SU1186794A1 - Arrangement for charging blast holes in loose explosives - Google Patents

Abstract

DEVICE FOR LOADING Shpurov AND WELLS Rassypnoe explosives containing compressed air line, the injection chamber explosives psevdoozhizhitelem, a charging conduit with shut off, the pump chamber for fluid connected to the charging conduit to shut off and with the discharge chamber for explosives circuit controlling the flow of air and fluid, made in the form of an air flow control regulator directly connected to the action included in the compressed air line before the pressurized air An explosives chamber, an explosives flow control loop, made in the form of a direct action differential pressure regulator, whose elevated pressure chamber is connected to the output of the air and fluid flow regulator, and the reduced pressure chamber - with a charging pipeline, characterized by that, in order to increase the charging efficiency by stabilizing the pressure drop and the air flow during (L of the entire charge and purge cycle, the device is equipped with a check valve, set the inline between A stroke into the injection chambers and an exit from the air flow regulator to the differential pressure regulator, and the shut-off valve is installed on the charging pipe 00 between the outlet from the discharge kao -. measures for the break-away substances and the outlet of the reduced pressure chamber of the differential pressure regulator.

Description

1 The invention relates to drilling and drilling operations in the mining industry and is intended for the pneumatic charging of boreholes and wells with scattered explosives. A device for pneumatic charging of holes and wells with loose explosives is known, comprising an injection chamber for explosives with a metering device and a fluidized fluid, behind a row pipe, a liquid injection chamber connected to the charging pipe, a control loop including two sensors of distance installed fluid inlet and outlet, reference element, differential pressure setter and regulator, the outputs of which are connected to actuators for pressure supply and pressure release in the injection chamber for explosives and the control loop containing air and fluid flow controllers, a node of logical functions, the conclusions of which are connected with the executive mechanisms for supplying air and fluid to the charge pipe, with the upper part of the fluid injection chamber connected to the discharge chamber for the HE and CO. The disadvantage of this charge One device is the complexity of its design, the operational reliability and poor quality of regulation of the parameters of pneumatic transport are not high enough. The closest to the invention in technical essence and the achieved result is a device for infiltrating holes and boreholes of explosives, containing a compressed air line, an injection chamber for explosives with a fluidized bed, a charging pipe with a cut-off valve, and a pressure chamber for liquid connected to the charge the pipeline in front of the shut-off valve and with the injection chamber for the explosive, a circuit for controlling the flow of air and liquid, made in the form of a direct-flow air flow regulator included in the main compressed air in front of the injection chamber for explosives, control circuit of explosives flow, made in the form of direct pressure differential pressure regulator, pressure chamber Koroj or (i is connected to the output of air and liquid flow regulator 4, and reduced pressure chamber - with a charging pipeline, with the shut-off device installed on the charging pipeline until the low-pressure chamber of the differential pressure regulator C2l exits. A disadvantage of the known device is that at the time of opening the selector in the charging pipeline and The phenomenon is equal to atmospheric, and in the injection chamber it is equal to the pressure of the compressed air network, and accordingly, at this moment, the consumption of explosives, air and water has uncertain values. As the charge hose is filled and the pressure in the discharge chamber drops, the system is gradually leveling off. When charging the holes, the explosives portion is 1-3 kg, therefore, the charging takes place during the transition period and in the uncontrolled mode. When purging at the initial moment. time, the pressure is set by a certain amount (short circuit), and since the pressure in the discharge chamber is equal to the network pressure, compressed air with explosive particles from it goes to the air flow regulator and the differential pressure regulator, blocking them. The purpose of the invention is to increase the charging efficiency by stabilizing the pressure drop and air flow during the entire charge cycle h of the purge. To achieve this goal, the proposed device for charging boreholes and wells with loose explosives contains a compressed air line, an injection chamber for explosives with a fluidized fluid, a charging conduit with a shut-off device, an injection chamber for liquids connected to a charge pipe in front of the shut-off valve and with an injection chamber for BB, the contour of controlling the flow rate of air and fluid, made in the form of a direct flow air flow regulator included in the compressed air line in front of the discharge chamber l BA, BB flow control circuit, configured as a differential pressure regulator direct-acting pressurized chamber which is associated with the release flow regulator SH torus. spirit and liquid31

tia, and a reduced pressure chamber C with a charging piping, is equipped with a check valve installed between the inlet to the plenum chambers and the outlet from the air flow regulator to the pads regulator, and the shut-off valve is installed on the charging piping between the exit from the plenum for the explosives and Turn the chamber of the reduced pressure of the differential pressure regulator.

