DE1078476B - Fire alarm - Google Patents

Description

GERMAN

kl. 74 a 31

INTERNAT. KL. G 08 L

PATENT OFFICE

H24054Vnid / 74a

REGISTRATION DATE: JUNE 1, 195 5

NOTICE
THE REGISTRATION
AND ISSUE OF THE
EDITORIAL: MARCH 24, 1960

The invention relates to one controlled by a solder which melts at a predetermined temperature Fire alarm device that switches over two pairs of contacts when triggered. The molten metals used here are commercially available, and melt metal strips are for a wide range of melting temperatures manufacturable. Since such melt strips are predestined to display certain temperatures, a wide variety of fire alarm devices have already been developed using such strips, which should respond with certainty when the corresponding temperatures occur. Still is determine that systems with such fire alarms keep failing and this one breaking out Do not report fire properly. It was therefore tried again and again to the circuits to improve such systems, and there have also already been developed circuits by the considerable Progress has been made; In particular, it is known, in addition to the actual circuit, a rest circuit to be provided. In such systems, however, are the alarm devices, the closed-circuit contacts and a corresponding glow lamp in a closed circuit, so that when the solder melts the closed circuit is short-circuited. As soon as this occurs, the alarm bell is activated, and the glow lamp goes out, d. In other words, when the system is live, the glow lamp only reports when the Closed current contacts have closed properly after the metal has melted and the alarm bell is working. Even with such systems, however, a frequent failure has been shown. This is because that just the switching contacts are the critical point of any such system and, since they are only extraordinary are seldom operated and often do not work due to surface corrosion alone. Apart from this, however, there can be many other known sources of error with such sensitive ones Switching mechanisms occur. The message from the glow lamp is therefore dependent on such systems set by the alarm bell. In addition, there is also a dependency on the alarm bell given that the internal resistance of the magnetic windings of the alarm bell is decisive for Burning current and burning voltage of the glow lamp. It is therefore not easily possible in these known Systems to use any number of alarm bells, such as in a large one Hotel in which there is a fire not only in the affected room, but also in one of the rooms at the same time Headquarters and various other bodies, e.g. B. should be reported directly to the fire brigade.

All these disadvantages of the known systems are eliminated according to the invention, namely in the essential fire alarm device

Applicant:

Dr. hc Josef Homma,
Wiesbaden, Eichenwaldstr. 64

Dr. hc Josef Homma, Wiesbaden,
has been named as the inventor

borrowed by the fact that the alarm is in the rest position closed contact pair keeps a circuit closed, in which a low quiescent current flows, while the other contact pair, which is open in the rest position, is independent of the closed circuit Keeps the alarm circuit open, in which any number of alarm bells are switched, and. that without Influencing the processes in the alarm circuit - expediently arranged in a reporting center - third circuit is closed by igniting a glow lamp as soon as the closed circuit opened or the resistance in it is greater than the ignition resistance of the glow lamp. Here the current flowing in the closed circuit is determined by a fixed resistor and is approximately 1 μΑ, so that the glow lamp triggers a light signal in the control center as soon as it is in the closed circuit the resistance becomes greater than the internal resistance of the glow lamp. To switch off the fire alarm from time to time To be able to trigger a test, it is advisable to attach a Externally accessible button or the like to be arranged, by means of which the contacts of the closed circuit by hand opened and those of the alarm circuit are closed.

By arranging the third circuit, which switches on automatically when the glow lamp is ignited, it is achieved that a message is given by the glow lamp,

1. when the system is de-energized,

2. when the alarm bell rings,

3. if the alarm bell does not respond despite the alarm circuit being closed,

4. if the closed-circuit contact opens, but the alarm current contact does not close,

5. if a fault occurs in the closed circuit.

909 767/51

The invention is shown in the drawing in an exemplary embodiment.

1 shows a longitudinal section through a fire alarm transmitter according to the invention installed in the housing;

Fig. 2 shows the soldering strip per se on an enlarged scale;

3 shows a transmitter in the housing for living spaces on a reduced scale;

Fig. 4 shows a circuit diagram of the signal and alarm circuit according to the invention.

In detail, 6 means the switch housing. A pin 9, which has a taper in its central part, is mounted in this longitudinally displaceable manner. A sleeve 23 can slide on this tapered part from top to bottom. The sleeve carries a contact plate 5 firmly connected to it. The sleeve 23 is pressed upwards by the spring 7. At the lower end of the pin 9, however, by means of the sheet metal strip 13, which is held together by a Wood-metal soldering 14, a weight 16 is attached to an eyelet 15. This weight 16 is slightly heavier than the force of the spring 7, so that in the rest position the contact sheet 5 is pressed against the contacts 1 and 2 of the signal circuit. If the sheet metal strip falls apart as a result of excess temperature, the spring 7 pushes the contact sheet 5 together with the sleeve 23 upwards until the contact sheet rests against the alarm current contacts 3 and 4. To protect the signal circuit contacts 1, 2, the weight does not act directly on the sleeve 23 with the contact plate, but the sleeve can move freely so that it is only pressed against the contacts 1, 2 by the spring Ta in the lower position of the sleeve will. The pin 9 is extended upward through the housing and carries the hand button 10 here, by means of which a test alarm can be triggered. The switch is fastened in the outer housing 17 by means of a simple angle plate 8. This housing is closed with the bottom 11 and above with the bottom 11 α . As can be seen from FIG. 3, the jacket of the housing 17 is made from a perforated sheet metal 20. At eyelets 19, the entire housing 17 is suspended from an arm 21 which in turn is fastened to the wall 22. In many cases , for example in hotel rooms, it will be expedient to already connect an alarm transmitter or the like directly to this transmitter. Therefore, in the embodiment according to FIG.

