SU1174754A2 - Flowmeter - Google Patents

Abstract

FLOWMETER auth. No. 533824, characterized in that, in order to improve the accuracy of flow measurement at variable fluid density, a body with positive buoyancy, rigidly fixed to the sensing element, is additionally introduced into it. / 7/0 W 3 /.

Description

The invention relates to measuring equipment and is intended to measure the flow of liquids.

By main auto No. 533824, a flow meter is known that contains a housing consisting of two parts and includes a supply and a directing nozzle, a receiving hole made in the partition of the housing, an elastic sensitive element, for example, * θ membrane, an outlet pipe, and a transducer for moving the elastic sensitive element to the output a signal, and the cavity between the nozzles communicated with the submembrane cavity 15 of the housing [1]. .

A disadvantage of the known flow meter is the error caused by the dependence of the output signal taken from the membrane displacement transducer 20 on the density of the medium being measured.

The purpose of the invention is to improve the accuracy of flow measurement at variable fluid density. 25

This goal is achieved by the fact that a body with positive buoyancy, rigidly fixed to the sensitive element, is additionally introduced into the flowmeter.

The drawing shows a diagram of the proposed flow meter.

The flow meter comprises a housing 1, an inlet nozzle 2, a guide nozzle 3 coaxially mounted with a gap. The inlet nozzle 3 forms a cavity 4, while the guide nozzle 3 is installed with a gap against a hole 5 made in the partition 6 of the housing 7, which is separated by a spring-loaded membrane 8 into two parts, forming the upper cavity 9 and the lower cavity 10. The latter is connected by a channel 11 to a cavity 4. An air float 45 with 12 positive buoyancy is fixed on the membrane,

1174754 2 rigidly connected to the plunger 13 of the differential transformer sensor 14, and the end of the control spring 15. The fluid is released through the outlet pipe 16.

The flow meter operates as follows.

Formed by the inlet nozzle 2, the jet of the measured medium is directed through the guide nozzle 3 into the hole 5, fills the internal cavity 9 with the liquid interacting with it and, spreading out, leaves through the pipe 16. From the cover of the meter body 7. In this case, the cavity 9 perceives both static pressure and high-speed jet pressure, which is proportional to the square of the medium flow rate and its density. Due to the fact that the jet flowing out of the nozzle 2, initially retaining its cylindrical shape, becomes conical before it gets into the hole of the guide nozzle 3, low pressure is created in the cavity 4, since the flow between the outlets and inlets of the nozzles 2 and 3 has a large kinetic energy and, therefore, low potential energy. Due to this, the pressure coming from the cavity 4 through the channel 11 into the cavity 10 is somewhat lower than the static pressure.

Thus, the membrane 8 with the air float 12 is under the influence of a force due to the pressure difference in the submembrane and submembrane cavities, and a buoyancy force proportional to the density of the medium to be measured and the volume of the air float 12. Under the action of these forces, the membrane 8, overcoming the elastic forces of the spring 15, biases the plunger 13 of the differential transformer transducer 14, which generates a signal functionally associated with the flow rate.

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Claims (1)

FLOW METER p 533824, characterized in that, in order to improve the accuracy of flow measurement at a variable fluid density, a body with positive buoyancy, rigidly fixed to the sensitive element, is additionally introduced into it.