SU823582A1 - Method and vibration unit for letting out ore - Google Patents

Description

Versti development, having a visor. and ensuring the oscillations of the ore pieces using the vibrating unit located under the outlet, the outlet opening is modified by successive destruction of the visor of the mine.

In a vibratory installation for implementing a method comprising a platform with a vibro-drive, the platform is made of rigidly interconnected sections.

Each section connection is made in the form of a rod and a shell fixed on it with a cavity around the rod for placing an explosive in it and a channel for feeding the latter into the cavity of the shell, each section of the models having a vibration drive.

Figure 1 shows a schematic diagram of the method for producing ore, the initial period of refining the block, a longitudinal section; figure 2 - the same, in the period of production of ore; Fig. 3 is a diagram of a vibration device for carrying out the proposed method, in particular a section of a vibration installation; in fig. node I of connection of sections of vibration installation.

To produce ore by stationary vibratory installations, the bottom of the block is prepared according to the lime scheme with funnels 1 with sufficient openings 2 and transport openings 3 (FIG. 1), according to the proposed method. The release significantly increases the width of the outlet 4 and thereby increases the distance between transport workings 3. A series of transport workings 3 pass through the ore body, of which work haul passes in a staggered order 2. A vibratory installation 5 with p is installed on the soil of the haul workings atformoy consisting of four sections 6-9. Section b has a vibration drive 10, and sections 7-9 are driveless. Depending on the stability of the ore massif, the technology of expansion of the outlet 4 with natural or artificial visor collapse is chosen.

Figures 1 and 2 show an example for an array of ore of great strength and stability with artificial collapse of the visor 11. For this purpose, a set of wells 12 is drilled in the visor 11. Sections 6-9 of the shaker 5 are tightly interconnected by connecting elements, for example, rods 13 of the destructible explosive material. Around the core, the shell 14 has a cavity 15 for accommodating an explosive therein and a channel-16 for feeding the latter into the cavity of the shell. Sections 6-9 may

have a self vibrating drive.

The method is carried out as follows.

In the initial period of ore output, vibration unit 5 operates in all sections 6-9. After the release of clean ore, when waste rock comes with the ore being produced, the outlet 4 is expanded by an amount equal to the length of the section, for which explosive charges placed in the first rows of wells are blown up, in case of an artificial collapse of the visor 1 development 2.

In case of unstable ores, a variant of the natural collapse of the visor 11 is used, for which the attachment is removed from the part of Sufficient processing 2 in the immediate vicinity of the outlet 4. The destruction of the visor in this case occurs due to the moving ore flow.

After the visor 11 collapses by the required amount, the vibration unit is immersed to a greater depth in the ore blockage. But in view of the fact that the active zone of vibration setting, on which the ore is moving, is quite definite, it is not rational to choose a large length of the platform under the dam. Therefore, after the collapse of the visor, the length of the platform of the vibratory installation is reduced by disconnecting the section legs, thus destroying the rod 13.

For this purpose, an explosive charge is introduced into cavity 15 and exploded, then the further ore is released from the block using a shortened platform installed under a wider outlet.

The appearance of waste rock in the ore produces the following collapse of the visor 11 and the following connection of the sections of the vibratory installation 5. This happens until it is lost. used sun delivery, production 2.

Claims (4)

1. A method of producing ore, consisting in changing the outlet of a mine. Having a visor, and providing oscillations of the ore pieces using a vibratory installation, located under the outlet, characterized in that, in order to reduce ore losses, the outlet opening is changed by successive destruction of the visor of production. 2. A vibration device for implementing the method according to claim 1 comprising a platform with a vibro-drive, characterized in that the platform is made of rigidly interconnected sections. 3. The vibration device according to claim 2, characterized in that each section connection is made in the form of a rod and a shell fixed on it with a cavity around the rod to accommodate an explosive substances and a channel for feeding the latter into the cavity of the shell. 4. Vibration unit according to claim 2, wherein the section is each such that each section has a vibration drive. Sources of information taken into account in the examination 1.Avtorsoke USSR certificate No. 576413, class E 21 C 41/06, April 6, 1973. 2. USSR author's certificate for application number 2656968/03, cl. E 21 C 13/08, 08.22.78 (prototype). eight FIG. 2 m f $: $ mfSS; m It f Rig. 3G