SU1345061A1 - Electromagnetic balance - Google Patents

Abstract

This invention relates to a weight measuring technique. The purpose of the invention is to improve accuracy. The current generated by the balanced amplifier 10 flows successively along the winding 9 of the compensation electromagnet 7 and through one of the control windings of the magnetic amplifier 12. The armature 6 interacts with the current of the winding 9 and returns the beam 1 of the balance to the position close to the initial force. The magnitude of the current through the winding 9 is proportional to the controlled mass. If the reading of the device 13 is less than or greater than the specified value, then the controller 14 connects the control winding with a smaller or larger number of screws. 1 il. TlLLLLl H C S H -C - - -

Description

This invention relates to a weight measuring technique.

The purpose of the invention is to improve accuracy.

The drawing shows a schematic diagram of weights with electromagnetic balancing.

The scales contain a yoke with a load-receiving platform 2 and 3, which incorporates the core 4 of the differential-transformer displacement sensor 5 and the measur 6 of the compensation electromagnet 7, the windings 8 and 9 fixed and interacting with the core 4 and core 6, balanced amplifier 10, unit 11 for commutating switches, measuring magnetic amplifier 12 current, measuring device with output signal device 13, controller 14, current source 15.

The winding 8 of the displacement sensor 5 is connected to the input of the balanced amplifier 10, the output of which is connected in series with the winding 9 of the compensation electromagnet 7 and through the switching keys 11 to one of the control windings of the magnetic amplifier 12 ,. the output of which is connected to the measuring device 13. The control windings of the magnetic amplifier 12 are made with a different number of turns, but with equal active electrical resistance.

The switching keys 11 are controlled by the controller 14 connected to the output signal device of the measuring device 13. One of the control windings of the magnetic amplifier 12 is connected to the adjustable current source 15 and is used to set the indication of the device 13 to zero.

In principle, the number of control windings can be any, depending on the required number of measuring ranges.

Elements of power, stabilization and damping are not shown in the diagram. Scales work as follows. When the controlled mass on the load-receiving platform 2 changes, the beam 1 and the core 4 of the differential transformer sensor 5 deviate from the initial position. This causes the appearance of an electrical signal, which is fed to the input

12

balanced amplifier 10. An electric current generated by it flows successively through the winding 9 of the compensation electromagnet 7 and through one of the control windings of the magnetic amplifier 12. Anchor 6 interacts with the current of the winding 9 and returns the beam 1 of the balance to the position close to the initial force.

The magnitude of the current through the winding 9 is proportional to the controlled mass. The output current of the magnetic amplifier 12 is proportional to the current flowing along the control winding and its number of turns. This current is measured by the device 13. If the reading of the device 13 is less or greater than the specified value, the controller 14 connects the control winding with a smaller or more number of turns. In this case, the active resistance of the output circuit of the balanced amplifier 10 does not change and its output current does not branch out, since there are no parallel circuits.

Claims (1)

Invention Formula Imps with electromagnetic balancing, containing a yoke, one arm of which is connected to a weighing device, and the other with moving elements of a compensation electromagnet and a deflection sensor connected to the input of a balanced amplifier, a measuring range switching unit and a measuring device with an output device that differs and e with the fact that, in order to increase accuracy, they have entered keys, the number of which is equal to the number of measurement ranges, and the controller, and the measuring range switching unit is made an amplifier with control windings made with equal resistance, but with a different number of turns, which are connected via keys to the output of the balanced amplifier in series with the compensation electromagnet winding, and the output of the magnetic amplifier is connected to the measuring instrument, the output device of which is connected to the controller, the output of which is associated with the control inputs of the keys.