DE271258C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

'- JVI 271258 CLASS 20 /. GROUP

Patented in the German Empire on August 13, 1913.

As long as the operational control current for a turnout or signal control device flows, is used to switch off the monitoring device in the operating circuit arranged magnets. However, they do not serve their purpose if z. B. cut the switch or is turned over without operating the actuating device. In such a mismatch with the adjusting lever

ίο The operating current magnet does not come into position Activity, the monitoring device therefore remains connected to the corresponding lines, and an extraneous current accidentally entering these lines causes a false one Report.

In the present circuit, this Ubelstand is avoided in that the to Switching the control lines serving operating current solenoid with the motor in such a way Is connected in series that also in the currentless intermediate layer by an external current the monitoring device is switched off. This is about the otherwise additional grounding to prevent the motor from rotating in the rest position, the monitoring magnet connected behind the engine and thus made its rotation impossible.

To achieve this, you can short-circuit the cables that are constantly connected to the motor, when the operating current solenoid is de-energized. That way about the field windings The ring formed by the motor is then used as a monitoring return line. at this arrangement, it is useful to the operating current magnet with two windings and to keep them in such a way that the actuating current only flows through one winding, that, on the other hand, an external current entering the ring line must go in opposite directions via both windings. The monitoring magnet is connected to the ring line at a switch located between the two windings.

An exemplary embodiment for such a circuit is shown in FIGS.

The changeover switches ^I » ² » 3 »4'5 are positively connected to the adjusting lever h , while the magnet armature m moves the switches 11, 12, 13, 14. Switch 21 is located in the point machine and depending on the respective position. Lines I to V connect the machine to the signal box. Of these, I and V are the operating current supply lines, III the operating current return line, which is grounded, II and IV serve as monitoring current supply lines and as auxiliary lines for starting the motor. The monitoring current is taken from battery b , while battery B is used for the operating current. S ₁ and S ₂ are the windings of the operating current magnet, k represents the monitoring magnet. For the purpose of simple reversal, the motor has two fields with the magnetic fields f _t and f ₂ and the armature a.

In the rest position (Fig. 1) the mentioned ring is formed by f _v I, Sy 3, n, 4>% ^v . / V The monitoring current is introduced into this ring from b via 14, i, II, 21, α and taken off by switch 12, then passed via 5 to the monitoring magnet k and from there back to b . The two unused lines III and IV are earthed. The indicator χ connected to the armature m shows the correct condition of the actuating device.

If the adjusting lever h is thrown over, the operating current flows over from B as shown in FIG

13 »3. S ₁ , I, fj, a, 2i, II, 2 back to JB. The motor starts up and the magnet armature m is pulled through S ₁ to the left and the ring is interrupted. The starting drive flips switch 21 and connects the motor directly to the battery via III (FIG. 3). After the drive has rotated, the switch 21 goes to the right end position (Fig. 4) and thereby interrupts the motor circuit. Since the two ends of the line through which the operating current previously flowed are now at one pole of B , no more current flows and the magnet S ₁ becomes ineffective. The anchor m therefore falls in the central position (Fig. 5). As a result of the resulting closure of switches 11 and 12, the ring is formed and the monitoring magnet k is connected to the ring. A current now flows from B via 14, 1, IV, 21, a, then the ring f _t , I, S ₁ , 3, 12, 4, s ₂ , V, f ₂ and branching off from this via 11, 5 , k, B. The monitoring magnet k consequently attracts the armature m and thus establishes the monitoring circuit from b, 14, I, IV, 21, α and via the ring (Fig. 6).

If a switch is cut open (FIG. 7), the aforementioned ring formation remains, but the monitoring current is interrupted by 21. The magnet armature moves into its central position, no current flow is established. If an external current were to get into one of the cable cores, it would go directly to earth in II and III, in IV it would be ineffective because it flows to the positive pole of the battery. When entering I or V, as the dashed lines show, it goes through the ring line, one time via f _{% 1} a, 21, the other time via S ₂ , 4, 12, 3, S ₁ , 1, f _x> a, 21 to earth. As a result, an increased effect of the operating current magnet would occur through S ₁ and S ₂ and the armature m would be pulled all the way to the left. In this way, the monitoring magnet would be switched off completely at 11, so it could not work.

+5 If you do without the ring formation and the division of the operating current magnet, you can you can achieve an equally reliable, but simpler circuit if you use the The anchor line is not connected to earth, as is usually the case, but to the positive terminal of the battery So makes the operating current supply, and the operating current magnet alternately in the lays the line going from the field winding to earth.

Such a circuit is shown in FIGS. 8-10.

In the rest position (Fig. 8) the monitoring current flows from b via 12, 2, IV, 23, f ₂ , a, III, ii, k back to b. The monitoring magnet k keeps its armature m attracted and shows the correct position of the switch through the colored disk χ. If the lever folded h, then flows, as Fig. 9 shows the operating current of B 11, III, a, f _lt 22, I, 1, s, B. The operating current magnet holds the over- s! monitoring device k switched off at 11, so that no current can get to it during the turnout circulation. The other positions can easily be found on the basis of the switch movements, because 23 is switched over during rotation and placed at II in the other end position 22,. so that the monitoring current flow can come about. Of interest is the intermediate layer of the switch z. B. after a slicing. In FIG. 10 the circuit of a cut-open switch with lever position according to FIG. 8 is shown. As a result of the interruption of the monitoring current at 23, the armature m assumes its central position, and the entire setting device is de-energized. The monitoring magnet k remains connected to the line III, but an external current entering III would go to s via a, f ₂ , V, 1 and thus move the armature m to the left and switch off the monitoring magnet k at 11, which is a prerequisite that s is designed so that its effect overcomes that of k , which can easily be achieved due to the very high resistance of k and the very low resistance of s.

Claims (3)

Godfather t-An saying ε: ι. Safety circuit for electrical turnout and signal drives, in which the Control lines are used as monitoring lines, characterized in that the motor is connected to the switch the lines serving operating current magnets and the monitoring magnet is connected in series that an ■ external current in the currentless intermediate position gets into the monitoring line, the monitoring line switches off. 2. Safety circuit according to claim 1, characterized in that the motor is short-circuited when the operating current is not flowing and the ring thus formed serves as a monitoring return line in the rest position. 3. Safety circuit according to claim 1, characterized in that the operating current is supplied via the armature line and the operating current magnet alternately is connected to one of the two lines coming from the windings of the field magnets. 1 sheet of drawings.