RU53437U1 - SMALL BODY FLOW METER - Google Patents

Abstract

The utility model relates to flow measuring instruments and can be used in flow measurement of liquid and gaseous media. The inventive flow meter contains a body around 1, a vortex sensor 2, an electronic (secondary) transducer 3. The body around 1 has a rod shape and is mounted on the wall of the measuring pipe 4 or on the wall of a specially made flow part 5 so that it is in the flow of the medium. The flow body 1 has a length L from 0.05 to 0.5 from the diameter of the measuring pipe 4 and a width H in the direction perpendicular to the direction of flow, from 0.01 to 0.2 from the diameter of the measuring pipe 4. Length L and width H of body 1 the flow around is chosen in such a way as to maximize the velocity range of the medium, in which the vortex frequency is proportional to the flow rate of the medium. Directly in or on the body of the flow around 1, or on any element connected to the body of the flow 1, or in the area 6 located near the body of the flow 1, on the wall of the pipeline or in the stream is a sensor 2 of vortices. The signal from the vortex sensor 2 is transmitted to an electronic transducer 3, which converts the signal from the vortex sensor 2 into an output signal convenient for direct perception or subsequent processing, corresponding to the volume and / or flow rate of the medium being measured. The use of a small flow body that does not cross the entire section of the pipeline, but only a part of it, can significantly reduce pressure losses on the flow meter.

Description

The utility model relates to flow measuring instruments and can be used in flow measurement of liquid and gaseous media.

Known vortex flowmeter described in US patent No. 05369810.

The known flow meter contains a section of the measuring pipeline — a flow part, a flow body having the form of a rod crossing a flow part in a diametrical direction, and having a flexible section connected to a piezoelectric vortex sensor detecting deformations of a flexible section under the influence of pressure pulsations during vortex formation on the flow body, secondary a converter designed to convert the signal from the vortex sensor into an output signal or into visual information on an indicator corresponding to the volume and / or flow rate of the medium to be measured, while the length of the flow body is equal to the diameter of the flow part, the width of the flow body in the direction perpendicular to the axis of the flow and the axis of the flow body is 0.15 ... 0.3 of the diameter of the flow part.

The disadvantages of the known flow meter are the presence of high pressure losses that occur on the body of the flow around, due to its significant size, which leads to deterioration of the hydraulic parameters of the system up to the impossibility of operation with a small available head (pressure), a limited range of pipeline diameters due to the significant dimensions and cost of the flow meter for pipes diameter over 300 mm; sensitivity to vibration.

Known vortex flowmeter described in US patent No. 6298734.

A known flow meter contains a segment of a measuring pipe of small diameter — a flow part, a flow body having the form of a rod crossing a flow part in a diametrical

direction, a vortex sensor, consisting of a wing installed in the flowing part behind the flow around the body and a sensing element located at the base of the wing and perceiving deformation of the wing due to pressure pulsations during vortex formation on the flow around the body, a secondary transducer designed to convert the signal from the vortex sensor to the output a signal or into visual information on the indicator corresponding to the volume and / or flow rate of the medium being measured, while the flow part of the flow meter on the rod is immersed in the morning of the pipeline, having a diameter larger than the diameter of the flowing part, for measuring the flow velocity at one point of the cross-section of the pipeline and then calculating the flow rate and / or volume of the medium.

The disadvantages of the known flow meter are high sensitivity to installation inaccuracies, to environmental pollution, sensitivity to vibration.

The closest in technical essence to the claimed one is a vortex flowmeter described in the operating manual SPGK.407131.026 RE "Vortex-acoustic flow meter Metran-300PR" and selected as a prototype.

A known flow meter comprises a measuring pipe section — a flow part, a flow body having the form of a rod crossing a flow part in a diametrical direction, and intended to generate vortices when a medium flow is incident on it, a vortex sensor including two or four ultrasonic transducers designed to detect vortices occurring on the body of the flow around, a secondary transducer designed to convert the signal from the vortex sensor into an output signal or into visual information on the indicator, corresponding to the volume and / or flow rate of the medium to be measured, while the length of the flow body is equal to the diameter of the flow part, the width of the flow body in the direction

perpendicular to the axis of the flow and the axis of the body flow around, is 0.15 ... 0.3 of the diameter of the flowing part.

The disadvantages of the known flow meter are the presence of high pressure losses that occur on the body of the flow around, due to its significant size, which leads to deterioration of the hydraulic parameters of the system up to the impossibility of operation with a small available head (pressure), a limited range of pipeline diameters due to the significant dimensions and cost of the flow meter for pipes diameter over 300 mm; the ability to measure the flow rate of only liquid media.

