DD231092A1 - DEVICE FOR THE PNEUMATIC LOADING OF SPARKLING AND BORROWING EQUIPMENT WITH SEPARATE BULBS - Google Patents

Abstract

The device for the pneumatic loading of explosive and borehole drones with loose explosives contains a pressure chamber 1 for forming a fluidized bed of the explosive and a supply pipe 4 for explosive discharge, which at one end with the cavity of the pressure chamber 1 and at the other end via a closure member. 6 with a charging line 7 is in communication. There is a liquid container 8 which communicates with the inlet of the pressure chamber 1 and with the supply pipe 4. A main manifold 9 with a gas flow regulator 14 connects a gas source with the pressure chamber 1 and the Fluessigkeitsbehaelter 8. Also provided is a Druckgefaelleregler 16 on Zufuehrungsrohr 4. The main manifold 9 is between the input of the regulator 14 and the Einläessen the Fluessigkeitsbehaelters 8 and the pressure chamber 1 with a check valve 15 is provided. The Druckgefaelleregler 16 on Zuführungsrohr 4 has a chamber 17 with increased pressure, which is connected to the output of the gas flow regulator 14, and a chamber 18 of lower pressure, which is connected to the charging line 7 after the Abschlussorgan 6 on. The liquid container 8 is connected to the supply pipe 4 via a controllable throttle 11 between the closure member 6 and the part of the feed pipe 4 accommodated in the pressure chamber 1, such that its connection point lies above the liquid standing height in the liquid container 8. figure

Description

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Berlin, 31.08.1984 WP E 21 G / 262 856/6 63 934/25

Device for the pneumatic loading of explosive and boreholes with loose explosives

Field of application of the invention

The invention relates to a device for the pneumatic loading of explosive and borehole holes with loose explosives and can be used most effectively in mining. "

Characteristic of the known technical solutions

At present, cheap loose AH-PO explosives (ammonium saltpeter diesel fuel) introduced into explosive and boreholes by means of a pneumatic charging device have been widely used.

The development of perfected facilities for pneumatic loading has therefore become particularly important, because now considerable amounts of rock with the help of large boreholes (diameter 100 to 165 mm) are degraded. High-performance pneumatic impact drills have been created that allow for the effective slicing of both small and large wells. The mining of rocks by means of deep wells is particularly effective in the penetration of vertical and steeply penetrating mighty ore bodies and pillars.

When mining such ore bodies by means of rising boreholes, the volume of preparation and gating work is reduced by 15x20x. However, the loading of

Large-scale Looseners with Loose Explosives a Complicated Technical Problem »A large number of different loaders have been created to load blast holes and holes, but they do not guarantee quality charging of large wells because they do not stabilize the parameters of pneumatic conveyance (explosive, gas, Liquid flow rate) or have a complicated structure and a low operational reliability and a low quality of the parameter control. The loss of explosives due to spillage of dust in mines can reach up to 20%. The boreholes form a charge which is non-uniform in their properties, and the effectiveness of the comminution of rocks decreases.

One of the devices that has been producing the best results so far is a device that provides the explosive feed to the fluidized bed charging line.

The known devices of this type comes after the technical nature and the effect achievable a device for the pneumatic loading of explosive and wells with loose explosives (DE-PS Ur * 2 911 148 c-3) closest to one with a gas source in combination a stationary pressure chamber for forming an explosive fluidized bed in the pressure chamber, in which a coaxial tube for discharging the fluidized explosive is disposed, which at one end via a closure member to the cavity of the pressure chamber and at the other end with a charging pipe for the supply the explosive is in communication with the cavity to be charged, and an ejector for the air supply into the charge pipe

