RU80609U1 - HEAT FIRE DETECTOR - Google Patents

Abstract

Declared as a utility model, a thermal fire detector relates to electric fire alarm devices and can be used to detect the initial stage of ignition. The technical result of using the inventive heat detector is to increase its reliability and expand the scope of application. This result is achieved by the fact that a thermal fire detector containing a temperature signaling unit for monitoring the temperature of the controlled medium and a sensing element connected to it by a flexible cable in the protective fittings converts the temperature change into an electrical signal, according to the claimed improvement, the flexible cable protective fittings are made of stainless steel in the form of a thin-walled long pipe with a sealed end, in which conductors of thermoelectrode alloys are placed Connected at the end of a lengthy metal tube and constituting the sensor element, wherein the conductors and the sensor to distance in a thin-walled metal pipe, and the first - together, mineral insulation, wherein the particle size does not exceed the diameter of the flexible cable. 1 n.p.f., 1 Fig.

Description

Declared as a utility model, a thermal fire detector relates to electric fire alarm devices and can be used to detect the initial stage of ignition.

Known thermal fire detector containing a sealed enclosure with a terminal box, cable entries and a hollow probe, in which there is a thermosensitive element electrically connected to the terminals of the box, while the probe is a sealed, attached to the body thermosensitive head, which has a developed heat-sensing surface in in the form of a radiator with radially protruding fins and a black surface, and a sleeve having an external axial stop is placed inside the head, and thermo the sensitive element is placed in the cavity of the sleeve, which is mounted in the head to provide thermal contact with the latter, and between the end surface of the axial stop of the sleeve and the end surface of the head facing the housing, an intermediate sleeve is clamped that is insulated from the head and sleeve. (1).

A disadvantage of the known thermal fire detector is the restriction of the control zone only to the place of its installation, because the probe is mounted directly on the protective housing. The impossibility of using this detector to monitor the state of the environment in areas remote from the installation site imposes certain restrictions on the conditions of the controlled environment, in particular, this detector is unsuitable for use in radiation and chemically hazardous areas, because a large number of connections of parts of the probe and the presence of a radiator with radially protruding

edges on the surface of the latter complicates the decontamination or degassing of the detector surface.

Known thermal fire detector that allows you to control the environment in the area remote from the detector housing, and containing a sensing element that converts the temperature value into an electrical signal made in the form of a differential thermocouple (thermoelectric converter) connected to an electronic unit for signaling temperature changes of the controlled environment, consisting from a series-connected amplifier, amplitude discriminator, integrator, threshold and actuator. (2). (RF patent No. 21110093 for CL G08B 17/06, published on 04/27/1998)

The disadvantage of this heat detector is its limited scope, which is due to the temperature range (usually up to 80 ° C), in which it can work in a modern elemental base of electronic components (microcircuits, diodes, transistors, etc.) and the inability to use this heat detector for higher response temperatures (according to the requirements of NPB 85-2000). In addition, the lack of protective fittings (cover) on the sensitive element does not allow the use of this thermal fire detector in explosive atmospheres.

The closest to the claimed technical solution for the purpose, technical essence and the achieved result is a heat fire detector containing a temperature control unit connected to the alarm unit, which is located in a separate housing, and a protective element placed in the protective armature, which converts the temperature of the controlled environment into an electrical signal (3). The terminals of the sensor are connected to a flexible cable in a metal

braided and sealed by a heat-shrinkable tube, and the signaling unit for changing the temperature of the controlled environment is made in the form of electronic keys, which allows to separate the sensitive element and the electronic signaling unit into different temperature zones, thereby increasing the detector's ability to work at higher (over 80 ° С) temperatures triggering.

A disadvantage of the known detector is the need to protect the junction of the sensing element with a flexible cable. The presence of intermediate connections requiring protection reduces the reliability of this detector. At the same time, sealing the connection of the sensitive element with a flexible cable with a heat-shrinkable tube, along with the protection of the cable with a metal braid, narrow its scope. In particular, the protrusions at the junction and the rough metal sheath of the cable do not allow the effective degassing and decontamination of this heat detector, which limits its use in chemical plants and nuclear power plants.

