SU1642255A1 - Weighing device - Google Patents

Abstract

This invention relates to a weight measuring technique. The sensor allows measurements with increased sensitivity and noise immunity due to the introduction of a second pair of ferrosensitive elements placed relative to the first pair at a distance equal to half the magnet length, with the ends of the output windings of the ferrosensitive sensors placed on one side of the magnet, merged. 1 il.

Description

The invention relates to weighing technology, and more specifically to the measurement of the mass of products in measuring rotors.

The purpose of the invention is to increase the sensitivity and noise immunity of the sensor.

The drawing shows the scheme of the proposed weight measuring sensor.

The sensor contains a source of 1 constant magnetic field (permanent rod magnet, magnetic carrier with a magnetic mark on it) attached to an elastic element (not shown), the first pair of ferrosensitive elements 2 and 3, the output windings of which are connected in a differential circuit, the second pair ferrosensitive elements 4 and 5, the output windings of which are also connected in a differential circuit, the first and second pairs being placed one relative to the other at a distance I / 2 equal to half the length of the source of constant of the magnetic field, with the ends of the output windings of ferrosensitive elements 2 and 4 combined, and the beginning of the output windings of ferrosensitive elements 3 and 5 are connected to the amplifier. All ferrosensitive elements have excitation windings fed from a periodic oscillation generator with frequency fe.

With a measured mass Tx 0, the first and second pairs of ferrosensitive elements 2, 3 and 4, 5 are located symmetrically with respect to the axis of the np magnetic neutral and in the middle of the linearity subbands of the readable vertical components of the external field magnet HB1 or HB2.

The sensor works as follows.

At tx 0 on the output windings of each ferrosensitive element there will be identical signals in size, and between the beginnings of the output windings of ferrosensitive elements 3 and 5 the total signal will be equal to zero.

When measuring the mass mx, due to the deformation of the elastic element, the source 1 of a constant magnetic field is displaced along the ferrosensitive elements 2, 3, 4 and 5 by a distance proportional to mx. In this case, the same incremental value appears at the output of each ferrosensitive element, and the sensor output signal will be equal to four times the increment value of the signal of one of the ferrosensitive elements.

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ate

At the same time, the placement of ferrosensitive elements ensures that the output signal of the sensor does not change when it is subjected to a uniform magnetic field of interference, when the permanent magnet oscillates along the pn line or at its angular vibrations relative to the 0-0 axis, which significantly increases the noise immunity sensor.

These advantages make it possible to use the proposed sensor to measure the mass under the conditions of disturbing influences with increased sensitivity, which determines the economic effect.

Claims (1)

Invention Formula The weighing sensor containing the source of the magnetic field is located five Between the first pair of ferrosensitive elements, the output windings of which are included in a differential circuit, characterized in that, in order to increase sensitivity and noise immunity, a second pair of ferrosensitive elements, the output windings of which are also included in the differential circuit, are added to it moreover, both pairs of ferrosensitive elements are placed one relative to another at a distance equal to half the length of the source of the magnetic field, and the ends of the output windings of the fer The sensitive elements located on one side of the source of the magnetic field are combined. ъ. fe