DE1023373B - Fire, accident and safety alarm system - Google Patents

Description

GERMAN

The invention relates to a further development and embodiment of the patent 962,587 protected Invention.

The subject of the main patent is a fire, accident and safety alarm system that has a number of detectors and a receiving system and using shortwave or ultra-shortwave transmitters works, which emit a carrier wave modulated with audio frequency, according to which for the building to be monitored or the The rooms to be monitored are provided with transportable signaling devices each containing a small transmitter, the one by itself or, in the case of signaling devices combined into groups, several audio frequencies Has modulation frequencies that are generated manually by a pulse generator when reporting by the surveillance officer, and that in the Central office a single receiving device is assigned to the various reporting points in such a way that after demodulation, the high-frequency messages emanating from the individual reporting points selectively perceptible that the modulation frequencies of the reporting points corresponding resonance relays are assigned, which each trigger an optical signal.

According to the invention, the subject matter of this main patent is developed in various directions and designed.

The training initially relates to the pulse generator. While according to the subject of the main patent frequency generators are used as pulse generators, the vibrations of which are in the audible range, according to the invention the frequency range for the pulse generators is extended to medium frequencies, for which piezoelectric generators, especially made of Seignette salt, are used. It has also been shown that the frequency of the pulse generator can be in the high frequency range. In this case it is only to be noted that the frequency of the carrier wave is about ten times, for example 1 megahertz if the natural frequency of the pulse generator is to be 10 ⁵ Hertz. In this case the pulse generator consists of a frequency generator with an electrical oscillating circuit.

The development according to the invention also relates to the triggering of the pulse in the various Reporting offices. For this purpose it is provided according to the invention that to trigger the Alarm a drive motor is provided. If this drive motor is a spring motor, it is useful to see a mechanical switch or a relay, which, in turn, manually actuates the Inhibition of the spring mechanism triggers. The drive motor can also be an electric motor, its circuit Fire, accident and safety alarm system

Addendum to patent 962 587

Applicant:

Wilhelm Kengelbach,
Baden-Baden, Sofienstr. 21

Wilhelm Kengelbach, Baden-Baden,
has been named as the inventor

is closed by arbitrary actuation of a normally open contact to trigger the pulse generator. in the In the sense of the main patent it goes without saying that when the working contact is pressed, the small transmitter the reporting office is switched on for signaling.

The inventive development of the main patent also relates to the fact that for certain Purposes in a special way an automatic alarm is provided. For the purpose of security against burglary, an automatic alarm can be triggered be triggered by means of a highly sensitive microphone, the noises caused by the break-in records. In the same way can be used for fire alarm purposes to achieve an automatic Alarm output by a photocell or thermally a contact thermometer or simultaneously both means may be provided.

The invention will now be explained in more detail with reference to the drawing of some exemplary embodiments.

As can be seen, Fig. 1 shows the scheme of a reporting office. Here 36 is the electric motor, to its Switching on the normally open contact 37 is provided for the purpose of arbitrary triggering of the pulse generator.

Fig. 1 clearly shows that the invention provides the possibility in a further development of the main patent is the reporting of accidents and break-ins, to a certain extent also reporting

709 850/80

Claims (12)

