DE239816C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 239816 CLASS 74 c. GROUP

ALBERT GOLDSTEIN and CLARK POOL in NEWYORK.

Electric signaling systems, in particular for fire alarm purposes. Patented in the German Empire on July 8, 1910.

The invention relates to an electrical signaling system, in particular for fire alarm purposes. In the known devices, for example, the commissioning an automatic switch, e.g. B. a thermostat, at the reporting point Apparatus activated, which transmits signals to a receiving station. The disadvantage here is. that the reporter

ίο also by earth fault or by other Disruptions can occur.

The subject of the invention is an arrangement in which such a so-called blind alarm is impossible. According to the invention, the automatic switch (thermostat) works not directly on the signaling device, but first on a relay arrangement, which in turn causes rapid successive current impulses and activates the detector by means of a further relay transmission.

Another special feature of the subject matter of the invention is that in the case of a Earth fault or short circuit, which is used to generate the pulsations Could switch off devices which, under these circumstances, as a result of the increasing ... warming of the thermostat further progressive movement of a contact piece is used to switch on a second relay device and by means of this the detector. These auxiliary devices ... then activate the detector despite the fault, so that the signals are also routed to the control center in this case.

In the drawing, a control center is shown on the right, which has one in two halves 1 and 2 divided batteries comprising electromagnets 3 and 4 and signal lamps 5 and 6. The control center is connected to a substation by a double line 7, 8. On the substation there is a detector, consisting of a lifting disc 15, which with a signal disc 10 sits on the same shaft. The lifting disc has a notch 16, in which a spring 17 engages in such a way when the detector is in the rest position that the contact the spring 17 is interrupted by an adjacent contact spring 18. The signal disc 10 has notches over which a contact piece slides, such that in the working state of the detector contacts open and closed at certain intervals will. Signal and lifting disc have the tendency to see under the influence of a mechanical To get device in rotation, however, are prevented by a locking piece 24, which in turn of two electromagnets 22 and 23 is influenced. When one or the other is excited the latter magnet, the locking piece 24 is released, whereby the signaling he follows.

There is also a thermostatic switch on the substation, consisting of a vessel 52 made of thin metal. On the upper part of the vessel is a membrane 55, also made of thin sheet metal, screwed on. In the middle of the membrane sits a Metal piece 56, which is a contact system

influenced. When the air enclosed in the vessel 52 is heated, the metal pin 56 is positioned due to the expansion of the heated air over the contact springs 57, 59 an electrical Connection between an electromagnet 31 and the membrane, which in turn with a line 66 and a contact 48. is in communication. With continuous warming of the thermostat is done by pushing the metal pin further upwards 56 the switchover of the contact system and thereby the elimination of the above-mentioned Magnet 31 and the activation of another magnet 30, which the function of the magnet 31 takes over.

The just mentioned magnets 30 and 31 have the task of being energized in a short time Intervals to close and open a circuit and thereby into the winding of the Magnets 35 or 36 to send current pulses.

The magnets 35 and 36 are provided with armatures, which when the current pulses occur respond and through their vibrations circuits by means of contacts 39 and 40 and 41 and 42 open and close, respectively. This eliminates the already mentioned 'Magnets 22 and 23 energize and trigger the detector. It's for that Effect of the arrangement essentially that the vibrations of the resilient armature 37,38 are tuned to a certain frequency so that they only work when the Coils 35 and 36 swing out sufficiently far by a current of suitable frequency, to influence the contacts 39, 40, 41 and 42.

On the substation there is also -, one with a winding of high resistance provided magnet 43 and a two-winding magnet 25, which the latter is set up so that its windings cancel each other out in their effect.

When the system is in a proper idle state, a quiescent current flows from the central battery ι via magnet 3, line 7, upper winding of magnet 25, point 62, contact springs 13 and 14, line 8, magnet 4 to battery 1. This current, which excites magnets 3 and 4, branches off from point 61 via the lower winding of magnet 25, point 68, armature 26, contact 28, point 71, springs 33 and 34, spring 58, contact 60, line 64 , Contact 29, armature 27, point 75, armature 44, contact 46, magnet 43, line 66, armature 45, contact 48, line 6y, point 62. This branching of the quiescent current causes electromagnet 25 to remain de-energized and that magnet 43 is his Keeps anchor springs tightened.

