RU1795293C - Flowmeter - Google Patents

Abstract

Usage: measurement of the flow of liquids and gases in the oil, gas, chemical and other industries. SUMMARY OF THE INVENTION: a flowmeter comprising a housing with inlet and outlet nozzles, a measuring chamber located therein with an impeller made in the form of a sleeve with holes in which blades are made of magnetic material communicating by means of cams with a cross, a water lock installed in the measuring the chamber between the inlet and outlet nozzles in the form of magnetic fluid and two additional electromagnets placed on the housing in the area of the magnetic fluid, electromagnets The revolutions counter mounted on the housing around the circumference of the housing from the inlet to the outlet nozzles additionally contains a pressure differential indicator, the inputs of which are connected to the input and output nozzles, as well as an electromagnet advance device, one input of which is connected to the differential pressure indicator, and the other input - with a rev counter, and the output is connected to electromagnets. 1 ill.

Description

The invention relates to devices for measuring the flow of liquids and gases, driven by their flow and passing them in the form of calibrated volumes, namely, vane flow meters, and can be used in the oil, gas, chemical and other industries.

Closest to the technical nature of the proposed technical solution is a flow meter containing a housing, a chamber with an impeller, made in the form of a sleeve with holes in which the blades, inlet and outlet, nozzles, a water lock in the form of a magnetic fluid and two electromagnets, reversal electromagnets are installed blades, rev counter mounted on the body.

The flow of liquid (gas) from the inlet pipe enters the chamber and drives the impeller to rotate. Using electromagnets covering the housing and the contactless switching device, at a certain flow rate, zero flow resistance can be created, which sharply reduces the measurement error, especially when measuring gas flow. However, when the flow rate changes up or down, the flow resistance reappears, moreover, with a positive or negative sign, respectively. The measurement error increases in proportion to XI

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over the range of flow rate, which affects the accuracy of the measurement.

The purpose of the invention is to maintain high measurement accuracy while expanding the range of flow rates,

This goal is achieved in that in a known flow meter comprising a housing with inlet and outlet nozzles, a measuring chamber located therein with an impeller made in the form of a sleeve with holes in which are placed blades made of magnetic material communicating by means of cams with a crosspiece, a water seal installed in the measuring chamber between the inlet and outlet nozzles in the form of a magnetic fluid and two electromagnets placed on the housing in the zone of placement of the magnetic fluid, an electromagnet the rotation of the blades installed around the circumference of the housing from the inlet to the outlet nozzles, the revolution counter mounted on the housing, it additionally contains a pressure difference indicator, the inputs of which are connected to the input and output nozzles, as well as an electromagnet advance device, one of which is connected with an indicator of the pressure difference, the other input is with a rev counter, and the output is connected to the electromagnets of the blade rotation.

As a differential pressure indicator, a standard high-sensitivity differential pressure sensor can be used.

The electromagnet advancement device consists of an electrical, mechanical, pneumatic element that responds to a signal from a pressure difference sensor and changes the moment of switching on the electromagnet with respect to the angle of rotation of the blade. It also includes electronic or electromagnetic systems for switching on electromagnets (electromagnetic relays, thyristors).

An electromagnet advancement device is connected to a revolution counter to determine the exact angle of the blade position. The starting moment for turning on the electromagnets is determined by a revolution counter.

The drawing shows a flow meter.

The flow meter contains a housing 1 with inlet 2 and outlet 3 nozzles, an impeller made in the form of a sleeve with holes 4 in which the blades 5 are installed, a water lock in the form of two additional electromagnets 6 and magnetic fluid 7, electromagnets 8 mounted around the circumference housing 1 from input 2 to output 3 nozzles, rev counter 9 mounted on the housing, indicator

pressure difference 1, connected by inputs to the input 2 and output 3 pipes and an electromagnet advance device 11, one input of which is connected to the pressure difference indicator 10, the other input is with a revolution counter 9, and the output is with electromagnets 8.

Due to the fact that in the drawing it is not possible to show the location of the rev counter 9, the connection between it and the device 11

leading electromagnets is shown in FIG. 1a.

The flow meter operates as follows.

The flow of liquid (gas) enters the inlet pipe 2 and rotates the impeller 4 clockwise.

When the flow rate changes, the resulting pressure difference between the inlet 2 and outlet 3 nozzles through the pressure difference indicator 10 acts on the electromagnet switching advance device 11 connected to the revolution counter 9, which changes the moment of switching on the electromagnets 8, which leads to a decrease in the pressure difference between the inlet 2 and output 3 nozzles and thus reduces the error of variation that occurs with a wide range of flow rates.

Experimental studies have shown that when the gas flow rate changes by a factor of 100, the measurement error is not more than 0.3%.

Claims (1)

SUMMARY OF THE INVENTION A flow meter comprising a housing with inlet and outlet nozzles, a measuring chamber located therein with an impeller made in the form of a sleeve with openings in which blades are made of magnetic material communicating by means of jaws with a cross, electromagnets installed pp housing circumference from input to output. nozzles, a water lock installed in the measuring chamber between the inlet and outlet nozzles in the form of a magnetic fluid and two additional electromagnets mounted on the housing in the area where the magnetic fluid is located, a revolution counter mounted on the housing, characterized in that in order to ensure high measurement accuracy while expanding the flow rate range, it is equipped with a pressure difference indicator, the inputs of which are connected to the input and output nozzles, and also a device for advancing the switching on of electromagnets, one input of which is connected to a differential pressure indicator, the other input is a revolution counter, and the output is connected to electromagnets.