of damaging fire, in the rooms to be secured such as storage sheds, magazines or the like., to trigger automatically. A highly sensitive microphone 38 is provided for reporting acoustic alarms according to FIG. 1, a photocell 39 is provided for reporting optical alarms, and a contact thermometer 40 is provided for reporting thermal alarms. 41 is a power source which feeds the electric motor 36 when the relay 42 is actuated after one of the organs 38, 39 or 40 has been triggered. The invention also relates to the design of the control center in such a way that trouble-free operation is guaranteed under all circumstances. Fig. 2 shows schematically the receiving system for automatic optical display of an alarm with precise specification of the code number of the reporting point. For this purpose, the receiver 16 is equipped with a frequency resonator 17, which corresponds completely to the frequency generator in the reporting points. If piezoelectric oscillators or oscillation circuits are provided as frequency generators in the individual reporting points, the same resonators, i.e. piezoelectric oscillators or oscillation circuits, must be used in the receiver of the control center. So that you can now just as easily and clearly see which reporting point has given the alarm, the frequency resonators 17 are designed as relays in such a way that contacts 47, 48 and 49 are actuated by the frequency resonators, with contact 47 being the one, contact 48 the tens and contact 49 the hundreds of the code number of the individual reporting office. For this purpose, a step magnet 18 is provided as a pulse distributor for the units unit, a step magnet 19 as a pulse distributor for the tens unit and a step magnet 11 as a pulse distributor for the hundreds unit. The current source 22 excites the coil 51 of the step magnet 18 via the contact 47 and the line 50, furthermore the magnet coil 53 of the step magnet 19 via the contact 48 and the line 52 and in the same way the coil 55 via the contact 49 and the line 54 of the step magnet 11. If the coil 51 is energized, the armature 56 of the step magnet 18 brings its contact arm 58 out of the zero position of the switch 57 in the same number of steps into the position that gave the reporting pulse disc in the unit unit in the relevant reporting point. In the above embodiment of the reporting office with the code number 713, the contact arm of the pulse distributor 18 takes three steps, in the same way the contact arm of the pulse distributor 19 for the tens unit takes one step and the contact arm 60 of the pulse distributor 11 for the hundreds unit seven steps. This number 713 can be read from an optical panel 20, which consists of as many rows of vertically stacked numbers 0 to 9 as the monitoring system has units, i.e. three rows for a monitoring system with units, tens and hundreds. A small signal lamp is assigned to each digit, as is known per se in light signal panels for hotel call systems, etc. With 21 the alarm siren is referred to. The trigger magnet for canceling the alarm message is indicated by 23 and the trigger for actuating the trigger is indicated by 24. 25 means the loudspeaker for reproducing the message. In the event of an alarm, the siren 21 sounds until the pusher 24 is actuated by the officer seated in the control center and when it is actuated all step magnets (impulse distributors) 18, 19 and 11 jump back to their zero position. Pa τ ε ν τ α ν s ρ r 0 c π ε. 1. Fire, accident and safety alarm system, which has a number of detectors and a receiving system and which works using shortwave or ultra-shortwave transmitters, which emit a carrier wave modulated with audio frequency, according to patent 962 587, thereby characterized that frequency generators are used for the pulse generators of the various reporting offices find whose eigenwaves in the medium frequency range (9000 to 60,000 Hertz) or in High frequency range (over 60,000 hertz). 2. Installation according to claim 1, characterized in that the frequency generators are piezoelectric Schwinger, in particular discs made of Seignette salt, are used. 3. Plant according to claim 1, characterized in that a frequency generator with electrical Oscillating circuit with a natural frequency of up to 100,000 Hertz is used. 4. Fire, accident and safety alarm system, which has a number of detectors and a receiving system and which works using shortwave or ultra-shortwave transmitters, which emit a carrier wave modulated with audio frequency, according to patent 962 587, in particular according to claims 1 to 3, characterized in that a drive motor is used to trigger the alarm is provided. 5. Plant according to claim 4, characterized in that a spring motor is used as the drive motor Is used that by a mechanical switch or a switching relay on and off by hand can be switched off. 6. Plant according to claim 4, characterized in that an electric motor is used as the drive motor (36) is used, which is switched on by a normally open contact (37) to issue an alarm. 7. Fire, accident and safety alarm system according to patent 962 587, in particular according to claim 1 to 6, characterized in that for the purpose of securing against burglary an automatic Alarm signaling can be triggered by means of a highly sensitive microphone (38), which is triggered by the Noises caused by burglary. 8. Fire, L ^T nfaIl- and safety alarm system according to patent 962587, in particular according to claim 1 to 6, characterized in that a photocell (39) or a thermal contact thermometer (40) for fire alarm purposes to achieve an automatic alarm. or both means are provided at the same time. 9. fire, accidents and safety alarm system, comprising a plurality of detectors and a receiving system and which operates under \ ^r SE OF short wave or LHtrakurzwellensendern which emit a modulated with audio frequency carrier wave according to Patent 962 587, in particular according to claim 1 10, characterized in that in the control center the frequency resonators assigned to the individual pulse generators of the reporting points are designed as relays in such a way that through them one contact each for the ones (47), for the tens (48) and for the hundreds derter (49) the code number of the reporting office is pressed. 10. Signal system according to claim 9, characterized in that step magnets are used as the pulse distributor are provided, one such for the units unit (18), for the unit of ten (19) and for the hundreds unit (11). 11. Signal system according to claim 9, characterized in that that to excite the coils (51, 53, 55) of the various step magnets (18, 19,11) a power source (22) is provided. 12. Signal system according to claim 9, characterized in that to cancel the alarm message a release magnet (23) and a trigger (24) to actuate the release is. Considered publications: German patent specifications No. 614 880, 578 019, ίο 301 525, 800 027, 571356, 699 466, 537 300; Swiss Patent No. 258 158. 1 sheet of drawings