SU711455A1 - Sensor of the content of magnetic fraction in refined products - Google Patents

Description

(54) MAGNETIC CONTENT SENSOR

FRACTIONS IN ENRICHMENT PRODUCTS

The invention relates to the field of measurement; 1, in particular, to sensors of the content of the magnetic fraction in the beneficiation products of ferrous metals and can be used in devices of the system for automatic control and regulation of relevant processes.

Inductive sensors for the content of the magnetic fraction in enrichment products are known, containing several inductors connected in a bridge circuit or in some other way. The principle of operation of these sensors is based on the change in the inductance of the coil when 11J material is introduced into its cavity.

Transformer transformers are known (induction sensors of similar purpose, containing a magnetic circuit and a winding system, the principle of which is based on a change in the mutual inductance between the windings when the magnetic resistance changes in one of the sections of the magnetic circuit.

A close proximity to the technical essence to the prediction is a sensor for detecting

laziness of the magnetic fraction in the enrichment products, containing a branched heterogeneous and asymmetrical magnetic W-shaped circuit with a winding in: accordingly 2.

However, for this dipika, a characteristic is a large consumption of electrical energy to ensure its functioning (greater power consumption) and copper to produce. The use in the design of a coil gauge complicates its design,

S increases dimensions and weight.

The purpose of the invention is to simplify the design of the sensor.

Claims (2)

This is achieved by the fact that in the known sensor the content of the magnetic fraction in the enrichment products containing a magnetic circuit with a source of magnetomotive force, a magnetic variable resistor and a working gap in one of the sections, the source of the magnetomotive force is made in the form of a permanent magnet fixed and a galvanomagnetic converter is installed in series with it. In this case, a magnetoresistor is used as a galvanomagnetic transducer fixed between two magnetic field concentrators, all of which are connected in series using a magnetoresistor as a sensitive element increases the sensitivity of the sensor, and the sequential connection of structural elements provides a one-to-one relationship between the input signal and the output signal. by parameter. FIG. 1 shows a diagram of a sensor containing a magnetic fraction in enrichment products of the proposed design; in fig. 2 - its equivalent circuit of the magnetic circuit. The sensor of the content of the magnetic fraction in the enrichment products contains an open, unbranched magnetic circuit, in the ruptures of the magnetic circuit 1 (Rim). The swarm has two hubs 2 magnetic fields, between which a magnetoresistor 3 (sensor, RM p.) is fixed; a permanent magnet 4 (source of magnetomotive force, ppm) and a variable magnetic resistor 5 (R p), which allows sensors to be mounted on O. and correction of the output parameter of the sensitive element as the structural elements are aging. Hubs 2 provide for the formation of a magnetic field with a high gradient value of magnetic induction at the installation site of the magnetoresistor 3. (Vm | e (-), which contributes to the sensitivity of the sensor. The sensor works as follows. The sensor is installed on the diamagnetic part of the test object 6, in which the test product 7 is located, and its output 8 is connected to the input of the secondary device (not shown in the drawing). The walls of the test object 6 (V, and P) and examine the product 7 (D) form the outer section of the miniature chain,sensor magnetic circuit. If the product 7 (Rn) under investigation does not contain a magnetic fraction, the magnetic resistance of the outer section is large, the magnetic flux Φ in the magnetic circuit of the sensor will be absent and the output parameter of the magnetoresisor 3 (Pm.r.) depends on the magnetic flux Φ has a zero value. If the product under investigation contains a magnetic fraction, then the magnetic resistance of the outer section of the magnetic circuit will decrease proportionately to the concentration of the magnetic fraction of product 7 (Rn), respectively, will increase flow F in the magnetic sensor circuit, therefore, the output parameter magnitoezistora 3 (RM, p. ), i.e. Atchik's output parameter, which is recorded by the secondary device. The content of the magnetic fraction in the enrichment products does not require the expenditure of electrical energy to ensure its functioning, since its operation is provided by the magnetic energy stored in the permanent Magnet (N-S). By virtue of the action and design features, there is no need to use hinge products, which eliminates the consumption of non-ferrous metals, simplifies the design, reduces size and weight. The invention The sensor of the content of the magnetic fraction in the enrichment products, containing a magnetic circuit with source i magnetocrescent. force, a magnetic variable resistor and a working gap in one of the sections, characterized in that, in order to simplify the design, the source of the magnetomotive force is made in the form of a permanent magnet fixed to the break of the magnetic circuit, and in series is installed a galvanomagnetic converter made in the form of a magnetoresistor . Sources of information taken into account in the examination 1. S. Lashchenov et al. Indicator magnet-. pulp density. Bulletin of the Central Research Institute of Worlds, 1967, No. 24, p. 25 2. Kuchma, I.I., et al., A device for determining the magnetic fraction in enrichment products. Bulletin Chermetinformatsi, 1974, No. 21, p. 49 (prototype). L pds