SU589572A1 - Sensor for measuring electric resistivity of dust - Google Patents

Description

(54) SENSOR FOR MEASURING SPECIFIC

Claims (2)

ELECTRIC DUST RESISTANCE The measuring cell, the upper guard electrodes have thinned walls and form an annular chamber, and a high-voltage electrode in the upper part is provided with cutouts. The concentric arrangement of the electrodes increases the volume of the measuring cell, thereby increasing the sensitivity of the sensor and reducing its size. FIG. 1 shows a sensor for measuring the electrical resistivity of dust, a slit. It contains a base 1, an external measuring electrode 2, an internal measuring electrode 3, a high-voltage electrode 4, measuring cells 5 and 6, an isolator 7, an internal guard electrode 8, an external guard electrode 9, insulating gaskets 10 and It, clamping screws 12, jumper 13, terminal sockets 14 and 15, notches 16 in the high-voltage electrode and the annular chamber 17. The sensor works as follows. The dust prepared for analysis is poured in small portions into the annular chamber 17. From this chamber, the dust enters the measuring cell 5 and through the notches 16 in the high-voltage elec- trode 4 into the measuring cell 6. After filling with dust the measuring cells 5 and 6 and the annular chamber 17 the sensor electrodes are connected to a direct current source. The high-voltage elec- trode 4 is connected by a wire to the positive terminal of the current source 1 by means of the terminal socket 15. The microammeter is connected to the terminal 14 of the measuring electrode 2, and to the negative terminal of the current source. The base. 1 sensors and negative terminal source1 are grounded. The voltmeter is connected to the positive and negative terminals of the current source. When voltage is applied to electrodes 2 and 4, a current flows through a layer of dust in measuring cells 5 and 6. The amount of current passing through the layer; dust between the high voltage electrode 4 and the measuring electrodes and 3 is fixed by a micro ammeter. The currents flowing in the zone of the protected electrodes 8 and 9 and in the zone of the annular groove located on the base 1 are diverted to earth. . The electrical resistivity of dust (taking into account the design characteristics of the sensor) is determined by a known computational method based on the magnitude of the current recorded by the microammeter and the voltage applied to electrodes 2 and 4. When obtaining the dependence of the electrical resistivity of dust on the temperature change . The proposed technical performance of the sensor gives it compactness, small dimensions and weight. The concentric arrangement of the electrodes increases the volume of the measuring cell, which makes it possible to study representative samples of dust, increases the sensitivity of the sensor. The sensor makes it possible to measure the specific electrical resistance of dust up to 10 OMSM in the temperature range lO-SOO C, the invention The sensor for measuring the specific electrical resistance of dust containing cylindrical high-voltage measuring and guard electrodes, characterized in that, in order to increase the measurement sensitivity, two the lower electrodes are the base of the sensor, on which the measuring electrodes are installed one in another, between which the high-voltage electrode is placed, forming annular measures, on the measuring electrodes from the top through the gasket are installed guard electrodes. Sources of information taken into account in the examination: 1.GOST 4668-65. Method of determining the electrical resistivity of the powder. 2.Kazarnovskiy D.M. Testing of electrical insulation materials. Ener. 1969, p. 17-62.