SU968700A1 - Density meter - Google Patents

Description

(54) PLOTNOMER

Claims (2)

This invention relates to instrumentation engineering and is intended to measure the density of fluids in a stream. A fluid density sensor is known that includes a sensing element, a differential transformer displacement sensor, and a temperature compensation bridge tl. The disadvantages of the known device are the complexity of the design and the low accuracy of the density measurement due to the dependence of the instrument readings on the filling level of the vessel with a partially sensible element immersed in the medium. Also known is a densitometer containing a float with a permanent magnet immersed in x, mounted on a vertical guide tube of non-magnetic material with magnetically sensitive organs placed in it, made in the form of a ferrite-semiconductor distributor connected to a measuring circuit of a pulse generator, and means for balancing the float. 2. A disadvantage of the known densitometer is the complexity of the design of the magnetically sensitive organs and the absence of temperature compensation in it, which reduces the measurement accuracy. The aim of the invention is to simplify the design of the densitometer and to increase the accuracy of measuring the density of the monitored medium. For this purpose, are magnetically sensitive. organs made in the form of elastic resistive elements having electrical conductivity depending on the pressure applied to them are placed in the working gaps between the contact plates of two reed switches included in the adjacent shoulders of the measuring circuit, the other resistors of which include a variable resistor and thermal resistance placed in a controlled environment. The drawing shows schematically the proposed densitometer. It consists of a vessel 1 on the inlet 2 and an outlet 3 by pipes, through which a controlled medium flows continuously inside the vessel 1 is located: a float completely immersed in the medium with ring magnets 5 and 6 installed on its upper and lower ends. a through central hole, in which the direction of the tube 7 is freely inserted, of a nonmagnetic material, fixed vertically in the vessel 1; Inside the pipe 7 there are two magnetosensitive organs, made in the form of elastic resistive elements 8 having electrical conductivity depending on the pressure applied to them. Elements 8 are placed in the working gap between the contact plates of the gyrcomb 9 included in the adjacent shoulders of a permanently unbalanced bridge, the other two arms of which include a variable resistor 10 and a thermal resistance 11 placed inside the vessel 1. The variable resistor 10 serves to be adjusted by the reference fluid, and thermal resistance 11 - for thermal compensation. Terminals 12 connected to a current source are included in one of the bridge diagonals and measuring device 13 has a scale calibrated in units of controlled density. The means for balancing the float is made in the form of ring permanently located in the upper and lower parts of the vessel 1 of the magnets H and 15, respectively, Magnets 5 and 1 face each other with opposite poles, and magnets 6 and 15 look like poles. The density meter works as follows, i In the absence of a controlled flow, the float f under the influence of magnets. permanent magnet fields 5, 6, I, and 15 are in a suspended state, since its weight in air is less than the forces of magnetic interaction. When a medium is passed through a minimum density with constant flow, the float 4 rises somewhat and takes on the guide The position shown in the drawing is shown in tube 7. Under the action of magnets 5 and 6, the same pull force is generated in the working gaps between the contact plates of the reed switches 9. In this case, the resistances of elements 8 are the same, and the imbalance of the bridge and the readings of the measuring device 13 are minimal. With increasing density of the medium, the float rises. The pulling force in the gaps between the contact plates of the reed switches varies. The resistance of the lower r. Resistive element 8 decreases, and the upper one increases, as a result of which the imbalance of the bridge and the measuring device increase. As the temperature of the medium changes, for example, its density decreases, which, however, does not lead to imbalance of the bridge, since this simultaneously increases the resistance of the thermistor 11 included in one of the bridge’s shoulders, compensating for the imbalance of the bridge. DETAILED DESCRIPTION OF THE INVENTION A densitometer comprising a float with permanent magnets immersed in a liquid, mounted on a vertical guide pipe made of a non-magnetic material with magnetically sensitive organs placed in it and connected to a measuring circuit, and means for balancing melting accuracy of measurement, the magneto-branching bodies are made in the form of elastic resistive elements and placed in the working gaps between the contact plates of two hermetic Ave., included in the adjacent shoulders of the bridge measuring circuit, the other two shoulders of which include a variable resistor and a thermal resistance placed in a controlled environment. Sources of information taken into account in examination 1, USSR Author's Certificate No. 366386, Cl, G 01 N 9 / 00, 1973. 2, USSR Copyright Certificate Vf 397813, cl. G 01 N 9/10, .1973 (prototype),