RU2495381C1 - Flow metre - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: flow metre includes a jet self-oscillator, a housing in the form of a section of the main pipeline, a convergent device and a casing (a frame). Jet self-oscillator has bent structure on cylindrical surface of the housing with symmetry axis parallel to its longitudinal axis.

EFFECT: reduction of overall dimensions of a flow metre and simpler technology of its manufacture.

6 dwg

Description

The invention relates to techniques for measuring the flow of gases, liquids and gas-liquid mixtures.

A known flow meter, comprising a housing in the form of a section of the main pipeline, a constricting device, an autogenous jet generator including input and output channels, an input nozzle, control nozzles, a working chamber, feedback channels and pressure transducers / 1 /. Its disadvantage lies in the fact that the jet generator is made in the form of recesses in a flat base, which is connected to the housing using tubes. With this design, the flow meter significantly complicates the technology of its manufacture.

A known flow meter, comprising a housing in the form of a section of the main pipeline, a constricting device, an autogenous jet generator including input and output channels, an input nozzle, control nozzles, a working chamber, feedback channels and pressure transducers / 2 /, which is adopted as a prototype. In this flow meter, the self-propelled jet generator is made in the form of profiled through slots in a flat disk, which is hermetically sealed with a lid using a pair of threads. The disadvantage of the prototype is that for sealing the jet generator in the proposed design, the flow meter uses a threaded connection. In this case, the geometric dimensions of the threaded pair are determined mainly by the relatively large diameter of the flat disk on which the inkjet oscillator is made. As a result, the overall dimensions of the flow meter are significantly increased, and the technology for its manufacture remains quite complex.

The technical result of the invention is to reduce the overall dimensions of the flow meter and simplify the technology of its manufacture.

A simplified result is achieved by the fact that in a flow meter containing a jet self-contained oscillator, including inlet and outlet channels, an inlet nozzle, control nozzles, a working chamber, feedback channels with pressure transducers, a housing in the form of a section of the main pipeline and a constricting device, the jet generator is made curved along the cylindrical surface of the housing with an axis of symmetry parallel to its axis.

Possible practical implementations of the invention are illustrated by the following drawings:

- jet autogenerator, conventionally shown flat, and its section (Fig.1, 2);

- flow meter with a jet oscillator made in the form of a plate bent along the cylindrical surface of the housing and its cross section (Figs. 3, 4);

- flow meter with a jet self-contained generator, made in the form of a pipe with an inner diameter equal to the outer diameter of the cylindrical body (Fig.5, 6).

The proposed flow meter consists of a jet oscillator, a housing, a constricting device and a casing. Inkjet oscillator 1 (1, 2) includes an input channel, modern with an input nozzle 2, control nozzles 3, 4, a working chamber 5, feedback channels 6, 7, 8, 9, connected by corresponding tunnel recesses 10, 11, converters pressure 12, 13 and the input channels 14, 15. The housing 16 (Fig.3, 4, 5, 6) is a section of the main pipeline, in which the radial holes 17, 18 are made, combined respectively with the input nozzle 2 and the input channels of the jet self-oscillator 1. In the inner cavity of the housing 16 between the holes 17,18 installed o narrowing device 19 in the form of a flat disk with a hole 20,

The jet generator 1 is located on the housing 16 and can be made in the form of a sector of a hollow cylinder, which is a plate bent along the cylindrical surface of the housing 16 with an axis of symmetry parallel to its longitudinal axis (Figs. 3, 4) or in the form of a pipe manufactured by the corresponding bending of the plate with subsequent welding of the seam (figure 5, 6). In principle, the inkjet oscillator 1 can be made directly on the surface of the housing 16, for example, during its manufacture by casting (not shown in the drawings).

Depending on the proposed design of the jet oscillator 1, its sealing can be achieved, for example; using a casing in the form of two clamps 21, 22 (Fig. 4) or using a casing in the form of a pipe 23 (Fig. 6) with an internal dimeter, which provides the possibility of a tight fit when sealing a jet oscillator 1.

The proposed flow meter works as follows. A part of the medium flow (gas, liquid or gas-liquid mixture) flowing through the housing 16 through the hole 17 is directed to the jet oscillator 1. Then the medium flow, flowing through the inlet channel combined with the inlet nozzle 2, through the working chamber 5 and through the outlet channels 14, 15, combined with holes 18 in the housing 16, enters the main pipeline. At the same time, part of the jet along sections of the feedback channels 6, 7, 8, 9, connected by tunnel grooves 10, 11 and through the control nozzle 3, 4 returns to the working chamber 5. When the jet contacts the walls of the working chamber 5, due to fluctuations and , accordingly, irregular braking, there are local pulsating areas of high and low pressure. The pulsation of pressure in the stream of medium in the form of waves is transmitted along sections of the feedback channels 6, 7, 8, 9, connected by tunnel grooves 10, 11, to the control nozzles 3, 4 and then to the working chamber 5, causing proportional flow rates of the medium. The resulting self-oscillations of pressure in the jet are perceived by pressure transducers 12, 13 and in the form of electrical pulses are transmitted to an electronic circuit (not shown in the drawings) for processing them.

As a result of the fact that in the present invention, the jet self-oscillator is made curved along the cylindrical surface of the housing with an axis of symmetry parallel to its longitudinal axis, a significant reduction in the overall dimensions of the flow meter and the simplification of its manufacturing technology are achieved compared with the prototype.

Information sources

1 RF Patent No. 22424265, G01F 1/20.

2 RF Patent No. 2354937, G01F 1/20.

Claims (1)

A flow meter comprising a jet oscillator including an inlet and outlet channels, an inlet nozzle, control nozzles, a working chamber, feedback channels with pressure transducers, a housing in the form of a section of a main pipeline and a narrowing device, characterized in that the jet oscillator is made curved along a cylindrical surface body with an axis of symmetry parallel to its longitudinal axis.

Images