SU7444A1 - Electric device for centralized control of arrows - Google Patents

Description

The use of two electromagnets in an electrical device for centralized control of arrows to control electric switch actuators with a three-core system, i.e. with only a control wire, it is known. According to the known switching methods used in this way, all the work is performed by an electromagnet of the working circuit, which therefore switches, for example, with the main switches and at the same time switches the contacts, color disks, etc. to the control, corresponding to the rest of the arrow, and the control magnet produces only a safety closure of this position, for example, by blocking the control bodies in a position corresponding to the rest of the arrow. In this case, the working electromagnet is connected with the control electromagnet in series, namely, in such a way that the first is turned on before the switches producing alternate switching of the transfer wires, the second is located behind the control wire. Consequently, all conversion currents flow through the electromagnet of the working circuit, and during the rest position of the arrow also the control current.

The present invention aims at improving conventional devices so that the current through the working electromagnet passes only during the production — they work and, therefore, in the quiescent position, the arrow does not pass through the current, and so that the control electromagnet discharges from the main work-switching spring switches, and made only a permutation of contacts and colored discs. The last property represents in exploitation the convenience that an indication of the occurrence of a disorder or defect occurs with full

reliability even in cases where, for example, in the event of a wire break, the working electromagnet cannot be used for such an indication. In this case, it is possible to use the force of attraction of the working electromagnet also for the production of a certain coring of the control electromagnet, thereby reducing the size of the air gap and, therefore, the number of ampervices of the latter necessary for attracting. After the attraction of the core, the current in the working electromagnet disappears and its measles disappears again.

If for nerevodpogo and. the control current serves the same source (until now, for the most part, two different current sources were used, the voltages of which were between themselves approximately in the ratio from 3: 1 to 4: 1), then only one fuse is required. However, it is advantageous to use fused and control currents, even when using only a current source, fuses of different strengths, since during grounding, short circuit in wires, etc., in some cases, much earlier switching off of the wire occurs, thanks to melting down the fuse.

Grounding the control wire not applicable at a given moment during a switch, and so on. very simple with two control wires. If, however, only one control wire is used, then grounding is also possible when two contacts are connected in series to an earthing conductor, one of which operates simultaneously with the conversion current switch for the stroke and the other simultaneously with the conversion current switch for reverse switch gear.

All devices are arranged in such a way that the control current passes through all the wires always in the direction opposite to the conversion current; With such a current distribution, it is possible, at least in DC installations, instead of mechanically controlled color discs, or with them, to use color discs or the like driven electrically. These discs should not be placed

in the central switchgear, and can be installed, for example, under a rail track plan hung in the room with arrows, so that the installation of devices on the whole line can be immediately checked; This circumstance is an important convenience for long devices for a large number of arrows.

FIG. 1 of the drawing shows a diagram of the connections for the position of the quiescent arrow, prior to its translation; in fig. 2-scheme for launching the switch motor at the beginning of the switch; in fig. 3-the same, after short-term operation of the motor during the transfer of the arrow; in fig. 4 - the same, at the end of the transfer with the operating current magnet turned on; in fig. 5 - the same, in the position of the rest of the arrow after its translation; in fig. 6 is the same for the rest position after cutting arrows. The letters and numbers in the drawing indicate the following: J.-switching electromagnet; E-control electromagnet; & 1, & 2. 3. and 64-spring switches; t, shz-switches, reset by the switch; Shd, t-automatic switches earthing during the switch of the arrow switching electromagnet (switch t is reset simultaneously with switch t, switch t-simultaneously with switch mg); F and PZ-windings of electromagnets; a - measles switch motor; Si-p conversion current protection; / §2 - control current fuse. Wires, but with which the current flows, are indicated by thick solid lines, and grounded wires are thick dashed lines. All parts located in the figures of the drawing above the line L-L are installed in the center of the switchgear, and all parts located under this line are in the switch gear.

FIG. Figure 1 shows the connection diagram for the quiescent position of the arrow. The control current flows, as indicated by the arrows, from the current source through 2, & h, wire 3, 1, wire 1, a, b, JS, to earth. The conversion wire 2 used in this case is grounded through an electrode gage and in a switchgear through a switch b.

If the arrow has to be rearranged, then all switches a and all spring switches b are switched in the central distribution device. The result is the one depicted in FIG. 2 current passing circuit. After some movement of the switch gear, the switch mi is shifted, and the switch giz is turned on, as shown in FIG. 3. In this way, the reverse movement of the arrow is prepared and the control wire in the switch actuator is grounded. When the drive reaches its other end position, the switch Wm switches (Fig. 4), and the switch T turns off. , but through wire 2 to the switchgear, according to FIG. 5. The wire 1 is grounded at the same time in the switchgear and through the switch motor. Pa figs. 6 shows another case where, from the position, as shown in FIG. 5, an arrow was thrown. The switches Sa and wj change their position, so that the wire 3 is grounded and the fuse S melts; at the same time, the measles of the control electromagnet E, which indicates the occurrence of the disorder, disappears.

The subject of the patent.

1. An electric device for centralized control of the arrows with one switching electromagnet and one control electromagnet, characterized in that) the switching electromagnet A is included in the control wire 3 of the switch actuator so that the said electromagnet is excited by the operating value current only after the end of the switch and controlled by switches b, b, 6z and b, he closed the control circuit to the control electromagnet B, while at the same time disconnecting it from the electric circuit.

2. The change of the device described in item 1, in order to reduce the required number of ampere turns, is that the control magnet of the electromagnet-B is mechanically connected with the switch electromagnet A so that when the latter is excited, the air gap of the electromagnet B is slightly reduced .

3. When the device described in paragraph 1 uses a) for transfer and control current circuits, one and the same current source, for example, in the form of common for both battery circuits, and b) specific for each of the aforementioned circuits, fuses S and / $ 2 designed for different current strengths.

4. In the case of the device described in item 1, using the same wires, on the one hand, for the current of the transfer or respectively exciting switching electromagnet -4, and on the other hand, for the control current, which currents in these wires are given opposite to each other directions.

5. In the case of the device described in paragraph 1, the use of two 3 circuit breakers connected in series and included in the control wire, S Shchpazhennyh during the transfer of the arrow, ground the switching solenoid A.