. The drawing shows a schematic diagram of the device.

The device consists of an injection chamber 1 for explosives with a fluidized bed 2 placed in it in the form of a tubular body 3 with a disk at the end, and a shut-off device 4 on the charging pipe, a liquid injection chamber 5, the upper part of which is connected to the injection chamber 1 dl. BB, and the lower part through the adjustable valve 6 - with the charging pipeline to the shut-off 4 of the regulator 7 of the pressure differential of direct action, the pressure chamber of which is connected through the check valve 8 with the discharge chamber 1 for the EB, and the chamber the pressure of the regulator 7 is connected to the rear piping, the chamber pressure is lowered with the help of a setting screw and a spring (not indicated), the regulator 9 of the direct air flow rate included in the device’s power supply line with compressed air, the output of which associated with the injection chamber 1 for explosives and the pressure chamber of the differential regulator 7, valve 10 connected to the supply line with compressed air, valve 11 connected with the supply line with compressed air and charging pipeline.

The device works as follows.

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Air flow is set using air flow controller 9, air flow rate is set using controller 7, and fluid flow is set using valve 6. Then the charging pipe is blown out without supplying compressed air and the device is turned off using valve 11 and opening the valve 10 provide compressed air

0 into the transport line through the pressure differential controller 7 and into the injection chamber 1 for the explosive through the return valve 8. At the same time, the specified air flow rate is maintained at the air flow controller 9 and

s regulator 7, regardless of the pressure in the charge pipe, maintains a predetermined pressure drop across the fluidizer 2, i.e. the pressure in the pressure chamber is greater than in

0 charge pipe for a given amount.

Bulk explosives and liquids are supplied from valve 6 and cutter 4, when etrm fluidizes 5 liters 2 through the pipe, explosives are supplied due to the pressure difference in the injection chamber 1 for the propellant and in the charging pipe, the pressure difference is maintained at the regulator 7, which ensures constant consumption of explosives and liquids.

The shutdown of the supply of explosives and liquids is carried out by closing the isolator 4, and the cessation of the supply of air (purge) is carried out

5 of the crane 10, while in the discharge chamber 1 for the explosive there is air pressure due to the actuation of the check valve 8. This pressure is used in the next cycle

0 charges.

In contrast to the known, the proposed device provides stabilization of the parameters of pneumatic transport and increases the operational reliability of the device.

Claims (1)

DEVICE FOR CHARGING HOLES AND WELLS BY DISPOSABLE EXPLOSIVES, containing a compressed air line, an injection chamber for explosives with a fluidizer, a charging pipe with a shut-off device, a discharge chamber for a liquid connected to a charging pipe in front of the cut-off device and with a discharge circuit for controlling the flow rate air and liquid, made in the form of a direct-acting air flow regulator included in the compressed air line before discharge to a measure for explosives, an explosive flow control loop made in the form of a direct-acting differential pressure regulator, the high-pressure chamber of which is connected to the outlet of the air and liquid flow regulator, and the low-pressure chamber - with a charging pipeline, characterized in that, in order to increase charging efficiency by stabilizing the differential pressure S and air flow during the entire cycle of charging and purging, the device is equipped with a check valve installed between the inlet to the pump Yelnia chamber and the outlet of the air flow regulator in a differential pressure controller, a cutter mounted on the charging conduit between the outlet from the pumping chamber for explosives and yield reduced differential pressure regulator of the pressure chamber. T6Z9STT ' ^n, TiS>