The technical result of using the inventive heat detector is to increase its reliability and expand the scope of application.

This result is achieved by the fact that a thermal fire detector containing a temperature signaling unit for monitoring the temperature of the controlled medium and a sensing element connected to it by a flexible cable in the protective fittings converts the temperature change into an electrical signal, according to the claimed improvement, the flexible cable protective fittings are made of stainless steel in the form of a thin-walled long pipe with a sealed end, in which conductors of thermoelectrode alloys are placed Connected at the end of a lengthy metal tube and constituting the sensor element, wherein the conductors and the sensor element

they are spaced in a thin-walled metal pipe, and the former are interconnected by mineral insulation, the particle sizes of which do not exceed the diameter of the flexible cable.

The implementation of the protective fittings of a flexible cable of stainless steel in the form of a long thin-walled pipe with a sealed end, and the placement of a sensitive element from thermoelectrode alloys in it, eliminates the need to protect the connection of the sensitive element with the cable and, thereby, increases the reliability of the detector as a whole. The presence of a thin-walled long stainless steel pipe with a smooth outer surface, without joints and joints, makes it possible to clean the flexible cable and the sensitive element from radioactive and chemical contaminants. In addition, in this embodiment, the protective fittings of the flexible cable and the sensing element serve as the shield element of the detector, which also increases its reliability.

An example of a possible implementation of the inventive thermal fire detector is shown in Fig. 1.

A sensing element 1 that converts a temperature change into an electrical signal and thermoelectrode alloy conductors 2 are enclosed in a thin-walled long-length stainless steel pipe 3 and connected to a signaling unit 4 for changing the temperature of the controlled environment, which is located in a separate housing 5, which is installed in a room remote from the controlled object .

A thermal fire detector is used as follows:

The housing 5 with the signaling unit 4 of the temperature change of the controlled environment is placed in room A, where there are no external disturbing influences on the electronic components of the signaling unit of the temperature change.

The sensing element 1 of the thermal fire detector, bending a thin-walled long-length pipe 3 for laying through room B, is placed in room C, in which the controlled object is located and a source of fire is possible. (The nodes for sealing the passage through the walls of rooms A, B, C are not shown).

When a fire occurs in room C, a change in temperature occurs in it. The sensor element 1 converts the temperature change in room C into an electrical signal and, through the conductors of thermoelectrode alloys, feeds it to the temperature change signaling unit 4. Depending on the preliminary settings, the alarm unit 4 responds to excess of temperature relative to the set temperature or to the rate of temperature increase and issues a control signal to turn on the fire alarm or fire extinguishing system (not shown in the drawing).

When repairing or periodically calibrating a heat detector, the sensing element is removed by reverse actions from rooms C and B, the external surface of the housing 5 and protective fittings 3 are degassed and decontaminated, and the necessary procedures are carried out on the disinfected detector.

Sources of information taken into account:

1. Description of the patent for PM No. 21395 "Thermal fire detector" according to Cl. G08B 17/06, published January 20, 2002

2. RF patent No. 21110093 for CL G08B 17/06, published on 04/27/1998

3. "Programmable thermal explosion-proof fire detector IP 101-07VG." Passport 4371-008-43082497-05-01 PS (Prototype).

Claims (1)

A thermal fire detector comprising a sensing element that is placed in a protective case and a temperature sensing element connected to it with a flexible cable with protective fittings, which converts the temperature change into an electrical signal, characterized in that the flexible cable protective fittings are made of stainless steel in the form of thin-walled lengthy a metal pipe with a sealed end, in which conductors of thermoelectrode alloys are placed, connected at the end of a long metal pipes and forming a sensitive element, while the conductors of thermoelectrode alloys and the sensitive element are spaced in a thin-walled metal pipe, and the first are interconnected by mineral insulation, the particle sizes of which do not exceed the diameter of the flexible cable.