CS200437B1 - Equipment for discontinuous powder turbulance in large volumen vessels - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for generating a dusty cloud in large-volume containers of considerable dimensions, predominantly large container heights, in a decontinuous manner for testing explosive dispersive dust and air explosions.

Hitherto known devices for producing explosive mixtures of dust and air are based on the principle of its whirling charge of the explosive, the individual arrangements being only different in detail, such as the firing of one or a wolf bag or the whirling dust from the mortar. It is known in the art to have a device in the shape of a pressure vessel with a constricted outlet opening. The pressure vessel is connected via a valve to the compressed air supply.

Known devices used to whirl up dust include a pressure vessel which is connected to a pneumatic valve controlled by an electro-pneumatic valve. In the upper part of the canister there is a compressed air supply which acts on the dust in the canister and after opening the pneumatic valve, the compressed air is forced through the perforated half-round head into the space where it is sprayed.

Known devices have high altitude conditions, such as Jaou silos and reservoirs, for dust cloud conditions in large-volume containers; many disadvantages. By swirling the dust with a charge of explosives soaked in the bag β with dust ee creates a dust cloud that does not fill the whole space of the container evenly. The homogeneity of the dust cloud is dependent upon the milled storage of the cartridge in the dust bag and the placement of the bags in the container space itself. The thermal soil 200 437 is formed here

200 437 of the explosive charge explosion, as well as the pressure effect of the explosive on the explosive mixture itself and the surrounding device.

Pressure and air operated systems which are controlled by electro-pneumatic valves produce a homogeneous dispersion mixture in smaller containers. In large-volume vessels, due to the considerable flow resistances in the ground valve and the expansion head, the emptying time of the pressure vessel and dust increases. This implies that, for use in large volumes where a uniform dispersion emea is to be produced in a short time, a disproportionate number of expansion devices are necessary.

This embodiment is particularly disadvantageous if the described apparatus is used to form a dispersion mixture in a high-altitude vessel. In such a case, the devices must be distributed evenly over the shell of the container, where the number of the spreader reaches a considerable number of pieces and the operation of the device as well as filling the spreader with dust is quite difficult.

The above-mentioned disadvantages are eliminated by the device according to the invention, which consists in the accumulation space closed by a membrane which is in contact between the flanges and into which the compressed air is fed through the valve from the distributor, the explosive and the detonator connected to the time selector. The neck is led from the flange and connected to the bottom of the hopper. It is covered with a lightly shatter-proof plate, above which dust is deposited and a reflector and a device for connecting the initiator and the associated meter are fixed. This device is connected to a synchronization device, controlled by a time switch powered by an enorgio source. The whole device is placed in the test container.

An advantage of the device according to the invention is that a large-volume container is formed throughout the space. a homogeneous dispersion mixture over a short period of time. The dust is stirred up in a short time on a homogeneous dispersion mixture. Dust yokes bozo losses and utilizes and whether the directional effects zařízoni, which is just right for containers of high altitude. The device according to the invention works diocontinuously, creating a high concentration of dust cloud in the vessel using a small number of lifters with very simple operation. The device is positioned inside the container and does not disturb the wall and in any way the integrity of the container in which it forms a dispersion. In order to form a dust cloud with a high concentration of ee, it requires only small amounts of compressed air, which makes the pressure in the interior of the vessel and recombined.

Exemplary embodiments of the present invention are shown schematically in the drawing, which illustrates the section through the device. The device according to the invention consists of a tubular storage space 6 terminated by flanges 2, between which a membrane 3 is pressed and on which a explosive 4 with a detonator 5 not connected to the time selector 11 is loosely laid. the storage space 11 is not connected to the bottom of the hopper 7, which is covered by a lightly shattering plate 8 from the inside of the hopper 7.

A sill 9 is sprinkled on the doaca 8 and inside the hopper, which aa stirs in the space of the container 10.

A deflector 19 is connected to the hopper 7 for eventual rectification of the formed dust cloud 13. The accumulation space 13 fills the pressurized air through the shut-off valve 14, located outside the vessel with a connected compressed air distributor 18 from compressed air 16. zs sources onsrgla 18. which emits electric

200 437 detonator initiating pulse 5 is connected to pulse synchronization device 12 for initiator or metering device 17, which is actuated at a certain interval after the membrane 3 has been released and dust has been stirred up in the vessel 10.

Claims (1)

OBJECT OF THE INVENTION Device for deacontinuous dusting in bulk containers, characterized in that in the accumulation space (1) a closed membrane (3), which is anchored between the flanges (2) and into which the compressed air is supplied via a valve (14) from the distributor (15) ), a detonator (5) having a detonator (5) not connected to the time selector (11) is placed, the flange (2) is led out of the throat (6) and connected to the bottom of the hopper (7) covered with a shatter plate over which dust (8) is deposited and a deflector (19) and a device (17) for attaching the initiator and the associated meter connected to the synchronization device (12) controlled by the timer (11) supplied from the power supply (18) are mounted.