SU805961A3 - Smoke ionization detector - Google Patents

Abstract

The detector has at leat on ionisation chamber whose voltage is monitored by an IGFET. The FET (1) drain (2) is connected through a resistor (6) and capacitor (7) to the terminals (13, 12) of a supply circuit and directly to a comparator (10). It is also periodically connected through resistor (4) and switch (5) to the supply terminal (12). The comparator (10) is connected directly to the supply terminal (12) and through an RC circuit (8, 9) to its terminal (13). Control terminal of a flip-flop (11) is connected between the comparator (10) and the RC circuit (8, 9).

Description

(54) IONIZATION Smoke Detector I

Tel - with the second pole of the power source. The comparator is connected to the second pole of the power source, and through a circuit consisting of parallel connection of a resistor with a capacitor - to the first pole of the power source, and between the comparator and the circuit; R is connected to the control input of a bistable trigger.

The advantage of the sensor is to reduce its sensitivity to radio interference, which is associated with the pulse mode of the sensor system. The current pulses of the sensor supervision program (in amplitude) are significantly higher than any random current pulses induced in the supervisory line. The short time during which: supervisory program pulses are an additional useful factor directly affecting the decrease in the average current consumed by the sensor, and this makes it possible to use a useful extension of the supervisory line or the use of smaller cross-section wires. In addition, a thicker layer field effect transistor can be used in this sensor. Such a transistor is more resistant to electrical breakdown, increases the reliability of the sensor and facilitates the process of its production.

The drawing shows a schematic diagram of the electronic system of an isotopic smoke sensor.

The sensor consists of series-connected ionization chambers 1 and 2 connected to poles 3 and 4 of a power source, and their common electrode is connected to an insulated gate 5 of a field-effect transistor b, the drain 7 of which is connected through a resistor 8 to pole 4 a power source and directly with the comparator 9, and through the capacitor 10 with the second pole 3 of the power supply. At the same time, the source 11 of the field telesistor 6 is periodically connected via a resistor 12 and an electronic switch 13 to the second pole 3 of the power source, and is also connected to the comparator 9, the comparator 9 being connected with a single clamp directly to the pole 3 of the power source; and the second terminal through the RC circuit, which consists of the capacitor 14 of the capacitor 14 and the resistor 15, with the first pole 4 of the power source. In addition, a common point between the comparator 9 and the RC circuit is connected to the control input of the bistable trigger 16, which is connected directly to the ports 3 and 4 of the power supply; .

The system isotopic smoke sensor, works as follows.

The isotopic smoke sensor included in the surveillance line automatically generates current pulses supplied through the electronic switch 13 during the surveillance program. Through a series of connected ionization chambers 1 and 2, as well as through a resistor 8, capacitor 10, which recharges O, a small current flows. This capacitor is discharged to a certain extent by short-term periodic current pulses of the supervisory program.

At the moment smoke enters the ionization chamber 1, which controls the sensor environment, the potential changes at the common electrode for both ionization chambers 1 and 2 and at the isolated gate 5 of the field-effect transistor b, which causes a change in the short-term voltage pulses of the source 11 of the field-effect transistor which

5 appears at the moment of conduction of the electronic switch 13, and after exceeding a certain value of these pulses, the capacitor 14 is pulsed to pulse. A certain increase in voltage on the capacitor 14 changes the state of the trigger 16, which passes from the supervision position to the alarm position. The sensor returns to the oversight position.

, with the disappearance of the smoke in the chamber monitoring the environment, and a short-term disconnection of the power supply circuit of the sensor is also necessary.

Claims (1)

1. Patent GDR 86986, cl. 42 1 4/10, 1970. 2, Swiss Patent No. 468683, cl. G 01 N 27/64, 1972 (prototype)