DE650437C - Circuit for electromagnetic turnout bolt - Google Patents

Description

In your circuits for electromagnetic turnout bars, the monitoring magnet should only show the locking status. If he pulls in the unlocked state, z. B. by that he receives external power, he pretends to be locked, which is impermissible. This cannot be avoided if you have a special locking / unlocking magnet feeds via additional lines. However, attempts have been made to remedy this deficiency by having all of them Has provided the latch with special cables. This procedure is very costly. The present invention enables the false indication to be avoided with simple means by external currents and this is achieved by the fact that at the point where previously the Monitoring magnet was provided, an auxiliary magnet is arranged, while the monitoring magnet has a contact on Auxiliary magnets and a contact on the locking lever receives power. This latter contact is only 'closed when the latch lever is in the locking position. Such Auxiliary magnets are z. B. already known in circuits for turnout and signal drives, however, they have not been used in latch circuits. Also serve they also have another purpose here. It is important that in this case not only at 5-wire, but also with 4-wire bar. circuits is able to undergo the influence of To counteract external currents.

The subject of the invention is shown in FIG. 1 to 4 on the basis of a Liegelschaltuing, for example, explained in which at the same time the arrangement is made so that the unlocking current is not used in each case Lock line is guided.

Fig. Ι shows the unlocking state. All lines are de-energized and both the auxiliary magnet 2 and the monitoring magnet s have dropped out. ^{If the contacts 41, 42, 43 λ} are now closed for the purpose of locking the switch in the plus position by turning the locking lever, the result is a current flow according to FIG. 2. The locking magnet 10 receives current on the strongly extended path. By attracting the magnet 10, the contacts 11 and 12 are turned over. The result is a current flow according to FIG. 3. The auxiliary magnet 2 receives current and turns over the contact 21 by attracting its armature. This creates a circuit from the power source via contact 42, monitoring magnet 3, contact 21 to the return pole of the power source. The monitoring magnet 3 indicates that the switch is locked. If now the locking lever and thus at the same time the contacts 41,

*) The patent seeker stated as the inventor:

Dr.-Ing. Wilhelm Schmitz in Berlin-Siemensstadh

Taken 42, 43 i ¹¹ di ^ie basic position, the two magnets 2 and 3 are de-energized, solenoid 2 puts the contact 21 in order, the magnet 3 contact 31, so that the Entriegelungs-- ·· - 5 circuit according to. 4 comes about via the unlocking magnet next to it. As a result, the process takes place when the switch is locked in the minus position via the contacts 51, 52, 53, but the locking magnet 10 receives current not via the line 4, but via the line 5. The contacts 6 and 7 are controlled in a known manner by the switch drive. 18 is a contact on the switch lever, which, depending on the position of the lever, assumes one or the other position; 19 is a contact on the switch of the corresponding switch lever, which is only closed in the end positions of the switch, i.e. prevents that during When the switch is switched, the locking magnet is actuated.

If an external current were to enter the monitoring line 8 in the unlocked state (FIG. 3), the auxiliary magnet 2 'would attract and flip its contact 21, but the monitoring magnet 3 cannot receive any current because the contact 42 is interrupted. At the same time, the arrangement is made in such a way that, by turning over the contact 21, a circuit is now established, as shown in dashed lines in FIG. The fuse 9 blows and thereby indicates the fault. The same process takes place if, after the locking lever has been returned to the basic position, the previously attracted auxiliary magnet2 does not fall off due to an external current or remanent magnetism. It is expedient also in the return line 15 still provide a fuse 16, an example in the position according to FIG. 3 occurring about at the point A in the line 17 impressed current for bringing display, since he otherwise, without being noticed , would drain to earth.

Claims (5)

Patent claims: 1. Circuit for electromagnetic turnout bolts, characterized in that that at the point where the monitoring magnet is normally provided, an auxiliary magnet is arranged during the Monitoring magnet receives power via a contact on the auxiliary magnet and a contact on the locking lever, whereby this the latter contact is only closed when the locking lever assumes the locking position. 2. Circuit according to claim 1, characterized in that the monitoring magnet (3-) Arranged in a circuit parallel to the unlocking circuit is. 3. A circuit according to claim 1 or 2, characterized in that the unlocking circuit is guided via a contact (21), which has fallen off Auxiliary magnet rivets (2) is closed. 4. Circuit according to claim 1, 2 or 3, characterized in that in the unlocked position of the locking lever a see " tion (9) through a contact (21) on the auxiliary magnet (2) directly to earth is placed. 5. A circuit according to claim 1, 2, 3 or 4, characterized in that in the lock return line (15) a Fuse (16) is provided. for this sheet of drawings