RU2255310C2 - A consumption indicator inserted in the pipeline through a side hatch - Google Patents

Abstract

FIELD: measuring instrument.

SUBSTANCE: the initial transformer of the consumption indicator has a firm cylindrical socket, the diameter of which is smaller than the diameter of the pipeline. An elastic cover is fixed to the socket. It is fulfilled with possibility to fill it with surrounding sphere withdrawing through a tube of full pressure installed on the axis of the pipeline. The tail part of the socket through removable bars takes a firm stand against the supports on the pipeline. In working conditions the form of the cover ensures gradual narrowing of the flow of the sphere passing through the socket of the consumption indicator.

EFFECT: the invention has a simple construction and may be used on the pipelines of large diameter.

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Description

The invention relates to measuring equipment and applied metrology and can be used to transfer the size of a unit of consumption of the material medium from the flow meter, which is the subject of the present invention, to a working flow meter, permanently mounted on the pipeline.

Closest to the invention in technical essence is a flow meter described in [1]. According to [1], a coupling is installed in the pipeline section intended for placement of the portable flowmeter, which is mounted on the pipeline using a threaded connection. A blind hole with an axis perpendicular to the axis of the pipe is drilled in the side of the sleeve. A cylindrical body of a flowmeter having a through hole coaxial with the pipeline is inserted into this hole. This hole forms the hydraulic channel of the flowmeter, which has rigid walls and passes through it the entire flow of fluid moving through the pipeline. The channel has two sections with different cross sections and a ledge between them. The pressure drop in these areas is measured, which determines the flow rate of the liquid.

The disadvantage of this flow meter is that, due to the design of the device, it can only be used for pipelines of small diameters and, in addition, has a low accuracy inherent in flow meters of variable differential pressure.

The technical result created by the present invention is aimed at increasing the diameter of the pipeline into which a portable flowmeter can be installed, simplifying the design by eliminating a coupling type device, and also increasing accuracy due to the possibility of using primary transducers having better metrological characteristics than variable pressure differential flow meters, for example turbine or electromagnetic.

The portable flow meter of the present invention is a rigid cylindrical nozzle (housing) with a primary flow transducer installed in it, and the outer diameter of the nozzle is significantly smaller than the inner diameter of the pipeline. An elastic shell with an internal airtight space designed to be filled with air or water under pressure is attached to the outer surface of the nozzle. When the shell is under pressure, it takes the form of an axisymmetric body, each cross section of which is an annular region. When there is no pressure in the shell, it is easily deformed and can fit snugly against the outer surface of the nozzle.

For mounting a portable flow meter, a hatch is installed on the side surface of the pipeline, the inner diameter of which has a size that allows you to enter a portable flow meter with an elastic shell inside which there is no pressure inside. After applying pressure to the shell, the nozzle is aligned with the pipeline, and the annular region between the inner wall of the pipeline and the nozzle is filled with an impermeable shell. The shape of the shell is chosen so that a smooth entry into the pipe with a primary flow transducer and a smooth exit from it is ensured.

For better stabilization of the pipe in space, removable rods are used that are located along the conical surface of the shell at the outlet of the pipe, fastened at one end to the tail of the pipe, and the other to the stops on the inner surface of the pipeline.

At high pressure in the pipeline, the shell is filled with a material medium moving through the pipeline through a full pressure receiver mounted on the axis of the pipeline. Due to this, the internal pressure in the shell is always higher than the external by an amount of the difference between the total and static pressure in the flow.

The drawing illustrates the essence of the invention.

The portable flowmeter is installed in the pipeline 1 through the side hatch 2. The flowmeter contains a rigid cylindrical nozzle 3, which houses the primary flow transducer 8. On the outside, an elastic shell 4 is attached to the nozzle, which is filled with pressure medium moving in the pipeline through the full pressure tube 7 To better stabilize the position of the flow meter, the pipe abuts the pipeline with removable rods 5 through the stops 6.

Bringing the flow meter into working condition is as follows.

A pipe with a deflated shell is introduced into the pipeline through the side hatch and is oriented along the axis of the pipeline. The shell is inflated with air. The position of the nozzle is adjusted. The rods are installed. The communication lines of the flowmeter and the shell are connected to the feedthrough connectors on the inside of the hatch. The hatch closes. Feed-through connectors on the outside of the hatch are connected to the functional blocks of the flowmeter, a source of compressed air and a full pressure receiver. The pipeline is put into operation. The shell is in tension under excessive internal pressure. The flowmeter is ready for operation.

Literature

[1] Patent DE N1084041 A, 42e, 23/20, 06.23.1960.

Claims (1)

A portable flowmeter with a primary flow transducer designed to be installed inside the pipeline through a side hatch, and containing a rigid cylindrical nozzle, through the cross section of which passes the entire flow of the medium moving in the pipeline, characterized in that an elastic shell is attached to the nozzle, made with the possibility of filling the medium under pressure taken through a full-pressure tube mounted on the axis of the pipeline to ensure tight contact with the cylindrical surfaces of the pipe of the cable and the pipe, the shape adopted by the sheath provides a smooth narrowing and expansion of the flow at the inlet and outlet of the pipe, which abuts the tail part through removable rods in the stops attached to the pipeline.