RU180U1 - Flow meter - Google Patents

Abstract

A flowmeter comprising a housing, a cowl located therein, a sensing element in the form of a ball and a signal pick-up unit, characterized in that the body of the flowmeter is built-in to the flow path, the cowl is secured to the body using gratings that allow the main stream to pass through and has a through channel with expansion to accommodate a ball with a through diameter hole, and in the ball there are cavities filled with magnetic material, and the signal pickup unit is made in the form of a magnetically controlled circuit mounted in the output extended portion of the fairing channel.

Description

The utility model relates to the field of measuring liquid flow, namely to ball flow meters and can be used in chemical, oil and other industries.

A tachometric flow meter is known, comprising a housing with a calibrated channel, in which an input flow guide device, rotary blades, a sensing element and an output flow guiding device are arranged sequentially, and a rotational speed sensor of a sensitive element is mounted on the housing, in which a plate mounted perpendicular to it is fixed to each rotary blade a plane equipped with a rotation limiter and a hydrodynamic element located on different sides of the plane of the rotary blade With a. . USSR No. I5I337I, CfOIPI / IO, Tachometric flowmeter, dated I9.09.87).

The disadvantage of the above flow meter is its complexity, the contamination of the device by large volumes of fluid passing through it.

Known ball flowmeter, selected as a prototype, containing a non-magnetic housing with inlet and outlet nozzles, a cowl located in the housing, the housing and cowling made with a diameter larger than the diameter of the inlet and outlet nozzles, and the cowling forms an inlet radial channel with the housing, a sensitive element in in the form of a ball located in the ring measuring cavd located outside the housing near the ball, where the ring measuring channel is made

restriction grooves are made on the side of the outlet pipe, in the wall of the housing and (or) in the fairing, and guide vanes are located in front of the sensing element in the output radial clearance and (or) in the input radial clearance (USSR AS No. 771466, ffOIFI / IO, Ball meter from 10.15.80).

The disadvantage of the above flowmeter is its complexity,. design, as well as high hydraulic resistance.

A flow meter is proposed, comprising a housing — a fairing located therein, a sensing element in the form of a ball, and a signal pickup unit, in which, according to a utility model, the flowmeter housing is made built-in. in the main for flow passage, the fairing is fixed in the housing using gratings passing the main stream and has a through channel with expansion for accommodating the ball with a through diameter hole, and the cavity is filled with magnetic material, and the signal pick-up unit is made in the form of a magnetically controlled circuit, mounted in the output expanded part of the channel of the fairing.

Tests of the proposed flow meter showed that when

its use sharply decreases the hydraulic resistance, because only the part of the liquid passing through the through channel of the fairing is measured, and the main part passes unhindered through the gratings, without polluting the device, because there are no mating rotating parts in it, and the presence of a magnetically controlled circuit and cavities in the ball filled with magnetic material allows you to get a discrete signal with less interference, easily amenable to amplification, allows you to automate accounting for water consumption. -

It is known to use a rotor in the form of a ball with a through magnetized hole, but in the search process there was no detection / V At Sl / SJ T / t /

The solutions containing the totality of features of the utility model are loaded, which allows us to conclude that the solution meets the criteria of novelty and significant differences.

In FIG. shows a flow meter containing a housing I, integrated in the main pipe 2, a fairing 3 located in the housing I with a through channel 4 with an extension 5 for receiving the sensing element-ball 6 with a through magnetized hole 7. The fairing 3 is fixed in the housing I using gratings 8, 9, and has a hole in the rear part 10. At the fluid exit from the expanded part, channel 4 is equipped with a signal pickup unit in the form of a magnetically controlled circuit II connected to transducer 12. Ball 6 has cavities 13 for magnetic material.

The device operates as follows.

The fluid flow passing through the main pipeline 2, at the entrance to the body of the flowmeter I is divided into two flows - the main 14 and measured 15 in a ratio of approximately 100: 1. The main stream 14 freely passing through the grilles 8, 9 acquires a speed greater than when entering the flowmeter, creating a vacuum along the entire length of the fairing 3.

The measured stream 15 passes through the through channel 4 of the fairing 3, enters the extension 5, where the more sensitive element is located - the ball 6 with the magnetized through hole 7, and a closed vortex flow is formed, due to which the ball b is hydrodynamically suspended and comes into rotational motion. The magnetic flux of the ball b acts on a magnetically controlled circuit II, which transmits discrete signals to the transducer 12 with a reading device. After the ball rotor 6, the measured flow through the hole 10 enters the body I of the flow meter, and then into the main pipeline 2.

Using the proposed flow meter allows you to increase the overhaul life of the device by reducing its contamination due to the fact that the minimum volume of fluid passes through the flow meter, reducing hydraulic resistance, in addition, allows you to make measurements more accurate and automate their removal, for. due to the use of a magnetically driven circuit and the possibility of installing the device in any convenient place for operation of the main pipeline.

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Claims (1)

A flowmeter comprising a housing, a cowl located therein, a sensing element in the form of a ball and a signal pick-up unit, characterized in that the body of the flowmeter is built-in to the flow path, the cowl is secured to the body using gratings that allow the main stream to pass through and has a through channel with expansion to accommodate a ball with a through diameter hole, and in the ball there are cavities filled with magnetic material, and the signal pickup unit is made in the form of a magnetically controlled circuit mounted in the output extended portion of the fairing channel.