DE438170C - Safety device for signal systems operated by means of electrical signal currents, especially in mines - Google Patents

Description

Safety device for operated by means of electrical symbol currents Signal systems, especially in mines. This can cause Uri falls in mines arise that the operating current for the signal systems suddenly fails. the Precondition for an accident is z. B. already given by the fact that the Betliehsstrom is interrupted after part of an execution signal is given. This Part can easily have the opposite meaning of the whole signal and thereby cause the machine operator to carry out one of the required straight, opposite conveying movements to execute.

The object of the invention was to eliminate this difficulty and deal mining operation to protect against accidents resulting from sudden failure of the operating current can arise.

According to the invention, this object has been achieved in that a mechanically driven alarm mechanism from one connected to the operating voltage Relay is blocked so that it comes into action as soon as the operating voltage is applied suspends. If you use this chime z. B. in the vicinity of the signaling device in the engine room arranged, then the machinist's attention is immediately drawn to the fact that the operating voltage the signal system and - for example, signals that have just arrived for completeness cannot make a claim.

The alarm mechanism can, for. B. actuated by a spring or a weight will. It must be wound up again after it has expired. To now finite Security to prevent the alarm mechanism from remaining unwound when the signal system is put back into operation, according to the invention, provision is made for that the signal system can only be energized again after the Chime is raised. For this purpose you can z. B. one of the position of the elevator lever dependent contact via which the operating current for the Signal system is guided. You can also use an automatic winding device of the alarm mechanism, which is actuated by the operating voltage of the signal system will. The alarm mechanism is automatically reopened at the same moment where the operating voltage is restored.

An embodiment of the invention is shown in the drawing.

i. is a battery used to operate a signal system. 2 and 3 are the power supplies from the battery to the signal system. A relay q .. The armature 5 of the relay is rotatable about an axis 6 and is mounted in the adjacent connection to these power supply lines 2 and 3. It is pulled off the relay by a spring 7. The relay armature> 5 carries a nose 8, against which one end g .eilfies about the axis io rotatable clapper ii rests. i2 is a bell against which the clapper ii strikes. The clapper ii is actuated by a gear 13, the drive energy of which is taken from a spiral spring 14. One end of the spiral spring 14 is fastened to a pin 15 fixedly arranged on the housing, while the other end is fastened on an axle 16. A ratchet wheel 17 is also firmly seated on the axle 16, into which a pawl i9 mounted on a wheel 18 engages. The wheel 18 is loosely rotatably mounted on the shaft 16. A thin metal band 2o is looped around the shaft 16, at the end of which the armature 21 of a pull magnet 22 is suspended. The magnet 22 has two coils 23 and 24 .. The coil 2, 4 lies directly on the lines 2 and 3, while the coil 23 can be connected to the network via a fixed contact 25 and a movable contact 26. A second fixed contact 27 is located opposite the movable contact 26. Via this fixed contact 27, the feed line 2 for the signal system is closed in the position shown for the movable contact 26.

The system described above works as follows: In the position shown, the signal system is in normal operation. The battery cannot be detached via the feed line 3 and is connected to the signal system via the feed line 2 via the contacts 26 and 27. If the battery voltage suddenly fails, the armature 5 is raised by the spring 7. The free end 9 of the alarm clock line ii is released by the nose 8, so that the alarm clock comes into action. When the alarm clock is running, the axis 1 6 is turned to the right and the armature -i of the pull magnet a2 is raised. Since both coils of the armature are de-energized due to the lack of battery voltage, only the armature weight needs to be lifted by the spring 14. During the upward movement of the armature 21, the movable contact 26 is released from the nose 28 attached to the armature. Due to its elasticity, this rests against the fixed contact 25.

As soon as the malfunction of the battery i is eliminated and the feed lines .2 and 3 are energized again, firstly the anchor is again in brought the position shown in the drawing; second, both coils 23 and 24 of the pull magnet energized, so that the magnet armature again is pulled down and the spring 14 is tensioned. Just before the anchor 21 his has reached the lowest position, he strikes with the nose 28 against the movable one Contact 26. It opens the connection between the contacts z 5 and 26 and instead establishes a connection between contacts 26 and 27. f as a result the coil 23 of the pull magnet is de-energized. But there is the variable air gap was already very small in the pull magnet, the coil 24 is sufficient to put the armature in its Bring end position and hold there. About the contact 26 and 27 is now also the feed line 2 is closed, so that the signal system is back in operation ; can be taken.

In the case of the invention, there is therefore a constant state of operation in normal operating conditions There is a live circuit, but it is not continuously supplied with electricity is flowed through, but with consideration of the signal system to be operated Constant power interruptions are an essential part of normal operating conditions are. So it would by no means be appropriate to switch on a known device, which responds, for example, to a reduction in the current level. Rather, the new task occurred, a Safety device- to shade that is independent of the current in an electric activated signal system indicates the absence of voltage. This was done according to the invention achieved in that a device operating with high safety coefficients, namely a mechanical alarm mechanism, from a relay; is blocked as long as operating voltage is present, but is released if there is no voltage.

If, on the other hand, one were to use electrically operated bells, which come into effect when the current fails, one would have to have a special one Provide a power source for this, however, especially since it is only used in exceptional cases is not to be addressed as reliable enough.

Claims (1)

PATEN TAN SPRAY: i. Safety device for by means of electrical Signal systems operated by signs, especially in mines, are marked by a mechanical alarm mechanism, which is constantly connected to the operating voltage of the character power source (i) lying electromagnet (¢) is blocked when this is traversed by electricity. a. Device according to claim i, characterized in that that one of the supply current lines (2) for the signal system has a contact (26, 27), which is only closed when the drive device (i4) for the mechanical bell. 3. Apparatus according to claim 2, characterized by an automatic electromagnetic elevator device (2o to 26) for the mechanical alarm mechanism that depends on the operating voltage of the power source (i) for the Signal system is operated. 4 .. Device according to claim 2 and 3, characterized in that that the contact (26, 27) through which one (2) of the feed lines (2, 3) for the Signal system is performed, from the automatic elevator device (2o to 26) directly is closed before its end position.