SU1661583A1 - Manometric level meter - Google Patents

Abstract

The invention relates to measurement technology, and more specifically to devices for measuring the level of a liquid, and can be used in power plants. The purpose of the invention is to improve the accuracy of measuring the level of multicomponent liquids and improve the manufacturability of the level gauge. To achieve this goal, the conical dome 3 is provided with fins, made in the form of truncated hollow cones 10 placed one another, facing vertices towards coaxial tubes 1 and 2, and the tip of the outer truncated cone is placed in the cavity of the inner tube 1, the lower edge of which is located above the lower the edges of the tube 2. In addition, the side walls of the truncated cones 10 have holes 11 for the passage of steam, which allows you to organize the movement of fluid from the tube 1 through the tube 2 into the tube 6 to equalize the temperatures and liquid composition tey in them. 1 il.

Description

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TENЈ

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The invention relates to measurement technology, and more specifically, to devices for measuring the level of liquids, and can be used in power plants.

The aim of the invention is to improve the accuracy of measuring the level of multicomponent liquids and improve the manufacturability of the level gauge.

The drawing shows the proposed rovnemer.

The level gauge contains a tube 1, which is sized in tube 2, the lower edge of which is located below the lower edge of tube 1, a conical roof 3, a tube 4 for supplying steam from a measured object, a tube 5 of a transverse level, a tube 6 for supplying liquid ( Spacings from the object to be measured, tubes 7 and 8 for connecting a manometer with a differential manometer, heat insulation 9, ribbing of the conical arch 3 in the form of hollow cones (funnels) 10 having holes 11 for passing steam into one another. the cone 10 is placed in the cavity of the tube 1.

When the measurement object is in operation (cube of the column or drum of the boiler), steam continuously enters the level gauge and condenses on the conical roof 3, as well as on the cones 10. Condensate formed flows down the conical roof 3, along the walls of the cones 10 and into pipe 1 (the direction of movement of the condensate is indicated by arrows) from which (legally (communicating; vessels) enters tube 2 and (after filling it) flows into tube 5 of variable level. From condenser 5 through tube 6 condensate flows into the object to be measured, constant occurs circus Lens of condensation in tube 2 of a constant level, which ensures equal temperatures in a vessel of a constant level and in tube 5 of a variable level. At the same time, in tube 5 of a variable level, the liquid changes in the direction from tube 5 - through tube b to the object measurement at the same speed as in the other tubes, due to the fact that all the liquid forming on the conical roof 3 and the cones 10 passes through the tube 6. At the same time, the placement of the apex of the outer cone of the fins in the cavity of the tube 1 allows the entire cone - Compiled M

The deesat formed on the conical roof 3 and the cones 10 (on their inner and outer surfaces) is directed to the tube 1 and due to the fact that its lower edge is placed

above the lower edge of tube 2, to ensure the circulation of fluid in all cavities The fins of the conical dome 3 makes it possible to obtain the required amount of condensate by increasing the area

0 contacts both at low pressures in the object of measurement, and (especially) at high pressures. This makes it possible to have a liquid of the same composition in all cavities and tubes, which increases the accuracy of measurement.

5 levels. A more intensive washing of the tube 6 prevents it from being blocked by corrosion products, salts and other impurities that accumulate in the measurement object during its operation, which makes it possible to simplify the operation of the level gauge. In addition, it is possible to simplify the assembly of the level gauge, since tubes 4 and 6 do not penetrate the space of the level gauge (as is the case in prototype), but can be connected using traditional simple methods. The holes 11 in the side walls of the cones 10 allow the pair to pass into all the cavities of the cones and condense on their surfaces.

0 Form of the invention

A manometric level gauge containing a differential pressure gauge, the first input of which is connected to the object to be measured and a variable level tube, and the second input is connected to a constant level vessel in the form of two coaxially mounted in a closed case with a conical vault of tubes that form a communicating vessel differing in that, in order to improve the accuracy of measuring the level of multicomponent liquids and improve the manufacturability of a constant level vessel, the upper edge of its outer tube is concentrically placed in a variable level tube. At the same time, the conical roof is fitted with coaxially mounted funnels, the bases of which are fixed under the conical roof, and the tops are located above the internal tube of a constant level vessel, with holes in the walls of the funnels. Rachkov

Editor O. Yurkovetskaya Tehred M. Morgental

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VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab, 4/5

Proofreader M. Kucher va

Claims (1)

SUMMARY OF THE INVENTION A pressure gauge containing a differential pressure gauge, the first input of which is connected to the measuring object and to a tube of variable level, and the second input to a constant-level vessel in the form of two coaxially mounted in a closed case with a conical arch of tubes forming a communicating vessel, characterized in that , in order to improve the accuracy of measuring the level of multicomponent liquids and improve the manufacturability of a vessel of a constant level, it is placed concentrically in a tube of a variable level, the upper edge of its bunk the inlet tube is placed below the upper edge of its inner tube, while the conical vault is equipped with coaxially mounted funnels, the bases of which are fixed under the conical vault, and the peaks are located above the inner tube of the constant-level vessel, and holes are made in the walls of the funnels.