The mode of operation of the system will now be explained using an example. As soon warming occurs in the vicinity of the thermostat, e.g. B. in the event of a fire, the air expands in the vessel 52 and initially causes the membrane to move with it their metal pin 56 against the spring 57 places. Touching 56 and 57 becomes the Electromagnet 43 which, as noted, is a high resistance winding possesses, almost · short-circuited, in the following way: point 68, armature 26, contact 28, line 63, spring 33, spring 34, armature 32, magnet 31, the winding of which is only slight Has resistance, springs 59 and 57, metal pin 56, vessel 52, armature 45, contact 48, line 67, point 62. The current now flows for the most part through the mentioned, from point 68 to point 62 going shunt to the electromagnet 43, so that this is very weakened and its armature drops .. The consequence of this current branching is also that over the lower winding of the electromagnet 25 a much larger current flows than before. As a result, magnet 25 will attract its armature and contacts 28 and 29 will open. However, these contacts have so far formed short circuits for the electromagnets 35 and 36. As soon as the contacts 28 and 29 are opened and this eliminates these short circuits become the magnets. 35 and 36 on routes 68, 69, 40, 39, 70, 35, 71 respectively electrified on the way 64, 73, 41, 42, 36, 75. .

However, these latter currents are not continuous according to the invention, but consist of short pulses; because by the above-mentioned excitation of the magnet 31 is opened, the contact between 33, 34 and 32 is opened. Because of this interruption magnet 31 loses its magnetism for a moment and consequently leaves again loose its anchor so that the anchor acts as a self-breaker and quickly back and forth swings. This swinging of the armature, on the other hand, as noted above, causes the Currents in the windings of magnets 35 and 36 also consist of pulses.

Due to the current pulses, the resilient armatures 37 and 38 start to vibrate and open contacts 39 and 40 or 41 and 42 at short intervals. Through this the short circuits for the excitation windings of magnets 22 and 23 in opened short intervals so that the magnets 22 and 23 their common armature 21 set vibrations and thereby bring the detector into action. .

The interruption is carried out by the detector of. Quiescent current, which now

always at the moment in which the contacts 33, 34 and 32 are closed, the following Path takes: Battery 1, magnet 3, line 7, point 61 on the one hand over the upper one Winding of magnet 25, point 62, contact springs 13 and 14, line 8, magnet 4, battery ι and on the other hand via the lower winding of Aiagnet 25, point 68 and 69, contacts 40 and 39, magnet 35, line 63, contact bars 33 and 34, 58 and 60, lines 64 and: 72, point 73, contacts 41 and 42, magnet 36, j Point 75, anchor 44, contact 47, line 67, point 62, contacts 13 and 14, line 8, Ma-! gnet4, battery i. This stream branches j from armature 32 via magnet 31, contact '59, metal pin 56, armature 45, contact 50 to! Earth. J 31 is periodically excited by the last-mentioned current, so that a continuous Production of pulsating currents is guaranteed and reliable triggering of the detector by the oscillating armature 21 eriolgt.

In the event of a short between wires 66 and 64 or a short to ground in Line 64 would disrupt the operation of the arrangement; to avoid this, is according to the invention the further movement of the diaphragm 55, which is due to : the air pressure in the container 53 continues to rise, used to control the device to switch so that a disturbance does not occur in the company.

When the membrane 55 moves further, the pin 56 will lift the switching springs 57 and 58, so that the circuit is interrupted at points 59 and 60. The opening of the circuit at contact 59 switches off the electromagnet 31. The opening of the current at contact 60 switches the electromagnet 30 in series between the lines 63 and 64, so that the following current flow arises: From line 63 to spring 33, armature 32, spring 34, line 76, magnet 30 to ■ line 64. It The magnet 30 will now take over the activity of the magnet 31, but with the difference that not both electromagnets 35 and 36 are excited, but only one of them. If, for example, line 64 gets a ground fault, only magnet 35 will be excited, namely on the path 68, 69, 40, 39, 70, 35, 71, 33, 34, γ6, 3Ο, 64, ground fault.

From the description it emerges that only then alarm signals are sent to the control center when the frequency current based on the oscillations of the armature 32, the electromagnets 35 and 36 excited; it is therefore not possible for a so-called blind man An alarm arises from any unforeseen power branching.

It can also be seen that even in the event that on the line at the reporting office Earth fault or short circuit occurred during a fire, due to the further rise the temperature new devices are switched on, which the signals despite of the line fault that has occurred.

Claims (3)

Godfather sayings: 1. Electrical signaling system, in particular for fire alarm purposes, characterized in that that the detector sending the signals to the receiving point is generated only by one by means of an auxiliary device pulsating current of a certain frequency can be put into action, which is separate from that of the system flowing through quiescent current is generated. 2. Electrical signal system according to claim ι for automatic fire alarm, characterized in that the pulsating current with the aid of a thermostat or another through the ambient temperature influenced apparatus is generated. 3. Electrical signal system according to claim ι and 2, characterized in that that the pulsating current is generated by two devices, one of which by the initial movement of the thermostat is put into operation when the system is undisturbed, while the others when the former fails as a result of a line failure the progressive movement of the thermostat as a result of the increasing air pressure comes into operation. 1 sheet of drawings.