SU1305349A1 - Method of excavating materials from underground formations - Google Patents

Abstract

The invention relates to the field of mining and geology and m. used in downhole hydroproduction minerals. The goal is to increase the efficiency of material extraction from formations with a complex structure, which is an alternation of layers of weak and strong rocks, by reducing the energy intensity of the disintegration of the massif and improving the conditions of hydrotransport of the material. The formation is opened with a well, in which a jetting unit is placed and hydro-washing of interlayers of weak rocks is carried out. When eroding layers of weak rock within the excavation chamber form the console layers of hard rock. To the provocative of the collapse of the overlying consoles of rocks on the lower console, only a part of the upper console interlayers are hydrotreated. This ensures that the underlying console is loaded with collapsed rocks and, as a result, the collapse of this console occurs much faster and at lower energy costs for loosening. There is no rocks. When the level of the stored material is raised to the level of hydrotuning in the central part of the chamber, the material is hydraulically lifted to the surface. The operations for the collapse of the consoles are carried out before they are completely collapsed. 3 il. (L from 00 to 01 from 4 WITH

Description

The invention relates to mining and geology and can be used in downhole hydraulic mining of minerals, as well as in gross testing of productive horizons.

The purpose of the invention is to increase the efficiency of material extraction from formations with a complex structure, which is an alternation of layers of weak and strong rocks, by reducing the energy intensity of the disintegration of the massif and improving the conditions of hydrotransport of the material.

FIG. -1-3 presents a diagram illustrating the sequence of operations of the method.

Formation up. The lower sampling horizon is opened by the borehole 1, in which the well monitoring unit 2 is placed. During drilling of borehole 1, the distribution of the formations of different strengths by formation thickness is determined using a core.

Then, using the jetting unit 2, circular washing out of layers 3–7 of weak rocks occurs. These interlayers can be blurred from the upper boundary of the sampling interval to the lower b by simultaneous release of the eroded material to the surface,

When eroding weak interlayers 3–7 within the excavation chamber 8, consoles 9–12 interlayers of hard rock are formed. With the help of high-pressure struts, only parts of the console 9 of the upper layer of strong

rocks, for example, cutting of weakening 0 underground formations, including opening of the cracks, provoking the collapse of the rocks of the cantilever 9 after it is weakened to the underlying console 10. Due to this, the cantilever 10 is loaded by the collapsed rocks. In this case, when falling, large blocks of strong rocks disintegrate into smaller ones. After that, lower the unit 2 and proceed to the weakening of the console 10 through the hard rock. However, due to the fact that this console is already loaded with collapsed rocks of the console 9, the collapse of the console 10 occurs much faster and with less energy to weaken. The collapsed rocks of the cantilevers 9 and 10 move downwards and load the cantilever 11 between the hard rocks, which is already in itself

may collapse under the weight of adjacent rocks

When the consoles of layers of hard rock break down, part of the rocks descend through the central zone of the excavation chamber 8 on the bottom of the chamber, while there is a gradual accumulation of these rocks.

In order to enable the consoles of hard rock layers to soften when the material 13 being stored in the central part of chamber 8 is raised to the level of hydrotube, it is necessary to lift the mamagazirovannogo material to the surface. At the same time, in order to allow the consoles to self-destruct upon loading in the hydrotreatment process of a vychislezhaschy interbed of hard rock, for example console 9, there must be free space under the console 10 of the underlying interbed. Therefore, when the accumulated material accumulates under the console 10, i.e. the underlying console, you should make a preliminary hydraulic lift of this material (Fig, 3). .

The above operations are repeated until all the cantilevers 9-12 are completely collapsed and the gassed material is removed. Collapsed magnetized rocks can be added. disintegrate before hydraulic lift with a high-pressure jet.

Claims (1)

The Invention Formulation Method formation of a well, placement of a downhole jetting unit in it, and disintegration of the formation massif by a pressure jet in layers with temporary storage of disintegratable rocks and their hydraulic lift to the surface, so as to increase the efficiency of material extraction JQ from formations with a complex structure representing the alternation of layers of strong and weak rocks by reducing the energy intensity of the disintegration of the massif and improving conditions , hydrotransporting of the material, preliminarily, within the entire height of the extraction, carry out a hydraulic fracturing of interlayers of weak rocks with the issuance of a diffuse material to the surface; and the formation of interbeds of hard rocks of consoles, after which they hydrofuse each overlying interbed of hard rocks with the collapse of the latter and with the loading of collapsing rocks of the console below the interbed, while the hydraulic lift of the material to the surface 3053494 when the store level rises. of the material to the level of hydroforming in the central part of the chamber, and the hydraulic discharge of the specified overlying spacing is carried out in the presence of free space from the material being stored by the console of the underlying layer. Feed.1 Editor P.Geershi Compiled by N. Chertova Tehred L. Serdyukova Order 1406/30 Circulation 455 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5  ™ - ---- --- - -. in, - "in production and printing plant, Uzhgorod, st. Project, 4 tie.Z Fi.Z Proofreader S. Shekmar