SU688887A1 - Metal detector - Google Patents

Description

associated with the synchronization unit 7. The inputs of the reference signal of each of the synchronous detectors 4, are connected to the corresponding generator /.

The device works as follows.

The induction sensor 2 is excited simultaneously at four frequencies by oscillators. The output signal from the induction sensor 2 is fed through the amplifier 3 to the signal inputs of synchronous detectors 4, to the inputs of the reference signals of the same synchronous detectors 4 the reference signals from the corresponding generators 1 are received. The output signals of synchronous detectors 4, which are the sum of the responses of detected and moving objects at the corresponding frequencies are fed to the inputs of the weight processing device 5. The weight processing device 5 multiplies the signal received from each of the synchronous detectors 4 by a preselected weight The coefficient multiplies, then it algebraically multiplies the results of multiplication and gives the result of the addition to indicator 6. Ensuring that all generators work synchronously / up to the phase is carried out using the synchronization unit 7.

The ratios between simultaneously emitted frequencies and their total number are determined based on the requirements for suppressing objects other than those to be detected by the value of the induction parameter:

That wi.

where Y is the electrical conductivity of the object;

, 1 - magnetic permeability of the object; L is the characteristic size of the object.

The same requirements determine the modules and signs of the weighting factors of the weight processing device 5.

Introducing additional elements into the metal detector allows compensation of responses from moving objects with induction parameters that are different from the induction parameters of the objects to be detected. This makes it possible to reduce the requirements for the accuracy of manufacture and installation of multi-coil inductive sensors, the requirements for stability of the mutual position of the parts of the induction sensor and their position relative to interfering objects. This achieves increased noise immunity of the metal detector and its sensitivity.

When selecting operating frequencies in accordance with ratios

0) 1 0) 4 (

o (B4 / ff 3 0) 2/0) 1 2

Iog20) 3 / o) 2 t -f l.

where m is an integer, and weights in accordance with the table, the relative sensitivity of the metal detector to objects with different values of the induction parameters is determined from

ratios

U (, - t-ш 1

where Ck - weights;

t is the current value of induction

parameter, and can reach 100 or more times.

Weight table

About 1 2 3

four

 the invention

A metallookatel, which includes a measuring channel containing a series-connected generator, an induction sensor, an amplifier and a synchronous detector, and

also an indicator, characterized in that, in order to improve noise immunity and sensitivity, similar measuring channels connected in parallel with each other are additionally introduced into it,

a weight processing device and a synchronization unit connected to the generators, the weight processing device being connected between the outputs of synchronous detectors and the indicator.

Sources of information taken into account in the examination:

1. Kosharsyuy VD, et al. Automation of concentrating mills, M., Nedra, 1966, p. 101.

2. Kosharoky V.D., et al. Automation of concentrating mills, M., Nedra, 1966, p. 102 (prototype).