RU2312301C1 - Device for preparation and loading of boreholes with mixed emulsion explosive - Google Patents

Abstract

FIELD: mining art, in particular, construction of the mixing-loading machines used for mechanized preparation of an emulsion explosive and loading of boreholes at open-pit mining.

SUBSTANCE: the device includes a hopper with a screw feeder of ammonium nitrate, vessel for emulsion, vessels for a producing additive, water and petroleum product, as well as proportioning pumps for feeding of emulsion, gas producing additive, water and petroleum product. The device is provided with a paddle mixer, whose shaft in its inlet section is aligned and rigidly coupled to the outlet section of the shaft of the ammonium nitrate screw feeder. The outlet section of the paddle mixer communicates with the inlet section of the components mixer, and a petroleum product injection nozzle is positioned on the inlet section of the paddle mixer, Besides, the device has the second duct of feed of the emulsion mixture with the gas producing additive, whose outlet is positioned at the outlet of the device, the inlets of both ducts are coupled to the outlet of the mixer of emulsion with the gas producing additive through a distributing device.

EFFECT: expanded field of application.

4 cl, 3 dwg

Description

The invention relates to the field of mining, in particular to the design of mixing and charging machines used for the mechanized preparation of emulsion explosives and loading wells during open cast mining.

A mobile unit for the preparation of explosives (BB) at places of use is known from the technical field, which can be used as a mixing and charging machine (see, for example, RF patent No. 2185595, published on July 20, 2002). The disadvantage of this installation is the lack of automatic dispensers that provide the necessary quality of the resulting explosives, as well as its unsuitability for working with emulsion explosives (emulsion explosives).

The closest technical solution both for the problem to be solved and for the total number of coinciding essential features is a device for loading wells with mixed emulsion explosives, including a hopper with a screw feeder for ammonium nitrate, an emulsion tank, a tank for a gas-generating additive, water and oil product, metering pumps for emulsion feed, gas generating additive, water and oil product, emulsion mixer and gas generating additive, component mixer, as well as component dispensers (see, for example, RF patent No. 2267475, op highlight. 10.01.2006).

A disadvantage of the known device is the manufacture of explosive charge when charging wells of only one type and the impossibility of charging the well with charges of another type, for example a concentric charge known from RF patent No. 2156431. Such a charge consists of an outer cup formed by a granular explosive and placed inside this outer cup of explosive .

The objective of the present invention is to expand the scope of the device for the manufacture and loading of wells with mixed emulsion explosives by providing the possibility of loading wells with charges consisting only of an emulsion, and charges including granular components, in particular granular ammonium nitrate.

The task is achieved due to the fact that the device for loading wells with mixed emulsion explosives, including a hopper with a screw feeder for ammonium nitrate, a container for emulsion, containers for a gas-generating additive, water and oil product, metering pumps for supplying an emulsion, a gas-generating additive, water and oil product, the emulsion and gas generating additive mixer, the component mixer, as well as the component dispensers, are equipped with a blade mixer, the shaft of which at its inlet section is coaxially rigidly connected to the outlet section of the shaft of the auger ammonium nitrate feeder. The outlet portion of the blade mixer is in communication with the inlet portion of the component mixer, and an oil supply nozzle is located at the inlet portion of the blade mixer. At the inlet section of the component mixer is located the outlet of the feed channel for the mixture of the emulsion with the gas-generating additive. In addition, the device has a second channel for supplying the mixture of emulsion with a gas-generating additive for separate supply of the specified mixture and mixture of components into the well.

It is advisable to carry out a distribution device installed at the inputs of the supply channels of the emulsion mixture with the gas-generating additive in the form of a three-way valve.

In addition, the task is solved due to the fact that the diameter of the blade section of the ammonium nitrate feeder is at least 1.2 times the diameter of the screw section, the length of the blade section is at least 2.5 times its diameter, and the length of the screw section is at least one step of its screw .

And also due to the fact that the length of the section with the blades of the component mixer is at least 3 of its diameters, the screw sections have a length of at least one step of their screws, and the diameter of the component mixer is at least 1.5 times the diameter of the screw section of the ammonium nitrate feeder.

The technical result obtained by the implementation of the invention is to expand the scope of the device for loading wells with mixed emulsion explosives. Advantageously, such a device is intended for mounting on a self-propelled chassis of a base vehicle. However, it can be installed permanently at the point of preparation of emulsion explosives.

As an example, the following is a description of the most preferred embodiment of a device for loading wells with mixed explosive devices mounted on a self-propelled chassis of a base vehicle.

The invention is illustrated by drawings, where figure 1 shows a General view of a mixing and charging machine mounted on a self-propelled chassis of the base car. Figure 2 presents a functional diagram of a device for loading wells. Figure 3 shows the connection diagram of the ammonium nitrate feeder and the blade mixer with the component mixer and the distribution device of the mixture of the emulsion with the gas-generating additive.

A device for loading wells with mixed emulsion explosives (Fig. 1) is mounted on the chassis of the base vehicle 1 and includes: a hopper 2 for ammonium nitrate, a container 3 for emulsion, a container 4 for a gas-generating additive, containers 5 and 6, respectively, for water and oil product.

