SU1372183A1 - Device for measuring thickness of ferromagnetic tape - Google Patents

Abstract

The invention relates to instrumentation technology and can be used to measure the linear dimensions of ferromagnetic materials. The aim of the invention is to increase the accuracy when extending the measurement range by reducing the error in fixing the edges of the tape to be tested. With the passage of the magnetic tape 16 in the gap of the transformer sensors 1 and 2, the signal about the thickness of the tape is recorded by the measuring windings 5 and 6, the height is flush and is fed to the indicator. In the case of a transverse displacement of the tape, the signal on the measuring windings 5 and 6 is variable and does not correspond to a controlled thickness. To compensate for the error, the multiplier-divider unit 14 absorbs a voltage proportional to the square of the voltage from the compensation windings 7 and 8 and inversely proportional to the voltage of the compensation windings 9 and 10, which is added to the measured signal. 1 il. i (L

Description

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The invention relates to instrumentation technology and can be used to measure the linear dimensions of ferromagnetic materials, in particular, to control the thickness of a ferromagnetic tape during its production.

The aim of the invention is to improve the accuracy when extending the range of measurements by reducing the error in fixing the edges of the tape to be tested.

The drawing shows a block diagram of a device for measuring the thickness of a ferromagnetic tape.

The device contains two transformer sensors 1 and 2, each of which contains respectively magnetowires 3 and 4, measuring windings 5 and 6, series-consistently connected, windings 7 and 8, series-counter-connected, windings 7 and 8, series-according windings 11 and 12 excitement.

The device also contains an AC power supply 13 connected to the windings II and 12 of the excitation, a multiplier-dividing unit 14, whose inputs are connected to the compensation windings 7, 8 and 9, 10, and rectifier 15, one diagonal of which is connected to the measuring windings. windings 5 and 6, and the second diagonal

connected in series with the output

Multiply the fuser 14, intended to be connected to an indicator (not shown).

The controlled magnetic tape 16 is placed in the gap between the magnetic conductors 3 and 4.

The device works as follows, at a time.

When the tape 16 is placed exactly in the middle of the working gap, the voltage is constant in magnitude, which is uniquely related to the tape 16 thickness. When the tape 16 is laterally displaced in the working gap in the direction of one of the magnetic cores 3 or 4, the EMF E is the sum of the EMF E j and E (at the terminals of the measuring windings 5 and 6, increases despite the fact that the thickness of the tape is unchanged. To correct the indicated measurement error, this device provides for the formation of a compensating voltage LU, which is carried out as follows. Differential

the value E, - E from the clamps of the compensation windings 7 and 8 is fed to the parallel-connected inputs x and the multiplier-divider unit 14. The total value of E, + E, from the clamps of the compensation windings 9 and 10 is fed to the division input z of the arithmetic unit 14. Multiply division unit 14 performs a math operation

Y.Y, (E,: E,) 1

V

E, + E, „

15

20 25

thirty

five

Q

0

five

The coefficient K depends on the ratio of the turns of the measuring and compensation windings and is determined as follows. The measuring tape is set exactly in the middle of the working gap. The coefficient at this point is set to zero. The indicator reading (not shown) when the tape is in the middle of the measuring gap in this case has the same value. This reading is fixed, then the tape is shifted relative to the middle of the working gap and, by changing the coefficient, a fixed indicator reading is set. At the same time, the output voltage V depends only on the thickness of the tape being monitored and does not depend on its transverse displacement for any thickness of the tape being measured.

Formulas of the invention

A device for measuring TOLECINES of a ferromagnetic tape, containing two identical transformer converters fixed and separated by a working gap, each of which consists of a U-shaped magnetic conductor and exciting, measuring and compensating windings placed on it, an AC power source connected to the series-connected connected exciting windings, and the rectifier, the output of which is the output of the device connected to the series-according to the connected measurements Yelnia windings and compensation coil are connected sequentially-nstrechno, characterized in that, in order povppeni accuracy in the measurement range, it is provided with reprographic-delitepnym unit, two inputs of which are connected to the multiplying compensation obmot313721834

cam, with two additional compensations to the input of the division by multiplying-dividing windings connected by a fixed block, the output of which is series-consistently connected and connected to the rectifier.

Claims (1)

Formula of the invention A device for measuring the thickness of a ferromagnetic tape, containing two identical transformer transducers installed motionless and separated by a working gap, each of which consists of a U-shaped magnetic circuit and excitation, measuring and compensation windings placed on it, an AC power source connected to in series according to the connected exciting windings, and a rectifier, the output of which is the output of the device connected to series in accordance with measuring windings, and the compensation windings are connected in series and opposite, characterized in that, in order to increase accuracy when expanding the measuring range, it is equipped with a multiplier-divider unit, two multiplication inputs of which are connected to compensation windings 1372183, two additional compensation windings connected in series - according to and connected to the input of the division of the dividing-dividing unit, the output of which is connected in series with the rectifier.