RU2143559C1 - Method of mechanohydraulic coal mining - Google Patents

Abstract

FIELD: industry; applicable in hydraulic mines and hydromechanized mine sections. SUBSTANCE: method of mechanohydraulic coal mining includes coal breakage, coal hydraulic conveyance, coal cleaning, screening, dewatering and water supply of users, with complex combination of optimized process members. Coal breakage is effected by selective breakage of coal mass with preset size of chipped pieces. Evacuation of loosened coal from stope by water flow is combined with its simultaneous cleaning in stope due to optimized angle of its inclination, size of chipped pieces and dosed volume of water supply. Coal is dewatered on flight conveyors with slotted sieves cleaned by flexible fastened to conveyor flights. Coal grading is carried out with the help of crushing-grading complex in form of gravity-shearing crusher of selective action and drag-slotted classifiers. Mechanical breakage of coal may be performed by boom-like working member with disk shearing cutters. EFFECT: efficient machineless process of underground coal cleaning. 3 cl, 1 dwg

Description

 The invention relates to the mining industry, in particular to the coal, and can be used on hydraulic shafts, hydro complexes and hydraulic sections.

 There is a method of underground hydromechanization of coal mining, including breaking off coal using explosives or a hydraulic monitor, hydrotransport through gutters, dewatering on scraper conveyors with a bottom made of bale sieves, clarification of water in mine workings and sedimentation tanks and pumping it into the faces (see Almaz N. V., Maidukov G.L., Grigoryuk E.V., Kuznetsov N.V. Enrichment and dehydration of coal in a hydraulic mine. M.: Nedra, 1971, pp. 102-105).

 The disadvantages of the method are: the breaking of coal is carried out either with the help of explosives, which is extremely unsafe, or with a hydraulic monitor that determines a high flow rate of water, while both methods of breaking do not allow optimizing the size of the cleaved coal mass, which excludes the possibility of carrying out the enrichment process of the rock mass directly in the filling, since coal and rock are almost completely removed by water from the entry and fall into the hydropower cycle, which determines the subsequent use of m tire coal beneficiation technology.

 There is a known method of coal mining, which we adopted as a prototype, including the extraction of coal by combines and its pressureless hydrotransport through gutters, screening, dehydration, underground dressing in washing troughs, the separation of the rock with its removal into the worked out space, dehydration of enriched coal on screens (The same source, S. 105-107, Fig. 20, 21). In the gutters, water is supplied from the water supply to the pumps.

 The disadvantage of this method is the multi-operation process and the presence of a significant fleet of processing technology equipment and related staff.

 The present invention is aimed at solving the problems of creating a machine-less technology for underground enrichment of coal produced by selective destruction of the array by an arrow-shaped working body, effective dehydration and its sorting by the most simple and reliable means.

 The tasks are solved in that they optimally integrate optimized technological units, while breaking is carried out by selective destruction of the coal mass of the deposit with a given chip size, the beaten coal is evacuated from the input by a stream of water with its enrichment in the input due to the optimized angle of inclination, size of the chip and dosed the volume of water supply, coal dehydration on a scraper conveyor with bobbin screens, cleaned by elastic elements attached to the conveyor scrapers, sorting coal with the help of a crushing and screening complex, made in the form of a gravity-chipping crusher of selective action and scraper-slotted classifiers.

 Indeed, partial underground coal beneficiation in a refueling without the use of equipment is possible only through the creation of certain technological conditions, namely, an optimized angle of inclination of the refueling, the amount of water supplied to it and a certain coal fineness class, i.e., the process of enrichment of bulk material is carried out ( rock mass) in a stream of water moving through the soil of the sunset in the regime that provides subsidence of the rock on the soil of the sunset. To ensure the yield of a certain class of coal, its destruction is carried out by a mechanically swept working body with disk shearing cutters, with the possibility of changing the distance between them, allowing changing the grade of coal over a wide range (see, for example, Prince. Prospects for the development of mining. XV International Mining Congress, Madrid, Spain, 1992, publishing director prof.Magnana, P., pp. 187-196).

 The drawing shows a diagram of the implementation of the method.

 The method is implemented as follows.

 Coal breakdown is carried out by a mechanical-hydraulic combine 1 with an arrow-shaped working body with disk shearing milling cutters, configured to break off coal of a certain particle size distribution (grade), which is optimal for the enrichment process in the entry, for which the angle of inclination of the input is optimized and the flow rate of the water supplied to the bottom is dosed.

 As a result, conditions are created in the entry under which coal particles are removed from the bottom by a stream of water and the rock settles on the entry soil. Of course, part of the fine rock is carried away by the flow of pulp. From the bottom, the water-coal slurry is transported through troughs 2 to the dewatering complex 3, which includes the conveyor drive head, inclined and horizontal scraper conveyors with bobbin screens, a housing made in the form of a hopper-container, while the idle branch of the scraper chain runs along at the top of the case, and the worker - at its bottom, under which a tray is installed for receiving and discharging discharged water. A rubber plate is attached to the scraper of the conveyor, which ensures cleansing of the bobbin screens from oil films when the scraper moves along the conveyor.

 Pressure water in the face is fed through pipelines 4 low-pressure pumps 5.

 The pulp enters the bunker of the dewatering complex 3, from which the coal is removed by scrapers and transported along the conveyor belt, where process water and sludge are discharged through the bottom from the shalt sieves, which fall into the sump and are sent through the chute 2 to the water clarification unit 6, which has sieves with a shallower gap than complex 3 (see the book by A. A. Atrushkevich et al. Hydrotransport of coal mines. M :, 1994, pp. 118-119, Fig. 3.5.). The clarified water from complex 6 enters the water collector 7 to the pump inlets 5. The dehydrated coal of complex 3 and the dehydrated sludge of complex 6 are fed to the main conveyors 8 or to the trolleys of the mine rail transport (not shown) for delivery to the skip lift and the delivery of coal to the surface complex.

 On the surface, the coal (if necessary) is crushed and sorted into classes using a crushing and screening complex, including a gravity-shearing crusher 9 of selective grinding, working in conjunction with a scraper-slotted classifier 10 (see RF Patent N 2082507 "Mobile crushing and screening complex "), which allocates a sub-sieve product of a certain class to a coal warehouse 11, and an over-sieve class of coal to a warehouse 12 for shipment to the respective consumers.

 In conclusion, we note that the proposed technology for coal mining due to its low operational efficiency is very effective when used in difficult mining and geological conditions of occurrence of coal seams, and also has environmental cleanliness and high safety.

Claims (3)

 1. A method of mechanohydraulic coal mining, including coal breaking, hydrotransport, enrichment, screening, dehydration and water supply to consumers, characterized in that they optimally combine optimized technological units, while breaking is carried out by selective destruction of the coal mass of the input with a given chip size, and evacuation beat off coal from the entry with a stream of water with its simultaneous enrichment in the entry due to the optimized angle of inclination, the size of the chip and the dosed volume Water supply and coal dehydration are carried out on a scraper conveyor with shalt screens, cleaned by elastic elements attached to conveyor scrapers; coal is sorted using a crushing and screening complex made in the form of a selective gravity-shearing crusher and scraper-slotted classifiers.  2. The method according to p. 1, characterized in that the mechanical destruction of coal is produced by an arrow-shaped working body with disk shearing cutters, the distance between which is set by spacer sleeves.  3. The method according to claim 2, characterized in that, in order to ensure enrichment in the separation zone of coal in the entry, its angle and volume of water are differentiated and optimized depending on the required grade of coal, the specific gravity of the host rocks.