SU708054A1 - Device for pneumatic charging with granular explosives of explosion spaces - Google Patents

Description

The invention relates to the mining industry, in particular to charging devices.

A device for pneumatic loading of boreholes and wells, providing uncontrolled dedusting when loading explosive cavities with granular explosives (BB) by irrigation of the transport channel, made by directly connecting the mine hydraulic network to the charging hose using valve valves and special couplings [1].

A disadvantage of the known device is the uneven and uncontrolled water supply to the explosive stream, as a result of which the explosion indicators are reduced and the sanitary and hygienic working conditions are worsened due to the low quality of dedusting.

The closest to the invention in technical essence and the achieved result is a device for pneumatic loading of explosive cavities with granular explosives, including a chamber charger, a liquid dispenser with a convex lid and a flat bottom in the form of a restrictive grid, between which a flexible membrane, a charging line, and a compressed feed system are installed air and liquid [2], The disadvantage of this device is the possibility of charging both when supplying liquid to the charging line, and without it.

The purpose of the invention is the prevention of the charging process in the absence of liquid in the dispenser.

To achieve the goal, the charging line is equipped with a locking mechanism in the form of a cylinder with two openings for bypassing the explosive, inside of which there is a spring-loaded piston with a through channel, while the space under the piston on the 15th side of its free surface is communicated with the space between the cover and the liquid metering membrane, and the cylinder has a hole for periodic communication of the dispenser with the outlet pipe for a ₂₀ row line.

The drawing shows the proposed device.

The proposed device consists of a chamber charger 1, to which compressed air is supplied from the mine shaft 2 via a gantry valve 2, the pressure of which is controlled by a pressure gauge 3. A batcher with a flat bottom 4 and a convex cover 5, between which a flexible membrane 6. is mounted, is mounted on the legs of the charger. the outlet 7 of the charger, 1 has a cylinder 8, inside which a piston 9 moves with a through channel 10. A spring 11 is installed between the cylinder cover 8 and the piston 9. The piston 9, when moving upward in its extreme position, is lower the end opens a hole 12 connecting the cylinder cavity under the piston with the outlet pipe of the charging line 13. The cavity of the convex cover 5 is connected to the piston cavity of the cylinder 8 by a pipe 14, and through a check valve and a pipe 15 to a tank 16 filled with liquid.

The device operates as follows.

After pressing the start cock 2, compressed air enters the charger 1 and under the membrane 6. If the cavity of the convex cover 5 is filled with air, the membrane, curving, pushes the air through the pipe 14 under the piston 9 of the cylinder 8, which, compressing and overcoming the resistance of the spring 11, raises the piston 9 is in the upper extreme position and is discharged into the atmosphere through the hole 12 and the outlet pipe of the charging line 13, as a result of which the spring 11 returns the piston 9 to its original position. Air is exhausted into the atmosphere at the speed of sound, and the outlet opening 7 of the charger 1 opens only for a moment, after which the explosive outlet from the charger to the outlet of the charging line is blocked by the piston body 9.

When the cavity of the convex lid 5 is filled with liquid, when compressed air is supplied to the membrane 6, the liquid lifts the piston 9 until the channel 10 coincides with the outlet 7 and until the opening 12 opens and holds the piston 9 in this position until the liquid exits the cavity of the convex lid 5. Capacity the convex lid 5 is selected so that $ ₄ liquid is enough with a margin compared to the required amount for the charger capacity.

Due to the fact that there is no supply of explosives in the charging hose and further into the blast cavity in the absence of fluid in the cavity of the convex lid, the possibility of loading blast cavities with granular explosives without hydro-dusting is excluded, and therefore the improvement of sanitary and hygienic and safe conditions is guaranteed labor, as well as due to an increase in the loading density (the effect of plasticization of granular explosives) - an increase in the explosion efficiency.

Claims (2)

The crank valve 2 is supplied from the main line compressed air, the pressure of which is controlled by a pressure gauge 3. A metering device with a flat bottom 4 and a convex lid 5 are mounted on the legs of the charging device. A diaphragm 6 is installed between them. At the outlet 7 of the charging device 1, a cylinder 8 is installed, inside which the piston 9 moves with the through channel 10. A spring 11 is installed between the cylinder head 8 and the piston 9 When the piston 9 moves upwards in its extreme position, the bottom end opens an opening 12 that connects the cavity of the cylinder under the piston Khodnev the charging pipe line 13. Cavity convex cover 5 is connected to the cylinder space 8 subpiston conduit 14 and through a check valve and conduit 15, - with the container 16 filled with liquid. The device works as follows. After the start-up valve 2 is pressed, the restless air enters the loading device 1 and under the membrane 6. If the cavity of the convex cover 5 is filled with air, the membrane bends and pushes the air through pipe 14 under the piston 9 of the cylinder 8, which, compressing and overcoming the spring resistance 11, raises the piston 9 to the upper extreme position and is discharged to the atmosphere through the opening 12 and the outlet of the charging line 13, as a result of which the spring 11 returns the piston 9 to the initial position. The exhaust of air into the atmosphere occurs at the speed of sound, and the outlet of outlet 7 of charge 1 opens only momentarily, after which the outflow of explosives from the charge into the outlet of the charge line is blocked by a piston body 9. When the cavity of the convex cover 5 is filled with liquid, then supplying compressed air to the membrane 6, the liquid lifts the piston 9 until the channel 10 coincides with the outlet 7 and before opening 12 and holds the piston 9 in this position until the end of the liquid exit from the cavity of the convex cover 5. Capacity of the convex cover 5 It is designed in such a way that there is enough liquid with a reserve compared with the required amount per charge tank capacity. Due to the fact that the BV is not supplied to the charging hose and then to the explosive cavity in the absence of liquid in the convex lid cavity, the possibility of carrying out work on the charging of the explosive cavities by granulated explosives without water dedusting is excluded, thereby ensuring improved sanitary hygienic and safe working conditions, as well as due to an increase in the charge density (the effect of plasticization of granulated explosives) - an increase in the efficiency of the explosion. Apparatus of the Invention A device for pneumatic charging of explosive cavities with granular explosives, comprising a chamber loader, a flat bottom liquid dispenser and a convex lid, between which a flexible membrane is installed, a charging line, a compressed air supply system, and , in order to prevent the charging process in the absence of liquid in the dispenser, the charge line is equipped with a shut-off mechanism in the form of a cylinder with two openings for bypassing the explosive Inside which there is a spring-loaded piston with a through channel, while the space under the piston on the side of its free surface is in communication with the space between the lid and the membrane of the liquid metering device, and a hole is made in the cylinder for periodical communication of the metering device with the outlet nozzle of the charging line. Sources of information taken into account in the examination 1.Mindeli EO. And others. Methods and means of blasting ore. M., “Nedra, 1977, p. 287, fig. 137 century. 2. For the number 2156715/03, cl. E 21 p 37/00, 1975, according to which the decision to issue an author's certificate was made. ID 65