SU1193708A1 - Ionization-type smoke detector - Google Patents

Abstract

A SMOKE IONIZATION FIRE DETECTOR containing a perforated cylindrical body inside which are installed the first and second electrodes parallel to the base of the case, a perforated intermediate electrode between them and a radioactive radiation source installed between the first and intermediate electrodes, the power source with one terminal of which is connected to the first the electrode. and the other through the first resistor - to the second electrode, the threshold element, the output of which is connected to the alarm device, characterized in that, in order to increase the functional reliability of the detector, a second resistor, a linear element and a screen made in the form of a cone, a perforated intermediate electrode are introduced into it made in the form of a cone, the top of which is rounded off, towards the first electrode, the perforated part of the cylindrical body corresponds to the height of the cone of the perforated intermediate electrode, the radioactive and the radiation point is located on the surface of the first electrode opposite the top of the intermediate electrode, the screen is mounted above the surface of the active source radio to the side (L of the radioactive radiation source, the intermediate electrode is connected to one input of the threshold element and through the second resistor to the other terminal of the power source and the second electrode through a nonlinear element is connected to another input of the threshold element. with with about 00

Description

The invention relates to a fire alarm technique, in particular to smoke detectors, and can be used for work in places where strong air currents can occur.

The purpose of the invention. and) h is an increase in the functional reliability of the weigher.

In the drawing., While $ ana functional scheme of the smoke ionization fire ranger -.

The detector contains the first 1 and second 2 electrodes, a perforated intermediate electrode 3 placed in a perforated cylindrical body 4, a radioactive radiation source 5, terminals 6 and 7 of a power source (not shown), a resistor 8, a threshold element 9, a resistor 10, a nonlinear element 11 , annunciator 12 and screen 13.

The device works as follows.

In the initial CONDITION, the source 5 ionizes the space between the electrode 1 and the perforated intermediate electrode 3, which causes current to flow through the resistor 8. In the absence of smoke, the space between the electrode 2 and the perforated intermediate electrode 3 is not ionized and there is no current through the resistor 10. The presence of the screen 13 eliminates the ionization of the space between the electrode 2 and the perforated electrode 3 in the absence of wind, so there is no current in the resistor 10.

When smoke aerosols get into the zone between electrodes 1 and 2, the current through the resistor 8 decreases, which leads to a decrease in the potential difference at the inputs of the threshold element 9. When the potential difference decreases to a certain predetermined value, the threshold element 9 triggers and turns on the indicator 12.

If a strong air current acts on the detector, then ions are transported by this air flow from the area bounded by electrode 1 and the perforated intermediate electrode 3 to the area bounded by electrode 2 and the perforated intermediate electrode 3. This leads to current flow through the resistor 10 and the potential decreases at the other input of the threshold element 9. The presence of the nonlinear element 11 ensures that the response time of the threshold element corresponds to a given concentration of smoke, regardless of ensivnosti airflow.

As a resistor 8, a reference ionization chamber can be used, which ensures the temperature stability of the weigher.

Claims (1)

SMOKE IONIZATION FIRE DETECTOR, comprising a perforated cylindrical body, inside which parallel to the body bases are installed flat first and second electrodes, a perforated intermediate electrode and a radiation source located between them installed between the first and intermediate electrodes, a power source, one terminal of which is connected to the first electrode and the other through the first resistor - to the second electrode, the threshold element, the output of which is connected to the signaling device, differs In that, in order to increase the functional reliability of the detector, a second resistor, a linear element and a screen made in the form of a cone are introduced into it, the perforated intermediate electrode is made in the form of a cone, the apex of which is facing the first electrode, the perforated part of the cylindrical body corresponds to the height the cone of the perforated intermediate electrode, a radioactive radiation source is located on the surface of the first electrode opposite the top of the intermediate electrode, the screen is mounted on surface and radio active source vertex towards' ⁿ the radiation source, an intermediate electrode is connected to one input of a threshold, the second element via a second resistor to the other supply terminal, and the second electrode via a nonlinear element connected to the other input of the threshold element. and 93708