivers is located from the measuring channel. Each pair of open portions of the turbulence reduction component has bobbin parts that are substantially identical in width. This makes it possible to reduce, with low attenuation from ultrasound, the occurrence of turbulence, which is associated with trapped flows in a pair of holes in the parts and is the cause of measurement errors, thereby ensuring measurement accuracy (patent No. US 2017343398, IPC G01F 1/66, publ. 30.11. 2017).

This technical solution is aimed at improving the measurement accuracy by reducing the turbulence of the gas flow, but does not remove the noise that negatively affects the measurement result.

A curved combined device for gas straightening and noise reduction is known. The present invention describes an apparatus for reducing the noise of a gas curve by using a T-shaped three-way fitting installed between the front straight pipe and the combination pipe section. The section of the combined pipe is connected to the section of the combined pipe, between them there is a flow regulator (patent No. CN 207717161, IPC G01F 1/66; G01F 15/00, publ. 08.10.2018).

The disadvantage of this device is the presence of a pressure regulator located in front of the USPR, since it can be an acoustic resonator to amplify the noise that affects the measurement accuracy.

The task was set: to create a design of the measuring pipeline, allowing to reduce the area of the gas flow measurement unit.

The technical result consists in reducing the area of the gas flow metering unit.

The technical result is achieved due to the fact that in the measuring pipeline of the gas flow measurement unit containing straight pipes located at an angle to each other and an ultrasonic gas flow transducer, one of the pipes being divided into two parts that are located at an angle to each other with the formation of an additional bend (rotation) in such a way that the measuring pipeline has a U-shape.

A new feature of the proposed technical solution is the division of one of the pipes into two parts, their location at an angle of 90 ° relative to each other with the formation of an additional bend (turn). All pipes have the same diameter and are located in the same plane. This allows you to obtain a U-shape of the measuring pipeline.

Thus, the set technical problem has been solved.

The claimed technical solution is illustrated by a drawing, which shows a diagram of a measuring pipeline of a gas flow measurement unit.

The measuring pipeline of the gas flow metering unit consists of a line for measuring the main flow rate, which includes four sections located in one horizontal plane.

The first section of the line for measuring the main gas flow rate consists of a straight pipe 1 connected to the main pipeline after the reduction unit.

The second and third sections of the line for measuring the main gas flow rate are formed by dividing a straight pipe into two parts 2, 3.

Pipes 1, 2, 3 of the first, second and third sections are located at an angle of 90 ° relative to each other with the formation of bends (turns). All pipes have the same diameter and are located in the same plane. Thus, the measuring pipeline has a U-shape, which makes it possible to reduce the area of the gas flow measurement unit.

On the pipe 3 of the third section there is an UZPR 4. Before and after it on this section there are cranes 5, 6.

The analysis of known technical solutions, carried out on the basis of scientific, technical and patent documentation, showed that the set of essential features of the proposed technical solution is unknown from the prior art, therefore, it meets the conditions of patentability of a utility model novelty.

The claimed technical solution is industrially applicable and can be manufactured on standard equipment using modern materials and technologies.

Claims (1)

Measuring pipeline of the gas flow rate measuring unit, containing straight pipes located at an angle to each other, and an ultrasonic gas flow transducer, characterized in that one of the pipes is divided into two parts that are located at an angle to each other with the formation of an additional bend (rotation) so that the measuring pipeline is U-shaped.

Images