SU1195803A1 - Metal detector - Google Patents

Description

SO JV

The invention relates to a detection technique, intended for use in the detection of metallic objects, including non-magnetic ones, in non-conducting and weakly conducting media at concentration plants for controlling the flow of technological raw materials. The purpose of the invention is to increase the sensitivity and noise immunity. The drawing shows a block diagram of the device. The metal detector contains a generator 1, an induction transducer with two counter-emitting emitters 3, a compensation 4 k. Signal 5. coils, phase-controlled, a rotator 6 and a controlled attenuator, 7, a sniper 8, first and second synchronous detectors 9 and 10, first and the second integrators 11 and 12, the phase shifter 13, the indicator 14. The device operates as follows. In the initial state, there is a certain difference magnetic flux of two radiating coils 3, caused. for example, the presence of closely spaced stationary metal masses of deformation of windings from temperature, etc., inducing an unbalance emf of a signal coil 5, which is amplified by an amplifier 8 and fed to the inputs of the first and second synchronous detectors 9 and 10. The unbalance emf of an arbitrary phase can be considered. as the sum of two components: the in-phase voltage of the generator 1 and shifted by 90 quadrature. The first one is supplied by the first synchronous detector 9, and the second by the second synchronous detector 10, the reference voltage of which is shifted by 90 by the phase shifter 1. Voltages proportional to the in-phase and quadrature components are fed to the inputs of the second and first integrators 12 and 11, respectively, whose output voltages begin to change, correcting the division ratio of the controlled attenuator 7 and the angle of rotation of the phase of the controlled phase shifter 6. At the same time, the current in the compensation coil 4 is varied in amplitude and phase so as to compensate for the differential magnetic flux of the two radiating coils 3. Upon achieving accurate compensation of the emf of the unbalance of the signal coil 5, the output voltage tim first and second synchronous detectors 9 and 10 become equal to zero, a further change in output voltages of the first and second integrators 11 and 12 ceases and the current in the compensation coil 4 is maintained at a desired level. If the balance of magnetic fluxes is disturbed, this will lead to a voltage on the signal card 5 and to a change in the current in the compensation coil 4, ensuring automatic balancing of the circuit under new conditions in amplitude and phase. In the case of the passage in the working area of the induction converter 2 of a metal object on the signal coil 5, a pair of opposite-polarity pulses is generated, causing the indicator 14 to operate. The integration constant of the first and second integrators 11 and 12, selecting the interference noise, chooses taking into account the speed of movement the conveyor in such a way that during the passage of the metal object through the working zone and the 1 converter converter 2, the current in the compensation coil 4 remains unchanged and the balancing condition Hema is not broken.

Claims (1)

A metal detector containing a generator, an induction converter with two on-board emitting, compensation and signal coils, with the radiating coils connected to the output of the generator, the signal coil connected ^{1 to} _? ^after DO ^is connected to the amplifier, the first synchronous detector and indicator, and the reference input of the synchronous detector is connected to the output of the generator, characterized in that, in order to increase sensitivity and noise immunity, it contains a second synchronous detector, a phase shifter, two integrators, a controlled attenuator and a controlled a phase rotator, while the amplifier output is connected to the input of the second synchronous detector, the outputs of the first and second synchronous detectors are connected respectively to the inputs of the first and second integra Atomizers connected in series with a controlled phase shifter, a controlled attenuator and a compensation coil of an induction converter are connected to the output of the generator, the control inputs of the controlled phase shifter and a controlled attenuator are connected respectively to the outputs of the first and second integrators, and the reference input of the second synchronous detector is connected through the phase shifter to the output of the generator. > ί