DE712837C - Remote pointer system with an exemplary ring-shaped resistor as a transmitter and a cross-coil instrument as a receiver for direct or alternating current - Google Patents

Description

Remote pointer system with a preferably ring-shaped resistor as Transmitter and a cross-coil instrument as a receiver for direct or alternating current In the main patent, a remote pointer system is described, which consists of an annular Resistance as a sender and a cross-coil instrumentation event (ratio current indicator) as Recipient exists. In addition to the usual two, the encoder bears 90 ° offset from one another Brushes B1, B2, which the voltages to be fed to the receiver on the ring-shaped Pick up resistance, two further diametrically arranged auxiliary brushes Hl, H2, those with the first-mentioned officers while maintaining a constant mutual Distance and which are bridged by an electrical resistance R1, R2 whose ohm value is equal to the ohm value of the two receiver coils and of which Middle is connected to the common return line L3 of the same. Through the attachment the auxiliary brushes Hi and H2 and their. Bridging resistance F21 and R2 is avoided, that the electrical center point of the encoder resistance is due to unequal current load the resistance parts move. Such a shift would have an unevenness the scale division on the recipient, which in principle does not result Adjustment of the individual encoder resistance levels can be eliminated.

This remote pointer system with four-brush encoder still has the disadvantage that with long transmission lengths due to the voltage drop in the two receiver coils common Return line Lg the evenness of the receiver scale division into question again will. Namely, as in Fig. I of the main patent for the brushes B2 and Bl roughly shown- * i; *:.: one of the transmitter brushes on full voltage "and the other in the middle of the voltage divider, then flows through one of the two receiver coils (in the example the coil A2) a very large current, while the coil A1 is de-energized should be. As a result of the voltage drop in the common receiver return L3, however, the receiver coil A1 is not at zero voltage because it is in the supply line there is not the same voltage drop across coil A1 as in the return line Ls. The coil Al is therefore not, as required by the encoder setting, currentless. The display error caused by this can just as little as the due to an unequal load on the sensor resistor parts caused by balancing of the resistance levels on the tea side. You can see the voltage drop in the receiver return and thus the error caused by it due to the large dimensioning of the cable cross-section keep it low. In the case of long transmission lengths, however, this measure leads to a no longer acceptable cost of line material.

For cases where the most accurate possible long-distance transmission over large Entiernungen arrives, is therefore proposed according to the invention, that of the auxiliary brushes Ni and H. lines leading to resistors R1 and R2 up to the receiver perform, connect there with the center of the coil and the previous joint Omit the return line for the two receiver coils to the center of the encoder.

The concept of the invention is illustrated by the circuit diagram shown in the figure. From the resistance transmitter G, which is equipped with four brushes d, e, f, g as before, the long-distance lines 1, 2, 3, 4 lead to the receiver F '. The coil A of the receiver is connected to the trunk line i, the coil B to the trunk line 2. The connection point C of the ends of the two receiver coils is routed to the center of the resistor R1, R2 via a brush (not shown); a connection between the coil center C and the transmitter center M no longer exists. The resistances R, and R. are again equal to the resistances of the receiver coil A, B. As can be seen, due to the symmetrical design of the arrangement, the potential of point C is always exactly the same as the potential of point M of the transmitter center, even if in den @: isen 1, 4 and 2, 3 were called different currents. As in the main patent, the encoder resistance is loaded symmetrically in every brush position.

The resistors R1 and R2 can be placed anywhere in the long-distance lines 3 and 4, in particular they can be made by suitable, small cross-sectional dimensions the cables or by choosing a cable material with a suitable specific Resistance to the lines constantly distributed or replaced by them.

A comparison with the subject matter of the main patent shows that the The present proposal requires another line from the transmitter to the receiver. at long transmission lengths is the total with the same display accuracy The cable cross-section to be laid between the transmitter and receiver is smaller, in particular then, if, as suggested, the resistors R1 and R2 by small cross-sectional dimensions of lines 3 and 4 replaced. In addition, a metal from low -electrical conductivity can be used, a fact that occurs in the Transmission over long distances is particularly advantageous.

Claims (2)

PA'rNNT CLAIMS: i. Fernweis.ersystem with a preferably ring-shaped Resistance as a transmitter and a cross-coil instrument (ratio current indicator) as Receiver according to Patent 6944: 27, characterized in that the two auxiliary brushes (f, g i omitting the connection line between the encoder center and the Middle of the two receiver coils each via a long-distance line (3, 4) and a resistor (R1, R2), the ohmic value of which is equal to the eye value of a receiver coil, to the middle (C) the two receiver coils are connected. 2. Remote pointer system according to claim i. characterized in that the connected to the center of the two receiver coils Resistors (R1, R2) through the resistances of the auxiliary brushes (f, g) to the Center (C) of the two lines leading to the receiver coils (3, 4).