UA143877U - DEVICE FOR LOCALIZATION OF COAL DUST EXPLOSIONS - Google Patents

Abstract

The device for localization of coal dust explosions contains a container for extinguishing agent, which is hermetically sealed, to which a compressed gas pipeline is connected through a non-return valve, the tank is also connected to the exhaust pipe, placed along the production circuit and equipped with outlets. The exhaust pipe is equipped with a crane with an electric drive, made in an intrinsically safe design, connected by an electric cable with an amplifier, and that in turn - with a seismic sensor, which is walled up in the rocks.

Description

The useful model belongs to the mining industry, in particular to the means that ensure an increase in the level of safety of mining operations, and can find application as a curtain for the localization of dust explosions, primarily in coal mines, which are dangerous due to gas and dust.

The main task of explosion-localizing curtains is to create conditions for stopping the detonation burning of coal dust and methane and preventing the further spread of the explosion of coal dust along the network of mine workings.

Known device for localization of coal dust explosions (Pat. 30626 Ukraine, IPC E21E

B5/00. A device for localization of coal dust explosions / S. E. Topchyi, S. F. Kanaev, O. M.

Boguslavskyi, 0. F. Bondarenko. - Mo and 200708128; statement 07/17/2007; published 11.03.2008, Bull.

Mo 5/2008)|, consists of suspension supports to which the tanks are suspended, while the suspension supports are made in the form of two-armed brackets that cover the upper fastening elements, and the tanks with water or inert dust are made in the form of seamless polyethylene circles, on the edges of which holes are made into which a flexible string with rings is threaded, with which they hang on the arms of the bracket, and the arms of the brackets are angled 5" up.

The disadvantage of the known device is the inertia inherent in the mechanical chain "fire extinguishing agent - tank - two-arm bracket - air compressed by the shock front". A relatively long period of time is required for the displacement of the heavy tank from the bracket, the displacement of the fire-extinguishing substance from its resting state, and its distribution to the fire-extinguishing concentration along the cross-section of the product. Due to the high speed of the explosion of coal dust along the mine, this period of time is insufficient for the timely creation of a reliable barrier to the fire front.

The closest to the claimed technical solution is the well-known automatic explosion localization system (Pat. 89840 Ukraine, IPC E21E 5/00. Automatic explosion localization system / V. 3. Kaputsyan, 0. V. Kaputsyan. - Mo and 201315498; application 12/30/2013; published 04/25/2014,

Bul. Мо 8/2014), containing a vessel for fire-extinguishing powder for its spraying and the formation of a dust cloud-curtain against the spread of flame in mining, while the vessel for fire-extinguishing powder is made in the form of a hermetically sealed container, to which through the return the valve is connected to the pipeline of compressed air or nitrogen and the exhaust pipeline is placed along the contour of the product and equipped with several outlets

With spigots with spray nozzles at the ends, a ball valve is installed on each outlet spigot, connected by a rod to a rigid plate located perpendicular to the longitudinal axis of the product with the possibility of opening the valves when the plates are rotated under the influence of the shock wave of the coal dust explosion.

Common essential features of the known device and the one that is claimed are a hermetically sealed container for a fire extinguishing agent, to which a compressed gas pipeline is connected through a non-return valve, an outlet pipeline is also attached to the container, placed along the contour of the product and equipped with outlet nozzles.

The disadvantage of the known closest device is the inertia inherent in the pneumomechanical chain "air compressed by the explosion - rotary plate-rod - ball valve - exhaust pipeline - container with fire extinguishing agent - compressed air pipeline" After the impact of the shock front of the explosion on the rotary plate, a relatively long period of time is required for opening of the ball valve, displacement of a significant mass of fire-extinguishing substance in the container with compressed air, filling of the outlet pipelines with it, distribution of it to the fire-extinguishing concentration along the cross-section of the product. The explosion of coal dust has a high speed of propagation through the mine, so during this period of time the fire front jumps over the protective device and continues to move along the network of mine workings. The issue of increasing the speed of the device for localization of coal dust explosions is urgent.

The useful model is based on the task of improving the known device to increase its speed, early creation of an effective curtain from a cloud of fire-extinguishing substance by reliably suppressing the fire front and, as a result, stopping the spread of the explosion in the mine.

The task is solved by the fact that the device for the localization of coal dust explosions contains a container for a fire-extinguishing substance, which is hermetically closed, to which a compressed gas pipeline is connected through a non-return valve, an exhaust pipeline is also attached to the container, located along the contour of the production and equipped with exhaust nozzles. The outlet pipeline is equipped with a crane with an electric drive, manufactured in an intrinsically safe version, connected by an electric cable to an amplifier, which in turn - with a seismic sensor, which is embedded in the rocks of the mine.

The specified features make up the essence of a useful model, because they are necessary and sufficient 60 for achieving the technical result - increasing the speed of the device, early creation of an effective curtain from a cloud of fire-extinguishing substance by reliably suppressing the fire front and, as a result, stopping the spread of the explosion in the mine.

The causal relationship between the features that make up the essence of a useful model and the technical result that is achieved is explained as follows.

Drawings explain the essence of a useful model.

