SU983608A1 - Device for checking liquid electromagnetic characteristics - Google Patents

Description

(St) DEVICE FOR THE CONTROL OF ELECTROMAGNETIC CHARACTERISTICS OF LIQUIDS

one

The invention relates to electrical measuring equipment. And can be {Used to control the electromagnetic characteristics of liquids, for example, in determining the degree of contamination. liquid aviation fuel and lubricants with metal impurities.

A device for controlling liquids is known, which implements the principle of high-frequency transforming the impedance of a controlled fluid, containing a primary winding, a secondary winding made in the form of a short-circuited coaxial cylinder consisting of two symmetric half-cylinders, and two cells of a dielectric material, each of which has the shape of a hollow toroid with the input and output channels located diametrically opposite, the primary winding is made in the form of two in series these identical sections, each of which is located on the corresponding cell, while the cells are located symmetrically with respect to the internal electrode of a short-circuited coaxial cylinder, and their input and output channels are mutually perpendicular to G1

A disadvantage of this device is that the sensitivity of measurements is low, which has negative consequences, especially when monitoring the electromagnetic characteristics of liquids with weakly expressed properties,

, 5 J, the discharge of which includes liquid aviation fuel and lubricants with metal micro-switches.

It is also known a device for

Claims (2)

20 control of electromagnetic characteristics of liquids containing a toroidal cell made of ferromagnetic material in the form of two isolated identical semiring cavities connected to two pairs of coaxially located input and output channels, the rod electrode, the axis of which coincides with the axis of the cell, measuring from a skein, made of two halves, the alternator and the indicator, the half-ring cavities of the cell are located symmetrically with respect to the plane passing through the cell axis and its diameter , and the measuring winding halves are placed on the cell symmetrically with respect to the said plane and connected counter-sequentially with the indicator, while the rod electrode is connected to the alternator, 2. The disadvantage of this device lies in the low sensitivity of measurements due to the small length of the section of the interaction of the rotating liquid with the induced alternating field, since each of the measuring winding halves is placed around a separate semicircular cavity of the toroidal cell, an increase that exceeds the optimal tabs. of the whole device. The goal is to increase sensitivity. The goal is achieved by the fact that a device for controlling the electromagnetic characteristics of liquids containing a first toroidal cell made of ferromagnetic material, placed coaxially with a rod electrode connected to an alternator, a measuring winding connected to the indicator, and two pairs of channels, is inserted the second is identical to the toroidal cell, located coaxially with the first cell in each cell, which has an annular internal cavity, divided by a radial septum, with the corresponding channel pairs placed on both sides of the partition are pairs of it and are united with the annular cavity, and the measuring winding is made in the form of four identical sections connected in a sequential manner, with the sections located on the corresponding cells in pairs symmetrically relative to the plane passing through the rod electrode and cell dividers. FIG. 1 shows the device, the principal view; in fig. 2 section aa in FIG. The device for controlling the electromagnetic characteristics of liquids contains two toroidal cells 1 and 2 of ferromagnetic material, which have annular cavities with input channels 3 and output 5 and 6. Coaxially the centers of the toroidal cells 1 and 2 have a rod electrode 7 connected to an alternator 8 ( current source, for example, with a signal frequency of 1 kHz). Around the cavities of the toroidal cells 1 and 2 is placed a measuring winding formed from four identical sections, respectively 9 and 10, 11 and 12, connected electrically consistently and connected to each other to the indicator 13 (for example, to an electronic voltmeter). The input and output channels ZiSiB in each cell 1 and 2 are located one-way-parallel on both sides of the partition I, and between cells 1 and 2 their orientation is mutually opposite. The parts of the individual sections (9,11 and 10, 12) of the measuring winding are located on their cells 1 and 2 symmetrically with respect to the plane passing through the rod electrode 7 and the septum 1. The device for controlling the electromagnetic characteristics of liquids operates as follows. From an alternating current generaratra 8, an electric signal is applied to the rod electrode 7, as a result of which around it, namely in cells 1 and 2, an alternating electromagnetic field is excited, the magnetic field lines of which circularly close (circulate) through cells 1 and 2 from the ferromagnetic material. Through the annular cavity of one of the cells, for example 1, a flow of the controlled fluid is passed through one of the 3 and outlet 5 channels. At the same time, the flow of the reference fluid passes through the annular cavity of the cell 2 with the inlet k and the outlet 6 channels in the same hydrodynamic mode, with characteristics of the controlled fluid being compared with their characteristics. When it moves through cells 1 and 2, both flows of the fluid form actually circular, but directed sections, since the thickness of the partition 1 between the input and output channels of cells 1 and 2 is small. According to the law of electromagnetic induction, EMFs are induced in sections 9 and 12. When the metal (or ferromagnetic) micro-inclusions of the turns of the individual sections of the measuring windings of the device contained in the flows of the monitored and reference liquids intersect, the magnetic flux in them changes. Due to the appropriate arrangement of the beginnings and ends of the turns (sections) of parts 3-12 of the measuring winding, the polarity of these EMFs are antiphase in separate sections 9,10 and-P 12 each half of the measuring winding. As a result, with complete: the adequacy of the electromagnetic characteristics of the two EMF flows induced in sections 9-12 of the measuring winding, the resulting EMF of the entire measuring winding recorded by the indicator 13 is zero. In the case of the slightest difference between the electromagnetic parameters of the flows of the monitored and reference fluids, a corresponding electrical balance signal appears at the output of the measuring winding, which, after a certain preliminary calibration, the indicator 13 gives a complete picture of the electromagnetic characteristics of the monitored liquid. When using the device, in particular for the tasks of determining the degree of contamination of liquid aviation fuel and lubricants, the initial indicator can be the content of metal (ferromagnetic) microswitches in them. Thus, the proposed device for monitoring the electromagnetic characteristics of liquids has a high measurement sensitivity due to the increase in the areas of interaction between the measuring winding and the working fluids, as well as the multidirectional orientation of the flows, which eliminates the parasitic effect on the operation of the device by external magnetic bias fields. Apparatus of the Invention A device for monitoring the electromagnetic characteristics of liquids, comprising a first toroidal cell made of ferromagnetic material, placed coaxially with a rod electrode connected to an alternator, a measuring winding connected to an indicator, and two pairs of channels, different in that, in order to increase the sensitivity , a second identical toroidal cell is introduced into it, located coaxially with the first cell, each cell has an annular internal cavity, divided by a rad with the corresponding channel pairs placed on both sides of the partition parallel to it and connected to the annular cavity, and the measuring winding is made in the form of four identical sections connected sequentially, while the sections are located on the corresponding cells in pairs symmetrically relative to the plane passing through the rod electrode and cell wall. Sources of information taken into account during the examination 1. USSR author's certificate in application No. 2780968 / 18-21. .l. G 01 R 33/12, 1979. 2. USSR author's certificate for application number 2889Y8 / 18-21, cl. G 01 R 33/12, 1980.