SU559125A1 - Electromagnetic Balance Scales - Google Patents

Description

The invention relates to weighing technology. An electromagnetic equilibrium balance is known, comprising a rocker equipped with a deflection sensor and a compensator 1. 2 Various types of differential transformer displacement sensors are also known. The closest in technical essence to the present invention is a device containing a beam on which the flag of a differential-transformer deviation sensor connected to the electrical display and registration circuit and the compensator of deviation 4 is fixed. The known device does not provide the required accuracy and speed due to the small linearity of the characteristics of the deviation sensor. The purpose of the invention is to improve the accuracy and speed of scales with electromagnetic balancing. To do this, in the proposed device, a differential-deviation deviation sensor is formed in the form of four coils placed inside cylindrical half-hearts of armored TVP, mutually reinforced in pairs in a cage coaxially on two parallel axes with open sides towards each other and with aajsf me, in which the flag is placed, at the same time, the aipopnei flag is equal to the distance between the axes in which the coils are fixed, with the ocosa pair of coils connected to the high-frequency generator, and the coils of the other pair are loaded and rectifiers are connected in a balanced bridge circuit. FIG. 1 shows the balance arm with elements fixed on it; on fgg. 2 - deviation sensor; in fig. 3 - electrical circuit of the scales. The rocker 1 is made in the form of a rigid form and is equipped with pendants 2 carrying bowls 3 for cargo and weights (not shown in the drawing).

The crust-1 is filled with a sensor -9 deviating a differential-transformer type, (| step | 5 of which is rigidly connected with the rocker 1, a compensator of magkito electric type, containing a permanent magnet 6 and a winding 7, rigidly clamped crust: Sensor 4 contains a ferrule 8, inside of which there are four or four half-cores of armor type 9 with coils, half-cores, and two open sides towards each other, and in the gap between them freely moves flag 5, the width of which is equal to Eia to the distance between the axes 11. Checkbox Completed from non-magnetic metrhlad and apprv: - measure with pus 1 and.

One coil 1O wires 12 is connected to the generator 13 high frequency; Each of the katuzlek 10s of the other pair of prooodems 14 is connected respectively to cables 15 and 16, which are connected to a variable resistor 17. In a single pivot-weight bridge, the diagonal of which is connected to the input of the amplifier 19 of the positive feedback through the corrective link IS.

Scales are supplied with secondary reading 20 to registering 21 devices.

Scales work as follows.

The PPGG overlaying the mass on the bowl 3, through the sub-wrist 2 of the yoke 1, is transmitted the change of vratal of its moment and it. turning, moves the flag 5 of the sensor 4 with respect to pairs of half-cores 9 with coils Yu

In this case, in one of the coils, the high-frequency electromotive voltage induced by the generator 13 from the oscillator increases, and on the other, the corresponding CST8CO decreases. Induced EMF detektiruystse separately, smoothing out and framekvaggshgs then on a variable resistor according to the scheme of difference of currents.

The diagonal circuit through the corrective element 13 is connected to the input of the amplifier 19; Permanent current is up to mmg-ga, pitch is its value converted by compensator; from a permanent magnet 6n winding 7 in vrG: .ccd (th moment, i-i will reach a value that is not compatible with a full copy; disturbance effect. The magnitude of this effect is directly proportional to the current and is recorded by secondary devices 20 and 21.

Thus, the sensor has a maximal 5% linearity zone, the output characteristic, since when overlapping a kaiy pair by half its diameter, the operating point is located at the intersection of the abscissa and ordinate axes and allows maintaining symmetry

10 equal-arm rocker arms, which also contributes to improved measurement accuracy.

Claims (4)

1. Sakharov, A. I., Scales in physico-chemical studies, Nauka, Moscow, 1968, p. 34, 35, 54, 55. 2, Copyright, certificate No. 359528, Cl. G-O1 G 23/36, 1970. M. 3.Lejkin DI Sensors of control and ret-lining, Mechanical Engineering, Moscow, 1965, pp. 93-97. 4. Author's testimony; to K 3655S.i, M.K.T. G 01 Q 23/36, 1971 (prototype). five FIG. 2 jz and 559125 7 -AND J D-С Tj Fig.Z