SU825413A1 - Device for detecting metal in conveyer stream of non-conductive material - Google Patents

Description

(54) DEVICE FOR DETAILS OF METAL IN A FLOW OF TRANSPORTABLE NON-ELECTRICAL WIRING

Claims (2)

MATERIALS At the Fir. 1 shows a block diagram of the device; in fig. 2 — installation of sensors of the device for the case of material supply by a conveyor belt; in fig. 3 - timing charts of the device. The device consists of the generator 1, the measuring blocks - the main 2 and the additional 3. The measuring blocks include differential resonance sensors 4 and 5, ycils 6 and 7, circuits 8 and 9 of time selection. The device also includes an executive unit 10, a sensor 11 of the velocity of the transported material, an adjustable delay unit 12, a unit 13 coincidence. The device works as follows. When the metal moves through the zone of the additional sensor 5, a pulse appears at the output of the time selection circuit 9, which is delayed by the block 12 of the adjustable time delay by the time Tja equal to the ratio of the distance between the sensors and the speed of movement of the transported material. The signal from the metal from the output of block 12 of an adjustable time delay arrives at block 13 of coincidence, to another input of which at this moment of time a pulse arrives due to the passage of metal through the zone of main sensor 4. The presence of signals from both inputs of block 13 of coincidence causes the appearance of a pulse on its the output and thus the actuation of the executive unit 10. The effect of impulse noise is reduced to the appearance at the outputs of sensors 4 and 5 and accordingly schemes 8 and 9 of the time selection of interference pulses. The signal at the output of block 13 in this case does not occur, since the pulses at its c) sodine arrive at different points in time. The proposed implementation of the device makes it possible to increase the noise immunity of the device from the effects of impulse noise due to the fact that the probability of re-occurrence of interference exactly at intervals Tjag is sufficiently small. In the case of mechanical metal separation (for example, a plow dumper or a sliding gate), the loss of the transported process material is reduced. Apparatus of the Invention A device for detecting a metal in a stream of transported non-conductive material, comprising a generator, an actuating unit and a measuring unit made in the form of serially connected differential resonance sensor, amplifier and time selection circuit, characterized in that in order to increase the noise immunity of the device from pulsed interference, it is equipped with an additional measuring unit, the speed sensor of the transported material, the coincidence units and the unit p An adjustable delay, the control input of which is connected to the output of the speed sensor of the material being transported, while the inputs of the coincidence unit are connected respectively to the outputs of the measuring unit and the adjustable delay unit, and the output of the coincidence unit is connected to the input of the execution unit, and the input of the additional measuring unit is connected to the generator output and the output of the measuring unit is connected to the second input of the adjustable delay unit. Sources of information accepted attention in the examination 1. USSR author's certificate number 410816, cl. At 03 P 1/16, 1971. 2. USSR author's certificate number 429395, cl. G 01 V 3/00, 1972. L.