RU2453814C1 - Tangential turbine-type flow rate converter - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: proposed device comprises case with cylindrical measuring chamber, tangential inlet and outlet channels, straight-vane turbine arranged vertically in said measuring chamber, flow turbulisers, and differs from know designs in that said inlet and outlet channels feature rectangular shape and the following sizes: width - 1-0.85…1 of vane width, height - 1/6 of vane height. Note here that inlet and outlet channels are arranged along tangent to measuring chamber inner diameter circle so that inclination a of said channels to axis passing along center of turbine makes 45°…60°. Note also that sizes of outlet channel cross-section sizes are 1.1-time larger than those of inlet channel.

EFFECT: higher accuracy of measurement and expanded range of measurements.

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Description

The invention relates to instrumentation, namely to devices for measuring flow, and can be used in various industries for measuring the flow of liquid or gas, for example for measuring fuel consumption in fuel lines of engines.

A known turbine flow transducer (USSR author's certificate No. 1015251, G01F 1/10, 1983), comprising a cylindrical chamber with input and output tangential channels, a tangential turbine mounted on bearing bearings coaxially to the chamber, flow turbulators placed uniformly on the end wall of the chamber.

The disadvantage of such a flow transducer is that the useful angle of action of the medium flow on the turbine is not more than 60 °, therefore this transducer has a very small measuring range.

Closest to the proposed invention is a tangential turbine flow transducer (USSR author's certificate No. 1663436, G01F 1/10, 1991), comprising a housing with a cylindrical measuring chamber, cylindrical tangential inlet and outlet channels mounted vertically in a measuring chamber, a straight-bladed turbine and a flow turbulator in the form of holes in the wall of the measuring chamber, the output channel is located in front of the inlet channel in the direction of rotation of the turbine in the sector of the measuring chamber with the central angle between the input and output channels is not more than 120 °.

The disadvantage of this device is that the input and output channels are made of circular cross section and are very close to each other, therefore, at low flow rates of the medium being measured, flow flows from the input channel to the output without rotation of the turbine.

The objective of the invention is to increase the measurement accuracy and expand the measuring range of the tangential turbine flow transducer.

This is achieved by the fact that in a tangential turbine flow transducer containing a housing with a measuring cylindrical chamber, a tangential inlet channel and an output channel, a straight-bladed impeller mounted vertically in the measuring chamber, the flow turbulators, input and output channels are made in a rectangular shape, the input channel has the following dimensions: width 1-0.85 ... 1 of the width of the turbine blades, height h - 1/6 of the height of the turbine blade L; the input and output channels are tangent to the circumference of the inner diameter of the measuring chamber obliquely to each other so that the angles of inclination α of the input and output channels to the axis passing through the center of the turbine are 45 ° ... 60 °, and the dimensions of the rectangular section of the output channel in 1.1 larger input channel sizes.

The invention is illustrated by drawings. Figure 1 shows the proposed flow transducer in the context, where α is the angle of inclination of the input (output) channels, h is the height of the rectangular section of the input channel, L is the height of the turbine blades; figure 2 is a side view of the flow transducer, where l is the width of the rectangular section of the input signal; figure 3 - accuracy characteristics of the tangential turbine flow transducer: 1 - characteristic of the flow transducer made in accordance with the prototype; 2 - characteristic of the tangential turbine flow transducer with input and output channels according to the proposed technical solution.

The tangential turbine transducer (figure 1) contains a housing 1, an input tangential channel 2 and a cylindrical measuring chamber 3, in which a turbine 4 is vertically located, an output channel 5, and the input and output channels of a rectangular shape are made obliquely to each other tangentially to the circumference of the side wall measuring chamber at angles of inclination α = 45 ° ... 60 ° of the input and output channels to the axis passing through the center of the turbine and with a central angle of not more than 180 °. Outside the housing is a contactless node 6 of the signal pickup.

The converter operates as follows.

The flow of the measured medium through the rectangular input channel 2 enters the measuring chamber 3 of the housing 1, rotating the turbine 4. Then, through the rectangular output channel 5, the flow of the measured medium enters the pipeline (Figs. 1, 2). The rotation of the turbine 4 is fixed by a contactless signal pickup unit 6 and is supplied to the indicating device in the form of electrical pulses. The pulse repetition rate is proportional to the flow rate of the measured medium, and the number of pulses to the volume of the flowing fluid.

When the medium rotates in the measuring chamber, the presence of holes on the walls of the chamber (turbulators) leads to a decrease in the thickness of the boundary layer and thereby to a decrease in the influence of viscous friction forces on the rotation of the turbine.

The implementation of the input and output channels of a rectangular cross-section allows more efficient use of the kinetic energy of the jet of the measured medium and accurately directs it to the turbine blade, thereby improving measurement accuracy, expanding the measuring range and improving the metrological characteristics of the tangential turbine flow transducer.

The implementation of the input and output channels tangent to the circumference of the inner diameter of the measuring chamber is inclined to each other so that the angles of inclination α of the input and output channels to the axis passing through the center of the turbine are 45 ° ... 60 °, thereby increasing the useful rotation angle turbines from 60 ° to 120 °, which in turn leads to the expansion of the range of flow measurement.

The studies carried out at the applicant enterprise made it possible to experimentally determine the optimal dimensions of the input channel of rectangular cross section: width 1-0.85 ... 1 of the width of the turbine blades, height h - 1/6 of the height of the turbine blade L; the dimensions of the rectangular section of the output channel are 1.1 larger than the dimensions of the input channel. This embodiment allows you to expand the range and accuracy of measuring the flow rate of the measured medium, significantly reduce the pressure loss on the flow transducer. The difference in flow rate Q _max decreases from 0.5 to 0.3 kgf / cm ² .

Figure 3 shows the accuracy characteristics of the flow measurement by a tangential turbine flow transducer, where the measurement error A is calculated by the following formula:

where Δ is the measurement error,%;

Q _pri is the measured volume of the transducer, _imp./l ;

Q _mi - the measured volume according to the _{measurer, imp./l} .

Depicted by the dash-dotted line 1, the characteristic corresponds to the characteristic of the transducer with turbulators and tangential inlet and outlet channels of a cylindrical shape made in accordance with the prototype. The characteristic depicted by the solid line 2 corresponds to the characteristic of the transducer with turbulators and tangential input and output channels of a rectangular shape, made in accordance with the given embodiment.

Figure 3 shows that due to the implementation of the input and output channels of rectangular cross-section and located obliquely to each other at an angle of 45 ° ... 60 ° to the horizontal axis of rotation of the turbine, the largest measurement range of the flow transducer and, consequently, the highest accuracy of flow measurement are achieved.

Claims (1)

A tangential turbine flow transducer comprising a housing with a measuring cylindrical chamber, a tangential inlet channel and an output channel, a straight-bladed turbine mounted vertically in the measuring chamber, flow turbulators, characterized in that the input and output channels are made in a rectangular shape, the input channel has the following dimensions: width 1 -0.85 ... 1 the width of the blades of the turbine, the height h - 1/6 of the height of the blades of the turbine L; the input and output channels are tangent to the circumference of the inner diameter of the measuring chamber obliquely to each other so that the angle of inclination α of the input and output channels to the axis passing through the center of the turbine is 45 ° ... 60 °, and the dimensions of the rectangular section of the output channel in 1.1 larger input channel sizes.

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