in which means a regulator for the throughput of dea gas is provided in the device, that the pressure chamber for maintaining a predetermined explosive mass flow rate is supplied depending on the pressure difference in the fluidized bed and at the outlet of Laderohrleitung · In the device is also a regulator for the throughput The gas supplied to the charge piping through the ejector provides a stepwise "increase in the amount of air flow in the charge piping at the moment of closing the valve © The flow rate regulator of the gas supplied to the pressure chamber contains pressure transmitters in the pressure chamber and in the charge piping are connected to generate a differential signal together to a casting ichssehaltung connected to a pressure differential adjuster and train via its output to a gas supply and gas outlet Stellmechaniamus the pressure chamber for the omission of a source train · The air flow regulator in the charge line contains a command device which is connected to the control mechanism of the closure element and generates a signal for the valve for the stepwise increase of the gas flow rate in the charge line when closing this closure element. via which the lower part of the liquid container communicates with the charge piping, opens to a signal from the command device when the termination device is opened. ,

A disadvantage of this device is its complicated construction, low operational reliability and a low quality of control of the parameters of the pneumatic conveyance (explosives, gas, Flüasigkeitsdurchsatz), resulting in a gefinge accuracy of explosives Benet ζ ung in the two-phase flow "gas - explosives" results, the

with which the non-synchronous entry of the materials via the terminator of the biphasic flow and the liquid supply control mechanism into the charge conduit is contingent. In this case, the supply of only the liquid alone into the gas stream is not excluded if the explosive is consumed in the pressure chamber, which results in a disturbance of the properties of the charge with the aid of the described charging device.

Recently, new types of explosives are used, including so-called explosives with separate charging manner, which are supplied to the pipeline in a dry state and after the feeding of a metered amount of liquid during the pneumatic conveying the required properties (density, humidity, Disperaionsgrad, quality of the heterogeneous mixture uam) in the cargo guarantee «

For this purpose, a container for a liquid to be introduced into the pipeline is provided in the devices. However, since the above-described charging means does not ensure the required accuracy of stabilization of the liquid additive, it is impossible to secure the required characteristics of the charge.

The difficulty of the automated execution of the control scheme sets the operating reliability of the machine under the conditions of underground operations reduced, resulting in partial or complete failure of the control scheme and accordingly to explosives loss en loading and a low quality of the charge in the borehole as well as to disturb the product ions zy klus.

Object of the invention

The aim of the invention is to increase the operational reliability of a device for the pneumatic loading of explosive and borehole holes with loose explosives as well as the effectiveness of the drilling and blasting operations »

Explanation of the essence of the invention

The invention has for its object to provide a device for the pneumatic loading of explosive and boreholes with loose explosives, consisting of a pressure chamber with a supply pipe, a connected to the pressure chamber liquid container, a HauptVerteilerleitung with a gas flow regulator and a pressure gradient controller on Zufiihrungsrohr so in that the assemblies for the supply of gas, explosive and liquid by appropriate interposition ensure the possibility of a synchronous metered supply of liquid and explosives with a high degree of sail quality of the supply of. explosive, gas and liquid »

This is inventively achieved in that the main distribution line between the output of the gas quantity regulator and the inlet of the liquid container and the pressure chamber is provided with a check valve, the pressure · falschegler at the feed tube a chamber with increased pressure, which is connected to the output of the gas quantity regulator, and has a lower pressure chamber, which is connected to the charging line behind the closure member, and the outlet nozzle of the liquid container to the supply pipe via a controllable throttle between the closure member and the accommodated in the pressure chamber portion of the feed pipe is connected, such that Connection point is above the liquid level in the liquid container.

