SU681396A1 - Apparatus for measuring magnetic fields - Google Patents

Description

one

The invention relates to a measurement technique, in particular, to devices for measuring magnetic pop.

The device can be used in devices for measuring magnetic field components in industry and scientific practice, especially when studying the topography of weak inhomogeneous magnetic fields, i.e. when measuring the value of a weak magnetic field in small volumes.

The device can also be used in a magnetic recording technique for reading waveforms from magnetic media, especially in the case of real-time reading of analogue recordings of slow processes.

A device for measuring magnetic fields is known, comprising a first circuit meter, a piezo transducer and an acoustic concentrator, in which, in order to increase the measurement accuracy while reducing the overall dimensions of the sensitive part of the circuit, the piezo transducer is placed in the cavity of a passing half-wave glass and is rigidly connected to it, and the glass mechanically connected to the external conductive housing through needle holders mounted on an acoustic neutral, and mechanically coupled with an acoustic concentration An atom connected to the microwire, which is part of the measuring circuit and is fixed in the supports ij.

However, the disadvantage of such devices is low sensitivity in weak magnetic fields.

five

The purpose of the invention is to increase the sensitivity of the device.

This is achieved by the fact that in a device for measuring magnetic fields containing a piezoelectric transducer, an acoustic concentrator, a magnetic conductor fixed in the onopt conductor, the microwire is released into the detector 1 xaTjTUKn, the loop cavity of which is ue.nu4i is also distributed .

FIG. 1 is a diagram of the device; in fig. 2 shows the microwire structure.

The device consists (see Fig. 1) of -Piezoelectric transducer 1, non-magnetic half-wave glass 2, acoustic hub 3, magnetic wires 4, conductive supports 5, contacts b, dielectric jumpers 7, rings 8, shield casing 9, needle holders Yu, insulator 11, the dielectric substrate 12, the output terminals of the microwire 13.

The device consists of a piezoelectric transducer 1, located inside a half-wave non-magnetic cup 2 with an acoustic concentrator Z. Piezoelectric transducer 1 has an acoustic contact with the bottom of the cup. The tip of the concentrator 3 is mechanically connected to the central part of the magnetowire 4, reinforced between the conductive supports 5 with contacts 6 and dielectric jumpers 7. A half-wave cup and an acoustic concentrator 3 are mechanically connected to the ring 8 fixed in a common metal casing - screen 9 for three pairs needle holders 10, located at an angle of 12O to one another. The pins 6 connected to the supports 5 remove the useful emf. Supports 5 electr. insulated from the shield-casing 9 by means of dielectric jumpers 7. Magnetic core 4 Designed as a printing coil-with insulator 11 between the turns of Magnitoprovod 4 and insulator 11 Hatiecens on the dielectric substrate 12, for example, by vacuum deposition.

The output clamps 13 of the magnetic circuit 4 are electrically connected to the supports 5 by, for example, welding, soldering.

Contacts 14 electrically connects r with the piezoelectric transducer electrodes 1.

The device works as follows.

Its terminals are connected to the output; at the generator (not shown in the drawing), which excites the piezoelectric transducer 1, and contacts 6 - to the transformer one

Immediately narrowband preamplifier (not shown).

When a sinusoidal or pulsed voltage is applied to the piezoelectric transducer electrodes, the transducer-cup-concentrator speaker system is excited at the resonant frequency and reports mechanical vibrations to the microwire 4. The oscillating microwire is part of the measuring circuit with a variable cross section.

The device measures the projection of the vector B of the external field to the normal, i.e. it is a directional type sensor, and

the arising EMF ttr MO npqnopnnonanbHa frequency, amplitude of oscillations and the number of turns of the printed catalog: microwire and is determined by the ratio

e - (-cfijl, s ° s. „sign-boc,

where P - the number of turns of the printing roll of the microproduct.

The application of the invention will significantly improve the sensitivity of the device in weak magnetic fields, use it as a reader in the magnetic recording technique for reading analog recordings from magnetic waveforms in real time NiacmTa6e of slow processes.

Claims (1)

1. Copyright svidegopstvo USSR No. 320797, cells, GDI K 33/00, 2O. 11.69.