RU2396602C2 - Method for fire annunciation and device for its realisation - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: signal annunciating fire is created by transformation of starting fire flame pulse into sound signal by means of vapor microexplosion of sensitive element with intensity comparable to sound of gun shot. Sensitive element is arranged in the form of closed tight shell filled with incombustible liquid, in particular with water. Shape, size and material of shell are selected provided that vapor microexplosion of incombustible liquid is arranged within short time, several seconds, after start of shell heating with fire flame.

EFFECT: method and device simplification, increased reliability and reduced cost.

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Description

The invention relates to fire fighting equipment and can be used to prevent the development of fires, detection of fires, etc.

A device for electronic fire alarms is known (RF Patent No. 2293373, publ. 10.02.2007, G08B 17/00 [1]), which is an electric circuit consisting of a loop with sensors that generate thermopower, the magnitude of which depends on the temperature of the near zone of the sensors , an amplifier, a power source, an audible alarm unit, and a voltage level processing unit generated by the amplifier. The device is based on a complex multi-element electronic circuit requiring a separate power source.

The method implemented by the circuit for this device [1] consists in providing a fire alarm when responding to an increase in the ambient temperature (heat pulse) of the sensing elements (sensors) by generating an output electrical voltage pulse that is converted into a sound fire warning signal. The disadvantage of this method and device is the complexity of their implementation.

There is a method of audible fire alarm, in which the initial thermal pulse of infrared radiation from the fire is transformed into an electrical pulse, and that, in turn, into an audio signal (RF Patent No. 2037882, publ. 06/19/1995, G08B 17/06 [2]) .

The disadvantages of this method are the relative complexity and relatively high cost.

There is a sound alarm device, including a converter of the initial heat pulse into an audio signal in the form of a pyroelectric detector as a sensitive element associated with electrical equipment providing an audio signal and an audio signal source [2].

The disadvantages of this device are the relative complexity and, as a result, the relatively low reliability of its operation and relatively high cost.

The technical result of the invention is a significant simplification of the method and device and, as a consequence, an increase in their reliability and cost reduction.

The specified technical result is achieved due to the fact that in the known method of warning about a fire by means of an audio signal generated by the thermal influence of infrared radiation from a flame on a sensitive element, the sound signal is provided through microexplosion of the sensitive element.

Microexplosion of a sensitive element during the thermal action of a flame (i.e., the ability of a sensitive element to explode quickly to release energy in a small volume) can be carried out in various ways: for example, when a flame is exposed to an empty cartridge equipped with gunpowder but without a bullet; a safer way is to use a steam explosion of the sensing element.

The mechanism of action of the method can be demonstrated, in particular, as follows. As the experimental results indicate (Bazarov Yu.B., Barsukov Yu.K., Krasovsky GB, Meshkov E.E., Potapov S.V., Tsykin S.V. Optical method for studying a steam explosion of a capsule with water using digital video camera, Tr. Int. Scientific-technical Conf. "Optical methods for studying flows"; June 26-29, 2007, Moscow: Publishing House MPEI, 2007, pp. 72-73 [3]), When a thin-walled glass capsule with water (V≤1 cm ³ ) is placed in the flame of a gas burner, a steam explosion of the capsule occurs after a few seconds. This produces a sharp sound clap, comparable to a pistol or rifle shot. The sharp sound of such an explosion spreads over a sufficiently large distance and can serve as a signal of a starting fire.

Such sensitive elements may be not one, but several, with different sensitivity. As a result, they will not work simultaneously, but as a series of powerful sound pulses.

Compared with the known method involving the conversion of the initial thermal pulse into an electrical signal and its further transformation into an audio signal, in the claimed method there is a direct gas-dynamic conversion of a thermal pulse into an audio signal. Those. A significant simplification of the method is achieved and, as a consequence, an increase in reliability and a reduction in cost.

The technical result of the claimed device is its significant simplification compared with the known, containing the sensing element transducer of a thermal pulse into an audio signal, due to the fact that the sensitive element is made in the form of a hermetic shell filled with non-combustible liquid, combining the functions of the converter and the sensing element, moreover, the shape , the characteristic dimensions of the shell and the thickness of its wall are selected from the conditions for providing a steam explosion of a non-combustible liquid for a given (small - within a few seconds) of the time after the start of heating the shell with a fire flame.

