SU1126819A1 - Level indicator - Google Patents

Abstract

LEVEL CONTAINER, containing float with reference liquid and pied; A metric tube connected to a pneumatic unit and a dpimanometer, characterized in that, in order to increase the sensitivity, an additional tube is installed in the float, rigidly connected to the upper part of the float, the piezometric tube being placed inside the additional tube, and its cavity is connected by a flexible connection to the upper part of the cavity float ..

Description

11 The invention relates to instrumentation and can be used in chemical, food and other industries. A piezometric level gauge is known, containing a piezometric tube placed in the measured medium and connected to an air supply unit and a GL pressure meter. The drawback of the device is low accuracy in measuring the level of a liquid, the density of which varies during the measurement process, because the pressure in the piezometric tube is equal to the product of the level and density of the liquid ,. at a constant level and a change in the density of the liquid, the magnitude of the output signal changes, which introduces an error in the measurement results. In addition, with this design of the level gauge, foaming and deterioration in the quality of some controlled liquids are possible. Closest to the proposed technical entity is a boiling liquid level sensor containing a float, the cavity of which is filled to a certain level with a reference liquid, and a piezometric tube placed in the reference liquid and connected to an air supply unit and diffianometer. When the level changes and the corresponding movement The depth of immersion of the piezometric tube into the reference liquid and the air pressure in it and, accordingly, at the output of the differential pressure gauge 2, change the float. The disadvantage of the device is. low sensitivity, due to the fact that the change in the depth of immersion of the piezometric tube into the reference fluid cannot exceed the magnitude of the change in the level of the measured fluid. At the same time, the pressure change in the piezometer tube cannot exceed the value of the density product of the reference fluid by the value of the level change. The purpose of the invention is to increase the sensitivity of the level gauge. The goal is achieved by the fact that in the device containing a float with a reference liquid and a piezometric tube connected to a pneumatic unit and a differential pressure gauge in the float an additional 92 is installed on the tube rigidly connected to the upper part of the float, with the piezometric tube placed inside the additional tube and its cavity flexible connection with the upper part of the float cavity. With such a constructive implementation of the level gauge, the depth of immersion of the piezometric tube into the reference liquid when the level changes occurs not only due to the float moving, but also due to displacing a part of the liquid from the float cavity into the additional tube when the pressure changes in the piezometric tube and, accordingly, in the upper parts of the cavity float. At the same time, the change in the depth of immersion of the piezometric tube can significantly exceed the magnitude of the level value and, accordingly, the pressure in the piezometric tube can vary by much more than the product of the HJIOTHOCTH standard liquid by the magnitude of the level change, which determines the higher sensitivity of the level gauge compared to with a known device. The drawing shows the scheme of the proposed level gauge. The level gauge contains a T-shaped, hollow float I, the cavity of which is filled to a certain level with reference liquid 2. In the upper part of float 1, tube 3 is rigidly fixed, inside which there is a piezometric tube 4 immersed in the reference fluid 2 connected to the air supply unit 5 and I Diffmanometer about and using a flexible tube 7 with the upper part of the cavity of the float 1. The level gauge works as follows. When the level of the measured liquid increases, the float 1 moves up and the depth of immersion of the piezometric tube 4 into the reference fluid 2 increases. At the same time, the pressure of the air coming from the power supply unit 5 and the outgoing air and the atmosphere through the layer of standard fluid 2 in the additional tube increases in the piezometric tube 4 3, An increase in pressure in the piezometric tube 4 and, accordingly, in the cavity of the float 1 leads to displacement 3P

Part of the fluid from the cavity of the float 1 to the additional tube 3, resulting in an additional increase in the depth of immersion of the piezometric tube, an additional increase in pressure in it and, accordingly, an increase in the output signal at the output of the diffractometer. When the level of the measured liquid decreases, the float 1 moves DOWN) The depth of the piezometric tube 4, and the pressure in it drops. At the same time, the pressure in the cavity of the float I drops, as a result of which a part of the reference fluid 2 is displaced into the cavity of the float and there is an additional decrease in the depth of immersion of the piezometric tube 4 and an additional pressure drop in it. With matching diameter of up to 194

It is possible to obtain the required dependence of the immersion depth of the piezometric tube on the level change, i.e. increase sensitivity a certain number of times.

The proposed device has a higher accuracy due to

that the pressure in the piezometer tube and, accordingly, the magnitude of the output signal do not depend on the density of the measured liquid, higher sensitivity, since

with the same level measurements, the pressure in the piezometric tube changes by a large amount. In addition, the proposed device eliminates the possibility of foaming and

deterioration of the quality of the measured volume.

Claims (1)

LEVELER, comprising a float with a reference liquid and a piezometric tube connected to a pneumatic power unit and a differential pressure gauge, characterized in that, in order to increase sensitivity, an additional tube is installed in the float, which is rigidly connected to the upper part of the float, and the piezometric tube is placed inside the additional tube, and its cavity is connected by a flexible tie with the upper part of the cavity of the float .. ye se Q0 with © 1 1 26819