The advantages of the device according to the invention are that a high operational reliability and a high control quality of the throughput of explosives and gas entering the charge line are ensured by the presence of the pressure gradient controller on the feed tube and the check valve on the main distribution line. The incorporation of the outlet of the liquid container into the delivery tube in front of the closure member with the liquid level in the container below the point of introduction of the liquid into the delivery tube ensures synchronous delivery of explosives and liquid additives with a high degree of liquid flow stabilization throughout charge cycle ·

The greatest advantages of the device in the formation of charges of loose explosives in rising Großbohrlb'chern and especially in the use of explosives, which are intended for separate charging manner, as in deviations from the optimal conditions of the supply of explosives, gas and liquid over the Loading line into the borehole Increases the loss of explosives by spilling out of the borehole and the quality of the load in the borehole - density, moisture, degree of dispersion and the like. - strongly decreases · Of all these disadvantages, the device according to the invention is free ·

embodiment

The invention will be explained in more detail below with reference to an exemplary embodiment. The accompanying drawing shows a schematic diagram of the device outside the borehole, partly in section, with additional elements not being shown, through which the explosive is introduced into the loading chamber (downhole). A special one

Approach attached to the end of the charging line ·

The device for pneumatic loading comprises a pressure hammer 1 for generating a fluidized bed of loose explosive 2 within the pressure chamber 1 »This consists of a conical housing 3 through which a SufÜhrungsrohr 4 is passed with a circular disc 5 at its end. By selecting a ratio between the diameters of the pressure chamber 1 and the disc 5, the required volume concentration of the mixture in Zufiihrungsrohr 4 is achieved. The feed pipe 4 is outside the pressure chamber 1 via a closure member 6 with a charging line 7 in connection.

The device is further provided with a liquid container whose upper part is connected to the pressure chamber 1 via a main distribution line 9, while the lower part is connected via an outlet nozzle 10 and a controllable throttle 11 with the feed pipe 4 in front of the closure member 6, in that the point of introduction of the liquid into the feed tube 4 is greater than the liquid level in the liquid container 8.

The entry of explosives into the pressure chamber 1 and the inlet of the liquid container 8 are connected to a pipe 12 for supplying the device with gas via a valve 13, a direct-acting gas flow regulator 14 »a check valve 15 and the main manifold 9 in connection.

The output of the gas quantity regulator 14 is connected to the charge line 7 via a pressure gradient regulator 16,

8 which is connected in parallel to the feed pipe 4 ·

The pressure gradient regulator 16 includes a high pressure chamber 17 and a low pressure chamber 18 separated by, for example, a diaphragm block 19 and a nozzle - flap type pneumatic contact 20. It also includes a pressure drop predetermining device consisting of a pair of screws 21 and a spring 22.

The device for pneumatic loading works as follows:

The explosive is introduced into the pressure chamber 1 and the liquid container 8 is filled with the liquid.

Depending on the diameter and the equivalent length of the charging line 7 »the diameter and the angle of the loading holes to be loaded, the operator on the pressure gradient controller 16 with the aid of the pair of screws 21 a required gradient between the entry into the pressure chamber 1 and the exit in the Charging line 7 on · At the gas flow regulator 14, a height of the gas flow rate and at the controllable throttle 11, a passage cross section is set, which ensures the supply of the required amount of liquid in the explosive and gas flow for the given explosive throughput.

After the throughput of explosives, gas and liquid is specified, the operator leads by opening the valve 13 of the device compressed gas · During this time, the flushing of the charging line 7, and at the output of the gas flow regulator 14, a predetermined flow rate of the gas is set a part about the setback

Valve 15 and the main distribution line 9 for generating a pressure in the pressure chamber 1 and in the liquid container 8 flows »while the other part of the gas enters the charge line 7» Here, the pressure in the pressure chamber 1 is equal to the pressure in the chamber 17 of the pressure gradient controller 16 while the pressure in the charge line 7 (at the exit of the device) corresponds to the magnitude of the aerodynamic resistance of the charge line 7 and the gas pressure set in the chamber 18 of the pressure gradient regulator 16.

