SU579634A1 - Device for determining coefficients of connected masses of planar profiles - Google Patents

Description

"" Linn foil, one above the other in parcel planes

at a small distance from each other.

The upper and lower sheets are connected via electrodes and blocks of resistors 2 necessary for leveling the currents, and switch 3 to the power supply unit 4, which provides the task in the sheets of oppositely directed fields and changes the flow leakage from 0 to 90 °. Working frequency 400 Hz is set with 5 sound generator; frequencies. The profile under study b is cut out on the top sheet. The inductive readout block 7 is connected to the input of the measuring unit 8. Measuring 8 consists of a digital voltmeter 5, with a code input to the digitizer 10. The signal to the input of the digital voltmeter 9 comes from the phase detector li ,. to which, through an amplifier 12 of signals and a switch, a reading unit is installed, installed on the surface of the model 1h. The reference voltage to the phase detector 11 is supplied from generator 5 through a phase shifter 14 "

A homogeneous alternating magnetic field generator consists of two identical windings 15,, 16 located coaxially with parallel flat bones at a turn radius distance connected in series with each other and in parallel with a capacitor 17 o. Power is supplied from power supply 4 via switch (kind of work) 3.

 Inductive readout. block 7 (fig, 2). made in the form of a flat coil. On housing 18, two mutually perpendicular windings 19 and 2 are laid with a constant pitch. The wire 21 is combined with bridges between the turns and forms with them a bifil p.

The inductive reading unit (Fig. 3) is made in the form of a flat coil. A winding 23 is linearly superimposed on a hf-shaped, uniform-thickness body 22 in such a way that the number of turns per equal lengths increases in proportion to the coordinate. Cables are located in parallel, planes, perpendicular to the surface of the model. -.- OEZtratny wire 24 is combined with a jumper-: between the turns.

The device works in the following way.

When applying voltage to a model. -1 in the upper and lower sheets, a potential, identical, intensity, oppositely directed, kvaiistationary frequency, 400 rii electric fields are created, and the magnetic field of the model is absent. Simultaneously, from the generator, 5 is fed

reference voltage through phase shifter 14 to phase detector 11.

In the top sheet of model 1, the profile b under study is cut, with an alternating magnetic field appearing on the surface of the sheets. Inductive readout unit 7 is installed on the surface of the sheet, so that the turns of the windings are located respectively axes X and Y The magnetic field induces in the windings 19 or 20 EMF. The magnitude of the signal is measured alternately with each winding by the phase-sensitive measuring unit 8, the main recording element of which is a digital voltmeter 9, at the input of which the phase detector 11 separates a part of the EMF coming from the reading unit, in-phase with the reference voltage, then the direction of the electric field rotated 90 ° and measured in the same order.

From the obtained measurement values, the value of the corresponding EMF induced by the uncompensated magnetic field of the bottom sheet is subtracted. The difference is a quantity proportional to the attached mass of the profile under study.

To determine the coefficients of the added masses during rotation, the power supply unit 4 of the switch to the homogeneous alternating magnetic field generator inductive counting unit (FIG. 2) is replaced with an inductive reading block (FIG. 3) with winding performed according to a law, and & a ee th; in: in the same order.

Thus, due to the introduction of new elements and links between them, the device allows to obtain the values of the coefficients of the attached mass profiles of any configuration.

Claims (2)

1. Author's certificate of the USSR 389522, Mkl. G About O- 7/44, 1971. 2. USSR author's certificate 492888, MKL. &Amp; 06 O- 7/44, 1974. innj   , / l-j Л-хЗ -vCI-У-УДГЗЗ nineteen Fig 2 Si