RU1778241C - Method for forming recultivating level of hydraulic-mine dump - Google Patents

Abstract

Usage: for artificially improving the properties of arrays of unstable clay rocks of hydraulic dumps in their preparation for reclamation. A method for forming a reclamation bed of a hydraulic dump includes the filling of enclosing dams, separation of the surface of an unstable rock massif into separate sections, washing of sandy rocks in these sections, and subsequent lay-out of the formed surface, installation of equipment and washing in the initial section of one row, transferring equipment and washing to adjoining section of the adjacent row until the dump bed is completely formed, and is characterized in that the surface of the array of unstable rocks is divided into parallel strips, and each by the moose is divided into two parallel rows, while the sections inside each row are formed with the possibility of shifting the sections of one row relative to the sections of the neighboring row by half the length of one section and sequentially move from the section of one row to the nearest section of the neighboring row and back zigzag, while it is possible to form strips in the form of a spiral twisting from the dams to the center of the massif of unstable rocks, as well as the washing of sandy rocks with cones and the formation of sandy drains inside the array of unstable rocks from the central part of the washed cones as they precipitate. The proposed method allows the localization of unstable rocks at the place of their initial placement and creation of favorable conditions for their consolidation and preparation for reclamation, 2 cpf, 1 silt. h h 00 y Јь

Description

The invention relates to the construction of special hydraulic structures and can be used to artificially improve

properties of arrays of unstable clay rocks of hydraulic dumps in their preparation for reclamation.

A known method for storing tailings of enrichment at the final stage of operation of tailings, in which sandy rocks are laid in the central part, composed of dusty-clay water-saturated sediments, by conical washing.

However, such a method involves placing the bulk of the sand material in the center of an unstable rock mass, as a result of which it becomes possible to concentrate them in the form of large massifs in the space between the center of the hydraulic dump and the enclosing dams. Inside such arrays, compaction takes a long time, which complicates their preparation for reclamation.

Closest to the proposed and adopted as a prototype is a method of accelerating the consolidation of the array of the nuclear zone of the hydraulic blade, which consists in dividing the surface of the nuclear zone into separate sections by washing drainage prisms, which can increase the bearing capacity of the surface, and applying a filter layer on it (sand rocks, ashes of thermal power plants, etc.).

In this method, the sand material is concentrated in continuous sand prisms, during the construction of which massive movement of unstable rocks takes place and their concentration in the form of large massifs in the space between the washed drainage prisms, and it is not intended to prevent massive outflow of unstable rocks, which slows down the process consolidation of unstable rocks.

The purpose of the invention is the localization of unstable rocks at the place of their initial placement and the creation of favorable conditions for their consolidation.

This goal is achieved by the fact that in the method, including the filling of the enclosing dams, the separation of the surface of the array of unstable rocks into separate sections, the washing up of sandy rocks in these sections and the subsequent planning of the formed surface, the installation of equipment and washing in the initial section of one row, the transfer of equipment and washing on, at. adjoining section of the adjacent row to

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the formation of the dump bed is complete, the surface of the unstable 1 rock massif is divided into parallel strips, and each strip is divided into two parallel rows, while sections within each row are formed with the possibility of shifting sections of one row relative to sections of the adjacent row by half the length of one section and sequentially transitions from the section of one row to the nearest section of the adjacent row and back in a zigzag pattern; in this case, it is possible to form strips in the form of a spiral twisting from enclosing dams to the center of the array -tolerant species, and the alluvium sandy rocks cone formation sand drains within the array of unstable rocks from the central part namyvaet cones as they precipitation.

The method is based on the fact that clayey rocks of hydraulic dumps, which are in a liquefied state, under the action of incoming sand material are subject to blow-out (lateral expansion), accompanied by an increase in the density of clay rocks and an increase in the bearing capacity of their surface, which, with a certain technological sequence of operations it allows them to be localized within separate sections within which favorable conditions are created for their consolidation.

The drawing shows a flow chart of the proposed method.

The invention is carried out as follows.

The sizes of the sides of the site (alluvial map) are determined, the size of which in plan is not less than the initial thickness of unstable rocks. An exception to this can be only sections adjacent to the building dams 1.

Such dimensions will provide excess water with a comparable length of the filtration path in both horizontal and vertical directions. They divide the surface of the array of unstable rocks into parallel strips, and each strip is divided into two parallel rows, the width of each of them being equal to the width of the section, and the length obtained by adding the lengths of a sufficient number of sections. These rows can, in the particular case, be parallel to the short

side of the hydraulic dump. The sections within each row are formed with the possibility of shifting sections of one row relative to sections of the adjacent row by half the length of one section. The end face washing of the material is carried out in sections 2, consequently, the transition from the section, one row to the nearest section of the adjacent row and. back zigzag. In this case, unstable rocks are displaced not only towards the still unloaded, but also towards the already loaded, which allows them to be localized directly at the place of their initial placement. After the end of the loading of one lane, it proceeds to the next, etc. At each site, it is possible to use cone-wash technology, in which the place of production of the slurry is located in the center of the site, and the sand cone formed during the washing process forms an internal sand drain as it is deposited into the mass of unstable rocks.

Claims (3)

1. A method of forming a reclamation bed of a hydraulic dump, including dumping of enclosing dams, times1 1778241 , dividing the surface of the array of unstable rocks into separate sections, washing the sandy rocks in these areas and subsequent planning of the formed surface, installing equipment and washing in the initial section of one row, transferring the equipment, washing in the adjacent section of the neighboring row until complete formation dump bed, characterized in that, in order to localize unstable rocks at the place of their initial placement and create favorable conditions for their consolidation, divide the surface of the array of unstable rocks into parallel strips, and each strip is divided into two. parallel to yes, with sections 0 inside each row are formed with the possibility of shifting sections of one row relative to sections of the adjacent row by half the length of one section and sequentially transition 5 from a section of one row to the nearest section of a neighboring row and back in a zigzag pattern. 2. The method according to claim 1t distinguishes u and with the fact that the bands form 0 in the form of a spiral twisting from the enclosing dams to the center of the mass of unstable rocks. 3. The method according to claim 1, characterized in that the sand poddami are washed with cones and formed sand drains inside the array of unstable rocks from the central part of the washed cones as they precipitate.