SU542216A1 - Fire detector - Google Patents

Description

one

The invention relates to the field of automatic detection of fire and actuation of fire extinguishing systems. topics

A device for detecting is known.

ultraviolet flame fires with non-self-extinguishing counters.

The known device contains a photon counter (as a sensitive element), an amplifier executive relay and a power supply unit ij,

The sensitivity of this device is low due to the application of alternating current quenching schemes, and the instability of its operation is due to a long discharge in the meter, which comes in time over the sub-period of alternating voltage. A thyratron quenching scheme provides a somewhat shorter discharge time in the photon counter, determined by the time constant of the multivibrator, however, the parameters of the thyratron change during operation, which reduces the reliability of operation.

Closest in technical essence

The solution to this invention is a fire detector containing a photon counter, connected through an amplifier to a thyristor control electrode, an execution relay, in parallel with which a capacitor is connected. One output of the executive relay is connected via a load resistor with a counter, photons and anode, a thyristor, and the other is connected to the secondary winding, fed to its transformer, to which the thyristor cathode is connected, an amplifier, and a photon counter through the load resistor.

The disadvantages of this detector are the limited service life due to the fact that the circuit uses only self-extinguishing photon counters with limitations. unlimited resource, high voltage supply and the dependence of efficiency on the power of radiation of the fire source ..

Moreover, the main positive quality of the detectors is that the high sensitivity (the ability to detect the smallest sources of fire) to ultraviolet radiation is transferred to its projective location.

The presence of a foci with strong ultraviolet radiation in the visibility zone of the detector. A powerful flux of ultraviolet radiation disrupts the operation of the converter and detects a photon counter that is choked, and instead of issuing current pulses, produces a constant current. Since in such detectors the amplification of the counter signals occurs in alternating current, then in the presence of a powerful flux of ultraviolet radiation the detector circuit is inoperative. The likelihood of such a condition is relatively high. Irradiation with a powerful ultraviolet flux can occur at close distances between the source and the detector, if it is necessary to register fast-moving products in the presence of flares, etc.

The aim of the invention is to improve the reliability of the device.

For this purpose, a day was introduced into the selection circuit from a series-connected capacitor of the dynistor, parallel to the TOpON-fy including diode, and a second diode connected in parallel to the thyristor, and the anistor of the dynistor was connected to the secondary winding of the supply transformer through a current-limiting capacitor.

The drawing shows the scheme of the proposed detector.

The fire detector contains a photon counter 1 connected via the third 2, second 3 load resistors and an amplifier 4 to the thyristor 5. The thyristor anode is connected through the first load resistor 65 parallel connected winding of the full polarizer south relay 7 and the first capacitor Sj a also through the second condenser 9 jf, the current-limiting resistor 1 of the sub-terminals to the high-voltage power supply J. 1 and through the second capacitor 9 to the anode of the dynistor 12,

A thyristor control electrode 5 is connected to the amplifier 4.

Power amplifier. 4 is supplied from a low-voltage power source 13, the entire circuit is supplied from an AC mains through a transformer 14. Through contacts 15 of turnip 7, connected in parallel with contacts 16 of relay .17, the winding of relay 17 is connected to the main current of power transformer 14, diodes 18 and 19 included respectively parappen and in series with the history of 12.

In the duty relay in the counter of photons 1 in the absence of ultraviolet radiation, there is no current, which leads to the absence of a signal at the input of amplifier 4 with resistive links. In this case, the thyristor 5 is closed, and the dynistor 12 is open. When the photon counter 1 is excited by background, ultraviolet, radiation in it. a discharge occurs, and a certain voltage is applied to the cathode napryk 3, which is fed to the input of the amplifier 4. The signal from the amplifier 4 with resistive connections opens the thyristor S.

the current flows through the winding of the relay 7 and the resistor 6. As a result, the operating voltage from the photon counter 1 decreases: the distor 12 is locked by a reverse voltage across the capacitor 9. The first diode

18 and second 19 provide protection for the transmitter against the effects of high reverse voltage.

After a period of time, I define the parameters of the current-limiting

the resistor 10 and the capacitor 9; the voltage on the dynistor 19 reaches the value of the piercing voltage. Dhshistor 12 opens and thyristor 5 closes. At the same time, the photon counter 1 and thyristor

5 comes in the original condition.

The parameters of the first load resistor b, the first capacitor 8 and the executive relay 7 are chosen so that when one or even several

background pulses executive relay 7 does not work.

The duration of the current pulse, the passage through the photon counter, def. The matter, with the time that the thyristors are turned on and not

exceeds 100 microseconds.

If there is an open flame in the visibility zone of the detector, the circuit issues pulses with a frequency of up to 18 Hz, and the first capacitor 8 is charged before

The actuation of the actuation of the executive relay 7. Repe 7 includes with its contacts 15 a relay 17, which is blocked by contacts 16, With contacts 20 a relay 17 turns on a fire extinguishing system

nor alarm.

Form ula invention

A fireman containing a photon counter, connected via an amplifier to the control electrode of the thyristor, an executive relay, parallel to the Topoiviy the first detector is connected, one output of the executive relay is connected through the first load resistor with the counter, the photons and the anode of the thyristor and the other to the secondary winding jj transformer, to which the thyristor cathode is connected, the amplifier and, via a second load resistor, a photon counter, characterized in that, with a circuit for improving the reliability of the device, A circuit is introduced from a series-connected second capacitor, a dynistor, in parallel to which a first diode is plugged in, and a diode connected in parallel to the thyristor, and

the dynistor anode through a current-limiting resistor is connected to the secondary winding of the supply transformer.

Sources of information taken into account in the examination:

1, copyright certificate. the USSR

No. 44 3630 kp. G 08 B 17/12 21.5 74 g.

2. USSR author's certificate

M 358711 cl. G-08 B 17/12 9.3.71

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