RU1786497C - Fire detector - Google Patents

Abstract

The invention relates to automatic fire alarms. The aim of the invention is to increase the functional reliability of the device in aggressive and explosive atmospheres. The fire detector contains a radiation source 1, a radiation receiver 2, fiber sections 3 connected by metal couplings 4 containing a thermal indicator composition. When the temperature of the test object rises, the thermal indicator composition in clutch 4 changes its transparency and the device generates an alarm, 1 ill.

Description

The invention relates to automatic fire alarms and can be used to protect household objects to be equipped with automatic fire alarms, in particular at livestock and poultry facilities of the agricultural complex, where, due to the aggressive environment 1, the use of existing detectors is not effective.

The aim of the invention is to increase the functional reliability of the device in aggressive and explosive atmospheres.

The drawing shows a fire detector, consisting of a radiation source 1, a radiation receiver 2, a radiation transmission line to a controlled space in the form of fiber sections 3 connected by metal couplings 4.

Inside the couplings 4, the ends of the optical fiber divide the thermal indicator composition 5. The couplings 4 are thin-walled and have a high heat transfer coefficient. As a thermal indicator composition 5 can

thermochemical, liquid crystal, or luminescent thermal indicators that change their transparency, color, or luminescent ability can be used. to quote, when a certain temperature is reached,

The detector operates as follows.

In standby mode, the radiation from the source 1 propagates through section 3 of the fiber to its end, then passes through a transparent layer of thermal indicator composition 5, enters the next section 3 of the fiber, and so on until the last section 3 of the fiber, from the end of which passes to the radiation receiver 2 and fixed in it. As the temperature in the controlled room rises, the indicator composition 5 changes its transparency, as a result, the radiation receiver 2 detects a sharp decrease in the radiation flux and generates an alarm. Due to the temperature rise in the controlled room, a corresponding signal

h | 00 O ± S XI

alarm receiver 2 radiation and the alarm system is triggered,

The device can also be used in fire hazardous rooms of various industries, as there are no live parts that can cause a spark.

Clutches A give the thermo-indicator composition 5 the geometric shape of the fiber 2, conduct heat from the environment to the thermal composition, isolate the ends of the fiber and the thermo-indicator composition 5 from the effects of aggressive and fire-explosive

.environments. Attaching a fiber section with clutches eliminates the need for focusing elements. Unlike the prototype, the proposed device does not respond to smoke, but to an increase in temperature. In the device according to the invention, in contrast to the anti-spider, in addition to the radiation transmission system, only the source and receiver of the receiver G1, which significantly reduces the element base of the product, and therefore, the reliability is increased. The optical fiber used in the proposed device for protection against aggressive media is coated with a chemical resistant sheath.

The transmittance g of the thermal indicator composition was measured to confirm the feasibility of the device.

Measurement conditions: I - thickness of the test samples - 0.3 mm, radiation source - KGM type lamp 6.6-100. The measurement results are shown in the table.

Claims (1)

Gain Formula A fire detector containing a radiation source, a radiation transmission line to a controlled space in the form of fiber sections, opaque couplings are placed in the gaps between the fiber sections, and a radiation receiver, characterized in that, in order to increase the functional reliability of the device in aggressive and -explosive atmospheres, heat-sensitive elements made of thermo-indicator composition are introduced into the device, sections of the optical fiber are covered with a chemically resistant sheath, hermetically connected metal E couplings, which are located inside the temperature-sensitive elements made of temperature-sensitive composition, W L V / /