RU1802113C - Device for pneumatic charging of blast multihole hollows - Google Patents

Abstract

Usage: the device is designed for pneumatic loading of multi-well cavities (VMSP) with bulk explosives (RVV) and is recommended for use in underground mining of mineral deposits. SUMMARY OF THE INVENTION: in a device containing a charging pipe 1 introduced into the IMSP with a connecting pipe 3 at the end, on which the outlet tip 6-7 with a mounting sleeve 5 and its orientation elements in the IMSP in contact with its side walls are mounted with free rotation , the installation sleeve .5 is provided with an external flange. The connecting tube 3 is made with internal and external threaded surfaces, while the internal threaded surface is made with longitudinal grooves. On the outer threaded surface, a union nut 9 is screwed on and provided with radial projections 11. 1 zpf -y, 4 il. V &

Description

The present invention relates to the mining industry, in particular to devices for the equivalent loading of explosive multi-well cavities with explosive explosives (explosives), and can be used by mining enterprises of ferrous and non-ferrous metallurgy for breaking minerals with flat explosives .

The aim of the invention is to increase the productivity, reliability of the charge device and simplify its installation by ensuring that the B diameters of the connecting tube and charge pipe are suitable for passage through B and simplify their design.

In FIG. 1 shows a charging device located in a multi-well cavity, general view; in FIG. 2 is a view along arrow A; in FIG. 3 is a section BB in FIG. 1; in FIG. 4 is a section bb in FIG. 3.

The device for pneumatic loading of explosive multi-well cavities comprises a charge pipe 1 inserted into the cavity with a connecting tube 3 screwed against it into the radial annular surface 2, on which the mounting sleeve 5 of the figured outlet tip is mounted with free radial rotation consisting of a confuser 6 and two diffusers 7, fixed with a shoulder 4 from axial displacements on the tube 3,

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screwed onto it until it stops in an annular radial surface 8 with a union nut 9, provided with an inner collar 10 in contact with the collar 4 and external radial protrusions 11, centering the charging device in the middle well of the multi-well cavity. To center the device in the extreme wells, plate rails 14 are connected to the sides of the diffusers 7 via ribs 12 and 13. Grooves 15 are made on the inner threaded surface of the installation tube 3, which are used for threading the charging pipe by screwing the connecting tube 3 onto it and receiving the removable with this shavings.

The charging device operates as follows.

By turning the outlet tip 6-7 by means of the mounting sleeve 5 on the connecting tube 3, orient it according to the spatial location of the mouth of the multi-well cavity. After that, the device is introduced into the cavity at its entire height (depth) on the charging pipe 1. In this case, the tip 6-7, using the protrusions 11 and the plate runners 14 in contact with the walls of the cavity, freely rotate on the tube 3, occupy the position corresponding to the location of the cross section of the cavity. Then, a loose explosive is fed into the cavity via a charging line 1 using a charging machine (not shown). At the same time, the explosive in its path of movement, due to the increased cross section of the passage channel of the connecting tube 3, does not encounter additional resistance, as a result of which the charging device does not reduce the delivery capacity of the explosive due to the parameters of the charging machine and the capacity of the charging pipeline 1. As filling the multi-well cavity with a compacted explosive device is removed from the cavity. In the process of loading, when the explosive moves along the outlet tip, its jet is compressed by the confuser 6 and part of it is forced into the confusers 7. Due to this, the explosives uniformly flowing into the multi-well cavity

distributed over its cross section. In comparison with the known prototype device published in ed. St. No. 788882 of the proposed charging device, due to the presence in its design

a connecting pipe screwed onto the charge pipe, the inner diameter of which is not less than the pipe diameter, has a higher productivity in supplying explosives to the charged explosive multi-well cavity.

Claims (2)

1. A device for pneumatically loading explosive multi-well cavities, comprising a charging pipe connected to a connecting tube, onto which the mounting sleeve is mounted with a free rotation and an outlet tip fixed thereto with orientation elements, characterized in that, in order to increase productivity and reliability of operation, the device is equipped with a cap nut with a shoulder and external radial and centering protrusions, while on the installation sleeve an external flange is made to interact with the flange of the union nut, and the connecting tube is made with an external thread for screwing the union nut, on the inner surface of the connecting tube there is a thread for screwing in the charging hose ending with an annular supporting surface , and the charge conduit is screwed into the connecting tube as far as it will go into the annular supporting surface. 2. The device according to claim 1, characterized in that, in order to simplify its installation, longitudinal grooves are made on the internal threaded surface on the connecting tube. v & 4 fie. 2