SU393713A1 - MEASURING DEVICE - Google Patents

Description

one

This invention relates to the field of electronic devices for detecting metallic objects.

Electronic metal detectors are known, which serve to detect metallic objects that are open under a layer of snow, soil, etc. These items include mines, cables, pipelines, etc.

Most of the known metal detectors used a method of measuring frequencies by the method of zero beats by ear. Such devices, as a rule, have a generator of a variable frequency, a variable frequency with a loop in the form of a frame, a frequency mixer of the reference generator and a variable frequency generator, a low frequency amplifier and headphones.

IZEZESTPY metal detectors, built according to the above scheme, have a serious shortcoming: with small frequency discrepancies between the reference frequency and the frequency generator of the varying frequency, the beat frequency at the mixer output is quite low.

The human ear does not perceive frequencies that lie below 15-18 Hz. In addition, due to their acoustic properties, the headphones poorly reproduce frequencies below 50-

100 Hz Thus, when working with known metal detectors, there is a certain insensitivity zone, which reduces the overall sensitivity of the detector, which is very important when searching for metal objects of small size or hidden under a thick layer of snow, soil, etc.

Proposed Measuring Device

free from the indicated disadvantage.

It is shown in the drawing. The measuring device contains a generator / reference frequency, a variable frequency generator 2 with a loop made in the form of a frame, a mixer 3, a Schmitt trigger 4, headphones 5.

The measuring device works as follows. Electric oscillations, depending on the outputs of the reference and

menu1, its frequencies are input to the mixer. The device is pre-tuned away from metal objects but with zero beats. When the alternating frequency of metal objects in the frame of the generator hits, this generator becomes more detrimental the more, the greater the mass of the metal object and the closer to the frame of the generator of changing frequency, the object is located. From the output of the mixer signal with frequency

the beat arrives at the Schmitg trigger input

(beat frequency - the difference between the frequencies of the generators).

The Schmitt trigger converts a sinusoidal beat frequency signal into square impulses, and the frequency of these pulses is equal to the beat frequency. With the release of the Schmitt trigger, the impulses go to the headphones. The phones will be heard clear w; Christmas trees, the frequency of which is equal to the frequency of beats. At the same time, the beat frequencies that lie beyond the ears of hearing of the human ear are heard as separate distinct shells, and the frequencies lying above are interpreted as a tone signal. Thus, even the weak mismatch of the frequency of the generators, causing beats with

the frequencies measured by hertz are tapped on the phones.

Subject invention

A measuring device, a metal-oxide nanometer, containing a variable frequency with a loop in the form of a frame, a reference frequency generator, whose outputs are connected to the mixer input, and headphones, which in order to increase the sensitivity, the mixer output is connected to the head phones through the driver pulses from the input sinusoidal signal, made, for example, in the form of a Schmitt trigger.