DE694296C - Circuit for point machines - Google Patents

Description

At the im. Main patent shown turnout circuit is increased by an electrothermal monitoring device Protection of the monitoring niagnet against the influence of external currents achieved. It is In this case, an interrupter is arranged in the monitoring return line, which in the event of a fault by an electrothermal trigger provided in the motor return line is actuated.

According to the invention, the increased security achieved in this way can also be achieved if when the electrothermal monitoring device is arranged in the manner that the interrupter connected in series with the monitoring magnet in the monitoring return line will break a trigger housed in the monitoring feed line is controlled. as Monitoring feed line can be any of the control lines leading to the motor field windings and the motor return line can also be used.

There are devices known in which thermal relays parallel to the over- as monitoring fuse are switched, so that after the destruction of the same, the shutdown Monitoring magnet takes place. The disadvantage here is that due to the parallel connection the operational presence of the thermal relay cannot be monitored during operation can. Therefore, instead of this arrangement, special magnetic switches are used need to pass that parallel

are switched to the monitoring circuit and after the monitoring fuse has been destroyed become de-energized.

'There are also other facilities

became known with two-thread and switch-off fuses, in which the The outgoing and return lines used for monitoring are switched off. but These switching elements, which are already known for other purposes, are also more safety-related Regarding not entirely flawless, because with two-thread safeguards the one in case of destruction The amount of energy released by a thread is quite small and the monitoring circuit is switched off twice therefore entirely dependent on the ignition effect of the intermediate layer that isolates it in the idle state and on the other hand with the so-called shutdown safeguards the disconnection that takes place through special contact pins on their mechanical effectiveness during operation cannot be monitored.

In contrast to these circuit arrangements, the subject matter of the invention shows at simpler Execution still has a high level of security because it acts as a protective resistor trained el ectro thermal release directly used as an interrupter Affects melt streak.

In Fig. Ι a switch circuit is shown, in which the electrothermal release (i) designed as a protective resistor in the case of order between the turnout lever and the turnout drive, to the drive motor field windings leading control lines 2, 3 is connected upstream. In the condition shown Monitoring current flows from positive pole 4 of the monitoring battery via fuse 5, the electrothermal release 1,

no battery changer contact 6, inevitable lever contact 7, line 2, drive contact 8, field winding 9, motor armature 10, drive contact 11, line 12, battery changer contact 13, the interrupter 14 controlled by trigger 1 and monitoring magnet 15 to negative pole 28 Due to the resistance of the winding of the monitoring magnet 15, current is not sufficient to influence the interrupter 14. Controlling the battery changer contacts 6, 13, 16

- Followed by a magnet which has an auxiliary coil 17 in a special local circuit and an actuating current sink 18 in the actuating current feed line to be connected to line 2 or 3 via the inevitable lever contact 19. When the switch lever is turned, the monitoring current is interrupted in the intermediate position, so that a current flows to the negative pole 28 from the setting battery 22 via fuse 23, auxiliary coil 17, hand trap contact 20 and contact 21, which only closes when the armature of the monitoring magnet 15 has dropped out. As a result, the contacts 6, 13 16 change, whereby the current from the control battery 22 via fuse 24, control current coil 18, battery changer contact 16, inevitable lever contact 19, control line 2 / drive contact 8, field winding 9, armature 10, drive contact 11, line 12 and battery changer contact 13 is switched on to the grounded negative pole 2 8. When the drive starts up, the drive contacts 11, 25 change, so that during the changeover the control current already goes to the negative pole via the drive contact 11 and the drive earth 26. During the changeover, the electrothermal release 1 is switched off by the battery changer contact 6. If the gravity passage of the switch, the Siehe- ⁸ rung "24 to be disturbed, so the shutter remains ι continue to shut down because namely the contacts 6, 13, 16 in the working position via fuse 23, Hilfsisp never 17 and, the specific resistance then 27 remain suspended until the insertion of a new fuse 24. After the end of the actuating gear, the actuating current coil 18 is switched off and the line 12 switched on by the drive contacts 8, 11. As a result, the battery changer contacts 6, 13, 16 go into the basic position back, so that the monitoring current is restored via fuse 5 and the electrothermal release 1. When the drive is raised from the position shown in Fig. 1, the monitoring magnet 15 is de-energized by switching off the line 12 at the drive contact 11. Current then flows from the positive pole 4 the monitoring battery via fuse 5, trigger, battery changeover contact 6, lever contact 7, line 2, drive contact 8, field winding 9, armature 1 o, An Drive contact 11 and drive earth 26 to the negative pole. The resulting heating of the trigger 1 causes the line 12 to be separated from the monitoring magnet 15 by destroying the interrupter 14. This prevents false reports from the monitoring magnet 15 due to external currents.

Fig. 2, on the other hand, shows a switch circuit with an electrothermal release 31 with the supply line of the monitoring current in the case of order between the Hebeil and the drive is connected to the motor return line. Goes in the basic position the monitoring current from the positive pole 34 of the monitoring battery via fuse 35, trigger 31, spring switch contact 36, motor return line 37, armature 38, field winding 3 9, drive contact 40, line 41, inevitable lever contact 42, spring switch contact 43,

Monitoring magnet 33, the breaker 32 controlled by the trigger 31, line 44, drive contact 45, line 46, inevitable lever contact 47, switch switch contact 48 to the negative pole 49. By flipping over the switch, the switch contacts 36, 43, 48 change into the working position. The setting battery 50 is switched on via fuse 51, so that the drive can be switched over via the lines 41, 46 according to the position of the inevitable lever contacts 42, 47. During the changeover, the monitoring battery connected via the electrothermal release 31 is disconnected from the motor return line 37 on the spring switch contact 36 and the negative pole 52 is connected instead. If the point machine is opened from the position shown in Fig. 2, the drive contact 45 changes, and a current flows from the positive pole 34 of the monitoring battery via fuse 35, trigger 31, spring switch 36, motor return line 37, armature 38, field winding 53, drive contact 45 , Line 46, inevitable lever contact 47 and spring switch 48 to the negative pole 49. Here, as a result of the heating occurring at the trigger 31, the interrupter 32 switches off the monitoring magnet 3.3 of the line 44, so that false reports from external currents are prevented. .

In both circuits, the lead is to be. of the electrothermal release 1, and the breaker 14, 32 in the case of order checked by the flowing monitoring current.

Claims (2)

Patent claims: 1. Circuit for point machines with one in the monitoring return line provided (fusible link) circuit breaker, which is from an electrothermal Trigger is controlled, according to patent 658 601, characterized in that designed as a protective resistor electrothermal release (1.31) in the Supply line of the monitoring current is arranged. 2. A circuit according to claim 1, characterized in that the lead of the Monitoring current, in which the electiOtliermischen effective as protective resistor Trigger (i, 31) is included on the control lines (2,3,41,46) or is connected to the motor return line (37). 1 sheet of drawings