In fig. 1 - cross-section of a mine, in which a device for localization of coal dust explosions is placed, where 1 - a container for fire-extinguishing substances; 2 - compressed gas pipeline; Z - non-return valve; 4 - outlet pipeline; 5 - outlet nozzles; 6 - crane with electric drive; 7 - electric cable; 8 - amplifier; 9 - seismic sensor;

In fig. 2 - distribution of deformations in the horizontal section of the rocks surrounding the tunnel at the moment from the beginning of the dust explosion, (107):a -4; 6-14; page 24.

The device for the localization of explosions of coal dust, which is claimed, contains a hermetically closed container 1, where a fire extinguishing agent is stored, and is placed in a niche of the mine.

Compressed gas (air, nitrogen, or carbon dioxide) is supplied through pipeline 2 to container 1 through check valve 3, which makes it possible to maintain a constant pressure in container 1. To release the fire-extinguishing substance during the suppression of the explosion, an outlet pipe 4 with nozzles 5 is attached to the tank 1, located along the contour of the product. On the outlet pipe 4, to open the access of the fire-extinguishing substance to the outlet pipe 4 and nozzle 5, a faucet 6 with an electric drive is installed, made in the intrinsically safe version With the help of an electric cable 7, the crane b is connected to the amplifier 8, which, in turn, is connected to the seismic sensor 9, which is embedded in the rock, by another branch of the electric cable 7.

The claimed coal dust explosion containment device works as follows.

In the initial position, container 1 is loaded with a fire-extinguishing substance, compressed gas is supplied to the container using pipeline 2, it can be air, nitrogen or carbon dioxide. Constant pressure in tank 1 is maintained due to the presence of non-return valve 3 in pipeline 2. Seismic sensor 9 is in a state of waiting for seismic oscillations.

In the event of an explosion of coal dust in a mine, seismic waves are formed in the mine

From the rocks surrounding the product. The speed of propagation of seismic waves in the rock massif is much higher than the speed of movement of the shock front in the air environment of the production, so the seismic sensor 9 reacts to the presence of an explosion much earlier than known mechanical devices that react to air pressure in the production. The seismic sensor 9 sends a signal to the amplifier 8 through the cable 7, which, based on the signal, produces an executive pulse and sends it through the other branch of the cable 7 to the tap b, where the electric drive is activated, and opens the tap 6. After opening the tap 6, under pressure of compressed gas, the fire-extinguishing substance flows from container 1 to pipeline 4 and nozzles 5, forming a curtain cloud in the vacuum of the production, which suppresses the fire front and localizes the spread of the explosion. Thus, the use of faster means of signaling an explosion, as well as the replacement of inertial mechanical elements of the drive chain with electric ones, also makes it possible to significantly increase the speed of the device for the localization of coal dust explosions.

With the use of computer modeling of the three-dimensional space around the mining structure, the peculiarities of the impact of the explosion products with the mine wall during normal action were additionally taken into account, and taking into account the indirect action, a study of the stressed-deformed state of the rock massif, which accommodates the experimental tunnel during the simulation of a dust explosion by detonating a chain of explosive charges, was carried out (BP).

Based on the results of the research, a dynamic picture of the change in the stress-strain state of the massif containing the experimental product, in which the chain of explosions of the BP took place, was obtained.

The wave-like character of the distribution of these seismic dynamic phenomena along the workings was obtained. At the same time, seismic waves are significantly ahead of the shock front of the explosion. Yes through 4410; 144102; 245107 seconds after the start of the explosion, this advance is, respectively, 2; 30...40; 150...180 m. That is, a quarter of a second after the occurrence of a dust explosion, the seismic wave precedes the shock front by at least 150...180 m. It reaches the seismic sensor and provokes the activation of the device for the localization of the dust explosion.

The results of the study confirmed that the loosening of dust accumulations under the influence of seismic waves, which are significantly ahead of the explosion front moving along the production, creates conditions for the formation of an explosive concentration of dust ahead of the fire front. But the early formation of an explosion-proof environment before the approach of the fire front ensures the prevention of a combustible environment and the creation of a "starvation zone" in the path of the explosion.

The use of the proposed device for localization of coal dust explosions makes it possible to speed up the localization of dust explosions, to create an effective curtain from a cloud of fire-extinguishing substance in advance by reliably suppressing the fire front and, as a result, to create an explosion-proof environment in the mine.

Claims (1)

UTILITY MODEL FORMULA A device for the localization of coal dust explosions, containing a container for a fire-extinguishing substance, which is hermetically closed, to which a compressed gas pipeline is connected through a non-return valve, an outlet pipeline is also connected to the container, located along the contour of the production and equipped with outlet nozzles, which differs in that , that the outlet pipeline is equipped with a crane with an electric drive, made in an intrinsically safe design, connected by an electric cable to an amplifier, and the latter, in turn, to a seismic sensor, which is embedded in the rocks of the mining production. : ХЭ Че х p-va 1» same В ШЧХ She we 5 shi and shi p shi 1 her o. about; I x : PO ZHE: ZK Z sn in I i SOYA Z ! de fl lm Z Ko Zh Fng. 1