SU624143A1 - Liquid density meter - Google Patents

Description

(54) FLUID DENSITY

The invention relates to the field of instrumentation and can be used to measure the density of a liquid.

A fluid density meter is known in which the dependence of the natural frequency of torsional vibrations rigidly fixed on a magnetoelastic rod of a torsional oscillating element, immersed in a controlled fluid, on the density of this fluid is used. The oscillations of a torsional-oscillating element are excited as a result of the interaction of circular and longitudinal magnetic fluxes in a magnetoelastic rod til.

This densitometer has a low sensitivity.

The closest in technical terms to the present invention is a density meter of a fluid which contains as a torsional-vibrating element a single-walled cylinder with a blade ks fixed to the end of a tubular circularly polarized magnet. The other end of the magnet is rigidly fixed in the base. The coaxial excitation winding covers a tubular magnet and is connected to the output of the amplifier. Permanent rod magnets, the axes of which are perpendicular to the measuring windings stationary in the housing of the densitometer, are diametrically opposed to the blades of a torsional-oscillating element. The measuring windings contain cores of magnet of a soft material and are connected to the input of the amplifier. When the amplifier is turned on, a current pulse arises in the coaxial excitation winding, leading to the appearance of a longitudinal magnetic flux in a tubular magnet. The resulting alternating helicoidal directed magnetic flux causes a twisting oscillation of the tubular magnet and the entire torsional-vibrating element.

The density meter has the following disadvantages: the sensitivity of the measured is low, due to the installation of a pair of diametrically mounted rod permanent magnets on a torsional-vibrating element, which increases its own mass (and therefore its own moment of inertia) of the torsional-vibrating element;

Claims (2)

The installation of permanent magnets on a torsional-oscillating element causes its imbalance, in order to decrease which requires a great deal of adjustment, which causes a lack of reliability of the well-known density meters. The aim of the invention is to increase the sensitivity of the measurements and increase the reliability of the network by reducing the imbalance of the steeply oscillating element. This goal is achieved by the fact that, in the proposed densitometer, the internal top of a tubular magnet is covered with a layer of wire in its material and connected through an electric signal shaper to the input signal. The general view of the preparative liquid density meter is shown on the certificate. The oscillating element 1 is rigidly fixed on one tubular circulatory tube of the magnet 2. The other end of the tubular magnet 2 is rigidly fixed to the base 3. The coaxial excitation 4 encompasses the tubular magnet 2 and connected to the output of the amplifier S. The input of the amplifier 5 is connected {through an electric signal former to the ends of the tubular magnet 2. The viable surface of the tubular magnet 2 is metallized with a layer of conductive material (for example , Copper) 7. Working fluid densitometer proiskhodat sheduyuschim manner. Oscillating element 1 is immersed in a controlled fluid. When the amplifier 5 is turned on, a current pulse arises in the coaxial excitation winding 4. The tubular magnet 2 occurs resulting variable-helicoidally napravle1shy magnipgy stream vyztayui1y krzailnye koleba1sh tubular magnet 2 and only torsionally ranging; gyuschegos member 1. On the ends of the tubular torsionally oscillating magaita 2 placed in the alternating magnetic field coaxial excitation winding 4, an alternating a signal proportional to the magnitude of its angular displacement. A signal proportional to the speed of oscillation of a spinning-oscillating element 1 mounted on a tubular magnet 2 is amplified at the output of an electric signal generator 6 by an amplifier 5. Thus, undamped oscillations occur in the system, the frequency of which is a measure of the density of the controlled fluid. The sensitivity of the measurement of the density meter. Compared to the known increased by 20%. DETAILED DESCRIPTION OF THE INVENTION A fluid meter comprising a spring-oscillating element mounted on a tubular mapper and an amplifier characterized in that, in order to measure the measurement sensitivity, the inner surface of the bored magnet is covered with a layer of conductive material and connected through an electric signal former to the amplifier input. ; Sources of information taken into account during the examination: 1. Author's certificate No. 356520, cl. G 01 N 9/10, 1970. 2. Author's certificate No. 5.19017, cl. G 01 N 9/10, 1974.