DE698119C - Relative current receiver for remote pointer - Google Patents

Description

Ratio current receiver for remote indicators Remote indicators are known which consist of a resistance transmitter and two-coil ratio current receivers. Two partial voltages tapped by the encoder at a voltage divider are transmitted via the long-distance lines fed to the two coils of the receiver armature, which is in one Magnetic field. The setting of the receiver anchor depends on the ratio of the in the two armature coils flowing currents, and each position of the encoder is a position of the recipient is clearly assigned. The one for the two receiver coils common return is usually either to the middle of the encoder resistor returned or placed in the middle of the field winding of the receiver electromagnet. The latter must in this case be low-income, otherwise the middle will be under the influence the armature coil currents shifts. This results in a large one for the field supply Power consumption.

In the practical application of the remote indicator systems, in addition to the achieved accuracy and the straightening moments occurring at the receivers as well the consumption of electrical power and the number of connection lines required between donor and recipient is of great importance. One has therefore already to the effort required reduce the field in the receiver in place of the fed field windings generated by a permanent magnet. Then, as mentioned above, the coil ends must returned to the center of the encoder via a special cable will. Since one also has to feed the supply network to the receiver for the Scale illumination and for other purposes (e.g. for an acknowledgment transmitter set up there) you can usually not do without, so you have to use a permanent magnet about 41; saved in electrical power, but one more wire relocate. The other way out, the coil ends to one through a cross resistance Leading the center created to the power line at the receiving point has the consequence, that practically the same amount of power is consumed by this transverse resistance is as before for the field supply, since it is to be dimensioned very small so that it The middle still holds even if the load on the receiver coils is very unequal. the savings achieved by replacing the electromagnet with the permanent magnet is therefore lost again.

The present invention proposes a two-coil ratio current receiver before, the opposite in the event that the feed network is carried out to the receiver the previous either saved a supply wire or depending on their design the aforementioned disadvantageous attachment of a power-consuming transverse resistor avoids. The receiver has two preferably perpendicular to each other Wash. Each coil has two windings. These are both associated with that of the coil Long distance transmission line - connected, but lead to different poles of the dated Encoder after the receiver carried out feed line and have, mutually opposite Winding sense, so that when the same current flows through both, the resulting Coil field is zero.

The figure shows the circuit for the ari receiver connected to a known transmitter. The, as usual, designed as a voltage divider G is z. B. fed from the network ± V. The two partial voltages tapped by the brushes Bi, B. are applied to the long-distance transmission lines Li, L. The receiver E is indicated by the two mutually perpendicular coils S1, S. which rotate in the permanent field iVS. In the case of coil S, winding a is connected to the long-distance line L1 and the positive pole of the network, winding b is connected in the opposite direction to L1 and the negative pole of the network. In the coil S = the winding c is connected to the long-distance line 4 and the positive pole and the 'R'iclaung (l with L = and the negative pole of the network. If the brush Bi is now in the middle of the voltage divider, the two flow through them Windings a and b of the coil S, currents of equal magnitude that cancel each other out. If the encoder is rotated and the brush Bi approaches the positive feed tank, for example, the current through the winding a decreases and that through the winding b to, the resulting number of ampere-turns of the coil increases until finally the brush Bi gets the full positive voltage, the winding a is short-circuited and the full current flows through -b. If the brush B moves from the middle to the negative feed point , so the windings a and b swap their roles and the direction of the resulting coil field is reversed. The same applies to the brush B. offset by go ° to the brush 13i and the coil S._. The remote pointer arrangement ar So works exactly like the known arrangements.

The proposed recipient is advantageous even if it is equipped with an electromagnet instead of a permanent magnet. In In this case it is possible to use the winding for the generation of the electromagnetic Field are carried out very high-resolution, so that compared to the known receivers again either a supply wire is omitted or there is electrical power is saved.

The new receiver is of course also available for AC remote pointers applicable. In this case, however, the permanent magnetic field is through one of the To replace the alternating current source of the encoder generated magnetic alternating field.

Claims (1)

PATENT CLAIM: Two-coil ratio current receiver for remote pointer, characterized in that the two coils (Si, S.), which are preferably perpendicular to one another, each have two windings with opposite winding directions (a, b or e, (l), at one end of which the Long-distance line (L1, L @) and at the other end of which the encoder power source is connected.