SU99482A1 - Automatic recording electromagnetic scales - Google Patents

Description

The known automatic recording scales with feedback, equipped with a photoelectric follower and a balancing electromagnetic device, creating a restoring moment that prevents deflection of the rocker arm from the equilibrium position, do not ensure complete independence of the readings from changes in the parameters of the supply circuit, as well as individual elements of the conversion and amplifying device. .

The proposed automatic recording electromagnetic scales are free from the indicated drawback, since their constant readings are achieved by the fact that the end of the ferromagnetic core is placed in the constant-ty zone of the solenoid.

FIG. 1 is a schematic diagram of the proposed weights; in fig. 2 - the characteristic of the relationship between the traction force of the solenoid and the position of the end of the permanent magnet in the solenoid.

With one arm of the rocker arm (Fig. 1) the weighing pan is articulated, and with the other, the ferromagnetic core 2 placed in the solenoid 3. The core is equipped with a gate 4 regulating the intensity of the light flux coming from

the light source 5 to the photocell 6, which controls the anode current of the lamp 7. A recording device 8 is connected to the anode circuit in series with the power source and the solenoid.

When the rocker arm moves / from the equilibrium position, the damper 4 changes the luminous flux of the lamp 5 incident on the photocell 6. The anode current of the lamp 7 passes through the solenoid 3, in which there is a ferromagnetic core 2 pulled in by the magnetic field inside the solenoid. When the light flux changes, the anode current of the lamp 7 changes and acts on the magnetic core 2 to drive the balance into equilibrium. To eliminate oscillations, the scales must be well damped.

The recording device 8 reflects the change in weight.

In general, the current flowing through the solenoid depends on the change in weight, which is balanced by the pull force of the solenoid, on the change in the position of the core inside the solenoid, as the pull force of the solenoid varies depending on the position of the core, and on the mechanical forces that return the scales to the starting position.

In the weights under consideration, the current in the solenoid is determined only by weight, since a change in the position of the magnetic core of the solenoid is not affected by the placement of the end of the magnetic core in the region of the solenoid's unloading pull (Fig. 2) when the magnet immersion length is approximately 61% lengths

The pull force of the solenoid, which engages the core in the form of a permanent magnet, is directly proportional to the amperage; Thus, the instrument scale included in the anode circuit is linear in. relation to the measured weight increment.

The change in light intensity, emission and filament of the cathode of the electron tube and the change in the resistance of the solenoid do not affect the meter reading, as long as the magnet end remains in the zone of constant thrust, because when, for example, the light intensity of the lamp 5 decreases, the gap 4 The core 2 is slightly moved so as to increase the amount of light incident on the photocell 6, and the current strength will not change, since the core 2 will not leave the zone of constant gravity.

Subject invention

Automatic recording electromagnetic scales using negative feedback made in the form of a photoelectric device, the follower of which controls the work of the restoring body, made in the form of a solenoid with a ferromagnetic core placed inside it, associated with the balance arm and resulting from interaction with the magnetic field solenoida recovery moment, preventing the deviation of the rocker from the equilibrium position, differs, in that, in order to eliminate the influence of changes in the parameters of the power supply circuit, photocell and radio tube, the end of the ferromagnetic core is placed in the zone of constant solenoid g.