SU81291A1 - Automatic Fire Alarm Device - Google Patents

Description

The subject of the invention is a device for an automatic fire alarm system with a source powered by a relaxation generator with a neon lamp and sensors in the form of thermistors installed on the protected object for taking into account 1 temperature change.

Applied devices with hand signaling do not provide continuous monitoring of the temperature of an object. Alarms are triggered only when a fire has already started. Meanwhile, the task of the fire brigade is to prevent fire penetration. This can only be done by continuously monitoring the temperature of the object. The tendency to increase the temperature should immediately trigger an alarm and a follow-up check to determine and eliminate the causes of this temperature increase.

The absence of continuous monitoring makes it impossible to distinguish a false signal from a real one, since both of them suddenly appear. All known signaling devices are contactless, unreliable, expensive, and require qualified personal care.

The described device is characterized in that it is based on the use of so-called thermistors (resistances from semiconductor materials with a high temperature coefficient of resistance) in combination with a relaxation circuit on a gas discharge lamp working on a piezoelectric or other type of reproducer. This gives both acoustic and light signals, ensures continuity of control over the temperature regime of the protected object according to the frequency of flashes of the neon lamp of the relaxation generator.

The proposed scheme of continuous fire alarm system is shown in the drawing.

Accepted designations; 1, 2 and 3 - protected objects equipped with nine thermistors 4 - 12; 13 - power supply battery; 14-17 - signaling devices; 18 - piezoelectric loudspeaker, simultaneously # 81291.- 2 -

acting as a reservoir in the relaxation circuit; 19 - a usual electromagnetic reproducer; 20 - charge resistance.

The resistances of the 4- / 2 thermistors and the capacitors 19-22 are selected so that at a normal temperature the number of flashes of neon lamps 15-17 over a certain control period would be small. This time interval is determined by the interval of the meladu by two flashes of a neon lamp 14 with a constant resistance of 25 (instead of a thermistor).

As the temperature of the object increases, the resistance of the thermistors decreases and the frequency of the neon lamp sockets increases approximately in proportion to the temperature. At very high temperatures, the luminaire will start flashing with great frequency, and finally, when the temperature reaches the maximum permissible level, the blinking of the lamp is not perceived by the eye.

Simultaneously with the light signal can be obtained and acoustic. For this, for example, a piezoelectric loudspeaker 18 is turned on instead of a capacitor in parallel with a neon light bulb. Each flash of a neon light bulb will cause silk in the loudspeaker. As the temperature rises, clicks become more frequent and finally in a fire, their frequency will be on the order of sound.

Instead of a piezoelectric one can use another type of loudspeaker, including its sound winding through a small capacitance 22.

The drawing shows a diagram designed for three controlled objects, the number of which may be more. In addition, at the points of the same object, it is possible to install thermistors that are connected to the connecting line in parallel. This makes it possible to control the temperature at several points of the same object.

The proposed alarm system may, if desired, be duplicated by a conventional contact system, as shown on the object /. When the contact 24 is closed, the neon light 15 will be on.

Subject invention

1. A device for an automatic fire alarm, powered by a relaxation generator with a neon lamp and sensors in the form of thermistors installed on the protected object, characterized in that, in order to continuously monitor the temperature mode of the protected object by the frequency of flashes of the neon lamp of the relaxation generator, as The resistors in this circuit include the mentioned thermistors.

2. The form of the device but p. 1 using the reception of the duplication of optical signals by acoustic signals, characterized in that a piezoelectric transducer or an electromagnetic reproducer connected in series with the capacitors of the corresponding capacitance is included in the circuit of the relaxation generator.

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