Under the hopper 2, a screw feeder 7 of ammonium nitrate is installed, the shaft of which at its output section is coaxially rigidly connected with the shaft of the blade mixer 8 at its input section. The output section of the blade mixer 8 is in communication with the input section of the mixer 9 components.

The principle of preparation of emulsion explosives is to sensitize the emulsion matrix of emulsion explosives with gas bubbles by introducing a gas-generating additive (sodium nitrite solution) into it and then mixing it with pre-oiled ammonium nitrate. The device allows for the production of certain types of emulsion explosives to deliver a sensitized emulsion and also an emulsion, including oiled ammonium nitrate, to the well in two separate streams. For this, above the entrance to the mixer of components (Fig. 3), a switchgear 10 is installed, made in the form of a three-way valve with one inlet 11 and two outgoing 12, 13 pipelines.

At the inlet portion of the blade mixer 8 is a nozzle 14 for supplying oil. The movement of ammonium nitrate together with the oil product through the blade mixer 8 leads to uniform oiling of ammonium nitrate, which is a necessary condition for obtaining high-quality explosives. However, the conveying ability of the screw feeder is slightly higher than the conveying ability of the blade mixer with equal diameters, therefore, to coordinate the flow rate of ammonium nitrate, it is necessary to increase the productivity of the blade mixer 8. Since the shaft of the screw feeder 7 is rigidly connected with the shaft of the blade mixer 8, their performance can be equalized by increasing the diameter of the blade mixer 8. It has been experimentally established that, to ensure uniform flow, the diameter blade mixer should be at least 1.2 diameter screw feeder 7 ammonium nitrate. To ensure high-quality mixing of nitrate with oil, the length of the blade mixer should be at least 2.5 of its diameter. To ensure a stable supply of nitrate to the blade mixer, it is sufficient to perform a screw section with a length of at least one step of its screw.

The shaft of the mixer 9 (figure 3) of the components is made with blades in its middle part and screw sections at the edges. This embodiment provides a stable movement of the mixed components along the shaft of the mixer and their high-quality mixing during the movement.

To ensure the flow throughput of the finished emulsion explosives, the diameter of the component mixer should be at least 1.5 times the diameter of the screw section of the ammonium nitrate feeder.

The housing of the component mixer is mounted on a movable support (not shown in the drawing) so that at the time of manufacture of the emulsion explosives the input to the mixer is located under the outlet of the ammonium nitrate feeder. At the inlet to the component mixer, a distribution device is installed that allows directing the flow of the emulsion mixed with the gas-generating additive directly to the outlet of the device.

The switchgear above the entrance to the component mixer is made in the form of a three-way valve with an attached pipeline. This allows you to easily redirect the sensitized emulsion in the right direction.

The length of the section with the blades of the mixer 9 components is at least 3 of its diameters, screw sections have a length of at least one step of their screws.

The operation of the device is as follows. The emulsion from the tank 3 (figure 2) through the gate valve 17 by the pump 18 is fed into the mixer 19, where it is mixed with a gas-generating additive. The gas-generating additive is pumped from the tank 4 through the flowmeter 21 to the suction pipe of the pump 18. The sensitized emulsion either enters the mixer 9 of the components for the manufacture of emulsion explosives, or directly into the well through the pipe 13 when charging a different emulsion well. Ammonium nitrate is mixed with oil - it is oiled in a blade mixer 8 and enters the mixer 9 components, where it is mixed with a sensitized emulsion and discharged into the well. The oil product is fed by a gear pump 15 through the rotameter 16 and the nozzle 14 into the blade mixer 8.

The ratio of components is maintained at a predetermined level by the automatic dosing system or by the operator using hydraulic regulators with control by rotameters and RPM sensors - in manual mode.

Thus, the device allows to produce explosive devices and to charge blast holes with charges of various types and different designs, which allows to expand the scope of the device.

Claims (4)

1. A device for preparing and loading wells with a mixed emulsion explosive, mainly for a mixing and charging machine, including a hopper for ammonium nitrate, a container for emulsion, a container for a gas-generating additive, water and oil product, an ammonium nitrate feeder, metering pumps for emulsion supply, gas generating additive, water and oil product, emulsion and gas generating additive mixer, component mixer, and component dispensers, characterized in that the ammonium nitrate feeder is made in the form of screw and blade sections located in a common housing on one shaft, an oil nozzle is located above the entrance to the blade section, the component mixer is made in the form of a shaft located in the shaft housing with blades in the middle part and screw sections along the edges, at the input section of the component mixer the outlet of the feed channel of the emulsion mixture with the gas-generating additive is located, and at the inlet to the component mixer there is a switchgear with the possibility of directing the flow of the emulsion mixed with ha ogeneriruyuschey additive directly to the output of the device. 2. The device according to claim 1, characterized in that the switchgear above the entrance to the mixer of components is made in the form of a three-way valve with an attached pipeline. 3. The device according to claim 1, characterized in that the diameter of the blade section of the ammonium nitrate feeder is at least 1.2 times the diameter of the screw section, the length of the shoulder section is at least 2.5 times its diameter, and the length of the screw section is at least one step screw. 4. The device according to claim 1, characterized in that the length of the section with the blades of the mixer of the components is at least 3 of its diameters, the screw sections have a length of at least one step of their screws, and the diameter of the mixer of the components is at least 1.5 of the diameter of the screw Ammonium nitrate feeder site.

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