RU2212263C2 - Method and apparatus for detecting explosive gaseous mixture in inhabited or uninhabited rooms - Google Patents

Abstract

FIELD: fire-preventing equipment. SUBSTANCE: method involves providing forced explosion of gaseous mixture in explosion-proof chamber, when lower explosion threshold for any dangerously explosive gas existing in room atmosphere is created. Apparatus has microcircuits, weight of apparatus is 0.5 kg, power supply of 220 V, power consumption not in the excess of 400 W per month. EFFECT: increased precision in determining the moment when explosion dangerous gaseous mixture concentration is created in room atmosphere, and increased efficiency in eliminating emergency situation. 3 cl, 1 dwg

Description

 The invention relates to the field of life protection of people in contact with explosive gas mixtures, such as methane, propane, butane, acetone, etc.

 The purpose of the invention is to increase the accuracy of determining the moment of formation of explosive concentration of the gas mixture in the atmosphere of the premises and efficiency in emergency response. This goal is achieved in that the method for detecting explosive gas mixture in the atmosphere of the premises is that they install a stationary device for fixing the amount of explosive gas, characterized in that they pinpoint the moment of formation of the lower explosive limit of the gas mixture in the room, for which a forced explosion of the mixture in explosion-proof chamber, for this, two pairs of electrodes are introduced into the chamber through the lid, while the ignition voltage is supplied to one pair with a given interval, and the voltage to the other In order to perform a microexplosion in the chamber, they create an alarm element, in this case they take fusible solder and produce from it a thickness of not more than 0.3 mm, make from the rolled plate a width of not more than 1.5 mm and a length equal to the distance between the contacts of the second pair of electrodes, dissolve smokeless powder to a jelly-like mass, alloy the mass with additives, apply adhesive combimass to the middle of the plate and alloy it again, dry the combimass on the plate at room temperature, close the contacts of the second pair of electrodes with a plate they break the chamber with a lid, install an explosion-proof chamber near the ceiling at the most probable point of the appearance of the gas mixture, fix a microexplosion in the chamber, and eliminate the gas leak in the gas supply system.

A known method of controlling explosive gases / 1-Vinogradov J. Control of explosive gases, Radio, 10, 2000, p. 37 /, which consists in the fact that in the explosion-proof chamber using tin dioxide, which at a temperature above 200 ^o With changes its resistance when exposed to explosive gas.

 The main disadvantages of the method are: it cannot reliably record the formation of an explosive gas mixture corresponding to the lower explosive limit with the simultaneous action of several explosive gases in the chamber, since the setting is only for one gas; reliability of operation is low due to the continuous maintenance of high temperature in an explosion-proof combustion chamber.

 The work of the proposed method. The explosive gas that has appeared in the room is mixed with air and enters into an explosion-proof combustion chamber through a metal mesh. When the concentration of the gas mixture corresponding to the lower explosive limit is reached, this mixture is forcibly blown up in the chamber, the moment of the microexplosion of the gas mixture is recorded in the chamber, the pyroxylin sample is triggered - the second microexplosion, the signal element plate melt (rupture), as a result, the circuit shunting alarm device, which will begin to signal the presence of explosive gas mixture in the room. Preparing the method for further work consists in replacing the alarm element.

 The closest in technical essence is an explosive gas monitoring device / 1 / containing a gas sensor TGS (Japan), which consists of a ceramic tube coated with a layer of tin dioxide doped with additives, a heating element inside the tube. The sensor is placed in an explosion-proof chamber. In addition, the device contains a voltage stabilizer, comparator, transistor, siren, fan.

The disadvantages of the known device are: low information content of the formation in the atmosphere of an explosive gas mixture, since the calibration of the device by the concentration of the gas mixture is carried out on any one explosive gas, and in fact extraneous explosive gases may appear and mix with air; the survivability of the device is low due to the presence of a threaded through the cavity of the ceramic tube electric coils for heating tin dioxide to a high temperature (above 200 ^o C), as well as the low accuracy of determining the moment of formation of explosive gas mixture at the lower explosive limit.

