SU714293A1 - Multi-revolution contact-free potentiometer - Google Patents

Description

(54) VARIABLE NONCONTACT POTENTIOMETER

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714293 winding windings, sections of one of which are made in two sections in pairs placed at an angle, LL relative to each other and interconnected in series-counter, with additional two-section compensating, windings interconnected in series with each other in a consistent manner with additional compensating windings that are located / on the ferromagnetic rod in pairs symmetrically with respect to the central ferromagnetic ring and are shunted by normally closed relays which are included in the winding circuit of the measuring coil. The drawing shows the structures in the circuits of a multiturn contactless potentiometer. The device contains a stationary cylindrical magnetic circuit 1 with D1vum end Ferromagnetic rings 2 and 3, a central movable ferromagnetic rod 4, in the center of which a central ferromagnetic ring 5 is rigidly fixed, in which four holes are made along its perimeter and placed 90 degrees relative to each other through which the compensating winding 6 and the additional compensating windings 7, 8 and 9 are passed. Each of these windings consists of two sections located on both sides of the ferromagnetic h th ring-connected oppositely been consistent, and the windings themselves are interconnected successively, according. In addition, four additional auxiliary coils are included sequentially. 18 and 19 respectively. . . At the output of the phase-sensitive amplifier, a reversible motor 21 is connected, kinematically connected with a central movable rod, on which a two-section measuring winding 22 of which is connected in series to each other, is mounted. Moreover, they are located at the end ferromagnetic rings, and they include windings of the relay (magnetically controlled). Identical windings 23 and 24, 25 and 26, located on both sides of the ferrite of the electromagnetic ring, are interconnected by a bridge circuit so that the opposite shoulders of the bridge include windings located from the side of the ring, all the windings of the bridge are very short so that they create the central movable rod according to the directed magnetic fluxes, and the measuring and compensating windings create oppositely directed fluxes. The device works as follows. The signal from the output of the bridge is fed through a phase-sensitive amplifier 20 to a reversing motor 21. In the absence of measurable and compensating currents, no signal is output at the output of the bridge. When a measured current is supplied to the measuring winding 22 in the central movable Ferromagnetic rod 4, a magnetic flux is created which is directed according to the flow from the windings 23 and 24 of the bridge, located on one side of the ferromagnetic ring 5, and counter flow from the other two windings 25 and 26 located on the other side of it. As a result, the impedances of the adjacent arms of the bridge will become different, and at the output of the bridge circuit, a signal will appear that is directly proportional to the measured current. Under the influence of its reversible motor 23 rotates a ferromagnetic rod with a Ferromagnetic ring 5 and windings 6,7,8 and 9 to that side and until the difference in fluxes from the measured and compensating currents becomes zero. In case of further growth of the measured current, the relay 18 is triggered, which simultaneously opens its normally closed contacts 14 and I5j and a pair of additional windings 10 and 11 comes into operation. The central movable ferromagnetic rod 4 returns to the initial value and the whole process repeats but already another measurement range, for example, a pulse counter (not shown). Then, in a similar way, a pair of additional windings 12 and 13 comes into operation when relay 19 trips, opening its normally closed contacts 16 and 17. The alternating current is measured in the same way without additional adjustment of the device. . . 13 of the proposed device, the angle of rotation of the central movable ferromagnetic rod 4 is repeatedly used, thereby expanding the range of compensated current measurement, and the identity of the output parameter readings for eir-o increase and decrease is provided by the choice of relay (polarized, magnetically controlled, non-contact ), whose trigger and release points almost coincide.

Claims (1)

Claim . A multi-turn non-contact potentiometer containing a fixed cylindrical magnetic circuit and a movable ferromagnetic rod placed inside it with a central ferromagnetic ring fixed on it and 5 with two end ferromagnetic rings, a two-section compensating winding, the sections of which are located on the movable ferromagnetic rod — 20 magnetic rod symmetrically with respect to the central ferromagnetic coil ! a pie, a two-section measuring winding, sections of which are also located on the end ferromagnetic 25 rings, o Leach in that, in order to increase the linearity of the output characteristics and expansion of the measuring range, it relays and introduced additional compensating winding, the sections of which one, two sectional executed, are arranged pairwise at an angle of ^90? relative to each other and interconnected sequentially in opposite directions, with additional two-section compensating windings interconnected sequentially - according to and sequentially - opposite to additional compensating windings, which are located on a ferromagnetic rod in pairs symmetrically with respect to the central ferromagnetic ring and are shunted by normally-closed relay contacts, windings of which are included in the measuring winding circuit.