SU960677A1 - Differential ferroprobe - Google Patents

Description

(54) DIFFERENTIAL FERROZONP

Claims (2)

-1: The invention relates to the field of measurement technology and can be used to measure the magnetic field strength. Known differential flux probe containing two identical cores. from a ferromagnet in the form of two rods arranged in space parallel to each other. The flux-probes are provided with excitation windings and a common measuring winding covering both rods, the excitation windings of each of the cores being connected in series and counter to ij. However, due to the non-identity of the cores, the EMF induced by the alternating field of excitation cannot be fully compensated. As a result, at the output of the flux-gate in the absence of the field to be measured, a signal of an integral harmonic in the form of interference appears. This disadvantage is manifested the more the smaller the size of the ferrosonde and the higher the frequency of excitation and leads to a decrease in accuracy and deterioration of the gel's sensitivity. . The closest to the invention to the technical essence is a ferrosonde containing two parallel-arranged ferromagnetic cores, the exciting and measuring windings, the exciting winding is made in the form of four sections, installed nonaipHo at the ends of the core rods, each pair of sections and the pairs themselves are connected together in series opposite, and the measuring winding is made of two sections, placed in the center; three rods connected in series and according to each, and all sections of the exciting and measuring windings are placed on the cores coaxially and symmetrically from the two ends 2. However, the known ferro probe has a lack of accuracy, since the excitation is carried out at the first harmonic windings. those. In this case, the heart rate of cores also turns out. The purpose of the vetoobvev is Her higher accuracy of froze. The goal is achieved by the fact that in a differential fluxgate, which has two parallel ferromagnetic cores, exciting and measuring windings located on the cores symmetrically with respect to the ends of the ends, the exciting winding extends in the water of one section | the opposite directions are in the shape of eights, and the measuring winding covers both cores and is located on top of the winding arch. FIG. 1 shows the scheme of ferrosonde; in fig. 2 - principle of operation and equivalent circuit. Differential ferrosonde (fig, i) contains two cores 1 and 2, exciting winding 3, measuring winding 4, input 5 and viod 6. Cores 1 and 2 can be made in the form of permalloy rods placed in a container, or in the form of a thin magnetic film deposited on a non-magnetic substrate, in the process of spraying or in any other way. The winding winding 3 covers the cores 1 and 2 in the form of eights in the form of windings distributed in space with the opposite direction of the coiling. Measuring winding 4 covers both rods with winding excitation. Power is supplied to input 5, and a 24-pole signal is output at output 6. Forrosonde works as follows. In each of cores 1 and 2. a magnetic flux Φ in is created. in the form of closed circuits, due to the configuration of the winding sections in the form of eights (Fig. 2). Each of the eights creates a closed loop of the magnetic flux, which can be reflected by an equivalent circuit consisting of two resistors 7 and 8 and two resistors 9 and Id. Co-motivations of resistors 7 and 8 reflect the effect of the core material, and 9 and 1 O resistance to magnetic flux of non-continuous gaps . Material properties of each of the cores can affect the magnitude of the magnetic flux in each of the elementary circuits. And so, as these contours are always closed and interact with each other, as a result, in each of the magnetic cores, resultant flows are created, equal in magnitude and opposite to 1E by typology at any time. As a result, in the absence of an external measured field, there is no signal at output 6. When the magnetized cores, a second harmonic signal appears at the output, i.e. by such an excitation winding, the influence of the core identity of the cores on the balancing process is eliminated, and the first harmonic is fully compensated. The indicated differential differential flux probe measures the accuracy of the measurement. An increase in the measurement accuracy is achieved by eliminating the non-identical cores and implementing almost complete compensation of the first r monitors. The positive effect of the use of a differential ferrosonde consists in reducing the measurement error, the possibility of using the proximity and microminiature probes to measure the magnetic field strength, to study magnetic reliefs in a variety of technological processes, as well as to simplify the manufacturing technology of miniature sensors. The claims Differential flux gate comprising two parallel ferro magnetic core, the exciting and measuring coils disposed on the cores symmetrically relative to their KO1SCHOV, otlichiayuschiys in that, for the purpose povptsend measuring accuracy, the exciting coil vsholnena as a single distributed section simultaneously covering both the core in 1-fold directions in the form of eights, and the measuring winding covers both cores and is located on top of the excitation winding. Sources of information, U) are considered in the examination during the examination 1. Authors svdetelstVO USSR NI 561915, cl. G 01 R 33/02, 1976. 2. USSR author's certificate N9 424092, cl. Q 01 R 33/02, 1972.