That is, the converter of a thermal pulse into an audio signal in a known device consists of a number of components: an element that is sensitive to a thermal pulse of infrared radiation and converts it into an electrical signal, a converter and a shaper of an electric signal, and, of course, a sound emitter. In addition, such a device requires the presence of electric power from the mains or autonomous, which leads to its cost increase.

At the same time, in the inventive device, the thermal pulse converter consists only of a sensitive element made in the form of a sealed shell filled with a non-combustible liquid, and combining the functions of the converter and the sensitive element.

A prerequisite is that the shape, the characteristic dimensions of the shell and the thickness of its wall should provide the possibility of a steam explosion of the liquid for a given (small - within a few seconds) time after the heating of the shell by a fire flame begins.

Water can be used as a non-combustible liquid.

In the above experimental observation [3], a spherical glass thin-walled capsule ~ 8 mm in diameter, placed in the burner flame, exploded a few seconds after the start of heating. Such a delay time is quite acceptable for a sound signal that indicates a fire.

In the inventive device, the shell of the sensing element can have almost any shape (sphere, cylinder, etc.), but at the same time the wall thickness of the shell, the material and dimensions of the shell must be such as to provide a delay time for a steam explosion of the sensing element after the exposure to the shell heat pulse of the fire no more than a given short time (for example, a few seconds). Obviously, to increase the "speed" of the sensing element, it is necessary, a) that the shell material has high thermal conductivity; in particular, metals can be such a material, b) the characteristic dimensions and thickness of the shell must, on the one hand, be small in order to ensure rapid heating of the liquid in the shell, and on the other hand, the shell must have the necessary strength in order to withstand a pressure sufficient to implement a significantly loud sound when it is destroyed.

Sensitive elements can either be placed in bulk in a fire-hazardous place, or attached to a wall or ceiling with glue, etc.

Thus, in comparison with the known device, the claimed device is significantly simpler and, as a result, more reliable, since the claimed device contains a smaller number of components, each of which has a finite probability of failure.

A relatively large number of victims of fires occurs because at the initial stage the fire spreads almost silently, and the smoke from the fire that has begun is not always associated with a fire. The signal in the form of the sound of a pistol shot (or a series of shots) will be well heard outside the location of the sensing element and will prompt at least to inquire about the source of this sound and, thus, inform about the fire that has begun, which will allow for early evacuation of people from the burning building.

It is also obvious that this method and device are very economical. According to (http://www.gazeta.ru/education/2007/10/12_n_22351BO.shtinl) a large number of victims in a fire in the building of the Institute of State and Corporate Governance on October 2, 2007 was due to the fact that the fire started on the floor on which there was no alarm. It is indicated that the cost of installing an alarm is about 300-500 thousand rubles. At the same time, the cost of a fire alarm according to the claimed method will be, according to preliminary estimates, 3 orders of magnitude lower. This will allow you to install such an alarm not only in enterprises, but also in private homes.

As a sensitive element, capsules described in RF Patent 2295370, publ. 03.20.07, А62С 3/00. In this case, when implementing the proposed fire alarm method, it not only warns of a fire that has begun, but also to some extent prevents the spread of the fire, since the steam microexplosion of such a sensitive element is accompanied by the release of a cloud of dispersed liquid (water), which has fire-extinguishing properties.

The microexplosion of the sensing element is safe, since its action is limited by the sound signal; dispersion of dispersed water is limited by small distances (~ 10 ÷ 20R, where R is the characteristic size of the microvolume of the liquid of the sensing element). The formation of fragments is excluded by the choice of materials and the system of marks on the surface of the shell.

Claims (4)

1. A method of warning of a fire by means of an audio signal generated by the thermal action of a flame on a sensing element, characterized in that the sound signal is provided by means of a microexplosion of the sensing element, combining the functions of the sensing element and the converter of the heat pulse into an audio signal. 2. The method according to claim 1, characterized in that the microexplosion is carried out using a sensing element capable of steam explosion. 3. A device for warning of a fire, comprising a heat pulse to sound signal transducer with a sensing element, characterized in that the sensitive element is configured to have both the sensing element and the heat pulse to sound signal transducer and has a sealed enclosure that is filled with a non-combustible liquid, moreover, the shape, dimensions and material of the sealed enclosure are selected from the condition for providing a loud sound signal when it is destroyed by a microexplosion within a few seconds After the start of heating the sealed shell with a fire flame. 4. The device according to claim 3, characterized in that water is used as a non-combustible liquid.