 The purpose of the invention is to increase the information content and accuracy by controlling the moment the room atmosphere enters the lower limit band of the explosive concentration of the gas mixture and survivability by eliminating the constantly switched on electric coil for heating.

 This goal is achieved by improving the device / 1,2 / detection of explosive gas mixtures in residential and non-residential premises, containing (drawing) explosion-proof combustion chamber 1, into which two pairs of electrodes 2 and 3 are inserted, electric ignition pair 2 is equipped with a punched air gap, alarm pair 3 connected to a voltage divider 4 and is equipped with clamping contacts and an element 5 for fixing the lower explosive limit of the gas mixture containing a U-shaped textolite craft 6 with a light plate 7 fixed to its ends solder equipped with a pyroxylin hinge 8, intrinsically safe signaling device 9, timer 10 for periodic ignition signal supply connected to an intrinsically safe power source 11, reed relay 12 included in the circuit of electrodes 2 of electric ignition and to the output of timer 10, plug 13 is connected by a power wire to the electric network 220 V. The method and device are characterized by all the features included in the claims.

 The operation of the device (drawing) is as follows.

 The gas mixture formed in the room, the concentration of which reached the lower explosive limit through the metal mesh, passes into the explosion-proof chamber 1. The voltage initiating the explosion of the gas mixture is periodically applied to the electrodes of pair 2. The specified frequency of voltage supply is provided by the timer 9 and the reed relay 11. There is a forced microexplosion of the gas mixture in the chamber 1, which initiates the second microexplosion (ignition) of the pyroxylin sample 8, located on the plate 7 of the signaling element 5, while the plate 7 is broken (melted), as a result, the circuit is disconnected, bypassing the alarm device 9, which will begin to signal the presence of explosive gas mixture in the room. The installation in the chamber 1 of a serviceable alarm element 5 will ensure further operation of the device.

Claims (2)

 1. The method of detecting explosive gas mixtures in residential and non-residential premises, based on the control of explosive gases, consists in installing a stationary device for fixing the amount of explosive gas in the atmosphere of the premises, turning on the alarm and ventilation, characterized in that they mark the moment of formation of the lower explosive limit the gas mixture in the room by forcing the mixture in an explosion-proof chamber, for which two pairs of electrodes are introduced into the chamber, while an ignition voltage is supplied to one pair from at a given time interval, and on the other, the voltage for controlling the moment of microexplosion in the chamber, for which an alarm element is created, while from fusible solder, a thickness of not more than 0.3 mm is produced, rolled plates of a width of not more than 1.5 mm and a length are made from rolled, equal to the distance between the clamping contacts of the second pair of electrodes, dissolve the pyroxylin powder to the density of the jelly-like mass, alloy the mass with additives, apply a pea-sized sticky combimass to the middle of the plate and alloy it again, dry it imassu on the plate Short plate contacts the second pair of electrodes sealed chamber lid with electrodes mounted explosion proof chamber in the most likely point of the cluster of an explosive gas mixture is fixed in the camera control micro-explosion of the gas mixture and ignited pyroxylin sample on the plate, eliminating gas leakage in the gas supply system.  2. An explosive gas mixture detection device in residential and non-residential premises, containing an explosion-proof combustion chamber, an intrinsically safe power source and an alarm device, characterized in that two pairs of electrodes are introduced into the explosion-proof chamber, the first electric ignition pair has a punched air gap capable of supplying an ignition electric signal increase, the second pair of electrical alarms is equipped with clamping contacts and an alarm element containing a U-shaped textolite craft less than 1 mm thick a fusible solder plate fixed at its ends, in the middle of which a pea-sized pyroxylin sample is glued, and the ignition supply time block contains a timer connected to an intrinsically safe power source, a reed switch included in the electrical ignition electrode circuit and to the timer output, the alarm element is connected to by pressing contacts, closing them with a plate, and the alarm device is connected in parallel with the alarm element and the resistance of the voltage divider included in the power circuit connected with 220 V power supply