DE347287C - Hopper control for AC railways without power interruption - Google Patents

Description

Hopper control for AC railways without power interruption. The object that is achieved by the invention is to provide a Hopper control for alternating current railways without power interruption, in each of which Switching position by means of only one control line, two hoppers as a connector between two Tapping of the main transformer with the ends of the transition resistor or the transition reactor must be closed.

The invention now consists in the fact that in the intermediate levels for each Transformer tapping two hops or hopper coils provided are, whose switch contacts close or close the same circuit of the main transformer. open, while each control line is assigned to two adjacent stages Hopper magnets feeds.

The exemplary embodiment shown schematically in the drawing, in which the contact apparatus of the two hopper coils belonging to one stage, is combined, serve to explain the invention. In Fig. I, in which all auxiliary devices not belonging to the invention are omitted, t means the main transformer, the five taps of which can be connected in pairs via the hopper contacts p1 to p5 to the ends of the double inductor y; the drive motor m is connected to the center of this coil y. The shift drum s, which has four shift positions I to IV, corresponding to four shift brushes i to q., Is used to control the hops. The control lines emanating from the switching brushes feed the hopper magnets a to e. In the middle switching stages, the hoppers each contain two magnetic coils b b ', c c' and d d ', while the output stages are only equipped with one coil each a and e. The interlocking contacts i, k for the hopper coils are connected to the movable hopper cores, namely the contacts i in the forward switching I to IV, the contacts k in the reverse switching IV to I.

The switching process can be seen from the schematic illustration in Fig. 2. In the switching position I of the roller s, the two coils a and b receive current, so that by closing the hopper contacts P1 and p. the motor is connected to the lowest tap of the transformer t. If you now move from position I to position II, both brush i and brush 2 are connected to the control current source (line 0) for a short time as a result of the overlapping of the two roller linings; In this transition position mentioned in the diagram in Fig. 2 1 / 1I, the upper coil b 'of the b-hopper is also excited, but the coil c of the third hopper is not, because the locking contact i is opened by the attraction of the a-hopper. Only when the brush i has left the associated contact strip and the roller assumes position II does the a-hopper release its core and at the same time close the locking contact i "when the main contact is opened, whereupon the c-hopper responds immediately and closes the main contact; the coils a and b are now de-energized.When the roller s is switched on, first coil c 'is switched on in transition II / III, while coil d is still locked by the open contact i; if then in position III contact p2 has released and 'd is closed again, P "is attracted, the hopper coils c' and d are energized. At the transition III / IV coil d 'is added, and in switching position IV the coils c' and d are de-energized, while d ' remains excited and the excitation of the coil e is added, which causes the attraction of the contact P5.

While in the forward switching presented here, the locking contacts i "'d and i, come into effect, are shown in the right half of Fig. 2, the reverse shift illustrated uses the interlocking contacts k "k6 and k", never again. as two adjacent hopper contacts P at the same time can be closed.

As mentioned, the two hopper coils b and b ', c and c', d and d 'can each also act on separate main contacts that are parallel to one another for each transformer tap. In contrast, however, the design shown in Fig. I represents a structural and operational simplification.

If switching is only in one direction, the The second hopper coil also has a simple locking or holding magnet.

Claims (3)

PATENT CLAIMS: i. Hopper control for AC railways without power interruption, in every switching position of the control roller by means of only one control line two taps of the main transformer with the ends of the ohmic or inductive Switching resistance must be connected, characterized in that in the Middle stages for each tap of the transformer two hops or hopper coils are provided that both close or open the circuit of this tap, while each control line is assigned to two adjacent switching stages feeds. 2. hopper control according to claim x, characterized in that each the two hopper coils assigned to a tap of the transformer have a common one Activate the contact apparatus. 3. Modification of the hopper control according to claim i, characterized characterized in that in the event of switching only in one direction to the point the second hopper coil a blocking or holding magnet occurs.