The purpose of the claimed utility model is to expand the operational capabilities of the flow meter by reducing pressure losses on the flow meter.

This goal is achieved by the fact that in a vortex flowmeter with a small flow around body containing a flow around a flow body in the form of a rod, a vortex sensor and an electronic transducer, ACCORDING TO THE USEFUL MODEL, the flow part of the flow around the body flows from 0.05 to 0, 5 from the diameter of the measuring pipeline and the width in the direction perpendicular to the axis of the flow and the axis of the rod, from 0.01 to 0.2 from the diameter of the measuring pipeline.

The flowmeter may contain a flowing part in the form of a specially made segment of a pipeline with a flow around body and a vortex sensor designed to be installed in the section of the measuring pipeline or the flow body and the vortex sensor can be mounted directly on the measuring pipeline (the pipeline in which the flow is measured).

The use of a small flow body that does not cross the entire section of the pipeline, but only a part of it, can significantly reduce pressure losses on the flow meter.

In comparison with the prototype, the inventive flowmeter has novelty, differing from it by such an essential feature as the flow body in the form of a rod with a length from 0.05 to 0.5 from the diameter of the measuring pipe, a width from 0.01 to 0.2 from the diameter of the measuring pipe, ensuring the achievement of a given result - reducing pressure losses and, as a result, expanding the operational capabilities of the flow meter.

The inventive flow meter can be widely used in flow metering of liquid and gaseous media, and therefore meets the criterion of "industrial applicability".

The inventive utility model is illustrated by drawings, where shown in:

- figure 1 is a block diagram of a vortex flowmeter with a flow part installed in the section of the measuring pipeline;

- figure 2 is a block diagram of a vortex flowmeter mounted directly in the measuring pipeline.

The inventive flow meter contains a body around 1, a vortex sensor 2, an electronic (secondary) transducer 3. The body around 1 has a rod shape and is mounted on the wall of the measuring pipe 4 or on the wall of a specially made flow part 5 so that it is in the flow of the medium. The flow body 1 has a length L from 0.05 to 0.5 from the diameter of the measuring pipe 4 and a width H in the direction perpendicular to the direction of flow, from 0.01 to 0.2 from the diameter of the measuring pipe 4. Length L and width H of body 1 the flow around is chosen in such a way as to maximize the velocity range of the medium, in which the vortex frequency is proportional to the flow rate of the medium. Directly in or on the body of the flow around 1, or on any element connected to the body of the flow 1, or in the region 6, located near the body of the flow 1, on the wall of the pipeline or in the stream there is a vortex sensor 2, generating a signal containing frequency information whirlwind.

In this case, ultrasonic transducers or piezoelectric pressure pulsation sensors or hot-wire anemometers, etc. can be used as a sensor of 2 vortices. The signal from the vortex sensor 2 is transmitted to an electronic transducer 3, which converts the signal from the vortex sensor 2 into an output signal convenient for direct perception or subsequent processing, corresponding to the volume and / or flow rate of the medium being measured.

The flow meter operates as follows.

When the flow of the medium onto the body 1 flows around, vortices are formed on the body, transferred downstream from the body 1 around. Due to the appropriate choice of the length and width of the flow body 1, the vortex frequency is proportional to the average volumetric flow rate of the medium. The signal of the vortex sensor 2, containing information on the vortex frequency, is fed to an electronic transducer 3, where it is converted into an output signal corresponding to the volume and / or flow rate of the medium.

Due to the small size of the body flow around the inventive flow meter has less pressure loss in comparison with the prototype, which expands the scope of its application.

Claims (3)

1. A vortex flowmeter with a small body around the stream, containing the body around the stream in the form of a rod of arbitrary cross section, a vortex sensor located at, on or near the body around it or on any element associated with the body around the body, a signal converter from the sensor vortices into the output signal, characterized in that the part of the flow body protruding into the stream has a length of 0.05 to 0.5 of the diameter of the measuring pipe and a width in the direction perpendicular to the flow direction and the axis of the body of the flow about 0.2 of the diameter of the measuring pipe. 2. A vortex flowmeter with a small flow body according to claim 1, characterized in that the flow body and the vortex sensor are installed directly in the measuring pipe. 3. The vortex flowmeter with a small flow body according to claim 1, characterized in that the flow body and the vortex sensor are installed in the flow part.