The different pressure in the chambers 1 Ti 18 of the pressure gradient controller 16 adjusts itself, that on the one hand acts on the diaphragm block 19, the gas pressure from the output of the gas flow regulator 14, which endeavors to open the pneumatic contact 20, while on the other hand on the diaphragm block 19 a acting on the gas pressure in the charging line 7 and the spring 22 outgoing total force, which endeavors to close the pneumatic contact 20, resulting in the chambers 17? 18 sets a pressure difference proportional to the force exerted by the spring 22 ·

During the flushing is in the section of the feed tube 4, which is located within the pressure chamber 1, and in front of the closure member 6, no pressure gradient, and there is no pressure drop across the throttle 11, so that therefore the liquid through the throttle 11 the Zufiihrungsrohr 4 not is supplied ·

For the supply of the explosive in the charging line 7, the operator opens the closure member 6, Consequently

aen the explosive passes through the feed pipe 4 from the fluidized bed of the pressure chamber 1 due to a pressure. Fälles, which has been adjusted by means of the pressure gradient controller 16 between the pressure chamber 1 and the charging line 7, in the charging line 7, and accordingly, the liquid flows through the throttle 11, wherein the pressure gradient controller 16 in a corresponding manner, the gas to the inlet of the pressure chamber 1 and redistributed to the charge line 7 without delay · During this time period, the charging line 7 is filled with the explosive and then fed to a wellbore (not shown). During the filling of the charging line 7 with the explosive, the resistance of the same increases and, accordingly, the pressure in the pressure chamber 1 increases *

The interruption of the explosive supply into the borehole is made by the operator by closing the closure member 6. In this period, blowing the explosive from the charging line 7 into the well with a gas flow rate, which is set on the gas flow regulator 14, although the resistance of the charging line 7 decreases · After flushing the pipe 7, the operator interrupts the compressed gas supply by closing the valve 13 · In this case, the pressure in the pressure chamber 1 is maintained in that the check valve 15 does not pass the compressed gas from the pressure chamber 1 into the charging line 7, and the device is ready for the next charging cycle.

In the event that when charging the explosive 2 is completely used up in the pressure chamber 1, the liquid stops

fed via the throttle 11 also, and that is because the resistance of the supply pipe 4 against the pure gas (without explosives) is considerably lower than against the gas flow with explosives, and the difference of the liquid level in the liquid container 8 and in the throttle 11 is chosen such that the resistance (slope) of the supply pipe 4 to the clean gas does not exceed the pressure required to lift the liquid to the height h «

The commissioning of the device and its shutdown is carried out on the order of the operator who performs the charging process in the borehole (blast hole) and monitors the length of the load borehole.

Claims (1)

-12- Brf indungsans pruch Device for the pneumatic loading of explosive and borehole holes with loose explosives, consisting of a pressure chamber whose inlet communicates with a gas source for forming a vortex of the explosive in the pressure chamber, wherein in the pressure chamber coaxial with the lower part of a supply pipe for discharging the arranged in the fluidized state explosive, which communicates at one end with the cavity of the pressure chamber in communication and is set at the other end via a closure member with a charging line for the supply of explosives in the cavity to be charged, a liquid container whose is inlet connected to the inlet of the pressure chamber while its is lower B ecause via an outlet nozzle with the feed pipe for the wetting of the explosive in conjunction, a main manifold with a gas flow regulator, which connect the gas source to the pressure chamber and the liquid container t, and a pressure gradient controller on the supply pipe for stabilizing the flow rate of the explosive, characterized in that the main distribution line (9) between the output of the gas quantity regulator (14) and the inlet of the liquid container (8) and the pressure chamber (1) with a check valve (15 ), the pressure gradient regulator (16) on the feed tube (4), a chamber (17) with increased pressure, which is connected to the output of the gas quantity regulator (14), and a chamber (18) with lower pressure, which to the charging line ( 7) behind the closure member (6) is connected, and the outlet nozzle (10) of the Flüasigkeitsbehälters (8) to the feed tube (4) via an adjustable throttle (11) between the closure member (6) and in the pressure chamber (1) accommodated part of the feed pipe (4) is connected, such that its connection point above the liquid level in the Liquid container (8) lies · Λ page drawing