Fig. 4 shows an expedient circuit diagram for the alarm system in which the above-described transmitter is to be used. The individual rooms are labeled I, II, III and IV, which of course can be expanded as required, e.g. B. in large hotels up to the hundreds. A transmitter according to FIG. 1 is present in each room. The transmitters are designated in the circuit diagram with ^ ₁ , .S ₂ , S _z , S ^ . An alarm bell, alarm horn or the like, which are designated by W _x , W ₂ , W _s and PF ₄ , is directly connected to each transmitter. The signal current contacts 1 and 2 are in the circuit LM. The current flows from the positive network through the line M via the contact 2, the contact plate 5 to the contact 1, then through the line L via the resistor R to the negative pole of the network. This resistance is very high, so that the current flowing is extremely small. At a mains voltage of 220 V z. B. the resistance be 1000000 ohms, so that the flowing current is about 0.2 mA. If the contact plate 5 is now lifted and thus the connection between the contacts 1 and 2 is released, the current is interrupted at this point. It is now forced to flow from the positive network via the glow lamp G and the resistor R to the negative network. The resistance of the neon lamp used is naturally adapted. In this case, the glow lamp is ignited and indicates in which transmitter S the contacts have been opened. Immediately after the opening of the contacts 1, 2, however, the contact pair 3, 4 is closed by the contact sheet 5. In this case, the current flows from the plus network via the contact 3, the contact plate 5, the contact 4 via the alarm clock W into the line N, then via the alarm clock W ₅ and W ₆ to the minus network. In this circuit diagram it is assumed that the alarm bell W ₅ in an intermediate station, ζ. B. in a stairwell, while the alarm clock W ₆ od together with the glow lamps G in a porter's lodge, a control center. The like. Is attached. The switchgear for the transmitter is therefore extremely simple, it is only necessary to lead three wires from the pulse transmitter to the place where the alarm is to be given and in which it is to be displayed at the same time which pulse transmitter triggered the alarm. In the case of new buildings, such an electrical wiring system can be provided with practically no cost. But even with existing buildings, it means little effort to pull these lines. However, the encoder itself is so simple in its structure and in its mode of operation that an absolutely safe functioning is guaranteed. In addition, the particularly simple structure and the very simple construction means ensure a price that is roughly equivalent to that of a very simple lighting fixture, so that it should hardly play a role in the furnishing of an apartment, a hotel or simple businesses. What is essential for the invention, however, is the operational reliability of the system, which can hardly be surpassed. In any case, it reports to a control center when the alarm bells or the like respond or if there is an error somewhere in the overall system that prevents the bells from responding.

Claims (3)

Patent claims: 1. From a soldering metal which melts at a predetermined temperature controlled fire alarm transmitter, which switches two pairs of contacts when responding, characterized in that the contact pair (1, 2) closed in the rest position of the alarm transmitter keeps a circuit (L, M) closed, in which a small one Quiescent current flows, while the other contact pair (3, 4), which is open in the rest position , holds an alarm circuit (M, N) independent of the quiescent circuit open, in which any number of alarm bells (W) are connected, and that without being influenced by the processes in Alarm circuit (M, N) a - expediently arranged in a reporting center (Z) - third circuit is closed by igniting a glow lamp (G) as soon as the closed circuit is opened or the resistance in it is greater than the ignition resistance of the glow lamp. 2. Fire alarm device according to claim 1, characterized in that the current flowing in the closed circuit (L, M) is determined by a fixed resistor (R) and amounts to about 1 μΑ and dement- Speaking through the glow lamp (G) a light signal is triggered in the control center (Z) as soon as the resistance in the closed circuit becomes greater than R + G (internal resistance of the glow lamp). 3. Fire alarm device according to claim 1, characterized in that a on the contact plate (5) externally accessible button (10) is arranged, by means of which the contacts (1, 2) are opened by hand and the contacts (3, 4) are closed and thus the encoder can be triggered for a test. Documents considered: German Patent No. 952 778; U.S. Patent Nos. 2,459,015, 2,704,840; "Impulstechnik" by Ing. H. Richter, radio mentor, 1948, p.196;
British Patent No. 436,755. 1 sheet of drawings