SU401893A1 - in PTB i - Google Patents

Description

one

This invention relates to a weight measuring technique.

Electronic automatic scales are known that contain a high-frequency generator associated with an inductive displacement sensor of a magnetic suspension system, attached to a magnet that interacts with a solenoid, whose circuit includes measuring instruments and an amplifier.

The proposed scales differ from those known in that they are equipped with a degaussing unit for a magnetic solenoid solenoid, made in the form of a coil, inductively connected to the solenoid and connected to a constant voltage source and a capacitor through a switching element controlled by a comparator. This improves the accuracy of the scales.

The drawing shows a block diagram of the proposed weights.

The balance contains a variable voltage regulator 1 and constant voltage regulators 2 and 3.

An inductive sensor 5 is included in the grid circuit of the high-frequency generator 4. The solenoid 6 with the core 7 and the magnet 8 form a magnetic suspension bushes for hinges. The magnet 8 is located under the cap 9 and is in a raised state.

A discriminator serves to transform and amplify the signal of the inductive sensor 5.

10, damper II and amplifier 12. The unit 13 serves for measuring and recording the current of the solenoid 6, and to compensate for the initial weight of the magnetic suspension, the cups and the hinge are the source

compensation voltage 14.

The demagnetization unit 15 includes a coil 16, inductively coupled to the solenoid G and connected to a source of constant voltage 17 and a capacitor 18 via a switching element 19 controlled by a comparator 20 through a winding 21. A capacitor 22 is also connected to the switching element 19.

Scales work as follows.

The current flowing through the solenoid 6 creates a constant magnetic field around the latter and magnetizes its core 7, to which the magnet 8 with a hinge tends to attract. Under the influence of magnetic forces,

The body weight and weight of the hanger magtest 8 moves up or down relative to inductive sensor 5, the coil of which is a part of the resonant grid circuit of high-frequency generator 4. Moving magnet 8 relative to inductive sensor 5 leads to a change in the output voltage amplitude of the discriminator the frequency of the high-frequency generator 4 to the DC signal, which is fed to the damper 11. The purpose of the damper is I -provision in the solenoid 6 s lagging current proportional to the speed of movement of the suspended system. The signal from the damper II is fed to the DC amplifier 12, where it is amplified and fed to the solenoid 6. Thus, the current of the solenoid 6 changes depending on the weight of the pavetes. This change is recorded by the block 13.

Improving the accuracy of the weight measurement is provided by the degaussing unit 15, eliminating the residual magnetization of the elements of the magnetic suspension of the balance.

When a magnetic disturbance solenoid 6 appears in the magnetic circuit from an operating magnetic disturbance disturbance in the coil 16, a current pulse is induced, which is fed to the comparator 20, in the executive circuit of which the winding 21 of the switching element 19 is connected, the contacts of which are connected through a capacitor 18 to a constant voltage source 17 by the delay time t. Moreover, the current form in the circuit of the coil 16 is sinusoidal. After the discharge of the circuit is completed, the capacitor 18 - coil 16 of the contacts of the switching element 19 comes to an initial state, and a current pulse is induced in the coil 16 by a value less than the initial amplitude, which starts the comparator 20 in the opposite direction. This process is repeated until the value of the demagnetizing component becomes less than the sensitivity threshold of the comparator 20, the setting of which corresponds to the accuracy class of the balance.

Thus, when the balance is operating in the maximum sensitivity range and in the automatic discrete mode of the block 15, the component flows through the roller 16 only when there is an extra-perturbing effect of the transient process. The thrust force from the variable component in solenoid 6 affects the accuracy of the weight measurement in a short period of time, immediately following the operational disturbance of the magnetic field.

suspension and does not affect the accuracy of the weight measurement.

Subject invention

Electronic automatic scales containing a high-frequency generator associated with an inductive sensor for moving a magnetic suspension assembly, attached to a magnet that interacts with a solenoid,

the circuit of which includes measuring devices and an amplifier, characterized in that, in order to increase accuracy, they are equipped with a demagnetizing unit of a magnetic suspension solenoid, made in the form of a coil,

inductively coupled to the solenoid and connected to a constant voltage source and a capacitor via a switching element controlled by a comparator. J