RU70391U1 - HEATED FIRE DETECTOR FOR EXPLOSIVE HAZARDS AND ROOMS - Google Patents

Abstract

The thermal fire detector is designed to detect fire by increasing the ambient temperature in rooms and at plants with explosive atmospheres, as well as on ships. The head 1 is made in the form of a flameproof enclosure made of stainless steel, has two input devices 2 and a block 5 with screw terminals 6 for connecting external wires. Introductory devices 2 are equipped with elastic rubber bushings 3 and pressure devices 4. The head 1 has a fitting 7 and a lock nut 8 for attaching the detector to the object. The protective cover 9 has two separate tubes 11 with a diameter of 5 mm each with heat-sensitive sensors 12. A powder 13 in the form of alumina is filled between the protective cover 9 and the sensors 12. The sensor 12 has a heat-sensitive element made of a foil tape material with a shape memory effect. The inertia has been reduced, the accuracy and stability of the detector operation has been increased, the scope has been expanded.

Description

The utility model relates to fire alarm technology, in particular to thermal fire detectors, and can be used to detect fire by increasing the ambient temperature at the detector installation site, including in rooms and facilities with explosive atmospheres and on ships.

The well-known thermal detector TRV-2 (NF Bubyr, RP Vorobyov and others, “Operation of fire automatics installations.” M., Stroyizdat, 1986, p. 240), made in explosion-proof design with flameproof enclosure. The thermal detector contains a brass tube and an Invar rod fixed in its lower part, connected with electrical contacts and having different coefficients of thermal linear expansion. When the air temperature rises to a certain value, a brass tube, elongating, pulls an invar rod along it, breaking the electric spring contacts. The temperature of the thermal detector is adjusted by adjusting the compression force of the spring-loaded electrical contacts by means of adjusting screws.

A disadvantage of the known thermal detector is the instability and inaccuracy of the detector. This is explained by the following. The outer cover, which is a sensitive element, is made in the form of a tube, which is subject to oxidative destructive environmental influences, as a rule, present at explosive objects, which leads to a change in the setting of the response temperature. The detector has to be removed from the designated place, check the response temperature and configure in a special laboratory. In this case, during dismantling and installation, it is necessary to protect the brass tube from mechanical damage, since they affect its geometric shape, which leads to a change in the response temperature, i.e. to the instability and inaccuracy of the detector.

The prototype closest to the claimed utility model in terms of essential features is a thermal fire detector IP103-1 (TU 25-0951.009-88) containing a head made of an aluminum alloy in the form of an explosion-proof shell having two input devices, a tube made of stainless steel with a plugged end, which is a protective case in which two bimetallic temperature sensors are placed, the bimetallic plates of which have the shape of a sphere. When the response temperature is reached, the bimetallic spherical plate is straightened and, under the action of elastic forces, “clicks” in the opposite direction, breaking the electrical contacts.

A disadvantage of the known detector is a large inertia of operation. This is explained by the large dimensions of the bimetallic temperature sensors and the large diameter of the protective cover, the well-known detectors made of stainless steel, equal to 22 mm, which does not meet the requirements for inertia fire safety standards NPB 85-2000, put into effect in 2001.

The proposed utility model solves the problem of reducing inertia, improving the accuracy and stability of the detector.

To achieve the specified technical result in a heat fire detector, including a head made in the form of an explosion-proof shell and equipped with two input devices and pads with threaded contact studs, a protective cover made of stainless steel and at least two heat-sensitive sensors, the protective cover is equipped with a tip with at least two protective tubes fixed on it, in each of which small-sized heat-sensitive sensors are separately installed, made They are made of foil tape material with a shape memory effect, the protective tubes being made with a diameter of not more than 5 mm, and the free space between the thermosensitive sensors and the protective cover is filled with aluminum oxide powder. The head is made of stainless steel.

Due to the presence of these signs, the inertia decreases, the accuracy and stability of the detector operation increase. The presence of a tip with two tubes, in which separately installed small-sized thermosensitive sensors makes it possible to reduce the inertia of the detector, providing the requirements of norms of air safety standards 85-2000. The implementation of heat-sensitive elements of a thin metal material, for example, a foil tape with a shape memory effect, makes it possible to install small-sized sensors, allows more efficient use of the mass unit of the heat-sensitive element, which leads to a decrease in the size and weight of the sensors and, consequently, to a decrease in inertia and an increase in accuracy and stability of the detector. The presence of two separately installed temperature sensors increases the reliability of the processing results. Filling with aluminum oxide the space between the thermosensitive sensors and the protective cover improves the resistance of the sensors to mechanical shock and vibration loads, which improves the accuracy and stability of the detector when exposed to mechanical external factors.

The essence of the utility model is illustrated in the drawing, which shows the appearance of a thermal fire detector and the installation of a temperature-sensitive sensor in a protective tube.

The thermal fire detector includes a head 1, made in the form of an explosion-proof stainless steel shell, having two input devices 2, providing connection

external wires supplied in pipes or armored cable, fire alarm loop cable. The input devices 2 are provided with elastic rubber bushings 3 and pressure devices 4 for sealing the outer wires. In the head 1, there is a block 5 with contact screw terminals 6 for connecting external wires. The head 1 is equipped with a threaded fitting 7 and a lock nut 8 for mounting the detector on the object. A protective cover 9, made of stainless steel, is welded to the bottom of the head 1, onto which a tip 10 is made, made of stainless steel and having two separate tubes 11 with a diameter of 5 mm each, in which one heat-sensitive sensor 12 with a diameter of 4 mm and a length of 10 is placed mm The free space between the sensors 12 and the protective cover 9 is filled with alumina powder 13 and sealed with the compound 14. The temperature-sensitive sensor 12 contains a temperature-sensitive element made of foil tape material with a shape memory effect with a normally closed contact, adjusted to the required operating temperature.

Device operation

When the temperature of the controlled medium rises above the permissible operating temperature, the contacts of the temperature-sensitive sensor 12 open, which is an alarm signal for alarm control panels of fire automatics.

The proposed thermal fire detector can significantly reduce the inertia, improve the accuracy and stability of the detector in comparison with the prototype.

The small size of the separate protective tubes with a diameter of 5 mm instead of 22 mm, as in the prototype, provides the necessary technical characteristics in accordance with the requirements of the norms of NPB 85-2000. In addition, the execution of the head made of stainless steel, and the insulating backfill of aluminum oxide, makes it possible to expand the scope of the detector, use the detector in marine climate on ships with an unlimited navigation area.

Claims (2)

1. Thermal fire detector, including a head made in the form of an explosion-proof shell and equipped with two input devices and a block with contact threaded rods, a protective cover made of stainless steel and at least two heat-sensitive sensors, characterized in that the protective cover is equipped with a tip with at least two protective tubes fixed on it, in each of which small-sized heat-sensitive sensors made of foil tape are separately installed Container material with shape memory effect, wherein the protective tubes are made with a diameter not more than 5 mm, and the free space between the heat-sensitive sensors and the protective cover is filled with powder of aluminum oxide. 2. The thermal fire detector according to claim 1, characterized in that the head is made of stainless steel.