RU2108547C1 - Flowmeter - Google Patents

Abstract

FIELD: measurement of liquid or gas flow rate under conditions of increased pressure. SUBSTANCE: medium is supplied to measuring tube through inlet pipe union and filter, thus creating dynamic pressure on float. Flow rate is read off scale. Measuring tube is made of material of different permeability or variable thickness in length. EFFECT: reduced overall dimensions; wider measurement range. 2 dwg

Description

 The invention relates to measurements of the flow of gases and liquids. The preferred area of use is the measurement of gas flow over a wide range at elevated pressures.

 Known flow meters of constant differential pressure (rotameters) have a relatively large overall dimensions and a narrow measurement range, which is mainly due to design features (the measuring pipe should have a taper of 1: 100). In addition, these flowmeters can be used to measure the flow rate of the medium only at relatively low pressures.

 A known flow meter containing a conical measuring tube, a float, a reference scale, inlet and outlet fittings (Kremlevsky PP. Flow meters and quantity counters. - L .: Mashinostr., 1975 - 776 p.).

 Its disadvantage is larger overall dimensions, a narrow range of measurements, as well as the possibility of use only at relatively low pressures.

 A known flow meter containing a cylindrical measuring tube equipped with a guide rod with conical grooves, a float made in the form of a ring, a reading scale, inlet and outlet fittings (A.S. USSR N 325496, class G 01 F 1/22, 1970).

 The disadvantage of this flow meter is that it does not significantly reduce the overall dimensions and expand the range of flow measurements. This is due to the fact that in the process of measuring the flow rate of the medium, only a small part of the inner surface of the annular float interacts with the flow. In addition, this flow meter can be used at relatively low gas or liquid pressures.

 A known flow meter containing a cylindrical measuring tube, in the walls of which are made through holes, a float, a reading scale, a filter, inlet and outlet fittings (FR, application N 1178296, class G 01 F 1/22, 1959), adopted for the prototype.

 The disadvantage of the prototype is actually the same as that discussed above. This is due to the fact that a decrease in overall dimensions and an extension of the measurement range causes a significant increase in the measurement error due to the jump-like change in the parameters of the flow interacting with the float.

 The result of the invention is the reduction of overall dimensions and the expansion of the measurement range.

 This result is achieved by the fact that in the flowmeter containing a cylindrical measuring tube, in the walls of which are made through holes, a float, a reading scale, a filter, inlet and outlet fittings, the measuring tube is made of material of different permeability or of variable thickness along the length.

 The invention and its distinguishing features from the prototype signs are that in the proposed flow meter, the measuring tube is made of permeable material for gas or liquid, and along the length of the measuring tube changes either the thickness of the permeable material, or its permeability.

 The flow meter (Fig. 1, 2) consists of a measuring tube 1, a float 2, a reading scale 3, an inlet fitting 4, an outlet fitting 5, a filter 6, a sealed housing 7, and sight glasses 8, 9.

 The measuring tube 1 is made of a permeable material, for example, cermets, metal mesh, etc., with variable permeability or with a variable thickness along its length and is located in a sealed housing 7 with sight glasses 9. At the inlet of the measuring tube there is a filter 6 for eliminating clogging of the permeable material with particles of the solid phase. The sealed housing 7 is made of durable material, such as steel, and allows you to create increased pressure in the flow meter.

 The flow meter operates as follows. The medium (gas or liquid) through the outlet nozzle 4 and the filter 6 enters the measuring tube 1, creating dynamic pressure on the float 2, as a result of which the latter rises (changes its position). At the same time, part of the flow of the medium due to the permeability of the material of the measuring tube 1 is diverted to the volume limited by the inner surface of the sealed housing 7 and the outer surface of the measuring tube 1, and are not involved in creating dynamic pressure on the float 2. The total amount of medium expires through the outlet 5. The position of the float 2 is monitored through the sight glasses 8, 9, and the flow rate is measured on a scale of 3.

 As the flow rate changes, the amount of medium discharged through the measuring tube 1 increases or decreases until it interacts with the surface of the float 2. As a result, it is possible to significantly reduce the height of the measuring tube, i.e., to reduce the overall dimensions of the flowmeter and to expand the range of measurements of the medium flow rate at elevated pressures. In this case, the change in the flow parameters occurs smoothly, and not abruptly, as in the prototype.

 The relationship connecting the position of the float 2 with the flow rate of the medium, it is advisable to determine experimentally due to the possible large errors obtained in the calculation.

Claims (1)

 A flowmeter containing a measuring tube located in a sealed housing made of permeable material, a float, a filter installed at the inlet of the measuring tube, inlet and outlet fittings and a reading scale, characterized in that the permeability of the material of the measuring tube or its thickness is variable in length.

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