SU371440A1 - Sun? S <RETURN? Eg -: &;;: ' - Google Patents

Description

MASS TURBINE FLOW METER SENSOR

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The invention relates to the field of instrumentation, namely to mass flow meters for gas and liquid.

A turbine flow meter for measuring mass flow is known, which contains a body of flow, which receives a velocity head, and an impeller that measures the flow velocity.

Using such a flow meter, it is possible to measure (with an accuracy of 1-1.5%) the mass flow rate in the range of 1: 3. Due to the non-linear relationship between the flow velocity and the movement of the body around the flow (immobility in the range below 30% of the maximum flow rate increases dramatically.

The purpose of the invention is to increase the accuracy and the widening of the measurement range.

This is achieved by the fact that the flow meter is provided with an additional spring-loaded flow body installed behind the main body and a signal pickup unit, and the main flow body, the front part of which is shaped, for example, in the form of a deflector, is also spring-loaded and downstream behind the impeller. The body springs have different stiffness.

The drawing shows the proposed sensor for a mass turbine meter.

In the housing 1, the impeller 2 rotates on bearings 3, the angular velocity of which

is converted in node 4 to a signal in frequency / 1 proportional to the flow velocity. The back stream body 5 has a main wrap body 6, the front part of which is made in the form of a difflector, and a spring 7. The wrap body is designed to both axially move the magnetic core 8 and unload the impeller bearing from axial force. The axial movement of the magnetic circuit is converted at node 5 into a signal, for example, in frequency / 2, proportional to Vzy, where V2 is the flow rate in the range, for example, from 10 to 30% of the maximum value; y is the density of the measured medium.

Additional body 10 wrapping performed, for example, in the form of a disk with a spring //, the rigidity of which is greater than the rigidity of the spring 7, for example, three times. The body 10 has the possibility of axial movement under the action of the velocity head.

A magnetic core 12 is embedded in the wrapping body 10, the axial movement of which is converted at node 13 into a signal, for example, in frequency / 3, proportional to, where Vs is the flow velocity in the range, for example, from 30 to 100% of the maximum value.

The signals of the nodes 4, 9, and R 13 go to the secondary transducer 14, in which the signal / 2 is sequentially divided by the signal fi and then the signal fz-by fi. When the flow rate is within 0-30%, the signal from node 13 is blocked. As a result, the output of the converter 14 is a signal proportional to the mass flow rate in the range of 1: 10.

Subject invention

A mass turbine flow meter sensor, comprising a housing, an impeller, a body of flow and two signal pickup assemblies, characterized in that, in order to increase accuracy and expand the measuring range, it is equipped with an additional spring-loaded body

the wrap installed behind the main and signal removal unit, and the main wrap body, the front part of which has a shape, for example, in the form of a deflector, is also spring-loaded and is located downstream behind the impeller, while the springs of the wrap bodies have different stiffnesses.

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