SU475558A1 - Compensating element - Google Patents

Description

one

The invention relates to electrical measuring equipment, in particular, to the measurement of direct and alternating currents by a compensation method.

Known compensating elements containing shaped magnetic, four windings of inductance, triangular and additional winding.

However, these elements have a reduced sensitivity due to the successive and counter-switching of the two windings, as well as reduced accuracy due to the influence of residual magnetic induction, since the side rods of the moving magnetic core do not overmagnetize, but are magnetized constantly in one direction due to the influence of external magnetic fields. chains.

The aim of the invention is to reduce the influence of external magnetic fields and residual magnetic induction on the measurement result.

For this, the four windings of inductances are interconnected according to, connected according to a bridge circuit and placed on the magnetic circuit so that the magnetic flux created in them by alternating current passes through the entire magnetic conductor, and the additional winding is made of two in series and according to the included sections symmetrically located relative to triangular winding.

FIG. 1 shows schematically the projections of the proposed compensating element, and FIG. Figure 2 shows an electrical circuit for connecting its windings inductances.

The compensating element contains a stationary flat triangular winding 1 and a movable O-shaped ground magnetic core 2, which is wrapped around a triangular winding. At the ends of this magnetic circuit symmetrically with respect to the triangular winding windings 3, 4, 5 and 6 inductances are placed. The windings of the inductances are connected according to and included in the bridge circuit, in one diagonal of which a stable AC source is included, and the output signal is taken from the other diagonal. An additional winding 7 is also placed on the 0-shaped magnetic core, consisting of two in series and according to the included sections.

When measuring the direct current, the latter is fed to the winding 7, and a stable compensating direct current is passed through the triangular winding. The compensating direct current creates a constant magnetic flux in the movable magnetic core, which, by moving the magnetic core, can vary both in magnitude and in direction.

In the absence of measurable and compensating direct currents winding 3, 4, 5, 6

have the same inductance, so the bridge will be balanced.

When a measured direct current is fed to the winding 7, it creates a constant magnetic flux, the path of which is shown in FIG. 1 dotted lines. This stream in one case is added to the currents created by the currents in one pair of windings of inductances (for example, as shown in Fig. 1 windings 5 and 6), and in the other is subtracted. As a result of the inductance of the windings 3, 4, 5, 6, the equilibrium of the bridge is disturbed, and a signal appears at its output. When applying a constant compensating current to the winding 1, moving the magnetic circuit 2 so that the compensating flow is directed against the flow created by the measured current, it is possible to achieve equal measured and compensating ampere turns. As a result of the inductance of the windings 3, 4, 5, 6 will become the same, the bridge will be balanced and the signal at its output will become zero. The magnitude of the measured current is judged by the magnitude of the movement of the moving magnetic circuit.

Since the inductance windings are connected in a bridge circuit, the compensating element has an increased sensitivity and is free from the influence of external magnetic fields. And since the total magnetic flux created by alternating currents in the windings of the inductances passes through the entire moving magnetic circuit, the error from the residual magnetic induction is excluded in the compensating element.

When measuring an alternating current, the winding 7 is used as an excitation winding, and the measured current is compared with the current created by the ed. with. induced in a triangular winding. In this case, windings 3, 4, 5, 6 are not used.

Subject invention

A compensating element containing a shaped magnetic core, four windings of inductances, triangular and additional windings, characterized in that, in order to reduce the influence of external magnetic fields and residual magnetic induction on the measurement result, the windings of the inductances are interconnected according to each other, are connected in a bridge circuit and are placed on the magnetic circuit so that the magnetic flux created in them by alternating current passes through the entire magnetic circuit, and the additional winding is made of two in series and according to heaters when not operating sections arranged symmetrically relative to the triangular winding.

/one

I