SU93593A1 - Magnetoelectric Dynamometer - Google Patents

Description

A significant disadvantage of the known magnetoelectric dynamometers is their lack of a linear relationship between the measured force and the current passing through; in the electric meter indicating the 1st device.

In the proposed microelector; ; bor.

FIG. } drawing shows a diagram of a magnetoelectric dynamometer; in fig. 2 curves of current changes.

To the rocker arm 1 of the magnetoelectric dynamometer, the plate 2 plate with contact 3 is attached. The other contact 4 is fixed still on the dynamometer housing.

The magnetoelectric balancing system of the dynamometer consists of a fixed wire frame 5 attached to the plate 2

the magneton b and the core 7, as well as the pole tip 8.

The operation of the magnetoelectric dynamometer is as follows.

When the hook 9) w is loaded, the contacts 3 to 4 are open and the current passing through the pointing device 10 will be zero.

When applied to the hook 9, the measurement: the power of the lower 1-stroke 3 moves up and connects to the fixed; contact 4.

In this case, the current source II will be included in an electrical circuit consisting of a pointing device 10, inductance 12, wire frame 5, resistance 13, rocker arm 1 and knife 14 with a pillow 75.

As is well known, in an electrical circuit consisting of series-connected inductances and resistances, the current is established not instantaneously, but according to the law defined by curve 16 (Fig. 2). Changing by this law, a current of this magnitude is reached (in Fig. 2, about 85% of the maximum value) at which the interaction force of the current in frame 5 and the flux of the magnetic system.

moving the kagnpt system and the right arm of the rocker arm down will become more force applied to the hook 9.

In this case, the pole / open contacts 31-14 and the current in the circuit of the device will begin to fall lio curve 17 (Fig. 2). When the current of frame 5 drops to such an extent that the force of its interaction with the magnetic flux will be less than the force applied to the hook, then contacts 3 and 4 will close again and the action will be repeated again.

Thus, a pulsating current will flow through the pointing device W,

curve 18, the average of which depicted by curve 19 will be proportional to the flax force applied to the hook 9.

Subject invention

Magnetoelectric dynamometer, o t,; and in order to obtain a linear relationship between the applied force and the strength of the current flowing through the measuring device, the sensitive element of the device is made in the form of a balancing magnetoelectric system.